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CC-18-3286
INCIDENT REPORTING SYSTEM Working Fire: Nr ARFF Only MIAMI-DADE FIRE RESCUE Alert 1: j FDID State —Inc Date Inc Time Inc No — Exposure _ 101032 FL 2019-08-18 21:10:56 9178080 000 Location: Street address: 9835 NE 2ND AVE MIAMI SHORES FL 33138 BASIC REPORT Page 1 Icdent Number: 9178080 Unit, Shift, Station, Battalion: Unit: E30 Shift: C Station: 30 Battalion: 03 Incident Type: 111-Building/House fire iAid Given/Received: None iSpecial Studies: Dates and Times: Unit Date/Time Resources: Apparatus Personnel Dispatch (First) M33 2019-08-18 21:12:07 Suppression 0 0 Arrival (First) (First) E30 2019-08-18 21:14:39 EMS 1 3 Clear (Last) AIR 2019-08-19 01:12:01 Other 1 1 Actions Taken: Primary (1): 11 -Extinguishment by fire service personnel -- Additional (2): NN -None Additional (3): NN -None Estimated Dollar Losses: Fire Casualties: Deaths Injuries Property: ($) 8000 E Fire Service 0 1 l Content: ($) 2000 Civilian 0 0 Detector:_._.__.._. Mixed Use Property: Not mixed use Property Use: 161 -Restaurant or cafeteria Person/Occupant/ Entity Involved: i (Owner: Business Name: GASTRO PUB Business Name: Phone: 7868637798 Phone: 3057423199 Person Name: CARLOS OROPEZA Owner Name: JUAN C LAGO Address 13707 SW 12 ST Address City, State, Zip: FL 33184 City, State, Zip: MDFR Requirements: Working Fire: Nr ARFF Only Hazmat Incident: N Alert 1: j Dive Incident: N Alert 2: I TRT Incident: N Alert 3: I EMS Report: Y Fuel Spill: Additional Pertinent Information/Narrative: Engine 30 arrived on scene established command and noticed restaurant windows full of smoke and a light haze coming out of front windows. Engine 30 forced entry on front entrance doors and stretched the 150' jump line into structure. After line was stretched to the rear of the structure and investigating further heat source and fire was found inside of wall with thermal imaging camera in front of restaurant. Also noted where heat source was found was an electrical lamp that was possibly under repair or construction. Also noted was a small handheld welding torch that was on table next to heat source. Fire in wall was extinguished and overhaul completed. Thermal imaging showed no other heat sources. Engine 30 crew completed overhaul and was sent to decon and rehab. Created By: Lieutenant KENNETH DIAZ CERTIFIED TRUE COPY of the electronic record maintained byis i -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:12 EDT 2019 C x) N Passed 1: 1Inspector Cc Failed Correction Needed El Re -Inspection Fee El No Additional Inspections can be scheduled untilre -inspection fee is paid. August 22, 2018 For Inspections plea INCIDENT REPORTING SYSTEM i MIAMI-DADE FIRE RESCUE FDID State Inc Date Inc Time Inc No - —.- Exposure — f -- I01032 FL 2019-08-18 21:10:56 9178080 000 Location: -- —9835 NE 2ND AVE MIAMI SHORES FL 33138 — FIRE REPORT Incident Number: 9178080 Unit, Shift, Station, Battalion: Unit: E30 Shift: C Station: 30 Battalion: 03 Property Details: On-site Materials or Products: On-site Material (1) On-site Material (2) On-site Material (3) Number of residential living units in building involved: Number of buildings involved: Acres burned: On-site Material Storage Use (1) On-site Material Storage Use (2) On-site Material Storage Use (3) Ignition: Area of Origin: 05 -Entranceway, lobby Heat Source: 13 -Electrical arcing i Item First Ignited: 67 -Pipe, duct, conduit, hose covering Fire Spread confined to object of origin Type of First Ignited: 41 -Plastic Cause of Ignition: Cause under investigation Factors Contributing to Ignition: Factor Contrib. to Ignition (1): 30 -Electrical failure, malfunction, other Additional Human Factors Contributing to Ignition: i None. Equipment Involved in Ignition: 212 -Electrical service supply wires from utility r Brand: Model: Serial #: Year: Equipment Power Source: 11 -Electrical line voltage (>= 50 volts) Equipment Portability: Stationary Fire Suppression Factors: Local Use: Created By: Lieutenant KENNETH DIAZ CERTIFIED TRUE COPY of the electronic record maintained by iami-Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:07 EDT 2019 INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE FDID _ State Inc Date Inc Time _ Inc No __ Exposure 01032 FL 2019-08-18 21:10:56 9178080 000 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 STRUCTURE FIRE REPORT Incident Number: 9178080 Unit, Shift, Station, Battalion: Unit: E30 Shift: C Station: 30 Battalion: 03 Structure Type: Enclosed building `Building Status: Under construction Building Height: Stories above grade: 1 Stories below grade: 0 Main Floor Size: Length (feet): 100 By width (feet): 25 Story of Fire Origin: 1 — ' Fire Spread: — Confined to object of origin Number of Stories Damaged by Flame: Minor Damage: Significant Damage: Heavy Damage: Extreme Damage: 1-24%) (25-49%) (50-74%) (75-100%) Type of Material Contributing to Flame Spread: Item contributing most to Flame Spread: I Type of Mat. contributing most to Flame Spread: Detector: f Presence: Undetermined Automatic Extinguishing System: I Presence: Undetermined Created By: Lieutenant KENNETH DIAZ CERTIFIED TRUE COPY of the electronic record maintainedby iami-Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:08 EDT 2019 C_ / FDID 01032 INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE State Inc Date_ Inc Time FL 2019-08- 18s -- — u 21:10:56 Inc No — _ — 9178080 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 APPUS REPORT Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: Y Expos) 000 j Unit, Shift, Station, Battalion: E Unit: E30 Shift: C Station: 30 Battalion: 03 i Dates and Times: Apparatus Type, Personnel and Use: f Dispatch: 2019-08-18 21:12:07 Type: 11 -Engine Arrival: 2019-08-18 21:14:39 Personnel: 4 Clear: 2019-08-19 00:25:54 Use: Suppression C Actions Taken: Primary (1): 11 -Extinguishment by fire service personnel Additional (2): NN -None Additional (3): NN -None Additional Pertinent Information/Narrative: Created By: Lieutenant KENNETH DIAZ -- — — CERTIFIED TRUE COPY of the electronic record maintained y Miami -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:10 EDT 2019 INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE FDID State Inc Date Inc Time Inc No_ — _ _ __ Exposure 101032 FL 2019-08-18 21:10:56 9178080 000 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 PARATUS REPORT ----____---- Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N 1 Unit, Shift, Station, Battalion: Unit: R19 Shift: C Station: 19 Battalion: 03 j Dates and Times: IApparatus Type, Personnel and Use: Dispatch: 2019-08-18 21:12:07 1 Type: 71 -Rescue unit I Arrival: 2019-08-18 21:17:51 Personnel: 3 Clear: 2019-08-18 23:15:39 Use: Suppression Actions Taken: Extinguishment by fire service personnel Salvage & overhaul Investigate Additional Pertinent Information/Narrative: R-19 arrived and was performed primary search. R-19 was later task to check for extensions and overhaul. Created By: Captain GONZALO J PAZ CERTIFIED TRUE COPY of the electronic record maintained by Mi mi -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:10 EDT 2019 INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE IncPDID ,State_ — J- -,Inc DateDate Time _Inc No _ Exposure 01032 FL 2019-08-18 21:10:56 9178080 000 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 APPARATUS REPORT Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N Unit, Shift, Station, Battalion: Unit: E27 Shift: C Station: 27 Battalion: 01 Dates and Times: Apparatus Type, Personnel and Use: Dispatch: 2019-08-18 21:12:07 Type; 11 -Engine Arrival: 2019-08-18 21:21:40 Personnel: 4 f Clear: 2019-08-18 23:59:59tJgg; Suppression r$ Actions Taken:_,— Salvage & overhaul Ventilate i j Decontaminate persons or equipment Additional Pertinent Information/Narrative: I E27 assisted E30 with ventilation, salvaoe, and decontamination of crews. Created By: Captain TODD I WITHERSPOON CERTIFIED TRUE COPY of the electronic record maintained Miami -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: -- Date Printed: Thu Sep 19 09:12:08 EDT 2019 INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE FDID State - Inc Date 01032 V FL 2019-08-18 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 APPARATUS REPORT Inc Time 21:10:56 Inc No _ _ , Exposure 9178080 000 j Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N Unit, Shift, Station, Battalion: Unit: A19 Shift: C Station: 19 Battalion: 03 f............_......_.__..__......_."'..________..._.__.._......___...__..__ Dates and Times: 1 Apparatus Type, Personnel and Use: Dispatch: 2019-08-18 21:12:07 Type: 12 -Truck or aerial Arrival: 2019-08-18 21:17:46 I Personnel: 4 Clear: 2019-08-18 22:33:02 ! USe: Suppression Actions Taken: Primary (1): sl -ventilate Additional (2): Additional (3): - Additional Pertinent Information/Narrative: f Created By: Lieutenant JASON K MOGHARI E CERTIFIED TRUE COPY of the electronic record maintained Miami -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: , A Date Printed: Thu Sep 19 09:12:07 EDT 2019 INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE FDID State Inc Date Inc Time Inc -No - 01032 FL ncNo01032FL2019-08-18 21:10:56 9178080 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 TUS REPORT Exposure 000 Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N Unit, Shift, Station, Battalion: Unit: B01 Shift: C Station: 21 Battalion: 01 Dates and Times: Apparatus Type, Personnel and Use: c Dispatch: 2019-08-18 21:15:44 Type: 92 -Chief officer car Arrival: 2019-08-18 21:29:54 Personnel: 1 Clear: 2019-08-18 23:50:50 Use: Otheri i Actions Taken: Primary (1): 55 -Establish safe area/Provide Safety Oversight/Incident Safety Officer E Additional (2): Additional (3): - Additional Pertinent Information/Narrative: assigned to incident safety officer Created By: Chief Fire Officer DAVID A FRAZIER CERTIFIED TRUE COPY of the electronic record maintaine by Miami -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:07 EDT 2019 INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE 1 j FDID - State Inc Date _ Inc Time Inc No Exposure 401032 FL 2019-08-18 21:10:56 9178080 000 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 APPARATUS REPORT 1 Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N Unit, Shift, Station, Battalion: Unit: AIR Shift: C Station: 13 Dates and Times: Apparatus Type, Personnel and Use: Dispatch: 2019-08-18 21:16:21 € Type: 61 -Breathing apparatus support t Arrival: 2019-08-18 21:52:44 Personnel: 2 i Clear: 2019-08-19 01:12:01 USe: Other i I Actions Taken: Primary (1): 56 -Provide air supply Additional (2): Additional (3): Battalion: 08 Additional Pertinent Information/Narrative: Created By: Lieutenant SCOTT R MULLIN _ CERTIFIED TRUE COPY of the electronic record maintained b Miami -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:08 EDT 2019 INCIDENT REPORTING SYSTEM MIAM I-DADE FIRE RESCUE FDID State Inc Y~ Inc Time_— _IncNo — Exposure `—_______ 01032 FL 2019-08-18 21:10:56 9178080 000 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 APPARATUS REPORT _ Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N Unit, Shift, Station, Battalion: Unit: E07 Shift: C Station: 07 Battalion: 05 Dates and Times:pp Type, A aratus T e, Personnel and Use: Dispatch: 2019-08-18 21:12:37Typg; 11 -Engine Arrival: 2019-08-18 21:18:12 Personnel: 4 fClear: 2019-08-18 23:14:00 Use: Suppression j Actions Taken: Primary (1): 76 -Provide water I Additional (2): 21 -Search Additional (3): 51 -ventilate Additional Pertinent Information/Narrative: Upon Engine #07 arrival checked for a working hydrant that was found around the corner northeast side of the original address. No water supply was ever made to attack engine. Then was tasked with forcing entry and primary search of B1 a business of worship. The search was complete and no extension of smoke or fire found. Then was tasked with mechanical ventilation of Alpha side. Created By: Lieutenant MAURICIO DIAZ — CERTIFIED TRUE COPY of the electronic record maintained by iami-Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:07 EDT 2019 ///W/ X INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE FDID State__ Inc Date 01032 FL 2019-08-18 1Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 PARATUS REPORT 21:10:56 9178080 Exposure i .__ 000 Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N j—Unit, Shift, Station, Battalion: Unit: B03 Shift: C Station: 20 Battalion: 03 Dates and Times: Apparatus Type, Personnel and Use: Dispatch: 2019-08-18 21:12:07 Type: 92-Chiefofficer car Arrival: 2019-08-18 21:18:52 Personnel: 1 Clear: 2019-08-18 22:24:59 Use: Other Actions Taken: Primary(1): 81 -incident command i Additional (2): - Additional (3): jAdditional Pertinent Information/Narrative: ii No other additional information. Created By: Chief Fire Officer DANIEL C BOLLINE III CERTIFIED TRUE COPY of the electronic record maintained y Miami -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:07 EDT 2019 INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE FDID—_ _ _ — - State _ Inc Date a _ _. _ Inc Time Inc No 01032 FL 2019-08-18 21:10:56 9178080 000 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 APPARATUS REPORT Incident Number: 9178080 _ Unit Date: 2019-08-18 EMS Report: N Unit, Shift, Station, Battalion: Unit: B05 Shift: C Station: 02 Battalion: 05 Dates and Times: Apparatus Type, Personnel and Use: Dispatch: 2019-08-18 21:12:37 Type: 92 -Chief officer car Arrival: 2019-08-18 21:24:58 Personnel: 1 Clear: 2019-08-18 22:26:06 Use: Suppression j Actions Taken: Primary (1): 81 -Incident command i Additional (2): - I Additional (3): - Additional Pertinent Information/Narrative: Battalion 5 arrived assumed Alpha division until fire was located and over haul was completed. Created By: Chief Fire Officer ARMANDO PESATURO CERTIFIED TRUE COPY of the electronic record maintained by ami -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:07 EDT 2019 i /v INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE FDID-- State_ _ _ Inc Date Inc Time T Inc No_ Exposure __ 101032 FL 2019-08-18 21:10:56 9178080 000 j Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 APPARATUS REPORT Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N Unit, Shift, Station, Battalion: Unit: M33 Shift: C Station: 33 Battalion: EMs Dates and Times: ; Apparatus Type, Personnel and Use: Dispatch: 2019-08-18 21:12:07 Type: 00 -Other apparatus/resource I Arrival: 2019-08-18 21:26.13 Personnel: 1 Clear: 2019-08-18 22:28:12 Use: Other Actions Taken: Primary (1): 88-Division/Group supervisor Additional (2): E. Additional (3): Additional Pertinent Information/Narrative: Rehab group Created By: Captain ANTWANE J MC CARTHY CERTIFIED TRUE COPY of the electronic record maintained by iami-Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:08 EDT 2019 C____ // / Td7 INCIDENT REPORTING SYSTEM MIAMI-DADE FIRE RESCUE FDID State Inc Date ^ Inc Time Inc No 01032 FL 2019-08-18 21:10:56 9178080 Exposure 000 Location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 f APPARATUS REPORT__. Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N Unit: E20 Shift: C Dates and Times: Dispatch: 2019-08-18 21:15:44 Arrival: 2019-08-18 21:26:03 Clear: 2019-08-18 22:06:13 Station: 20 Battalion: 03 Apparatus Type, Personnel and Use: Type: 11 -Engine Personnel: 4 Use: Suppression Actions Taken: Primary (1): 92 -Standby Additional (2): Additional (3): Additional Pertinent Information/Narrative: 1 Created By: Lieutenant GEORGE W LYSTER CERTIFIED TRUE COPY of the electronic record maintained by iami-Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau I Records Custodian: Date Printed: Thu Sep 19 09:12:07 EDT 2019 (/ i INCIDENT REPORTING SYSTEM f , MIAMI-DADE FIRE RESCUE FDID state Inc Date — Inc Time Inc No _ —i _ _ _ Exposure 101032 FL 2019-08-18 21:10:56 9178080 000 location: 9835 NE 2ND AVE MIAMI SHORES FL 33138 PARATUS REPORT Incident Number: 9178080 Unit Date: 2019-08-18 EMS Report: N i Unit, Shift, Station, Battalion: Unit: R18 Shift: C Station: 18 Battalion: 03 Dates and Times: J Apparatus Type, Personnel and Use: Dispatch: 2019-08-18 21:12:07 Type: 71 -Rescue unit Arrival: 2019-08-18 21:22:45 Personnel: 3 Clear: 2019-08-18 22:29:45 € Use: EMS Actions Taken: Primary (1): 92 -standby i Additional (2): Additional (3): Additional Pertinent Information/Narrative: Rescue 18 was on standby for medical. Created By: Lieutenant FREDRENA D STERLING CERTIFIED TRUE COPY of the electronic record maintained b Miami -Dade Fire Rescue Department. 9300 NW 41 Street, Doral FL 33178 Central Records Bureau Records Custodian: Date Printed: Thu Sep 19 09:12:07 EDT 2019 / Miami Shores Village 10050 NE 2 Ave Miami Shores FL 33138 305-795-2204 Issue Date: 04/17/2019 Location Address Parcel Number 9835 NE 2ND AVE, Miami Shores, FL 33138 1132060134380 Contacts Permit No.: CC -10-18-3286 Permit Type: Building (Commercial) Work ClossUkation: Alteration Permit Status: Approved Expiration: 10/14/2019 Ins ection Description: NEW PROPOSED RESTAURANT IN EXISTING RETAIL Valuation: $ 58,580.00 Requests: BUILDING. DINING, BAR & FULL KITCHEN. UNIT#9835 VS -762-4949 BUSINESS NAME: SINS Total Sq Feet: 2,480.00 Fees 9801 PARK LLC Owner 4141 NE 2 AVE 204 A, MIAMI, FL 33137 J.C. & ASSOCIATES GROUP, INC Contractor JUAN CARLOS LAGO 10820 SW 200 DR 100, MIAMI, FL 33157 Business: 3052538225 Other: 3057423199 35.40 Certificate of Occupancy (Commercial) 200.00 Ins ection Description: NEW PROPOSED RESTAURANT IN EXISTING RETAIL Valuation: $ 58,580.00 Requests: BUILDING. DINING, BAR & FULL KITCHEN. UNIT#9835 VS -762-4949 BUSINESS NAME: SINS Total Sq Feet: 2,480.00 Fees Amount CCF 35.40 Certificate of Occupancy (Commercial) 200.00 Commercial Application Fee 200.00 DBPR Fee 26.36 DCA Fee 17.57 Education Surcharge 11.80 Permit Fee 1,557.40 Planning and Zoning Review Fee 50.00 Scanning Fee 96.00 Structural Review ($90) 90.00 Technology Fee 43.94 Total: 2,328.47 Payments Date Paid Amt Paid Total Fees 2,328.47 Check # 20232 10/25/2018 $200.00 Check # 1046 04/17/2019 $2,128.47 Amount Due: 0.00 Building Department Copy In consideration of the issuance to me of this permit, 1 agree to perform the work covered hereunder in compliance with all ordinances and regulations pertaining thereto and in strict conformity with the plans, drawings, statements or specifications submitted to the proper authorities of Miami Shores Village. In accepting this permit I assume responsibility for all work done by either myself, my agent, servants, or employes. I understand that separate permits are required for ELECTRICAL, PLUMBING, MECHANICAL, WINDOWS, DOORS, ROOFING and SWIMMING POOL work. OWNERS AFFIDAVIT: I certify that all the foregoing information is accurate and that all work will be done in compliance with all applicable laws regulating construction and zoning. Futhermore, I authorize the above named contradoto de work stated. , Authorized Signature: Owner / Applicant / Contractor / Date April 17, 2019 Page 2 of 2 BUILDING PERMIT APPLICATION Miami Shores Village "'JL 400 5 01 Building Department10050N.E.2nd Avenue, Miami Shores, Florida 33138--- Tel: (305) 795-2204 Fax: (305) 756-8972 INSPECTION LINE PHONE NUMBER: (305) 762-4949 FBC 20 C: - Master Permit No. W A g - 3 Sub Permit No. BUILDING ELECTRICS ROOFING REVISION EXTENSION RENEWAL PLUMBING MECHANICAL PUBLIC WORKS [:]CHANGE OF CANCELLATION SHOP CONTRACTOR DRAWINGS JOB ADDRESS: R t 3 5 l /.,F City: Miami Shores County: Miami Dade Zip: 331 - Folio/Parcel#: - 32 a-o! 3 ' 3 iy Is the Building Historically Designated: Yes NO Q i Occupancy Type: V Load: Construction Type: Flood Zone: )c BFE: Q FFE: OWNER: Name (Fee Simple Titleholder): libol pliz-k 1- L -C Phone#: ;;o515515 Address: A 1!'1 E- 2at ' City: Tenant/Lessee Name: Iry State: 4:_ Zip: ?7:31 f!5-7-- i'r2. Phone#: -7,156 x'/7,Z 7 M Email: rwo jfb7?I>1 JS"l-GbLv 1•Ge r,' CONTRACTOR: Company Name: 1C 4Phone#: 3os%Q-Z 31 q Address: 774 f GJ l2zAvi- City: ice( tkvyt l ^ State: Zip: Qualifier Name: U*7_0 Cn,,e.>Co5 U Phone#: 14.2 3/11 i State Certification or Registration #: Certificate of Competency #: DESIGNER: Arch ite t/EEn'giiineeee'r:: N LO 151 bLls C 9 Vfs -60114Phone#: `'y +b+455R(p Address: "/SW 2. City: M {gym{ State: Ft— Zip: 'b 3 % Value of Work for this Permit: $ qf55?j '*Square Linear Footage of Work: 2.4-9K ! iG- Type of Work: Addition ® Alteration New Repair/Replace Demolition Description of Work: X670 Pp_oPoSs® P4v5r 09A*& IN &CrsrJrZf3()Jt Djgrp , A Specify color of color thru tile: Submittal Fee $ GZCJO , Permit Fee $ t ` J 9; • Q CCF $ S q C) CO/CC $ r (0 GO Scanning Fee $ /• Op i 1 Radon Fee $ I DBPR $ 2, 6 • % _ Notary $ CC Technology Fee $ (t 3 ` I Training/Education Fee $ ' 5 Double Fee $ Structural Reviews .$ 9 d • Bond $ C70 TOTAL FEE NOW DUE $ I Revised02/24/2014) Bonding Company's Name (if applicable) Bonding Company's Address City State Mortgage Lender's Name (if applicable) _ Mortgage Lender's Address City State Zip Zip Application is hereby made to obtain a permit to do the work and installations as indicated. I certify that no work or installation has commenced prior to the issuance of a permit and that all work will be performed to meet the standards of all laws regulating construction in this jurisdiction. I understand that a separate permit must be secured for ELECTRIC, PLUMBING, SIGNS, POOLS, FURNACES, BOILERS, HEATERS, TANKS, AIR CONDITIONERS, ETC..... OWNER'S AFFIDAVIT: I certify that all the foregoing information is accurate and that all work will be done in compliance with all applicable laws regulating construction and zoning. F. WARNING" TO OWNER: YOUR FAILURE TO RECORD A NOTICE OF COMMENCEMENT MAY RESULT IN YOUR PAYING TWICE FOR IMPROVEMENTS TO YOUR PROPERTY. IF YOU INTEND TO OBTAIN FINANCING, CONSULT WITH YOUR LENDER OR AN ATTORNEY BEFORE RECORDING YOUR NOTICE OF COMMENCEMENT." Notice to Applicant: As a condition to the issuance of a building permit with an estimated value `exceeding $2500,` the applicant must promise in good faith that a copy of the notice of commencement and construction lien law brochure will be delivered to the person whose property is subject to attachment. Also, a certified copy of the recorded notice of commencement must be posted at'the job site for the first inspection which occurs seven (7) days after the building permit is issued. In the absence of such posted notice, the inspection will not be approved and a reinspection fee will be charged. Z Cignature i OWNER or AGENT The foregoing instrument was acknowledged before me this day of 20 by Q who is personally known to me or who has produced as identific ton and who did take an oath. NOTARY BLI Pri Signature (644 VCO CTOR t The foregoing instrument was acknowledged before me this JS day of S` 20 by who is personally, known to me or who has produced T as identificat' n and who di take an oath. s NOTARY PU C: nl \ Sign:] Print: C;Nrcv+•••. N#FF 928131 Seal: ;_; MY coMMIS I Seal: i EXPIRES: October 15, 2019 r = Public Underwriters e Bonded Thu Nota APPROVED BY Plans Examiner 16 CARCUNA R. HERNANDEZ MY COMi;41SS ON # FF 923131 EXPIRES: Octcber 15, 2019 rind Thni Nc;tary Public Underwriters V Zoning I)dJS Structural Review Clerk Revised02/24/2014) Scope: Interior Tenant Improvement of existing cleared 2410 SF shell. The project consists of a Restaurant/Bar with full kitchen and two bathrooms, all as per Permit plans # CC -10-18-3286. All labor, equipment and materials are included in the line item, unless otherwise noted. METAL FRAMING WALLS L&M 8,000 9999 11,000 HVAC EQUIPMENT 12,500 HVAC DUCTWORK 8,500 HVAC INSTALLATION 8,800 9999 9999,. PLUMBING FIXTURES & FINISHES 6,750 PLUMBING INSTALLATION 7,500 ELECTRICAL ROUGH WIRING & SYSTEMS 11,250 6,800 JC & ASSOCIATES GROUP C: ELECTRICAL LOW VOLTAGE SYSTEM CCN/TV/DATA L•• HOOD EXHAUST SYSTEM 7,000 FIRE SUPPRESSION SYSTEM 6,000 CGC 057500 9999 12,500 SUB — TOTAL see Overhead 10% 13,540.00 Profit 10% 13,540.00 TOTAL 162,480.00 99,69. 9999 9999. 9999 9999 9999.. March 12, 2019• 9999.. 9 9969 9999.. 699666 RE: Project: Sins Gastro Bar Restaurant 9999 Property Address: 9835 NE 2"d Ave Miami Shores, FL 33138 Scope: Interior Tenant Improvement of existing cleared 2410 SF shell. The project consists of a Restaurant/Bar with full kitchen and two bathrooms, all as per Permit plans # CC -10-18-3286. All labor, equipment and materials are included in the line item, unless otherwise noted. METAL FRAMING WALLS L&M 8,000 INTERIROR FINISHES L&M 11,000 HVAC EQUIPMENT 12,500 HVAC DUCTWORK 8,500 HVAC INSTALLATION 8,800 PLUMBING WATER & SANITARY ROUGHING 7,200 PLUMBING FIXTURES & FINISHES 6,750 PLUMBING INSTALLATION 7,500 ELECTRICAL ROUGH WIRING & SYSTEMS 11,250 ELECTRICAL FIXTURES 6,800 ELECTRICAL INSTALLATION 9,900 ELECTRICAL LOW VOLTAGE SYSTEM CCN/TV/DATA 5,800 HOOD EXHAUST SYSTEM 7,000 FIRE SUPPRESSION SYSTEM 6,000 HOOD & FIRE SUPRESSION INSTALLATION 5,900 BUILT-IN APPLIANCES & FIXTURES 12,500 SUB — TOTAL 135,400 Overhead 10% 13,540.00 Profit 10% 13,540.00 TOTAL 162,480.00 10820 SW 200' Drive Suite: Office Miami, FL 33157 305-253-8225 • 305-252-18 fax 9 305-742-3199 cell if 1N L i, SiS1ONAL ENG ``. Illllllllt0 FLORIDA BUILDING CODE, ENERGY CONSERVATION CHAPTER C4—COMMERCIAL ENERGY EFFICIENCY Form 0402-2417 ALTERATIONS, RENOVATIONS and BUILDING SYSTEMS Climate Zone: 1A Project Name: New Restaurant in Existing Building Occupancy type: Restaurant Address: 9835 NE 2nd Avenue Alteration = Renoiration (Buildin j NsIAT = .... City Zip Code. Miami Shores, FL, 33133 Building Permit No.!- • • • • • • • Builder Permitting Office: • Owner' BUILDING ENVELOPE INFORMATION (Where changed) Requirement Eificiencp • • • Envelope Component Description Location Unit' " FfAuirLd lnsb?lfd Rooftype ExistingTable Table C402.4.4 or U-factor or • • • 0.- Exla*V: 0402.',.3 R_vat,re Root refiectancelEmiltance Solar reflectance ' • low slope roofs) Existingg Table 0402.3 Thermal emittance ExiSting Wald typeaboveradeg Existingg Table C402.1.4 or Table C402.1.3 51.1-tactor orR-value Existing IMa11, below grade Existing Existing Floor type Existing Existing Vertical fenestrations Existing 5 U-factor Existing SHGC ExistingTable0402.4 5 U-factor ExistingSkylightsExisting5SHGCExisting BUILDING SYSTEMS INFORMATION [for HVAC, service hot water or pool heating, lighting systems and replacement fenestration (C501.7)] Requirement EfficiencySystemtype (describe system) Location Unit Required Installed Air-conditioning system Package Units Tables C403.2.3 (1-3, 6-8, 9-11) SEER orEER,IEER 11 EER 11 EER Heating system Electric Strip Tables 0403.2.3 (2-6) HSPF or COP AFUE, E, or E, Ventilationlair handling system Tables C403.2.12 1(1-2) Fan power (cfm) Ducts Metal Location: Open Space Table C403.2.9..1 R-value Piping Fluid design operating temp: Table C403.2.10 Inches Hot water Table C404.2 EF. Et. COP Lighting Space types: (appendlist) I Table C405.4.2 (1 or 2) Lighting power density Fenestrations: Enter information in BUILDING ENVELOPE INFORMATION box above. Other: COMPLIANCE IS BYANS11ASHRAE11ESNA 90.1= Submit alternate form or append documents as needed) 1 hereby certify that the plans and specifications covered bi taflo &P withompliance the ` ( Review of plans and specifications covered by this Florida Building Cade. Energ rvauon. , C•E•N S tS calculation indicates compliance with (lie Florida Building PREPARED BY.' Code. Energy Conservation. Before construction is DATE. /O S f No. 754 completed. this building writ be inspected for compliance I hereby certify that this in is in compliance P&h t F rids Buil dan Ctsde; Energy _ in accordance with Section 553.908, FS. Conservation: BUILDING OFFICIAL: OWNER/AGENT ,A ••• .' DATE.' DATE: . STATE OF (/ i, SiS1ONAL ENG ``. Illllllllt0 RACDZT Commercial Ultra® Series Nominal Sizes 7.5, 8.5, 10 & 12.5 Tons Standard VFD and optional HumidiDrye Technology ASHRAE 90.1-2013 Compliant Models RACDZS Commercial Achiever Plus® Series Nominal Sizes 7.5, 8.5, 10 & 12.5 Tons Optional VFD and HumidiDry® Technology ASHRAE 90.1-2007 Compliant Models ASHRAE 90.1-2013 Compliant Models RACDZR Commercial Achiever® Series Nominal Sizes 7.5, 8.5 & 10 Tons ASHRAE 90.1-2007 Compliant Models ump FORM NO. S22-963 REV. 2 Table of Contents RACD Series Unit Features and Benefits..................................................................................3-11 Model Number Identification..................................................................................12 Options..................................................................................................................13 Selection Procedure..........................................................................................,..14 General Data 6 ZR Series•'1' ZSSeries............................................................................................................16 ZT ............................................................................................................1 0000 JSeries.. Gross Systems Performance Data 0000.. ZRSeries......................................................................................................1' 21 • • ZSSeries......................................................................................................21 l2t: 0 ZTSeries ................................................ ....................... ................................. 2-29 •. HumidiDryTM (Reheat) Gross Systems Performance Data ZSSeries......................................................................................................30-33 ZTSeries........................................................................................................34-37 Airflow Performance Data................................................................................38-53 Electrical Data ZRSeries......................................................................................................54-56 ZSSeries .................................................. --.......................... ---.................57-60 ZTSeries ..................... ........... ....................................................... ................. 61-64 ElectricHeater Kits .......... ................ .................................................................. 65-78 DimensionalData ................................ .............................................................. 79-81 Field Installed Accessories..............................................................................82-103 Guide Specifications....................................................................................104-109 LimitedWarranty..................................................................................................110 000.. 0000.. 0000 0000 0000.. 0000. . 0000. 0 0 0 0 . . 0 0 0 0 . 0000.. 0 Unit Features & Benefits RACD Series RACD STANDARD FEATURES INCLUDE: Factory charged with R -410A HFC refrigerant Wired and run tested Scroll compressors with internal line break overload and high pressure protection Model RACDZR has a single -stage compressor Models RACDZS and RACDZT have two-stage compressor Convertible airflow - vertical down flow or horizontal side flow Forkable base rails for easy handling and lifting Cooling operation up to 125°F ambient MicroChannel evaporator and condenser coil PlusOne® ServiceSmart package includes: Qwik-Change Flex -Fit Rack Qwik-Slide Blower Assembly Qwik-Clean Drain Pan Overflow condensate sensor PlusOne® Diagnostics with Dual 7 -Segment LED Display to meet code compliance One-piece top cover and base pan with drawn supply and return opening Two-piece control door a turn fasteners on filter access door Color -coded and labeled wiring External lockable gauge ports TXV refrigerant metering system Solid -core liquid line filter drier High pressure and low pressure/loss of charge protection with built in Smart Logic Insulation encapsulated throughout entire unit High performance belt drive motor with variable pitch pulleys and quick adjust belt system Variable Frequency Drive (VFD) blower is standard on Model RACDZT and optional on model RACDZS New product footprint with matching connections Improved factory lead times Unit Features & Benefits RACD Series FACTORY INSTALLED OPTIONS: Louvered panels Hinged access doors PlusOne® HumidiDry' Dehumidification System (ZS/ZT) Low ambient/freeze stat Non -powered convenience outlet Economizer (Title 24 and ASHRAE 90.1 2013 Compliant) Supply and return smoke detector Return smoke detector ElectroFin' E -Coat for Microchannel Condenser Coil ClearControlTm Direct Digital Control (DDC) Comfort Alert/Phase monitor Vertical economizer FIELD INSTALLED ACCESSORY EQUIPMENT- Model QUIPMENT Accessory Model Number Factory Installation Available? Economizer w/Single Enthalpy (Downflow) RXRD-01MDDAM3 Yes Economizer w/Single Enthalpy (Horizontal) RXRD-01MDHAM3 No Economizer-w/Single Enthalpy Downflow) DDC RXRD-01MDDBM3 Yes Economizer w/Single Enthalpy Horizontal) DDC RXRD-01MDHBM3 No Dual Enthalpy Kit RXRX-BV01 No Dual Enthalpy Kit DDC RXRX-BV02 No Carbon Dioxide Sensor (Wall Mount) RXRX-AR02 No Power Exhaust RXRX-CDF01C No Power Exhaust RXRX-CDF01 D No Manual Fresh Air Damper RXRF-ADA1 No Motorized Fresh Air Damper RXRF-ADB1 No Motorized Fresh Air Damper (DDC) RXRF-ADC1 No Roofcurb, 14" RXKG-DDD14 No Roofcurb, 24" RXKG-DDD24 No Roofcurb Adapter RXRX-DDCAE No Concentric Diffuser 7.5/8.5 Ton Flush RXRN-AEF2000 No Concentric Diffuser 10.0 Ton Flush RXRN-AEF3415 No Concentric Diffuser 12.5 Ton Flush RXRN-AEF3618 No Concentric Diffuser 7.5/8.5 Ton Drop RXRN-AED2000 No Concentric Diffuser 10.0 Ton Drop RXRN-AED3415 No Concentric Diffuser 12.5 Ton Drop RXRN-AED3618 No Concentric Adapter 7.5/8.5 Ton Drop RXMC-DD01 No Concentric Adapter 10 Ton Drop RXMC-DD02 No Concentric Adapter 12.5 Ton Drop RXMC-DD03 No Outdoor Coil Louver Kit - ACD/090/102/120 RXRX-ADD04A Yes Outdoor Coil Louver Kit - AGD150 RXRX-ADD04B Yes Unwired Convenience Outlet RXRX-BN01 Yes Unfused Service Disconnect RXRX-BP01 Yes Comfort Alert (1 Per Compressor) RXRX-AZ01 DDC Yes Comfort Alert (1 Per Compressor) RXRZ-AZ02 Yes BACnet Communication Card RXRX-AY01 No See single point wiring kit model nomenclature on page 83. Variable Frequency Drive Kit model nomenclature on page 83. 4 RELY ON RUUD.TM 00 .. Accessory .... Model, • • • Numb er • • • Factory Ihstallatipr, Available? LonWorks Communication Card , XF-AY02 • • No ; • Room Humidity Sensor ' Wi -*ZNS4 . • No • • Room Temperature and Relative • Humidity Sensor , t-:NS5 • • 7: No • Low -Ambient Control Kit . Jio-A04 s Yes Freeze Stat Kit • R R AM01 • Yes • • Variable Frequency Drive Kit* See model number break down below RXRX-ACO2 • No • fRXRAAC03 ,•' No ' RXRX-AC05 ' No RXRX-AD02 No RXRX-AD03 No RXRX-AD05 No RXRX-0002 No RXRX-CC03 No RXRX-CC05 No RXRX-CD02 No RXRX-CD03 No RXRX-CD05 No Electric Heater Kits RXJJ-DD10CP Yes RXJJ-DD15CP Yes RXJJ-DD20CP Yes RXJJ-DD30CP Yes RXJJ-DD40CP Yes RXJJ-DD10DNV Yes RXJJ-DD15DNV Yes RXJJ-DD20DNV Yes RXJJ-DD30DNV Yes RXJJ-DD40DNV Yes Single Point Wiring Kit* RXJX-AC0605 No RXJX-AC0805 No RXJX-AD0605 No RXJX-AC0909 No RXJX-AD0609 No Cabinet and Foundation Outwardly, the large Ruud® Commercial Series label (0) identifies the brand to the customer. The sheet -metal cabinet (2 ) uses 18 -gauge material for structural components with an under- lying coat of G90. To ensure the leak -proof integrity of these units, the design utilizes a one-piece top with a 1/8" drip lip (s) as well as gasket -protected panels and screws. The Ruud hail guard optional) (®) sets the standard for coil protection in the industry. Electro deposition, baked -on enamel that is tested to withstand a rigorous 1000 -hour salt spray test, per ASTM 13117. Anything built to last must start with the right foundation. Follow- ing that model, the foundation is comprised of 14 -gauge, com- mercial -grade, full perimeter base rails (e) that integrate fork slots and rigging holes to save set-up time on the job site. Easy Installation The Renaissance line features a new footprint that simplifies the replacement process by eliminating the need for a new curb adapter and being able to match inlet, outlet and electrical con- nections of the most common/industry-standard configurations. Base Pan The base pan is stamped to form a 7/8" flange around the supply and return cover, which eliminates the wont' of water entering the conditioned space (©). All insulation is secured with both adhe- sive and mechanical fasteners, and all edges are hidden. Drain Pan Unit Features & Benefits RACD Series 0 • 0 0 0 • 0000•. 0000 00.00• 0000•. 0 • 0 0 • 0000 0 0 00000 90 . 0000.• 0000.• 0000.• 00 The Qwik-Clean Drain Pan T11 () is made from a composite material that resists the growth of harmful bacteria. With both side and center drain options, the drain pan slides out completely for easy cleaning. It also features a standard overflow switch. Test Standards During development, each unit was tested to U.L. 1995, AHRI 340-360 as well as other Ruud -required reliability tests. Ruud adheres to stringent ISO 9002 quality procedures, and each unit bears the U.L. and AHRI certification labels located on the unit nameplate. Contractors can be assured that when a Ruud pack- age unit arrives at the job, it is ready to go with a factory charge and quality checks. Each unit also proudly displays the "Made in the USA" designation. Easy Access All major compartments are easily accessible from the front of the unit: the electrical compartment, blower compartment, heating section, and outdoor section. Each compartment has mechanical fasteners. Panels are permanently embossed with the compart- ment name (e.g. control/filter access, blower access, and electric heat access). The filter compartment is accessed through a large, mechanically fastened panel. Information is readily available on the outside of the panel, with a nameplate that contains the model and serial numbers, electrical data, and other important unit information. Hinged access is available as an option for the electrical, blower, and filter compartments. RELY ON RUUD.'" 5 Unit,Features & Benefits RACD Series Charging Charts, Wiring Diagrams, & Labels Filter Rack Located within the filter compartment, the Qwik-Change Flex -Fit Rack TM (s) allows easy changeover between 2" and 4" standard size and readily available filters. Blower Assembly Removing three screws provides full access to the blower compartment. Inside, the Qwik-Slide Blower AssemblyTM (lo) is incredibly easy to access and remove. This makes servicing internal components such as blower motor, TXV, and microchannel coil much easier. The entire assembly slides out by removing the 3/8" screws from the blower retention bracket. The adjustable motor pulley (Fi) can easily be adjusted by loosening the bolts on either side of the motor mount. Removing the bolts allows for easy removal of the blower pulley by pushing the blower assembly up to loosen the belt. Once the pulley is removed, the motor sheave can be adjusted to the desired number of turns, ranging from 0 to 6 turns open. Where the demands for the job require high static, Ruud offers drives that deliver nominal airflow up to 2" of static. By referring to the airflow performance tables listed in the installation instructions, proper static pressure and CFM requirements can be dialed in. The scroll housing (i2) and blower scroll provide quiet and efficient airflow. The blower sheave is secured by an "H" bushing that firmly secures the pulley to the blower shaft, resulting in years of trouble-free operation. The "H" bushing allows for easy removal of the blower pulley from the shaft. This is an improvement from a set screw, which can score the shaft and create burrs that make blower -pulley removal difficult. 6 RELY DN RUUD.'" High and Low Pressure Switches & Freeze Stat High pressure (ie.) and low pressure (T4) switches are standard. They are located in the outdoor section along with the low -ambient control (M). The optional Freeze Stat (is) (standard on models with ClearControo, is clipped onto the suction line in the blower compartment. The low ambient control allows the compressor to operate down to 0 degrees ambient temperaturt.4.*jpfing the outdoor fans on high pressure. The hiigtVressuTe switch shuts M the compressors if pressures exceeding,610 PSIS-ffe detected. • • The low-pressure switch shuts offetlR* seenpressois if lew pressti" • • • is detected due to loss of charge. "iin Smart Logic reduces • nuisance calls by only shutting offcccipressors after the third 0 • detection. The freeze stat protect' WV p?)mpre$sof+f.Ae evapc,... rator coil gets too cold (below frVzjppjaue to low ajrjlpw. ..:.. • MicroChannel Evaporator $ TXV The Microchannel Evaporator (n ) is accessible through the blower compartment, and through the filter rack, to simplify cleaning. The evaporator uses microchannel technology for maximum heat transfer, light weight, fewer manu- ally brazed connections and reduced refrigerant charge. The TXV metering device maintains superheat over a wide range of varying temperatures optimizing unit performance for all conditions. Control Box ClearControlTM The optional ClearControlT"" system consisting of a rooftop unit controller, temperature sensors, and pressure sensors, allows real-time monitoring and communication between rooftop units. The Rooftop Unit Controller (RTU -C) that is factory mounted and wired into the control panel. The RTU -C is a solid-state, micro- processor -based control board that provides flexible control and extensive diagnostics for all unit functions. The RTU -C, using proportional/integral control algorithms, performs specific unit functions that govern unit operation in response to zone condi- tions, system temperatures, system pressures, ambient condi- tions, and electrical inputs. The RTU -C features a 16 x 2 character LCD display and a five -button keypad for local configuration and direct diagnosis of the system (®). Features include a clogged filter switch (CFS), fan proving switch (FPS), return air temperature sensor (RAT), discharge air temperature sensor (DAH and out- door air temperature sensor (OAT). Freeze sensors (FS) are used in place of freeze stats to allow measurement of refrigerant suc- tion line temperatures. Unit Features & Benefits RACD Series The RACD with the RTU -C is specifically designed to be applied in four distinct applications: 1. BACnet Communication — The RACD is compatible with a third party building management system that supports the BACnet Application Specific Controller device profile, with the use of a field installed BACnet CommunicItior.1f2dule. The BACnet Communication Module plugs onto the unit RTIXI:• • • • controller and allows commumicat4n betweeh 4he RTU -C and the BACnet MSTP network.Azor"sensor a. 64enet network • zone sensor, a BACnet therrip5l4jor DDC coratroller may be used to send the zone tempe"prp or therw pstai demands to • the RTU -C. The BACnet Co%gi."dation ICodWp, It compWjib)" with MSTP EIA -485 daisy chain networks comr4ippicatina4t; • •' 38.4 bps. It is compatible witht Misted pair,• h ieldjd cables • 2. LonWorks Communication— the RACD is com patible yji"; • a third party building management system 4hatsapports the • LonMark Space Comfort CcLtro{ter4SCC) functional profi6w* • • LonMark Discharge Air Contrd rer (UAC) furic'tioA.profile.This • is accomplished with a field installed LonMa"communication module. The LonMark Communication Module plugs onto the RTU -C controller and allows communication between the RTU -C and a LonWorks network. A zone sensor, a LonTalk network zone sensor, or a LonTalk thermostat or DDC controller may be used to send the zone temperature or thermostat demands to the RTU -C. The LonMark Communication Module utilizes an FTT-10A free topology transceiver communicating at 78.8 kbps. It is compatible with Echelon qualified, twisted pair cable, Belden 8471, or NEMA Level 4 cables. The module can com- municate up to 1640 feet with no repeater. The LonWorks limit of 64 nodes per segment applies to this device. 3. 24V Thermostat Compatibility — The RACD is compatible with a programmable 24 volt thermostat. Connections are made via conventional thermostat screw terminals. Extensive unit status and diagnostics are displayed on the LCD screen of the RTU -C. 4. Zone Sensor Compatibility — The RACD is compatible with a zone sensor and a mechanical or solid state time clock con- nected to the RTU -C. Extensive unit status and diagnostics are displayed on the LCD screen of the RTU -C. ComfortAlert® A factory or field installed Comfort Alert@ (21) module is available for power phase -monitoring protection and additional compressor diagnostics. The alarms can be displayed on the RTU -C display, through the (BAS) network, or connected to the "L -Terminal" of a thermostat for notification. RELY ON RUUD.TM 7 Unit Features & Benefits RACD Series Variable Frequency Drive The supply fan Variable Frequency Drive (VFD) (Q) optimizes energy usage year round by providing a lower speed for first stage cooling operation, improving IEER's over the conventional constant fan system. Operating in the constant fan mode at the reduced speed can use as little as 1/5 of the energy of a conventional constant fan system. Also, by operating at a lower speed on first -stage cooling, up to 126% more moisture !s removed, improving comfort during low load operation. VFD comes standard in ZT models and is a factory or field installed option in ZS models. The VFD supply fan factory option meets California Title 24 and ASHRAE 90.1-2016 requirements for multi blower speed control. VFD also ramps up to the desired speed, reducing stress on the supply fan components and noise from a sudden inrush of air. Because the airflow is cut in half during first stage cooling and constant fan operation, noise is much less during these modes of operation. Convenience Outlet, Disconnect, & Circuit Breaker For added convenience in the field, factory -installed options of powered and non -powered convenience outlet (®), disconnect 2a) and circuit breakers are available. Low and high voltage can enter from the side or through the base. Low -voltage connections are made through the low -voltage terminal strip. For ease of access, the U.L.-required low voltage barrier can be temporarily removed for low -voltage termination and then reinstalled. The high-voltage connection is terminated at the number 1 compressor contactor. The suggested mounting for the field -installed disconnect or circuit breaker is on the exterior side of the electrical control box. r TMRELYONRUUD. External Lockable Gauge Ports Compressor The compressor compartment houses the heart- beat of the unit. The scroll compressor (27 known for its long life and for reliable, quie and efficient operation. The suction and discharge lines are designed with shock loops (®) to absorb the strain and stress that the starting torque, steady state operation, and shut -down cycle impose on the refrigerant tubing. ZS and ZT units have two stages of efficient cooling oper- ation in which the first stage is approxi- mately 50% of second stage. Each unit comes standard with a filter dryer. Condenser Fans The condenser fan motors (®) can easily be accessed and main- tained through the top of the unit. A down -mount fan provides corrosion protection and easy removal. The polarized plug con- nection allows the motor to be changed quickly and eliminates the need to snake wires through the unit. MicroChannel Condenser Technology The outdoor coil uses the latest microchannel technology (®) for the most effective method of heat transfer. The outdoor coil is pro- tected by optional louvered panels, which allow unobstructed airflow while protecting the unit from both the environment and vandalism. Coil Coating Every unit offers the option of factory -applied ElectroFin® E -Coat condenser coating (fff) that delivers superior corrosion resistance for outdoor coils to operate in the harsh- est of environments. Unit Features & Benefits RACD Series 0".'.-000000 Economizer and Damper,% • • 0000 Each unit is designed for both dQwg flow or h'oxizwaal applica-..:. tions (az) for job configuration fLeXiJp:iUyThe return gir compartment . can also contain -an economizer..Wr unit is pry-wod for td(? economizer to aiiow quick, plug-irl 0&Ilatior: A%iAle as a • • factory -installed option, the economizer provides fry fooling gyp• • 000 . outdoor conditions are suitable an; l0 also provides flesh air to meet local requirements. It comes standard with ' • • • • single enthalpy controls, which;caTWE: '. upgraded to dual enthalpy easily in the field. The direct drive actualpr combined with gear drive • • • • • • + ' dampers has eliminated the need for linkage adjust- ment in the field. The economizer control has a minimum + position set ; point, an outdoor -air set point, a mixed -air _ set point, and a CO2 set point. Barometric relief is stan- dard on all economizers. Power Exhaust is easily field -installed. The power exhaust is housed in the barometric relief opening and is easily slipped in with a plugin assembly. The wire harness to the economizer also has accommodations for a smoke detector. The damper minimum position, actual damper position, power exhaust on/off set point, mixed air temperature limit set point, and Demand Controlled Ventilation (DCV) set point can be read and adjusted at the unit controller display or remotely through a net- work connection. The Space CO2 level, mixed air temperature, and Economizer Status (free cooling available, single or dual enthalpy) can be read at the unit controller display or remotely through a network connection. Economizer faults will trigger a network alarm and can be read at the unit controller display or remotely through a network connection. Unit Features & Benefits RACD Series Roofcurb The Ruud roofcurb ([3)) is made for tool -less assembly at the jobsite by engaging tabs in slots of adjacent curb sides, which makes the assembly process quick and easy. 000 . Oe 00 HUMIDIDRY® SYSTEM FEATURES HumidiDry is Ruud's exclusive dehumidification package unit solution. It delivers maximum humidity control without compromising desired temperature set point for a high degree of comfort. HumidiDry maintains humidity levels at a desired set point when there's little or no demand for air conditioning. The HumidiDry rooftop unit is controlled by a thermostat and humidistat. The thermostat takes priority on single -stage system. When the thermostat is activated by temperatures that exceed it set point, HumidiDry operates like a standard rooftop unit. It can operate on first stage cooling when demand is low or at full capacity when air conditioning load is high. Unlike other rooftop or reheat units, HumidiDry is uniquely designed so the VFD (M) will operate at a low speed, increasing moisture removal during first -stage cooling operation. This provides initial defense for controlling humidity. When temperature is desirable but humidity exceeds the humidistat set point, the HumidiDry rooftop unit initiates a dehumidification cycle using a combina- tion of hot gas and sub -cooled liquid reheat and the VFD oper- ates at low speed. During this cycle, the HumidiDry rooftop unit delivers dry, neutral air. On a two-stage system, it is possible for both a thermostat and humidistat to register readings above set point. Under this condition, the system runs in the high stage dehumidification cycle, and the VFD operates on high speed. This provides dry conditioned air. Figure 1 shows the refrigerant path during the normal cooling mode. The liquid refrigerant leaves the TXV with the sudden pres- sure drop causing the liquid to expand to a vapor and absorbing the heat from the supply air going through the evaporator coil. The refrigerant vapor then travels to the compressor where it is elevated to a higher pressure and temperature. The superheated refrigerant vapor next carries the heat to the outside coil where the heat is then rejected and the refrigerant condenses into a subcooled liquid where the process repeats itself. Unit Features & Benefits RACD Series Dehumidification (Reheat) Mode s,MP W rw&& COWVWW) MsY,Ra.`i Cooling Mode TXV ae Ood V Re1.lf cd 66 r! c,, dm art to it f; t pCQlYSOQ y Ermp wow_.... ly' t...... ...... . Yom. u* t°Pma•..• t YSWs • RON open) w„ Vdyp . . • 00*4* TXV Y O HW TEMPEAAnftVAPOR L—Jr&:PNABE¢JOU *PO%W A VdftM fNeBl!) t if jUlAldVfY M") late O HKW TEMPER4nft VAPOR i TWO PHASE fL10tpD YApOR May UOWD I.... WW TEWMERATtlFW VAPOR Unit Features & Benefits RACD Series Dehumidification (Reheat) Mode s,MP W rw&& COWVWW) MsY,Ra.`i 0000 0000 Y t • • pCan`.ddred Ra• Ermp wow_.... ly' t...... ...... . Yom. u* t°Pma•..• 000. 0 YSWs • open) w„ Vdyp . . • 00*4* O HW TEMPEAAnftVAPOR L—Jr&:PNABE¢JOU *PO%W WOO ........ LOW TERi£RATWM VAROR . Figure 2 shows the refrigerant path during the reheat mode. When the reheat cycle is energized by the RTU -C, the reheat solenoid valve (®), downstream of the reheat coil (®), opens. The liquid solenoid valve (®), ahead of the TXV, closes. The discharge solenoid valve in the compressor discharge line, opens. The liquid refrigerant leaves the TXV with the sudden pressure drop causing the liquid to expand to a vapor and absorbing the heat from the supply air going through the evaporator coil. The refriger- ant vapor then travels to the compressor where it is elevated to a higher pressure and temperature. The refrigerant next carries the heat to a parallel path between the outside condenser coil and a bypass circuit. Some of the heat is rejected outdoors. The ratio of heat rejected outdoors versus indoors is controlled by an outdoor fan motor controller (OFMC) (H) that monitors the two phase temperature (H) and varies the fan speed. This 2 -phase refriger- ant vapor is then sent to the reheat coil. As the refr igerant travels through the reheat coil it condenses into a subcooled liquid where the process repeats itself. i. y. ` RELY ON'RtJUD.TM 11 Model Number Identification RAW Series R AC D ZT 090 A C A 15 2 A A *** 1 23 4 56 789 10 11 12 13 14 15 16 17 18 19 20 1—Brand 11—Voltage 16—ControlL :""• •••••• R = Ruud C = 3 phase 208-230/60 A = Non communi thtg '. D = 3 phase 460/60 B = ComforAlert/Pi?3W Monitbt"" 2, 3—Unit Type Y = 3 phase 575/60 C = CleW CdMtrol ' :*so*: AC = Package AC D = Clear'G'tPubrol &Mmlort Alert ' 12—Drive 4—Cabinet Type A = belt low static 17—Min%Vies •' ;•; ""'• D = Medium Commercial B = belt med static A " 5, 6—Series C = belt high static 6 •• 18, 19, 20—ption;Cocf F = belt VFD low static ZT1 = Tier 1 (Commercial G = belt VFD med static See next Page • Ultra- Serres) ZS2 = Tier 2 (Commercial Achiever Plus® Series) ZR3 = Tier 3 (Commercial Achiever® Series) 7, 8, 9—Capacity 090 = 7.5 ton 102 = 8.5 ton 120 = 10 ton 150 = 12.5 ton4 10—Major series A H = belt VFD high static • 13,14— Heat Capacity 00 = No Heat 10 = 10kw 15 = 15kw 20 = 20kw 30 = 30kw 40 = 40kw 15—Number of stages 0 = no stages 1 = 1 stage 2 = 2 stage Notes: 1. ZT - can only select VFD drives (F, G, H) in character 12 2. ZS - can select any of the drive options in character 12 3. ZR - can only select standard drives (A, B, G) in character 12 4. ZR - not available for 12.5 ton models r12 RELY ON RUUD.TM ti - u — - - Dptions RACD Series FACTORY INSTALLED OPTION CODES FOR RACD (7.5 TO 12.5 TON) 18 19 20 LV = Louver protection LF = Low Ambient / Freeze Stat EC =-Economizer RH = Reheat (HumidiDry®)', only available with VFD NP = Non -powered Convenience Outlet SS = Supply Smoke RS =-Return Smoke s • • •: • HA =Hinged Access of**,, CC2= Coil Coating 696;06 00:00:0 Option code character highlighted below Option code character highlighted below Option codeacheracter lvigf ligfhjed below A None A None 0 000 • Ngng• 000060 0 a B LV B LF 1 EO C HA C NP 2 R'S 4. D LV HA D LF NP 3 E0. IRS E LV CC 4 SS Fa * 0 F LV HA CC 5 EC SS RS G RH H LV RH J RH HA K LV RH CC L LV RH HA M LV RH HA CC Reheat (HumidiDry®) only available on units with F, G or H drives (VFD) and "C" or "D" control 2CC-requires LV (louver protection) Instructions for Factory Installed Option(s) Selection Note: Three characters following the model number will be utilized to designate a factory -installed option or combination of options. If no factory option(s) is required, "AAO" follows the model number. Step 1: In the table above, based on the desired features, choose option code character from highlighted options on the left side under the number 18. For example, the option code character "E" has Louver protection and Coil Coating. Step 2: In the table above, based on the desired features, choose option code character from highlighted options on the left side under the number 19. For example, the option code character "D" has Low Ambient / Freeze Stat and Non -powered convenience outlet. Step 3: In the table above, based on the desired features, choose option code character from highlighted options on the left side under the number 20. For example, the option code character "3" has Economizer and Return Smoke. The resulting option code from examples above is: "ED3" Step 4: Add your option code selection to the end of model number o Example: RACDZR090ACC150AA ED3 t t Base model Option code RACDZR090ACC150AAED3 Model number with option code RELY ON.RUUO.'M 13 Seleq don Procedure RACD Series To select an RACDZS Cooling and Heating unit to meet a job requirement, follow this procedure, with example, using data supplied in this specification sheet. 1. DETERMINE COOLING AND HEATING REQUIREMENTS AND SPECIFIC OPERATING CONDITIONS FROM PLANS AND SPECS. Example: Voltage- 230 V - 3 Phase - 60 Hz Total Cooling Capacity- 118,000 BTUH [34.57 kW] Sensible Cooling Capacity- 79,600 BTUH [23.32 kW] Heating Capacity- 150,000 BTUH [40 kW] Condenser Entering Air- 95°F [35.0°C] DB Evaporator Mixed Air Entering- 65°F [18.3°C] WB 78°F [25.6°C] DB Indoor Air Flow (vertical)- 3600 CFM [1699 Us] External Static Pressure- 0.40 in. WG [.10 kPa] 5. CALCULATE INDOOR BLOWER BTUH HEAT EFFECT FROM MOTOR WATTS, STEP 4. 1,576 x 3.412 = 5,377 BTUH [1.57 kW] 6. CALCULATE NET COOLING CAPACITIES, EQUAL TO GROSS CAPACITY, STEP 3, MINUS INDOOR BLOWER MOTOR HEAT. Net Total Capacity =116,522 - 5,377 = 111,145 BTUH [32.54 kW] Net Sensible Capacity = 87,655 - 5,377 = 82,278 BTUH [24.09 kW] 7. CALCULATE UNIT INPUT AND JOB EER. • • Total Power Input = 8,861 (step 3) +:1*5'7.6• ...... step 4) =10'A 12 -' AA++ .... . • EER = Net Total BTUH [kW} "Ip 6) =111,143.10.65 9909:0 •0••• Power Input, Watts'8150" 10,437• •• •; SELECT UNIT HEATING CAPP"Ty? ; • • • • • • • • From Heater Kit Table select kW tomeet heatingacity • • : • • • requirement; multiply kW x 3412IIaOnvert to inmi . ...... Use 40 kW Heater Kit • • • • • • • • Heater Kit Model: HeAter Kittapac4y:..:. • RXXJJ-DD40CP 13!:120.6jUH [39.6 kW] ;•..•; Add indoor blower heat effect (step 5fto Heater Ki'tCapacity • to get total heating capacity: ' • • 2. SELECT UNIT TO MEET COOLING REQUIREMENTS. Since total cooling is within the range of a nominal 10 ton 35.1 kW] unit, enter cooling performance table at 95°F [35.0°C] 8, DB condenser inlet air. Interpolate between 63°F [17.2°C] WB and 67°F [19.4°C] to determine total and sensible capacity and power input for 65*F [18.3°C] WB evaporator inlet air at 3750 CFM [1770 Us] indoor air flow (table basis): Total Cooling Capacity = 118,900 BTUH [34.82 kW] Sensible Cooling Capacity = 99,950 BTUH [29.27 kW] Power Input (Compressor and Cond. Fans) = 8,950 watts Use formula [1.10 x CFM x (1 - DR) x (dbE - 80)] in note to determine sensible capacity at 80*F [26.7°C] DB evaporator entering air: 135,120 + 5,377 =140,497 BTUH [41.1 kW] 99,950 + (1.10 x 3,600 x (1 - 0.03) x (78 - 80)) 9. CHOOSE MODEL RACDZS120ACA402AA. Sensible Cooling Capacity = 92,268 BTUH [27.02 kW] NOTE: These operating conditions are typical of a commercial applica- 3. CORRECT CAPACITIES OF STEP 2 FOR tion in a 951F/791F [35°C/26°C] design area with indoor design ACTUAL AIR FLOW. of 76*F [24°C] DB and 50% RH and 10% ventilation air, with Select factors from airflow correction table at 3600 CFM the unit roof mounted and centered on the zone it conditions 1699 Us] and apply to data obtained in step 2 to obtain by ducts. gross capacity: Total Capacity = 118,900 x 0.98 = 116,522 BTUH [34.12 kW] l Designates Metric Conversions Sensible Capacity = 92,268 x 0.95 = 87,655 BTUH [25.67 kW] Power Input = 8,950 x 0.99 = 8,861 Watts These are Gross Capacities, not corrected for blower motor heat or power. 4. DETERMINE BLOWER SPEED AND WATTS TO MEET SYSTEM DESIGN. Enter Indoor Blower performance table at 3600 CFM [1699 Us]. Total ESP (external static pressure) per the spec of 0.40 in. WG [.10 kPa] includes the system duct and grilles. Add from the table "Component Air Resistance," 0.076 in. WG [.02 kPa] for wet coil, 0 in. WG [.00 kPa] for downflow air flow for a total selection static pressure of 0.476 (0.5) in. WG [.12 kPa], and determine: RPM = 771 WATTS = 1,494 DRIVE = A (Belt drive, low static) 14 RELY 0N RUUD.T1 General Data RACD Series NOM. SIZES 7.5-12.5 TONS [26.4-44.0 kW] ASHRAE 90.1-2007 COMPLIANT MODELS Model RACDZR Series ZRO90 ZR102- ZR120 Cooling Performance' 1 [25.4] 1.26 [32] 1.26 [T2} •' : • • . : 00 00 Gross Cooling Capacity Btu [kW] 88,000 [25.78] 99,000 [29.01] 118,000 [34.57] EER/SEER2 11.2/NA 11.2/NA 11.2/NA Nominal CFM/AHRI Rated CFM [Us] 3000/3175 [1416/1498] 3400/3200 [1604/1510] 4000/3480 [1888/1642] AHRI Net Cooling Capacity Btu [kW] 85,000 [24.9] 96,000 [28.13] 114,000 [33.4] Net Sensible Capacity Btu [kW] 62,700 [18.37] 68,300 [20.01] 80,600 [23.62] Net Latent Capacity Btu [kW] 22,300 [6.53] 27,700 [8.12] 33,400 [9.79] EER3 12.9 12.9 12.9 Net System Power kW 7.53 8.51 9.86 Compressor 1 [25.4] 1.26 [32] 1.26 [T2} •' : • • . : 00 00 0 • • ; • 11 [1.02] No./Type 1/Scroll 1/Scroll 1/Scroll •'. 0000:' No. Stages 1 1 1 " ' 0000• Outdoor Sound Rating (dB)4 88 88 88 . Propeller Outdoor Coil - Fin Type Louvered Louvered Louvered Drive Type/No. Speeds Tube Type MicroChannel MicroChannel MicroChannel• • MicroChannel Depth in. [mm] 0.71 [18] 0.81 [20.6] 1 [25.41 Motor RPM Face Area sq. ft. [sq. m] 25.4 [2.36] 25.6 [2.38] 25.6 [2, §r • FC Centrifugal Rows / FPI [FPcm] 1 / 23 [9] 1 /23191 1 /231% • • •. Drive Type Indoor Coil - Fin Type Louvered Louvered Louvered ' : Tube Type MicroChannel MicroChannel MicroChannel • 0000' 1725 MicroChannel Depth in. [mm] 1 [25.4] 1.26 [32] 1.26 [T2} •' : • • . : 00 00 Face Area sq. ft. [sq. m] 11 [1.02] 10.9 [1.01] 10.9 [1.01] • • • • • • Rows/ FPI [FPcm] 1 / 20 [8] 1 / 20 [8] 1 /20[81 Refrigerant Control TX Valves TX Valves TX Valves Drain Connection No./Size in. [mm] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05] Outdoor Fan - Type Propeller Propeller Propeller No. Used/Diameter in. [mm] 2/24 [609.6] 2/24 [609.6] 2/24 [609.6] Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 CFM [Us] 8000 [3775] 8000 [3775] 8500 [4011] No. Motors/HP 2 at 1/5 HP 2 at 1/5 HP 2 at 1/3 HP Motor RPM 820 820 1075 Indoor Fan - Type FC Centrifugal FC Centrifugal FC Centrifugal No. Used/Diameter in. [mm] 1/15x15 [381x381] 1/15x15 [381x381] 1/15x15 [381x381] Drive Type Belt (Adjustable) Belt (Adjustable) Belt (Adjustable) No. Speeds Single Single Single No. Motors 1 1 1 Motor RPM 1725 1725 1725 Motor Frame Size 56 56 56 Filter - Type Disposable Disposable Disposable Furnished Yes Yes Yes NO.) Size Recommended in. [mm x mm x mm] 4)2x20x20 [51x508x508] 4)2x20x20 [51408408] 4)2x20x20 [51x508x508] Refrigerant Charge Oz. [g[ 100 [2835] 117 [3317] 136 [3856] Weights Net Weight lbs. [kg] 736 [334] 762 [346] 791 [359] Ship Weight lbs. [kg] 775 [352] 801 [363] 830 [376] See Page 18 for Notes Designates Metric Conversions 4 y RELY ON RUUD.TM 15 General Data RACD Series NOM. SIZES 7.5-12.5 TONS [26.4-44.0 kW] ASHRAE 90.1-2007* COMPLIANT MODELS Model RACDZS Series ZS090 ZS102 ZS120 ZS150 Cooling Performance' No./Type 1/Scroll 1/Scroll 1/Scroll • • Gross Cooling Capacity Btu [kW] 88;000 [25.78] 99,000 [29.01] 118,000 [34.57] 148,000 [43.36] EER/SEER2 11.2/NA 11.2/NA 11.2/NA 11/NA Nominal CFM/AHRI Rated CFM [Us] 3000/3200 [1416/1510] 3400/3225 [1604/1522] 4000/3480 [1888/1642] 5000/4150 [2360/1958] AHRI Net Cooling Capacity Btu [kW] 85,000 [24.9] 96,000 [28.13] 114,000 [33.4] 142,000 [41.61] Net Sensible Capacity Btu [kW] 62,700 [18.37] 68,300 [20.01] 79,600 [23.32] 98,600 [28.89] Net Latent Capacity Btu [kW] 22,300 [6.53] 27,700 [8.12] 34,400 [10.08] 43,400 [12.72] IEER3 12.9 12.9 12.9 12.4 Net System Power kW 7.35 8.46 9.83 13.69 Compressor Direct/1 Direct/1 Direct/1 CFM [Us] No./Type 1/Scroll 1/Scroll 1/Scroll • • 2frandem Scroll No. Stages 2 2 2 • 2.0 Outdoor Sound Rating (dB)4 88 88 88 "';" Outdoor Coil - Fin Type Louvered Louvered Louvered Louvered Tube Type MicroChannel MicroChannel MicroChannel* ••. IIcooc6nel MicroChannel Depth in. [mm] 0.71 [18] 0.81 [20.6] 1 [25.4] • • • 1 [254•] Face Area sq. ft. [sq. m] 25.4 [2.36] 25.6 [2.38] 25.6 [2.38). • • 31j •[2.93] Rows / FPI [FPcm] 1 / 23 [9] 1 / 23 [9] 1 / 23 [9] . . . _ . . 1 / J3 191 Indoor Coil - Fin Type Louvered Louvered Louvered • LouvVed Tube Type MicroChannel MicroChannel MicroChannel • OkfbCRalmel MicroChannel Depth in. [mm] 1 [25.4] 1.26 [32] 1.26 [32]'..' ; 1.[254] Face Area sq. ft. [sq. m] 11 [1.02] 10.9 [1.01] 10.9 [1.01] 1.34813.18] Rows / FPI [FPcm] 1 / 20 [8] 1 / 20 [8] 1 / 20 [8] 2 / 18 [7] Refrigerant Control TX Valves TX Valves TX Valves TX Valves Drain Connection No./Size in. [mm] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05] Outdoor Fan - Type Propeller Propeller Propeller Propeller No. Used/Diameter in. [mm] 2/24 [609.6] 2/24 [609.6] 2/24 [609.6] 2/24 [609.6] Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 Direct/l CFM [Us] 8000 [3775] 8000 [3775] 8500 [4011] 9000 [4247] No. Motors/HP 2 at 1/5 HP 2 at 1/5 HP 2 at 1/3 HP 2 at 3/4 HP Motor RPM 820 820 1075 1100 Indoor Fan - Type No. Used/Diameter in. [mm] Drive Type No. Speeds No. Motors Motor RPM Motor Frame Size FC Centrifugal 1/15x15 [381x381] Belt (Adjustable) Single 1 1725 56 FC Centrifugal 1/15x15 [381x381] Belt (Adjustable) Single 1 1725 56 FC Centrifugal 1/15x15 [381 x381 ] Belt (Adjustable) Single 1 1725 56 FC Centrifugal 1/15x15 [381081] Belt (Adjustable) Single 1 1725 56 Filter - Type Disposable Disposable Disposable Disposable Furnished Yes Yes Yes Yes NO.) Size Recommended in. [mm x mm x mm] 4)2x20x20 [51408408] 4)2x20x20 [51608408] 4)2x20x20 [51408408] 4)2x20x25 [51408435] Refrigerant Charge Oz. [g] 100 [2835] 117 [3317] 136 [3856] 186 [5273] Weights Net Weight lbs. [kg] 736 [334] 762 [346] 791 [359] 993 [450] Ship Weight lbs. [kg] 775 [352] 801 [363] 830 [376] 1032 [468] See Page 18 for Notes. 2013 with optional VFD Designates Metric Conversions 16 RELY ON RUUD." _ General Data RACD Series NOM. SIZES 7.5-12.5 TONS [26.4-44.0 kW] ASHRAE 90.1-2007 COMPLIANT MODELS Model RACDZT Series ZT090 ZT102 ZT120 ZT150 Cooling Performance' Gross Cooling Capacity Btu [kW] 887000 [25.78] 99,000 [29.01] 118,000 [34.57] EER/SEER2 11.2/NA 11.2/NA 11.2/NA Nominal CFM/AHRI Rated CFM [Us] AHRI Net Cooling Capacity Btu [kW] Net Sensible Capacity Btu [kW] Net Latent Capacity Btu [kW] IEER3 Net Svstem Power kW 3000/3200 [1416/1510] 85,000 [24.9] 62,700 [18.37] 22,300 [6.53] 14.8 7.35 3400/3225 [1604/1522] 96,000 [28.13] 68,300 [20.01] 27,700 [8.12] 14.8 8.46 4000/3480 [1888/1642] 114,000 [33.4] 79,600 [23.32] 34,400 [10.08) 14.8 10.49 148,000 [43.36) 11 /NA 5000/4150 [2360/1958] 142,000 [41.61] 98,600 [28.89] 43,400 [12.72] 14.2 13.69 Compressor No./Type 1/Scroll 1/Scroll 1/Scro6 • anrlem Scroll • • • • • • No. Stages 2 2 2 • • • : 2 Outdoor Sound Rating (dB)4 88 88 88 • • • • • • 999468 Outdoor Coil - Fin Type Louvered Louvered Louveretl• • • • • • Louvered Tube Type MicroChannel MicroChannel MicroChagribl' • •, UcrdCpannel MicroChannel Depth in. [mm] 0.71 [18] 0.81 [20.6] 1 [25.4] • • • • P5.4] Face Area sq. ft. [sq. m] 25.4 [2.36] 25.6 [2.38) 25.6 [2.381; •; 3t5•2.93] Rows / FPI [FPcm] 1 / 23 [9] 1 / 23 [9] 1 / 23 [* 1 / 23 [9] Indoor Coil - Fin Type Louvered Louvered Louver4 • • Louvered Tube Type MicroChannel MicroChannel MicroChannel • IJiior"annel MicroChannel Depth in. [mm] 1 [25.4] 1.26 [32] 1.26 [32] • • 1 `25.4] Face Area sq. ft. [sq. m] 11 [1.02] 10.9 [1.01] 10.9 [1.01) • 13,%M .281 Rows / FPI [FPcm] 1 / 20 [8] 1 / 20 [8] 1 / 20 [8) 2 / 18 [7] Refrigerant Control TX Valves TX Valves TX Valves TX Valves Drain Connection No./Size in. [mm] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05] Outdoor Fan - Type Propeller Propeller Propeller Propeller No. Used/Diameter in. [mm] 2/24 [609.6] 2124 [609.6] 2/24 [609.6] 2/24 [609.6] Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 DirecUl CFM [Us] No. Motors/HP Motor RPM Indoor Fan - Type No. Used/Diameter in. [mm] Drive Type No. Speeds No. Motors Motor RPM Motor Frame Size Filter - Type Furnished 8000 [3775] 8000 [3775] 8500 [4011 ] 9000 [4247] 2at1/5HP 2at1/5 HP 2at1/3HP 2at3/4HP 820 820 1075 1100 FC Centrifugal 1/15x15 [381x381] Belt (Adjustable) Single 1 1725 56 FC Centrifugal 1/15x15 [381x381] Belt (Adjustable) Single 1 1725 56 FC Centrifugal 1/15x15 [381x381] Belt (Adjustable) Single 1 1725 56 FC Centrifugal 1/15x15 [381x381] Belt (Adjustable) Single 1 1725 56 Disposable Disposable Disposable Disposable Yes Yes Yes Yes NO.) Size Recommended in. [mm x mm x mm] (4)2x20x20 [51x508x508] (4)2x20x20 [51x508408] (4)2x20x20 [51x508x508] (4)2x20x25 [51408635] Refrigerant Charge Oz. [g] 100 [2835] 117 [3317] 136 [3856] 186 [5273] Weights Net Weight lbs. [kg] 736 [334] 762 [346] 791 [359] 993 [450) Ship Weight lbs. [kg] 775 [352) 801 [363] 830 [376] 1032 [468] See Page 18 for Notes Designates Metric Conversions z 5 RELY ON .RUUD.'" 17 Genoral Data Notes RACD Series NOTES: 1. Cooling Performance is rated at 950 F ambient, 800 F entering dry bulb, 670 F entering wet bulb. Gross capacity does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air Conditioner Equipment certification program, which is based on AHRI Standard 340/360. 2. EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. 3. Integrated Energy Efficiency Ratio (IEER) is rated in accordance with AHRI Standard 340/360. 4. Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. Designates Metric Conversions 18 RELY -ON RUUD.TM 0000. 0000.. 0000 0000•• 0000 0000.• 0000•• 0000•. 0000 0000 0000• 0000.• 0000• 0000•• 0000•• 0000•• 0000•• 0000.• Gross Systems Performance Data RACD Series COOLING PERFORMANCE DATA-RACDZRO90A ENTERING INDOOR AIR 080°F [26.7°C] ME wbE 71°F [21.7'CI 67-F [19.4°C] 63°F [17.2'C1 CFM [Us] 4500 [2124] 3750 [17701 3000 [14161 4500 [21241 3750 [17701 3000 [14161 4500 [2124] 3750 [17701 3000 [14161 OR CD 0 0.01 0.09 0 0.01 0.09 0 0.01 0.09 75 Total BTUH (kM 179.6 [52.6] 173.3 [50.8] 167.0 [48.9] 172.2 [50.5) 166.2 [48.7] 160.2 [46.91 167.3 [49.0] 161.4 [47.3] 155.5 [45.6] 239] Sens BTUH [kW] 113.4 [33.2] 97.4 [28.5] 82.6 [24.2] 131.0 [38.4] 113.8 [33.3] 97.7 [28.6] 147.4 [43.2] 128.9 [37.81 111.5 [32.71 O Power 10.2 10.0 9.9 10.1 9.9 9.8 10.0 9.9 9.7 U 80 Total BTUH [kW] 175.0 [51.31 168.9 [49.5] 162.8 [47.7] 167.6 [49.11 161.8 [47.41 155.9 [45.7] 162.7 [47.7] 1570 146.01 151.3 [44.3] T R6'71 Sens BTUH [kW] 110.9 [32.5] 95.3 [27.9] 80.9 [23.7) 128.5 [37.7] 111.7 [32.7] 95.9 [28.1] 144.9 [42.5] 126@Nl7Q} a 109.8 [32.2] Power 10.6 10.4 10.3 10.5 10.4 10.2 10.3' . 10.3 1041600 8 Total BTUH [kW] =; 170.5 [50.0] 164.5 [48.2] 158.5 [46.4] 163.1 [47.8) 157.4 [46.1] 151.6 [44.41 151.1 [46.'3) 152.5J&*/j 147.0 143.1 ]e R 29.4] Sens BTUH [kW] 108.5 [31.8] 93.2 [27.3] 79.1 [23.2] 126.1 [36.9] 109.6 [32.1 ] 94.1 [27.6] 14*11 rf.T] 124.913MI 108.0 [8t.s1 • D Power 11.1 10.9 10.7 11.0 10.8 10.6 10.7 • 1045 R Y 90 Total BTUH [kW] 165.9 [48.6] 160.1 [46.9] 154.3 [45.2] 158.5 [46.4] 153.0'[44.8] 147.4 [43.2] 150.1 06.0] 148,1{43.4} 142.8 [d1.8] 32'2] Sens BTUH [kM 105.8 [31.0] 91.0 [26.7] 77.2 [22.6] 123.4 [36.2] 107.4 [31.5] 92.3 [27.0] j 640. 12 4 J,%qL 4 106.2 63 1j. B Power 11.6 11.4 11.2 11.5 11.3 11.1 11.4 11.2 11.0 • U B 95SensTotal BTUH [kW] BTUH [kW] 161.4 [47.3] 103.3 [30.3] 155.7 [45.6] 88.8 [26.0) 150.0 [43.9] 75.3 [22.1 ] 154.0 (45.1] 120.9 148.6 [43.5] 105.2 143.2 [42.0] 90.5 14 .D 4 .Tj 3 4 143!8 2!I] 120.3e[35.2] 138.5 104.3W35.4] 30.8] 26.5] 2 .21 T Power 12.1 11.9 11.6 12.0 11.8 11.6 11V: 11.7 • 11.5 E 100 Total BTUH [kW] 156.8 [45.91 151.3 [44.3] 145.8 [42.7] 149.4 [43.8] 144.2 [42.31 139.0 [40.7] f44.5 [42.31 13 414p$t 134.3 pf.M 0 P 370 Sens BTUH [kW] 100.6 [29.5] 86.5 [25.3] 73.4 [21.5] 118.2 [34.61 102.9 [30.1 ] 88.6 (26.0] 1134.6 `39.x] 11810 [34.61 102.4 0.01 E Power 12.6 12.4 12.2 12.5 12.3 12.1 0 V.4 • 111 • 12 R 105 Total BTUH [kM 152.3 [44.6] 147.0 [43.1] 141.6 [41.5) 144.9 [42.5] 139.8 [41.0] 134.8 [39.5] 139.9 [41.0] 135.0{38.6} 130.1 [38.1] T 40.6)PowerSensBTUH [kVq 98.0 [28.7] 84.3 [24.7] 71.5 [20.9) 115.6 [33.9] 100.6 [29.5] 86.7 [25.4) 131.9 [38.6] 115.7 [33.9] 100.5 [29.4] U 13.2 13.0 12.7 13.1 12.9 12.6 13.0. 12.8 12.5 R E 110 Total BTUH [kW] 147.8 [43.3] 142.6 [41.8) 137.4 [40.3] 140.4 [41.11 135.5 [39.7] 130.6 [38.3] 135.4 [39.7] 130.7 [38.3] 125.9 [36.9] F 143'31 SensBTUH [kW] 95.3 [27.9] 82.0 [24.0] 69.6 [20.4] 112.9 [33.1] 98.4 [28.8] 84.8 [24.8] 129.2 [37.9] 113.5 [33.3] 98.6 [28.91 J Power 13.8 13.5 13.3 13.7 13.5 13.2 13.6 13.4 13.1 115 Total BTUH [kW] 143.3 [42.0] 138.3 [40.5] 133.3 139.1 J 135.9 [39.8] 131.2 [38.4] 126.4 [37.0) 130.9 [38.4] 126.4 [37.0] 121.8 (35.7] 7] Sens BTUH [kW] 92.6 [27.11 79.7 [23.4] 67.7119.81 110.1 [32.31 96.0 [28.11 82.7 [24.21 126.4 [37.01 111.1 [32.6] 96.6 (28.3] Power 1 14.4 14.2 113.9 14.3 14.1 1 13.8 14.2 14.0 13.7 OR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: O When the entering air dry bulb is other than 80°F [27°CJ, adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. wbE-Entering air wet bulb Power --KW input Designates Metric Conversions RELY ON RUUD.Tht 19 Gross Systems Performance Data RACD Series COOLING PERFORMANCE DATA-RACDZR102A ENTERING INDOOR AIR @80°F [28.7'C] dbE O wbE 71°F(21.7°C1 67°F119.4°CI 63°F[17.2°C] CFM [Us] 4500(2124] 3750[1770] 3000 [14161 4500 [21241 3750(1770] 3000 [14161 4500(2124] 3750[17701 3000[1416] OR O 0 0.01 0.09 0 0.01 0.09 0 0.01 0.09 75 Total BTUH ]kW1 179.6 [52.6] 173.3 [50.81 167.0 [48.9) 172.2 [50.51 166.2 [48.7] 160.2 146,9] 167.3 [49.0] 161.4 [47.31 155.5 [45.6] 123.91 Sens BTUH [kW] 113.4 [33.2] 97.4 [28.5] 82.6 [24.2) 131.0 [38.4) 113.8 [33.3] 97.7 128.6] 147.4 [43.2] 128.9 [37.8] 111.5 [32.7] Power 10.2 10.0 9.9 10.1 9.9 9.8 10.0 9.9 9.7 O U Total BTUH [kW] 175.0 [51.3) 168.9 [49.5] 162.8 [47.7] 167.6 [49.11 161.8 [47.4] 155.9 [45.7] 162.7 [47.7] 157.0 [46.0] 151.3 [44.3] T 80 Sens BTUH [kVW] 110.9 [32.5] 95.3 [27.9] 80.9 [23.7] 128.5 [37.7] 111.7 [32.7] 95.9 [28.1] 144.9 [42.51• 126.8 [*?" • 009.8 [32.21• O 26.7] Power 10.6 10.4 10.3 10.5 10.4 10.2 0 4 • 10.3 10.1 O Total BTUH [kW] 170.5 [50.0] 164.5 [482] 158.5 [46.4] 163.1 [47.8] 157.4 [46.1] 151.6 [44.4] 158.1 4 .3] 152.5 [J4. V7.0 [43.1 ] R 4] Sens BTUH [kW] 108.5 [31.81 93.2 [2:.3] 79.1 [23.2] 126.1 [36.9] 109.6 [32.1] 94.1 [27.61 142..1?4.:]• 124.6 (36!5 108.0 [31.8]0 D Power 11.1 10.9 10.7 11.0 10.8 10.6 60& • • 10.7 10.5 • R Y Total BTUH [kW] 165.9 (48.6] 160.1 [46.9] 154.3 [45.2] 158.5 [46.4] 153.0 [44.8] 147.4 f43.2]515 t*.a]• 148.1 [4*] 142.8 [41.01 2. Sens BTUH [kW] 105.8 (31.0] 91.0 [26.7] 77.2 [22.6] 123.4 [36.2] 107.4 [31.51 92.3 (27.01 139 jr1Q Q]0 122.4 [:5.9T 06.2 [31.1]• B' Power 11.6 11.4 11.2 11.5 11.3 11.1 14 112 11.0 95 Total BTUH [kW] 161.4 [47.3] 155.7 [45.6] 150.0 [43.9] 154.0 145.11 148.6 [43.5] 143.2 [42.0]r11441 j4%]• 143.8 f%1J 38.5 [40.j• B Sens STUH (kW] 103.3 (30.31 88.8 [26.0] 75.3 [22.1 ] 120.9 [35.4] 105.2 [30.8] 90.5 [26.5].2 40.2] 120.3 [35.2] 104.3 [30.6] T Power 12.1 11.9 11.6 12.0 11.8 11.6 s1. 11.7 11.5 E 700 Total BTUH [kW] 156.8 [45.9] 151.3 [44.3] 145.8 [42.7] 149.4 [43.81 144.2 [42.3] 139.0 [40.7][42.3] 139.4 ( 134.3 [39. P I37 1Sens BTUH [kW] 100.6 [29.5] 86.5 [25.3] 73.4121.5] 118.2 (34.6] 102.9 [30.1] 88.6 [26.0]. 39.]• 118.0 [54.6] 102.4 [30.0. E Power 12.6 12.4 12.2 12.5 12.3 12.1 2.1• o 12.2 • • 12.0 • R 705 Total BTUH [kW] 152.3 [44.6] 147.0143.1 ] 141.6 [41.5] 144.9 [42.5] 139.8 [41.0] 134.8 [39.5] 139.9 [41.0] 135.0 [3916} 130.1 138.1 ] TT Sens BTUH [kW] 98.0 [28.7] 84.3 [24.7] 71.5 [20.9] 115.6 [33.9] 100.6 [29.5] 86.7 (25.4] 131.9 [38.6] 115.7 [33.9] 100.5 [29.41 U Power 13.2 13.0 12.7 13.1 12.9 12.6 13.0 12.8 12.5 R E 770 Total BTUH [W 147.8 [43.3] 142.6 [41.8] 137.4 [40.3] 140.4 141.1] 135.5 [39.71 130.6 [38.3] 135.4 [39.7] 130.7 [38.3] 125.9 [36.9] F 43'31 Sens BTUH [kW] 95.3 [27.9] 82.0 [24.0] 69.6 [20.4] 112.9133.1 ] 98.4 [28.8] 84.8 [24.8] 129.2 [37.9] 113.5 [33.3] 98.6 (28.91 Power 13.8 13.5 13.3 13.7 13.5 13.2 13.6 13.4 13.1C] its Total BTUH (kYV] 143.3 [42.0] 138.3 [40.5] 133.3 [39.11 135.9 139.81 131.2 [38.4] 126.4 [37.0] 130.9 [38.4] 126.4 [37.0] 121.8 135.7] x'71 Sens BTUH [kW] 92.6 [27.1] 79.7 [23.4] 67.7 119.8] 110.1 [32.3] 96 [28.1] 82.7124.21 126.4 [37.0] 111.1 [32.6] 96.6 [28.3] Power 14.4 14.2 13.9 14.3 14.1 13.8 14.2 14.0 13.7 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: O When the entering air dry bulb is other than 80°F [27°C], adjust the sensible dbE -Entering air dry bulb Sens -Sensible capacityx 1000 BTUH capacity from the table by adding [1.10 x CFM x (1- DR) x (dbE - 80)]. wbE-Entering air wet bulb Power -KW input Designates Metric Conversions COOLING PERFORMANCE DATA-RACDZR120A ENTERING INDOOR AIR ® 80°F [28.7°C] ME G ME 71°F[21.7'C] 67'F [19.4%) 63°F[17.2°Cl 61°F [16.1°Cl 59'F [15.0°Cl CFM [Us] 4800 [22651 3480 [1642] 3200 [1510] 4800 [2265] 3480 [1642] 13200 [1510] 4800 [22651 3480 [1642] 3200 [1510] 4800 [2265] 3480 [16421 3200 [15'1111 4800 [22651 3480 [1642] 3200 [15101 OR n 0.03 0.03 1 -0.05 0.03 0.03 0.05 0.03 0.03 0.05 0.03 0.03 0.05 0.03 0.03 0.05 75 Total BTUH [kW] 158.0 (46.3] 147.8 (43.3) 145.6 (42.7] 150.4 (44.11 140.7 (41.2] 138.6 [40.6] 145.2 (42.6] 135.8 [39.8] 133.9 [39.2] 143.9 [42.2] 134.7 [39.5] 132.7 [38.9) 143.8 [42.11 134.5 [39.4] 132.6 [38.8] 239] Sens BTUH [kW] 101.3 [29.7) 86.1 (25.2) 82.8 [24.3] 120.6 [35.3] 102.4 [30.0) 98.6 [28.9) 138.3 [40.5] 117.5 [34.4] 113.1 [33.1] 143.9 [42.2] 124.3 [36.4) 119.6 [35.1] 143.8 [42.11 130.4 [38.2) 125.5 [36.8] Power 7.5 7.3 7.2 7.4 7.2 7.1 7.3 7.1 7.1 7.3 7.1 7.0 7.3 7.0 7.0 80 Total BTUH [kW] 153.2 [44.9] 143.4 [42.0) 141.3 [41.4] 145.6 [42.7] 136.2 [39.9] 134.2 [39.3] 140.5 [41.2] 131.4 [38.5] 129.5 [37.9] 139.2 [40.8] 130.2 138.21 128.3 (37.6] 139.1 [40.8) 130.1 138.1) 128.2 [37.6] 12871 Sens BTUH [kW] 98.8 (29.0] 84.0 [24.6] 80.8 [23.71 118.1 [34.6) 100.3 [29.4] 96.6 [28.3] 135.9 [39.8] 115.4 [33.8] 111.1 [32.6] 139.2 140.8] 122.2 [35.81 117.6 (34.5] 139.1 [40.81 128.3 [37.6] 123.4 [36.2] O Power 8.0 7.7 7.6 7.9 7.6 7.6 7.8 1 7.5 7.5 7.7 7.5 7.4 7.7 7.4 7.4 U B5 Total BTUH [kW] 148.5 [43.5) 138.9 [40.7] 136.9 140.1) 140.9 [41.3] 131.8 [38.6) 129.9 [38.1] 135.8 [39.8] 127.0 137.21 125.1 [36.7) 134.5 (39.4) 125.8 [36.9] 124.0 136.3] 134.4 [39.4) 125.7 [36.8] 123.9 [36.3] TD 29'41 Sens BTUH [kW] 96.3 [28.2] 81.8 [24.0] 78.8 [23.1] 115.6 [33.9] 98.2 [28.81 94.5 [27.71 133.3 [39.1] 113.3 [33.2) 109.0 [32.0) 134.5 139.41 120.1 [35.2] 115.6 133.91 134.4 [39.4) 125.7 [36.81 121.4 [35.6] O Power 8.4 8.1 8.1 8.3 8.0 8.0 8.2 8.0 7.9 8.2 7.9 7.9 8.1 7.9 7.8 RR 900 Total BTUH [kW] 143.8 [42.1) 134,5 (39.4] 132.6 (38.8] 136.2 139.9] 127.4 (37.3) 125.5 [36.8] 131.1 [38.4) 122.6 [35.9) 120.8 (35.4) 129.8 (38.0] 121.4 [35.6] 119.6 (35.1) 129.7 138.01 121.3 135.51 119.5 [35.0] 3 Sens BTUH [kW] 93.8 [27.5] 79.7 (23.3) 76.7 (22.5] 113.0 [33.1] 96.0 (28.1] 92.4 [27.1] 130.8 [38.3] 111.1 [32.6) 106.9 (31.3] 129.8 [38.0] 117.9 [34.5] 113.5 (33.3] 129.7 [38.0] 121.3 135.51 119.3 [35.0] Power 8.9 8.6 8.5 8.8 8.5 8.5 8.7 6,4 1 8.4 8.7 8.4 8.3 8.6 8.3 8.3 R Y 95 Total BTUH [kW] 139.1 [40.81 130.2 [38.1] 128.2 [37.6] 131.5 [38.5] 123.0 (36.1] 121.2 [35.5] 126.4 [37.0] 118.2 [34.61 116.5 [34.1] 125.1 [36.7] 117.0 [34.3) 115.3 [33.8] 125.0 [36.6] 116.9 (34.31 115.2 [33.8] 35J Sens BTUH [kW] 91.2 [26.71 77.5 [22.71 74.6 [21.81 110.4 [32.4] 93.8 [27.5] 90.3 [26.5] 126.4 [37.0] 108.9 [31.91 104.8 [30.7] 125.1 [36.7] 115.7 [33.91 111.3 [32.6) 125.0 [36.6] 116.9 (34.31 115.2 [33.8] B U Power 9.4 9.1 9.0 9.3 9.0 9.0 9.2 8.9 8.9 9.2 8.9 8.8 9.1 8.8 8.8 E 100 Total BTUH [kW] 134.5 [39.4] 125.8 [36.9] 123.9 [36.31 126.8 [37.2] 118.7 [34.81 116.9 [34.3] 121.7 [35.7] 113.8 [33.4] 112.2 [32.9] 120.4 [35.3] 112.7 [33.0) 111.0 (32.5) 120.3 [35.3] 112.5 [33.0] 110.9 [32.5] B 13781 Sens BTUH [kW] 88.5 [25.9) 75.2 [22.01 72.4 [21.2] 107.8 [31.6] 91.6 [26.81 88.1 [25.8] 121.7 [35.71 106.7 [31.3] 102.7 [30.1] 120.4 (35.31 112.7 [33.0] 109.2 (32.0] 120.3 [35.3) 112.5 [33.0) 110.9 [32.5] T Power 10.0 9.6 1 9.6 9.9 9.5 9.5 9.8 9.5 9.4 9.7 9.4 9.3 9.7 9.4 9.3 E Total BTUH [kW] 129.8 [38.0] 121.4 [35.61 119.6 135.1] 122.2 [35.8] 114.3 [33.5] 112.6 [33.0] 117.0 [34.31 109.5 [32.1) 107.9 [31.6] 115.8 [33.9] 108.3 [31.7) 106.7 (31 3] 115.6 133.91 108.2 (31.7) 106.6 [31.2] P 40 ] Sens BTUH [kW] 85.9 [25.2] 73.0121.41 70.2 [20.6) 105.1 [30.8] 89.3 [26.2] 86.0 (25.21 117.0 [34.3] 104.4 130.6) 100.5 [29.4) 115.8 [33.9] 108.3 [31.7] 106.7 (31.3] 115.6 (33.9] 108.2 [31.7) 106.6 [31.2] E Power 10.5 10.2 10.1 10.5 10.1 10.0 10.4 10.0 10.0 10.3 10.0 9.9 10.3 9.9 9.9 R Total BTUH [kW] 125.1 (36.7] 117.1 [34.3) 115.4 (33.8] 117.5 134.4] 109.9 [32.2] 108.3 [31.7) 112.4 [32.9] 105.1 [30.8) 103.6 [30.4) 111.1 (32.6) 104.0 [30.5] 102.4 (30.0] 111.0 [32.5] 103.8 [30.41 102.3 [30.0] T 4331 Sens BTUH [kW] Power 83.1 [24.4] 70.6 [20.7) 68.0 [19.91 102.4 130.01 87.0 [25.5] 83.7 [24.5] 112.4 [32.9] 102.1 [29.9] 98.3 [28.8) 111.1 [32.6) 104.0 [30.5) 102.4 [30.0] 111.0 [32.51 103.8 130.4] 102.3 [30.0] U 11.2 10.8 10.7 1 11.1 10.7 10.6 11.0 10.6 10.5 10.9 10.6 10.5 10.9 10.5 10.5 E 115 Total BTUH [kW) 120.5 [35.3] 112.7 [33.0] 111.1 [32.6) 112.9 (33.1] 105.6 [31.0] 104.1 [30.51 107.8 (31.6) 100.8 (29.5] 99.3 [29.1] 106.5 (31.2) 99.6 [29.21 98.2 [28.81 106.4 (31.2] 99.5 (29.2] 98.0 [28.7] 46.1] Sens BTUH [kW] 80.4 [23.61 68.3 (20.01 65.7 [19.3) 99.7 (29.21 84.7 [24.8] 81.5 [23.9] 107.8 (31.6] 99.8 [29.2) 96.0128.1 ] 106.5 [31.2) 99.6 [29.21 98.2 [28.8] 106.4 (31.2] 99.5 [29.2] 98.0 [28.7] oF C] Power 11.8 11.4 11.3 11.7 11.3 11.3 11.6 11.2 11.2 11.6 11.2 11.1 11.5 11.2 11.1 Total BTUH [kW] 115.9 [34.0] 108.4 [31.8] 106.8 [31.3) 108.3 [31.7] 101.3 [29.71 99.8 [29.3] 103.1 (30.2] 96.5 [28.3] 95.1 [27.9] 101.9 [29.9] 95.3 [27.9) 93.9 [27,5] 101.7 [29.8] 95.2 (27.9] 93.8 [27.51489] Sens BTUH [kW] 77.6 [22.71 65.9 [19.3] 63.5 [18.6] 96.9 [28.4] 82.3 [24.1) 79.2 [23.2] 103.1 [30.2] 96.5 [28.3] 93.7 [27.5] 101.9 [29.9] 95.3127.91 93.9 [27.5] 101.7 (29.81 95.2 [27.9] 93.8 [27.5] Power 12.5 12.1 12.0 12.4 12.0 11.9 12.3 11.9 11.8 12.3 11.9 11.8 12.2 11.8 113 Total BTUH [kW] 111.3 [32.6] 104.1 [30.51 102.6 130.1] 103.7 [30.4] 97.0128.41 95.6 [28.01 98.5 [28.9] 92.2 [27.0] 90.8 [26.6] 97.3 [28.5] 91.0 (26.7] 89.7 [26.3] 97.1 [28.5] 90.9 [26.61 89.5 [26.2] 5171 Sens BTUH [kW] 74.8 [21.9] 63.5 [18.61 61.1 [17.9] 94,0 [27.6] 79.9123.41 76.9 [22.5] 98.5 [28.9] 92.2 [27.0] 90.8 [26.6] 97.3128.51 91.0 [26.7] 89.7 [26.3] 97.1 [28.5] 90.9 [26.6] 89.5 [26.2] Power 1 13.2 12.8 12.7 13.1 12.7 1 12.6 13.0 12.6 12.5 1 13.0 12.5 12.5 12.9 12.5 12.4 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: (1) When the entering air dry bulb is other than 80°F [27°C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR)x (db6r.8D]. . [ Deimates Metric ConversionswbE-Entering air wet bulb Power -KW input • • • • • • 83 O N 1 3 N N 3 3 M 0 COOLING PERFORMANCE DATA-RACDZS090A ENTERING INDOOR AIR 0 80°F [26.7°C] dbE C? wbE 71'F[21.7°C] 67°F [19.4°C1 63°F [17.2°C1 61°F [16.1"C1 59"F [15.0°C] CFM [Us] 3600 [1699] 3200 [1510] 2400 [11331 3600 [1699] 3200 [1510] 2400 [1133] 3600 [1699] 3200 [15101 2400 [11331 3600 [16991 3200 [1510] 2400 [1133] 3600 [1699] 3200 [15101 2400 [11331 OR O 0.22 0.2 0.14 0.22 0.2 0.14 0.22 1 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 75 Total BTUH [kW] 111.8 [32.8] 109.4 [32.0] 104.4 [30.61 105.2 (30.81 102.9 130.11 98.2 [28.8] 100.4 [29.41 98.2 [28.8) 93.7 [27.5) 99.0 [29.01 96.8 128.4] 92.4 [27.1] 98.5 128.9] 96.3 [28.2) 91.9 [26.91 23.91 Sens BTUH [kW] 65.6 [19.2) 62.0 (18.2) 54.7 [16.0] 77.6 [22.71 73.3 [21.51 64.8 [19.0] 89.5 [26.2] 84.5 [24.81 74.7 [21.9] 95.2 [27.9] 89.9 [26.4] 79.4 [23.31 98.5 [28.9) 95.1 [27.9) 84.0 [24.6] Power 4.5 4.4 4.3 4.4 4.4 4.3 4.4 4.3 4.2 4,3 4.3 4.2 4.3 4.3 4.2 80 Total BTUH [kW] 108.5 [31.8] 106.0 [31.11 101.2 (29.71 101.8 [29.81 99.5 [29.2] 95.0 [27.81 97.0 (28.4] 94.9 [27.8) 90.6 [26.5] 95.6 [28.0] 93.5 [27.4] 89.2 [26.2] 95,1 [27.9] 0.0 127.2]' 88,7 [26.0] 26.71 Sens BTUH [kW] 63.8 (18.7] 60.3 [17.7] 53.3 [15.6) 75.9 [22.2] 71.7 [21.0] 63.3118.61 87.7 [25.7] 82.9 [24.3] 73.2 [21.4] 93.4 [27.4] 88.3 [25.9] 78.0 [22.8] 95.1 [27.9] 93.0 [27.2] 82.5 [24.2] O Power 4.9 1 4.8 4.7 4.8 4.8 4,7 4.8 4.7 4.6 4.7 4,7 4.6 4.7 4.6 4.5 U 85 Total BTUH (kW] 105.0 [30.81 102.7 130.1] 98.0 [28.7] 98.4 [28.8] 96.2 [28.2) 91.8 [26.9] 93.6 [27.4] 91.5 [26.8] 87.4 [25.6] 92.2 [27.0] 90.1 [26.4] 86.0 [25.2j 91.6 [26.9] 89.6 [26.3] 85.5 [25.1] TD x'4] Sens BTUH [kW] Power 62.1 [18.21 58.7 (17.2] 51.8 [15.2] 74.1 [21.7) 70.0 [20.5] 61.9 [18.11 85.9 [25.2) 81.2 [23.8] 71.7 [21.01 91.7 [26.9] 86.6 [25.4] 76.5 122.4] 91.6 [26.9] 89.6 [26.3] 81.1 [23.8] O 5.3 5.3 5.2 5.3 5.2 5.1 5.2 5.2 5.0 5.2 5.1 5.0 5.2 5.1 5.0 R 90 Total BTUH [kW] 101.6 [29.8] 99.3 [29.1] 94.8 [27.8] 94.9 [27.8] 92.8 [27.21 88.6126.01 90.1 (26.4] 88.1 [25.81 84.1 124.7] 88.7 [26.0] 86.8 [25.4] 82.8 [24.3] 88.2 [25.81 86.2 [25.31 82.3 [24.1] 32.21 Sens BTUH [kW] 60.3 [17.7] 57.0 [16.7] 50.4 [14.8] 72.4 [21.2] 68.4 [20,0) 60.4 [17.7) 84.2 (24.7] 79.6 [23.3] 70.3 [20.6] 88.7 [26.0] 85.0124.91 75.1 [22.0] 88.2 [25.81 86.2 [25.31 79.6 [23.31 DPower 5.9 5.8 5.7 5.8 5.7 5.6 5.8 5.7 5.6 5.7 5.7 5.5 5.7 5.6 5.5R Y 95 Total BTUH [kW] 98.1 [28.71 95.9 [28.11 91.5126.81 91.4 [26.81 89.4 (26.2] 85.3 [25.0] 86.6 [25.4] 84.7 124,8] 80.9 [23.71 85.2 [25.0] 83.3 (24.4] 79.5 [23.3] 84.7 (24.8] 82.8 [24.3] 79.0 12121SensBTUH [kW] 58.6 [17.2) 55.4 [16.2) 48.9 [14.3] 70.7 [20.71 66.8 (19.6] 59.0 [17.3] 82.5 [24.21 78.0 (22.8] 68.9 [20.21 85.2 [25.0] 83.3 [24.4] 73.6 [21.6] 84.7 [24.8] 82.8 [24.3] 78.2 [22.9) B U Power 6.5 6.46.3 6.4 6.4 6.2 6.4 6.3 6.2 6.3 6.3 6.1 6,3 6.2 6.1 Total BTUH [kW] 94,5 [27.7] 92.4 [27.11 88.2 [25.91 87.9 [25.8] 85.9 [25.2] 82.0 [24.0] 83.1 [24.4] 81.2 [23.8] 77.6 [22.7] 81.7 [23.91 79.9 [23.4] 76.2 [22.3] 81.1 [23.8] 79.3 (23.3] 75.7 [22.2] B 137.8] Sens BTUH [kW] 56.9 [16.7] 53.8 [15.8] 47.5 [13.91 69.0 [20.2] 65.2 [19.11 57.6 [16.9] 80.8 [23.7] 76.4 [22.41 67.5 [19.8] 81.7 [23.9] 79.9 [23.4] 72.2 [21.2] 81.1 (23.8] 79.3 [23.3] 75.7 [22.2] T Power 7.2 7.1 6.9 7.1 7.0 6.9 7.1 7.0 6.8 7.0 7.0 6.8 7.0 6.9 6.8 E Total BTUH ]kW] 91.0 (26.7] 88.9 [26.11 84.9 [24.9] 84.3 (24.7] 82.4 [24.21 78.7 [23.1] 79.5 [23.31 77.8 [22.81 74.2 (21.7] 78.1 [22.9] 76.4 [22.41 72.9 (21.4] 77.6 [22.7] 75.8 (22.2] 72.4 [21.2] P 405 Sens BTUH [kW] 55.3 [16.2) 52.2 [15.3) 46.1 [13.5] 67.3 [19.71 63.6 [18.6] 56.2 (16.5) 79.2 (23.2] 74.8 [21.91 66.1 [19.4] 78.1 [22.9] 76.4 [22.41 70.8120.81 77.6 [22.7] 75.8 [22.2] 72.4 [21.21 E Power 7.9 7.9 7.7 7.9 7.8 7.6 1.8 7.7 7.6 7.8 7.7 7.5 7.8 7.7 7.5 R Total BTUH [kW] 87.3 [25.6] 85.4 [25.0] 81.5 [23.9] 80.7 [23.6] 78.9 (23.1] 75.3 [22.1) 75.9 [22.21 74.2 (21.71 70.8 [20.81 74.5 [21.8] 72.8 [21.3) 69.5 [20.4] 74.0 [21.7] 1 72.3 [21.2] 69.0 [20.2] T 430 Sens BTUH [kW] 53.6 [15.7] 50.7 [14.8] 44.8 [13.1) 65.7 [19.2] 62.0 [18.2] 54.8 [16.1) 75.9 [22,2) 73.2 [21.51 64.7 [19.01 74.5 [21.8] 72.8 (21.3) 69.4 [20.41 74.0 [21.7] 72.3 [21.2] 69.0 [20.2] U Power 8.8 8.7 8.5 8.7 8.6 8.4 8.7 8.6 8.4 8.6 8.5 8.4 8.6 8.5 8.3 E 115 Total BTUH (kW] 83.7 (24.5] 81.8 [24.0] 78.1 [22.9] 77.0 [22.6] 75.3 [22.11 71.9 [21.1] 72.3 [21.2) 70.7 [20.71 67.4 [19.8] 70.9 [20.81 69,3 [20.3] 66.1 [19.41 70.3 [20.6) 68.7 [20.1] 65.6 [19.2] 1461] Sens BTUH [kW] 52.0 [15.21 49.1 [14.41 43.4112.7] 64.0 118.8] 60.5 [17.71 53.4 [15.71 72.3 [21.2] 70.7 [20.7] 63.3 [18.6] 70,9120 69.3 [20.3] 66.1 [19.41 70.3 [20.6) 68.7 [20.1] 65.6 [19.2] F C] Power 9.7 9.6 9.4 9.6 9.5 9.3 9.6 9.5 1 9.3 9.6 9.5 9.2 9.5 9.4 9.2 Total BTUH [kW] 80.0 [23.4] 78.2 [22.9] 74.7 [21.9] 73.4 [21.51 71.7 [21.0] 68.5 [20.11 68.6 [20.1] 67.0 [19.61 64.0 [18.81 67.2119.71 65.7 [19.2] 62.7 [18.4] 66,6 119.51 65.1 (19.1] 62.2 [18.2] 489] Sens BTUH [kW] 50.4 [14.8] 47.6 [13.9] 42.0 [12.31 62.4 [18.3) 59.0 [17.31 52.1 [15.3] 68.6 [20.1] 67.O 119.61 62.0 [18.2) 67,2119.71 65.7 [19.2] 62.7 [18.4] 66.6119.51 65.1 (19.11 62.2 [18.2] Power 10.7 10.6 10.3 10.6 10.5 10.3 10.6 10.5 10.2 10.6 10.4 10.2 10.5 10.4 10.2 125 Total BTUH [kW] 76.3122.41 74.6 [21.91 71.2 [20.91 69.6 [20.4] 68,1 [20.0) 65.0119.01 64.8 [19.0] 63.4 [18.6) 60.5 [17.7) 63.4 [18.6] 62.0 [18.2] 59.2 [17.4] 62.9 [18.4] 61.5 [18.0] 58.7 [17.2151.7] Sens BTUH [kW] 48.8 [14.31 46.1 (13.51 40.7 [11.9] 60.8117.81 57.5 [16.8) 50.8 [14.9] 64.8 (19.01 63.4 [18.61 60.5117.7] 63.4 [18.61 62.0 [18.21 59.2 [17.4] 62.9 [18.4] 61.5 [18.0] 58.7 [17.21Power11.8 11.6 11.4 11.7 11.6 11.3 11.7 11.5 11.3 11.6 11.5 11.2 11.6 11.5 11.2 un-uepression rano 101al -total capacity x 1000 BTUH NOTES: OD When the entering air dry bulb is other than 80°F [27°C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. ( ] Designates Metric ConversionswbE-Entering air wet bulb Power -KW input 00 • • • • • i 900 0 JiM3 N 3 COOLING PERFORMANCE DATA-RACDZS102A ENTERING INDOOR AIR @ 80-F [28.7°C] ME O wbE 71'F(21.7°C1 67°F[19.4°C1 63°F[17.2°C] 611 116.111 59°F [15.0"CJ CFM [Us] 4100 [19351 3225 [1522] 2700 112741 4100 [19351 3225 [15221 2700 [12741 4100 (19351 3225 [15221 2700 [12741 4100 [1935] 3225 [15221 2700 [12741 4100 [19351 3225 [15221 2700027 ORO 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 75 Total BTUH [kW] 129.4 [37.9] 123.3 [36.11 119.7 [35.11 122.2 [35.8) 116.5 [34.11 113.0 [33.11 117.8 [34.5] 112.3 [32.9] 108.9 [31.91 117.0 (34.3] 111.5 (32.7] 108.2 [31.7] 117.5 [34.41 112.0 [32.81 108.7 [31.8) 23.91 Sens BTUH [kW] 75.0 [22.01 66.6 [19.5] 61.5 [18.0] 90.0 [26.4] 79.9 [23.4] 73.9 [21.6] 103.7 [30.4] 92.0 [27.0] 85.0 [24.9) 109.7 [32.2] 97.4 (28.5] 90.0 [26.4] 115.0 [33.71 102.1 [29.91 94.3 [27.6] Power 6.1 6.0 5.9 6.1 5.9 5.9 6.0 5,9 5.8 6,0 5.8 5.8 5.9 5.8 5.7 80 Total BTUH [kW] 125.2 [36.7] 119,3 [35.0] 115.8 (33.9] 118,0 [34.6] 112.4 [33.0] 109.1 [32.0] 113.6 [33.3) 108.2 (31.7] 105.0 [30.8) 112.8 133.11 107.5 (31.5] 104.3 [30.6] 113.3 [33.21 108.0 [31.61 104.8 [30.7] 2871 Sens BTUH [kW] 72.9 [21.4] 64.8 [19.0] 59.8 (17.5] 88.0 [25.8] 78.1 [22.91 72.1 (21.11 101.6 [29.8] 90.2 (26.4] 83.3 [24.4] 107.6 [31.5) 95.5 [28.0] 88.3 125.9] 112.9 [33.11 100.2 [29.41 92.6 [27.1) O Power 6.5 6.3 6.3 6.4 6.3 6.2 6.4 6.2 6.1 6.3 1 6.2 6.1 6.3 6.2 6.1 U 85 Total BTUH [kW] 120.9 [35.4) 115.2 [33.8] 111.8 (32.8] 113.8 [33.3] 108.4 [31.8] 105.2 (30.8] 109.3 [32.OJ 104.2 (30.5] 101.1 [29.61 108.6 131.81 103.5 [30.3] 100.4 [29.4] 109.0 [32.0] 103.9 [30.5] 100.8 [29.5] TD 129.41 Sens BTUH [kW] 70.8 [20.8] 62.9 [18.4] 58.1 [17.0] 85.8 [25.1 J 76.2122.31 70.4 [20.6] 99.5 [29.11 88.3 (25.9] 81.6123.91 105.5 [30.9) 93.6 [27.41 86.5 (25.4] 109.0 [32.0] 98,3 [28.8) 90.9 [26.6] Power 6.9 6.7 6.6 6.8 6.7 6.6 6.7 6.6 6.5 6.7 6.6 6.5 , 6.7 6.5 6.4 99 Total BTUH [kWJ 116.7 [34.21 111.2 [32.61 107.9131.6] 109.5 [32.1] 104.4 [30.6] 101.3 [29.71 105.1 (30.8] 100.1 [29.31 97.2 [28.5] 104.3 [30.6] 99.4 [29.11 96.5 (28.31 104.8 [30.7) 99.9 [29.3) µ96.9 (28.4] R 3221 Sens BTUH [kW] 68.6 [20.11 60.9 [17.9) 56.3116.51 83.6 [24.5] 74.2 (21.8] 68.6 [20.1] 97.3 [28.5] 86.4 [25.3] 79.8 [23.4] 103.3 [30.3) 91.7 [26.91 84.8 (24.81 104.8 [30.7) 96.4 [28.31 89.1 [26.11 D Power 7.3 7.1 7.0 7.2 7.1 7.0 7.2 7.0 6.9 7.1 7.0 6.9 7.1 6,9 6.8 R Y 95 Total BTUH [kW] 112.4 [32.91 107.1 [31.4] 104.0 (30.51 105.2 [30.8] 100.3 [29.4] 97.3 [28.5] 100.8 [29.51 96,1 [28.21 93.2 [27.31 100.0 [29.3] 95.3 [27.91 92.5 [27.1] 100.5 [29.5] 95.8 [28.1] 93.0 [27.2] 35) Sens BTUH [kW] 66.4 [19.5] 59.0 (17.3] 54,5 (16.0] 81.4 [23.9] 72.3 [21.21 66.8 [19.6] 95.1 [27.9] 84.4 [24.7] 78.0 [22.91 100.0 [29.3] 89.8 126.3] 82.9 [24.3) 100.5 [29.5] 94.5 (27.7) 87.3 [25.6] B Power 7.7 7.6 7.5 7.7 7.5 7.4 7.6 7.4 7.3 7.6 7.4 7.3 7.5 7.4 7.3 Total BTUH [kW] 108.1 131.7] 103.0 13011 100.0 [29.3] 100.9 [29.6] 96.2 [28.21 93.4 [27.4] 96.5 [28.31 92.0 [27.0] 89.3 [26.21 95.8 [28.1 ] 91.3 [26.71 88.6 [26.0) 96.2 [28.2] 91.7 [26.91 89.0 [26.11B 1377. 81 Sens BTUH [kW] 64.2 [18.8] 57.0 116.7] 52.6 [15.4] 79.2 (23.21 70.3 [20.61 65.0 [19.0] 92.8 [27.2) 82.4 [24.1] 76.1 [22.31 95.8 [28.1] 87.8 (25.7] 81.1 (23.81 96.2 [28.2] 91.7 [26.91 85.4 [25.0] T Power 8.2 8.0 1 7.9 8.2 8.0 7.9 8.1 7.9 7.8 8.1 7.9 7.8 8.0 7.8 7,7 E Total BTUH [kW] 103.8 (30.4] 98.9 [29.0] 96.0 [28.11 96.7 [28.3] 92.1 (27.0) 89.4 [26.21 92.2 [27.0) 87.9 (25.8) 85.3 [25.01 91.5 [26.8] 87.2125.5] 84.6 (24.8] 91.9 126.91 87.6 [25.7) 85.0 [24.9) P105 40.6] Sens BTUH [kW] 61.9 [18.1] 54.9 [16.1) 50.8 [14.9) 76.9 [22.51 68.3 [20.01 63.1 118.51 90.6 [26.5) 80.4 [23.61 74.3 [21.8] 91.5 [26.81 5.7 125.1] 79.2 [23.21 91.9 [26.91 87.6 [25.7) 83.6 (24.5] E Power 8.7 8.5 8.4 8.7 8.5 8.3 8.6 8.4 8.3 8.6 8.4 8.2 8.5 8.3 8,2 R A 110 Total BTUH [kWJ 99.5 [29.2) 94.8 [27.8] 92.0 [27.0] 92.3 [27.11 88.0 [25.8] 85.4 [25.0) 87.9 (25.8] 83.8 [24.61 81.3 [23.8] 87.1 [25.51 83.1 (24.3] 80.6 [23,6) 87.6 [25.7] 83.5 (24.5) 81.0 (23.7] T 433] Sens BTUH [kW] 59.6 [17.5] 52.9 [15.5) 48.9 [14.31 74.6 [21.9) 66,2 [19.4] 61.2 [17.91 87.9 (25.8] 78.3 [22.91 72.4 [21.2) 87.1 [25.51 83.1 (24.3] 77.3 [22.7) 87.6 [25.71 83.5124.51 81.0123.71 U Power 9.3 9.1 8.9 9.2 9.0 8.9 9.1 8.9 8.8 9.1 8.9 8.8 9.1 8.9 8.7 E 115 Total BTUH [kW] 95.2 [27.9] 90.7 [26.6] 88.0 [25.81 88.0 [25.8] 83.9 [24.6] 81.4 [23.9) 83.6 [24.5] 79.7 [23.31 77.3 [22.7] 82.8 [24.31 78.9 [23.11 76,6 [22.4) 83.3 [24.4] 79.4123.31 77.0 [22.6] e 46.1) Sens BTUH [kW] 57.2 [16.81 50.8 [14.9] 46.9 [13.8] 72.2 [21.2] 64.1 [18.8] 59.2 [17.4) 83.6 [24.5] 76.2 [22.31 70.4 (20.6] 82.8 [24.31 78.9 (23.1] 75.4 [22.1] 83.3 [24.4] 79.4 [23.3) 77.0 (22.6] F NJ Power 9.8 9.6 1 9.5 9.8 9.6 9.4 9.7 9.5 9.4 9.7 9.5 9.3 9.7 9.4 9.3 Total BTUH [kW] 90.8 [26.6] 86.6 [25.4] 84.0 [24.6] 83.7 [24.5] 79.7 [23.4] 77.4 [22.71 79.2 [23.2] 75.5 [22.1] 73.3 [21.5] 78.5 [23.0] 74.8 [21.9] 72.6 [21,3] 78.9 [23.1 J 75.2 (22.0] 73.0 [21.41 4119] Sens BTUH [kW] 54,8 116.1 ] 48.6114.31 45.0 [13.2] 69.8120.5] 62.0 [18.21 57.3 [16,8] 79.2 [23.2] 74.1 [21.7] 68.5 [20.1 ] 78.5 (23.0] 74.8 [21.9] 72.6 [21,31 78.9 [23.11 75.2 (22.0] 73.0 [21.4] Power 10.5 10.2 10.1 10.4 10.1 10.0 10.3 10.1 9.9 10 1 10.0 9.9 10.3 10.0 9.9 125 Total BTUH [kW] 86.5 [25.31 82.4 (24.2) 80.0 [23.41 79.3 (23.21 75.6 [22.11 73.3 [21.5] 74,9 [21.9] 71.4 [20.9] 69.3 [20.31 74.1 [21.71 70.6 [20.7] 68.5 [20.11 74.6 [21.9) 71.1 [20.8] 69.0 [20.21 517] Sens BTUH [kW] 52.4 [15.31 46.5 [13.61 42.9 [12.61 67.4 [19.71 59.8 [17.51 55.3 [16.2] 74.9 [21.91 71.4 (20.9] 66.4 [19.5] 74.1 [21.71 70.6 [20.7] 68.5129. 1 1 74.6 [21.9) 71.1 [20.81 69.0 [20.2] Power 11.1 10.8 10.7 11.0 10.8 10.6 11.0 10.7 10.5 10.9 10.7 10.5 10.9 10.6 10.5 OR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: Cl When the entering air dry bulb is other than 80°F [27°Cj, adjust the sensibleME -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. [ ] Designates Metric Conversions wbE-Entering air wet bulb Power -KW input • • . • • . • . • • • • 8a O N U) N U) N MM 3 m nso O COOLING PERFORMANCE DATA-RACDZS120A ENTERING INDOOR AIR @ 80'F [28.7°CJ dbE (1) wbE 71°F[21.7°C] 67'F[19.4°C1 63°F[17.2°C1 61°F[16.1°C] 59'F[15.0°C] CFM [US] 4800 (22651 3750 [1770] 3200 [15101 4800 [22651 3750[177D] 3200 [1510] 48011 [2265] 3750 [17701 3200 (15101 4800 [2265] 3750 [1770] 3200 [15101 4800 [22651 3750 [1770] 3200 [1510) OR CO 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 75 Total BTUH [kW] 155.3 [45.5] 147.8 (43.3) 143.8 [42.21 147.8 [43.3] 140.7 [41.2) 136.9 (40.11 142.8 141.81 135.8 (39.8] 132.2 [38.7) 141.5 [41.5) 134.7 [39.5] 131.1 (38.4) 141.4 (41.4] 134.5 [39.4] 130.9 [38.41 23.91 Sens BTUH [kW] 97.3 [28.5] 86.1 (25.2) 80.2 [23.5) 115.8 [33.91 102.4 [30.0) 95.4 (28.0] 132.9 [38.91 117.5 [34.4] 109.5 132.1] 140.6 (41.2) 124.3 [36.41 115.8 [33.9] 141.4 (41.4] 130.4 [38.2] 121.4 (35.61 Power 7.5 7.3 7.2 7.4 7.2 7.1 7.3 7.1 7.0 7.2 7.1 7.0 7.2 7.0 6.9 80 Total BTUH [kW] 150.6 144.11 143.4 [42.01 139.5 [40.9] 143.2 [42.01 136.2 [39.9] 132.6 [38.9] 138.1 [40.5] 131.4 [38.5] 127.9 (37.5] 136.9 140.1] 130.2 [38.2] 126.8 (37.1) 136.7 [40.1] 130.1 (38.1 ] 126.6 [37.11 26.7] Sens BTUH [kW] 94.9 [27.81 84.0 [24.61 78.2 (22.9] 113.5 [33.21 100.3 [29.41 93.5 [27.41 130.5 [38.2] 115.4 [33.8] 107.5 (31.5] 136.9 [40.11 122.2 [35.8] 113.8 [33.4] 136.7 [40.1] 128.3 (37.6] 119.5 [35.0) O Power 7.9 7.7 7.6 7.8 1 7.6 7.5 7.7 7.5 7.4 1 7.7 7.5 7.4 1 7.6 7.4 7.3 U 85 Total BTUH [kW] 146.0 [42.81 138.9 [40.7] 135.2 (39.6] 138.5 (40.6) 131.8 138.61 128.3 [37.6) 133.5 [39.11 127.0 137.21 123.6 (36.2] 132.2 [38.7] 125.8 [36.9] 122.5 [35.9] 132.1 [38.7] 125.7 (36.8] 122.3 [35.9] TD 129.41 Sens BTUH [kW] 92.5 [27.11 81.8 [24.0) 76.2 [22.3) 111.0 [32.5] 98.2 (28.81 91.5 [26.8] 128.1 (37.5] 113.3 [33.2] 105.5 [30.9) 132.2 [38.71 120.1 [35.2] 111.9 [32.8] 132.1 [38.7] 125.7 [36.81 117.5 [34.4] O Power 8.3 8.1 8.0 8.2 8.0 7.9 8.2 8.0 7.9 8.1 7.9 7.8 8.1 7.9 7.8 R 9090 Total BTUH [kW] 141.4 (41.4] 134.5 [39.4] 131.0 138.41 133.9 [39.21 127.4 [37.31 124.0 [36.3] 128.8 [37.8] 122.6 [35.91 119.3 [35.0] 127.6 [37.41 121.4 135.61 118.2 [34.61 127.5 [37.4) 121.3 [35.51 118.1 [34.6] Sens BTUH [kW] 90.1 (26.41 79.7 [23.3] 74.2 (21.7] 108.6 [31.81 96.0 [28.1) 89.5 [26.21 125.6 [36.8) 111.1 [32.6] 103.5 130.3) 127.6 (37.4] 117.9 (34.5) 109.8 132.21 127.5 [37.41 121.3 [35.51 115.5 [33.8] D Power 8.8 1 8.6 8.5 8.7 8.5 8.4 8.6 8.4 8.3 8.6 8.4 8.3 8.5 8.3 8.2 R Y 95 Total BTUH [kW] 136.8 [40.1] 130.2 [38.11 126.7 [37.11 129.3 [37.9] 123.0 [36.1] 119.7 [35.1] 124.2 [36.4] 118.2 [34.6] 115.1 (33.7] 123.0 (36.01 117.0 [34.3] 113.9 (33.41 122.9 [36.0) 116.9 [34.31 113.8 [33.3] Sens BTUH [kW] 87.6 [25.71 77.5 [22.71 72.2 [21.11 106.1 [31.11 93.8 (27.5] 87.4 [25.6] 123.1 136.11 108.9 131.91 101.5 [29.71 123.0 (36.0] 115.7 [33.9] 107.8 131.61 122.9 [36.0) 116.9 [34.3) 113.4 (33.2] B Power 9.3 9.1 1 9.0 9.2 9.0 8.9 9.1 8.9 8.8 9.1 8.9 8.8 9.1 8.8 8.7 Total STUN (kW] 132.2 [38.7] 125.8 [36.91 122.4135.9) 124.7 [36.5] 118.7 [34.8] 115.5 133.81 119.6135.1 1 113.8 (33.4] 110.8 [32.51 118.4 [34.71 112.7 [33.0] 109.7 [32.11 118.3 [34.7] 112.5 [33.0) 109.5132.1 ] B 37.8) Sens BTUH [kW] 85.1 (24.9] 75.2 [22.0] 70.1 [20.5] 103.6 [30.3] 91.6 [26.81 85.3 (25.0] 119.6 [35.1 ] 106.7 [31.3] 99.4 [29.11 118.4 [34.7] 112.7 [33.0] 105.7 [31.01 118.3 134.71 112.5 [33.0) 109.5 132.11 T Power 9.9 9.6 9.5 9.8 1 9.5 9.4 9.7 9.5 9.3 9.6 9.4 9.3 9.6 9.4 9.2 E Total BTUH [kW] 127.6 (37.41 121.4 [35.61 118.2 (34.6] 120.1 [35.21 114.3 [33.5] 111.2 (32.6] 115.1 (33.7] 109.5 [32.11 106.6 [31.2] 113.8 [33.4] 108.3 [31.7] 105.4 [30.91 113.7 [33.3) 108.2 [31.7) 105.3 130.91P105SensBTUH [kW) 82.5 [24.21 73.0 [21.4] 68.0119.91 101.0 129.61 89.3 [26.2) 83.2 [24.4] 115.1 [33.7] 104.4 [30.61 97.3 [28.5] 113.8 [33.4] 108.3 [31.7] 103.6 [30.41] 113.7 [33.31 108.2 [31.7] 105.3 130.91 E Power 10.5 10.2 10.1 10.4 10.1 10.0 10.3 10.0 9.9 10.2 10.0 9.8 I 10.2 9.9 9.8 R 131 Total BTUH [kW] 123.0 [36.1) 117.1 [34.3] 114.0 [33.41 115.5 [33.9] 109.9 (32.2) 107.0 [31.41 110.5 [32.4] 105.1 [30.8) 102.3 [30.0] 109.3 [32.0) 104.0 [30.51 101.2 [29.71 109.1 (32.0) 103.8 [30.4] 101.1 [29.6] T Sens BTUH [kW] Power 79.9 [23.41 70.6 [20.71 65.8 [19.31 98.4 [28.8] 87.0 (25.51 81.1 [23.81 110.5 [32.4] 102.1 [29.91 95.1 [27.9] 109.3 [32.0) 104.0 130.51 101.2 [29.7) 109.1 [32.0] 103.8 130.41 101.1 [29.6] U 11.1 10.8 10.7 11.0 10.7 10.6 10.9 10.6 10.5 10.8 10.6 10.4 10.8 10.5 10.4 E 115 Total BTUH [kW] 118.5 [34.7] 112.7 [33.01 109.7 [32.21 111.0 [32.51 105.6 [31.01 102.8 [30.1] 105.9 [31.0] 100.8 129.51 98.1 (28.81 104.7 [30.71 99.6129.21 97.0 [28.41 104.6 [30.6] 99.5 (29.2]1 96.8 (28.4146.1] Sens BTUH [kW] 77.2 [22.6] 68.3 [20.01 63.6 [18.61 95.7 [28.11 84.7 [24.81 78.9 [23.11 105.9 [31.0) 99.8 [29.21 92.9 [27.2] 104.7 [30.7) 99.6129.21 97.0 [28.4] 104.6 [30.61 99.5 (29.2) 96.8 [28.4) F C] Power 11.7 11.4 11.3 11.6 11.3 11.2 11.5 11.2 11.1 11.5 11.2 11.1 11.4 11.2 11.0 Total BTUH [kW] 113.9 (33.41 108.4 [31.8] 105.5 (30.9] 106.5 (31.2) 101.3 [29.71 98.6 (28.9] 101.4 (29.7] 96.5 (28.3] 93.9 [27.51 100.2 [29.4] 95.3 (27.9) 92.8 [27.21 100.0 [29.3] 95.2 (27.9] 92.6 (27.1 ] 9] Sens BTUH [kWJ 74.5 [21.81 65.9 [19.3] 61.4 [18.0] 93.0 (27.3) 82.3 [24.11 76.7 [22.5] 101.4 [29.7] 96.5 (28.3] 90.7 [26.61 100.2 [29.41 95.3 (27.9) 92.8 [27.21 100.0 [29.3] 95.2 [27.9] 92.6 [27.1] Power 12.4 12.1 11.9 12.3 12.0 11.8 12.2 11.9 11.7 12.1 11.9 11.7 12.1 11.8 11.7 125 Total BTUH [kW] 109.4 [32.1] 104.1 [30.51 101.3 [29.7] 101.9 [29.9] 97.0 (28.4] 94.4 [27.71 96.9 [28.41 92.2 [27.0] 89.7 [26.3] 95.6 [28.0) 91.0 [26.71 88.6 (26.0] 95.5 [28.01 90.9 [26.6] 88.5 [25.9] 51.71 Sens BTUH [kW] 71.8 [21.0] 63.5 [18.6) 59.2 [17.31 90.3 [26.5] 79.9 [23.41 74.4 [21.81 96.9 [28.4) 92.2 [27.01 88.5 [25.9] 95.6 [28.01 91.0 [26.71 88.6 [26.0] 95.5 [28.0] 90.9 [26.61 88.5 [25.9] Power 13.1 12.8 12.6 13.0 12.7 12.5 12.9 12.6 12.4 12.9 12.5 12.4 1 12.8 12.5 12.3 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: ip When the entering air dry bulb is other than 80°F [271C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)1. [ ] Designates Metric Conversions wbE-Entering air wet bulb Power -KW input p MI 00 in cn M Co 3 N D d' 3 to30cc O 21 COOLING PERFORMANCE DATA-RACDZS150A ENTERING INDOOR AIR @ 80°F [26.7°C] dbE D wbE 71°F [21.7'Cl 67°F[19.4'Cl 63°F(17.2°Cl CFM [Us] 4500121241 375007701 3000 [14161 4500 [21241 3750[1770] 3000114161 4500[2124] 3750[1770] 3000 [14161 0 0.01 0.09 0 0.01 0.09 0 0.01 0.09 75 Total BTUH [kW] 179.6 [52.6) 173.3 [50.8] 167.0 [48.9] 172.2 (50.5] 166.2 [48.71 160.2 [46.9] 167.3 (49.0] 161.4 [47.3] 155.5 [45.61 23.91 Sens BTUH [kW] 113.4 [33.2) 97.4 [28.5] 82.6 (24.2] 131.0 138.41 113.8 [33.3] 97.7 [28.6] 147.4 [43.2] 128.9 [37.8] 111.b (32.?] O Power 10.2 10.0 9.9 10.1 9.9 9.8 10.0 9.9 9.7 U 80 Total BTUH [kW] 175.0 (51.3] 168.9 (49.5] 162.8 [47.7] 167.6 [49.1] 161.8 [47.4] 155.9 [45.7] 162.7 [47.7] 157.0 [46.0] 151.3 [44.3] T D 26'7) Sens BTUH [kW] 110.9 (32.5] 95.3 [27.9] 80.9 [23.7] 128.5 [37.7] 111.7 [32.7] 95.9 [28.1 ] 144.9 [42.5] 126.8 [37.2] 109.8 (32.2) O Power 10.6 10.4 10.3 10.5 10.4 10.2 10.4 10.3 10.1 R 8 Total BTUH [kW] 170.5 [50.0) 164.5 [48.2] 158.5 [46.4] 163.1 [47.8] 157.4 [46.1] 151.6 [44.4] 158.1 [46.3] 152.5 [44.7] 147.0 [43.1] 41 Sens BTUH [kW] 108.5 [31.8] 93.2 [27.3] 79.1 [23.2] 126.1 (36.9] 109.6 [32.11 94.1 [27.6] 142.4 141.71 124.6 (36.5] 108.0 [31.6] D Power 11.1 10.9 10.7 11.0 10.8 10.6 10.9 10.7 10.5 R Y 90 Total BTUH [kW] 165.9 (48.6] 160.1 [46.9] 154.3 [45.2) 158.5 [46.4] 153.0 [44.8] 147.4 [43.2] 153.5 (45.0] 148.1 [43.4] 142.8 [41.8] 2132.21Sens BTUH [kW] 105.8 (31.0] 91.0 [26.71 77.2 [22.6] 123.4 [36.2] 107.4 [31.5] 92.3 [27.0] 139.7 (40.9) 122.4 [35.91 106.2 [31.1] B U Power 11.6 11.4 11.2 11.5 11.3 11.1 11.4 11.2 11.0 L 95 Total BTUH [kW] 161.4 [47.3] 155.7 [45.6] 150.0 [43.9] 154.0 [45.1 ] 148.6 [43.5] 143.2 (42.0] 149.0 [43.7] 143.8 [42.1] 138.5 (40.6] B 35] Sens BTUH [kW] 103.3 [30.3] 88.8 [26.0] 75.3 [22,1] 120.9 [35.4] 105.2 [30.8] 90.5 [26.5] 137.2 [40.2] 120.3 [35.2] 104.3 130.61 T Power 12.1 11.9 11.6 12.0 11.8 11.6 11.9 11.7 11.5 E100 Total BTUH [kW] 156.8 145.91 151.3 (44.3] 145.8 [42.7] 149.4 (43.8] 144.2 [42.3] 139.0 [40.7] 144.5 [42.3] 139.4 [40.8] 134.3 [39.3] P 137.81 Sens BTUH [kW] 100.6 [29.5] 86.5 [25.3] 73.4 [21.5) 118.2 (34.6] 102.9 [30.11 88.6 [26.01 134.6 [39.4] 118.0 [34.6] 102.4 (30.0) E Power 12.6 12.4 12.2 12.5 12.3 12.1 12.4 12.2 12.0 R Total BTUH [kW] 152.3 [44.61 147.0 [43.11 141.6 [41.5] 144.9 (42.5) 139.8 [41.01 134.8 [39.51 139.9 [41.0] 135.0 [39.61 130.1 [38.1] T 40.6] Sens BTUH [kW] 98.0 [28.7) 84.3 124.71 71.5 [20.91 115.6 [33.9) 100.6 [29.5) 86.7 [25.4] 131.9 [38.6] 115.7 133.91 100.5 (29.4) U Power 13.2 13.0 12.7 13.1 12.9 12.6 13.0 12.8 12.5 E 110 Total BTUH [kW] 147.8 14131 142.6 [41.8] 137.4 (40.3] 140.4 [41.11 135.5 (39.71 130.6 (38.3] 135.4 (39.7) 130.7 [38.31 125.9 [36.9] 43.3) Sens BTUH [kW] 95.3 (27.9] 82.0 (24.01 69.6 [20.4] 112.9 133.1] 98.4 (28.8] 84.8 (24.8] 129.2 (37.9] 113.5 133.31 98.6 [28.9] F O] Power 13.8 13.5 13.3 13.7 13.5 13.2 13.6 13.4 13.1 115 Total BTUH [kW] 143.3 [42.0] 138.3 [40.5] 133.3 (39.11 135.9 [39.8] 131.2 [38.4] 126.4 [37.0] 130.9 (38.4) 126.4 [37.01 121.8 [35.7] 46.1] Sens BTUH [kW] 92.6 [27.11 79.7 [23.41 67.7 [19.8] 110.1 [32.3] 96.0 [28.11 82.7 [24.21 126.4 [37.0] 111.1 (32.6] 96.6 [28.3] Power 14.4 14.2 13.9 14.3 14.1 13.8 14.2 14.0 13.7 un-Uepimibmi umu mai -iorai capacity x 1 UUU n i UH NOTES.,O When the entering air dry bulb is other than 80°F [271C], adjust the sensible dbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE- 80)], wbE-Entering air wet bulb Power -KW input [ ] Designates Metric Conversions UNG-PERFORNFANCE-DATA= RACDZT090A ENTERING INDOOR AIR @ 80°F [26.7-C) dbE (D wbE 71°F[21.7°C1 67'F[19.4°C] 63"F[17.2°C] 61°F [16.1°C1 59°F[15.0°C] CFM [Us] 3600 [16991 3200 [1510] 2400 [1133] 3600 [1699] 3200 [1510] 2400 [11331 3600 [16991 3200 [1510] 2400 [11331 3600 [16991 3200 [15101 2400 [1133] 3600 [16991 3200 [15101 2400 [11331 OR Cr) 0.22 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 75 Total BTUH [kW] 111.8 [32.81 109.4 [32.0] 104.4 [30.6) 105.2 [30.8] 102.9 [30.11 98.2 [28.8] 100.4 [29.41 98.2 [28.8) 93.7 [27.5) 99.0 [29.0] 96.8 (28.41 92.4 [27.11 98.5 [28.9] 96.3 [28.21 91.9 [26.9) 123.91 Sens BTUH [kW] 65.6 [19.21 62.0 [18.2] 54.7 (16.0) 77.6 (22.7] 73.4 [21.5) 64.8 [19.0] 89.5 [26.2] 84.5 [24.8) 74.7 [21.9] 95.2 (27.9) 89.9 (26.41 79.4 [23.3] 98.5 [28.9] 95.1 [27.9) 84.0 [24.6) Power 4.5 4.4 4.3 4.4 4.4 4.3 4.4 4.3 4.2 4.3 4.3 4.2 4.3 4.3 4.2 80 Total BTUH [kW] 108.5 [31.8] 106.0 [31.1] 101.2 (29.7) 101.8 [29.8] 99.5 [29.21 95.0 [27.8] 97.0 [28.4] 94.9 [27.8) 90.6 [26.5] 95.6 [28.01 93,5 127.4] 89.2 [26.21 95.1 [27.9] 93.0 [27.2) 88.7 [26.01 126.71 Sens BTUH [kW] 63.8 [18.7] 60.3 [17.7] 53.3 [15.6] 75.9 (22.2] 71.7 [21.0] 63.3 [18.61 87.7 [25.7] 82.9 [24.3) 73.2 (21.4] 93.4 [27.41 88.3 125.9] 78.0 [22.8] 95.1 [27.9] 93.0 [27.2) 82.5 [24.2) OPower 4.9 4.8 4.7 4.8 4.8 4.7 4.8 4.7 4.6 4.7 4.7 4.6 4.7 4.6 4.5 U 65 Total BTUH [kW] 105.0 130.81 102.7 [30.11 98.0 [28.71 98.4 [28.81 96.2 [28.2] 91.8 [26.91 93.6 [27.4] 91.5 [26.8] 87.4 (25.61 92.2 (27.01 90.1 [26.41 86.0 [25.2] 91.7 [26.9] 89.6 [26.3] 85.5 [25.1] TO 29A) Sens BTUH [kW] 62.1 (18.2) 58.7 [17.2] 51.8 [15.2] 74.1 [21.7] 70.0 [20.5] 61.9 [18.11 86.0 [25.2] 81.2123.81 71.7 (21.0] 91.7 [26.9] 86.6 (25.4] 76.5 [22.4] 91.7 [26.91 89.6 [26.31 81.1 [23.8] O Power 5.3 5.3 5.2 5.3 5.2 5.1 5.2 5.2 5.0 5.2 5.1 5.0 5.2 5.1 5.0 9090 Total BTUH [kW] 101.6 [29.8] 99.3 [29.1) 94.8 [27.8] 94.9127.81 92.8 (27.21 88.6 (26.01 90.1 [26.4) 88.1 [25.8) 84.1 [24.71 88.7 [26.0] 86.8 [25.4] 82.8 124.3] 88.2 [25.8] 86.2 [25.8) 82.3 [24.1) R 32 Sens BTUH [kW] 60.3 [17.7] 57.0 (16.71 50.4 [14.8) 72.4121.21 68.4 [20.0) 60.4 [17.7) 84.2 [24.7) 79.6 [23.3] 70.3 [20.6) 88.7 [26.0] 85.0 [24.9] 75.1 [22.0] 88.2 [25.8] 86.2 [25.3) 79.6 [23.31 D Power 5.9 1 5.8 5.7 5.8 5.7 5.6 5.8 5.7 5.6 5.7 5.7 5.5 5.7 5.6 5.5 R Y 95 Total BTUH [kWJ 98.1 [28.7] 95.9 [28.1) 91.5 [26.81 91.4 [26.8] 89.4 [26.21 85.3 [25.0] 86.6 [25.4] 84.7 [24.8) 80.9 [23.71 85.2 [25.0] 83.3 [24.4] 79.5 [23.3] 84.7 [24.8] 82.8 [24.31 79.0 [23.21 35) Sens BTUH [kW] 58.6 [17.2) 55.4 [16.2] 48.9 [14.31 70.7 [20.71 66.8 [19.6) 59.0 [17.3] 82.5 [24.2] 78.0 [22.8] 68.9 [20.2] 85.2 (25.0] 83.3 [24.4] 73.6 [21.6] 84.7 [24.8) 82.8 [24.3) 78.2 [22.91BPower6.5 6.4 6.3 6.4 6.4 6.2 6.4 6.3 6.2 6.3 6.3 6.1 6.3 6.2 6.1 10D Total BTUH [kW] 94.5 [27.7] 92.4 [27.11 88.2 [25.9] 87.9 [25.81 85.9 [25.2] 82.0 [24.0] 83.1 [24.4] 81.3 [23.8] 77.6 [22.7) 81.7 (23.9] 79.9 [23.4] 76.2 [22.3] 81.1 [23.8] 79.3 [23.3] 75.7 [22.2] B 37 8) Sens BTUH [kW] 57.0 [16.7) 53.8 [15.8] 47.5 [13.9] 69.0 [20.21 65.2 [19.1] 57.6 [16.91 80.8 [23.7] 76.4122.41 67.5 [19.8] 81.7 (23.9] 79.9 [23.4] 72.2 121.2] 81.1 [23.8] 79.3 [23.3] 75.7 [22.21 T Power 1 7.2 7.1 1 6.9 7.1 7.0 6.9 7.1 7.0 6.8 7.0 7.0 6.8 7.0 6.9 6.8 E 105 Total BTUH [kW] 91.0 [26.7] 88.9 [26.11 84.9 (24.9] 84.3 [24.71 82.4 (24.2] 78.7 [23.11 79.5 [23.3] 77.8 [22.8) 74.2 (21.8] 78.1 [22.9] 76.4 [22.4] 72.9 [21.4] 77.6 [22.7] 75.8 [22.2] 72.4 [21.21MP40.6] Pons BTUH [kW) 55.3 [16.2] 52.2115.31 46.1 (13.5] 67.3 [19.71 63.6 (18.6) 56.2 116.5] 79.2 [23.2] 74.8 (21.9) 66.1 [19.4] 78.1 [22.9] 76.4 [22.4] 70.8 [20.8] 77.6 [22.7] 75.8 (22.2] 72.4 [21.2) E Power 7.9 7.9 7.7 7.9 7.8 7.6 7.8 7.7 7.6 7.8 7.7 7.5 7.8 7.7 7.5 R Total BTUH [kW] 87.3 [25.6] 85.4 (25.0) 81.5 [23.9] 80.7123.61 78.9 [23.1) 75.3 [22.1) 75.9 [22.21 74.2 [21.8] 70.9 (20.8) 74.5 [21.8] 72.8 [21.3] 69.5 [20.4] 74.0 (21.7] 72.3 (21.2) 69.0 [20.2) T 43.31 Sens BTUH [kWj 53.6 [15.7] 50.7 [14.8) 44.8 [13.11 65.7 (19.2] 62.1 [18.21 54.8 (16.1] 75.9 [22.21 73.2 (21.5] 64.7 (19.0) 74.5 [21.8] 72.8 [21.3] 69.5 [20.4] 74.0 [21.7] 72.3 (21.2) 69.0 [20.2) U Power 8.8 8.7 8.5 8.7 8.6 8.4 8.7 8.6 8.4 8.6 8.5 8.4 8.6 8.5 8.3 E 115 Total BTUH [kW] 83.7 [24.5) 81.8 [24.01 78.1 [22.91 77.0 (22.6] 75.3 [22.1] 71.9 [21.1] 72.3 (21.21 70.7 [20.7] 67.4 [19.8] 70.9 [20.8] 69.3 [20.3] 66.1 (19.4] 70.3 [20.6] 68.7 [20.1] 65.6 [19.2) 4611 Sens BTUH [kW] 52.0 [15.2) 49.1 [14.4] 43.4 [12.7) 64.0 [18.8] 60.5 [17.7] 53.4 [15.7] 72.3 (21.2] 70.7 [20.7] 63.3 [18.6] 70.9 [20.8] 69.3 [20.3] 66.1 (19.4] 70.3 [20.6] 68.7 [20.1] 65.6 [19.2] F O] Power 9.7 9.6 1 9.4 9.6 9.5 9.3 9.6 9.5 9.3 9.6 9.5 1 9.2 9.5 9.4 9.2 Total BTUN [kW] 80.0 [23.4] 78.2 [22.9] 74.7 [21.9] 73.4 [21.5) 71.7 [21.0] 68.5 [20.1] 68.6 [20.1] 67.1 [19.61 64.0 [18.81 67.2 [19.7] 65.7 [19.2] 62.7 [18.4] 66.6 119.5] 65.1 [19.1) 62.2 [18.21 46 ] Sens BTUH [kW] 50.4 [14.8] 47.6 [13.9] 42.0112.31 62.4 [18.3) 59.0 (17.31 52.1 [15.3] 68.6 [20.1] 67.1 [19.61 62.0 [18.21 67.2 [19.71 65.7 [19.2] 62.7 (18.4] 66.6 [19.5] 65.1 [19.1) 62.2 [18.2) Power 10.7 10.6 10.3 10.6 10.5 10.3 10.6 10.5 10.2 10.6 10.4 10.2 10.5 10.4 10.2 Total BTUH [kW] 76.3 [22.4] 74.6 [21.91 71.2120.91 69.6 [20.4) 68.1 [20.0] 65.0 [19.0) 64.9 [19.0] 63.4 [18.6) 60.5 [17.71 63.4 [18.61 62.0 (18.21 59.2 [17.4] 62.9 [18.4) 61.5 [18.0) 58.7 [17.2152171SensBTUH [kW] 48.8 [14.31 46.1 113.51 40.7 [11.91 60.8 [17.8] 57.5 [16.8] 50.8 [14.9) 64.9 [19.0] 63.4 [18.61 60.5 [17.71 63.4 [18.6) 62.0 (18.2] 59.2 [17.4] 62.9 [18.4] 61.5 [18.0] 58.7 [17.2] Power 11.8 11.6 11.4 11.7 11.6 1 11.3 1 11.7 11.5 11.3 11.6 11.5 11.2 11.6 11.5 11.2 ression ratio ring air dry bulb Bring air wet bulb Total -Total capacity x 1000 BTUH NOTES: C7 When the entering air dry bulb is other than 80°F [27°C), adjust the sensible Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. [ ] Designates Metric Conversions Power -KW input • • • • • • • • 8a 179 N U1 MmM33 M 3 3 m MM 0 5'i COOLING PERFORMANCE DATA-RACDZT102A ENTERING INDOOR AIR 0 80"F [26.7°C] ME C!,) wbE 71°F [21.7'C] 67"F119.4°CI 63°F[17.2°Cl 6VF [16.1°CI 59°F[15.0°C1 CFM [Us] 4100 [1935] 3225 [1522] 2700 [1274] 4100 [1935] 3225 [1522] 2700 [1274] 4100 [1935] 3225 [15221 2700 [1274] 4100 [19351 3225 [15221 2700 [1274] 4100 [19351 3225 [15221 2700 [1274] ORO 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 75 Total BTUH [kW] 129.4 [37.9] 123.3 [36.1] 119.7 [35.1) 122.2 [35.8) 116.5 [34.1) 113.0 [33.1] 117.8 [34.5] 112.3 [32.9] 108.9 [31.9) 117.0 (34.3] 111.5 [32.7] 108.2 [31.7] 117.5 (34.4) 112.0 [32.8] 108.7 [31.81 23.9] Sens BTUH [kW] 75.0 [22.0] 66.6 [19.5) 61.5 [18.0] 90.0 [26.4] 79.9 [23.4) 73.9 [21.6] 103.7 [30.4) 92.0 [27.01 85.0 [24.9] 109.7 (32.2] 97.4 [28.5] 90.0 [26.4] 115.0 (33.7] 102.1 [29.9] 94.3 [27.6) Power 6.1 6.0 5.9 6.1 5.9 5.9 6.0 5.9 5.8 6.0 5.8 5.8 1 5.9 5.8 5.7 80 Total BTUH [kW] 125.2 (36.7) 119.3 (35.0) 115.8 [33.9] 118.0 [34.6] 112.4 [33.0] 109.1 (32.0) 113.6 [33.3] 108.2 [31.71 105.0 (30.8] 112.8 [33.1] 107.5 [31.5] 104.3 [30.6] 113.3 [33.2] 108.0 (31.6) 104.8 [30.71 2871 Sens BTUH [kW] 72.9 [21.41 64.8 [19.01 59.8 [17.5] 88.0 [25.81 78.1 [22.9] 72.1 [21.1] 101.6 [29.8] 90.2 [26.41 83.3 [24.4] 107.6 [31.5] 95.5 [28.0] 88.3 [25.9) 112.9 [33.11 100.2 [29.4] 92.6 [27.11 O Power 6.5 6.3 1 6.3 6.4 6.3 6.2 6.4 6.2 6.1 6.3 6.2 6.1 6.3 6.2 6.1 U 85 Total BTUH [kW] 120.9 [35.4] 115.2 [33.81 111.8 [32.8] 113.8 [33.31 108.4 [31.8] 105.2 [30.8] 109.3 (32.0] 104.2 [30.5] 101.1 [29.6] 108.6 [31.8) 103.5 [30.31 100.4 129.41 109.0 [32.01 103.9 [30.5] 100.8 [29.5) D 129.41 Sens BTUH [kW] 70.8 [20.8] 62.9 [18.4] 58.1 [17.0] 85.8 [25.11 76.2 [22.3] 70.4 [20.6] 99.5 [29.1] 88.3 [25.9] 81.6 [23.9] 105.5 [30.9) 93.6 [27.4) 86.5 (25.4) 109.0 [32.0] 98.3 [28.8] 90.9 [26.6) O Power 6.9 6.7 6.6 6.8 6.7 6.6 6.7 6.6 6.5 6.7 6.6 6.5 6.7 6.5 6.4 R 9090 Total BTUH [kW] 116.7 (34.2] 111.2 (32.6] 107.9 (31.6] 109.5 132.1] 104.4 [30.6] 101.3 [29.71 105.1 [30.8) 100.1 [29.3] 97.2 [28.51 104.3 (30.6] 99.4129.1 ] 96.5 [28.3] 104.8 130.71 99.9 [29.3] 96.9 [28.41 Sens BTUH (kW] 68.6 [20.11 60.9 [17.91 56.3 [16.5] 83.6 [24.5] 74.2 [21.8] 68.6 [20.11 97.3 [28.51 86.4 125.3] 79.8123.41 103.3 [30.3] 91.7 [26.9] 84.8 [24.8] 104.8 130.71 96.4 [28.31 89.1 [26.1) D Power 7.3 7.1 7.0 7.2 7.1 7.0 7.2 7.0 6.9 7.1 7.0 6.9 7.1 6.9 6.8 Y 95 Total BTUH [kW] 112.4 [32.9] 107.1 [31.4] 104.0 [30.51 105.2 [30.81 100.3 (29.4] 97.3 [28.5) 100.8 (29.5] 96.1 [28.21 93.2 (27.3] 100.0 [29.3] 95.3 [27.9] 92.5 [27.1] 100.5 [29.51 95.8 [28.1] 93.0 [27.2] 51 Sens BTUH [kW] 66.4 [19.5] 59.0 [17.3] 54.5 [16.01 81.4 [23.91 72.3 [21.2] 66.8 [19.6] 95.1 [27.9] 84.4 [24.71 78.0 [22.9] 100.0 [29.31 89.8 [26.3] 82.9 [24.3] 100.5 [29.5] 94.5127.71 87.3 [25.6] B Power 7.7 7.6 7.5 7.7 7.5 7.4 7.6 7.4 7.3 7.6 7.4 7.3 7.5 7.4 7.3 100 Total STUN [kW] 108.1 (31.7] 103.0 (30.2] 100.0 [29.3] 100.9 129.61 96.2 [28.21 93.4 [27.4] 96.5 [28.3] 92.0 [27.01 89.3 [26.2] 95.8 [28.1] 91.3 [26.71 88.6 [26.0] 96.2 [28.21 91.7 [26.9J 89.0 [26.1] B 37.8] Sens STUN [kW] 64.2 (18.8] 57.0 [16.71 52.6 (15.4] 79.2 (23.2] 70.3 [20.6) 65.0 [19.0] 92.8 [27.21 82.4 [24.1] 76.1 [22.3] 95.8 [28.11 87.8 [25.7] 81.1 [23.8] 96.2 [28.2] 91.7 [26.9) 85.4 [25.0] T Power 8.2 8.0 1 7.9 8.2 8.0 7.9 8.1 7.9 7.8 8.1 7.9 7.8 8.0 7.8 7.7 E Total BTUH [kW] 103.8 [30.4] 98.9 [29.0) 96.0 [28.11 96.7 [28.3] 92.1 127.0] 89.4 [26.21 92.2 [27.0) 87.9 [25.8] 85.3 [25.01 91.5 [26.8] 87.2 [25.51 84.6 [24.8] 91.9 [26.9] 87.6 (25.7] 85.0 [24.9] P 405 Sens BTUH [kW] 61.9 [18.1] 54.9 [16.1] 50.8 [14.9) 76.9 [22.5) 68.3 [20.0] 63.1 [18.5) 90.6 [26.5) 80.4 [23.6) 74.3 [21.8) 91.5 (26.8] 85.7 [25.1] 79.2 [23.21 91.9 [26.9] 87.6 [25.7] 83.6 [24.5) E Power 8.7 8.5 8.4 8.7 8.5 8.3 8.6 8.4 8.3 8.6 8.4 8.2 8.5 8.3 8.2 R Total BTUH [kW] 99.5 [29.2] 94.8 [27.8] 92.0 [27.0] 92.3 [27.11 88.0 [25.81 85.4 [25.01 87.9 [25.8] 83.8 [24.6) 81.3 (23.8] 87.1 (25.5] 83.1 (24.3) 80.6123.61 87.6 [25.7) 83.5 [24.5] 81.0 [23.7) T 4331 Sens BTUH [kW] Power 59.6117.51 52.9 [15.5] 48.9 [14.3] 74.6 [21.91 66.2 [19.41 61.2 [17.9] 87.9 [25.8] 78.3 [22.9] 72.4 [21.2] 87.1 [25.5] 83.1 (24.3) 77.3 [22.7] 87.6 [25.71 83.5 [24.5] 81.0 [23.7] U 9.3 9.1 8.9 9.2 9.0 8.9 9.1 8.9 8.8 9.1 8.9 8.8 9.1 8.9 8.7 E 115 Total BTUH [kW] 95.2 [27.9] 90.7 [26.61 88.0 [25.8] 88.0125.81 83.9 [24.6] 81.4 123.9] 83.6 [24.5] 79.7 [23.31 77.3 [22.7] 82.8 [24.3] 78.9 123.1] 76.6 (22.4] 83.3 [24.4] 79.4 [23.3] 77.0 [22.6] 465 Sens BTUH [kW] 57.2 [16.8] 50.8 [14.91 46.9 (13.8] 72.2 (21.2] 64.1 [18.8] 59.2 (17.4] 83.6 [24.51 76.2 [22.3] 70.4 [20.6] 82.8 [24.31 78.9 (23.1] 75.4 [22.11 83.3 [24.41 79.4 [23.31 77.0 [22.6) F C) Power 9.8 9.6 1 9.5 9.8 9.6 1 9.4 9.7 9.5 9.4 9.7 9.5 9.3 9.7 9.4 9.3 Total BTUH [kW] 90.8 [26.6] 86.6 [25.4] 84.0 [24.6) 83.7 [24.51 79.7 [23.4] 77.4 [22.71 79.2 [23.2] 75.5 [22.1] 73.3 [21.5] 78.5 [23.01 74.8 [21.9] 72.6 [21.3] 78.9 [23.1) 75.2 [22.01 73.0 [21.4) 48.9] Sens BTUH [kW] 54.8 [16.11 48.6 [14.3] 45.0 [13.2) 69.8 [20.5) 62.0 (18.2] 57.3 [16.8) 79.2 (23.2] 74.1 [21.7] 68.5 [20.11 78.5 123.0] 74,8 [21.9] 72.6 [21.3] 78.9 (23.1 j 75.2 [22.0] 73.0 (21.4] Power 10.5 10.2 10.1 10.4 10.1 10.0 10.3 10.1 9.9 10.3 10.0 9.9 10.3 10.0 9.9 Total BTUH [kW] 86.5 [25.31 82.4 [24.2] 80.0 (23.4] 79.3 [23.2] 75.6 [22.1j 73.3 [21.5] 74.9 [21.9] 71.4 (20.91 69.3 [20.3] 74.1 (21.7] 70.6 [20.7] 68.5 [20.1 ] 74.6 [21.9] 71.1 [20.8] 69.0 [20.2] 5171 Sens BTUH [kW] 52.4 [15.3] 46.5 [13.61 42.9 [12.6] 67.4 (19.7] 59.8 [17.5] 55.3 [16.2) 74.9 [21.9] 71.4 [20.9] 66.4 [19.51 74.1 [21.7] 70.6 [20.7] 68.5 [20.11 74.6 [21.9] 71.1 [20.8] 69.0 [20.2] Power 11.1 10.8 10.7 11.0 10.8 10.6 11.0 10.7 10.5 10.9 10.7 10.5 10.9 10.6 10.5 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: C When the entering air dry bulb is other than 80°F [27°C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE • 80)]+ • • [: •] Des1ig .asps Metric ConversionswbE-Entering air wet bulb Power -KW input • • • • • • • • • go COOLING PERFORMANCE DATA-RACDZT120A ENTERING INDOOR AIR @ 80"F [26.7°C] dbE Q) wbE 7VF(21.7°C1 67°F[19.4°C1 63°F [17.2°C] 61°F [16.1°C1 59°F [15.0°Cl CFM [Us] 4800 [22651 3750 [17701 3200 [15101 4800 [2265] 3750 [1770] 3200 [1510] 4800 [22651 3750 [1770] 3200 [1510] 4800 [22651 3750 [17701 3200 [15101 4800 [2265] 3750 [17701 3200 [15101 DR O 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 75 Total BTUH [kW] 155.3 [45.5] 147.8 [43.3] 143.8 [42.2] 147.8 [43.3] 140.7 [41.2] 136.9 (40.11 142.8 [41.8] 135.8 [39.8) 132.2 [38.7] 141.5 [41.5] 134.7 [39.51 131.1 [38.4) 141.4 (41.4] 134.5 (39.4) 130.9 138.41 23,91 Sens BTUH [kW] 97.3 [28.5] 86.1 125.2) 80.2 [23.51 115.8 [33.9] 102.4 130.01 95.4 (28.0] 132.9 [38.9] 117.5(34.4) 109.5 [32.11 140.6 (41.2] 124.3 136.4) 115.8 [33.9] 141.4 [41.4] 130.4 [38.2) 121.4 135.61 Power 7.5 7.3 7.2 7.4 7.2 7.1 7.3 7.1 7.0 7.2 7.1 7.0 7.2 7.0 6.9 80 Total BTUH [kW] 150.6 [44.1] 143.4 142.0) 139.5 [40.91 143.2 [42.01 136.2 [39.9) 132.6 (38.9] 138.1 [40.5] 131.4 [38.5] 127.9 [37.5] 136.9 (40.11 130.2 138.2) 126.8 [37.1] 136.7 [40.11 130.1 (38.1) 126.6 [37.11 26.71 Sens BTUH [kW] 94.9 [27.8] 84.0 [24.6) 78.2 [22.91 113.5 (33.2] 100.3 129.41 93.5 (27.4] 130.5 (38.2] 115.4 [33.8] 107.5 [31.5] 136.9 [40.1] 122.2 [35.81 113.8 [33.4] 136.7 [40.11 128.3 (37.61 119.5 [35.0] O Power 7.9 7.7 7.6 7.8 7.6 7.5 7.7 7.5 7.4 7.7 7.5 7.4 7.6 7.4 7.3 U Total BTUH [kW] 146.0 [42.8] 138.9 [40.71 135.2 [39.6] 138.5 [40.6] 131.8 138.61 128.3 (37.6] 133.5 139.11 127.0 [37.2] 123.6 [36.2] 132.2 (38.7] 125.8 [36.9] 122.5 [35.91 132.1 (38.7] 125.7 [36.81 122.3 [35.9] TD x•4] Sens BTUH [kW] 92.5 [27.11 81.8[24.01 76.2 [22.3] 111.0 (32.51 98.2 [28.8) 91.5 [26.81 128.1 (37.5] 113.3 [33.2] 105.5 [30.9] 132.2 (38.7] 120.1 [35.2] 111.9 [32.8] 132.1 (38.71 125.7 [36.81 117.5 [34.4] O Power 8.3 8.1 8.0 8.2 8.0 7.9 1 8.2 8.0 7.9 8.1 7.9 7.8 8.1 7.9 7.8 0 Total BTUH [kW] 141.4 [41.4] 134.5 [39.4] 131.0 138.4] 133.9 [39.2] 127.4 [37.3] 124.0 [36.3) 128.8 [37.81 122.6 [35.9] 119.3 135.0] 127.6 [37.4) 121.4 (35.6] 118.2 [34.6] 127.5 [37.4] 121.3 [35.5) 118.1 [34.6] R 3 Sens BTUH [kW] 90.1 [26.4] 79.7 [23.3] 74.2 [21.7] 108.6 [31.8] 96.0 [28.1] 89.5 [26.2) 125.6 [36.8) 111.1 (32.6] 103.5 130.31 127.6 [37.41 117.9 [34.5] 109.8 132.21 127.5 [37.41 121.3 [35.5] 115.5 [33.81 Power 8.8 8.6 8.5 8.7 8.5 8.4 8.6 8.4 8.3 8.6 8.4 8.3 8.5 8.3 8.2 R Y 95 Total BTUH [kW] 136.8 [40.1] 130.2 138.1] 126.7 [37.1] 129.3 [37.9] 123.0 [36.11 119.7 [35.1] 124.2 [36.4) 118.2 [34.6] 115.1 (33.71 123.0 [36.01 117.0 [34.31 113.9 (33.4] 122.9 [36.0] 116.9 [34.3] 113.8 133.31 1351 Sens BTUH [kW] 87.6 [25.7] 77.5 [22.7] 72.2 [21.11 106.1 [31.1 ] 93.8 [27,51 87.4 125.6] 123.1 [36.11 108.9 [31.91 101.5 [29.7) 123.0 [36.01 115.7 [33.9] 107.8 (31.6] 122.9 [36.01 116.9 [34.3] 113.4 [33.2] B Power 9.3 9.1 9.0 9.2 9.0 8.9 9.1 8.9 8.8 9.1 8.9 8.8 9.1 1 8.8 8.7 100 Total BTUH [kW] 132.2 [38.7] 125.8 136.9] 122.4 [35.9] 124.7 (36.5] 118.7 [34.8] 115.5 [33.8] 119.6 [35.1) 113.8 [33.4] 110.8 (32.5] 118.4 [34.71 112.7 [33.0] 109.7 (32.1] 118.3 [34.7] 112.5 [33.01 109.5 [32.1] B 37 81 Sens BTUH [kW] 85.1 [24.9) 75.2 [22.0] 70.1 [20.5] 103.6 [30.3] 91.6 [26.8] 85.3 [25.0] 119.6 [35.1) 106.7 [31.3] 99.4 [29.11 118.4 [34.71 112.7 [33.0] 105.7 [31.0] 118.3 [34.7] 112.5 [33.0] 109.5 [32.1] T Power 9.9 9.6 9.5 9.8 9.5 9.4 9.7 9.5 9.3 9.6 9.4 9.3 9.6 9.4 9.2 E Total BTUH [kW] 127.6 137.41 121.4 135.61 118.2 [34.6] 120.1 (35.2] 114.3 133.5) 111.2 [32.6) 115.1 [33.7] 109.5 [32.1) 106.6 [31.2] 113.8 [33.4) 108.3 [31.7) 105.4 [30.9] 113.7 [33.3] 108.2 [31.71 105.3 [30.9] P 05 Sens BTUH [kW] 82.5 [24.2) 73.0 (21.4) 68.0 [19.9] 101.0 [29.6] 89.3 [26.21 83.2 (24.4] 115.1 [33.7] 1 G4.4 [30.6] 97.3 [28.5] 113.8 [33.4) 108.3 [31.7) 103.6 [30.4] 113.7 [33.3] 108.2 (31.7) 105.3 [30.9] E Power 10.5 10.2 10.1 10.4 10.1 10.0 10.3 10.0 9.9 10.2 10.0 9.8 10.2 9.9 9.8 RA 110 Total BTUH [kW] 123.0 (36.11 117.1 (34.3) 114.0 [33.4] 115.5 [33.91 109.9 132.21 107.0 (31.41 110.5 [32.4] 105.1 [30.8) 102.3 (30.0] 109.3 [32.0] 104.0 [30.5] 101.2 (29.7] 109.1 [32.O] 103.8 [30.4) 101.1 [29.6] 43.31Power Sens TUN [kW] 799 (23.4] 1 706[80.7) 10 6589.3] 10[ 984[28.8) 10 87.0 [25.5110 813.8] 1105[92.4] 10 1021[9.9] 06 95.1 (27.9] 1093[82.0110 1040[30.5] 06 101 [89.7J 1092.01 103.8 [30.41 10119.6]T 0[ 1.1 106 10.5 10.8 0 E 115 Total BTUH [kW] 118.5 [34.71 112.7 [33.0] 109.7 132.21 111.0 [32.51 105.6 [31.01 102.8 [30.1] 105.9 (31.0] 100.8 [29.51 98.1 [28.8] 104.7 [30.7] 99.6 [29.2] 97.0 [28.4] 104.6 [30.6] 99.5 [29.2] 96.8 [28.4] 115 Sens BTUH [kWJ 77.2 [22.6] 68.3 [20.0] 63.6 (18.6) 95.7 [28.1) 84.7 (24.8] 78.9 [23.1] 105.9 [31.0] 99.8 [29.2] 92.9 [27.2] 104.7 [30.7] 99.6 [29.2] 97.0 [28.4] 104.6 [30.61 99.5 [29.2] 96.8 [28.4] F 1'C1120 Power 11.7 11.4 11.3 11.6 11.3 11.2 11.5 11.2 11.1 11.5 11.2 11.1 11.4 11.2 11.0 Total BTUH [kW] 113.9 [33.4] 108.4 [31.8] 105.5 [30.9] 106.5 [31.2] 101.3 [29.7] 98.6 [28.91 101.4 [29.7] 96.5 (28.3] 93.9 [27.5] 100.2 (29.4] 95.3 [27.91 92.8 [27.2] 100.0 [29.31 95.2 [27.9] 92.6 [27.1 J 148.91 Sens BTUH [kW] 74.5 [21.8] 65.9 [19.3] 61.4 (18.0] 93.0 [27.31 82.3 [24.11 76.7 [22.51 101.4 [29.71 96.5 [28.3] 90.7 [26.6] 100.2 (29.4] 95.3 [27.9] 92.8 (27.2] 100.0 [29.31 95.2 [27.9] 92.6 127.1] Power 12.4 12.1 11.9 12.3 12.0 11.8 12.2 11.9 11.7 12.1 11.9 113 12.1 11.8 11.7 Total BTUH [kW] 109.4 [32.11 104.1 [30.5) 101.3 [29.7] 101.9 [29.9] 97.0 [28.4] 94.4 [27.71 96.9 [28.41 92.2 [27.0] 89,7 [26.3] 95.6 [28.0] 91.0 [26.71 88.6 [26.0] 95.5 [28.01 90.9 [26.6] 88.5 [25.9] 51.7] Sens BTUH [kWJ 71.8 [21.0] 63.5 [18.61 59.2 [17.3] 90.3 [26.5] 79.9 [23.4] 74.4 [21.8] 96.9 [28.41 92.2 [27.0] 88.5 [25.9] 95.6 [28.0] 91.0 [26.71 88.6 [26.0] 95.5 [28.0] 90.9 [26.6] 88.5 125.9] Power 1 13.1 12.8 12.6 13.0 12.7 1 12.5 12.9 12.6 12.4 1 12.9 1 12.5 12.4 1 12.8 12.5 12.3 un-uepression rano lotai -Iota) capacity x 1uuu H i uh NOTES: (S) When the entering air dry bulb is other than 80°F [27°Cj, adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. [ ] Designates Metric Conversions wbE-Entering air wet bulb Power -KW input • • • • • • • • • , • • COOLING PERFORMANCE DATA-RACDZT150A ENTERING INDOOR AIR 4T80-F [26.7°C] dbE O wbE 71°F [21.7°C1 67°F [19.4°C1 63°F [17.2°Cl CFM [Us] 4500 [21241 3750 [1770] 3000 [14161 4500 [21241 3750 [1770] 3000 [1416] 4500 [21241 3750 [17701 3000 [1416] 0 0.01 0.09 0 0.01 0.09 0 0.01 0.09 75 Total BTUH [kW] 179.6 [52.6] 173.3 (50.8) 167.0 [48.9) 172.2 [50.5] 166.2 [48.7) 160.2 [46.9) 167.3 (49.0] 161.4 [47.3] 155.5 [45.61 23.91 Sens BTUH [kW] 113.4 (33.2] 97.4 [28.5] 82.6 [24.2) 131.0 [38.4] 113.8 [33.3) 97.7 [28.6] 147.4 (43.2] 128.9 [37.8] 111.5 (32.7) O Power 10.2 10.0 9.9 10.1 9.9 9.8 10.0 9.9 9.7 U80 Total BTUH [kW] 175.0 (51.3] 168.9 [49.5] 162.8 [47.7] 167.6 149.1] 161.8 [47.4] 155.9 [45.7] 162.7 [47.7] 157.0 [46.0] 151.3 [44.3) T D 26'71 Sens BTUH [kW] 110.9 [32.5] 95.3 [27.9] 80.9 (23.7] 128.5 [37.71 111.7 [32.71 95.9 [28.11 144.9 [42.5] 126.8 [37.2] 109.8 [32.2] O Power 10.6 10.4 10.3 10.5 10.4 10.2 10.4 10.3 10.1 R 8 Total BTUH [kW] 170.5 [50.0) 164.5 [48.2] 158.5 [46.4) 163.1 [47.81 157.4 [46.11 151.6 [44.4] 158.1 [46.3] 152.5 [44.7] 147.0 [43.11 4) Sens BTUH [kW1 108.5 [31.8] 93.2 [27.31 79.1 [23.21 126.1 [36.9] 109.6132.1 ] 94.1 [27.6] 142.4 [41.7) 124.6 [36.5] 108.0 [31.6] D Power 11.1 10.9 10.7 11.0 10.8 10.6 10.9 10.7 10.5 R Total BTUH [kW] 165.9 [48.6] 160.1 [46.9] 154.3 [45.2] 158.5 [46.4] 153.0 [44.8) 147.4 [43.2] 153.5 145.01 148.1 [43.4] 142.8 [41.8] x'2] SensBTUH [kW] 105.8 131.01 91.0 [26.7] 77.2 [22.61 123.4 136.21 107.4 [31.51 92.3 [27.Oj 139.7 [40.9] 122.4 [35.9) 106.2 131.11BB U Power 11.6 11.4 11.2 11.5 11.3 11.1 11.4 11.2 11.0 L 95 Total BTUH [kW] 161.4 [47.3] 155.7 (45.6] 150.0 [43.9] 154.0 [45.11 148.6 [43.5] 143.2 [42.0] 149.0 [43.7] 143.8 [42.1) 138.5 [40.6] B 35) Sens BTUH [kW] 103.3 [30.3] 88.8 [26.0) 75.3 [22.1] 120.9 [35.4] 105.2 [30.8] 90.5 [26.5] 137.2 [40.2] 1203 [35.2] 104.3 [30.6] T Power 12.1 11.9 11.6 1 12.0 11.8 11.6 11.9 11.7 11.5 E100 Total BTUH [kM 156.8 [45.9] 151.3 [44.31 145.8 [42.7] 149.4 [43.8] 144.2 [42.3] 139.0 [40.7] 144.5 [42.3] 139.4 [40.8) 134.3 139.3] P 370 Sens BTUH [kW] 100.6 [29.5] 86.5 [25.3] 73.4 [21.5] 118.2 [34.6] 102.9 [30.11 88.6 [26.0] 134.6 [39.4) 118.0 [34.6] 102.4 [30.0] E Power 12.6 12.4 12.2 12.5 12.3 12.1 12.4 12.2 12.0 R 105 Total BTUH [kW] 152.3 [44.6] 147.0 143.11 141.6 (41.5] 144.9 [42.5] 139.8 [41.0] 134.8 [39.51 139.9 (41.0] 135.0 [39.6) 130.1 (38.11 T 140.6] SensSens BTUH [kW] 98.0 [28.7] 84.3 [24.71 71.5 [20.9] 115.6 [33.9] 100.6 [29.5) 86.7 [25.41 131.9 [38.6] 115.7 [33.9] 100.5 (29.4) U 13.2 1 13.0 12.7 13.1 12.9 12.6 13.0 12.8 12.5 E 110 Total BTUH [kW] 147.8 [43.31 142.6 [41.81 137.4 [40.31 140.4 [41.1] 135.5 [39.71 130.6 [38.3) 135.4 [39.71 130.7 (38.3] 125.9 [36.9) F 43.3] Sens BTUH [kW] 95.3127.91 82.0 [24.01 69.6 [20.4) 112.9 [33.1] 98.4 [28.81 84.8 [24.81 129.2 [37.9) 113.5 (33.3] 98.6 [28.9] Ol Power 13.8 13.5 13.3 13.7 13.5 13.2 13.6 13.4 13.1 115 Total BTUH [kW] 143.3 142.01 138.3 [40.5] 133.3 139.1] 135.9 [39.8] 131.2 (38.41 126.4137.0]130.9 38.4] 126.4 [37.0] 121.8 [35.7] 461] Sens BTUH [kW] 92.6 [27.11 79.7 (23.4] 67.7 [19.81 110.1 [32.3] 96.0 [28.11 82.7 (24.2] 126.4 (37.0] 111.1 [32.6] 96.6 [28.3] Power 14.4 14.2 13.9 14.3 14.1 13.8 14.2 14.0 13.7 vn-vcNroamun iauu iuiai -imai capacny x IUUUDIUM NOTES: e) When the entering air dry bulb is other than 80°F [27°G], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. [ ] Designates Metric Cchver.ionswbE-Entering air wet bulb Power -KW input a Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZS090 ENTERING INDOOR AIR @ 75°F [23.9°Cl ME O wbE 65.3'F OUT] 64-F [17.8°C] 62.51 [16.9'C] CFM [Us] 1800 1850j 1700 [8021 1 1200 [5661 1800 [8501 170018021 120015661 18018501 1 1700 [8021 1200 [5661 0 60 Total BTUH [kWl 29.7 [8.7] 29.4 [8.6] 27.9 [8.2] 27.0 [7.9] 26.7 [7.8) 25.3 [7.4] 26.6 -[7.8] 26.4 [7.7] 24.9 [7.3] u 15.61 Sens BTUH [kW1 6.5 [1.9] 6.3 [1.81 5.4 [1.6] 9.0 [2.6] 8.7 [2.6] 7.5 [2.2] 11.4 [3.4] 11.1 [3.3] 9.6 [2.8] T D power power 3.2 3.1 3.1 3.2 3.2 3.1 3.2 3.2t 3.1 70 Total BTUH [kW] Total BTUH [kW1 29.5 [8.6] 29.2 [8.5] 27.6[8.1] 26.7 [7.8] 26.4 [7.71 25.0 [7.3] 26.Q [7,7r 26.1 17.6] 24.7 [7-.@tR 21 11 18 3] Sens BTUH [kWJ 5.0 [1.5] 4.9 [1.4] 4.2 [1.2] 7.6 [2.2] 7.4 [2.21 6.3 [1.9] 10.0 •[4.9] 9.7 [&9] 2.5] D Power Power 3.2 3.2 3.1 3.3 3.2 3.2 Z.4... 3. ,, 8.4 3.1 R 70 Total BTUH NW1 28.8 [8.4] 28.5 [8.4] 27.0 [7.9] 26.0 [7.6] 25.8 [7.6] 24.4 [7.1] 25.3.[1 25.4 [7.5]. 24.1 [7,1] 26.71 21.11 Sens BTUH [kW] 3.7 [1.1] 3.6 [1.0) 3.1 [0.9] 6.2 [1.8] 6.0 [1.8] 5.2 [1.5] 8.6 , f2,51 8.4 j.5] 7.2 [2 3 B Power Power 3.2 3.2 3.1 3.3 3.3 3.2 8.3 3.3 . 3.2 u 75 Total BTUH NW1 27.8 [8.1] 27.5 [8.1] 26.0 [7.6] 25.0 [7.3] 24.7 [7.2] 23.4 [6.9] 24. 7.2 24.4 [7.2] 23.1 [6.8 B 23.9) Sens BTUH [kW1 2.3 [0.71 2.3 [0.7] 2.0 [0.6] 4.9 [1.4] 4.7 [1.4] 4.1 [1.2] 7. 11} 7.1 .[2.1):'; 6.1 (1!81 T Power Power 3.3 3.3 3.2 3.4 3.4 3.3 3'4 . • 3.49* 3.3 • • EBO Total BTUH [kW] Total BTUH NW1 26.3 [7.71 26.0 [7.6] 24.6 [7.2] 23.5 [6.9] 23.3 [6.8] 22.1 [6.5] 23.x' W 23.0 [6.7]• 21.7 [6.4] P 26.7] Sens BTUH NW1 1.1 [0.3] 1.0 [0.3] 0.9 [0.3] 3.6 [1.0] 3.5 [1.0] 3.0 [0.9] 6.9 [1.8] 5.9 .[1.7] 5.1 [1.N] R Power Power 3.4 3.4 3.3 3.5 3.5 3.4 3.5 . 3,Q "' 3.4 A85 Total BTUH [kW] Total BTUH [kWJ 24.5 [7.2] 24.2 [7.1] 22.9 [6.7] 21.7 [6.4] 21.5 [6.3] 20.3 [6.0] 21.4. .3) 21.1 20.0 [tgJT[ 29.4] Sens BTUH [kWl Sens BTUH 1kW1 0.2 [-0.1] 0.2 [0.0] 0.1 [0.0] 2.4 [0.7] 2.3 [0.7] 2.0 [0.6] 4.8 [1.4] 4.7 •j.Jr 4.0 [1.2] R Power Power 3.6 3.6 3.5 3.7 3.6 3.6 3.6 3.6 3.5 E Total BTUH NW1 Total BTUH [kWJ 22.2 [6.5] 22.0 [6.4] 20.8 [6.1] 19.5 [5.7] 19.3 [5.61 18.2 [5.3] 19.1 [5.6] 18.9 [5.5] 17.9 [5.3] F 328 2] Sens BTUH [kW] 1.3 [-0.4] 1.3 [-0.4] 1.1 [-0.3] 1.2 [0.3] 1.1 [0.3] 1.0 [0.3] 3.6 [1.1] 3.5 [1.0] 3.0 [0.9] Cl Power Power 3.8 3.7 3.6 3.8 3.8 3.7 3.8 3.8 3.7 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZS090 ENTERING INDOOR AIR @ 75'F [23.9°Cl dbE O wbE 65.3'F [18.5'CI 64°F [17.8°Cl 62.5'F[16.9'C] CFM Ml 3600116991 2900[13691 2400 [11331 3600[16991 2900[13691 2400111331 3600116991 2900[13691 1 2400 [11331 0 60 TotalBTUH RW1 41.7 [12.2] 39.9 [11.71 38.7 [11.3] 40.1 [11.8] 38.4 [11.3] 37.2 [10.9] 40.0 [11.7] 38.3 [11.21 37.1 [10.9] u 15.61 Sens BTUH [kW] 8.9 [2.6] 8.0 [2.41 7.4 [2.2] 12.8 [3.7] 11.5 [3.4] 10.5 [3.1] 18.5 [5.4] 16.7 [4.9] 15.3 [4.5] T D power 5.0 4.9 4.8 4.9 4.8 4.8 4.9 4.8 4.8 0 70 Total BTUH [kW] 39.8 [11.7] 38.1 [11.2] 36.9 [10.8] 38.3 [11.2] 36.7 [10.7] 35.5 [10.4] 38.1 [11.2] 36.5 [10.7] 35.4 [10.4] R 21 11 Sens BTUH [kWJ 5.9 [1.7] 5.3 [1.6] 4.9 [1.4] 9.8 [2.9] 8.8 [2.6] 8.1 [2.4] 15.5 [4.6] 14.0 [4.1] 12.8 [3.81 D Power 5.1 5.0 1 4.9 5.1 5.0 4.9 5.0 4.9 4.9 R80 Total BTUH [kW1 36.7 [10.7] 35.1 [10.3] 34.0 [10.0] 35.1 [10.3] 33.7 [9.9] 32.6 [9.6] 35.0 [10.3] 33.5 [9.8] 32.5 [9.5] 26.71 Sens BTUH [kW] 2.1 [0.6] 1.9 [0.5] 1.7 [0.5] 5.9 [1.7] 5.3 [1.6] 4.9 [1.4] 11.7 [3.4] 10.5 [3.1] 9.6 [2.8] B Power 5.4 5.3 5.2 5.3 5.2 5.1 5.3 5.2 5.1 9. Total BTUH [kW] 32.3 [9.5] 30.9 [9.1] 30.0 [8.8] 30.8 [9.0] 29.5 [8.6] 28.5 [8.4] 30.6 [9.0] 29.3 [8.6] 28.4 (8.3] B 32'21 Sens BTUH [kWl 2.7 [-0.8] 2.4 [-0.7] 2.2 [-0.6] 1.2 [0.3] 1.0 [0.3] 1.0 [0.3] 6.9 [2.0] 6.2 [1.8] 5.7 [1.7] T Power 5.8 5.6 5.6 5.7 5.6 5.5 5.7 5.6 5.5 E M 100 Total BTUH [kW] 26.7 [7.8] 25.5 [7.5] 24.7 [7.3] 25.1 [7.4] 24.1 [7.1] 23.3 [6.8] 25.0 [7.3] 23.9 [7.0] 23.2 [6.8] P 37.81 Sens BTUH [kWJ 8.3 [-2.4] 7.4 [-2.2] 6.8 [-2.0] 4.4 [-1.3] 4.0 [-1.21 3.7 [-1.1] 1.3 [0.4] 1.2 [0.4] 1.1 [0.3] R Power 6.3 6.2 6.1 6.2 6.1 6.0 6.2 6.1 6.0 A 110 Total BTUH [kW] 19.8 [5.8] 19.0 [5.6] 18.4 [5.4] 18.3 [5.4] 17.5 [5.1] 17.0 [5.0] 18.1 [5.3] 17.4 [5.1] 16.8 [4.9] R 143.31 Sens BTUH [kWl 14.7 [-4.3] 13.2 [-3.9] 12.2 [-3.6] 10.9 [-3.2] 9.8 [-2.9] 9.0 [-2.6] 5.1 [-1.5] 4.6 [-1.41 4.2 [-1.2] Power 6.9 6.8 6.7 6.9 6.7 6.6 6.9 6.7 6.6 E 120 Total BTUH NW1 11.7 [3.4] 11.2 [3.3] 10.8 [3.2] 10.1 [3.0] 9.7 (2.8] 9.4 [2.8] 10.0 [2.9] 9.6 [2.8] 9.3 [2.7] F 148'91 Sens BTUH [kWJ 22.1 [-6.5] 19.8 [-5.8] 18.2 [-5.3] 18.2 [-5.3] 16.4 [ 4.8] 15.1 [ 4.41 12.5 [ 3.7] 11.2 [ 3.3] 10.3 [ 3.0] 1 Power 7.8 7.6 7.5 7.7 7.5 7.4 7.7 7.5 7.4 30 RELY ON RUUD.rm Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZS102 ENTERING INDOOR AIR @ 75'F [23.9"CI dbE O wbE 65.3°F [18.5'CI I 64'F [17.8°CI 62.5-F [16.9-C] CFM [Us] 2100 [991] 1700 [8021 1400 [6611 2100 [991] 1700 [8021 1400 [6511 2100 [9911 1700 IBM 1400 [6611 0 60 Total BTUH RW1 36.6 [10.7] 35.1 [10.3] 33.9 [9.9] 34.5 [10.1] 33.1 [9.7] 32.1 [9.4] 31.9 [9.3] 30.6 [9.0] 29.6 [8.7] u 15.6] Sens BTUH [kW] 7.1 [2.1] 6.4 [1.9] 5.9 [1.7] 9.0 [2.6] 8.1 [2.4] 7.4 [2.2] 10.7 [3.1] 9.7 [2.8] 8.9 [2.6jT D Power 3.9 3.8 3.7 3.8 3.8 3.7 3.8 8 • 3.7 0 70 Total BTUH[kW1 35.5 [10.4] 34.0 [10.0] 32.9 [9.6] 33.4 [9.8] 32.1 [9.4] 31.0 [9.1] 3.8 .[9.Q] 29.5 [8.61 28.6 *[8.11?R3118 Sens BTUH [kW1 6.1 [1.8] 5.5 [1.6] 5.0 [1.5] 8.0 [2.3] 7.2 [2.1] 6.6 [1.9] 9! [2.9] 8.7• 8.0 [2.4) D Power 3.9 3.8 3.8 3.9 3.8 3.8 3.4.0 3.8... 3.Q y 70 Total BTUH [kW1 34.1 [10.0] 32.7 [9.6] 31.7 [9.3] 32.1 [9.41 30.8 [9.0] 29.8 [8.7] 296 •[8h] 28.3 [8.3] 27.4 .[8.0] y 21.11 Sens BTUH [kW1 4.8 [1.4] 4.3 [1.31 4.0 [1.2] 6.7 [2.0] 6.0 [1.8] 5.5 [1.61 5..[Z.5] 7.. [2.P 7.0 •[fA? e g Power 4.0 3.9 3.9 4.0 3.9 3.9 4.0 • a3.9. 3. u 75 Total BTUH IkWI 32.7 [9.61 31.3 [9.2] 30.3 [8.9] 30.6 [9.0] 29.4 [8.6] 28.4 [8.3] TJ8.0 8.2] 26.8 [7.9 26.0 B 2. 3221 Sens BTUH [kW] 3.3 [1.01 3.0 [0.9] 2.8 [0.8] 5.2 [1.5] 4.7 [1.4] 4.3 [1.3] d •1i1] 63' [t 5.8 •(19r T 23'91 Power 4.1 4.0 4.0 4.1 4.0 4.0 4.1 • 4" 4.8 • • • E 6. Total BTUH [kW1 31.0 [9.11 29.7 [8.7] 28.8 [8.4] 29.0 [8.5] 27.8 [8.1] 26.9 [7.9] 63;[77] 25.2 [?.4] 24.4 [7.21P26'71 Sens BTUH [kW1 1.7 [0.51 1.5 [0.4] 1.4 [0.4] 3.6 [1.0] 3.2 [0.9] 2.9 [0.9] 95.3 [16] 4,8 1.2 [-0.4] E Power 4.3 4.2 4.1 4.3 4.2 4.1 4.3. 0*,f 4 A 85 Total BTUH [kW1 29.1 [8.5] 27.9 [8.2] 27.0 [7.9] 27.1 [7.9] 26.0 [7.61 25.1 [7.4] 4x4 '[711 23.4.46.41 22.7:It" T[ 29.4] 43 Sens BTUH [kW] 0.2 [-0.1] 0.2 [-0.1] 0.2 [-0,1] 1.7 [0.5] 1.5 [0.4] 1.4 [0.4] 3.4 [1.0] 301 &.To 2.8 [0.8] R Power 4.4 4.3 4.3 4.4 4.3 4.3 4.4 4.3 4.3 E 90 Total BTUH IkW] 27.1 [7.9] 26.0 [7.61 25.1 [7.4] 25.0 [7.31 24.0 [7.0] 23.2 [6.8] 22.4 [6.6] 21.5 [6.3] 20.8 [6.1] F 3221 Sens BTUH [kW] 2.3 [ 0.7] 2.1 [ O.6j 1.9 [-0.6] 0.4 [-0.1] 0.4 [-0.1] 0.4 [-0.1] 1.3 [0.4] 1 1.2 [0.3] 1.1 [0.3] 1 Power 4.6 4.5 4.4 4.6 1 4.5 4.4 4.6 4.5 1 4.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZS102 ENTERING INDOOR AIR @ 75°F [23.9°CI dbE CD wbE 65.3°F MUM 64'F [17.8"C1 62.5'F [16.9'CI CFM [Ll3l 4100 [19351 2900 [13691 2700 [1274] 4100 [19351 2900 [13691 2700 [12741 4100 [19351 2900 [13691 2700 [12741 0 60 Total BTUH [kW1 57.6 [16.9] 53.6 [15.7] 52.9 [15.5] 45.7 [13.4] 42.5 [12.5] 42.0 [12.3] 51.3 [15.0] 47.7 [14.0] 47.1 [13.8] 0 15.61 Sens BTUH [kW1 12.7 [3.7] 10.7 [3.1] 10.3 [3.0] 14.6 [4.3] 12.2 [3.6] 11.8 [3.5] 20.5 [6.0] 17.2 [5.0] 16.6 [4.91T D Power 6.6 6.4 6.3 5.2 5.0 5.0 6.3 6.1 6.0 D 70 Tota[ BTUH [kW1 52.7 [15.5] 49.1 [14.4] 48.4 [14.2] 40.9 [12.0] 38.0 [11.1] 37.5 [11.0] 46.4 [13.6] 43.2 [12.7] 42.6 [12.5] R 21.11 Sens BTUH [kW] 10.1 [3.0] 8.5 [2.5] 8.2 [2.41 11.9 [3.5] 10.0 [2.9] 9.7 [2.8] 17.9 [5.2] 15.0 [4.4] 14.5 [4.2] D Power 6.4 6.1 6.1 5.0 4.8 4.8 6.0 5.8 5.8 80 Total BTUH [kW1 46.3 [13.6] 43.1 [12.6] 42.6 [12.5] 34.5 [10.1] 32.1 [9.4] 31.6 [9.31 40.0 [11.7] 37.2 [10.9] 36.7 [10.8] y 26.71 Sens BTUH RW1 5.6 [1.6] 4.7 [1.4] 4.5 [1.31 7.4 [2.2] 6.2 [1.81 6.0 [1.8] 13.3 [3.9] 11.2 [3.3] 10.8 [3.2] B Power 6.4 6.1 6.1 5.0 4.8 4.8 6.1 5.8 5.8 u Total BTUH [kW1 38.4 [11.2] 35.7 [10.5] 35.2 [10.3] 26.5 [7.8] 24.7 [7.2] 24.3 [7.1] 32.1 [9.4] 29.8 [8.7] 29.4 [8.6] B 2. 3221 Sens BTUH NW1 0.9 [-0.31 0.7 [-0.2] 0.7 [-0.2] 0.9 [0.3] 0.8 [0.2] 0.8 [0.2] 6.9 [2.0] 5.8 [1.71 5.6 [1.61 T Power 6.6 6.4 6.4 5.2 5.1 5.0 6.3 6.1 6.1 E100 Total BTUH [kW1 28.9 [8.5] 26.9 [7.9] 26.5 [7.8] 17.0 [5.0] 15.8 [4.6] 15.6 [4.6] 22.6 [6.6] 21.0 [6.1] 20.7 [6.1] P 37.810Sens BTUH [kW] 9.2 [-2.7] 7.7 [-2.3] 7.5 [-2.2] 7.4 [-2.2] 6.2 [-1.8] 6.0 [-1.8] 1.5 [-0.4] 1.2 [-0.4] 1.2 [-0.4] H Power 7.2 6.9 6.9 5.8 5.6 5.5 6.8 6.6 6.6 A0110 Total BTUH [kW1 17.9 [5.21 16.6 [4.9] 16.4 [4.8] 6.0 [1.8] 5.6 [1.6] 5.5 [1.6] 11.5 [3.4] 10.7 [3.11 10.6 [3.1] R 43 Sens BTUH RWI 19.5 [-5.71 16.3 [-4.8] 15.8 [-4.6] 17.7 [-5.2] 14.8 [-4.31 14.3 (-4.2] 11.7 [-3.4] 9.8 [-2.9] 9.5 [-2.8] Power 7.9 7.7 7.6 6.5 6.3 6.3 7.6 7.4 7.3 E 120 Total BTUH RW1 5.3 [1.5] 4.9 [1.41 4.9 [1.4] 6.6 [-1.9] 6.1 [-1.8] 6.0 [-1.8] 1.0 [-0.3] 1.0 [-0.3] 1.0 [-0.31 F 48.9] Sens BTUH [kW1 31.6 [-9.3] 26.5 [-7.81 25.7 [-7.5] 29.8 [-8.7] 25.0 [-7.3] 24.2 [-7.1] 1 23.9 [-7.01 20.0 [-5.91 19.4 [-5.7] I*cl Power 9.0 8.7 8.6 7.6 7.3 7.3 8.7 8.4 8.3 RELY ON RUUD.T" 31 Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZS120 ENTERING INDOOR AIR @ 75°F [23.9°Cl dbE wbE 65.3°F[18.5°CI 64°F[17.8°C1 62.57[16.9°CI CFM [L/s] 3000 [14151 2400111331 1 2000 (9441 3000 [14161 2400 [11331 2000 [944) 3000 [14161 2400 [11331 2000 [9441 0 60 Tota[ BTUH [kWI 46.5 [13.6] 44.4 [13.0] 43.1 [12.6] 43.1 [12.6] 41.2 [12.1] 40.0 [11.71 40.3 [11.8] 38.6 [11.3] 37.4 [11.71- u 15.6] Sens BTUH [kW1 12.9 [3.81 11.6 [3.4] 10.7 [3.11 13.8 [4.0] 12.3 [3.6] 11.4 [3.3] 18.5 [5.4] 16.5 [4.8] 15.3 [4.5] T D Power 4.6 4.5 4.4 4.5 4.4 4.3 4.5 4.4• 4.3 0 65 Tota[ BTUH [kW] 45.7 [13.4] 43.7 [12.8] 42.4 [12.4] 42.3 [12.4] 40.5 [11.9] 39.3 [11.5] 39.6*0[11. 37.8 ['M.1 ] 36.7 [104]. R 118.31 Sens BTUH MWI 10.5 [3.1] 9.4 [2.8] 8.7 [2.5] 11.4 [3.31 10.2 [3.0] 9.4 [2.8] 16.1 .[4. ] 14.4 [44 13.3 [3.9] D Power 4.6 4.5 4.5 4.6 4.5 4.4 44.900 4.40 4.4 R7070 Total BTUH [kW] 44.7 [13.1] 42.7 [12.5] 41.4 [12.1] 41.3 [12.1] 39.5 [11.6] 38.3 [11.2] 38.5.WJ.:],. 36.9 [10.8] 35.7 [10,j] 26.71 Sens BTUH NWI 8.3 [2.4] 7.4 [2.2] 6.9 [2.0] 9.2 [2.7] 8.2 [2.41 7.6 [2.2] 13.9 12.4 6] 3. j. B Power 4.7 4.6 4.6 4.7 4.6 4.5 g.1>. 4. 4.5• • X11. 4 4.5 u 7. Tota[ BTUH [kWI 43.4 [12.7] 41.5 [12.2] 40.2 [11.8] 40.0 [11.7] 38.3 [11.2] 37.1 [10.9] 37.2 t1 . j 35.6 [ .4] 34.5 [10.1r8SensBTUHMWI6.3 [1.8] 5.6 [1.7] 5.2 [1.5] 7.2 [2.1] 6.4 [1.9] 5.9 [1.7] lift :.If 10.6 13!1] 09.8 [2.9;• T 23'91 Power 4.9 4.8 4.7 4.8 4.7 4.7 4.0 • • 4.7 • . 4.6 . • E 80 Total BTUH MWI 41.8 [12.2] 40.0 [11.7] 38.8 [11.4] 38.4 [11.3] 36.8 [10.8] 35.6 [10.4] 35.7' M18 -A T 34.1 [10.0] 33.1 [9.7] P 26.71 Sens BTUH MWI 4.5 [1.31 4.0 [1.2] 3.7 [1.1] 5.4 [1.6] 4.8 [1.4] 4.4 [1.3] 10.1: [2.Bj 9.0 1;2.6] 8.3 [2A1 E Power 5.1 5 4.9 5 4.9 4.9 5 0 4.9' • • 4.8 T85 110 Total BTUH [kW] 40.0 [11.71 38.2 [11.2] 37.1 [10.9] 36.6 [10.7] 35.0 [10.3] 33.9 [9.9] 319 609] 32.4 [j 31.4 [91St 0 29.4] Sens BTUH MWI 2.9 [0.8] 2.6 [0.8] 2.4 [0.7] 3.8 [1.1] 3.4 [1.0] 3.1 [0.9] 8.5 [2.5] 7.6 J2.2] 7.0 [A] R Power 5.4 5.3 5.2 5.3 5.2 5.1 5.3 5.2 5.1 E 120 Total BTUH [kW] 37.9 [11.1] 36.2 [10.6] 35.1 [10.3] 34.5 [10.1] 33.0 [9.7] 32.0 [9.4] 31.7 [9.3] 30.4 [8.9] 29.4 [8.6] F 3221 Sens BTUH NWI 1.5 [0.41 1.3 [0.4] 1.2 [0.4] 2.4 [0.7] 2.1 [0.6] 2.0 [0.61 7.1 [2.1] 6.3 [1.9] 5.8 [1.7] C1 Power 5.7 5.6 5.5 5.6 5.5 5.4 5.6 5.5 5.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZS120 ENTERING INDOOR AIR @ 75°F [23.9°Cl ME (D wbE 65.3'F[18.5°CI 64°F[17.8°C1 62.5°F [16.9°Cl CFM [L/sl 4800 [22651 3800 [17931 1 3200 [15101 4800 [22651 3800 [17931 3200 [15101 4800 [2265) 3800 [17931 3200 [15101 0 60 Total BTUH NWI 58.1 [17.0] 55.4 [16.2] 53.9 [15.8] 55.5 [16.3] 53.0 [15.5] 51.4 [15.1] 53.1 [15.6] 50.7 [14.9] 49.2 [14.4] U 15.6] Sens BTUH [kW1 10.5 [3.1] 9.3 [2.7] 8.6 [2.5] 15.6 [4.6] 13.9 [4.1] 12.9 [3.8] 19.9 [5.8] 17.7 [5.2] 16.4 [4.8] T D power 7.0 6.9 6.8 6.9 6.8 6.7 6.9 6.8 6.7 0 Tota[ BTUH NWI 53.4 [15.7] 51.0 [14.9] 49.5 [14.5] 50.8 [14.9] 48.5 [14.2] 47.1 [13.8] 48.4 [14.2] 46.2 [13.5] 44.9 [13.2] R 121011 Sens BTUH [kW1 8.3 [2.4] 7.4 [2.2] 6.8 [2.0] 13.4 [3.9] 12.0 [3.5] 11.1 [3.21 17.7 [5.2] 15.8 [4.6] 14.6 [4.31 D Power 7.1 7.0 6.9 7.0 6.9 6.8 7.0 6.9 6.8 R80 Total BTUH [kW1 48.4 [14.2] 46.2 [13.5] 44.9 [13.2] 45.8 [13.4] 43.7 [12.8] 42.5 [12.4] 43.4 [12.7] 41.5 [12.1] 40.3 [11.8] 26.71 Sens BTUH RINI 4.5 [1.3] 4.0 [1.2] 3.7 [1.1] 9.7 [2.8] 8.6 [2.5] 8.0 [2.3] 14.0 [4.1] 12.5 [3.6] 11.5 [3.4] B Power 7.4 7.3 1 7.2 7.3 7.2 7.1 7.3 7.2 7.1 u 90 Total BTUH [kW1 43.1 [12.6] 41.1 [12.0] 39.9 [11.7] 40.5 [11.9] 38.6 [11.3] 37.5 [11.0] 38.1 [11.2] 36.3 [10.6] 35.3 [10.3] 8 Sens BTUH [kW) 0.8 [-0.2] 0.7 [-0.2] 0.6 [-0.2] 4.4 [1.3] 3.9 [1.1] 3.6 [1.1] 8.7 [2.51 7.7 [2.3] 7.2 [2.1] T 32.2] Power 7.9 7.7 7.6 7.8 7.7 7.5 7.8 7.6 7.5 E100 Total BTUH [kW] 37.4 [11.0] 35.7 [10.5] 34.6 [10.2] 34.8 [10.2] 33.2 [9.7] 32.2 [9.4] 32.4 [9.5] 30.9 [9.1] 30.0 [8.8] P 37.81 Sens BTUH [kW1 7.6 [-2.2] 6.8 [-2.0] 6.3 [-1.8] 2.5 [-0.71 2.2 [-0.6] 2.0 [-0.6] 1.8 [0.5] 1.6 [0.5] 1.5 [0.4] E Power 8.6 8.4 8.3 8.5 8.3 8.2 8.5 8.3 8.2 A 110 Total BTUH [kWI 31.3 [9.2] 29.9 [8.8] 29.0 [8.5] 28.7 [8.4] 27.4 [8.0] 26.6 [7.8] 26.3 [7.7] 25.1 [7.4] 24.4 [7.1] 143.31 Sens BTUH [kW] 16.0 [-4.7] 14.3 [-4.2] 13.2 [-3.9] 10.9 [-3.2] 9.7 [-2.8] 9.0 [-2.6] 6.6 [-1.9] 5.9 [-1.7] 5.5 [-1.6] R Power . 9.5 9.3 1 9.2 1 9.4 9.2 9.1 9.4 9.2 9.0 E 120 Total BTUH [kW) 24.9 [7.3] 23.8 [7.0] 23.1 [6.8] 22.3 [6.51 21.3 [6.2] 20.7 [6.1] 19.9 [5.8] 19.0 [5.6] 18.5 [5.41 F 148 91 Sens BTUH [kWI 26.0 [-7.6] 23.2 [-6.8] 21.5 [-6.3] 20.9 [-6.11 18.6 [-5.5] 17.2 [-5.0] 16.6 [-4.9] 14.8 [-4.3] 13.7 [-4.0] C1 Power 10.6 10.3 10.2 10.5 10.2 10.1 10.5 10.2 10.1 32 RELY ON RUUD,TM Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZS150 ENTERING INDOOR AIR @ 75'F [23.9°C] dbE G wbE 65.3°F [18.5°Cl 64°F [17.8°Cl 62.5°F [16.9°Cl CFM [L/sl 3000 [14161 2400 [11331 2000 [9441 3000 [14161 2400 [11331 2000 [944] 3000 [14161 1 2400 [11331 2000 [9441 0 60 Total BTUH NW] 46.5 [13.6] 44.4 [13.0] 43.1 [12.6] 43.1 [12.6] 41.2 [12.1] 40.0 [11.7] 40.3 [11.8] 38.6 [11.3] 37.4 [11.0] U 15.6] Sens BTUH [kW1 12.9 [3.8] 11.6 [3.4] 10.7 [3.1] 13.8 [4.0] 12.3 [3.6] 11.4 [3.31 18.5 [5.4] 16.5 [4.8] 15.3 [4.5] D [15.6] Power 4.6 4.5 4.4 4.5 4.4 4.3 4.5 8.9 4.3 0 65 Total BTUH [kWl 45.7 [13.4] 43.7 [12.8] 42.4 [12.4] 42.3 [12.4] 40.5 [11.9] 39.3 [11.5] 16 [1,1.6} 37. [11.1] 36.7 R 118.31 Sens BTUH RWI 10.5 [3.1] 9.4 [2.8] 8.7 [2.5] 11.4 [3.3] 10.2 [3.01 9.4 [2.8] 16.1 [4.71 14. '[klr 13.3 [3.9] D Power 4.6 4.5 4.5 4.6 4.5 4.4 9!6• • •.4 4.4• s • R70 Total BTUH [kW] 44.7 [13.1] 42.7 [12.5] 41.4 [12.1] 41.3 [12.1] 39.5 [11.6] 38.3 [11.2] 36.s1r". 36.9 [10.8] 35.7 [40.5 26 7] Sens BTUH RWI 8.3 [2.4] 7.4 [2.2] 6.9 [2.0] 9.2 (2.7] 8.2 [2.4] 7.6 [2.2] 13.9 • J4.1 ] 12.4 0[3.6]. 11.4 B 21.11 Power 4.7 4.6 4.6 4.7 4.6 4.5 4 • 5 •134.5[ 9.6 0 75 Total BTUH [kW] 43.4 [12.7] 41.5 [12.2] 40.2 [11.8] 40.0 [11.7] 38.3 [11.2] 37.1 [10.9] 3ZZ1LQ j 35.6 [j0.4Lg 66.3 [ 23.9] SensBTUH[kW] 6.3 [1.8] 5.6 [1.7] 5.2 [1.5] 7.2 [2.1] 6.4 [1.9] 5.9 [1.7] 11.E • J%M 10.6 [.4] T 20.8 [6.1 T Power 4.9 4.8 4.7 4.8 4.7 4.7 4.8 4.1 10.3 E Total BTUH [kW] 41.8 [12.2] 40.0 [11.7] 38.8 [11.4] 38.4 [11.3] 36.8 [10.8] 35.6 [10.4] 61.3 [18.0] 34.1 [10. ] P 56.3 [16.5] P 2671 SensBTUH[kW] 4.5 [1.3] 4.0 [1.2] 3.7 [1.1] 5.4 [1.6] 4.8 [1.4] 4.4 [1.3] 117.1 [2.91 9.Q 14.1 [4.1] A Power 5.1 5 4.9 5 4.9 4.9 5 • SIN: 4$ j 11.3 T 85 Total BTUH [kW] 40.0 [11.7] 38.2 [11.2] 37.1 [10.9] 36.6 [10.7] 35.0 [10.3] 33.9 [9.9] 33.8• [9.99 32.4 •[6.5} 31.4 9. R 29.41 Sens BTUH RWI 2.9 [0.8] 2.6 [0.8] 2.4 [0.7] 3.8 [1.1] 3.4 [1.0] 3.1 [0.9] 8.5 [2.5] 7.t [g% 7.0 [2.0] R Power 5.4 5.3 5.2 5.3 5.2 5.1 5.3 5.2 5.1 E 128 Total BTUH (kW]37.9 11.1] 36.2 [10.6] 35.1 [10.3] 34.5 [10.1] 33.0 [9.7] 32.0 [9.4] 31.7 [9.3] 30.4 [8.9] 29.4 [8.6] F 3202] Sens BTUH [kW] 1.5 [0.4] 1.3 [0.4] 1.2 [0.4] 2.4 [0.7] 2.1 [0.6] 2.0 [0.6] 7.1 [2.1] 6.3 [1.9] 5.8 [1.7] C] Power 5.7 5.6 5.5 5.6 5.5 5.4 5.6 5.5 5.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZS150 ENTERING INDOOR AIR @ 75°F [23.9°CI dbE rD wbE 65.3°F[18.5°C1 64°F 117.8°C1 62.5°F [16.9°C1 CFM [L/s1 6000[2832] 4100[19351 4000[1888] 6000[2832] 1 4100[19351 4000 [18881 6000[2832] 4100[1935] 4000118881 0 602F Total BTUH [kW1 99.3 [29.1] 91.5 [26.8] 91.1 [26.7] 101.6 [29.81 93.7 [27.4] 93.2 [27.3] 92.7 [27.2] 85.5 [25.1] 85.2 [25.0] U T 15.6] Sens BTUH [kW] 33.3 [9.7] 27.4 [8.0] 27.0 [7.9] 40.1 [11.8] 33.0 [9.7] 32.6 [9.6] 46.4 [13.6] 38.1 [11.2] 37.7 [11.0] D Power 9.5 9.1 9.1 9.3 8.9 8.9 9.3 8.9 8.9 0 704EF Total BTUH [kW1 94.4 [27.7] 87.1 [25.5] 86.7 [25.4] 96.7 [28.3] 89.2 [26.1] 88.8 [26.0] 87.9 [25.8] 81.1 [23.8] 80.7 [23.7] R 21 Sens BTUH [kW] 27 [7.9] 22.2 [6.5] 21.9 [6.4] 33.9 [9.9] 27.9 [8.2] 27.5 [8.1] 40.1 [11.7] 33.0 [9.7] 32.6 [9.5] D Power 9.7 9.3 9.3 9.5 9.2 9.2 9.5 9.2 9.1 R8091' Total BTUH [kW1 87.6 [25.7] 80.8 [23.7] 80.4 [23.6] 89.9 [26.3] 82.9 [24.3] 82.5 [24.2] 81.1 [23.8] 74.8 [21.9] 74.4 [21.8] 26 7] Sens BTUH [kW] 20.1 [5.9] 16.5 [4.8] 16.3 [4.8] 27.0 [7.9] 22.2 [6.5] 21.9 [6.4] 33.2 [9.7] 27.3 [8.0] 27.0 [7.9] B Power 10.2 9.8 9.8 10 9.6 9.6 10 9.6 9.6 B 9001' Total BTUH [kW] 7&7 [ 23.1 72.6 [ 723 [ 1.0 [ 74.7 [24.7] 74.4 [ 72.2 [ 66.3 [ 32.232'2] Sens BTUH [kW] 125 [3.71 10.3 [3.01 10.2 [3.01 189.4 [5.71 15.9 15 8 [4.61 25.6 [7.51 21.0 [6.21 20.8 [6.1 T Power 11 10.5 10.5 10.8 10.4 10.3 10.8 10.3 10.3 E100°F Total BTUH [kWl 67.8 [19.9] 62.5 [18.3] 62.3 [18.2] 70.1 [20.5] 64.7 [18.9] 64.4 [18.9] 61.3 [18.0] 56.5 [16.6] 56.3 [16.5] P 37.81 Sens BTUH RWI 4.3 [1.3] 3.5 [1.0] 3.5 [1.0) 11.2 [3.3] 9.2 [2.7] 9.1 [2.7] 17.4 [5.1] 14.3 [4.2] 14.1 [4.1] R Power 11.9 11.5 11.4 11.8 11.3 11.3 11.8 11.3 11.3 A 1100 Total BTUH [kW] 54.9 [16.1] 50.6 [14.8] 50.4 [14.8] 57.2 [16.8] 52.7 [15.51 52.5 [15.4] 48.4 [14.2] 44.6 [13.11 44.4 [13.0] R 43 Sens BTUH [kW] 4.6 [-1.3] 3.8 [-1.1] 3.7 [-1.1] 2.3 [0.7] 1.9 [0.5] 1.9 [0.5] 8.5 [2.5] 7.0 [2.0] 6.9 [2.0] Power 13.2 12.6 12.6 13 12.5 12.4 13 12.5 12.4 E 128 Total BTUH RWI 40.0 [11.7] 36.8 [10.8] 36.7 [10.8] 42.3 [12.4] 39.0 [11.4] 38.8 [11.4] 33.4 [9.8] 30.8 [0.9] 30.7 [9.0] F 48.9] Sens BTUH [kW] 14.1 [-4.1] 11.6 [-3.4] 11.5 1-3.41 7.2 [-2.1] 6.0 [-1.71 5.9 [-1.7] 1.0 [-0.3] 0.9 [-0.2] 0.8 [-0.2] I°- Power 14.6 14.1 14 14.5 13.9 13.9 14.4 13.9 13.8 i RELY ON RUUD.TM 33 _ Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZT090 ENTERING INDOOR AIR 0 75°F [23.9"Cl dbE O wbE 65.31 [18.5"Cl 64'F [17.8"CI 62.5°F [16.9°Cl CFM [U31 1800 [8501 1700 [8021 1200 [5661 1800 [8501 1700 [8021 1200 [5661 1800 [8501 1700 [8021 120015661 0 60 Total BTUH [kWl 29.7 [8.7] 29.4 [8.6] 27.9 [8.2] 27.0 [7.91 26.7 [7.81 25.3 [7.41 26.6 [7.81 26.4 [7.71 24.9 [7.3] 0 15.6] Sens BTUH [kW1 6.5 [1.9] 6.3 [1.8) 5.4 [1.6] 9.0 [2.61 8.7 [2.6] 7.5 [2.21 11.4 [3.4] 11.1 [3.31 9.6 [2.8) T D power Power 3.2 3.1 3.1 3.2 3.2 3.1 3.2 3.2 3.1 0 R Total BTUH [kWl Total BTUH [kW] 29.5 [8.6] 29.2 [8.5] 27.6 [8.1] 26.7 [7.8] 26.4 [7.7] 25.0 [7.3] 26.4 [7.7) 26.1 :. 9 4.7 [7.2] 21.11 168.31 Sens BTUH [kW] 5.0 [1.5] 4.9 [1.4] 4.2 [1.2] 7.6 [2.2] 7.4 [2.2] 6.3 [1.9] 10.0,0 [2.2] 9.7 [Q 4 [2.5]l. Power Power 3.2 3.2 3.1 3.3 3.2 3.2 3.2. 3.2 .. 3.1 R70 Total BTUH [kW] Total BTUH [kWl 28.8 [8.4] 28.5 [8.4] 27.0 [7.9] 26.0 [7.6] 25.8 [7.6] 24.4 [7.1] 25.70 •[i liiJ•. 25.4 4 24.1 [7.1L 126.71 21 11 Sens BTUH [kW] 3.7 [1.1] 3.6 [1.0] 3.1 [0.9] 6.2 [1.81 6.0 [1.8] 5.2 [1.5] 8.6 .[2.3), 8.4 [2.51 7.2 [21) g-_ Power Power 3.2 3.2 3.1 3.3 3.3 3.2 3. 3.3 3.2 .. L B 75 Total BTUH [kWl Sens BTUH [kW1 27.8 [8.11 2.3 [0.7] 27.5 [8.1] 2.3 [0.7] 26.0 [7.6] 2.0 [0.6] 25.0 [7.3] 4.9 [1.4] 24.7 [7.2] 4.7 [1.4] 23.4 [6.9] 4.1 [1.2] 24.70(j 7.3 [2 24.4 ;7.21 7.1 T2.1 ] 13.1 [6. ] 6.1 [1.S? T 23.91 Power 3.3 3.3 3.2 3.4 3.4 3.3 3.4; " 3.4 • 3.3 . • E80 Power Total BTUH [kW] 26.3 [7.71 26.0 [7.6] 24.6 [7.2] 23.5 [6.9] 23.3 [6.8] 22.1 [6.5] 23. '[61j 23.0 [IfTj 11.7 [600 P 26.71 Sens BTUH [kW] 1.1 [0.3] 1.0 [0.3] 0.9 [0.3] 3.6 [1.0] 3.5 [1.0] 3.0 [0.9] 6. 'tM8. 5 5.9 [1.7] 5.1 [1.51 R Sens BTUH [kWl Power 3.4 3.4 3.3 3.5 3.5 3.4 1.2 [0.4] 3.5 3.4 A Power Total BTUH [kW1 24.5 [7.2] 24.2 [7.1] 22.9 [6.7] 21.7 [6.4] 21.5 [6.3) 20.3 [6.0] 21.4 [6.33 21.1 j6.4 e 0 [5.9] R 29541 Sens BTUH [kWl 0.2 1-0.1] 0.2 [0.0] 0.1 [0.0] 2.4 [0.7] 2.3 [0.7] 2.0 [0.6] 41. j i'4] 4.7 [1.4] 4.0 [102] 43.3] Sens BTUH RW1 Power 3.6 3.6 3.5 3.7 3.6 3.6 3.6 3.G . 3.5 E Power Total BTUH [kW] 22.2 [6.5] 22.0 [6.4] 20.8 [6.1] 19.5 [5.7] 19.3 [5.6] 18.2 [5.3] 19.1 [5.6j 18.9 [1.;] 17.9 [5.3] F 3Z21 Sens BTUH [kW] 1.3 [-0.4] 1.3 [-0.4] 1.1 [-0.3] 1.2 [0.3] 1.1 [0.3] 1.0 [0.3] 3.6 [1.11 3.5 [1.0] 3.0 [0.9] C] BTUH-22.1 Power 3.8 3.7 3.6 1 3.8 1 3.8 3.7 3.8 3.8 3.7 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZT090 ENTERING INDOOR AIR @ 75°F [23.9"C] dbE v wbE 65.3°F [18.5"Cl 64"F [17.8'C1 62.5°F [16.9°Cl CFM [Us] 3600[16991 2900[1369] 1 2400 [11331 3600 [16991 2900113691 2400 [11331 3600[16991 2900[13691 2400 [11331 0 60 Total BTUH [kW] 41.7 [12.2] 39.9 [11.7] 38.7 [11.3] 40.1 [11.8] 38.4 [11.3] 37.2 [10.9] 40.0 [11.7] 38.3 [11.2] 37.1 [10.9] 0 15.6] Sens BTUH [kW] 8.9 [2.6] 8.0 [2.4] 7.4 [2.2] 12.8 [3.7] 11.5 [3.4] 10.5 [3.11 18.5 [5.4] 16.7 [4.9] 15.3 [4.5] T D power 5.0 4.9 4.8 4.9 4.8 4.8 4.9 4.8 4.8 0 70 Total BTUH [kWl 39.8 [11.7] 38.1 [11.2] 36.9 [10.8) 38.3 [11.2] 36.7 [10.7] 35.5 [10.4] 38.1 [11.2] 36.5 [10.7) 35.4 [10.4] R 21.11 Sens BTUH [kW] 5.9 [1.7] 5.3 [1.6] 4.9 [1.41 9.8 12.91 8.8 [2.6] 8.1 [2.4] 15.5 [4.6] 14.0 [4.1] 12.8 [3.8] D Power 5.1 5.0 1 4.9 5.1 5.0 4.9 5.0 4.9 4.9 R80 Total BTUH [kW] 36.7 [10.7] 35.1 [10.3] 34.0 [10.0] 35.1 [10.3] 33.7 [9.9] 32.6 [9.6] 35.0 [10.3] 33.5 [9.8] 32.5 [9.5] 126.71 Sens BTUH [kW) 2.1 [0.6] 1.9 [0.5] 1.7 [0.5] 5.9 [1.7] 5.3 [1.6] 4.9 [1.4] 11.7 [3.4] 10.5 [3.1 J 9.6 [2.8] 8 Power 5.4 5.3 5.2 5.3 5.2 5.1 5.3 5.2 5.1 L 90 Total BTUH [kW] 32.3 [9.5] 30.9 [9.1] 30.0 [8.8] 30.8 [9.0] 29.5 [8.6] 28.5 [8.4] 30.6 [9.0] 29.3 [8.6] 28.4 [8.3] B 32.21 Sens BTUH 1kW1 2.7 [-0.8] 2.4 [-0.7] 2.2 [-0.6] 1.2 [0.3] 1.0 [0.3] 1.0 [0.3] 6.9 [2.0) 6.2 [1.8] 5.7 [1.7] T Power 5.8 5.6 5.6 5.7 5.6 5.5 5.7 5.6 5.5 E M 100 Total BTUH [kW] 26.7 [7.8] 25.5 [7.5] 24.7 [7.3] 25.1 [7.4] 24.1 [7.1] 23.3 [6.8] 25.0 [7.3] 23.9 [7.0] 23.2 [6.8] P 137.81 Sens BTUH [kWl 8.3 [-2.4] 7.4 [-2.21 6.8 [-2.0] 4.4 1-1.31 4.0 [-1.2] 3.7 [-1.1] 1.3 [0.4] 1.2 [0.4] 1.1 [0.3] E Power 6.3 6.2 6.1 6.2 6.1 6.0 6.2 6.1 6.0 A 110 Total BTUH [kW] 19.8 [5.8] 19.0 [5.6] 18.4 [5.4] 18.3 [5.4] 17.5 [5.1] 17.0 [5.0] 18.1 [5.3] 17.4 [5.1] 16.8 [4.9] R 43.3] Sens BTUH RW1 14.7 [-4.3] 13.2 [-3.9] 12.2 [-3.6] 10.9 [-3.2] 9.8 [-2.9] 9.0 [-2.6] 5.1 [-1.5] 4.6 [-1.4] 4.2 [-1.2] Power 6.9 6.8 6.7 6.9 1 6.7 6.6 6.9 6.7 6.6 E 120 Tota[ BTUH j[kW11.7 3.4] 11.2 [3.3] 10.8 [3.2) 10.1 [3.0] 9.7 [2.8) 9.4 [2.8] 10.0 [2.9] 9.6 [2.8] 9.3 [2.7] FSens48.9] BTUH-22.1 6.5] 19.8 [-5.8] 18.2 [-5.31 18.2 [-5.3] 1 16.4 [-4.8] 15.1 [-4.4] 12.5 [-3.7] 11.2 [-3.3] 10.3 [-3.01IT] Power 7.8 7.6 7.5 7.7 7.5 7.4 7.7 7.5 7.4 34 RELY ON RUUD.TIM Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZf102 ENTERING INDOOR AIR @ 75°F [23.9°C] dbE T wbE 65.3°F [18.5°Cl 64°F [17.8°CI 62.5°F MUM CFM [Us] 2100 [9911 1700 [802) 1 1400 [6611 2100 [9911 1700 [8021 1400 [6611 2100 [9911 1700 [8021 1400 [6611 0 60 Total BTUH RWI 36.6 [10.7] 35.1 [10.3] 33.9 [9.9] 34.5 [10.1] 33.1 [9.7] 32.1 [9.4] 31.9 [9.3] 30.6 [9.0] 29.6 [8.7] u 15.6] Sens BTUH [kW1 7.1 [2A] 6.4 [1.9] 5.9 [1.7] 9.0 [2.6] 8.1 [2.4] 7.4 [2.2] 10.7 [3.1] 9.7 [2.81 8.9 [2.6] T D power Power 3.9 3.8 3.7 3.8 3.8 3.7 3.8 3.8 3.7 70 Total BTUH [kWl Total BTUH RWI 35.5 [10.4] 34.0 [10.0] 32.9 [9.6] 33.4 [9.8] 32.1 [9.4] 31.0 [9.1] 30.8 [9.0] 29.'.[)j.r 28.6 [8.4] R 168.311SensBTUH [kW] 6.1 [1.8] 5.5 [1.6] 5.0 [1.5] 8.0 [2.3] 7.2 [2.1] 6.6 [1.9] 2.7 j2.8j Ub [2.6] 8.0 42,41 Power 6.4 3.9 3.8 3.8 3.9 3.8 3.8 am . 3.J... 3.8 R 70 Total BTUH RWI 34.1 [10.0] 32.7 [9.6] 31.7 [9.3] 32.1 [9.4] 30.8 [9.0] 29.8 [8.7] 20.f 8-.64 28. •[ZZ 27.4 j8.ajY2111SensBTUHW4.8 1.4] 4.3 [1.3] 4.0 [1.2] 6.7 _[2.0] 6.0 [1.8] 5.5 [1.6] 85. 2, 7.6 [2] 7.0 j2.0] B Power Power 4.0 3.9 3.9 4-C, 3.9 3.9 4 0 3.9 3.Q ... 75 Total BTUH [kW] 32.7 [9.6] 31.3 [9.2] 30.3 [8.9] 30.6 [9.0] 29.4 [8.61 28.4 [8.3] 2BP,1 .Z] 264r77..4] 26.0 7.61 B Sens BTUH [kW1 Sens BTUH [kW] 3.3 [1.0] 3.0 [0.9] 2.8 [0.8] 5.2 [1.5] 4.7 [1.4] 4.3 [1.3] 7.0 [2.0] 6 5.8 1?.:]• T 23.91 Power 4.1 4.0 4.0 4.1 4.0 4.0 94t'; 6.1 4.9 •. • E 80 Total BTUH [kW] 31.0 [9.1] 29.7 [8.7] 28.8 [8.4] 29.0 [8.5] 27.8 [8.1] 26.9 [7.9] 1.71 2524.4 1]• P 26.71 Sens BTUH [kW] 1.7 [0.5] 1.5 [0.4] 1.4 [0.4] 3.6 [1.0] 3.2 [0.9] 2.9 [0.9] 9'3' 1.6] 4.8 [1.4) 4.4 [1.31, R Power Power 4.3 4.2 4.1 4.3 4.2 4.1 4. . X1.2 . 4. T 85 Total BTUH RWI 29.1 [8.5] 27.9 [8.2] 27.0 [7.9] 27.1 [7.9] 26.0 [7.6] 25.1 [7.4] 114.4 232*TfrM 22.7 .[6.6] 143.31 29.4] Sens BTUH [kW] 0.2 [-0.1] 0.2 [-0.11 0.2 [0.1 ] 1.7 [0.5] 1.5 [0.41 1.4 [0.4] i.2] 3,4 [1 y] 3.1 . j0.9 2.8 •[68} R Power Power 4.4 4.3 4.3 4.4 4.3 4.3 4.4 4.3. o 4.3 E 90 Total BTUH [kW] 27.1 [7.9] 26.0 [7.6] 25.1 [7.4] 25.0 [7.3) 24.0 [7.01 23.2 [6.8] 22.4 [6.6] 21.5 [6.3] 20.8 [6.1] F 132.21 Sens BTUH [kW] 2.3 [-0.7] 2.1 [-0.6] 1.9 [-0.6] 0.4 [-0.1] 0.4 [-0.1] 0.4 [-0.1] 1.3 [0.4] 1.2 [0.3] 1.1 [0.3] c] Power Power 4.6 4.5 4.4 4.6 4.5 4.4 4.6 4.5 4.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZf102 ENTERING INDOOR AIR @ 75°F [23.9°C] dbE G wbE 65.3°F [18.5°C] 64°F117.8°Cl 62.5°F[16.9°CI CFM [US1 4100 [19351 2900 [13691 2700 [12741 4100 [19351 2900 [13691 2700 [12741 4100 [19351 2900 [13691 2700 [12741 0 60 Total BTUH [kW] 57.6 [16.9] 53.6 [15.7] 52.9 [15.5] 45.7 [13.4] 42.5 [12.5] 42.0 [12.31 51.3 [15.0] 47.7 [14.0] 47.1 [13.8] U 15.6] Sens BTUH [kW] 12.7 [3.7] 10.7 [3.1] 10.3 [3.0] 14.6 [4.31 12.2 [3.6] 11.8 [3.51 20.5 [6.0] 17.2 [5.0] 16.6 [4.9] 7 D power 6.6 6.4 6.3 5.2 5.0 5.0 6.3 6.1 6.0 0 70 Total BTUH [kWl 52.7 [15.5] 49.1 [14.4] 48.4 [14.2] 40.9 [12.0] 38.0 [11.1] 37.5 [11.0] 46.4 [13.6] 43.2 [12.7] 42.6 [12.51 R 21 1] Sens BTUH RM 10.1 [3.0] 8.5 [2.5] 8.2 [2.4] 11.9 [3.5] 10.0 [2.9] 9.7 [2.8] 17.9 [5.2] 15.0 [4.4] 14.5 [4.2] D Power 6.4 6.1 6.1 5.0 4.8 4.8 6.0 5.8 5.8 R80 Total BTUH NW1 46.3 [13.6] 43.1 [12.6] 42.6 [12.5] 34.5 [10.1] 32.1 [9.4] 31.6 [9.3] 40.0 [11.7] 37.2 [10.9] 36.7 [10.8] 26.71 Sens BTUH [kW] 5.6 [1.6] 4.7 [1.4] 4.5 [1.3] 7.4 [2.2] 6.2 [1.8] 6.0 [1.8] 13.3 [3.9] 11.2 [3.3] 10.8 [3.2] B Power 6.4 6.1 6.1 5.0 4.8 4.8 6.1 5.8 5.8 u 90 Total BTUH [kWl 38.4 [11.2] 35.7 [10.5] 35.2 [10.3] 26.5 [7.8] 24.7 [7.2] 24.3 [7.1] 32.1 [9.4] 29.8 [8.7] 29.4 [8.6] B 32.21 Sens BTUH [kW1 0.9 [-0.3] 0.7 [-0.2] 0.7 [-0.2] 0.9 [0.3] 0.8 [0.2] 0.8 [0.2] 6.9 [2.0] 5.8 [1.71 5.6 [1.6] T Power 6.6 6.4 6.4 5.2 5.1 5.0 6.3 6.1 6.1 E M 100 Total BTUH [kW] 28.9 [8.5] 26.9 [7.9] 26.5 [7.8) 17.0 [5.0] 15.8 [4.6] 15.6 [4.6] 22.6 [6.6) 21.0 [6.1] 20.7 [6.1] P 137.81 Sens BTUH [kW] 9.2 [-2.7] 7.7 [-2.3] 7.5 [-2.2] 7.4 [-2.2] 6.2 [-1.8] 6.0 [-1.8] 1.5 [-0.4] 1.2 [-0.4] 1.2 [-0.4) A Power 7.2 6.9 6.9 5.8 5.6 5.5 6.8 6.6 6.6 A 110 Total BTUH [kW] 17.9 [5.2] 16.6 [4.9] 16.4 [4.8] 6.0 [1.8] 5.6 [1.6] 5.5 [1.6] 11.5 [3.4] 10.7 [3.1] 10.6 [3.1] T 143.31 Sens BTUH [kW] 19.5 [-5.7] 16.3 [-4.81 15.8 [-4.6] 17.7 [-5.2] 14.8 [-4.3] 14.3 [-4.2] 11.7 [-3.4] 9.8 [-2.9] 9.5 [-2.8] Power 7.9 7.7 7.6 6.5 6.3 6.3 7.6 7.4 7.3 E 120 Total BTUH [kW] 5.3 [1.5] 4.9 [1.4] 4.9 [1.4] 6.6 [-1.9] 6.1 [-1.8] 6.0 [-1.8] 1.0 [-0.3] 1.0 [-0.3] 1.0 [-0.31 F 48.91 Sens BTUH [kW1 31.6 [-9.3] 26.5 [-7.8] 25.7 [-7.5] 1 29.8 [-8.7] 25.0 [-7.3] 24.2 [-7.1) 23.9 [-7.0] 20.0 [-5.9] 19.4 [-5.7] C] Power 9.0 8.7 8.6 7.6 7.3 7.3 8.7 8.4 8.3 RELY ON RUUD.TM 35 Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZT120 ENTERING INDOOR AIR @ 75°F [23.9°Cl dbE O wbE 65.3°F[18.5°C] 64-F 117.8-C] 62.5°F[16. M CFM [LIS] 3000 [1416] 2400 [11331 2000 [9441 3000 [14161 2400 [11331 2000 [9441 3000 [14161 1 2400 [11331 2000 [944] 0 60 Total BTUH MW1 46.5 [13.6] 44.4 [13.0) 43.1 [12.6] 43.1 [12.6] 41.2 [12.1] 40.0 [11.7] 40.3 [11.8] 38.6 [11.3] 37.4 [11.0) U 15.61 Sens BTUH [kW] 12.9 [3.8] 11.6 [3.4] 10.7 [3.1] 13.8 [4.0] 12.3 [3.6] 11.4 [3.3] 18.5 [5.4] 16.5 [4.8] 15.3 [4.5] T D Power 4.6 4.5 4.4 4.5 4.4 4.3 4.5 4.4 4.3 0 65 Total BTUH [kW] 45:7 [13.4] 43.7 [12.81 42.4 [12.4] 42.3 [12.4] 40.5 [11.9] 39.3 [11.5] 39.6 [11.6) 37.8 [ ,1 36.7 [10.8] R 18.31 Sens BTUH [kW] 10.5 [3.11 9.4 [2.81 8.7 [2.5] 11.4 [3.3] 10.2 [3.0) 9.4 [2.8] 16.1• [4.7)• 1S. 14.4 .2 i3.3 [3.9), D Power 4.6 4.5 4.5 4.6 4.5 4.4 7.0 4.4 • 4.4 0 R70 Total BTUH [kW] 44.7 [13.1] 42.7 [12.5] 41.4 [12.1] 41.3 [12.1] 39.5 [11.6] 38.3 [11.2] 38.5b H4.6} 36.9 [ft].gl 35.7 [10. 21.11 Sens BTUH [kW] 8.3 [2.4] 7.4 [2.2] 6.9 [2.0] 9.2 [2.7] 8.2 [2.4] 7.6 [2.2) 13.9, [Q:). 12.4 [3.6] 11.4 [3.4 8 Power 4.7 4.6 4.6 4.7 4.6 4.5 4.6 4.5 4.5 75 Total BTUH [kW] 43.4 [12.7] 41.5 [12.2] 40.2 [11.8] 40.0 [11.7] 38.3 [11.2] 37.1 [10.9] 37.2 j1Q.9 35.6 [i0.41 34.5 [101) 0 Sens BTUH [kW] 6.3 [1.8] 5.6 [1.7] 5.2 [1.5] 7.2 [2.1] 6.4 [1.9] 5.9 [1.7] 11.9 [} 10.6 13.1] 9.8 [2!91 T 23'9] Power 4.9 4.8 4.7 4.8 4.7 4.7 I.a; • • 4.7 • 4.6 .. E Total BTUH [kW1 41.8 [12.2] 40.0 [11.7] 38.8 [11.4] 38.4 [11.3] 36.8 [10.8] 35.6 [10.4] 35.1 j10tj 34.1 [1&A) 83.1 [9*7} P 267] Sens BTUH [kW1 4.5 [1.3] 4.0 [1.2] 3.7 [1.1] 5.4 [1.6] 4.8 [1.4] 4.4 [1.3] 10.1.5 12," 9.0 [2.6]. 8.3 [2.4] R Power 5.1 5 4.9 5 4.9 4.9 4.g 4.8 A S5 Total BTUH [kW1 40.0 [11.7] 38.2 [11.2] 37.1 [10.9] 36.6 [10.7] 35.0 [10.3] 33.9 [9.9] 33.Q [9.9} 32.4 X9.3]' 31.4 [9,2] R 29.4] Sens BTUH [M 2.9 [0.8] 2.6 [0.8] 2.4 [0.7] 3.8 [1.1] 3.4 [1.0] 3.1 [0.9) 8.3.1 5] 7.6 [j..2] 7.0 [3q Power 5.4 5.3 5.2 5.3 5.2 5.1 5.3 5.1 . 5.1 E 9. Total BTUH [kW] 37.9 [11.1] 36.2 [10.6] 35.1 [10.3] 34.5 [10.1] 33.0 [9.7] 32.0 [9.4] 31.7 [9.3] 30.4 [ . ] 29.4 [8.6] F 32.21 Sens BTUH [kW1 1.5 [0.4] 1.3 [0.4] 1.2 [0.4) 2.4 [0.7] 2.1 [0.6] 2.0 [0.6] 7.1 [2.1] 6.3 [1.9] 5.8 [1.7] 1°C1 Power 5.7 5.6 5.5 5.6 5.5 5.4 5.6 5.5 5.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZT120 ENTERING INDOOR AIR @ 75°F [23.9'Cl dbE O wbE 65.3°F [18.5°C] 64°F [17.8%] 62.5°F [16.9°Cl CFM [L/sl 4800 [22651 3800 [17931 3200 [15101 4800 [22651 3800 [17931 3200 [15101 4800 [22651 3800 [17931 3200 [15101 0 60 Total BTUH [kW1 58.1 [17.0] 55.4 [16.2] 53.9 [15.8] 55.5 [16.3) 53.0 [15.5] 51.4 [15.1] 53.1 [15.6] 50.7 [14.9] 49.2 [14.4] U 15.6] Sens BTUH MA 10.5 [3.1] 9.3 [2.7] 8.6 [2.5] 15.6 [4.6] 13.9 [4.1] 12.9 [3.8] 19.9 [5.8] 17.7 [5.2] 16.4 [4.8] T D Power 7.0 6.9 6.8 6.9 6.8 6.7 6.9 6.8 6.7 0 70 Total BTUH [kWI 53.4 [15.7] 51.0 [14.9] 49.5 [14.5] 50.8 [14.9] 48.5 [14.2] 47.1 [13.8] 48.4 [14.2] 46.2 [13.5] 44.9 [13.2] R 27 1] Sens BTUH [kW1 8.3 [2.4) 7.4 [2.2] 6.8 [2.0] 13.4 [3.9] 12.0 [3.5] 11.1 [3.2] 17.7 [5.2] 15.8 [4.6] 14.6 [4.31 D Power 7.1 7.0 6.9 7.0 6.9 6.8 7.0 6.9 6.8 RBO Tota[ BTUH [kW1 48.4 [14.2] 46.2 [13.5] 44.9 [13.2] 45.8 [13.4] 43.7 [12.8) 42.5 [12.4] 43.4 [12.7) 41.5 [12.1] 40.3 [11.8] 26.71 Sens BTUH [kW1 4.5 [1.31 4.0 [1.2] 3.7 [1.1] 9.7 [2.8] 8.6 [2.5] 8.0 [2.3] 14.0 14.11 12.5 [3.6] 11.5 [3.4) B Power 7.4 7.3 7.2 7.3 7.2 7.1 7.3 7.2 7.1 9. Total BTUH [kW] 43.1 [12.6] 41.1 [12.0] 39.9 [11.7] 40.5 [11.9] 38.6 [11.3] 37.5 [11.0] 38.1 [11.2] 36.3 [10.6] 35.3 [10.3] B Sens BTUH [kW1 0.8 [-0.2] 0.7 [-0.2] 0.6 [-0.2) 4.4 [1.3] 3.9 [1.1] 3.6 [1.1] 8.7 [2.5] 7.7 [2.3] 7.2 [2.1] T 32.21 Power 7.9 7.7 7.6 7.8 7.7 7.5 7.8 7.6 7.5 E Total BTUH [kW1 37.4 [11.0] 35.7 [10.5] 34.6 [10.2] 34.8 [10.2] 33.2 [9.7] 32.2 [9.4] 32.4 [9.5] 30.9 [9.1] 30.0 [8.8] F 3781 SensBTUH [kW1 7.6 [-2.2] 6.8 [-2.0] 6.3 [-1.8] 2.5 [-0.7) 2.2 [-0.6] 2.0 [-0.6] 1.8 [0.5] 1.6 [0.5] 1.5 [0.4] E Power 8.6 8.4 8.3 8.5 8.3 8.2 8.5 8.3 8.2 A 110 Tota[ BTUH [kW] 31.3 [9.2] 29.9 [8.8] 29.0 [8.5] 28.7 [8.4] 27.4 [8.0] 26.6 [7.8] 26.3 [7.7] 25.1 [7.4] 24.4 [7.1] R 43.3] Sens BTUH [kW] 16.0 [-4.7] 14.3 [-4.2] 13.2 [-3.9] 10.9 [-3.2] 9.7 [-2.8] 9.0 [-2.6] 6.6 [-1.9] 5.9 [-1.7] 5.5 [-1.6] Power 9.5 9.3 9.2 9.4 9.2 9.1 9.4 9.2 9.0 E 120 Total BTUH [kW] 24.9 [7.3] 23.8 [7.0) 23.1 [6.8] 22.3 [6.5] 21.3 [6.2] 20.7 [6.1) 19.9 [5.81 19.0 [5.6] 18.5 [5.4] F 148 91 Sens BTUH [kW] 26.0 [-7.6] 23.2 [-6.8] 21.5 [-6.3] 20.9 [-6.1] 18.6 [-5.51 17.2 [-5.0] 16.6 [-4.9] 14.8 [-4.3] 13.7 [-4.0] Cl Power 10.6 10.3 10.2 10.5 10.2 10.1 10.5 10.2 10.1 y36 RELY ON RUUD." Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZT150 ENTERING INDOOR AIR C 75°F [23.9"C1 dbE O wbE 65.3°F[18.5°CI 64°F[17.8°CI 62.5°F [16.9°Cl CFM IL/sl 3000 [1416] 2400 [11331 2000 [944] 3000 [14161 2400 [11331 2000 [944] 3000 [14161 2400 [11331 2000 1944] 0 60 Total BTUH [kW] 46.5 [13.6] 44.4 [13.0] 43.1 [12.6] 43.1 [12.61 41.2 [12.1] 40.0 [11.7] 40.3 [11.8] 38.6 [11.3] 37.4 [11.0] U 15'61 Sens BTUH RW] 12.9 [3.8] 11.6 [3.4] 10.7 [3.11 13.8 [4.01 12.3 [3.6] 11.4 13.31 18.5 [5.4] 16.5 [4.81 15.3 [4.5] T D Power Power 4.6 4.5 4.4 4.5 4.4 4.3 4.5 4.4 4.3 70°F Total BTUH [kW1 Total BTUH [kW] 45.7 [13.4] 43.7-112.8] 42.4 [12.4] 42.3 [12.4] 40.5 [11.9] 39.3 [11.5] 39.6 [11.6] 37.$j,1j 36.7 [10.8] R 1831 Sens BTUH [kW] 10.5 [3.1] 9.4 [2.8] 8.7 [2.5] 11.4 [3.3] 10.2 [3.0] 9.4 [2.8] 1r.1 14!7 14.4 [4.2] 13.3 439,] Power Power 4.6 4.5 4.5 4.6 4.5 4.4 446 . 4.a... 4.4 D R70 Total BTUH [kW] Total BTUH [kW] 44.7 [13.1] 42.7 [12.5] 41.4 [12.1] 41.3 [12.1] 39.5 [11.6] 38.3 [11.2] 366•[Oh3] 36. jigs} 35.7 [145] 126.71 21.11 Sens BTUH [kW] 8.3 [2.4) 7.4 [2.2] 6.9 [2.0] 9.2 [2.7] 8.2 [2:4] 7.6 [2.2] 13.0. X41] 12.4 [3.6] 11.4 j3.4] B Power Power 4.7 4.6 4.6 4.7 4.6 4.5 IL 4.5 4. •. • L 75 Total BTUH [kW1 43.4 [12.7] 41.5 [12.21 40.2 [11.8] 40.0 [11.7] 38.3 [11.2] 37.1 [10.9) r.2. Q.] 35.s [14.4 34.5 [0.1] B Sens BTUH [kW1 Sens BTUH [kW] 6.3 [1.8] 5.6 [1.7] 5.2 [1.5] 7.2 [2.1 ] 6.4 [1.9] 5.9 [1.7] 11.9 [3.51 10.E [3 1} 9.8 T 23.9] Power 4.9 4.8 4.7 4.8 4.7 4.7 Ott •; 4.9 • • 4.9 • • • E80 Total BTUH [kW1 Total BTUH [kW] 41.8 [12.2) 40.0 [11.7] 38.8 [11.4] 38.4 [11.3] 36.8 [10.8] 35.6 [10.4] 5] 34.1 It.0] 33.1 `[9.i)• P 126.71 Sens BTUH [kW] 4.5 [1.3] 4.0 [1.21 3.7 [1.1] 5.4 [1.6] 4.8 [1.4] 4.4 [1.31 1f 9.0 [296] 8.3 [2.4), E Power Power 5.1 5 4.9 5 4.9 4.9 5 . 11.9 . 4.§ A BTUH [kW] Total BTUH [kW] 40.0 [11.7] 38.2 [11.21 37.1 [10.9] 36.6 [10.7] 35.0 [10.3] 33.9 [9.9] 33.8 [8.91 8,5'[2S1 32 31.4 .19.21 T 129.41 Sens BTUH [kW] 2.9 [0.8] 2.6 [0.8] 2.4 [0.7) 3.8 [1.1] 3.4 [1.01 3.1 [0.9] 7.0 [2.0] 7.6.12.2•] 7.0 •[a} R pow er Power 5.4 5.3 5.2 5.3 5.2 5.1 5.3 v.2. a 51 E 90 Total BTUH [kW] 37.9 [11.1] 36.2 [10.6] 35.1 [10.3] 34.5 [10.1) 33.0 [9.7] 32.0 [9.4] 31.7 [9.3] 30.4 [8.91 29.4 [8.6] F 32.2] Sens BTUH [kW] 1.5 [0.4] 1.3 [0.4] 1.2 [0.4] 2.4 [0.7] 2.1 [0.61 2.0 [0.6] 7.1 [2.1] 6.3 [1.9] 5.8 [1.7] c] Power Power 5.7 5.6 5.5 5.6 5.5 5.4 5.6 5.5 5.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZT150 ENTERING INDOOR AIR @ 75°F [23.9°C] ME G wbE 65.3°F [18.5°Cl 64°F [17.8°Cl 62.5°F [16.9°CI CFM IL/sl 6000 [28321 4100 [19351 4000 [16881 6000 [2832] 4100 [19351 4000 [18081 6000 [28321 4100 [19351 4000 [18881 0 602F Tota[ BTUH [kW] 99.3 [29.1] 91.5 [26.8] 91.1 [26.7] 101.6 [29.8] 93.7 [27.4] 93.2 [27.3] 92.7 [27.2] 85.5 [25.1] 85.2 [25.0] 0 T 15.6] Sens BTUH [kW1 33.3 [9.7] 27.4 [8.0] 27.0 [7.9] 40.1 [11.8] 33.0 [9.7] 32.6 [9.6] 46.4 [13.6] 38.1 [11.2] 37.7 [11.0] D Power 9.5 9.1 9.1 9.3 8.9 8.9 9.3 8.9 8.9 0 70°F Total BTUH [kW1 94.4 [27.7] 87.1 [25.5] 86.7 [25.4] 96.7 [28.3] 89.2 [26.1] 88.8 [26.0] 87.9 [25.8] 81.1 [23.8) 80.7 [23.7] R 21 11 Sens BTUH [kW] 27 [7.91 22.2 [6.51 21.9 [6.4] 33.9 [9.9] 27.9 [8.2] 27.5 [8.1] 40.1 [11.7] 33.0 [9.71 32.6 [9.5] D Power 9.7 9.3 9.3 9.5 9.2 9.2 9.5 9.2 9.1 R80°F Total BTUH [kW] 87.6 [25.7] 80.8 [23.7] 80.4 [23.61 89.9 [26.3] 82.9 [24.3] 82.5 [24.2] 81.1 [23.8] 74.8 [21.9] 74.4 [21.8] 126.71 Sens BTUH [kW] 20.1 [5.9] 16.5 [4.8] 16.3 [4.8] 27.0 [7.9] 22.2 [6.5] 21.9 [6.4] 33.2 [9.7] 27.3 [8.0] 27.0 [7.9] B Power 10.2 9.8 9.8 10 9.6 9.6 10 9.6 9.6 902F Tota[ BTUH [kW] 78.7 [23.1] 72.6 [21.3] 72.3 [21.2] 81.0 [23.7] 74.7 [21.9] 74.4 [21.8) 72.2 [21.2] 66.6 [19.5] 66.3 [19.4] B Sens BTUH [kW1 12.5 [3.7] 10.3 [3.0] 10.2 [3.0] 19.4 [5.7] 15.9 [4.7] 15.8 [4.6] 25.6 [7.5] 21.0 [6.2] 20.8 16.11 T 32'21 Power 11 10.5 10.5 10.8 10.4 10.3 10.8 10.3 10.3 E100QF Total BTUH [kW1 67.8 [19.9] 62.5 [18.3] 62.3 [18.2] 70.1 [20.5] 64.7 [18.9] 64.4 [18.9] 61.3 [18.0] 56.5 [16.6] 56.3 [16.5] P 37.81 Sens BTUH [kW] 4.3 [1.3] 3.5 [1.0] 3.5 [1.0] 11.2 [3.3] 9.2 [2.71 9.1 [2.7] 17.4 [5.1] 14.3 [4.2] 14.1 [4.1] E Power 11.9 11.5 11.4 11.8 11.3 11.3 11.8 11.3 11.3 ATotal110 BTUH [kW] 54.9 [16.1] 50.6 [14.8] 50.4 [14.8] 57.2 [16.8] 52.7 [15.5] 52.5 [15.4] 48.4 [14.2] 44.6 [13.1] 44.4 [13.0] T 43.31 Sens BTUH [kW1 4.6 [-1.3] 3.8 [-1.1] 3.7 [-1.1] 2.3 [0.7] 1.9 [0.5] 1.9 [0.51 8.5 [2.5] 7.0 [2.0] 6.9 [2.01 RR pow er 13.2 12.6 12.6 13 12.5 12.4 13 12.5 12.4 E 120 Total BTUH [kW] 40.0 [11.7] 36.8 [10.8) 36.7 [10.8] 42.3 [12.4] 39.0 [11.4] 38.8 [11.4] 33.4 [9.81 30.8 [0.9] 30.7 [9.0] F[48.9] Sens BTUH [kW1 14.1 [-4.1] 1 11.6 [-3.4] 11.5 [-3.41 7.2 [-2.1] 6.0 [-1.7] 5.9 [-1.7] 1.0 [-0.3] 0.9 [-0.2] 0.8 [-0.2] cl Power 14.6 14.1 14 14.5 13.9 13.9 14.4 13.9 13.8 T RELY ON RUUO..3% AIRFLOW PERFORMANCE- 7.5 TON [26.4 kW] - 60 Hz - DOWNFLOW Air Model RACDZ"090` Voltage 208/230 460 575 - 3 phase 3 [2237.1] 60 Hz Blower Sheave AK84H AK84H AK84H Motor Sheave 1 VL40' 7/8 1 VP50'7/8 1 VP56'7/8 Belt A49 A50 A51 Turns Open 0 1 2 3 4 5 1 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 2 13 4 5 RPM 767 721 678 635 590 1 548 1 992 1 949 1 908 1 866 1 823 1 782 1 1108 1067 1 1029 1 987 1 946 905 Flow o. 00 External Static Pressure -Inches of Water [kPa] CFM [L/sl 0.1 021 0.2 051 0.3 071 0.4 101 0.5 121 0.6 151 10.7 [.171 0.8 201 0.9 221 1.0 [.25) 1.1 [.27) 1.2 301 1.3 [.321 1.4 [.35] 1.5 [.371 1.6 [.40] 1.7 [.42] 11.8 [.451 1.9 (.4?1 2.0 [.501 RPMJ W RPMJ W RPM W RPMj W RPM W RPM W RPM W RPMJ W JRPMJ W RPM W RPM W RPMJ W IRPM W RPMj W IRPM W RPMJ W RPM W RPMJ W RPMj W RPMj W 400 1133 551 1 782 585 1 814 619 848 652 1885 684 926 717 969 748 1016 780 11065 810 1118 841 1174 870 12331 900 1294 929 1359 957 1427 985 1498 1012 1572 1039 1649 1065 1729 1091 1813 50011180 562 816 596 1 848 629 884 661 1923. 693 964 725 1009 756 1057 787 1108 817 1162 846 1219 876 12791 904 1343 933 1409 960 1478 987 1550 1014 1626 1040 1704 1066 1786 1092 1870 600 1227 574 851 607 885 639 922 671 962 702 1006 733 1052 764 1= 794 1153 823 1209 852 1267 881 1329 909 1393 937 1461 964 1531 990 1605 1016 1682 1042 1762 1067 1844 1092 1930 700112741 553 1857 585 889 618 925 650 963 681 1004 712 1049 742 1096 772 1147 801 1201 830 1258 858 1317 886 1380 914 1446 941 1515 967 1587&L 1662 1019 1740 1044 1821 1068 1905 1092 19938001132115651896597930629966660100669110497211095751114478011968081251837130986413708921434919150194515729711645996172110211801104518831069196910932057 900113681 577 1 937 609 972 640 1010 670 1051 701 1096 730 1143 759 1193 786 1246 816 1303 643 1362 871 1425 897 1490 923 1559 949 1630 974 11705 999 1783 1023 1864 1047 1948 1070 2035 1093 2124 000[14161 590 1 981 621 1017 651 11057 681 1099 710 1145 739 11931 768 11245 796 11300. 823 1357 850 1418 877 1482 903 1549 928 11619 953 1692 978 1768 1002 1847 1026 1929 1049 2014 1072 2103 1094 2194 100[146311 602 11027 633 1065 662 11105 692 1149 720 1196 749 12461 777 1299 804 113551 831 1414 857 1476 883 1541 908 1610 933 1681 958 1755 982 1833 1005 1913 1028 1997 1051 2083 1073 2173 1094 2266 200 1510 615 1075 645 1114 674 1157 702 1202 731 1250 758 1301 785 1356 8t14131473 864 1537 889 1603 914 1673 938 1746 962 1821 986 1900 1008 1982 1031 2067 1053 2155 1074 2246 1095 2340 300 1557 628 1126 657 1166 685 1210 713 1256 741 1306 768 1359 794 1414 81535 871 1600 896 1668 920 1739 944 1813 967 1890 989 1970 1012 2053 1033 2139 1055 2229 1075 2321 1096 2416 400 1604 640 1179 669 1221 697 1266 724 1314 751 136 777 1419 803 1476 81599 878 1665 902 1734 926 1807 949 1882 971 1960 993 2 42 1015 2126 1036 2214 1057 2305 1077 2398 1097 2495 500 1652 653 1235 681 1276 708 1324 735 1373 761 1425 787 1481 812 1539 81665 885 1733 909 1803 932 1877 954 1954 976 2034 997 2116 1018 2202 1039 2291 1059 2383 1078 2478 1097 2576 600 1699 666 1292 693 1337 720 1384 746 1435 771 1489 797 1545 821 1605 81734 892 1803 975 1875 938 1950 959 2028 981 2109 1001 2193 1022 2280 1042 2371 1061 2464 1080 2560 1098 2660 Nui r: ivr-unve cert or ine ooia ime, tvia-unve ngm 0r 001a Imes, tan-unve ngnt or aou0le line. Drive Package A/F B/G C/H Motor H.P. [W] 2 [1491.41 3 [2237.1] 3 [2237.1] Blower Sheave AK84H AK84H AK84H Motor Sheave 1 VL40' 7/8 1 VP50'7/8 1 VP56'7/8 Belt A49 A50 A51 Turns Open 0 1 2 3 4 5 1 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 2 13 4 5 RPM 767 721 678 635 590 1 548 1 992 1 949 1 908 1 866 1 823 1 782 1 1108 1067 1 1029 1 987 1 946 905 nu i . . a ..y .I-..Vu."UD aia a, IV- w wJu ryNc. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions o. 00 s AIRFLOW PERFORMANCE- 7.5 TON [26.4 kW] - 60 Hz - DOWNFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Vertical Economizer RXRN-AEF2000 & RA Damper Open Concentric Adapter RXMC-DO01 (Flush) Concentric Diffuser RXRN-AE02000 & Concentric Adapter RXMC-OD01 (Drop) CFM [L/s1 Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 2400 [1133] 0.96 0.89 0.98 0.04 [.01] 0.01 [.00] 0.66 .16] 0.53 [.13] 2500 [1180] 0.96 0.90 0.99 0.05 [.01] 0.02 [.00] 0.71 .181 0.57 [.14] 2600[1227] 0.97 0.92 0.99 0.05 [.01] 0.02 .01 0.75 .191 0.60 .15 2700 1274 0.97 0.93 0.99 0.05 .01 j 0.03 .01 0.80 .20 0.65 .16 2800 [1321 ] 0.98 0.95 0.99 0.06 .01] 0.04 [.01 0.85 [.211 0.69 [.17] 2900 [1368] 0.98 0.96 1.00 0.06 .021 0.04 [.01] 0.91 .231 0.74 .18] 3000 [1416] 0.99 0.97 1.00 0.07 [02] 0.05 [.01] 0.96 .24] 0.79 .201 3100 [1463] 1.00 0.99 1.00 0.07 [.02] 0.06 [.02] 1.02 [.25] 0.86 [.21] 3200 [1510] 1.00 1.00 1.01 0.07 [.02] 0.07 [.02] 1.08 [.27] 0.92 [.23] 3300 [1557 1.01 1.02 1.01 0.08 [.021 0.08 [.02] 1.15 .29 0.99 .25 3400 1604 1.01 1.03 1.01 0.08 .021 1 0.09 .02 1.21 .30 1.05 .26 3500 [1652] 1 1.02 1.05 1.01 0.09 [.02] 0.10 [.02] 1.29 .32] 1.09[27] 3600[1699] 1 1.02 1.06 1.02 0.09 [.02] 0.11 [.03] 1.36 [.341 1.13 .281 multiply wnectiuli iaerur umes gross penormance aaia resuning sensime capacity cannot exceed total capacity. Designates Metric Conversions AIRFLOW PERFORMANCE- 7.5 TON [26.4 kW] - 60 Hz - SIDEFLOW Air Model RACOZ*090* Voltage 208/230 460 575-3 phase 3 [2237.1] 60 Hz Blower Sheave AK84H AK84H AK84H Motor Sheave 1VL40*7/8 1VP50*7/8 1VP56*7/8 Belt A49 A50 A51 Turns Open 0 1 1 2 3 1 4 1 5 0 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM 765 720 1 676 Flow 589 1 544 1 989 1 949 1 908 1 865 1 823 1 780 1 1108 1 1067 1 1029 1 987 1 946 1 905 External Static Pressure—inches of Water Wal CFM [Us] 0.1 021 0.2 051 0.3 071 0.4 101 0.5 121 0.6 151 0.7 [.171 0.8 201 0.9 221 1.0 251 1.1 [.27] 11.2 1.301 1.3 321 1.4 [.351 1.5 [.371 1.6 [.401 1.7 [.421 11.8 451 1.9 47I RPMJ W RPM W RPMJ W RPM W RPMJ W RPMJ W RPMj W RPMJ W RPMJ W RPMl W RPMJ W JRPMJ W RPM W RPM W RPM W RPMJ W RPM W JRPMJ W RPM W RPM W 133] 558 822 594 853 629 887 663 925 697 965 730 1009 763 1056 794 1106 826 1159 856 1216 886 1275 915 1338 943 1404 971 1474 998 1546 1025 1622 1051 1700 1076 1782 180] 568 848 604 881 638 917 672 956 705 998 738 1044 769 1092 801 1144 831 1199 861 1258 890 1319 919 1384 947 1452 974 1523 1001 1597 1027 1674 1052 1755 1077 1838 227 543 846 579 877 613 912 647 950 681 991 713 1035 745 1082 777 1132 807 1186 837 1243 867 1303 895 1366 923 1433 951 1502 978 1575 1004 1651 1029 1730 1054 1812 1078 1898 274 554 877 589 910 623 946 657 986 689 1029 722 1074 753 1124 784 1176 814 1231 844 1290 872 1352 901 1417 928 1485 955 1556 981 1631 1007 1708 1032 1789 1056 1873 1079 1961 321 566 911 600 946 634 984 666 1026 699 1070 730 1118 761 1169 792 1223 821 1280 850 1340 878 1404 906 1470 933 1540 959 1613 985 1690 1010 1769 1034 1852 1058 1938 1081 2027 368 543 916 577 949 611 986 644 1026 676 1069 708 1115 739 1164 770 1217 799 1273 828 1332 857 1394 885 1459 912 1528 938 1599 964 1674 989 1752 1014 1833 1037 1918 1061 2005 1083 2096 416L 555 955 589 990 622 1029 655 1070 687 1115 718 1163 748 1214 778 1269 807 1326 836 1387 864 1451 891 1518 918 1588 944 1662 969 1738 994 1818 1017 1901 1041 1987 1063 2077 1085 2169 1463 568 998 601 1035 634 1075 666 1118 697 1165 728 1215 758 1268 787 1324 816 1383 844 1445 871 1511 898 1580 924 1652 949 1727 974 1806 998 1887 1022 1972 1044 2060 1066 2151 1088 2245 510 581 1044 614 1083d83 1125 677 1170 708 1218 738 1270 768 1324 796 1382 824 1443 852 1507 879 1575 905 1646 931 1719 955 1796 980 1876 1003 1960 1026 2046 1048 2136 1070 2229 1091 2325 557 594 1093 626 11341178 689 1225 719 1275 749 1328 778 1384 806 1444 833 1507 860 1573 887 1642 912 1714 937 1790 962 1869 985 1951 1008 2036 1031 2124 1052 2216 1073 2310 1094 2408 604 607 1146 639 11891234 701 1283 730 1335 759 1390 788 1448 815 1509 843 1574 869 1642 895 1713 920 1787 944 1864 968 1945 991 2028 1014 2115 1036 2205 1057 2298 1077 2395 1097 2494 652 621 1203 652 1247 1294 713 1344 742 1398 770 1455 798 1515 825 1578 852 1644 878 1714 903 1786 928 1862 952 1941 975 2024 997 2109 1019 2198 1041 2290 1061 2385 1081 2483 1101 2584 699 635 1262 666 1308 1357 725 1409 754 1465 782 1523 809 1565 836 1650 862 1718 887 1789 912 1864 936 1941 959 2022 982 2106 1004 2194 1025 2284 1046 2378 1066 2474 1086 2574 1104 2677 NuI t: ivr-unve len of me oom une, b/b-unve ngm or DOW Ones, LwH-unve ngm or Rouble Ilne. Drive Package A/F B/G C/H Motor H.P. [W] 2 [1491.4] 3 [2237.1] 3 [2237.1] Blower Sheave AK84H AK84H AK84H Motor Sheave 1VL40*7/8 1VP50*7/8 1VP56*7/8 Belt A49 A50 A51 Turns Open 0 1 1 2 3 1 4 1 5 0 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM 765 720 1 676 633 1 589 1 544 1 989 1 949 1 908 1 865 1 823 1 780 1 1108 1 1067 1 1029 1 987 1 946 1 905 auly JVOGYG J uIIwo at o1IV" II 111 UVIU lyvu, 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions Ma o0 im '13 3 c3o 3 m aro AIRFLOW PERFORMANCE- 7.5 TON [26.4 kW] - 60 Hz - SIDEFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS " Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Horizontal Economizer RXRN-AEF2000 & RA Damper Open Concentric Adapter RXMC-0001 (Flush) Concentric Diffuser RXRN-AED2000 & Concentric Adapter RXMC-DD01 (Drop) CFM [L/s1 Total MBH Sensible MBH Power kW Resistance Inches of Water [kPa] 2400 [1133] 0.96 0.89 0.98 0.04 [.01] 0.01 [.00] 0.66 [.16] 0.53 [.13] 2500 [11801 0.96 0.90 0.99 0.05 [.01) 0.02 [.001 0.71 [.18) 0.57 [.141 2600 [1227] 0.97 0.92 0.99 0.05 [.011 0.02 [.00] 0.75 [.19] 0.60 [.151 2700 [1274) 0.97 0.93 0.99 0.05 [.011 0.03 [.01] 0.80 [.201 0.65 [.161 2800 [1321 ] 0.98 0.95 0.99 0.06 [.01] 0.04 [.01] 0.85 [.211 0.69 [.171 2900 [1368] 0.98 0.96 1.00 0.06 [.02] 0.04 [.011 0.91 [.23] 0.74 [.18] 3000 [1416] 0.99 0.97 1.00 0.07 [.021 0.05 [.01] 0.96 [.24] 0.79 [20] 3100 [1463) 1.00 0.99 1.00 0.07 [.021 0.06 [.01] 1.02 [.25] 0.86 [.21] 3200 [1510] 1.00 1.00 1.01 0.07 [.02] 0.07 [.02] 1.08 [.27] 0.92 [.23] 3300 [1557] 1.01 1.02 1.01 0.08 [.02] 0.08 [.021 1 A 5 [.29] 0.99 [.251 3400 [1604] 1.01 1.03 1.01 0.08 [.02] 0.09 [.021 1.21 [.301 1.05 [.26) 3500 [16521 1.02 1.05 1.01 0.09 [.02] 0.10 [.021 1.29 [.321 1.09 [.27] 3600 [1699] 1.02 1.06 1.02 0.09 [.02] 0.11 [.031 1.36 [.34] 1.13 [.28] niuuiNir Wile6eull iauwl naves yfuss penunnance oara resumng senslme CaPacnv cannot exceea total CaDacity. Designates Metric Conversions 000 00 00 0 81 000 c DaM AIRFLOW PERFORMANCE- 8.5 TON [29.9 kW] - 64 Hz - DOWNFLOW Air Model RACDZ"102' Voltage 208/230 460 575 — 3 phase 60 Hz 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40' 7/8 1 VP50'7/8 1 VP56"7/8 Belt A49 A50 A51 Turns Open 0 1 1 1 2 1 3 1 4 5 1 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 2 1 3 1 4 1 5 RPM Flow 1 710 1 661 1 616 559 1 1048 1 1003 1 959 1 914 1 872 J 826 1 1168 1 1128 1 1087 1 1044 1 1002 1 957 External Static Pressure—Inches of Water [kPal CFM [L/sl 0.1 [.021 0.2 [.05) 0.3 [.071 0.4 [.101 0.5 [.121 0.6 [.151 0.7 [.171 0.8 [.201 0.9 [.221 1.0 [.25I 1.1 [.271 1.2 [.301 1.3 [.321 1.4 [.351 1.5 [.371 1.6 [.401 1.7 [.421 1.8 [.451 1.9 [.471 2.0 [.501 RPMT W RPM1 W 1RPM1 W RPM W RPM W RPMl W IRPM W RPM1 W RPM W RPM1 W IRPMI W RPM1 W RPM W RPM W RPM W RPM W RPM W RPM1 W RPM W RPM W 700 1274 561 894 596 934 631 975 665 1018 698 1062 730 1108 762 1155 793 1203 823 1253 853 1304 882 1357 910 1411 937 1467 964 1524 990 1583 1015 1643 1039 1704 1063 1767 1086 1832 800[1321 573 927 608 969 642 1013 676 1058 708 1104 740 1152 771 1201 802 1252 832 1304 861 1358 889 1413 917 1470 943 1528 970 1587 995 1648 1020 1711 1044 1775 1067 1840 1090 1907 900(1368 586 964 620 1008 654 1054 687 1101 719 1150 750 1200 787 1252 811 1305 840 1360 869 1416 897 1473 924 1532 950 1593 976 1654 1001 1718 1025 1782 1048 1848 1071 1916 1093 1985 000 1416 564 959 599 1004 633 1051 666 1099 698 1149 730 1200 767 1253 791 1307 820 1362 649 1419 677 1477 904 1537 931 1598 957 1661 982 1725 1006 1791 1030 1858 1053 1926 1075 1996 1097 2067 100 1463 578 1001 612 1048 645 1098 678 1148 710 1200 741 1254 771 1308 801 1365 830 1423 858 1482 886 1542 912 1605 939 1668 964 1733 989 1800 1012 1868 1036 1937 1058 2008 1080 2080 1101 2154 200 1510 592 1046 625 1096 658 1148 690 1201 721 1255 752 1311 782 1368 811 1427 840 1487 867 1548 894 1611 921 1676 946 1742 971 1809 995 1878 1019 1948 1041 2020 1063 2093 1085 2168 1105 2244 300 1557 605 1096 638 1148 671 1202 702 1257 733 1314 763 1372 793 1432 821 1493 849 1555 877 1619 903 1684 929 1751 954 1819 979 1889 1002 1960 1025 2033 1047 2107 1069 2182 1090 2259 1110 2337 400 1604 619 1149 652 1204 684 1260 715 1317 745 1376 775 1437 804 1499 832 1562 860 1627 886 1693 912 1761 938 1830 962 1900 986 1972 1009 2046 1032 2121 1053 2197 1074 2275 1095 2354 1114 2435 500 1652 634 1206 666 1263 697 1322 728 1382 758 1443 787 1506 815 1570 843 1635 870 1702 896 1771 922 1841 946 1912 970 1985 994 2060 1017 2135 1038 2213 1060 2291 1080 2371 1100 2453 1119 2536 600 1699 648 1267 680 1326 711 1387 741 1449 770 1513 799 1578 827 1645 854 1713 880 1782 906 1853 931 1925 955 1999 979 2074 1002 2151 1024 2229 1045 2308 1066 2389 1086 2472 1105 2556 1124 2641 700 1746 663 1332 694 1393 724 1456 754 1521 783 1587 811 1654 838 1723 865 1793 891 1865 916 1938 941 2013 965 2089 988 2167 1010 2246 1032 2326 1053 2408 1073 2491 1092 2576 1111 2662 1129 2750 800 1793 678 1400 708 1464 738 1529 767 1596 795 1665 823 1734 850 1805 876 1878 902 1952 926 2028 951 2105 974 2183 996 2263 1018 2344 1039 2427 1060 2511 1080 2597 1099 2684 1117 2772 1134 2862 900 1840 693 1472 723 1538 752 1606 781 1675 808 1746 836 1818 862 1892 888 1966 913 2043 937 2121 961 2200 983 2281 1005 2363 1027 2447 1048 2532 1067 2618 1087 2706 1105 2796 1123 2686 1140 2979 000 1888 708 1548 737 1617 766 1687 794 1758 822 1831 848 1906 874 1981 900 2059 924 2137 948 2218 971 2299 993 2382 1015 2467110361255311056=26401075 2729 1094 2819 1712 2911 1129 3004 1146 3099 100 1935 723 1628 752 1699 781 1771 808 1845 835 1920 861 1997 887 2075 911 2155 935 2236 959 2318 981 2402 1003 2488 1024 2574 1045 2663 1064 2844 1101 2936 1119 3030 1136 3126 1152 3223 rvU I C. rvr--unve Jul m ifIt: uuw line, nru-unve ngni or ooiu lines, wn-unve r191110T aouDie line. Drive Package A/F B/G C/H Motor H.P. [W] 2 [1491.4] 3 [2237.1] 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40' 7/8 1 VP50'7/8 1 VP56"7/8 Belt A49 A50 A51 Turns Open 0 1 1 1 2 1 3 1 4 5 1 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 2 1 3 1 4 1 5 RPM 804 1 758 1 710 1 661 1 616 559 1 1048 1 1003 1 959 1 914 1 872 J 826 1 1168 1 1128 1 1087 1 1044 1 1002 1 957 w o niyo me _- a m wiu'yNe. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions Ma o f mM 10 N _ 3 3 m M 0:0 •• Ma o f mM10 N _ 3 3 m M AIRFLOW PERFORMANCE- 8.5 TON [29.9 kW] - 60 Hz - DOWNFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Vertical Economizer RXRN-AEF2000 & RA Damper Open Concentric Adapter RXMC-OD01 (Flush) Concentric Diffuser RXRN-AED2000 & Concentric Adapter RXMC-OD01 (Drop) CFM [L/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPal 2700 [1274] 0.97 0.93 0.99 0.07 [.02] 0.03 [.01] 0.80 [.20] 0.65 [.16] 2800 [1321 ] 0.98 0.94 0.99 0.07 [.021 0.03 [.011 0.85 [.21] 0.69 [.171 2900 [1368] 0.98 0.96 0.99 0.08 [.02] 0.04 [.011 0.91 [.231 0.74 [.18] 3000 [1416] 0.99 0.97 1.00 0.08 [.021 0.05 [.01] 0.96 [.24] 0.79 [.20] 3100 [1463] 0.99 0.99 1.00 0.09 [.021 0.06 [.01] 1.02 [.25] 0.86 [.21] 3200 [1510] 1.00 1.00 1.00 0.10 [.02] 0.07 [.021 1.08 [.27] 0.92 [.23] 3300 [1557] 1.01 1.01 1.00 0.10 [.03] 0.08 [.02] 1 A 5 [.29] 0.99 [.25] 3400 [1604] 1.01 1.03 1.01 0.11 [.03] 0.09 [.02] 1.21 [.30] 1.05 [.26] 3500 [1652] 1.02 1.04 1.01 0.11 [.03] 0.10 [.021 1.29 [.32] 1.09 [.27] 3600 [1699] 1.02 1.06 1.01 0.12 [.03] 0.11 [.031 1.36 [.34] 1.13 [.28] 3700 [1746] 1.03 1.07 1.02 0.13 [.03] 0.12 [.031 1.43 [.36] 1.18 [.291 3800 [1793] 1.03 1.09 1.02 0.13 [.031 0.13 [.03] 1.50 [.37] 1.23 [.311 3900 [1840] 1.04 1.10 1.02 0.14 [.04] 0.15 [.04] 1.59 [40] 1.31 [.331 4000 [1888] 1.05 1.12 1.02 0.14 [.04] 0.16 [.04] 1.68 [.42] 1.38 [34] 4100 [19351 1 1.05 1.13 1.03 1 0.15 [.04] 0.17 [.041 1.74 [.43] 1.44 [.36] IVIeIuPy wneawn maul urnes yiuss penurmance uara reswany sensime capacity cannot exceea Totai capacity. Designates Metric Conversions 00 82, 02 Cnw 'V 3 al mN 3 m3 nm AIRFLOW PERFORMANCE- 8.5 TON [29.9 kW] - 60 Hz - SIDEFLOW Air Madel RACDZ*102• Voltage 208/230 460 575 — 3 phase 60 Hz 3 [2237.1] 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40 * 7/8 1 VP50 * 7/8 1 VP56*7/8 Belt A49 A50 A51 Turns Open 0 1 2 3 1 4 1 5 0 1 1 2 3 1 4 1 5 1 0 1 2 3 1 4 5 RPM 802 754 707 662 1 616 1 555 1 1048 1 1005 960 916 Flow External Static Pressure—Inches of Water [kPa] CFM [Us] 0.1 1.021 0.2 [.051 0.3 L071 0.4 [.101 0.5 [.121 0.6 [.151 0.7 [.171 0.8 [.201 0.9 (.221 1.0 [.251 1.1 271 1.2 [.301 1.3 [.321 1.4 [.35) 1.5 [.371 1.6 [.40] 1.7 [.421 1.8 L451 1.91.471 2.01.501 RPMF W RPMJ W RPMJ W RPM W JRPMj W RPMJ W jRPMj W RPMJ W JRPMJ W RPMJ W JRPMJ W RPM W IRPM W RPM W IRPM W RPM W RPM W PMI W RPM W RPM W 700 1274 I — I — 577 1932 611 969 1644 1009 677 110521 710 1098 742 111471 774 1199 806 112541 837 1312 868 13731 898 1437 929 15051 959 1575 988 1648 1017 1725 1046 1804 1074 1886 1102 1972 800 [1321] I — 556 1926 589 1962 622 1000 655 1042 687 10871 719 1134 751 11851 783 1239 814 112951 844 1355 875 1418 905 1484 934 1553 963 1624 992 1699 1021 1777 1049 1858 1077 1942 1105 2029 900[1368] 568 958 601 995 633 1036 666 1079 697 1125 729 1174 760 1227 791 1282 821 1340 851 1402 881 1466 911 1533 940 1604 968 1677 997 1754 1025 1834 1052 1916 1080 2002 1107 2090 000 1416 580 994 613 1033 645 1074 676 1119 708 1167 736 1218 769 1272 799 1329 829 1389 859 1452 888 1518 917 1587 945 1659 973 1734 1001 1812 1029 1894 1056 1978 1082 2065 1109 2155 100 1463 561 996 593 1033 624 1073 656 1117 687 1163 718 1213 748 1265 778 1321 808 1379 837 1441 866 1506 895 1573 923 1644 951 1718 978 1794 1006 1874 1033 1957 1059 2043 1085 2132 1111 2224 200 1510 574 1037 605 1076 636 1118 667 1163 698 1211 728 1262 758 1316 787 1373 816 1434 845 1497 873 1563 902 1632 929 1705 957 1780 984 1858 1010 1940 1037 2024 1063 2112 1088 2202 1113 2296 300 1557 587 1082 618 1122 648 1166 679 1212 709 1262 738 1315 767 1371 796 1430 825 1491 853 1556 881 1624 908 1695 936 1769 962 1846 989 1926 1015 2009 1041 2095 1066 2184 1091 2276 1116 2372 400 1604 600 1130 630 1172 660 1217 690 1266 720 1317 749 1371 777 1429 806 1489 834 1553 861 1619 888 1689 915 1761 942 1837 968 1916 994 1997 1020 2082 1045 2170 1070 2260 1094 2354 1118 2451 500 [165211 613 11182 643 112261 672 11273 702 1323 730 1376 759 1432 787 1491 815 1553 842 1618 869 1686 896 17571 922 1831 948 1909 974 1989 999 2072 1024 2158 1049 2248 1073 2340 1097 2436 1121 2534 600 1699 626 11238 656 112831 685 11332 713 1383 741 1438 769 1495 797 11556 824 16201 851 1687 877 17561 904 1829 929 1905 955 1984 980 2066 1005 2151 1029 2238 1053 2329 1077 2423 1100 2520 1123 2621 700 1746 640 1297 668 1344 697 1394 725 1447 753 1504 780 1563 807 1625 833 1690 860 1759 886 1830 911 1905 937 1982 961 2063 986 2146 1010 2233 1034 2322 1057 2415 1081 2510 1103 2609 1126 2711 800 1793 653 1360 681 1409 709 1460 737 64 1573 790 1634 817 1698 843 1765 869 1835 894 1908 919 1984 944 2063 968 2145 992 2230 1016 2318 1039 2410 1062 2504 1084 2601 1107 2701 1126 2805 900 1840 667 1426 694 1477 721 1530 746 75 1646 801 1709 827 1774 852 1843 878 1914 902 1989 927 2067 951 2147 975 2231 998 2318 1021 2408 1044 2500 1066 2596 1088 2695 1110 2797 1131 2902 000 1888 680 1496 707 1548 734 1604 760 q174 86 1723 812 1787 837 1854 862 192412009 887 1998 911 2074 935 2153 958 2235 981 2321 1004 2409 1027 2501 1049 2595 1071 2693 1092 2793 1113 2897 1134 3003 100 1935 694 1570 720 1624 746 1681 772 97 1803 822 1869 847 1938 872 896 2084 919 2162 943 2243 965 2327 988 2414 1010 2504 1032 2597 1054 2693 1075 2792 1096 2895 1116 3000 1137 3108 iw I L. MF-unvn tcu ut um uutu unG, otu-uttve nym m uutu une5, un-unve ngm or aoume nne. Drive Package A/F B/G C/H Motor H.P. [W] 2 [1491.4] 3 [2237.1] 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40 * 7/8 1 VP50 * 7/8 1 VP56*7/8 Belt A49 A50 A51 Turns Open 0 1 2 3 1 4 1 5 0 1 1 2 3 1 4 1 5 1 0 1 2 3 1 4 5 RPM 802 754 707 662 1 616 1 555 1 1048 1 1005 960 916 1 870 1 827 1 1170 1126 1085 1044 1 1000 956 Y ......... ....y„ ,v vv, "Po. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions AIRFLOW PERFORMANCE- 8.5 TON [29.9 kW] - 60 Hz - SIDEFLOW (con't.) Airllow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Horizontal Economizer RXRN-AEF2000 & RA Damper Open Concentric Adapter RXMC-DD01 (Flush) Concentric Diffuser RXRN-AED2000 & Concentric Adapter RXMC-0001 (Drop) CFM IL/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water Wal 2700 [1274] 0.97 0.93 0.99 0.07 [02] 0.03 [.01] 0.80 [.20] 0.65 [.16] 2800 [13211 0.98 0.94 0.99 0.07 [.02) 0.03 [.011 0.85 [.21 ] 0.69 [.17] 2900 [1368] 0.98 0.96 0.99 0.08 [.021 0.04 [.01] 0.91 [.23] 0.74 [.18] 3000 [1416] 0.99 0.97 1.00 0.08 [.021 0.05 [.01] 0.96 [.24] 0.79 [.20] 3100 [1463] 0.99 0.99 1.00 0.09 [.02] 0.06 [.01] 1.02 [.25] 0.86 [.21] 3200 [1510] 1.00 1.00 1.00 0.10 [.02] 0.07 [.02] 1.08 [.27] 0.92 [.23] 3300 [1557] 1.01 1.01 1.00 0.10 [.03] 0.08 [.02] 1.15 [.29] 0.99 [.25] 3400 [1604] 1.01 1.03 1.01 0.11 [.031 0.09 [.021 1.21 [.30] 1.05 [.261 3500 [1652] 1.02 1.04 1.01 0.11 [.03] 0.10 [.02] 1.29 [32] 1.09 [.271 3600 [1699] 1.02 1.06 1.01 0.12 [.03] 0.11 [.03] 1.36 [.341 1.13 [.281 3700 [1746] 1.03 1.07 1.02 0.13 [.03] 0.12 [.031 1.43 [.361 1.18 [.29] 3800 [1793] 1.03 1.09 1.02 0.13 [.03] 0.13 [.03] 1.50 [.37] 1.23 [.31] 3900 [1840] 1.04 1.10 1.02 0.14 [.04] 0.15 [.04] 1.59 [.401 1.31 [.331 4000 [1888] 1.05 1.12 1.02 0.15 [.04] 0.16 [.041 1.68 [.421 1.38 [.34] 4100[19351 1 1.05 1.13 1.03 0.15 [.04] 1 0.17 [.041 1.74 [.43] 1.44 [.36] nimupiy wilcwuu iacrur amen yruss penunnance uaw resumng sensime capacity cannot exceea total capacity. Designates Metric Conversions 0 0 0 0 0 0 :0 M 0 0 goo 690 CDNN7 W I AIRFLOW PERFORMANCE -10 TON [35.1 kW] - 60 Hz - DOWNFLOW Nu I t: A/h-unve ien or me boio one, uai-unve right or bold lines, G/1 -1 -Drive right of double line. Drive Package v Model RACDZ*120' Voltage 208/230 460 575 — 3 phase 60 Hz 3 [2237.11 Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40 * 7/8 1 VP50*7/8 1 VP56*7/8 Belt A49 A50 A51 Turns Open 0 1 1 2 1 3 1 4 1 5 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 Air Flow 802 1 758 1 710 1 661 1 616 1 559 1 1040 1 999 1 955 1 911 1 868 1 824 1 1155 1 1120 1 1080 1 1039 1 996 1 953 External Static Pressure—Inches of Water [kPa] CFM IL/sl 0.1 021 0.2 (.051 0.3 071 0.4 101 0.5 121 0.6 151 0.7 [.17] 0.8 201 0.9 22] 1.0 [.251 1.1 [.27] 1.2 [.30] 1.3 [.321 1.4 [.351 1.5 [.371 1.6 1.401 1.7 [.42] 1.8 45] 1.9 [.471 2.0 1.501 RPM W RPM W RPM W RPM W RPM W RPMJ W RPM W RPMJ W RPMJ W RPM W RPM W RPM W RPM RPM W RPM W RPMJ W RPMJ W RPMj W RPMj W RPMj W 200 1510 597 1046 629 1092 651 1141 692 1191 723 1242 753 1296 782 1351 811 1409 839 1468 867 1528 893 1591 920 1655 945 A_ 1722 970 1790 994 1859 1018 1931 1041 2004 1064 2080 1085 2157 1107 2236 30011557 610 1092 642 1141 674 1192 705 1244 735 1299 764 1355 793 1413 822 1473 849 1535 876 1599 903 1664 928 1731 954 1800 978 1871 1002 1943 1025 2018 1048 2094 1070 2172 1091 2251 1112 2333 00[1604 624 1142 655 1194 686 1247 717 1303 747 1360 776 1419 804 1480 832 1542 859 1607 886 1673 912 1741 937 1811 962 1883 986 1956 1010 2031 1032 2108 1055 2187 1076 2268 1097 2350 1117 2435 00 1652 638 1196 669 1251 699 1307 729 1365 759 1425 787 1487 815 1550 843 1616 870 1683 896 1752 921 1823 946 1895 971 1969 994 2046 1017 2124 1040 2203 1061 2285 1083 2368 1103 2454 1123 2541 00 1699 651 1255 682 1312 712 1371 742 1432 771 1494 799 1559 827 1625 854 1693 880 1763 906 1835 931 1908 955 1984 979 2061 1003 2140 1025 2220 1047 2303 1068 2387 1089 2473 1109 2561 1129 2651 00 1746 665 1317 696 1377 725 1439 755 1503 783 1568 811 1635 838 1704 865 1775 891 1848 916 1922 941 1998 965 2076 988 2156 1011 2238 1033 2321 1055 2406 1075 2493 1096 2582 1115 2673 1134 2765 00 1793 679 1385 709 1447 739 1512 767 1578 795 1646 823 1716 850 1788 876 1861 901 1937 926 2014 950 2093 974 2173 997 2256 1019 2340 1041 2426 1062 2514 1083 2604 1102 2696 1122 2789 1140 2884 00 1840 693 1456 723 1521 752 1589 780 1658 808 1728 835 1801 861 1875 887 1952 912 2030 936 2110 960 2191 983 2275 1006 2360 1028 2447 1049 2536 1070 2627 1090 2719 1109 2813 1128 2909 1146 3007 00 1888 708 1532 737 1600 765 1670 793 1741 820 1815 847 1890 873 1967 898 2046 923 2127 947 2210 970 2294 993 2380 1015 2468 1036-2558 1057 2650 1077 2743 1097 2838 1116 2935 1134 3034 1152 3135 00 1935120011982 722 1612 751 1682 779 1755 806 1830 833 1906 859 1984 884 2064 909 2145 933 2229 957 2314 980 2401 1002 2490 1024 2581 1045 2673 1065 2768 1085 2864 1104 2962 1123 3061 1141 3163 1158 3266 736 1696 765 1769 792 1845 819 1922 845 2001 871 2082 896 2164 921 2249 944 2335 968 2423 990 2513 1012 2604 1033 2698 1054 2793 1074 2890 1093 2989 1112 3090 1130 3192 1147 3296 1164 34020020297511784779186180619398322019858210088321649082269932235695524459782536100026291022272310432819106329171082301711013118111932221137332711543434 00 2076 765 1877 793 1956 820 2037 646 2120 871 2204 896 2290 920 2378 944 2468 967 2560 989 2653 1010 2749 1032 2846 105229451072 3045 1091 3148 1109 3252 1127 3358 1144 3466 1161 3576 00 2123 780 1974 807 2056 833 2140 859 2225 884 2312 908 2401 932 2492 955 2584 978 2679 1000 2775 1021 2873 1041 2973 1061 3074 1081 3178 1099 3283 1117 3390 1135 3499 1152 3609 1168 3722 00 2171 795 2076 821 2160 847 2246 872 2335 897 2424 921 2516 944 2610 967 2705 989 2802P 2901 1031 3002 1051 3104 1071 3208 1090 3314 1108 3422 1126 3532 1143 3644 1159 3757 — 00 2218 810 2181 836 2269 861 2358 886 2448 910 2541 934 2635 957 2732 979 2830 1000 29293031 1042 3134 1062 3240 1081 3347 1099 3455 1117 3566 1134 3679 1151 3793 1167 3909 00 2265 825 2291 850 2381 875 2473 900 2567 923 2662 946 2759 969 2858 991 2959 1012 3061 3165 1052 3272 1072 3380 1090 3489 1108 3601 1126 3714 1143 3829 1159 3946 Nu I t: A/h-unve ien or me boio one, uai-unve right or bold lines, G/1 -1 -Drive right of double line. Drive Package v AN B/G C/H Motor H.P. [W] 2 [1491.41 3 [2237.1] 3 [2237.11 Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40 * 7/8 1 VP50*7/8 1 VP56*7/8 Belt A49 A50 A51 Turns Open 0 1 1 2 1 3 1 4 1 5 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM 802 1 758 1 710 1 661 1 616 1 559 1 1040 1 999 1 955 1 911 1 868 1 824 1 1155 1 1120 1 1080 1 1039 1 996 1 953 7o u"U.—m.v'm uwu'Yvu. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions AIRFLOW PERFORMANCE -10 TON [35.1 kW] - 60 Hz - DOWNFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Vertical Economizer RXRN-AEF3415 & RA Damper Open Diffuser RXMC-DO02 (Flush) Concentric Diffuser RXRN-AED3415 & Diffuser RXMC-DD02 (Drop) CFM [Us) Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa) 3200 [1510] 0.97 0.93 0.99 0.10 [.02] 0.07 [.021 0.74 [.18] 0.56 [.14] 3300 [1557] 0.98 0.94 0.99 0.10 [.03] 0.08 [.02] 0.79 [.20] 0.59 [.15] 3400 [1604] 0.98 0.96 0.99 0.11 [.031 0.09 [.02] 0.84 [.21] 0.62 [.15] 3500 [1652] 0.99 0.97 1.00 0.11 [.03] 0.10 [.02] 0.90 [.221 0.66 [.16] 3600 [1699] 0.99 0.98 1.00 0.12 [.03] 0.11 [.03] 0.95 [.24] 0.69 [.17] 3700 [1746] 1.00 0.99 1.00 0.13 [.03] 0.12 [.03] 1.00 [.25] 0.73 [.181 3800 [1793] 1.00 1.01 1.00 0.13 [.03] 0.13 [.03] 1.04 [.26] 0.76 [19] 3900 [1840] 1.01 1.02 1.00 0.14 [.04] 0.15 [.04] 1.09 [.27] 0.80 [.20] 4000 [1888] 1.01 1.03 1.01 0.15 [.04] 0.16 [.04] 1.13 [.28] 0.84 [.211 4100 [1935] 1.02 1.04 1.01 0.15 [.04] 0.17 [.04] 1.19 [.30] 0.88 [.221 4200 [19821 1.02 1.06 1.01 0.16 [04] 0.19 [.05] 1.24 [.31] 0.92 [.231 4300 [2029] 1.03 1.07 1.01 0.17 [.04] 0.20 [.05] 1.31 [.331 0.97 [.24] 4400 [2076] 1.03 1.08 1.01 0.18 [.04] 0.21 [.05] 1.37 [.341 1.02 [.25] 4500 [2123] 1.04 1.09 1.02 0.19 [.05] 0.23 [.06] 1.43 [.35] 1.07 [.27] 4600 [2171 ] 1.04 1.11 1.02 0.19 [.051 0.24 [.06] 1.48 [.371 1.11 [.28] 4700 [22181 1.05 1.12 1.02 0.20 [.05] 0.26 [06] 1.54 [.38] 1.15 [.29] 4800 [2265] 1.05 1.13 1.02 1 0.21 [.051 1 0.28 [.07] 1 1.59 [.401 1.19 [.30] mumpry wrreoaon ramor nmes gross perrormance aata resumng sensiDie capacity cannot exceea total capacity. Designates Metric Conversions I a I AIRFLOW PERFORMANCE -10 TON [35.1 kW] - 60 Hz - SIDEFLOW Air Model RACDZ•120' Voltage 208/230 460 575 — 3 phase 60 Hz Flow External Static Pressure—Inches of Water Wal CFM IL/sl 0.1 L021 0.2 L051 0.3 [.07] 0.4 [.101 0.5 (.121 0.6 [.15I 0.7 [.171 0.8 20] 0.9 (.221 1.0 [.25] 1.1 [.271 1.2 [.30] 1.3 [.321 1.4 L351 11.5 L371RPMWRPM1WRPMWRPMjWIRPMWJRPMJWIRPMWRPMJWIRPMWRPMWIRPMWRPMWRPMWRPMWIRPMW RPM1 W RPM W PMJ W JRPMj W RPM W 200 [15101 575 1018 607 1057 637 11099 667 1143 697 1191 727 12401 756 1293 785 113481814 1406 842 14661 870 1529 897 1595 924 1664 951 17351 978 1809 1004 1885 1030 1965 1055 2047 1080 2131 1105 2219 300 [1557 588 1060 618 1101 649 1146 679 1192 708 1242 737 1294 766 1349 795 1406 823 1466 850 1529 878 1595 905 1663 932 1734 958 1808 984 1884 1010 1963 1035 2045 1060 2129 1085 2216 1109 2306 400 [1604) 600 1106 630 1150 660 1196 690 1245 719 1297 748 1352 776 1409 804 1469 832 1531 859 1597 886 1664 913 1735 939 1808 965 1884 990 1963 1016 2044 1040 2128 1065 2215 1089 2305 1113 500 1652 613 1156 643 1202 672 1251 701 1302 730 1357 758 1413 786 1473 814 1535 841 1600 868 1668 894 1738 920 1811 946 1887 972 1965 997 2046 1022 2130 1046 2217 1070 2306 1094 2397 1117 600 1699 626 1210 655 1258 684 1310 713 1364 741 1420 769 1479 796 1541 823 1606 850 1673 877 1743 903 1816 929 1892 954 1970 979 2050 1004 2134 1028 2220 1052 2309 1076 2400 1099 2494 1122 700 1746 639 1268 668 1319 696 1373 724 1429 752 1488 779 1550 806 1614 833 1681 860 1751 886 1823 911 1898 937 1976 962 2056 986 2140 1011 2225 1035 2314 1058 2405 1081 2499 1104 2596 1127 800 1793 652 1330 680 1384 708 1440 736 1498 763 1560 790 1624 817 1690 843 1760 869 1832 895 1907 920 1984 945 2064 970 2147 994 2233 1018 2321 1041 2412 1064 2505 1087 2602 1110 2701 1132 1327,4 900 1840 665 1397 693 1452 721 1511 748 1572 775 1636 801 1702 828 1771 854 1843 879 1917 904 1995 929 2075 954 2157 978 2242 1001 2330 1025 2421 1048 2514 1071 2610 1093 2709 1115 2810 1137 000 1888 678 1467 706 1525 733 1586 760 1650 787 1716 813 1785 839 1856 864 1930 889 2007 914 2087 938 2169 962 2254 986 2341 1009 2432 1032 2525 1055 2620 1077 2719 1099 2820 1121 2923 1142 100 1935 692 1542 719 1602 746 1666 772 1731 798 1800 824 1871 850 1945 875 2022 899 2101 923 2183 947 2267 971 2355 994 2445 1017 2537 1040 2633 1062 2731 1084 2831 1105 2935 1126 3041 1147 200 1982 706 1621 732 1684 759 1749 785 1817 810 1888 836 1962 861 2038 885 2117 909 2199 933 2283 957 2370 980 2460 1003 2552 1025 2647 1047 2745 1069 2845 1091 2948 1112 3054 1132 3163 1153 300 20291 720 11704 746 1769 772 1837 797 1907 823 1981 847 2057 872 2135 896 2217 920 2301 943 2387 966 2477 989 2569 1012 2664 1034 2761 1055 2861 1077 2964 1098 3069 1118 3178 1139 3288 1158 3402 400 2076 734 1791 760 1858 785 1928 810 2001 835 2077 859 2155 883 2237 907 2320 931 2407 954 2496 976 2587 999 2682 1020 2779 1042 2879 1063 2981 1084 3087 1105 3195 1125 3305 1145 3418 500 2123 748 1882 773 1952 798 2024 823 2100 847 2178 871 2259 895 2342 918 2428 941 2517 964 2608 986 2702 1008 2799 1030 2899 1051 3001 1071 3106 1092 3214 1112 3324 1132 3437 1151 3552 600 2171 762 1977 787 2049 812 2124 836 2202 860 2283 884 2366 907 2451 930 2540 952 2631 974 2822 1018 2921 1039 3023 1059 3127 1080 3235 1100 3345 1120 3457 1139 3573 1158 3691 700 2218 777 2076 801 2151 826 2228 849 2309 873 2391 896 2477 919 2565 941 2656 963 2750 985 M2725996 2945 1027 3046 1048 3151 1068 3258 1088 3367 1108 3480 1127 3595 1146 37180022657922180816225784023378632419886250490925929312683953277697528729963072103731761058328310773392109735041116361911353736 OTE: A/F-Drive left of the bold line, B/G-Drive right of bold lines, GIH -Drive right of double line. Drive Package AN B/G C/H Motor H.P. [W] 2 1491.4] 3 [2237.1] 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1VL40' 7/8 1 VP50"7/8 1 VP56' 7/8 Belt A49 A50 A51 Turns Open 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM 798 1 753 707 1 663 1 616 1 556 1 1041 1 998 1 955 1 912 1 867 1 824 1 1155 1 1119 1 1078 1 1037 1 994 1 951 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow atAHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions Ma o0 fU) vro N 9 tv aM AIRFLOW PERFORMANCE -10 TON [35.1 kW] - 60 Hz - SIDEFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Horizontal Economizer RXRN-AEF3415 & RA Damper Open Diffuser RXMC DD02 (Flush) Concentric Diffuser RXRN-AED3415 & Diffuser RXMC-OD02 (Drop) CFM [L/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water Wal 3200 [1510] 0.97 0.93 0.99 0.10 [.02] 0.07 [.02] 0.74 [.18] 0.56 [.14] 1 3300 [1557] 0.98 0.94 0.99 0.10 [.03] 0.08 [.02] 0.79 [.20] 0.59 [.15] 3400 [1604] 0.98 0.96 0.99 0.11 [.03] 0.09 [.02] 0.84 [.21] 0.62 [.15] 3500 [1652) 0.99 0.97 1.00 0.11 [.03] 0.10 [.02) 0.90 [.22] 0.66 [16] 3600 [1699] 0.99 0.98 1.00 0.12 [03] 0.11 [.03] 0.95 [24] 0.69 [.17] 3700 [1746] 1.00 0.99 1.00 0.13 [.03] 0.12 [.03] 1.00 [.25] 0.73 [.18] 3800 [1793] 1.00 1.01 1.00 0.13 [.03] 0.13 [.03] 1.04 [.26] 0.76 [.19] 3900 [1840] 1.01 1.02 1.00 0.14 [.04] 0.15 [.04] 1.09 [.27] 0.80 [.20] 4000 [1888] 1.01 1.03 1.01 0.15 [.04] 0.16 [.04] 1.13 [.28] 0.84 [.21] 4100 [1935] 1.02 1.04 1.01 0.15 [.04] 0.17 [.04] 1 A 9 [.30] 0.88 [.22] 4200 [1982] 1.02 1.06 1.01 0.16 [.04] 0.19 [.05] 1.24 [.31] 0.92 [.23] 4300 [2029] 1.03 1.07 1.01 0.17 [.04] 0.20 [.05] 1.31 [.33] 0.97 [.24] 4400 [2076] 1.03 1.08 1.01 0.18 [.04] 0.21 [.05] 1.37 [.34] 1.02 [.25] 4500 [2123] 1.04 1.09 1.02 0.19 [.05] 0.23 [.06] 1.43 [.35] 1.07 [.27) 4600 [2171 ] 1.04 1.11 1.02 0.19 [.05] 0.24 [.06] 1.48 [.37] 1.11 [.28] 4700 [2218] 1.05 1.12 1.02 0.20 [.05] 0.26 [.06] 1.54 [38] 1.15 [.29] 4800 [2265] 1.05 1.13 1.02 0.21 [.05] 0.28 [.07] 1.59 [.40] 1.19 [.30] mumpty correcuon Tactor umes gross performance data resulting sensiole capacity cannot exceed total capacity. Designates Metric Conversions 3. M3 N n AIRFLOW PERFORMANCE -12.5 TON [43.9 kW] - 60 Hz - DOWNFLOW Air Model RACDZ*150* Volta a 208/230 460 575 — 3 phase 60 Hz Flaw External Static Pressure—Inches of Water [kPal CFM [USI 0.1 [.021 0.2 [.05) 0.3 [.071 0.4 [.101 0.5 [.121 0.6 [.151 0.7 [.171 0.8 [.201 0.9 [.221 1.0 [.251 1.1 [.271 1.2 [.301 1.3 [.321 1.4 [.351 1.5 [.371 1.6 [.401 1.7 [.421 1.8 [.451 1.9 [.471 2.0 [.501RPMWRPMJWJRPMJWRPMJWJRPMjWRPMWJRPMJWRPM] W JRPMJ W RPM W RPM W RPM W IRPM W RPM W RPM W RPM W RPM W RPMj W IRPM W RP W 000 1888 766 11776 795 1806 824 1842 851 1883 878 1931 904 19851 929 2044 953 2110 976 12181 998 2259 1019 2342 1040 2431 1059 2526 1078 2627 1096 2734 1113 2847 1129 2966 1144 3091 1158 3221 1171 3358 100 1935]778 1820 807 1856 835 1897 862 1944 888 1997 913 2056 937 2120 961 2191 983 12268 1005 2350 1026 2439 1045 2533 1064 2634 1082 2740 1099 2852 1116 2970 1131 3094 1145 3224 1159 3360 1171 3502 4200 119821 792 1875 820 1915 847 1961 873 2014 899 2072 923 2136 947 2206 969 2282 991 2364 1012 2451 1032 2545 1051 2645 1070 2750 1087 2862 1103 2979 1119 3102 1134 3232 1147 3367 1160 3508 1172 3655 300 2029 806 1938 833 1984 859 2036 885 2093 910 2156 934 2226 957 2301 979 2382 1000 2469 1020 2562 1040 2661 1058 2766 1076 2877 1092 2993 1108 3116 1123 3244 1137 3379 1150 3519 1162 3665 1174 3818 400 2076 820 2012 847 2063 873 2119 898 2182 922 2251 945 2325 967 2406 989 2492 1009 2584 1029 2682 1048 2787 1065 2897 1082 3013 1098 3134 1113 3262 1128 3396 1141 3536 1154 3681 1165 3833 1176 3990 500 2123 835 2095 661 2151 886 2213 911 2281 934 2355 957 2434 978 2520 999 2611 1019 2709 1038 2812 1056 2922 1073 3037 1090 3158 1105 3285 1119 3418 1133 3557 1146 3702 1158 3853 1168 4009 1178 4172 600 2171 851 2187 876 2249 901 2316 925 123891 947 2468 969 2553 990 2644 1010 2740 1030 2843 1048 2952 1065 3066 1082 3187 1097 3313 1112 3445 1126 3584 1139 3728 1151 3878 1162 4034 1172 4196 1182 4363 700122181 867 12290 892 2356 916 2428 939 125071 961 12591 982 2681 1003 2777 1022 2879 1041 2987 1058 3101 1075 3220 1091 1334611106 3478 1120 3615 1133 3759 1145 3908 1157 4063 1167 4224 1177 4391 1186 4564 800 [226511 884 12401 908 2473 932 2551 954 2634 975 2723 996 2819 1016 2920 1034 3027 1052 3140 1069 3259 1085 3384 1101 3515 1115 3652 1128 3795 1141 3943 1153 4098 1163 4258 1173 4425 1182 4597 1190 4775 900 2312 902 12523 925 2599 948 2682 969 2771 990 2866 1010 2966 1029 3073 1047 3185 1065 3303 1081 3427 1097 3558 1111 3694 1125 3836 1138 3984 1149 4137 1160 4297 1170 4463 1180 4634 1188 4812 1195 4995 000 2359 920 12653 943 2736 965 2824 986 2917 1006 3017 1025 3123 1044 3235 1061 3352 1078 3476 1093 3605 1108 3741 1122 3882 1135 4029 1147 4182 1158 4341 1169 4506 11_78 4677 1107,4854 1194 5036 1201 5225 100 2407 939 12794 961 2881 982 2974 1003 3073 1022 3179 1041 3289 1058 3406 1075 3529 1091 3658 1106 3792 1120 3933 1134 4079 1146 4232 1158 4390 1168 4554 1178.4725 1187 4901 1194 5083 1201 5270 1208 5464 200 2454 958 12944 980 3036 1000 3135 1020 3239 1039 3349 1057 3465 1074 3588 1090 3716 1105 3849 1120 3989 1133 4135 1146 4287 1158 4444 1168 4608 1178 4777 1187 4953 1196 5134 1203 5321 1209 5514 1215 5713 300f2501 978 13103 999 3201 1019 3305 1038 3414 1056 3530 1074 3651 1090 3778 1106 3912 1120 4051 1134 4196 1147 4347 1159 4504 1170 4666 1180 4835 1189 5010 1198 519Q..1205 5377 1212 5569 1217 5767 1222 5972 400 2548 999 13273 1019 3376 1038 3484 1057 3599 1074 3720 1091 3846 1107 3979 1122 4117 1136 4261 1149 4412 1161 4568 1172 4730 1183 4898 1192 5072 1201 5252 1209 54]1 1215 5629 1221 5827 1226 6030 — — 500 [259511102013451 1040 3559 1058 3673 1076 3793 1093 3919 1109 4051 1124 4189 1138 4332 1152 4482 1164 4637 1176 4799 1186 4966 1196 5139 1205 5318 1213 5503 1220 5694 1226 5891 — I — — — — 600 2643J 1042 3640 1061 3753 1079 3872 1096 3997 1112 4128 1128 4265 1142 4408 1156 4557 1168 4712 1180 4872 1191 5039 1201 5212 1210 5390 1218 5574 1226 5765 I — I — — — — 700 2690 1064 3838 1083 3956 1100 4080 1117 4211 1132 4347 1147 4489 1161 4637 1174 4791 1186 4951 1197 5117 1207 5289 1216 5467 1225 5650 800 2737 1088 4045 1105 4169 1122 4298 1138 4434 1153 4575 1167 4723 1180 4876 1192 5035 1204 5200 1214 5371 1224 5548 — 900 2784 1111 4262 1128 4391 1144 4526 1160 4666 1174 4813 1187 4966 1200 5124 1211 5289 1222 5459 000 2831 1136 4489 1152 4623 1167 4763 1182 4909 1196 5061 1208 5218 1220 5382 i OTE: A/F-Drive left of the bold line, B/G-Drive right of bold lines. Drive Package A/F Motor H.P. [Wj 3 [2237.1] Blower Sheave AK71 H Motor Sheave 1VL44*7/8 Belt A48 Tums Open 0 1 1 1 2 3 RPM 1003 1 958 1 912 863 1 1 4 814 1 1 5 764 0 1220 11 1171 1 B/G 5 [3728.5] AK79H 1VP60*1x1/8 A52 2 1 3 1 1127 1 1085 1 4 1039 5 994 wvi w. 1, racwiy SIICQVC beuuiys me SIIUWII m uuw type. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow, at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions AIRFLOW PERFORMANCE -12.5 TON [43.9 kW] - 60 Hz - DOWNFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Vertical Economizer RXRN-AEF3618 & RA Damper Open Concentric Adapter RXMC-DO03 (Flush) Concentric Diffuser RXRN-AED3618 & Concentric Adapter RXMC-0003 (Drop) CFM [L/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 4000 [1888] 1.01 1.03 1.01 0.15 [.041 0.16 [.04] 0.76 [.19] 0.68 [.17] 4100 [1935] 1.02 1.04 1.01 0.16 [04] 0.17 [.04] 0.79 [.20] 0.72 [.181 4200 [1982] 1.02 1.06 1.01 0.17 [.04] 0.19 [.05] 0.82 [.201 0.75 [.19] 4300 [2029] 1.03 1.07 1.01 0.17 [.04] 0.20 [.051 0.86 [.211 0.79 [.20] 4400 [2076] 1.03 1.08 1.01 0.18 [.051 0.21 [.05] 0.90 [.22] 0.83 [.21] 4500 [2123] 1.04 1.09 1.02 0.19 [.051 0.23 [.06] 0.94 [.23] 0.86 [.211 4600 [2171] 1.04 1.11 1.02 0.20 [.051 0.24 [.06] 0.98 [.24] 0.89 [.22] 4700 [22181 1.05 1.12 1.02 0.21 [.05] 0.26 [.061 1.02 [.25] 0.94 [.23] 4800 [2265] 1.05 1.13 1.02 0.21 [05] 0.28 [.07] 1.06 [.26] 0.98 [.241 4900 [2312] 1.06 1.14 1.02 0.22 [.06] 0.29 [.07] 1.10 [.27] 1.01 [.251 5000 [2359] 1.06 1.16 1.03 0.23 [.061 0.31 [.08] 1.14 [.28] 1.04 [.261 5100 [2407] 1.07 1.17 1.03 0.24 [.06] 0.33 [.081 1.18 [.29] 1.07 [.271 5200 [2454] 1.07 1.18 1.03 0.25 [.061 0.35 [.09] 1.22 [.30] 1.10 [.27] 5300 [2501] 1.08 1.19 1.03 0.26 [.06] 0.36 [.09] 1.27 [.32] 1.15 [.29] 5400 [2548] 1.08 1.21 1.03 0.27 [.07] 0.38 [.09] 1.33 [.33] 1.20 [.301 5500 [2595] 1.09 1.22 1.04 0.28 [.07] 0.40 [.10] 1.37 [.34] 1.25 [.311 5600 [2643] 1.09 1.23 1.04 0.29 [.071 0.42 [.10] 1.42 [.35] 1.30 [.321 5700 [2690] 1.10 1.24 1.04 0.30 [.07] 0.44 [.11] 1.47 [.37] 1.34 [.33] 5800 [2737] 1.10 1.26 1.04 0.31 [.081 0.46 [.111 1.52 [.38] 1.38 [.341 5900 [2784] 1.10 1.27 1.05 0.32 [.08] 1 0.48 [.12] 1.56 [.391 1.42 [.351 6000 [2831] 1.11 1.28 1.05 0.33 [.081 1 0.51 [.13] 1.60 [.401 1.45 [.36] mumpq correction tactor umes gross perrormance aata resumng sensime capacity cannot exceed total capacity. Designates Metric Conversions po Cn 3. M N m m AIRFLOW PERFORMANCE -12.5 TON [43.9 kW] — 60 Hz — SIDEFLOW Air Model RACDZ'150• Voltage 208/230 460 575 — 3 phase 60 Hz AK71 H AK79H Motor Sheave 1 VL44' 7/8 1 VP60' 1x1 /2 Belt A48 A52 Turns Open 0 1 2 31 4 1 5 0 1 1 1 2 1 3 1 4 1 5 RPM Flow 1 955 1 909 1 862 1 813 1 765 1208 1 1171 1 1127 1 1084 1 1038 995 External Static Pressure—Inches of Water [kPa] CFM [Us] 0.1 [.02] 0.2 05] 0.3 071 0.4 [.101 0.5 [.12) 0.6 [.15] 0.7 [.171 0.8 201 0.9 221 1.0 [.25] 1.1 [.27) 1.2 [.301 1.3 [.32] 1.4 [.351 1.5 [.371 1.6 [.40I 1.7 [.421 1.8 1.451 1.9 [.47] 2.0 [.50] RPMJ W RPMJ W lRPMl W RPMj W RPM W RPMJ W RPM W RPM W RPM W JRPMJ W RPM W RPM W RPM W RPMj W RPM W JRPMj W RPM1 W RPM1 W RPM W RPM W 000 1888 I — 791 117571 819 11824 846 11892 872 1961 897 12031 922 2101 946 2173 970 2245 993 2318 1015 2392 1036 2467 1057 2542 1077 2619 1096 2696 1115 2774 1133 2853 1150 2933 1167 3014 1183 3095 100 [19351 782 11773 809 118411 836 11911 863 1982 888 2053 913 12125 937 2198 961 2272 984 2346 1006 2422 1027 2498 1048 2576 1068 2654 1088 2733 1106 2812 1124 2893 1142 2975 1158 3057 1174 3140 1189 3224 200 1982 601 11860 828 119321 854 12004 880 2077 905 2150 929 12225 952 2300 975 2377 997 2454 1019 2532 1040 2611 1060 2691 1079 2771 1098 2853 1116 2935 1133 3018 1150 3102 1166 3187 1181 32,`2 1190 3359 300 2029 819 11954 845 2028 871 12102 896 2177 920 2254 944 2331 967 2409 989 2488 1011 2567 1032 2648 1052 2729 1071 2611 1090 2894 1108 2978 1125 3063 1142 3149 1158 3235 1174 3323 1188 3411 1202 3500 400 2076 837 12053 863 2129 888 12207 912 22841 936 2363 959 2443 981 2523 1003 2605 1024 2687 1044 2770 1064 2854 1082 2938 1101 3024 1118 3110 1135 3197 1151 3286 1166 3375 1181 3464 1195 3555 1208 3646 500 2123 855 12159 880 2237 905 12317 929 2397 952 2479 974 25611 996 2644 1016 2727 1037 2812 1056 2897 1075 2984 1093 3071 1111 3159 1128 3248 1144 3338 1159 3428 1174 3520 1188 3612 1201 3705 1214 3799 600 2171 873 12270 898 2351 921 12433 944 2516 967 2600 988 2684 1009 2770 1030 2856 1049 2943 1068 3031 1086 3120 1104 3210 1121 3300 1137 3392 1152 3484 1167 3577 1181 3671 1195 3766 1207 3861 1219 3958 700 2218 891 12387 914 2471 938 12556 960 2641 982 2727 1003 2814 1023 2902 1043 2991 1062 3080 1080 3171 1097 3262 1114 3354 1130 3447 1146 3541 1161 3636 1175 3732 1188 3828 1201 3925 1213 4023 — — 800[22654 908 12511 931 2597 954 12684 975 2772 996 2860 1017 2950 1036 3040 1055 3132 1074 3224 1091 3317 1108 3410 1124 3505 1140 3601 1155 3697 1169 3794 1182 3892 1195 3991 1207 4091 1219 4191 — — 900 2312 925 12640 947 2729 969 2818 990 2908 1011 3000 1031 3092 1050 3184 1068 3278 1086 3373 1102 3468 1119 3565 1134 3662 1149 3760 1163 3859 1177 3958 1190 4059 1202 4160 1213 4262 — — — — 000 2359 942 12775 964 2866 985 2958 1005 3051 1025 3145 1044 3239 1062 3335 1080 3431 1097 3528 1113 3626 1129 3725 1144 3824 1158 3925 1172 4026 1185 4128 1197 4231 1208 4335 1219 4440 — — — — 100 2407 958 12916 979 3010 1000 3104 1020 3200 1039 3296 1057 3393 1075 3491 1092 3589 1108 3689 1124 3789 1139 3891 1153 3993 1167 4096 1180 4200 1192 4304 1204 4410 1214 4516 — — — — — — 200 2454 975 13063 995 3160 1015 3256 1034 3354 1053 3453 1070 3552 1087 3653 1104 3754 1120 3856 1135 3959 1149 4063 1162 4167 1175 4273 1188 4379 1199 4486 1210 4594 1220 4703 — — --- — — 300 2501 991 13217 1010 3315 1030 3415 1048 3515 1066 3616 1083 3718 1100 3821 1115 3924 1130 4029 1145 4134 1158 4241 1171 4348 1184 4456 1195 4564 1206 4674 1216 4785 400 2548 1006 3376 1026 3477 1044 3579 1062 3681 1079 3785 1096 3889 1111 3995 1126 4101 1141 4208 1155 4316 1168 4425 1180 4534 1192 4645 1203 4756 1213 4868 500 1259511102213541 1040 3644 1058 3749 1075 3854 1092 3960 1108 4067 1123 4175 1137 4283 1151 4393 1164 4503 1177 4614 1188 4726 1199 4839 1210 4953 1219 5068 600 2643 1037 3712 1055 3818 1072 3924 1089 4032 1105 4141 1120 4250 1134 4361 1148 4472 1161 4584 1174 4697 1185 4810 1196 4925 1207 5040 1216 5156 700 2690 1052 3888 1069 3997 1086 4106 1102 4217 1117 4328 1132 4440 1145 4552 1159 4666 1171 4780 1183 4896 1194 5012 1204 5129 1214 5247 800 2737 1067 4071 1083 4182 1099 4294 1115 4407 1129 4520 1143 4635 1156 4750 1169 4866 1181 4983 1192 5101 1202 5220 1212 5339 1221 5460 900 2784 1081 4260 1097 4374 1113 1_12_6T4 4488 1127 4603 1141 4719 1154 4836 1167 4954 1179 5073 1190 5192 1200 5312 1210 5433 1219 5555 000 128311109514A';' 1111 4571 6-88 1139 4805 1153 4924 1165 5043 1177 5164 1188 5285 1199 5407 1209 5529 1218 5653 — Ivv 1 C. rvr-Unve 1e1I Ur me uulu ine, nru-unve ngm ur oura Imes. Drive Package A/F B/G Motor H.P. [W] 3 [2237.11 5 [3728.5] Blower Sheave AK71 H AK79H Motor Sheave 1 VL44' 7/8 1 VP60' 1x1 /2 Belt A48 A52 Turns Open 0 1 2 31 4 1 5 0 1 1 1 2 1 3 1 4 1 5 RPM 1002 1 955 1 909 1 862 1 813 1 765 1208 1 1171 1 1127 1 1084 1 1038 995 IVVILJ. 1. rautuly Jlleave.)CIIIIIIyJfie w1uW11 III UUIU type. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions AIRFLOW PERFORMANCE -12.5 TON [43.9 kW] - 60 HZ - SIDEFLOW (con't.) Airllow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Horizontal Economizer RXRN-AEF3618 & RA Damper Open Concentric Adapter RXMC-DO03 (Flush) Concentric Diffuser RXRN-AE03618 & Concentric Adapter RXMC-OD03 (Drop) CFM [Us[ Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 4000 [1888] 1.01 1.03 1.01 0.15 [04] 0.16 [.04] 0.76 [.19] 0.68 [.17] 4100 [1935] 1.02 1.04 1.01 0.16 [.04) 0.17 [.04] 0.79 [.20] 0.72 [.18] 4200 [1982] 1.02 1.06 1.01 0.17 [.04] 0.19 [.05] 0.82 [.20] 0.75 [.19] 4300 [2029] 1.03 1.07 1.01 0.17 [.04] 0.20 [.05] 0.86 [.21] 0.79 [.20] 4400 [2076] 1.03 1.08 1.01 0.18 [.05] 0.21 [.05] 0.90 [.22] 0.83 [.21) 4500 [2123] 1.04 1.09 1.02 0.19 [.05] 0.23 [.06] 0.94 [.23] 0.86 [.211 4600 [2171] 1.04 1.11 1.02 0.20 [.05] 0.24 [.06] 0.98 [.24] 0.89 [.22] 4700 [2218] 1.05 1.12 1.02 0.21 [.05] 0.26 [.06] 1.02 [.25] 0.94 [.23] 4800 [2265] 1.05 1.13 1.02 0.21 [.05] 0.28 [.07] 1.06 [26] 0.98 [.24] 4900 [2312] 1.06 1.14 1.02 0.22 [.06] 0.29 [.07] 1 A 0 [.27] 1.01 [.25] 5000 [2359] 1.06 1.16 1.03 0.23 [.06] 0.31 [.08] 1.14 [.28] 1.04 [.26] 5100 [2407] 1.07 1.17 1.03 0.24 [.06] 0.33 [.08] 1.18 [.29] 1.07 [.27] 5200 [2454] 1.07 1.18 1.03 0.25-[.06] 0.35 [.09] 1.22 [.30] 1.10 [.27] 5300 [2501] 1.08 1.19 1.03 0.26 [.06] 0.36 [.09] 1.27 [.32] 1.15 [.29] 5400 [2548] 1.08 1.21 1.03 0.27 [.07] 0.38 [.09] 1.33 [.33] 1.20 [.30] 5500 [2595] 1.09 1.22 1.04 0.28 [.07) 0.40 [.10] 1.37 [.34] 1.25 [.311 5600 [2643] 1.09 1.23 1.04 0.29 [.07] 0.42 [.10] 1.42 [.35] 1.30 [.32] 5700 [2690] 1.10 1.24 1.04 0.30 [.07 1 0.44 [A1] 1.47 [.37] 1.34 [.33] 5800 [2737] 1.10 1.26 1.04 0.31 [.08] 0.46 [.11] 1.52 [38] 1.38 [.34] 5900 [2784] 1.10 1.27 1 1.05 0.32 [.08] 0.48 [.12] 1.56 [.39] 1.42 [.35] 6000 [2831] 1.11 1.28 1 1.05 0.33 [.08] 0.51 [.13] 1.60 [.40] 1.45 [.36) Munipry wrret:uon racwr aures gross perrormance aaia resunmg sensime capacity cannot exceed total capacity. Designates Metric Conversions Electrical Data RACD Series 54 RELY ON RUUD.'” ELECTRICAL DATA - RACDZR SERIES 090ACA 090ACB 090ACC 090ADA 090ADB 090ADC 090AYA 090AYB 090AYC Unit Operating 187-253 187-253 414-506 414-506 517-633 517-633 517-633VoltageRange Volts 208/230 208/230 460 460 575 575 575 W Phase 3 3 3 3 3 3 3 E Hz 60 60 60 60 60 0 60 E Minimum Circuit Ampacity 41 43 21 23 16 17 17 Minimum Overcurrent 50 50 25 30 20„,0 00*00 20ProtectionDeviceSize AAL Maximum Overcurrent 60 60 30 35 25 0000 4@50 000025ProtectionDeviceSize9 * • • No. 1 1 1 1 1 1 1 o Volts 208/230 208/230 460 460 575 575 100 575 Phase 3 3 3 3 3 9:3 3 C4 RPM 3450 3450 3450 3450 3450 3A50 3450 CL HP, Compressor 1 7 7 7 7 7 J 7 E U Amps (RLA), Comp. 1 25 25 12.8 12.8 9.6 6 9.6 Amps (LRA), Comp. 1 164 164 100 100 78 78 78 0 No. 2 2 2 2 2 2 2 o Volts 208/230 208/230 460 460 575 575 575 m Phase 1 1 1 1 1 1 1 CD HP 1/5 1/5 1/5 1/5 1/5 1/5 1/5 o Amps (FLA, each) 1.2 1.2 0.8 0.8 0.6 0.6 0.6 Amps (LRA, each) 2.3 2.3 1.4 1.4 1.1 1.1 1.1 No. 1 1 1 1 1 1 1 c ii Volts 208/230 208/230 460 460 575 575 575 a Phase 3 3 3 3 3 3 3 C, a HP 2 3 2 3 2 3 3 W Amps (FLA, each) 6.6 9.1 3.3 4.6 2.5 3.5 3.5 Amps (LRA, each) 47 74.5 22.5 38.1 19 20 20 54 RELY ON RUUD.'” Electrical Data RACD Series RELY ON RUUD.'" 55 ELECTRICAL DATA - RACDZR SERIES 102ACA 102ACB 102ACC 102ADA 102ADB 102ADC 102AYA 102AYB 102UC Unit Operating Voltage Range 187-253 187-253 187-253 414-506 414-506 414-506 517-633 517-633 517-633 Volts 208/230 208/230 208/230 460 460 460 575 575 575 Phase 3 3 3 3 3 3 3 3 3 E 0 Hz 60 60 60 60 60 60 60 6Q• • • 60 Minimum Circuit Ampacity 44 46 49 22 23 24 ifs . 17 1 Minimum Overcurrent 60 60 60 25 30 30 Z4 • • 2D. • • 2D.. • Protection Device Size Maximum Overcurrent 70 70 70 30 35 35 Zy 23ProtectionDeviceSize No. 1 1 1 1 1 1 1" 01 " 1 o Volts 208/230 209/230 208/230 460 460 460 af6" f5 " 516*0 Phase 3 3 3 3 3 3 3 3 C, RPM 3450 3450 3450 3450 3450 3450 3450 3450 m it HP, Compressor 1 71/2 71/2 71/2 71/2 71/2 71/2 71/2 2 • • 71/2E 0 Amps (RLA), Comp. 1 27.6 27.6 27.6 12.8 12.8 12.8 9.9 • 9.6 9.& • • • Amps (LRA), Comp.1 191 191 191 100 100 100 78 47§ • 1 78 0 No. 2 2 2 2 2 2 2 2 2 Is Volts 208/230 208/230 208/230 460 460 460 575 575 575 m Phase 1 1 1 1 1 1 1 1 1 HP 1/5 1/5 1/5 1/5 1/5 1/5 1/5 1/5 1/5 a o Amps ( FLA, each) 1.2 1.2 1.2 0.8 0.8 0.8 0.6 0.6 0.6 Amps (LRA, each) 2.3 2.3 2.3 1.4 1.4 1.4 1.1 1.1 1.1 No. 1 1 1 1 1 1 1 1 1 c U - Volts 208/230 208/230 208/230 460 460 460 575 575 575 o R Phase 3 3 3 3 3 3 3 3 3 CL HP 2 3 3 2 3 3 2 3 3 W Amps (FLA, each) 7.1 9.1 12 3.5 4.6 6 2.5 3.5 3.5 Amps (LRA, each) 45 74.5 74.5 22.5 38.1 38.1 19 20 20 RELY ON RUUD.'" 55 Electrical Data RACD Series S6` RELY ON RUUD.'" ELECTRICAL DATA - RACDZR SERIES 120ACA 120ACB 120ACC 120ADA 120ADB 120ADC 120AYA 120AYB 120AYC Unit Operating Voltage Range 187-253 187-253 187-253 414-506 414-506 414-506 517-633 518-632 518-632 Volts 208/230 208/230 208/230 460 460 460 575 575 575 Phase 3 3 3 3 3 3 3 3 3 0 Hz 60 60 1 60 60 60 60 1 60 60. •. • • • 60 Minimum Circuit Ampacity 48 51 53 26 27 28 49 • 20 20 Minimum Overcurrent 60 60 60 30 30 35 R6. • • 25 • • 25 • • Protection Device Size Maximum Overcurrent 70 70 80 35 40 40 2y. 30• • 30 • Protection Device Size No. 1 1 1 1 1 1 1"" 1 1 Z Volts 208/230 208/230 208/230 460 460 460 0100 575 575 Phase 3 3 3 3 3 3 3 3 3 C, w RPM 3450 3450 3450 3450 3450 3450 3450 • 3450 3450 EHP, Compressor 1 10 10 10 10 10 10 10 10•' • 10 0 Amps (RLA), Comp. 1 28.2 28.2 28.2 14.7 14.7 14.7 11. • 11.3 11.3 Amps (LRA), Comp. 1 239 239 239 130 130 130 93.7 931, 0' 93.7 No. 2 2 2 2 2 2 2 2 2 Volts 208/230 208/230 208/230 460 460 460 575 575 575 m Phase 1 1 1 1 1 1 1 1 1 m HP 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 9 o Amps( ) FLA, each 2.4 2.4 2.4 1.4 1.4 1.4 1 1 1 Amps (LRA, each) 4.7 4.7 4.7 2.4 2.4 2.4 4.7 4.7 4.7 No. 1 1 1 1 1 1 1 1 1 Volts 208/230 208/230 208/230 460 460 460 575 575 575 a io Phase 3 3 3 3 3 3 3 3 3 C, HP 2 3 3 2 3 3 2 3 3 W Amps (FLA, each) 7.9 10.1 12 3.9 5 6 2.5 3.5 3.5 Amps (LRA, each) 45 74.5 74.5 22.5 38.1 38.1 19 20 20 S6` RELY ON RUUD.'" Electrical Data RACD Series RELY ON RUUD.TM S7 ELECTRICAL DATA - RACDZS SERIES 090ACB 090ADB 090ACA 090ACG 090ADA 090ADC 09DAYA 090AYB 090AYC090ACF090ACH090ADF090ADG 090ACC 090ADH Unit Operating 187-253 187-253 414-506 414-506 517-633 517-633 17-633VoltageRange Volts 208/230 208/230 460 460 575 575 575 Phase 3 3 3 3 3 3 'o,..' 3 Hz 60 60 60 60 60 60 60 Minimum Circuit Ampacity 41 44 17 19 13 0 14 :0 14 Minimum Overcurrent 50 50 20 25 15X20 20ProtectionDeviceSizetoo Maximum Overcurrent*• 60 60 25 25 15 20 • 0 20ProtectionDeviceSize No. 1 1 1 1 1 1 1 o Volts 208/230 208/230 460 460 575 575 ;loose 575 Phase 3 3 3 3 3 3 RPM 3450 3450 3450 3450 3450 3450 450 EHP, Compressor 1 7 7 7 7 7 7 7 Amps (RLA), Comp. 1 25.3 25.3 9.6 9.6 7.1 7.1 7.1 Amps (LRA), Comp.1 184 184 84 84 60 60 60 o No. 2 2 2 2 2 2 2 Volts 208/230 208/230 460 460 575 575 575 m Phase 1 1 1 1 1 1 1 m HP 1/5 1/5 1/5 1/5 1/5 1/5 1/5 9 o Amps ( FLA, each) 1.2 1.2 0.8 0.8 0.6 0.6 0.6 GD Amps (LRA, each) 2.3 2.3 1.4 1.4 1.1 1.1 1.1 No. 1 1 1 1 1 1 1 C U. Volts 208/230 208/230 460 460 575 575 575 o is Phase 3 3 3 3 3 3 3 CL HP 2 3 2 3 2 3 3 LU Amps (FLA, each) 6.6 9.1 3.2 9.1 2.5 3.5 3.5 Amps (LRA, each) 22.5 74.5 22.5 38.1 19 20 20 RELY ON RUUD.TM S7 Electrical Data RACD Series 58 RELY ON RUUD.'" ELECTRICAL DATA - RACDZS SERIES 102ACA 102ACB 102ACC 102ADA 102ADB 102ADC 102ADH 102AYA 102AYB 102AYC102ACF102ACG102ACH102ADF102ADG Unit Operating 187-253 187-253 187-253 414-506 414-506 414-506 414-506 517-633 517-633 517-633VoltageRange Volts 208/230 208/230 208/230 460 460 460 460 575 575 575 Phase 3 3 3 3 3 1 3 3 3 3 Hz 60 60 60 60 60 60 60 0' • 60 60 E Minimum Circuit 46 48 51 21 22 24 24 011; W 17 Minimum Overcurrent 60 60 60 25 25 30 30 02;-- 20 • 20ProtectionDeviceSize Go Maximum Overcurrent 70 70 30 30 35 3570 t5 35 • • 25 • Protection Device Size No. 1 1 1 1 1 1 1 1 • 01 •; 1•• o Volts 208/230 208/230 208/230 460 460 460 460 75 575 575 " Phase 3 3 3 3 3 3 33 3 3 H RPM 3450 3450 3450 3450 3450 3450 3450 345Q 311" • • • 3450 HP, Compressor 1 71/2 71/2 71/2 71/2 71/2 71/2 71/2 Z T/2; 7 1 7 1/2• • cc Amps (RLA), Comp. 1 28.8 28.8 28.8 12.5 12.5 12.5 12.5 9.7 9J* • 9.7 Amps (LRA), Comp. 1 191 191 191 100 100 100 100 70 70 70 0 No. 2 2 2 2 2 2 2 2 2 2 B Volts 208/230 208/230 208/230 460 460 460 460 575 575 575 d Phase 1 1 1 1 1 1 1 1 1 1 HP 1/5 1/5 1/5 1/5 1/5 1/5 1/5 1/5 1/5 1/5 0 Amps (FLA, each) 1.2 1.2 1.2 0.8 0.8 0.8 0.8 0.6 0.6 0.6 Amps (LRA, each) 2.3 2.3 2.3 1.4 1.4 1.4 1.4 1.1 1.1 1.1 No. 1 1 1 1 1 1 1 1 1 1 Volts 208/230 208/230 208/230 460 460 460 460 575 575 575 o Phase 3 3 3 3 3 3 3 3 3 3 CL HP 2 3 3 2 3 3 3 2 3 3 W Amps (FLA, each) 7.1 9.1 12 3.5 9.1 9.1 12 2.5 3.5 3.5 Amps (LRA, each) 45 74.5 1 74.5 22.5 38.1 38.1 38.1 19 20 20 58 RELY ON RUUD.'" Electrical Data RACD Series RELY ON RUUD.TM 59 ELECTRICAL DATA - RACDZS SERIES 120ACA 120ACB 120ACC 120ADA 120ADB 120ADC 12CAYA 120AYB 120AYC120ACF120ACG120ACH120ADF120ADG120ADH Unit Operating Voltage Range 187-253 187-253 187-253 414-506 414-506 414-506 517-633 518-632 518-632 Volts 208/230 208/230 208/230 460 460 460 575 575 575 Phase 3 3 3 3 3 3 1 3 43• •.• 3 Hz 60 60 60 60 60 60 fel• • 60 60'F* 5 Minimum Circuit Ampacity 54 56 58 26 27 28 9.. • 20 Minimum Overcurrent 70 70 70 30 35 35 25' • • 25 • 25, Protection Device Size Maximum Overcurrent 80 80 90 40 40 40 Z9 • • 30- • • 34ProtectionDeviceSize No. 1 1 1 1 1 1 0.01 • 1'••• 0 Volts 208/230 208/230 208/230 460 460 460 0. 7 575 5AO Phase 3 3 3 3 3 3 3• • 3 3 ' RPM 3450 3450 3450 3450 3450 34503454 450• • • 34 CL HP, Compressor 1 10 10 10 10 10 10 1 ; 1 18• • • a0 Amps (RLA), Comp. 1 32.6 32.6 32.6 14.8 14.8 14.8 11.1 ij j • • 11.1 Amps (LRA), Comp. 1 240 240 240 130 130 130 93.7 93.7 93.7 o No. 2 2 2 2 2 2 2 2 2 Is Volts 208/230 208/230 208/230 460 460 460 575 575 575 m Phase 1 1 1 1 1 1 1 1 1 HP 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 1/3 e Amps (FLA, each) 2.4 2.4 2.4 1.4 1.4 1.4 1 1 1 Amps (LRA, each) 4.7 4.7 4.7 2.4 2.4 2.4 4.7 4.7 4.7 No. 1 1 1 1 1 1 1 1 1 U- dolts 208/230 208/230 208/230 460 460 460 575 575 575 R Phase 3 3 3 3 3 3 3 3 3 CL HP 2 3 3 2 3 3 2 3 3 W Amps (FLA, each) 7.9 10.1 12 3.9 5.1 6.0 2.5 3.5 3.5 Amps (LRA, each) 45 74.5 74.5 22.5 38.1 38.1 19 20 20 RELY ON RUUD.TM 59 Electrical Data RACD Series 60 RELY ON RUUD.'" ELECTRICAL DATA - RACDZS SERIES 150ACA 150ACB 150ACF 150ADA 150ADB 150AYA 150AYB150ACG150ADF150ADG Unit Operating Voltage Range 187-253 187-253 187-253 414-506 414-506 518-632 518-632 Volts 208/230 208/230 208/230 460 460 575• 675 Phase 3 3 3 3 3 3 3 E Hz 60 60 60 60 60 60 460 Minimum Circuit Ampacity 70 75 70 34 37 5 27 Minimum Overcurrent 80 90 80 40 40 30 30ProtectionDeviceSize Maximum Overcurrent 90 90 90 40 45 30 30ProtectionDeviceSize No. 2 2 2 2 2 2 2 Volts 208/230 208/230 208/230 460 460 675 575 o Phase 3 3 3 3 3 3 3 S RPM 3450 3450 3450 3450 3450 50 3450 • q HP, Compressor 1 6 6 6 6 6 6 6 m Amps (RLA), Comp. 1 22.4 22.4 22.4 10.6 10.6 7.7 7.7 E Amps (LRA), Comp. 1 164 164 164 100 100 78 78 HP, Compressor 2 0 0 0 0 0 0 0 Amps (RLA), Comp. 2 22.4 22.4 22.4 10.6 10.6 7.7 7.7 Amps (LRA), Comp. 2 164 164 164 100 100 78 78 o No. 2 2 2 2 2 2 2 Volts 208/230 208/230 208/230 460 460 575 575 m Phase 1 1 1 1 1 1 1 m HP 3/4 3/4 3/4 3/4 3/4 3/4 3/4 o Amps (FLA, each) 4.2 4.2 4.2 2.3 2.3 1.2 1.2 Amps (LRA, each) 10.1 10.1 10.1 4.9 4.9 No. 1 1 1 1 1 1 1 Volts 208/230 208/230 208/230 460 460 575 575 o Phase 3 3 3 3 3 3 3 o n HP 3 5 3 3 5 3 5 W Amps (FLA, each) 10.4 16 10.4 5.2 8 4.4 5.9 Amps (LRA, each) 74.5 82 74.5 38.1 41 20 38 60 RELY ON RUUD.'" Electrical Data RACD Series ELECTRICAL DATA - ACDZT SERIES 090ACF 090ACG 090ADF 090ADG 090ACH 090ADH Unit Operating 187-253 187-253 414-506 414-506VoltageRange Volts 208/230 208/230 460 , 46C Phase 3 3 3 E 0 Hz 60 60 60 •••+•• fi0 Minimum Circuit Ampacity 41 44 17 • + • • • • 21 Minimum Overcurrent 50 50 20ProtectionDeviceSize Maximum Overcurrent 60 60 25ProtectionDeviceSize as No. 1 1 1 o Volts 208/230 208/230 460 • • 460 Phase 3 3 3 • w RPM 3450 3450 3450 • • • 3460 a HP, Compressor 1 7 7 7 i 0 Amps (RLA), Comp.1 25.3 25.3 9.6 9.6 Amps (LRA), Comp.1 184 184 84 84 o No. 2 2 2 2 Z Volts 208/230 208/230 460 460 m Phase 1 1 1 1 HP 1/5 1/5 1/5 1/5 0 Amps (FLA, each) 1.2 1.2 0.8 0.8 Amps (LRA, each) 2.3 2.3 1.4 1.4 No. 1 1 1 1 i Volts 208/230 208/230 460 460 o is Phase 3 3 3 3 oCL HP 2 3 2 3 W Amps (FLA, each) 6.6 9.1 3.2 4.6 Amps (LRA, each) 22.5 74.5 22.5 38.1 Electrical Data RACD Series 62 F2ELY ON RUUD.'" ELECTRICAL DATA - ACDZT SERIES 102ACF 102ACG 102ACH 102ADF 102ADG 102ADH Unit Operating Voltage Range 187-253 187-253 187-253 414-506 414-506 414-506 Volts 208/230 208/230 208/230 460 460 460 Phase 3 3 3 3 3 3 E 0 Hz 60 60 60 60 60 NO Minimum Circuit Ampacity 46 48 51 21 22• 24 Minimum Overcurrent Protection Device Size 60 60 60 25 6 • • P5 30 Maximurrr_Overcurrent 70 70 70 30 ZO 35ProtectionDeviceSize No. 1 1 1 1 1 1 o Volts 208/230 208/230 208/230 460 60 60 Phase 3 3 3 3 3 3 w RPM 3450 3450 3450 3450 3410 3450 EHP, Compressor 1 71/2 71/2 71/2 71/2 71/2 Z 1/2 Amps (RLA), Comp. 1 28.8 28.8 28.8 12.5 145 12.5 Amps (LRA), Comp. 1 191 191 191 100 100 0100 0 No. 2 2 2 2 2 2 Volts 208/230 208/230 208/230 460 460 460 Phase 1 1 1 1 1 1 m HP 1/5 1/5 1/5 1/5 1/5 1/5 a o Amps (FLA, each) 1.2 1.2 1.2 0.8 0.8 0.8 Amps (LRA; each) 2.3 2.3 2.3 1.4 1.4 1.4 No. 1 1 1 1 1 1 Volts 208/230 208/230 208/230 460 460 460 a io Phase 3 3 3 3 3 3 n HP 2 3 3 2 3 3 au Amps (FLA, each) 7 9.1 12 3.5 4.6 6.0 Amps (LRA, each) 45 74.5 74.5 22.5 38.1 38.1 62 F2ELY ON RUUD.'" Electrical Data RACD Series RELY ON RUUD. "' 63 ELECTRICAL DATA - ACDZT SERIES 120ACF 120ACG 120ACH 120ADF 120ADG 120ADH Unit Operating 187-253 187-253 187-253 414-506 414-506 414-506VoltageRange Volts 208/230 208/230 208/230 460 460 460 Phase 3 3 3 3 3 3 E Hz 60 60 60 60 60 60 Minimum Circuit Ampacity 54 56 58 26 7 28 Minimum Overcurrent70 70 70 30 35 000* 35ProtectionDeviceSize Maximum Overcurrent - 80 80 90 r 40 40 40 •• •• Protection Device Size No. 1 1 1 1 1 1 ••• o Volts 208/230 208/230 208/230 460 460 460 " • • Phase 3 3 3 3 3 3 C, RPM 3450 3450 3450 3450 450 3450 ' CD E HP, Compressor 1 10 10 10 10 10 fee10 Amps (RLA), Comp. 1 32.6 32.6 32.6 14.8 14.8 14.8 • • • • Amps (LRA), Comp. 1 240 240 240 130 130 130 0 No. 2 2 2 2 2 2 o Volts 208/230 208/230 208/230 460 460 460 CD Phase 1 1 1 1 1 1 m HP 1/3 1/3 1/3 1/3 1/3 1/3 9 o Amps ( ) FLA, each 2.4 2.4 2.4 1.4 1.4 1.4 Amps (LRA, each) 4.7 4.7 4.7 2.4 2.4 2.4 No. 1 1 1 1 1 1 6 Volts 208/230 208/230 208/230 460 460 460 o is Phase 3 3 3 3 3 3 CL HP 2 3 3 2 3 3 W Amps (FLA, each) 7.9 10.1 12 3.9 5.1 6.0 Amps (LRA, each) 45 74.5 74.5 22.5 38.1 38.1 RELY ON RUUD. "' 63 Electrical Data RACD Series 64 RELY ON RUUO.TM ELECTRICAL DATA - ACDZT SERIES 150ACF 150ACG 150ADF 150ADG Unit Operating Voltage Range 187-253 187-253 414-506 414-506 Volts 208/230 208/230 460 460 Phase 3 3 3 3 E o Hz 60 60 60 • Y • •60• • Minimum Circuit Ampacity 70 75 39 • •' 3 Minimum Overcurrent 80 90 40""' 40• • Protection Device Size Maximum Overcurrent 90' 90 40 • • • • 45. ' Protection Device Size No. 2 2 2 Volts 208/230 208/230 460 •.0 460• o Phase 3 3 3 •• .. • 3 RPM 3450 3450 3450 • ' 34 0 C, HP, Compressor 1 6 6 6 • • V • m Amps (RLA), Comp. 1 22.4 22.4 10.6 • • 10.6 + • o Amps (LRA), Comp. 1 164 164 100 Tqp' HP, Compressor 2 0 0 0 0 Amps (RLA), Comp. 2 22.4 22.4 10.6 10.6 Amps (LRA), Comp. 2 164 164 100 100 o No. 2 2 2 2 Volts 208/230 208/230 460 460 m Phase 1 1 1 1 m HP 3/4 3/4 3/4 3/4 o Amps (FLA, each) 4.2 4.2 2.3 2.3 Cj Amps (LRA, each) 10.1 10.1 4.9 4.9 No. 1 1 1 1 i Volts 208/230 208/230 460 460 o is Phase 3 3 3 3 o a HP 3 5 3 5 W Amps (FLA, each) 10.4 16 5.2 8 Amps (LRA, each) 74.5 82 38.1 1 41 64 RELY ON RUUO.TM 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Hea tibr Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. CM. Over Current protective Device Size Min. Ckt.Max. Fuse Min. Circuit Over Current protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpaciryMin./Max Min./Max. Min./Max. Min./Max. RACOZ- Nominal kW Steps @ 208/240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V M = @ 208 V CS 240 V mM @ 208 V @ 240 V No Heat 41/41 50/60 50/60 41/41 50/60 50/60 OD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 41/41 50/50 50/60 26/30 30/30 41/41 50/60 50/60 R090ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 46/52 50/50 60/60 38/44 40/45 41/41 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 60/68 60/60 70/70 52/60 60/60 41/41 50/60 50/60 OD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/95 90/90 100/100 75/87 80/90 41/41 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 110/125 41/41 50/60 50/60 No Heat 43/43 50/60 50/60 43/43 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 43/43 50/50 50/60 26/30 30/30 43/43 50/60 50/60 R090ACB OD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 43/43 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70170 80/80 52/60 60/60 43/43 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 43/43 50/60 50/60DD40101, 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 43/43 50/60 50/60 No Heat 43/43 50/60 50/60 43/43 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 43/43 50/60 50/60 26/30 30/30 43/43 50/60 50/60 R090ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 43/43 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70170 80/80 52/60 60/60 43/43 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 43/43 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 1 110/125 43/43 50/60 50/60 No Heat 44/44 60/70 60/70 44/44 60/70 60/70DD10CP17.4/9.9 25.25/33.78 20.6/23.8 44/44 60/70 60/70 26/30 30/30 44/44 60/70 60/70 R102ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 47/53 60/70 60/70 38/44 40/45 44/44 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 61/69 70/70 70/70 52/60 60/60 44/44 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/96 90/90 100/100 75/87 80/90 44/44 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 1 82.5/95.2 112/128 125/125 150/150 104/119 110/125 44/44 60/70 60!70 No Heat 46/46 60/70 60/70 46/46 60/70 60170 OD10CP 1 7.4/9.9 7.4/9.9 20.6/23.8 46/46 60/70 60/70 26/30 30/30 46/46 60!70 60/70 R102ACB DD15CP 1 10.8/14.4 10.8/14.4 30.0/34.6 49/55 60/70 60/70 38/44 40/45 46/46 60/70 60/70 DD20CP 1 14.9/19.8 14.9/19.8 41.3/47.6 63/71 70/70 80/80 52/60 60/60 46/46 60/70 60/70 DD30CP 1 21.6/28.8 21.6/28.8 60.0/69.3 87/98 90/90 100/100 75/87 80/90 46/46 60/70 60/70DD40CP129.7/39.6 29.7/39.6 82.5/95.2 115/131 125/125 150/150 104/119 1 110/125 46/46 60/70 60/70 No Heat 49/49 60!70 60/70 49/49 60/70 60/70D010CP17.4/9.9 25.25/33.78 20.6/23.8 49/49 60/70 60/70 46/89 • 30430 42149 60/70 60/70 R102ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/70 60/70 38/44: 4)/4 ; 49/49 60/70 60/70DD20CP114.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60; 20/Er • 49/49 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75V • 80090 • 0/49 60/70 60/70 DD40CP 1 1 29.7/39.6 101.34/135.12 1 82.5/95.2 1 119/134 1 125/125 1 150/150 104/119 110/125 49/49 60/70 60/70 V —'Y' Vaca Iuaq IVF 1—U-1 VIFVUR. Field installed only. p m 04 M = mM N t 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Mode[ No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACDZ- Nominal kW Steps @ 208/240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V@208V@240V @ 208 V @ 240 V No Heat 48/48 60/70 60/70 48/48 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 48/48 60/60 60/60 26/30 30/30 48/48 60/70 60/70 R120ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 48/54 60/60 60/60 38/44 40/45 48/48 60!70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 62/70 70/70 70/70 52/60 60/60 48/48 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 85/97 90/90 100/100 75/87 80/90 48/48 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 1 82.5/95.2 113/129 125/125 150/150 104/119 110/125 48/48 60/70 60/70 No Heat 51/51 60/70 60/70 51/51 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 51/51 60/60 60/60 26/30 30/30 51/51 60!70 60/70 R120ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 51/56 60/60 60/60 38/44 40/45 51/51 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 65/73 70/70 80/80 52/60 60/60 51/51 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 51/51 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 116/132 125/125 150/150 104/119 1 110/125 51/51 60/70 60/70 No Heat 53/53 60/80 60/80 53/53 60/80 60/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 53/53 60/60 60/60 26/30 30/30 53/53 60/80 60/80 R120ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/60 60/60 38/44 40/45 53/53 60/80 60/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 60/60 53/53 60/80 60/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 53/53 60/80 60/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 110/125 1 53/53 60/80 60/80 No Heat 41/41 50/60 50/60 41/41 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 41/41 50/50 50/50 26/30 30/30 41/41 50/60 50/60 S090ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 46/52 50/50 60/60 38/44 40/45 41/41 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 60/68 60/60 70/70 52/60 60/60 41/41 50/60 50/60 OD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/95 90/90 100/100 75/87 80/90 41/41 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 1 110/125 41/41 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 S090ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63171 70/70 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 1 82.5/95.2 115/131 125/125 150/150 104/119 110/125 44/44 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 S090ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 88/14+ 9 4 40445 • Q4(44 50/60 50/60DD20CP114.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60: 6D ; X44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 J5/8T 80/96 • 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 115/131 1 125/125 1 150/150 0104/4 *go 110 45 • 4?/44 1 50/60 50/60 wiiauwn use urny. uses r uses Tor inuucnve circuix. Field installed only. 0.0 MM 04 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACDZ- Nominal kW Steps 0 208/240 V 4i? 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V@208V0240V @ 208 V 4i? 240 V No Heat 41/41 50/60 50/60 41/41 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 41/41 50/50 50/50 26/30 30/30 41/41 50/60 50/60 S090ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 46/52 50/50 60/60 38/44 40/45 41/41 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 60/68 60/60 70/70 52/60 60/60 41/41 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/95 90/90 100/100 75/87 80/90 41/41 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 1 110/125 41/41 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 S090ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 1 44/44 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 S090ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70170 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 44/44 50/60 50/60 No Heat 46/46 60/70 60/70 46/46 60/70 60/70 D010CP 1 7.4/9.9 25.25/33.78 20.6/23.8 46/46 60/60 60/60 26/30 30/30 46/46 60/70 60RO S102ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 47/52 60/60 60/60 38/44 40/45 46/46 60/70 60170 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 61/69 70/70 70!10 52/60 60/60 46/46 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/96 90/90 100/100 75/87 80/90 46/46 60/70 60170 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 1 110/125 46/46 60/70 60/70 No Heat 48/48 60110 60/70 48/48 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 48/48 60/60 60/60 26/30 30/30 48/48 60/70 60170 S102ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 60/60 60/60 38/44 40/45 48/48 60/70 60/70 D020CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 48/48 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 48/48 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 48/48 60/70 60/70 No Heat 51/51 60170 60/70 51/51 60170 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 51/51 60/60 60/60 1!6/80 • 30/30 • 5'W51 60/70 60170 S102ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/60 60/60 38/44: 0/,Z ; 61/51 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70!70 80/80 T/OQ • • 61/51 60/70 60/70 D030CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 100/110 92/66 75/6T • 80090: 0/51 60/70 60/70 D040CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 119/134 1 125/125 1 150/150 104/119 110/125 51/51 1 60/70 1 60/70 t -or uanadian use omy. uses -P- ruses for inductive circuit. Field installed only. Tom MN 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampactly Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACOZ- Nominal kW Steps @ 2081240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 VCud208V@240V @ 208 V @ 240 V No Heat 46/46 60/70 60/70 46/46 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 46/46 60/60 60/60 26/30 30/30 46/46 60/70 60/70 S102ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 47/53 60/60 60/60 38/44 40/45 46/46 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 61/69 70/70 70/70 52/60 60/60 46/46 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/96 90/90 100/100 75/87 80/90 46/46 60!70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 110/125 46/46 60!70 60/70 No Heat 48/48 60!70 60/70 48/48 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 48/48 60/60 60/60 26/30 30/30 48/48 60/70 60/70 S102ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 60/60 60/60 38/44 40/45 48/48 60/70 60/70 D020CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70170 80/80 52/60 60/60 48/48 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 48/48 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 48/48 60170 60/70 No Heat 51/51 60!70 60/70 51/51 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 51/51 60/60 60/60 26/30 30/30 51/51 60/70 60/70 S102ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/60 60/60 38/44 40/45 51/51 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70!70 80/80 52/60 60/60 51/51 60/70 6080 OD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 51/51 60/70 60170 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 1 110/125 51/51 60!70 60/70 No Heat 54/54 70/80 70/80 54/54 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 54/54 70/70 70/70 26/30 30/30 54/54 70/80 70/80 S120ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 54/54 70170 70/70 38/44 40/45 54/54 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 62/70 70/70 70/70 52/60 60/60 54/54 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 85/97 90/90 100/100 75/87 80/90 54/54 70/80 70/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 113/129 125/125 150/150 104/119 110/125 1 54/54 70/80 70/80 No Heat 56/56 70/80 70/80 56/56 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 56/56 70/70 70/70 26/30 30/30 56/56 70/80 70/80 S120ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 56/56 70/70 70/70 38/44 40/45 56/56 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 65173 70170 80/80 52/60 60/60 56/56 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 56/56 70/80 70/80 OD40CP 1 29.7/39.6 101.34/135.12 1 82.5/95.2 116/132 125/125 150/150 104/119 1 110/125 56/56 70/80 70/80 No Heat 58/58 70/90 70/90 58/58 70/90 70/90 D010CP 1 7.4/9.9 25.25/33.78 20.6/23.8 58/58 70/70 70/70 26/30 30/30 58/58 70/90 70/90 S120ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 58/59 70170 70170 38/449 40/.45 58 70/90 70/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67175 70170 80/80 52/60 ; 8Q/6Q 58/58 70/90 70/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 8 • 80/3 • . 68/58 70/90 70/90 D040CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 e-&/419 11bp25 : M58 1 70/90 1 70/90 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. M m off M_ MN 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Neater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeHealerKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACDZ Nominal kW Steps @ 208/240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V M_ @ 208 V @ 240 V M @ 208 V @ 240 V No Heat 54/54 70/80 70/80 54/54 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 54/54 70/70 70/70 26/30 30/30 54/54 70/80 70/80 S120ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 54/54 70/70 70/70 38/44 40/45 54/54 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 62/70 700 70/70 52/60 60/60 54/54 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 85/97 90/90 100/100 75/87 80/90 54/54 70/80 70/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 113/129 125/125 150/150 104/119 110/125 54/54 70/80 70/80 No Heat 56/56 70/80 70/80 56/56 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 56/56 700 70/70 26/30 30/30 56/56 70/80 70/80 S120ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 56/56 700 70/70 38/44 40/45 56/56 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 65/73 70/70 80/80 52/60 60/60 56/56 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 56/56 70/80 70/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 116/132 125/125 150/150 104/119 110/125 56/56 70/80 70/80 No Heat 58/58 70/90 70/90 58/58 70/90 70/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 58/58 70/70 70/70 26/30 30/30 58/58 70/90 70/90 S120ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 58/59 70/70 70/70 38/44 40/45 58/58 70/90 70/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 60/60 58/58 70/90 70/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 58/58 70/90 70/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 1 110/125 58/58 70/90 70/90 No Heat 70/70 80/90 80/90 70/70 80/90 80/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 70/70 80/90 80/90 26/30 30/30 70/70 80/90 80/90 S150ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 70/70 80/90 80/90 38/44 40/45 70/70 80/90 80/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 70/73 80/90 80/90 52/60 60/60 70/70 80/90 80/90 OD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 70/70 80/90 80/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 117/132 125/125 150/150 104/119 110/125 1 70/70 80/90 80/90 No Heat 75/75 90/90 90/90 75/75 90/90 90/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 75/75 90/90 90/90 26/30 30/30 75/75 90/90 90/90 S150ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 75/75 90/90 90/90 38/44 40/45 75/75 90/90 90/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 75/80 90/90 90/90 52/60 60/60 75/75 90/90 90/90 OD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 95/107 100/100 110/110 75/87 80/90 75/75 90/90 90/90 D040CP 1 29.7/39.6 101.34/135.12 1 82.5/95.2 124/139 125/125 150/150 104/119 110/125 75/75 90/90 90/90 No Heat 70/70 80/90 80/90 70/70 80/90 80/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 70/70 80/90 80/90 26/30•• 30/30 • 7,PQ0 80/90 80/90 S150ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 70/70 80/90 80/90 38/44 • 4Q/41 • 70/70 80/90 80/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 70173 80/90 80/90 2/60• 60/68 10/70 80/90 80/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 Y5/8,7• • 8110 • OM 80/90 80/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 117/132 1 125/125 1 150/150 104/119 110/125 70/70 80/90 80/90 For Canadian use only. Uses "P" fuses for inductive circuit. I + = Field installed only. o. i ) M_ M N Or 7 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJ4- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACOZ- Nominal kW Steps @ 208/240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V@208V@240V 208 V @ 240 V No Heat 75/75 90/90 90/90 75/75 90/90 90/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 75175 90/90 90/90 26/30 30/30 75/75 90/90 90/90 S150ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 75/75 90/90 90/90 38/44 40/45 75!75 90/90 90/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 75/80 90/90 90/90 52/60 60/60 75/75 90/90 90/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 95/107 100/100 110/110 75/87 80/90 75/75 90/90 90/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 124/139 125/125 150/150 104/119 1 110/125 75/75 90/90 90/90 No Heat 41/41 50/60 50/60 41/41 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 41/41 50/50 50/50 26/30 30/30 41/41 50/60 50/60 T090ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 46/52 50/50 60/60 38/44 40/45 41/41 50/60 50/60 D020CP 1 14.9/19.8 50.84/67.56 41.3/47.6 60/68 60/60 70/70 52/60 60/60 41/41 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/95 90/90 100/100 75/87 80/90 41/41 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 110/125 41/41 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 T090ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70170 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 1 62.5/95.2 115/131 125/125 150/150 104/119 1 110/125 44/44 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 T090ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 1 44/44 50/60 50/60 No Heat 46/46 60/70 60/70 46/46 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 46/46 60/60 60/60 26/30 30/30 46/46 60/70 60/70 T102ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 47/52 60/60 60/60 38/44 40/45 46/46 60/70 6080 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 61/69 70/70 70/70 52/60 60/60 46/46 60/70 60/70DD30CP121.6/28.8 73.70/98.27 60.0/69.3 84/96 90/90 100/100 75/87 80/90 46/46 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 110/125 46/46 60/70 60/7,0 No Heat 48/48 60/70 60/70 48/48 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 48/48 60/60 60/60 26/30 30/30 48/48 60170 60/70 T102ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 60/60 60/60 3814A•. 49/45 • 48/48 60170 60170 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70170 80/80 52/60; • 60/f0 0 • 48/48 60170 60170 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75W. • 80/60: •: 48/48 60/70 60/70DD40CP129.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 10411,11 i102C ; 48/48 1 60/70 60/70 1-1 1 VIIIY. W— r lUb= IVi 11 IUVVLIVW U1rUU11. Field installed only. 8m 0 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model R)(,iJ. No. of Rated Heater Heater Unit Min. Ckt. pOver Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACDZ- Nominal kW Steps @ 208/240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V@208VCSP240V @ 208 V @ 240 V No Heat 51/51 60/70 60/70 51/51 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 51/51 60/60 60/60 26/30 30/30 51/51 60/70 60/70 T102ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/60 60/60 38/44 40/45 51/51 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 60/60 51/51 60/70 60170 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 51/51 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 1 110/125 51/51 60/70 60/70 No Heat 54/54 70/80 70/80 54/54 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 54/54 70170 70/70 26/30 30/30 54/54 70/80 70/80 T120ACF OD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 54/54 70170 70/70 38/44 40/45 54/54 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 62/70 70/70 70/70 52/60 60/60 54/54 70/80 70/80 D030CP 1 21.6/28.8 73.70/98.27 60.0/69.3 85/97 90/90 100/100 75/87 80/90 54/54 70/80 70/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 113/129 125/125 150/150 104/119 110/125 1 54/54 70/80 70/80 No Heat 56/56 70/80 70/80 56/56 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 56/56 70!70 70/70 26/30 30/30 56/56 70/80 70/80 T120ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 56/56 70170 70/70 38/44 40/45 56/56 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 65/73 70f70 80/80 52/60 60/60 56/56 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 56/56 70/80 70/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 116/132 125/125 150/150 104/119 110/125 56/56 70/80 70/80 No Heat 58/58 70/90 70/90 58/58 70/90 70/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 58/58 70/70 70170 26/30 30/30 58/58 70/90 70/90 T120ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 58/59 70/70 70/70 38/44 40/45 58/58 70/90 70/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 60/60 58/58 70/90 70/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 58/58 70/90 70/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 1 110/125 58/58 70/90 70/90 NONE 70/70 90/90 90/90 70/70 80/90 80/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 70/70 90/90 90/90 26/30 30/30 70/70 80/90 80/90 150ACF DD15CP 1 9.0/14.4 36.85/49.13 30.0/34.6 70/70 90/90 90/90 38/44 40/45 70/70 80/90 80/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 70/73 90/90 90/90 52/60 60/60 70/70 80/90 80/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/100 90/100 75/87 80/90 70/70 80/90 80/90 DD40CP 1 29.7/39.6 101.34/135.12 1 82.5/95.2 117/132 125/150 125/150 104/119 110/125 70/70 80/90 80/90 NONE 75f75 90/90 90/90 75/75 90/90 90/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 75/75 90/90 90/90 2W30. • 30/30 • . 7,5/75 90/90 90/90 150ACG DD15CP 1 9.0/14.4 36.85/49.13 30.0/34.6 75/75 90/90 90/90 38/44 • 40,25; ; 75/75 90/90 90/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 75/80 90/90 90/90 0 • 52/0(t : 0 060ffiO • e 75/75 90/90 90/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 95/107 100/110 100/110 73/0 8090 • • 75/75 90/90 90/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 124/139 1 125/150 1 125/150 104/119 1 110/125 75/75 1 90/90 90/10 For Canadian use only. Uses "P" fuses for Inductive circuit. Field installed only. M m o4 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps @ 480 V CSD 480 V @ 480 V @ 480 V 480 V 480 V 480 V @ 480 V @ 480 V @ 480 V @ 480 V No Heat 21 25/30 21 25/30 DD10DNV 1 9.9 33.78 11.9 21 25/25 15 15 21 25/30 R090AOA DD15DNV 1 14.4 49.13 17.3 26 30/30 22 25 21 25/30 DD20DNV 1 19.8 67.56 23.8 34 35/35 30 30 21 25/30 DD300NV 1 28.8 98.27 34.6 48 50/50 44 45 21 25/30 DD40DNV 1 39.6 135.12 1 47.6 64 70!70 60 1 60 21 25/30 No Heat 23 30/35 23 30/35 DD10DNV 1 9.9 33.78 11.9 23 30/30 15 15 23 30/35 R090A0B D015DNV 1 14.4 49.13 17.3 28 30/30 22 25 23 30/35 DD20DNV 1 19.8 67.56 23.8 36 40/40 30 30 23 30/35 DD30DNV 1 28.8 98.27 34.6 49 50/50 44 45 23 30/35 DD400NV 1 39.6 135.12 47.6 1 66 70/70 60 60 1 23 30/35 No Heat 23 30/35 23 30/35 DD10DNV 1 9.9 33.78 11.9 23 30/30 15 15 23 30/35 R090ADC DD150NV 1 14.4 49.13 17.3 28 30/30 22 25 23 30/35 DD20DNV 1 19.8 67.56 23.8 36 40/40 30 30 23 30/35 DD30DNV 1 28.8 98.27 34.6 49 50/50 44 45 23 30/35 D040DNV 1 39.6 135.12 1 47.6 66 70170 60 60 23 30/35 No Heat 22 25/30 22 25/30 DD10CP 1 36.2 123.52 45.6 62 70/70 57 60 22 25/30 R102AOA DD15CP 1 52.8 180.16 66.3 88 90/90 83 90 22 25/30 DD20CP 1 72.9 248.75 91.3 119 125/125 115 125 22 25/30 DD30CP 1 105.6 360.32 132.7 171 175/175 166 175 22 25/30 DD40CP 1 145.3 495.78 182.5 233 250250 229 1 250 22 25/30 No Heat 23 30/35 23 30/35 DD10CP 1 36.2 123.52 45.6 63 70170 57 60 23 30/35 R102ADB DD15CP 1 52.8 180.16 66.3 89 90/90 83 90 23 30/35 D020CP 1 72.9 248.75 91.3 120 125/125 115 125 23 30/35 DD30CP 1 105.6 360.32 132.7 172 175/175 166 175 23 30/35 DD40CP 1 145.3 495.78 1 182.5 234 250250 229 250 23 30/35 No Heat 24 30/35 24 30/35 DD10CP 1 36.2 123.52 45.6 65 70/70 57 60 24 30/35 R102ADC DD15CP 1 52.8 180.16 66.3 91 100/100 00 • 24 30/35 DD20CP 1 72.9 248.75 91.3 122 125/125 115: ' 1?: ; 24 30/35 DD30CP 1 105.6 360.32 132.7 174 175/175 168; 1a6 • 24 30/35 DD40CP 1 145.3 495.78 182.5 236 250250 2429 • 00 . . X24 1 30/35 1 - ror t anaaian use orny. uses --V'- ruses ror inouctrve circuit. Field installed only. 1, 7p m 0$ U) n 3 _ N e m 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner ModelOver No. RXJJ- No. of Rated Heater Neater Unit Min. Ckt. Current protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current protective Device SizeHealerKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps @ 480 V @ 480 V @ 480 V @ 480 V 480 V 480 V 480 V m @ 480 V @ 480 V 0:0 •• @ 480 V @ 480 V No Heat 26 30/35 26 30/35 DD10DNV 1 9.9 33.78 11.9 26 30/30 15 15 26 30/35 R120ADA DDI5DNV 1 14.4 49.13 17.3 27 30/30 22 25 26 30/35 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 26 30/35 DD30DNV 1 28.8 98.27 34.6 49 50/50 44 45 26 30/35 DD40ONV 1 39.6 135.12 1 47.6 65 70!70 60 60 26 30/35 No Heat 27 30/40 27 30/40 DDIODNV 1 9.9 33.78 11.9 27 30/30 15 15 27 30/40 R120ADB DDI5DNV 1 14.4 49.13 17.3 28 30/30 22 25 27 30/40 DD20DNV 1 19.8 67.56 23.8 36 40/40 30 30 27 30/40 DD30DNV 1 25.8 98.27 34.6 50 50/50 44 45 27 30/40 DD40DNV 1 39.6 135.12 47.6 66 70/70 60 60 27 30/40 No Heat 28 35/40 28 35/40 DD10ONV 1 9.9 33.78 11.9 28 35/35 15 15 28 35/40 R120ADC DDI5DNV 1 14.4 49.13 17.3 30 35/35 22 25 28 35/40 DD20DNV 1 19.8 67.56 23.8 38 40/40 30 30 28 35/40 DD30DNV 1 28.8 98.27 34.6 51 60/60 44 45 28 35/40 DD40DNV 1 39.6 135.12 1 47.6 67 70!70 60 1 60 28 35/40 No Heat 17 20/25 17 20/25 DD10DNV 1 9.9 33.78 11.9 19 20/20 15 15 17 20/25 S090ADA DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 17 20/25 DD20DNV 1 19.8 67.56 23.8 34 35/35 30 30 17 20/25 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 17 20/25 D040DNV 1 39.6 135.12 47.6 64 70/70 60 60 1 17 20/25 No Heat 19 25/25 19 25/25 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 19 25/25 S090ADB DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 19 25/25DD20DNV119.8 67.56 23.8 42 45/45 30 30 19 25/25 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 19 25/25 DD40DNV 1 39.6 135.12 1 47.6 71 80/80 60 1 60 19 25/25 No Heat 19 25/25 19 25/25 DDI ODNV 1 9.9 33.78 11,9 27 30/30 50 • • 15 • • 19 25/25 S090ADC DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 : ' 2S ; ; 19 25/25 DD20DNV 1 19.8 67.56 23.8 42 45/45 30; 3p • 19 25/25 DD30DNV 1 28.8 98.27 34.6 55 60/60 0 • 45 • • 19 25/25 DD40DNV 1 1 39.6 1 135.12 47.6 1 71 80/80 1 60 60 19 25/25 1 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. m 000 to . M_ m N 0:0 •• 7 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current protective Device SizeHealerKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps @ 480 V @ 480 V @ 480 V @ 480 V 480 V 480 V 480 V@480V@480V @480V @480V No Heat 17 20/25 17 20/25 DD10DNV 1 9.9 33.78 11.9 19 20/20 15 15 17 20/25 S090ADF DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 17 20/25 DD20DNV 1 19.8 67.56 23.8 34 35/35 30 30 17 20/25 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 17 20/25 DD40DNV 1 39.6 135.12 1 47.6 64 70/70 60 1 60 17 20/25 No Heat 19 25/25 19 25/25 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 19 25/25 S090ADG DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 19 25/25 DD20ONV 1 19.8 67.56 23.8 42 45/45 30 30 19 25/25 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 19 25/25 OD40DNV 1 39.6 135.12 47.6 71 80/80 60 60 1 19 25/25 No Heat 19 25/25 19 25/25 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 19 25/25 S090ADH DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 19 25/25 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 19 25/25 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 19 25/25 DD40ONV 1 39.6 135.12 1 47.6 71 80/80 60 1 60 19 25/25 No Heat 21 25/30 21 25/30 DD10DNV 1 9.9 33.78 11.9 21 25/25 15 15 21 25/30 S102ADA DDI50NV 1 14.4 49.13 17.3 26 30/30 22 25 21 25/30 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 21 25/30 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 21 25/30 DD40DNV 1 39.6 135.12 47.6 64 700 60 60 21 25/30 No Heat 22 25/30 22 25/30 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 22 25/30 S102ADB DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 22 25/30 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 22 25/30 OD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 22 25/30 DD40DNV 1 39.6 135.12 1 47.6 71 80/80 60 60 22 25/30 No Heat 24 30/35 24 30/35 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 24 30/35 S102ADC DDI5DNV 1 14.4 49.13 17.3 33 35/35 WQ• • • 25 • 24 30/35DD20DNV119.8 67.56 23.8 42 45/45 30 ; ' 32 ; 24 30/35 DD30DNV 1 28.8 98.27 34.6 55 60/60 44-: 46 • 24 30/35 DD40DNV 1 1 1 39.6 1 135.12 47.6 1 71 1 80/80 1 190 68 • • 24 1 30/35 1 - For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. t ••• U) MyN y WN 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply Fpr Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. pOver Current rotective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps @ 480 V @ 480 V @ 480 V @ 480 V 480 V 480 V 480 V M 2 480 V @ 480 V @ 480 V @ 480 V No Heat 21 25/30 21 25/30 D01ODNV 1 9.9 33.78 11.9 21 25/25 15 15 21 25/30 S102ADF DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 21 25/30 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 21 25/30 DD30ONV 1 28.8 98.27 34.6 48 50/50 44 45 21 25/30 DD40DNV 1 39.6 135.12 1 47.6 64 70/70 60 1 60 21 25/30 No Heat 22 25/30 22 25/30 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 22 25/30 S102ADG DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 22 25/30 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 22 25/30 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 22 25/30 DD400NV 1 39.6 135.12 47.6 71 80/80 60 60 22 25/30 No Heat 24 30/35 24 30/35 DDlODNV 1 9.9 33.78 11.9 30 30/35 15 15 24 30/35 S102ADH DDI5DNV 1 14.4 49.13 17.3 37 40/40 22 25 24 30/35 DD20DNV 1 19.8 67.56 23.8 45 45/50 30 30 24 30/35 DD30DNV 1 28.8 98.27 34.6 59 60/60 44 45 24 30/35 DD40DNV 1 39.6 135.12 1 47.6 75 80/80 60 60 24 30/35 No Heat 26 30/40 26 30/40 DD10DNV 1 9.9 33.78 11.9 26 30/30 15 15 26 30/40 S120ADA DDI5DNV 1 14.4 49.13 17.3 27 30/30 22 25 26 30/40 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 26 30/40 D030DNV 1 28.8 98.27 34.6 49 50/50 44 45 26 30/40 D040DNV 1 39.6 135.12 47.6 1 65 70/70 60 60 26 30/40 1 - No Heat 27 35/40 27 35/40 DD10DNV 1 9.9 33.78 11.9 27 35/40 15 15 27 35/40 S120ADB DDI5DNV 1 14.4 49.13 17.3 28 35/40 22 25 27 35/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 27 35/40 OD30DNV 1 28.8 98.27 34.6 50 50/50 44 45 27 35/40 DD40DNV 1 39.6 135.12 1 47.6 66 60/70 60 1 60 27 35/40 No Heat 28 35/40 28 35/40 DD10DNV 1 9.9 33.78 11.9 28 35/40 14• • • 45 • 28 35/40 S120ADC DDI5DNV 1 14.4 49.13 17.3 30 35/40 22 ; ' 2`; ; 28 35/40 DD20DNV 1 19.8 67.56 23.8 38 40/40 30• • • 3Q • • 28 35/40 DD30DNV 1 28.8 98.27 34.6 51 60/60 44• e 45 : 28 35/40 DD40DNV 1 1 1 39.6 1 135.12 47.6 1 67 1 70170 1 60 60 28 1 35/40 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. 000 0 • M tem cn M 2 C m N i A 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. Rte- No. of Rated Heater Heater Unit Min. Cid. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeHealerKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max 1 9in./IVlax. Min./MaxRACDZ- Nominal kW Steps 0 480 V @ 480 V @ 480 V @ 480 V 480 V 480 V 48p V@480V@480V 6 480 V 6 480 V No Heat 26 30/40 26 30/40 DDIODNV 1 9.9 33.78 11.9 26 30/30 15 15 26 30/40 S120ADF DDI5DNV 1 14.4 49.13 17.3 27 30/30 22 25 26 30/40 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 26 30/40 DD30DNV 1 28.8 98.27 34.6 49 50/50 44 45 26 30/40 DD40DNV 1 39.6 135.12 47.6 65 70!70 60 60 26 30/40 No Heat 27 35/40 27 35/40 DD100NV 1 9.9 33.78 11.9 27 35/40 15 15 27 35/40 S120ADG DDI5DNV 1 14.4 49.13 17.3 28 35/40 22 25 27 35/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 27 35/40 DD30DNV 1 28.8 98.27 34.6 50 50/50 44 45 27 35/40 DD40DNV 1 39.6 135.12 1 47.6 70 70/70 60 60 27 35/40 No Heat 28 35/40 28 35/40 DDIODNV 1 9.9 33.78 11.9 28 35/40 15 15 28 35/40 S120ADH DDI5DNV 1 14.4 49.13 17.3 30 35/40 22 25 28 35/40 DD20DNV 1 19.8 67.56 23.8 38 40/40 30 30 28 35/40 DD30DNV 1 28.8 98.27 34.6 51 60/60 44 45 28 35/40 DD40DNV 1 39.6 135.12 47.6 67 70/70 60 1 60 28 35/40 No Heat 34 40140 34 40/40 DDIODNV 1 9.9 33.78 11.9 34 40/40 15 15 34 40/40 S150ADA DD150NV 1 14.4 49.13 17.3 34 40/40 22 25 34 40/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 34 40/40 DD300NV 1 28.8 98.27 34.6 50 50/50 44 45 34 40/40 DD40DNV 1 39.6 135.12 1 47.6 66 70/70 60 60 1 34 40140 No Heat 37 40/45 37 40/45 DDIODNV 1 9.9 33.78 11.9 37 40/45 15 15 37 40/45 S150ADB DDI5DNV 1 14.4 49.13 17.3 37 40/45 22 25 37 40/45 DD20DNV 1 19.8 67.56 23.8 40 40/45 30 30 37 40/45 DD30DNV 1 28.8 98.27 34.6 54 60/60 44 45 37 40/45 DD40DNV 1 39.6 135.12 47.6 70 70/70 60 1 60 37 40/45 No Heat 34 40/40 34 40/40 DDIODNV 1 9.9 33.78 11.9 34 40/40 15 15 34 40/40 S150ADF DDI5DNV 1 14.4 49.13 17.3 34 40140 22• • • 25r • 34 • • 40/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 t 3Q ; 4; 40/40 DD30DNV 1 28.8 98.27 34.6 50 50/50 44' 41 34 • 40/40 DD40DNV 1 1 1 39.6 1 135.12 1 47.6 1 66 1 70/70 1 - I 90• • 0 • a84• • 40/40 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. M m o4 u) n NU) to N 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Heater Kit Air Conditioner Heater Kit Air Conditioner Unit Model Rte- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps @ 480 V @ 480 V @ 480 V @ 480 V 480 V 480 V 480 V@480V@480V @ 480 V @ 480 V No Heat 37 40/45 37 40/45 DD10DNV 1 9.9 33.78 11.9 37 40/45 15 15 37 40/45 S150ADG DD150NV 1 14.4 49.13 17.3 37 40/45 22 25 37 40/45 DD20DNV 1 19.8 67.56 23.8 40 40/45 30 30 37 40/45 DD30DNV 1 28.8 98.27 34.6 54 60/60 44 45 37 40/45 DD40DNV 1 39.6 135.12 1 47.6 70 70/70 60 1 60 37 40/45 No Heat 17 20/25 21 20/25 DDIODNV 1 9.9 33.78 11.9 19 20/25 15 15 21 20/25 T090ADF DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 21 20/25 DD20DNV 1 19.8 67.56 23.8 34 35/35 30 30 21 20/25 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 21 20/25 DD40DNV 1 39.6 135.12 47.6 64 70170 60 60 1 21 20/25 No Heat 21 30/30 21 30/30 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 21 30/30 T090ADG DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 21 30/30 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 21 30/30 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 21 30/30 DD40DNV 1 39.6 135.12 1 47.6 71 80/80 60 60 21 30/30 No Heat 21 30/30 21 30/30 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 21 30/30 T090ADH DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 21 30/30 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 21 30/30 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 21 30/30 DD40DNV 1 39.6 135.12 47.6 71 80/80 60 60 21 30/30 No Heat 21 25/30 21 25/30 DD10DNV 1 9.9 33.78 11.9 21 25/25 15 15 21 25/30 T102ADF DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 21 25/30 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 21 25/30 D030DNV 1 28.8 98.27 34.6 48 50/50 44 45 21 25/30 DD40DNV 1 39.6 135.12 1 47.6 64 70/70 60 60 21 25/30 No Heat 22 30/35 22 30/35 DDI ODNV 1 9.9 33.78 11.9 27 30/30 15• • • 15+ • 4122 • • 30/35 T102ADG DDI5DNV 1 14.4 49.13 17.3 33 35/35 21 i •1& : 12: 30/35 DD20DNV 1 19.8 67.56 23.8 42 45/45 300. 0 : :31 2 ' • 30/35 DD30DNV 1 28.8 98.27 34.6 55 60/60 A* 49, 220• 30/35 DD40DNV 1 1 1 39.6 135.12 47.6 1 71 1 80/80 1 60 60 22 1 30/35 1 - For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. O Nom' M = mMyN ,y 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Cid. Max. Fuse Min. Circuit Over Current Protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACOZ- Nominal kW Steps @ 480 V @ 480 V @ 480 V @ 480 V 480 V 480 V 480 V480V@480V Cs 480 V @ 480 V No Heat 24 30/35 24 30/35 DD10DNV 1 9.9 33.78 11.9 24 30/35 15 15 24 30/35 T102ADH DDI5DNV 1 14.4 49.13 17.3 30 30/35 22 25 24 30/35 DD20DNV 1 19.8 67.56 23.8 38 40/40 30 30 24 30/35 DD30DNV 1 28.8 98.27 34.6 51 60/60 44 45 24 30/35 DD40DNV 1 39.6 135.12 1 47.6 67 70170 60 60 24 30/35 No Heat 26 30/40 26 30/40 DD10DNV 1 9.9 33.78 11.9 26 30/30 15 15 26 30/40 T120ADF DDI5DNV 1 14.4 49.13 17.3 27 30/30 22 25 26 30/40 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 26 30/40 DD30DNV 1 28.8 98.27 34.6 49 50/50 44 45 26 30/40 DD40DNV 1 39.6 135.12 47.6 65 70170 60 60 26 30/40 No Heat 27 35/40 27 35/40 D01ODNV 1 9.9 33.78 11.9 27 35/40 15 15 Li 35/40 T120ADG DDI5DNV 1 14.4 49.13 17.3 28 35/40 22 25 27 35/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 27 35/40 DD30DNV 1 28.8 98.27 34.6 50 50/50 44 45 27 35/40 DD40DNV 1 39.6 135.12 1 47.6 70 70170 60 60 27 35/40 No Heat 28 35/40 25 35/40 DD10DNV 1 9.9 33.78 11.9 28 35/40 15 15 25 35/40 T120ADH DDI5DNV 1 14.4 49.13 17.3 30 35/40 22 25 25 35/40 DD20DNV 1 19.8 67.56 23.8 38 40/40 30 30 25 35/40 DD30DNV 1 28.8 98.27 34.6 51 60/60 44 45 25 35/40 DD40DNV 1 39.6 135.12 47.6 67 70/70 60 60 25 35/40 No Heat 34 40/40 35 40/40 DD10DNV 1 9.9 33.78 11.9 34 40/40 15 15 35 40/40 T150ADF DD15DNV 1 14.4 49.13 17.3 34 40140 22 25 35 40140 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 35 40/40 DD30DNV 1 28.8 98.27 34.6 50 50/50 44 45 35 40/40 DD40DNV 1 39.6 135.12 1 47.6 66 70/70 60 60 35 40/40 No Heat 37 40/45 37 40/45 D01ODNV 1 9.9 33.78 11.9 37 40/45 15 15 37 40/45 T150ADG DDI5DNV 1 14.4 49.13 17.3 37 40/45 2j • • • 0259 • 87 • • 40/45 DD20DNV 1 19.8 67.56 23.8 40 40/45 3Q 10: : 17: 40/45 DD30DNV 1 28.8 98.27 34.6 54 60/60 44' • 4E' ; 7 ' • 40/45 DD40DNV I 1 1 39.6 135.12 47.6 1 70 1 70/70 1 I 60• 080 43700 40/45 1 - For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. p m c. 8 U) M= MNn N CONTROLACCESS SERVICE DISCONNECT KNOCKOUT ACCESS PANEL COMPRESSOR - FILTER ACCESS PANEL INDOOR COIL ACCESS PANEL 5771e" 1470 mm] 89" 2261 mm) 1•• 190MODEL i%ffmm] 0900Ti" 120 OMQDELS L- RETURN COVER DRAIN PAN SUPPLY COVER ACCESS PANEL BLOWER ACCESS PANEL HEAT EXCHANGER FF . 3314 SERVICE —jI O •••' 1 2289 mm] 1511 nnnn] Designates Dimensional Data RACD Series 0000•• 0000 • 0000 0000•• 0000•• Y• • • • 0000• 0000•• 000.0• 0000•• Illustration ST -A1273-26-00 RECEPTACLE POWER ENTRY 32914" 832 mm] 29/4" 743 mm) 41/4" 110 mm) Illustration ST -A1273 -01-D-00 RELY ON RUUD.TM 79 Dimensional Data RACD Series SUPPLY AND RETURN DIMENSIONS FOR HORIZONTAL APPLICATIONS 61/8"13 31/2" 156 mmll x330 mm] 1(89 mm] SUPPLY AND RETURN DIMENSIONS FOR DOWNFLOW APPLICATIONS 553/8" 1407 mm] 591/2" 1511 mm] IE 2" 863(4" 51 mm] [2203 mm] TYP. (3) SIDES 90l/e" 2289 mm] 14" 11/4 356 mm [32 mm] 63/4' 14 3/8" If [171 mm] 365 mm] 371/2" 281/2" II 953 mm] 1724 mm] SUPPLY 593/8"— 1507 mm] 51/2" 140 mm] RETURN I 12518" 321 mmJ 61/2" 165 mm] 263/4" 363/8" [679 mm] 41/8" 224 mm] [105 mm] Illustration ST -A1273 -01-A-00 Designates Metric Conversions RETURN 37V2" 953 mmi AIR 6000 0• 000• 15" SUPPLY AIR 381 mm] 66.•.. 6; 666 6666.• 66.0.6 133 mm] 130 mm] 6 0666.• 291/2' 197J8" m749 m] 505 mmJ 6 9/s" 217/8" NE 149 mm 555 mm] [ 593/8" Illustration 1510 mm] ST -A1273 -01-F SUPPLY AND RETURN DIMENSIONS FOR DOWNFLOW APPLICATIONS 553/8" 1407 mm] 591/2" 1511 mm] IE 2" 863(4" 51 mm] [2203 mm] TYP. (3) SIDES 90l/e" 2289 mm] 14" 11/4 356 mm [32 mm] 63/4' 14 3/8" If [171 mm] 365 mm] 371/2" 281/2" II 953 mm] 1724 mm] SUPPLY 593/8"— 1507 mm] 51/2" 140 mm] RETURN I 12518" 321 mmJ 61/2" 165 mm] 263/4" 363/8" [679 mm] 41/8" 224 mm] [105 mm] Illustration ST -A1273 -01-A-00 Designates Metric Conversions WEIGHTS Capacity Tons [kW] Corner Weights by Percentage A B C D 7.5-12.5 [21.1-44.0] 26% 34% 17% 23% e!e" SHACKLE—`\\, EACH CORNER) 1104.9 mmJ 6 t CENTER OF GRAVITY Dimensional Data RACD Series LIFTING BEA%, 0000•• 0000 • CABLE•OR CHAIN • 0000 0000•• 0000•• 0000. 0000. 0000.. a•0000• 0000.. lV CENTER 237/eu OF 606.4 mm] GRAVITY Illustration ST -A1273 -01—J-00 CLEARANCES The following minimum clearances must be observed for proper unit performance and serviceability. RECOMMENDED CLEARANCE In. [mm] LOCATION 48 [1219] A - FRONT 24 [609] B - CONDENSER END 48 [1219] cD C - DUCT END 24 [609] :2) D- FILTER SIDE 60 [1524] E - ABOVE Cis 18'[457 mm) MINIMUM IF DRAINPAN WILL NOT BE REMOVED, 12, 48-11219 MM] MINIMUM IF ECONOMIZER IS INSTALLED. RELY ON-RUUD.Tm 81 Field Installed Accessories RACD Series FIELD INSTALLED ACCESSORY EQUIPMENT (cont'd.) Accessory Model Number Shipping Weight Lbs. [kg] Installed Weight Lbs. [kgl Factory Installation Available? Economizerw/Single Enthalpy (Downflow) RXRD-01MDDAM3 86 [39.0] 57 [25.9] Yes Economizerw/Single Enthalpy (Horizontal) RXRD-01MDHAM3 84 [38.1] 55 [24.9] Yes Economizer-w/Single Enthalpy (Downflow) DDC RXRD-01 MDDBM3 86 [39.0] 57 [25.9] No Economizerw/Single Enthalpy (Horizontal) DDC RXRD-01MDHBM3 84 [38.1] 55 [24.9] No Dual Enthalpy Kit RXRX-BV01 1 [5] ti j.5] No Dual Enthalpy Kit DDC RXRX-BV02 1 [.5] 1 .5] Igo Carbon Dioxide Sensor (Wall Mount) RXRX-AR02 3 [1.4] I,[j.0] No Power Exhaust RXRX-CDF01C 58 ] 22.7 e 4S X] N Power Exhaust RXRX-CDF01 D 50 94 0.0 o Manual Fresh Air Damper RXRF-ADA1 15 [6.8] O[ A] Flo Motorized Fresh Air Damper RXRF-ADB1 38 [17.2] Al 14.06] Aio Motorized Fresh Air Damper (DDC) RXRF-ADC1 38 [17.2] 3111,'06] No Roofcurb, 14" RXKG-DDD14 109 [49.4] 104+47.2] No Roofcurb, 24' RXKG-DDD24 145 [65.8] f40 [88.5] No Roofcurb Adapter RXRX-DDCAE 235 [106.6] 215 [97.5] No Concentric Diffuser 7.5/8.5 Ton Flush RXRN-AEF2000 235 [106.6] 215 [97.5] No Concentric Diffuser 10.0 Ton Flush RXRN-AEF3415 30 [13.6] 25 [11.3] No Concentric Diffuser 12.5 Ton Flush RXRN-AEF3618 250 [113.4] 130 [59] No Concentric Diffuser 7.5/8.5 Ton Drop RXRN-AED2000 275 [124.7] 170 [77.1] No Concentric Diffuser 10.0 Ton Drop RXRN-AED3415 35 [15.9] 30 [13.6] No Concentric Diffuser 12.5 Ton Drop RXRN-AED3618 270 [122.5] 160 [72.6] No Concentric Adapter 7.5/8.5 Ton Drop RXMC-DD01 300 [136.1] 180 [81.6] No Concentric Adapter 10 Ton Drop RXMC-DD02 25 [11.3] 20 [9.1] No Concentric Adapter 12.5 Ton Drop RXMC-DD03 75 [34] 65 [29.5] No Outdoor Coil Louver Kit - ACD/090/102/120 RXRX-ADD04A 52 [23.6] 47 [21.3] Yes Outdoor Coil Louver Kit - ACD150 RXRX-ADD04B 43 [19.5] 39 [17.7] Yes Unwired Convenience Outlet RXRX-BN01 2 [1.0] 1.5 [.7] Yes Unfused Service Disconnect RXRX-BP01 10 [4.5] 9 [4.1] Yes Comfort Alert (1 Per Compressor) RXRX-AZ01 DDC 3 [1.5] 2 [0.9] Yes Comfort Alert (1 Per Compressor) RXRX-AZ02 3 [1.5] 2 [0.9] Yes BACnet Communication Card RXRX-AY01 1 [0.5] 1 [0.5] No LonWorks Communication Card RXRX-AY02 1 [0.5] 1 [0.5] No Room Humidity Sensor RHC-ZNS4 1 [0.5] 1 [0.5] No Room Temperature and Relative Humidity Sensor RHC-ZNS5 1 [0.5] 1 [0.5] No Low -Ambient Control Kit RXRZ-A04 4 [1.8] 3 [1.4] Yes Freeze Stat Kit RXRX-AM01 2 [1.0] 1.5 [7] Yes Designates Metric Conversions 82 RELY ON RUUD. Field Installed Accessories RACD Series FIELD INSTALLED ACCESSORY EQUIPMENT Accessory Model Number Shipping Weight Lbs. [kgl Installed Weight Lbs. [kg] Factory Installation Available? Variable Frequency Drive Kit RXRX-ACO2 9.1 [4.1] 7.6 [3.4] No RXRX-AC03 11.7 [5.3] 10.2 [4.6] No RXRX-AC05 11.7 [5.3] 10.2 [4.6] No RXRX-AD02 9.4 [4.3] 7.9 [3.6] • No RXRX-AD03 12.3 [5.6] id$ [4.9] ' No • • • RXRX-AD05 12.3 [5.6] . • 0.8 [4.9] • No RXRX-CCO2 9.1 [4.1] ...4g [3.4] No RXRX-CCO3 11.7 [5.3] • • 46.2 [4.6] .. No ; •' RXRX-CC05 11.7 [5.3] -410.2 [4.6] • No ... RXRX-CD02 9.4 [4.3] [3.6],* No • • • RXRX-CD03 12.3 [5.6] 1 .8 [4.9] No RXRX-CD05 12.3 [5.6] : '10$ [4.9] No Electric Heater Kits RXJJ-DD10CP 30 [13.6] 2,7.5 [12.5]: Yes . RXJJ-DD15CP 32 [14.5] ' 295 [13.4] • Yes .TT ' RXJJ-DD20CP 34 [15.4] 31.5 [14.3] ' Yes RXJJ-DD30CP 37 [16.8] 34.5 [15.6] Yes RXJJ-DD40CP 40 [18.1] 37.5 [17] Yes RXJJ-DDIODNV 30 [13.6] 27.5 [12.5] Yes RXJJ-DDI5DNV 32 [14.5] 29.5 [13.4] Yes RXJJ-DD20DNV 34 [15.4] 31.5 [14.3] Yes RXJJ-DD30DNV 37 [16.8] 34.5 [15.6] Yes RXJJ-DD40DNV 40 [18.1] 37.5 [17] Yes Single Point Wiring Kit RXJX-AC0605 23 [10.4] 25 [11.3] No MX-AC0805 24 [10.9] 26 [11.8] No RXJX-AD0605 25 [11.3] 27 [12.2] No RXJX-AC0909 26 [11.8] 28 [12.7] No RXJX-AD0609 25 [11.3] 27 [12.2] No Designates Metric Conversions VARIABLE FREQUENCY DRIVE KIT HORSEPOWER 02 = 2 HORSEPOWER 03 =3 HORSEPOWER 05 = 5 HORSEPOWER VOLTAGE C = 230V D =480V DESIGN SERIES A =TWO WIRE CONTROL C =COMMUNICATING SINGLE POINT WIRING KIT RXJX-A C 09 09 o CABINET CODE 05 = 090-102 C VOLTAGE 090-120 D VOLTAGE 120 C VOLTAGE 09 = 150 C VOLTAGE 150 D VOLTAGE AMPERAGE 06 = 60 AMPS 08 = 80 AMPS 09 = 90 AMPS VOLTAGE C = 208/230 V D =460V SERIES RELY ON RUUD.TM $3 0• Fiela Installed Accessories RACD Series FLUSH MOUNT ROOM TEMPERATURE SENSORS FOR NETWORKED DDC APPLICATIONS 00_00 ROOM TEMPERATURE SENSOR ZNS-101 with TIMED OVERRIDE BUTTON 10kQ room temperature sensor transmits room temperature to DDC system. Timed override button allows tenant to change from unoccupied temperature setpoint to occupied temperature etPomt for a preset time. 0.4 0090.. 0000 . 404.9. • 406 400. .499.9 000009 . 0 0 00009000 0 0 : 4000. 4000 9 . 99444 ROOM TEMPERATURE SENSOR ZNS-102 """` • • • • • • • • with TIMED OVERRIDE BUTTON and STATUS INDICATOR " 00. • • • • • • 0000..• 10kQ room temperature sensor transmits room temperature to DDC system. TifhW oveWidbutton 0 • 00.. allows tenant to change from unoccupied temperature setpoint to occupied temperature sent foo0a0 preset time. Status Indicator Light transmits ALARM flash code to occupiedsp2co. 00 0 : 94990 9. . ROOM TEMPERATURE SENSOR ZNS-103 with SETPOINT ADJUSTMENT and TIMED OVERRIDE BUTTON 10kQ room temperature sensor with setpoint adjustment transmits room temperature to DDC system along with desired occupied room temperature setpoint. Timed override button allows tenant to change from unoccupied temperature setpoint to occupied temperature setpoint for a preset time. ROOM HUMIDITY SENSOR RHC-ZNS4 Transmits room relative humidity to DDC System. ROOM TEMPERATURE AND RELATIVE HUMIDITY SENSOR RHC-ZNS5 Transmits room temperature and relative humidity to DDC System. 84 RELY ON RUUD.TM COMMUNICATION CARDS Field Installed Field Installed Accessories RACD Series BACnet® COMMUNICATION CARD RXRX-AY01 The field installed BACnet® Communication Card allows the RTU -C unit controller to communicate with a third party building management system that supports the BACnet Application Specific Controller device profile. The BACnet® Communication Module plugs onto the unit RTU -C controller and allows communication between the RTU -C and the BACnet MSTP network. :*so: 0000.. 0000 • 006.66 00.6 0.000. LonWorks® COMMUNICATION CARD RXRX-AY02 • • • • • • ... • •;. • • The field installed Lon Works' Communication Card allows the RTU -C unii co'h1roller to ttmMunicarte• • • • with a third party building management system that supports the LonMaVSP&4e Comfori Controller • • SCC) functional profile or LonMark Discharge Air Controller (DAC) functidnal profile. lhe• QQMark• • 00: • Communication Module plugs onto the RTU -C controller and allows corrtnugit;ption t?etween the • • 0000•. RTU -C and a LonWorks Network. 6 • • • • 09* 9 RELY ON RUUD.'" 85 Field Installed Accessories RACD Series NON -DDC ECONOMIZER FOR DOWNFLOW DUCT INSTALLATION Use to Select Factory Installed Options Only RXRD-01 MDDAM3—Single Enthalpy (Outdoor) and AXRD-SJCM3 Single Enthalpy with Smoke Detector RXRX-BV02—Dual Enthalpy Upgrade Kit RXRX-AR02—Optional Wall -Mounted CO2 Sensor Features Honeywell Controls Available Factory Installed or Field Accessory Gear Driven Direct Drive Actuator Fully Modulating (0-100°/x) Low Leakage- Dampers Slip -In Design for Easy Installation Standard Barometric Relief Damper ACTUAT( Single Enthalpy with Dual Enthalpy Upgrade Kit Available CO2 Input Sensor Available Field Assembled Hood Ships with Economizer Economizer Ships Complete for Downflow Duct Application. DDC Optional Remote Minimum Position Potentiometer (270 ohm) Honeywell #S963131 136) is Available from Prostock. Field Installed Power Exhaust Available t87/1PrewiredforSmokeDetector [468.5 r If connected to a Building Automation System (BAS), all economizer functions can be viewed on the (BAS) or 16 x 2 LCD screen If connected to thermostat, all economizer functions can be viewed on 16 x 2 LCD screen Illustration ST -A1273 -01—G-00 121.8 mm] 1911/16" 500.1 mm] 833/64" 216.3 mm] 86 RELY ON RUUD.'" Q31/32„ 126.5 mm] 471/2" 1207.5 mm] 89/16" 217.6 mm] 29Vie" 738.3 mm] RAINHOOD Designates Metric Conversions Field Installed Accessories RACD Series NON -DDC ECONOMIZER FOR HORIZONTAL DUCT INSTALLATION Field Installed Only RXRD-OIDAHM3—Single Enthalpy (Outdoor) RXRX-BV01—Dual Enthalpy Upgrade Kit RXRX-AR02—Wall-mounted CO2 Sensor Features Honeywell Controls Available as a Field Installed Accessory Only Gear Driven Direct Drive Actuator Fully Modulating (0-100%) Low Leakage Dampers Slip -In Design for Easy Inst-allation Standard Barometric Relief Damper Single Enthalpy with Dual Enthalpy Upgrade Kit Available CO2 Input Sensor Available Field Assembled Hood Ships with Economizer Economizer Ships Complete for Hovrizontal Duct Application Optional Remote Minimum Position Potentiometer (270 ohm) Honeywell #S963131 136) is Available from Prostock ACTUATOR Q Field Installed Power Exhaust Available If connected to a Building Automation <6MeSystem (BAS), all economizer functions [421 mm] can be viewed on the (BAS) or 16 x 2 LCD screen If connected to thermostat, all economizer functions can be viewed on 16 x 2LCD screen CUT OUT 125/6" x 363/e" 320.7 mm x 924 mm] OPENING DUCT 533169" 140 mm] ENTHALPY SENSOR 4" [101.6 mm] MINIMUM RECOMMENDED 373/9" 958.8 mm] SUPPLY DUCT 314.3 mm RETURN DUCT Illustration ST -A1273-04-00 MANUAL FRESH AIR DAMPER Designates Metric Conversions - RELY ON RUUD.TM 87 Field Installed Accessories RACD Series POWER EXHAUST KIT FOR RXRD-01 MDDAM3, RXRD-01 MDDBM3, RXRD-01 MDHAM3, RXRD-01 MDHBM3 ECONOMIZERS RXRX-CDF01 Voltage Code VERTICAL AIRFLOW HORIZONTAL AIRFLOW M mtrabon STA1295-01 POWER EXHAUST —/ n1r BAROMETRIC RELIEF DAMPERS OUTSIDE AIR INTAKE HOOD WITH MIST ELIMINATOR 373/8" 949.3 mm] FIELD SUPPLIED —/ \ REINFORCING BRACE AS REQUIRED) EXHAUST AIR HOOD LOCATION DETERMINED BYINSTALLER ECONOMIZER/DAMPER• • • • . • BRACKET 00*000 Illustration ST -Al 273-05-00 BAROMETRIC RELIEF DAMPERS EXHAUST HOODS WITH BIRDSCREEN Model No. No. of Fans Volts Phase HP (ea.) CFM [Us]* RPM FLA (ea.) LRA RXRX-CDF01C 2 208-230 1 0.47 2200 3000 1.55 1.1 RXRX-CDF01D 2 460 3 0.40 1970 2750 0.51 1.9 rm is per ran ar u w.c. external sranc pressure. 88 RELY ON RUUD.'" Designates Metric Conversions DDC -ECONOMIZER FOR DOWNFLOW DUCT INSTALLATION Use to Select Field Installed Options Only RXRD-01MDDBM3—Single Enthalpy (Outdoor) RXRX-BV02—Dual Enthalpy Upgrade Kit RXRX-AR02—Optional Wall -Mounted Coe Sensor Features Honeywell Controls ENTHALPY Available Factory Installed or Field Accessory Gear Driven Direct Drive Actuator Fully Modulating (0-100%) Ultra Low Leak Dampers meet California Title 24. requirements Slip -In Design for Easy Installation • Standard Barometric Relief Damper ACTUATOR ® , Single Enthalpy with Dual Enthalpy Upgrade Kit Available ' COz Input Sensor Available Field Assembled Hood Ships with Economizer Economizer Ships Complete for DDCDownflowDuct Application. ® • Optional Remote Minimum Position Potentiometer (270 ohm) o Honeywell #S96361136) is Available from Prostock. '$ 468.55 mmJ Field Installed Power Exhaust Available Prewired for Smoke Detector If connected to a Building Automation System (BAS), all economizer functions can be viewed on the (BAS), or 16 x 2 LCD screen If connected to thermostat, all economizer functions can be viewed on 16 x 2 LCD screen Illustration ST -A1273-01 G-00 5i 216.3 mm] _. I IZ0.O mm] Field Installed Accessories RACD Series 69/16" 217.6 mm] 291he" 736.3 mmJ RAINHOOD Designates Metric Conversions RELY ON RUUO.TM 89 Field Installed Accessories RACD Series DDC—ECONOMIZER FOR HORIZONTAL DUCT INSTALLATION Field Installed Only RXRD-OIMDHBM3—Single Enthalpy (Outdoor) RXRX-BV02—Dual Enthalpy Upgrade Kit RXRX-AR02—Wall-mounted CO,, Sensor Features Honeywell Controls Available as a Field Installed Accessory Only Gear Driven Direct Drive Actuator Fully Modulating (0-100%) Ultra Low Leak Dampers -meet California Title 24 requirements Slip -In Design for Easy Installation Standard Barometric Relief Damper Single Enthalpy with Dual Enthalpy Upgrade Kit Available CO2 Input Sensor Available Field Assembled Hood Ships with Economizer Economizer Ships Complete for Horizontal Duct Application Optional Remote Minimum Position Potentiometer 270 ohm) (Honeywell #S963131 136) is Available from Prostock Field Installed Power Exhaust Available If connected to a Building Automation System BAS), all economizer functions can be viewed on the (BAS), or 16 x 2 LCD screen If connected to thermostat, all economizer functions can be viewed on 16 x 2 LCD screen SUPPLY DUCT CUTOUT 125/e" x 363/e" 320.7 mm x 924 mm] OPENING DUCT RETURN DUCT 90 RELY ON RUUD.TM 533/W 140 mm] 4" [101.6 mm] MINIMUM RECOMMENDED 373/4" 958.8 mm] 7123/8" 314.3 mm MANUAL FRESH AIR DAMPER mustralI A • • • • ST -A12841 • Illustration ST -A1273-04-00 Designates Metric Conversions FRESH AIR DAMPER MOTORIZED DAMPER KIT RXRF-ADB1 Illustration ST -A1273-10-00 Designates Metric MOTORIZED DAMI RXRX-ADC1 Motor Kit for DDC Field Installed Accessories RACD Series 216.3 mm] [126.5 mm] RAINHOOD Illustration X1273-01 G-00 RXRX-AW04 Modulating Motor Kit w/position feedback for AXRF-KDAi) Features Honeywell Controls Gear Driven Direct Drive Actuator Fully Modulating (0-100%) Low Leakage Dampers Slip -In Design for Easy Installation Plug -In Polarized 12 -pin and 4 -pin Electrical Connections Pre-Configured—No Field Adjustments Necessary Addition of Dual Enthalpy Upgrade Kit allows limited economizer function CO2Sensor Input Available for Demand Control Ventilation (DCV) Optional Remote Minimum Position Potentiometer (270 ohm) (Honeywell #S963B1136) is available from Prostock All fresh air damper functions can be viewed at the RTU -C unit controller display If connected to a Building Automation System (BAS), all fresh air damper functions can be viewed on the (BAS) Designates Metric Conversions RELY ON Ruur)." 9J Field installed Accessories RACD Series FRESH AIR DAMPER (Cont.) RXRF-ADA1 HORIZONTAL APPLICATION CUT OU ' 125/8" Y. 363/ 3T" 320.7 mm x 924 mm] OPENING DUCT MANUALFRESH AIR DAMPER 4"[101.6 mm] MINIMUM RECOMMENDED DOWNFLOW APPLICATION 314.3 mm] •• • •••••• Illustration ST -A7273-04-00 373/," . \ MANUAL FRESH 1958.8 mm] .` AIR DAMPER SUPPLY DUCT \ 123/e" V 314.3 mm] RETURN DUCT 92 RELY r3N RUUU.TM Designates Metric Conversions ROOFCURBS (Full Perimeter) Ruud's roofcurb design can be utilized on all 7.5-12.5 ton 26.4-44.0 kW] RACD. Two available heights (14" [356 mm] and 24" [610 mmD for ALL models. Quick assembly corners for simple and fast assembly. Opening provided in bottom pan to match the Thru the Curb" electrical connection opening provided on the unit base pan. 1 " [25 mm] x 4" [102 mm] Nailer provided. Insulating panels not required because of insulated outdoor base pan. Sealing gasket (40' [12.2 m]) provided with Roofcurb. Packaged for easy field assembly. Roofcurb Model Height of Curb RXKG-DDD14 14" [356 mm] RXKG-DDD24 24" [610 mm] ROOFCURB INSTALLATION Field Installed Accessories RACD Series GASKET — ROOFTOP UNIT NAILER STRIP --tom I \ I ROOFCURB Durr INSULATION* FLASHING' CANT STRIP' INSULATION' ROOF DECj- • BY CONTRACTOR • FOR INSTALLATION OF DUCT AS SHOW ECOMMENDEED DUCT SIZES FROM ROOFCURB INSTA- NSTRUCTION$. FOR DUCT FLANGE ATTACHMENT TO ((.I T $$E UNIT • • • INSTALLATION INSTRUCTIONS FOR RfCONTti15NDED DUCT49IZE9 i STP -0! Designates Metric Conversions mm] RELY ON RULID.TM 93 Fiela Installed Accessories RACD Series ROOFCURB ADAPTERS (Cont.) RXRX-DDCAE Illustration ADS -106176-01 SHEET 2 APPROXIMATE STATIC PRESSURE DROP @2,000 = 0.06" w.g. @3,000 = 0.12" w.g. @4,000 = 0.22" w.g. @5,000 = 0.36" w.g. Illustrabon ADS -106176-0' SHEET 1 817/e" I.D. 2079.6 mm] 403He" 1020.8 mm] R/A & S/A Imo— 542/e" 1393.8 mm] EX O.D. 853/e" O.D. 2168.5 mm] 531/2" O.D. 11356.9 mm] 761.2 mm] - * • EXS/A 00 •• 0000•• 50" I.D.• 1271 •nft] C- 1831 3t91M" ] 8022.5 mm S/A e nm] I/A 0000.0 25/e" • 66.7mm?••••• 251e" •••• 11L• [ 66.7 mm] 0000• IP X9/32" • • • • • 513.1 mm] BeR/A 0000•• 0000•• 0000•• 15%/32" 39A1.3 mm] 714" 355.6 mm] 2771e 11 708 mm] 24" 609.6 mm] EX S/A 761.2 mm] - * • EXS/A 00 •• 0000•• 50" I.D.• 1271 •nft] C- 1831 3t91M" ] 8022.5 mm S/A e nm] I/A 0000.0 25/e" • 66.7mm?••••• 251e" •••• 11L• [ 66.7 mm] 0000• IP X9/32" • • • • • 513.1 mm] BeR/A 0000•• 0000•• 0000•• 15%/32" 39A1.3 mm] 714" 355.6 mm] 2771e 708 mm] 901/16" EX O.D. 12287.6 mm] Designates Metric Conversions TOP VIEW 14" 355.6 mm] 0000•• CONCENTRIC DIFFUSER APPLICATION ROOFCURB Field Installed Accessories RACD Series DOWNFLOW TRANSITION DRAWINGS RXMC-DD02 Used with RXRN-AEF3415 or RXRN-AED3415 147/8" Concentric Diffusers. [377.8 mm] I.D. RI(;HT 33 m illustration ADS -106193-02 303/4" r 1I.D. [ 781 mm] 377.8 mm] I.D. I.D. 3xry^ [97.8 mm] 2" 15" — 15" [ 50.8 mm] [381 mm] [381 mm] RIGHT Designates Metric Conversions 6" nn DOWNFLOW 3V-164 779.1 I.D. TRANSITIONS 385.7 mm] I.D. 1. 101/32' 254.9 mm] 1— 34" 863.6 mm] FIELD I SnED 153/1 385.7 I.D x3/6a" 7 mm] D. I L 303/4" r 1I.D. [ 781 mm] 377.8 mm] I.D. I.D. 3xry^ [97.8 mm] 2" 15" — 15" [ 50.8 mm] [381 mm] [381 mm] RIGHT Designates Metric Conversions 6" nn 999.7 DOWNFLOW I.D. 153/16" TRANSITIONS 385.7 mm] I.D. 1. 101/32' 254.9 mm] 1— 34" 863.6 mm] FIELD I SnED ate----- Illustration ST -,! 2P 999.7 3923/64" mm] I.D. 153/16" 385.7 mm] I.D. 1. 101/32' 254.9 mm] 1— 34" 863.6 mm] RELY ON RUUD.'" 95 Field Installed Accessories RACD Series DOWNFLOW TRANSITION DRAWINGS (Cont.) RXMC-DD03 Used with RXRN-AEF3618 or RXRN-AED3618 Concentric Diffusers. Illustration ADS -106193-03 39 999 147/e" 377.8 mm] I.D. 1 3043/64" 3043/64" FJ37 14/s" mjF 779.1 mmj7.8 mI.D. LD. W [98.7 mm] 2I 50.8 mm] [457.2 mm] [457.2 mm) Designates Metric Conversions 96 RELY ON RUUD.TM IB' mm] 3923/64" 999.7 mm] I.D. 779.1 mm] 101/32" 254.9 mm] 36" - 914.4 mm] 153/ 385.7 LD 23/64- 7 mm] D. 3043/64" FJ37 14/s" mjF 779.1 mmj7.8 mI.D. LD. W [98.7 mm] 2I 50.8 mm] [457.2 mm] [457.2 mm) Designates Metric Conversions 96 RELY ON RUUD.TM IB' mm] 3923/64" 999.7 mm] I.D. 153/16" 385.7 mm] I.D. 101/32" 254.9 mm] 36" - 914.4 mm] DOWNFLOW TRANSITION DRAWINGS (Cont.) RXMC-DD01 Used with RXRN-AEF2000 or RXRN-AED2000 Concentric Diffusers. 1" 25 mm] 1" ' 25 mm] tllustratron ST -A1273-15-00 Designates Metric Conversions Field Installed Accessories RACD Series 000.0 0000•• 0000 • 4.•• 0000•• 143/4" 376 mm] :•.••: A4- 0• 9000: • • • • • • RELY ON RUUD.'" 97 Field Installed Accessories RACD Series CONCENTRIC DIFFUSER -STEP DOWN RXRN-AED2000 (7.5 & 8.5 Ton [26.4 & 29.9 kW] Models) For Use With Downflow Transition (RXMC-DD01) and 20° [508 mm] Round Supply and Return Ducts All aluminum diffuser with aluminum return air eggcrate. Built-in anti -sweat gasket. Molded fiberglass supports. Built-in hanging supports. 453!4" 12" Diffuser box constructed of [1214 mm] [305mm] sheetmetal insulated with 213!4" 552 mm) 1 " [25.4 mm] 1.5 lbs. 7 kg] duct liner. 63/4" 171 mm] 63/8" 162 mm] ENGINEERING DATA° 133/4" 349 mr 271/2" 699 mm] 0.- Model No. Flow Rate CFM [L/sl Throw 2 Z Feet [m] Neck Velocity fpm [m/s] Noise Level C4) dbA) 2600 [1222] 22-39 [6.7-11.9] 669 [3.4] 32 2800 [1316] 23-40 [7.1-12.2] 720 [3.7] 38 3000 [1410] 25-42 [7.6-12.8] 772 [3.9] 40 RXRN-AED2000 3200 [1504] 26-43 [7.9-13.1] 823 [4.2] 41 3400 [1598] 27-45 [8.2-13.7] 874 [4.4] 42 3600 [1692] 30-50 [9.1-15.2] 925.5 [4.7] 45 3800 [1786] 32-53 [9.8-16.2] 976.8 [4.9] 48 4000 [1880] 34-56 [10.4-17.11 1028.1 [5.2] 50 NOTES: O All data is based on the air diffusion council guidelines. Throw data is based on 75 FPM Terminal Velocities using isothermal air. Throw is based on diffuser blades being directed in a straight pattern. O Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit. Designates Metric Conversions a CONCENTRIC DIFFUSER -STEP DOWN 1511 x 34"[381 x 836 mm] RXRN-AED3415 (8.5 & 10 Ton [29.9 kW & 35.2] Models) For Use With Downflow Transition (RXMC-DD02) and 15" x 34" [381 x 836 mm] Supply and Return Ducts All aluminum diffuser with aluminum return air eggcrate. Built-in anti -sweat gasket. Molded fiberglass supports. Built-in hanging supports. Diffuser box constructed of sheetmetal insulated with 1 " [25.4 mm] 1.5 lbs. 7 kg] duct liner. 15" 381 mm] „ Double deflection diffuser [863.6 mm] with the blades secured by spring steel. 401/4'SQ. 1023.1 mm] ENGINEERING DATAD 391/x' SO. 1003.3 mm] 00.00 863.6 mm] • • • 15" • • 381 mm] • Field Installed Accessories RACD Series ADJUSTABLE BLADES 83/8" 211.9 mm) Illustration ST -A1273-31-00 Model No. Flow Rate CFM [Us) Throw 2 a Feet [m] Neck Velocity fpm [m/sl Noise Level dbA) RXRN AED3415 3600 [1692] 26-53 [7.9-16.2] 851 [4.3] 27 3800 [1786] 27-55 [8.2-16.8] 898 [4.5] 29 4000 [1880] 29-58 [8.8-17.7] 946 [4.8] 000 4200 [1974] 31-61 [9.4-18.6] 993 [5.1] 32 4400 [2068] 32-64 [9.8-19.5] 1040 [5.3] 4600 [2162] 34-66 [10.4-20.1 ] 1087.5 [5.5] 1 35 00••• 0000 0000• 20" 508 mm] 2"A••• 719,p mm] • 0000• ADJUSTABLE BLADES 83/8" 211.9 mm) Illustration ST -A1273-31-00 Model No. Flow Rate CFM [Us) Throw 2 a Feet [m] Neck Velocity fpm [m/sl Noise Level dbA) RXRN AED3415 3600 [1692] 26-53 [7.9-16.2] 851 [4.3] 27 3800 [1786] 27-55 [8.2-16.8] 898 [4.5] 29 4000 [1880] 29-58 [8.8-17.7] 946 [4.8] 30 4200 [1974] 31-61 [9.4-18.6] 993 [5.1] 32 4400 [2068] 32-64 [9.8-19.5] 1040 [5.3] 33 4600 [2162] 34-66 [10.4-20.1 ] 1087.5 [5.5] 1 35 NOTES: O All data is based on the air diffusion council guidelines. Throw data is based on 75 FPM Terminal Velocities using isothermal air. Throw is based on diffuser blades being directed in a straight pattern. Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound outputfrom the unit. Designates Metric Conversions Field Installed Accessories RACD Series CONCENTRIC DIFFUSER -STEP DOWN 18" x 36" [457 x 914 mm] RXRN-AED3618 (12.5 & 15 Ton [44.0 & 52.8 kW] Models) For Use With Downflow Transition (RXMC-DD03) and 18" x 36" [457 x 914 mm) Supply and Return Ducts All aluminum diffuser with aluminum [1` return air eggcrate. Built-in anti -sweat gasket. SUPPLY Molded fiberglass supports. Built-in hanging supports. Diffuser box constructed of sheetmetal [ 91 insulated with 1 " [25.4 mm] 1.5 lbs. 7 kg] duct liner. Double deflection diffuser with the blades secured by spring steel. 12 Illustration ST -A1273-11-00 3 90 mm] 1156 mm] 1213 mm] Throw Z 13) Feet [m] 3/4" Noise Level G dbA) 4400 [2068] 20' 841 [4.3] 508 r RXRN-AED3618 4600 [2162] 31-57 [9.4-17.4] 875 [4.4] I mm] 4800 [2256] 32-60 [9.8-18.3] 915 [4.6] 29 5000 [2350] 33-62 [10.1-18.9] 951 [4.8] 30 5200 [2444] 34-65 [10.4-19.8] 988 [5.1] 31 5400 [2538] 36-67 [10.9-20.4] 1025 [5.2] 32 0011 1111 1111 1111 t mm] j,' 473] 12131111 1111 1111 1111 3/4" I mm] 23/8° 60 mm] j F • 12" 18" 18" 31213 90 mm] 1156 mm] 51 rr Throw Z 13) Feet [m] Neck Velocity fpm [m/sl Noise Level G dbA) 4400 [2068] 20' 841 [4.3] 508 r RXRN-AED3618 4600 [2162] 31-57 [9.4-17.4] 875 [4.4] 28 4800 [2256] 32-60 [9.8-18.3] 915 [4.6] 29 5000 [2350] 33-62 [10.1-18.9] 951 [4.8] 30 5200 [2444] 34-65 [10.4-19.8] 988 [5.1] 31 5400 [2538] 36-67 [10.9-20.4] 1025 [5.2] 32 ENGINEERING DATA° MI 455/x" 1158 mm] m RETURN Model No. Flow Rate CFM [L/s] Throw Z 13) Feet [m] Neck Velocity fpm [m/sl Noise Level G dbA) 4400 [2068] 29-55 [8.8-16.8] 841 [4.3] 26 RXRN-AED3618 4600 [2162] 31-57 [9.4-17.4] 875 [4.4] 28 4800 [2256] 32-60 [9.8-18.3] 915 [4.6] 29 5000 [2350] 33-62 [10.1-18.9] 951 [4.8] 30 5200 [2444] 34-65 [10.4-19.8] 988 [5.1] 31 5400 [2538] 36-67 [10.9-20.4] 1025 [5.2] 32 NOTES: O All data is based on the air diffusion council guidelines. Throw data is based on 75 FPM Terminal Velocities using isothermal air. Throw is based on diffuser blades being directed in a straight pattern. Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit Designates Metric Conversions 10ORELY ON RUur-).TM FLUSH MOUNT CONCENTRIC DIFFUSER -FLUSH RXRX-AEF2000 (7.5 & 8.5 Ton [26.4 & 29.9 kW] Models) For Use With Downflow Transition (RXMC-DD01) 20" [508 mm] Round Supply and Return Ducts All aluminum diffuser with aluminum return air eggcrate. Built-in anti -sweat gasket. Molded fiberglass supports. Built-in hanging supports. 121W 4441 ,,[ 310 mm] 543Diffuserboxconstructedof [1130 mm] 43 mm] sheetmetal insulated with 1 " [25.4 mm] 1.5 lbs. 7 kg] duct liner. 1248" 310 mm] 13" 330 mm] Illustration / ST -A1273-14-00 ENGINEERING DATA"' Field Installed Accessories RACD Series 27Ve„ 689 mm] 134a" \ 337 mmj 3 x" • 37 mmj • • • I• • 48" 30" 1733 mm] [1219 mm) 762 mm] Model No. Flow Rate CFM [L/sl Throw TT Feet [m] Neck Velocity fpm [m/s] Noise Level, dbA) 2600 [1222] 17-24 [5.2-7.3] 663 [3.4] 30 2800 [1316] 18-28 [5.5-8.5] 714 [3.6] 35 RXRN-AEF2000 3000 [1410] 20-30 [6.1-9.1] 765 [3.9] 35 3200 [1504] 22-33 [6.7-10.1] 816 [4.1] 40 3400 [1598] 23-37 [7-11.3] 867 [4.4] 40 3600 [1692] 25-38 [7.6-11.6] 918 [4.7] 43 3800 [1786] 26-39 [7.9-11.9] 969 [4.91 45 4000 [1880] 27-40 [8.2-12.2] 1020 [5.2] 48 NOTES: (DAll data is based on the air diffusion council guidelines. Throw data is based on 75 FPM Terminal Velocities using isothermal air. Throw is based on diffuser blades being directed in a straight pattern. tJ Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit Designates Metric Conversions M RELY ON Ruuo"TM 101 Field Installed Accessories RACD Series CONCENTRIC DIFFUSER -FLUSH 15" x 34" [381 x 864 mm] RXRN-AEF3415 (8.5 & 10 Ton [29.9 & 35.2] Models) For Use With Downflow Transition (RXMC-DD02) 15" x 34"[381 x 864 mm] Throw T Z Feet [m) Supply and Return Ducts Noise Level dbA) RXRN-AEF3415 3600 [1692] All aluminum diffuser with aluminum 844 [4.3] return air eggcrate. 23/4" 70 mm] Built -in -anti -sweat gasket. 4000 [1880] 16-37 [4.9-11.3] 938 [4.8] Molded fiberglass supports. SUPPLY — Built-in hanging supports. 4400 [2068] 18-41 [5.5-12.5] 1032 [5.2] Diffuser box constructed of sheetmetal insulated with 1 " [25.4 mm] 1.5 lbs. 19-43 [5.8-13.1] 7 kg] duct liner. 23/4" 4800 [2256] 20-45 [6.1-13.7] 1126 [5.7] 70 mm] Illustration 5T -A1273-07-00 35/e" 92 mm) 413/4" 1060 mm] 15" 15" • 381 mm] [381 mm] 21/4" 57 mm) ENGINEERING DATA° 2" 51 mm) j7/6" 1 mm] e RETURN 357/8" 911 mm] Model No. Flow Rate CFM [L/s) Throw T Z Feet [m) Neck Velocity fpm [m/s] Noise Level dbA) RXRN-AEF3415 3600 [1692] 14-34 [4.3-10.4] 844 [4.3] 27 le,i 29 4000 [1880] 16-37 [4.9-11.3] 938 [4.8] 30 4200 [1974) 17-39 [5.2-11.9] 985 [5.1] 32 4400 [2068] 18-41 [5.5-12.5] 1032 [5.2] 33 4600 [2162] 19-43 [5.8-13.1] 1079 [5.5] 35 4800 [2256] 20-45 [6.1-13.7] 1126 [5.7] 36 W41 15" 15" • 381 mm] [381 mm] 21/4" 57 mm) ENGINEERING DATA° 2" 51 mm) j7/6" 1 mm] e RETURN 357/8" 911 mm] Model No. Flow Rate CFM [L/s) Throw T Z Feet [m) Neck Velocity fpm [m/s] Noise Level dbA) RXRN-AEF3415 3600 [1692] 14-34 [4.3-10.4] 844 [4.3] 27 3800 [1786] 15-36 [4.6-11.1] 891 [4.5] 29 4000 [1880] 16-37 [4.9-11.3] 938 [4.8] 30 4200 [1974) 17-39 [5.2-11.9] 985 [5.1] 32 4400 [2068] 18-41 [5.5-12.5] 1032 [5.2] 33 4600 [2162] 19-43 [5.8-13.1] 1079 [5.5] 35 4800 [2256] 20-45 [6.1-13.7] 1126 [5.7] 36 NOTES: O All data is based on the air diffusion council guidelines. Z Throw data is based on 75 FPM Terminal Velocities using isothermal air. Q Throw is based on diffuser blades being directed in a straight pattern. Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit. Designates Metric Conversions CONCENTRIC DIFFUSER -FLUSH 18" x 36" [457 x 914 mm] RXRN-AEF3618.(12.5Ton [44.0 kW] Models) For Use With Downflow Transition (RXMC-DD03) and 18" x 36"[457 x 914 mm] Supply and Return Ducts All aluminum diffuser with aluminum return air eggcrate. Built-in anti -sweat gasket. SUPPLY Molded fiberglass supports. Built-in hanging supports. Diffuser box constructed of sheetmetal insulated with 1" [25.4 mm] 1.5 lbs. 7 kg] duct liner. Illustration ST -A1273-12-00 413/4" 1061 mm] 473/4" I, [1213 mm] 31/2" 90 mm] ENGINEERING DATA° 2" 51 mm] 267/e" 683 mm] 1", """J L-1 111111 Field Installed Accessories RACD Series 3X2" • • 90 rr" • RETURN Model No. Flow Rate CFM [L/sl Throw (1, 4) Feet [ml Neck Velocity tpm [m/sl Noise Level G dbA) 4400 [2068] 13-28 [4.1-8.5] 922 [47] 35 RXRN-AEF3618 4600 [2162] 14-30 [4.3-9.1] 962 [4.9] 37 4800 [2256] 15-31 [4.6-9.4] 1002 [5.1] 39 5000 [2350] 16-32 [4.9-9.8] 1043 [5.3] 40 5200 [2444] 17-33 [5.2-10.1] 1083 [5.5] 42 5400 [2538] 18-35 [5.5-10.7] 1123 [5.7] 43 NOTES: O All data is based on the air diffusion council guidelines. Throw data is based on 75 FPM Terminal Velocities using isothermal air. Throw is based on diffuser blades being directed in a straight pattern. Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit. Designates Metric Conversions _ RELY ON RUUD.TM 03 Guide Specifications RACD Series GUIDE SPECIFICATIONS - RACD-090 thru 150 You may copy this document directly into your building specification. This specification is written to comply with the 2016 version of the "master format" as published by the Construction Specification Institute. www.csinet.org. ELECTRIC HEAT PACKAGED ROOFTOP HVAC Guide Specifications Size Range: 7.5 to 12.5 Nominal Tons Section Description 23 06 80 Schedules for Decentralized HVAC Equipment 23 06 80.13 Decentralized Unitary HVAC Equipment Schedule 23 06 80.13.A Rooftop unit schedule 1. Schedule is per the project specification requirements. 23 0716 HVAC Equipment Insulation • • 0000•• 23 0716.00.A Decentralized, Rooftop Units: •' ' ""' 1. Interior cabinet surfaces shall be insulated with a minimum 1/2 -in. thick, minimum 1.6 Ib densi%, flexible fiberigTassinsulation • bonded with a phenolic binder, with aluminum foil facing on the air side. 0 0:00 • • • • • 2. Insulation and adhesive shall meet NFPA 90A requirements for flame spread and smoke generiatigrl.• • • • • • • • 23 0913 Instrumentation and Control Devices for HVAC 000000 • 0 0000. • 23 0913.23 Sensors and Transmitters 000000 . ... 00: 090 23 09 13.23.A Thermostats 000900 9 9 00 9 9 9 9 1. Thermostat must • • • • • • • • a. have capability to energize 2 different stages of cooling, and 2 different stages of heating.' ' ;.0.: 0 • 00.0 b. must include capability for occupancy scheduling. 23 09 23 Direct -Digital Control System for HVAC 0 0 . 0 • 0 . • 23 09 23.00.A. RTU -C controller 1. Shall be ASHRAE 62-2001 compliant. 2. Shall accept 18-32VAC input power. 3. Shall have an operating temperature range from -40°F (-40°C) to 158°F (700C), 10%-95% RH (non -condensing). 4. Controller shall accept the following inputs: space temperature, setpoint adjustment, outdoor air temperature, indoor air quality, outdoor air enthalpy, fire shutdown, return air enthalpy, fan status, remote time clock/door switch. 5. Shall accept a CO2 sensor in the conditioned space, and be Demand Control Ventilation (DCV) ready. 6. Shall provide the following outputs: Economizer, fan, cooling stage 1, cooling stage 2, heat stage 1, heat stage 2, exhaust, occupied. 7. Unit shall provide surge protection for the controller through a circuit breaker. 8. Shall have a field installed communication card allowing the unit to be Internet capable, and communicate at a Baud rate of 19.2K or faster 9. Shall have an LED display independently showing the status of activity on the communication bus, and processor operation. 10. Shall have either a field installed BACnet• plug-in communication card which includes an EIA -485 protocol communication port, or a field installed LonWorkSTM plug-in communications card. 11. Software upgrades will be accomplished by local download. Software upgrades through chip replacements are not allowed. 12. Shall be shock resistant in all planes to 513 peak, 11 ms during operation, and 10OG peak, 11 ms during storage. 13. Shall be vibration resistant in all planes to 1.5G @ 20-300 Hz. 14. Shall support a bus length of 4000 ft max, 60 devices per 1000 ft section, and 1 RS -485 repeater per 1000 ft sections. 23 09 23.00.B. Open protocol, direct digital controller. 1. Shall be ASHRAE 62-2001 compliant. 2. Shall accept 18-30VAC, 50-601-1z, and consumer 15VA or less power. 3. Shall have an operating temperature range from -40°F (-40°C) to 130°F (541C), 10% - 90% RH (non -condensing). 4. Shall have either a field installed BACnet' plug-in communication card which includes an EIA -485 protocol communication port, or a field installed LonWorksT" plug-in communications card. 5. The BACnet® plug in communication card shall include built-in protocol for BACNET (MS/TP and PTP modes) 6. The LonWorksT" plug in communication card shall include the Echelon processor required for all Lon applications. 7. Shall allow access of up to 62 network variables (SNVT). Shall be compatible with all open controllers 8. Baud rate Controller shall be selectable through the EIA -485 protocol communication port. 9. Shall have an LED display independently showing the status of serial communication, running, errors, power, all digital outputs, and all analog inputs. 104RELY ON RUUD.TM Guide Specifications RACD Series 10. Shall accept the following inputs: space temperature, setpoint adjustment, outdoor air temperature, indoor air quality, outdoor air enthalpy, compressor lock -out, fire shutdown, enthalpy switch, and fan status/filter status/ humidity/ remote occupancy. 11. Shall provide the following outputs: economizer, fan, cooling stage 1, cooling stage 2, heat stage 1, heat stage 2, exhaust. 12. Software upgrades will be accomplished by either local or remote download. No software upgrades through chip replacements are allowed.63 23 09 33 Electric and Electronic Control System for HVAC 23 09 33.00.A. General: 1. Shall be complete with self-contained low -voltage control circuit protected by a resettable circuit breaker on the 24-v transformer side. Transformer shall have 100VA capabilities. 2. Shall utilize color -coded wiring. 3. Shall include a central control terminal board to conveniently and safely provide connection points for vital control functions such as: smoke detectors, phase monitor, economizer, thermostat, DDC control options, loss of charge, freeze sensor, high pressure switches. 4. Unit shall include a minimum of one 10 -pin screw terminal connection board for connection of control wiring. 23 09 33.00.B. Safeties: 1. Compressor over -temperature, over current. 2. Loss of charge switch. a. Units with 2 compressors shall have different colored wires for the circuit 1 and circuit 2 low and high pressure switches. b. Loss of charge switch shall use different color wire than the high pressure switch. The purpose is to assist the installer and service technician to correctly wire and or troubleshoot the rooftop unit. • 0000 : 0 c. Loss of charge switch shall have a different sized connector than the high pressure switcM.M4 shall pl'I%1&41y prevent • • the cross -wiring of the safety switches between the high and low pressure side of the sIA811• • • • • • • • • • • • 3. High-pressure switch. a. Units with 2 compressors shall have different colored wires for the circuit 1 and circuit 24ow and high Pressure switcAes. • 0000 b. High pressure switch shall use different color wire than the low pressure switch. The pug p,sg j to assisItfl installer anel • • service person to correctly wire and or troubleshoot the rooftop unit. • • • c. High pressure switch shall have a different sized connector than the loss of charge swit;t;i.WV shall physjpally prevent • • the cross -wiring of the safety switches between the high and low pressure side of the sQste?h. 0 • • • 00:0 4. Freeze protection sensor, evaporator coil. . . 5. Automatic reset, motor thermal overload protector. • • • • • • • 23 09 93 Sequence of Operations for HVAC Controls • • • 23 09 93.00.A INSERT SEQUENCE OF OPERATION 23 41 13 Panel Air Filters 2341 13.00.A. Standard filter section shall 1. Shall consist of factory -installed, low velocity, throwaway 2 -in. thick fiberglass filters of commercially available sizes. 2. Filters shall be accessible through an access panel as described in the unit cabinet section of this specification (23 81 19.13.H). 23 81 19 Self -Contained Air Conditioners 2381 19.13 Small -Capacity Self -Contained Air Conditioners 23 81 19.13.A. General 1. Outdoor, rooftop mounted, electrically controlled, heating and cooling unit utilizing a(n) hermetic scroll compressor(s) for cooling duty and heat pump for heating duty. 2. Factory assembled, single -piece heating and cooling rooftop unit. Contained within the unit enclosure shall be all factory wiring, piping, controls, and special features required prior to field start-up. 3. Unit shall use environmentally sound R -410a refrigerant. 4. Unit shall be installed in accordance with the manufacturer's instructions. 5. Unit must be selected and installed in compliance with local, state, and federal codes. 23 81 19.13.13. Quality Assurance 1. Unit meets ASHRAE 90.1-2007 and 2013 minimum efficiency requirements. 2. 3 phase units are Energy Star qualified. 3. Unit shall be rated in accordance with AHRI Standards 210/240 and 340/360. 4. Unit shall be designed to conform to ASHRAE 15. 5. Unit shall be UL -tested and certified in accordance with ANSI Z21.47 Standards and UL -listed and certified under Canadian standards as a total package for safety requirements. 6. Insulation and adhesive shall meet NFPA 90A requirements for flame spread and smoke generation. 7. Unit casing shall be capable of withstanding 1000 -hour salt spray exposure per ASTM B117 (scribed specimen). Guide Specifications RACD Series 8. Unit shall be designed in accordance with ISO 9001:2015, and shall be manufactured in a facility registered by ISO 9001:2015. 9. Roof curb shall be designed to conform to NBCA Standards. 10. Un .hall be subjected to a completely automated run test on the assembly line. The data for each unit will be stored at the factory, and must be available upon request. 11. Unit shall be designed in accordance with UL Standard 1995, Fifth Edition including tested to withstand rain. 12. Unit shall be constructed to prevent intrusion of snow and tested to prevent snow intrusion into the control box up to 40 mph. 2381 19.13.C. Delivery, Storage, and Handling 1. Unit shall be stored and handled per manufacturer's recommendations. 2. Lifted by crane requires either shipping top panel or spreader bars. 3. Unit shall only be stored or positioned in the upright position. 23 81 19.13.E. Project Conditions 1. As specified in the contract. 23 81 19.13.F. Operating Characteristics 1. Unit shall be capable of starting and running at 115°F (46°C) ambient outdoor temperature, meeting maximum load criteria of AHRI Standard 210/240 or 340/360 at t 10% voltage. 2. Compressor with standard controls shall be capable of operation from 40°F (4°C) , ambient outdoor temperatures. Accessory low ambient kit is necessary if mechanically cooling at ambient temperatures below 40°F (4°C). 3. Unit shall discharge supply air vertically or horizontally as shown on contract drawings. ; • • • ; • 4. Unit shall be factory configured for vertical supply & return configurations. 5. Unit shall be field convertible from vertical to horizontal configuration. • • • •. • 0000.. 0000 0000•. 2381 19.13.G. Electrical Requirements ; • 1. Main power supply voltage, phase, and frequency must match those required by the manufactwwr.0 00 0 2381 19.13.H. Unit Cabinet 999060 • 0 .' 0%066 1. Unit cabinet shall be constructed of galvanized pre -painted steel. 00009* ••• 00000 2. Unit cabinet exterior paint shall be: film thickness, (dry) 0.003 inches minimum, flat (per ASTM 15523, 600F): 60,'HaAness: "• • 0000•. 0 0H -2H Pencil hardness. 0 0 • 3. Evaporator fan compartment interior cabinet insulation shall conform to AHRI Standards 2107240 or!340/364sicwrwm 0 0 •"' exterior sweat criteria. Interior surfaces shall be insulated with a minimum 1/2 -in. thick, 1.6 Ib:densii 4 flexible fiberglass insulation, aluminum foil -faced on the air side. 0' ' 0 90 0' 0 ' • 4. Base of unit shall have locations for thru-the-base electrical connections (factory installed or field installed), standard. 5. Base Rail a. Unit shall have base rails on all sides. b. Holes shall be provided in the base rails for rigging shackles to facilitate maneuvering and overhead rigging. c. Holes shall be provided in the base rail for moving the rooftop by fork truck. d. Base rail shall be a minimum of 14 gauge thickness. 6. Condensate pan and connections: a. Shall be a sloped condensate drain pan made of a non -corrosive material. b. Shall comply with ASHRAE Standard 62. c. Shall use a 3/4" NPT drain connection, through the side of the drain pan. Connection shall be made per manufacturer's recommendations. 7. Top panel: a. Indoor section shall be a single piece top panel. 8. Electrical Connections a. All unit power wiring shall enter unit cabinet at a single, factory -prepared, knockout location. b. Thru-the-base capability 1. Standard unit shall have a thru-the-base electrical location(s) using a raised, embossed portion of the unit basepan. 2. No basepan penetration, other than those authorized by the manufacturer, is permitted. 9. Component access panels (standard) a. Cabinet panels shall be easily removable for servicing. b. Stainless steel metal hinges are standard on all doors. c. Panels covering control box, indoor fan, indoor fan motor, and electric or gas heater components (where applicable), shall have 1/4 turn latches. 106RELy ON RUU0 T1 Guide Specifications RACD Series 23 81 19.13.J. Coils 1. Standard Aluminum Micro Channel Coils: on all models. a. Standard evaporator and condenser coils shall have aluminum micro channel coils. b. Evaporator and Condenser coils shall be leak tested to 150 psig, pressure tested to 550 psig, and qualified to UL 1995 burst test at 2,200 psig. 23 81 19.13.K. Refrigerant Components 1. Refrigerant circuit shall include the following control, safety, and maintenance features: a. Thermal Expansion Valve 0")M with venturi type distributor. b. Refrigerant filter drier. c. External service gauge connections to unit suction and discharge lines. 2. Compressors a. Unit shall use one fully hermetic, scroll compressor for each independent refrigeration circuit. b. Compressor motors shall be cooled by refrigerant gas passing through motor windings. d. Compressors shall be internally protected from high discharge temperature conditions. e. Compressors shall be protected from an over -temperature and over -amperage conditions by an internal, motor overload device. f. Compressor shall be factory mounted on rubber grommets. g. Compressor motors shall have internal line break thermal, current overload and high pressure differential protection. h. Crankcase heaters shall not be required for normal operating range. 0 • • • • • • 0000.. 2381 19.13.L Filter Section ' • •' *09* 0 • 1. Filters access is specked in the unit cabinet section of this specification. 0 0 0:0 0 •0 * 0 0 *0900* 2. Filters shall be held in place by a sliding filter tray, facilitating easy removal and installation! • • • • • 0 0 0 Ge • 3. Shall consist of factory -installed, low velocity, throw -away 2 -in. thick fiberglass filters. 0"". ,' • 0. • • • 4. Filters shall be standard, commercially available sizes. 0009 ' " " 0 0 5. Filter face velocity shall not exceed 365 fpm at nominal airflows. • • 0 .. . 0..... 23 81 19.13.M. Evaporator Fan and Motor •..0.. .' 1. Evaporator fan motor: 0. 000000 . 0000: • • • • a. Shall have permanently lubricated bearings. • • 0 0 0 000000 b. Shall have inherent automatic -reset thermal overload protection or circuit breaker. • • • 900660 c. Shall have a maximum continuous bhp rating for continuous duty operation; no safety factors above that ruing shall be required. 2. Belt -driven Evaporator Fan: a. Belt drive shall include an adjustable -pitch motor pulley. b. Shall use sealed, permanently lubricated ball-bearing type. c. Blower fan shall be double -inlet type with forward -curved blades. d. Shall be constructed from steel with a corrosion resistant finish and dynamically balanced. 23 81 19.13.N. Condenser Fans and Motors 1. Condenser fan motors: a. Shall be a totally enclosed motor. b. Shall use permanently lubricated bearings. c. Shall have inherent thermal overload protection with an automatic reset feature. d. Shall use a shaft -down design. Shaft -up designs including those with "rain -slinger devices" shall not be allowed. 2. Condenser Fans: a. Shall be a direct -driven propeller type fan. b. Shall have aluminum blades riveted to corrosion -resistant steel spiders and shall be dynamically balanced. 23 81 19.13.0. Special Features, Options and Accessories 1. Integrated Economizers: a. Integrated, gear -driven parallel modulating blade design type capable of simultaneous economizer and compressor operation. b. Independent modules for vertical or horizontal return configurations shall be available. Vertical return modules shall be available as a factory installed option. c. Damper blades shall be galvanized steel with metal gears. Plastic or composite blades on intake or return shall not be acceptable. RELY ON RUUD.T NUS Guide Specifications RACD Series d. Shall include all hardware and controls to provide free cooling with outdoor air when temperature and/or humidity are below setpoints. e. Shall be equipped with gear driven dampers for both the outdoor ventilation air and the return air for positive air stream control. Shall be capable of introducing up to -100% outdoor air. g. Shall be equipped with a barometric relief damper capable of relieving up to 100% return air. h. Shall be designed to close dampers) during loss -of -power situations with spring return built -into motor. i. An outdoor single enthalpy sensor shall be provided as standard. Outdoor air sensor setpoint shall be adjustable and shall range from the enthalpy equivalent of 63°F @ 50% rh to 73°F @ 50% rh. Additional sensor options shall be available as accessories. j. The economizer controller shall also provide control of an accessory power exhaust unit function. Factory set at 70%, with a range of 0% to 100%. k. The economizer shall maintain minimum airflow into the building during occupied period and provide design ventilation rate for full occupancy. A remote potentiometer may be used to override the damper setpoint. I. Dampers shall be completely closed when the unit is in the unoccupied mode. m. Economizer controller shall accept a 2-10Vdc CO2 sensor input for IAQ/DCV control. In this mode, dampers shall modulate the outdoor -air damper to provide ventilation based on the sensor input. n. Compressor lockout sensor on the unit controller is factory set at 35°F and is adjustable from 30°F (-1 °C) to 50°F (10°C) and resets the cooling lockout at 5°F (+2.7°C) above the set point. 0 0 o. Actuator shall be direct coupled to economizer gear. No linkage arms or control rods shall be arpeptablO. • • • • • s..• p. Economizer controller shall provide indications when in free cooling mode, in the DCV motlepor the exhaust fan contact IS closed. • .... • 609060 • .... • q. Economizer wire harness will have provision for smoke detector. 000090 2. Two -Position Motorized Damper a. Damper shall be a Two -Position Motorized Damper. Damper travel shall be from the full closed Sosition fb thsfield **:*0. adjustable °-open setpoint. ... . .• ..• . •...• b. Damper shall include adjustable damper travel from 25% to 100% (full open). 00. c. Damper shall include single or dual blade, gear driven dampers and actuator motor. 00000 d. Actuator shall be direct coupled to damper gear. No linkage arms or control rods shall be acceptable. ; " •' • . . e. Damper will admit up to 100% outdoor air for applicable rooftop units. .. .. f. Damper shall close upon indoor (evaporator) fan shutoff and/or loss of power. • • • g. The damper actuator shall plug into the rooftop unit's wiring harness plug. No hard wiring shall be required. h. Outside air hood shall include aluminum water entrainment filter 3. Manual damper a. Manual damper package shall consist of damper, air inlet screen, and rain hood which can be preset to admit up to 50% outdoor air for year round ventilation. 4. Head Pressure Control Package a. Controller shall control coil head pressure by condenser -fan cycling. 5. Condenser Coil Hail Guard Assembly a. Shall protect against damage from hail. b. Shall be louvered design. 6. Convenience Outlet: a. Non -Powered convenience outlet. 1. Outlet shall be powered from a separate 115-120v power source. 2. A transformer shall not be included. 3. Outlet shall be factory -installed and internally mounted with easily accessible 115-v female receptacle. 4. Outlet shall include 15 amp GFI receptacles. 5. Outlet shall be accessible from outside the unit. 7. Fan/Filter Status Switch: a. Switch shall provide status of indoor evaporator fan (ON/OFF) or filter (CLEAN/DIRTY). b. Status shall be displayed either over communication bus (when used with direct digital controls) or through the controller LCD display inside the unit control box. 8. Propeller Power Exhaust: a. Power exhaust shall be used in conjunction with an integrated economizer. b. Independent modules for vertical or horizontal return configurations shall be available. Guide Specifications RACD Series c. Horizontal power exhaust is shall be mounted in return ductwork. d. Power exhaust shall be controlled by economizer controller operation. Exhaust fans shall be energized when dampers open past the 0-100% adjustable setpoint on the economizer control. 9. Roof Curbs (Vertical): a. Full perimeter roof curb with exhaust capability providing separate air streams for energy recovery from the exhaust air without supply air contamination. b. Formed galvanized steel with wood nailer strip and shall be capable of supporting entire unit weight. c. Permits installation and securing of ductwork to curb prior to mounting unit on the curb. 10. High -Static Indoor Fan Motor(s) and Drive(s): a. High -static motor(s) and drive(s) shall be factory -installed to provide additional performance range. 11. Outdoor Air Enthalpy Sensor. a. The outdoor air enthalpy sensor shall be used to provide single enthalpy control. When used in conjunction with a return air enthalpy sensor, the unit will provide differential enthalpy control. The sensor allows the unit to determine if outside air is suitable for free cooling. 12. 13. Return Air Enthalpy Sensor: a. The return air enthalpy sensor shall be used in conjunction with an outdoor air enthalpy sensor to provide differential enthalpy control. 14. Indoor Air Quality (CO2) Sensor. : 0 * 0 : • a. Shall be able to provide demand ventilation indoor air quality (IAQ) control. .' . • • • • ; • b. The IAQ sensor shall be available in wall mount with LED display. The setpoint shall have a ... .. 0000 0000djustment capability. •. 15. Smoke detectors: • a. Shall be a Four -Wire Controller and Detector. • • • • • • 0000 . 0 . . b. Shall be environmental compensated with differential sensing for reliable, stable, and dr`44ree sensitivity ..' 00000 c. Shall use magnet -activated test/reset sensor switches. • • • • • • • ... 00.00 d. Shall have a recessed momentary switch for testing and resetting the detector. 00 . • • • 0 00000* 0 e. Controller shall include: ;";'; ' .• 1. One set of normally open alarm initiation contacts for connection to an initiating device circuit onafire 4arrn 0.0 0 : 0 control panel. 000 ...... 000 00 . 0 0 2. Two Form -C auxiliary alarm relays for interface with rooftop unit or other equipment. • • • 3. One Form -C supervision (trouble) relay to control the operation of the Trouble LED on a remote test/reset station. 4. Capable of direct connection to two individual detector modules. 5. Can be wired to up to 14 other duct smoke detectors for multiple fan shutdown applications. 16. Electric Heat: a. Heating Section 1. Heater element open coil resistance wire, nickel -chrome alloy, strung through ceramic insulators mounted on metal frame. Coil ends are staked and welded to terminal screw slots. 2. Heater assemblies are provided with integral fusing for protection of internal heater circuits not exceeding 48 amps each. Auto reset thermo limit controls, magnetic heater contactors (24 v coil) and terminal block all mounted in electric heater control box (minimum 18 ga galvanized steel) attached to end of heater assembly. 26 29 23.12. Adjustable Frequency Drive 1. Unit shall be supplied with an electronic variable frequency drive for the supply air fan. 2. Drive shall be factory installed in an enclosed cabinet. 3. Drive shall meet UL Standard 95-5VV, 4. The completed unit assembly shall be UL listed. 5. Drives are to be accessible through a tooled access hinged door assembly. 6. The unit manufacturer shall install all power and control wiring. 7. The supply air fan drive output shall be controlled by the factory installed main unit control system and drive status and operating speed shall be monitored and displayed at the main unit control panel. 8. Drive shall be programmed and factory run tested in the unit. RELY ON RUUD.TMlog Limited Warranty RACD Series BEFORE PURCHASING THIS APPLIANCE, READ IMPORTANT ENERGY COST AND EFFICIENCY INFORMATION AVAILABLE FROM YOUR RETAILER. GENERAL TERMS OF LIMITED WARRANTY* Ruud will furnish a replacement for any part of this product which fails in normal use and service within the applicable periods stated, in accordance with the terms of the limited warranty. Tor complete details of the Limited and Conditional Warranties, including applicable terms and conditions, contact your local contractor or the Manufacturer for a copy of the product warranty certificate. 110 RELY ON RUUD.TM Compressor 3 Phase, Commercial Applications ................Five (5) Years Parts 3 Phase, Commercial Applications ..................One (1) Year BEFORE PURCHASING THIS APPLIANCE, READ IMPORTANT ENERGY COST AND EFFICIENCY INFORMATION AVAILABLE FROM YOUR RETAILER. GENERAL TERMS OF LIMITED WARRANTY* Ruud will furnish a replacement for any part of this product which fails in normal use and service within the applicable periods stated, in accordance with the terms of the limited warranty. Tor complete details of the Limited and Conditional Warranties, including applicable terms and conditions, contact your local contractor or the Manufacturer for a copy of the product warranty certificate. 110 RELY ON RUUD.TM Compressor 3 Phase, Commercial Applications ................Five (5) Years Parts 3 Phase, Commercial Applications ..................One (1) Year A Lm Notes RACD Series 600.0 6666•• i0•• 6666•• 6666•• • • • 6666•• 6666 •• • • • 6666 • •• 6666• 6666•• • ••• 6666 6666•• 6666•• • • 6666•• 6666•• Y 6666•• RELY ON RUUD.'" 111 00*:* 0 0a 00.0 0000 0 0000.. 0000 0000.. 0000.. 0000.. 0000 .. 0000 . .. 0000. 0000.. 0000 0000. 0000.. • 0000.. 0000. 0000.. In keeping with its policy of continuous progress and product improvement, Ruud reserves the right to make changes without notice. Ruud Heating, Cooling & Water Heating • P.O. Box 17010 Ruud Canada • 125 Edgeware Road, Unit 1 Fort Smith, Arkansas 72917 • www.ruud.com Brampton, Ontario • L6Y OP5 RELY 1:3N RUUD.'m PRINTED IN U.S.A. 7118 OG FORM NO. S22-983 REV. 2 FLORIDA BUILDING CODE ENERGY CO . NSERVA71ON CHAPTER C4—COMMERCIAL ENERGY EFFICIENCY Form C402-2017 ALTERATIONS, RENOVATIONS and BUILDING SYSTEMS Climate Zone: 1 A Project Name: New Restaurant in Existing Building Occupancy type: Restaurant Address: 9835 NE 2nd Avenue Alteration _ Renovation VBuilding System City Zip Code: Miami Shores, FL, 33133 Building Permit No.: Builder. Permitting Office_ Owner, BUILDING ENVELOPE INFORMATION (Where changed) • • • • • • Requirement fjficiencyEnvelopeComponentDescription Location Unit . • • • • Regtdired InstaHedi Roof type Existing Table C402.1.4 or U -tactor or • • • • • • Exl lAcfTableC4021,3 R -value Roof ref3ectancelEmittance Existing Table C4023 Solar reflectance Exisileglowsloperoofs) Thermal emittance :": Wall type, above grade Existing 5U -tactor or • T Existing Wall, below grade Existing Table C402.1.4 or Table C402.1.3 k R -value Existing ExisDraFloortypeExisting Vertical fenestrations Existing s U -factor " ' Existing SHGC ExistingTableC402.4 5 U -factor ExistingSkylightsExistingSHGCExisting BUILDING SYSTEMS INFORMATION (for HVAC, service hot water or pool heating, lighting systems and replacement fenestration (C501.7)) Requirement EfficiencySystemtype (describe system) Location Unit Required Installed Air-conditioning system Package Units Tables C403.2.3 (i-3; 6-8; 9-11) SEER or EER, LEER 11 EER 11 EER Heating system Electric Strip Tables C403.2.3 (2-6) HSPF or COP AFUE, E. or E, Ventilationlair handling system Tables C403.2.12.1(1-2) Fan power (cfm) Ducts Metal Location: Open Space Table C403.2.9.1 R value Piping Fluid design operating temp: Table C403.2. 10 Inches Hot water Table C404.2 EF EF. COP Lighting Space tvpes: (append list) ITable C405,4.2 (1 or 2) Lighting power density Fenestrations: Enter information in BUILDING ENVELOPE INFORMATION box above. Other: COMPLIANCE IS BYANSIIASHRAEIIESNA 90.1 Submit alternate form or append documents as needed) I hereby certify that the plans and specifications covYM9,14 i>;/ogr ptlance with the Review ofplans and specifications covered by this Florida Building CodeConservation.calculation indicates compliance with the Florida Building PREPARE BY., Code; Energy Conservairon. Before constructionis DATE: _completed; this building will beinspected for compliance i hereby certify that rs building is in compliance witg Energy; in accordance with Section 553.908, FS. Conservation:70 BUILDING OFFICIAL: OINNER/AGENT : c : TA DATE, DATE: DATE, ,c. TE 0 qL 04GXX %\ 000.0 0000.. 0000 0000 0000.. 0000. . 0 . 0 0000. 0000. 0 . 0000.. 0 0 0 0 00 0 0 0000. 0000. 0 0 RACDZT Commercial Ultra® Series Nominal Sizes 7.5, 8.5, 10 & 12.5 Tons Standard VFD and optional HumidiDry® Technology ASHRAE 90.1-2013 Compliant Models RACDZS Commercial Achiever Plus® Series Nominal Sizes 7.5, 8.5, 10 & 12.5 Tons Optional VFD and HumidiDry® Technology ASHRAE 90.1-2007 Compliant Models ASHRAE 90.1-2013 Compliant Models RACDZR Commercial AchieverO Series Nominal Sizes 7.5, 8.5 & 10 Tons ASHRAE 90.1-2007 Compliant Models COU5 Em00015P - LIMB FORM NO. 522-983 REV. 2 Table of Contents RACD Series Unit Features and Benefits..................................................................................3-11 Model Number Identification..................................................................................12 Options..................................................................................................................13 Selection Procedure..............................................................................................14 General Data ZRSeries.......................................................................................................•....15 ZSSeries............................................................................................................16 ZTSeries............................................................................................................17 Gross Systems Performance Data ZRSeries......................................................................................................19.L1 ZS Series .......... ............................................... ........................................... Z'-25.. ZTSeries........................................................................................................26: i . HumidiDryTM (Reheat) Gross Systems Performance Data ti • . ZTSeries........................................................................................................V-31 Airflow Performance Data................................................................................8 53 • Electrical Data ZRSeries......................................................................................................54.56 ZSSeries......................................................................................................57-60 ZTSeries........................................................................................................61-64 Electric Heater Kits ............................... ............. ................................................ 65-78 DimensionalData ................................................ .............................................. 79-81 Field Installed Accessories..............................................................................82-103 Guide Specifications....................................................................................104-109 LimitedWarranty..................................................................................................110 2 RELY ON RUUD.TM Unit Features & Benefits RACD Series Single -Stag Two -Stage 1 DOE Efficiency 2023it 1 cooling Cooling Standards Compliant Standards Compliant HumidbryO TechrDlog" I RACDZT) X X X X X (Optional) r X X CommercialAchievef• X X Not Available Not AvailableSeries (RACDZR) a r Single -Stag Two -Stage 1 DOE Efficiency 2023it 1 cooling Cooling Standards Compliant Standards Compliant HumidbryO TechrDlog" I Commercial Ultra® Series RACDZT) X X X X X (Optional) Commercial Achiever Plus® Series (RACDZS) X X X (Optional) X (Optional) CommercialAchievef• X X Not Available Not AvailableSeries (RACDZR) RACD STANDARD FEATURES INCLUDE: Factory charged with R-41 OA HFC refrigerant Wired and run tested Scroll compressors with internal line break overload and high pressure protection Model RACDZR has a single -stage compressor Models RACDZS and RACDZT have two-stage compressor Convertible airflow - vertical down flow or horizontal side flow Forkable base rails for easy handling and lifting Cooling operation up to 125°F ambient MicroChannel evaporator and condenser coil PlusOne® ServiceSmart package includes: Qwik-Change Flex -Fit Rack Qwik-Slide Blower Assembly Qwik-Clean Drain Pan Overflow condensate sensor PlusOne® Diagnostics with Dual 7 -Segment LED Display to meet code compliance One-piece top cover and base pan with drawn supply and return opening Two-piece control door 4 turn fasteners on filter access door Color -coded and labeled wiring External lockable gauge ports TXV refrigerant metering system Solid -core liquid line filter drier High pressure and low pressure/loss of charge protection with built in Smart Logic Insulation encapsulated throughout entire unit High performance belt drive motor with variable pitch pulleys and quick adjust belt system Variable Frequency Drive (VFD) blower is standard on Model RACDZT and optional on model RACDZS New product footprint with matching connections Improved factory lead times RELY ON RUUD.T" 3 Unit Features & Benefits RACE Series FACTORY INSTALLED OPTIONS: Louvered panels Hinged access doors PlusOnel HumidiDry Dehumidification System (ZS/ZT) Low ambient/freeze stat Non -powered convenience outlet Economizer (Title 24 and ASHRAE 90.1 2013 Compliant) Supply and return smoke detector Return smoke detector ElectroFin® E -Coat for Microchannel Condenser Coil ClearControlTm Direct Digital Control (DDC) Comfort Alert/Phase monitor Vertical economizer FIELD INSTALLED ACCESSORY EQUIPMENT Accessory Model Number Factory Installation Available? Economizer w/Single Enthalpy (Downflow) RXRD-01 MDDAM3 Yes Economizer w/Single Enthalpy (Horizontal) RXRD-01 MDHAM3 No Economizer-w/Single Enthalpy Downflow) DDC RXRD-01MDDBM3 Yes Economizerw/Single Enthalpy Horizontal) DDC RXRD-01MDHBM3 No Dual Enthalpy Kit RXRX-BV01 No Dual Enthalpy Kit DDC RXRX-BV02 No Carbon Dioxide Sensor (Wall Mount) RXRX-AR02 No Power Exhaust RXRX-CDF01 C No Power Exhaust RXRX-CDF01 D No Manual Fresh Air Damper RXRF-ADA1 No Motorized Fresh Air Damper RXRF-AD61 No Motorized Fresh Air Damper (DDC) RXRF-ADC1 No Roofcurb, 14" RXKG-DDD14 No Roofcurb, 24" RXKG-DDD24 No Roofcurb Adapter RXRX-DDCAE No Concentric Diffuser 7.5/8.5 Ton Flush RXRN-AEF2000 No Concentric Diffuser 10.0 Ton Flush RXRN-AEF3415 No Concentric Diffuser 12.5 Ton Flush RXRN-AEF3618 No Concentric Diffuser 7.5/8.5 Ton Drop RXRN-AED2000 No Concentric Diffuser 10.0 Ton Drop RXRN-AED3415 No Concentric Diffuser 12.5 Ton Drop RXRN-AED3618 No Concentric Adapter 7.5/8.5 Ton Drop RXMC-DD01 No Concentric Adapter 10 Ton Drop RXMC-DD02 No Concentric Adapter 12.5 Ton Drop RXMC-DD03 No Outdoor Coil Louver Kit - ACD/090/102/120 RXRX-ADD04A Yes Outdoor Coil Louver Kit - ACD150 RXRX-ADD04B Yes Unwired Convenience Outlet RXRX-BN01 Yes Unfused Service Disconnect RXRX-BP01 Yes Comfort Alert (1 Per Compressor) RXRX-AZ01 DDC Yes Comfort Alert (1 Per Compressor) RXRZ-AZ02 Yes BACnet Communication Card RXRX-AY01 No See single point wiring kit model nomenclature on page 83. Variable Frequency Drive Kit model nomenclature on page 83. Accessory Model Number Factory Installation Available? LonWorks Communication Card RXRX-AY02 No Room Humidity Sensor RHC-ZNS4 No Room Temperature and Relative Humidity Sensor RHC-ZNS5 No Low Ambient Control Kit RXRZ A04 • Yes Freeze Stat Kit • RXIRX-AM01 • Yes Variable Frequency Drive Kit* • See model number break down below ikRXGD02 44ACO2 . " ' 71:11) AC03 we No No AC05 No XRX•AD02 • • No • RXRX-AD03 s • No R)=AD05 ' e • e No • V,-4,CCO2 No R XZC03 • No ' RXRX-CC05 No No RXRX-CD03 No RXRX-CD05 No Electric Heater Kits RXJJ-DD10CP Yes RXJJ-DD15CP Yes RXJJ-DD20CP Yes RXJJ-DD30CP Yes RXJJ-DD40CP Yes RXJJ-DD10DNV Yes RXJJ-DD15DNV Yes RXJJ-DD20DNV Yes RXJJ-DD30DNV Yes RXJJ-DD40DNV Yes Single Point Wiring Kit* RXJX-AC0605 No RXJX-AC0805 No RXJX-AD0605 No RXJX-AC0909 No RXJX-AD0609 No sees see see e• s•• 1 • • • • Cabinet and Foundation Outwardly, the large Ruud® Commercial Series label () identifies the brand to the customer. The sheet -metal cabinet (M) uses 18 -gauge material for structural components with an under- lying coat of G90. To ensure the leak -proof integrity of these units, the design utilizes a one-piece top with a 1/8" drip lip (M) as well as gasket -protected panels and screws. The Ruud hail guard optional) (®) sets the standard for coil protection in the industry. Electro deposition, baked -on enamel that is tested to withstand a rigorous 1000 -hour salt spray test, per ASTM 6117. Anything built to last must start with the right foundation. Follow- ing that model, the foundation is comprised of 14 -gauge, com- mercial -grade, full perimeter base rails (e) that integrate fork slots and rigging holes to save set-up time on the job site. Easy Installation The Renaissance line features a new footprint that simplifies the replacement process by eliminating the need for a new curb adapter and being able to match inlet, outlet and electrical con- nections of the most common/industry-standard configurations. Base Pan The base pan is stamped to form a 7/8" flange around the supply and return cover, which eliminates the wont' of water entering the conditioned space (©). All insulation is secured with both adhe- sive and mechanical fasteners, and all edges are hidden. Unit Features & Benefits RACD Series Drain Pan .. • The Qwik-Clean Drain PanTM ([njifivade froii a oompositep •;". material that resists the growth gf JVwvfj I bacteria."ilh both s cV and center drain options, the dralrl pari Slides out completely faro • • easy cleaning. It also features a it§QgarS overflow switch. • • Test Standards During development, each unit was tested to U.L. 1995, AHRI 340-360 as well as other Ruud -required reliability tests. Ruud adheres to stringent ISO 9002 quality procedures, and each unit bears the U.L. and AHRI certification labels located on the unit nameplate. Contractors can be assured that when a Ruud pack- age unit arrives at the job, it is ready to go with a factory charge and quality checks. Each unit also proudly displays the "Made in the USA" designation. Easy Access All major compartments are easily accessible from the front of the unit: the electrical compartment, blower compartment, heating section, and outdoor section. Each compartment has mechanical fasteners. Panels are permanently embossed with the compart- ment name (e.g. control/filter access, blower access, and electric heat access). The filter compartment is accessed through a large, mechanically fastened panel. Information is readily available on the outside of the panel, with a nameplate that contains the model and serial numbers, electrical data, and other important unit information. Hinged access is available as an option for the electrical, blower, and filter compartments. h, Unit Features & Benefits RACD Series Drain Pan .. • The Qwik-Clean Drain PanTM ([njifivade froii a oompositep •;". material that resists the growth gf JVwvfj I bacteria."ilh both s cV and center drain options, the dralrl pari Slides out completely faro • • easy cleaning. It also features a it§QgarS overflow switch. • • Test Standards During development, each unit was tested to U.L. 1995, AHRI 340-360 as well as other Ruud -required reliability tests. Ruud adheres to stringent ISO 9002 quality procedures, and each unit bears the U.L. and AHRI certification labels located on the unit nameplate. Contractors can be assured that when a Ruud pack- age unit arrives at the job, it is ready to go with a factory charge and quality checks. Each unit also proudly displays the "Made in the USA" designation. Easy Access All major compartments are easily accessible from the front of the unit: the electrical compartment, blower compartment, heating section, and outdoor section. Each compartment has mechanical fasteners. Panels are permanently embossed with the compart- ment name (e.g. control/filter access, blower access, and electric heat access). The filter compartment is accessed through a large, mechanically fastened panel. Information is readily available on the outside of the panel, with a nameplate that contains the model and serial numbers, electrical data, and other important unit information. Hinged access is available as an option for the electrical, blower, and filter compartments. Unit Features & Benefits RACD Series Charging Charts, Wiring Diagrams, & Labels Filter Rack Located within the filter compartment, the Qwik-Change Flex -Fit Rack TM (Fs) allows easy changeover between 2" and 4" standard size and readily available filters. Blower Assembly Removing three screws provides full access to the blower compartment. Inside, the Qwik-Slide Blower AssemblyTM (170) is incredibly easy to access and remove. This makes servicing internal components such as blower motor, TXV, and microchannel coil much easier. The entire assembly slides out by removing the 3/8" screws from the blower retention bracket. The adjustable motor pulley (Ti) can easily be adjusted by loosening the bolts on either side of the motor mount. Removing the bolts allows for easy removal of the blower pulley by pushing the blower assembly up to loosen the belt. Once the pulley is removed, the motor sheave can be adjusted to the desired number of turns, ranging from 0 to 6 turns open. Where the demands for the job require high static, Ruud offers drives that deliver nominal airflow up to 2" of static. By referring to the airflow performance tables listed in the installation instructions, proper static pressure and CFM requirements can be dialed in. The scroll housing (n) and blower scroll provide quiet and efficient airflow. The blower sheave is secured by an "H" bushing that firmly secures the pulley to the blower shaft, resulting in years of trouble-free operation. The "H" bushing allows for easy removal of the blower pulley from the shaft. This is an improvement from a set screw, which can score the shaft and create burrs that make blower -pulley removal difficult. High and Low Pressure Switches & Freeze Stat High pressure (ia) and low pressure (i4) switches are standard. They are located in the outdoor section along with the low -ambient control (M). The optional Freeze Stat (fs) (standard on models with ClearControl)I, is clipped onto the suction line in the blower compartment. The low ambient control allows the compressor to operate down to 0 degrees ambient temperature by cycling the outdoor fans on high pressure. The high-pressure switch shuts off the compressors if pressures exceeding 610 PSIG are detected. The low-pressure switch shuts off the compressors if low pressure is detected due to loss of charge. Built-in Smart Logic reduces nuisance calls by only shutting off compressors after the third detection. The freeze stat protects the compressor` the evapo- rator coil gets too cold (below freezing) due to low airflow. MicroChannel Evaporator & TXV The Microchannel Evaporator (» ) is accessible through the blower compartment, and through the filter rack, to simplify cleaning. The evaporator uses microchannel technology for maximum heat transfer, light weight, fewer manu- ally brazed connections and reduced refrigerant charge. The TXV metering device maintains superheat over a wide range of varying temperatures optimizing unit performance for all conditions. rrr. rrrr•r r • r rr•• rrrrr• r••rr• rrrrr• Control Box ClearControlTM The optional ClearControlTM system consisting of a rooftop unit controller, temperature sensors, and pressure sensors, allows real-time monitoring and communication between rooftop units. The Rooftop Unit Controller (RTU -C) that is factory mounted and wired into the control panel. The RTU -C is a solid-state, micro- processor -based control board that provides flexible control and extensive diagnostics for all unit functions. The RTU -C, using proportional/integral control algorithms, performs specific unit functions that govern unit operation in response to zone condi- tions, system temperatures, system pressures, ambient condi- tions, and electrical inputs. The RTU -C features a 16 x 2 character LCD display and a five -button keypad for local configuration and direct diagnosis of the system (®). Features include a clogged filter switch (CFS), fan proving switch (FPS), return air temperature sensor (RAT), discharge air temperature sensor (DAT), and out- door air temperature sensor (OAT). Freeze sensors (FS) are used in place of freeze stats to allow measurement of refrigerant suc- tion line temperatures. Unit Features & Benefits RACD Series The RACD with the RTU -C is specifically designed to be applied in four distinct applications: 1. BACnet Communication — The RACD is compatible with a third party building management system that supports the BACnet Application Specific Controller device profile, with the use of a field installed BACnet Communication Module. The BACnet Communication Module plugs onto the unit RTU -C controller and allows communication between the RTU -C and the BACnet MSTP network. A zone sensor, a BACnet network zone sensor, a BACnet thermostat, or DDC controller may be used to send the zone temperature or thermostat demands to the RTU -C. The BACnet Communication Module is compatible with MSTP EIA -485 daisy chain networks communicating at 38.4 bps. It is compatible with twisted pair,"Glad cables. 0000.. 2. LonWorks Communication='The'RACD.is compatible with • a third party building manag2ra jtS-ystem th'a? Supports the 0 t LonMark Space Comfort Contfcllet LSCC) functlbnal profilt"..: LonMark Discharge Air Controilar•(DAC) furl gn21 profile.'rhis ' is accomplished with a field inate8ed LonMark communic2t(W 0 . module. The LonMark Comnw4iioation Module plains onto't11A.. RTU -C controller and allows cpp$Ty. kation Satvlen the RAj-O • and a LonWorks network. A Zgrp,Wsor, a LonTalk network • zone sensor, or a LonTalk thEtmoSta: or DqG controller mey..: • be used to send the zone tem peratgre or thoMfstl demands to the RTU -C. The LonMark Gommunication Wdule utilizVcln FTT--10A free topology transceiver communicatinoqt'78.8 kbps. It is compatible with Echelon qualified, twisted pair cable, Belden 8471, or NEMA Level 4 cables. The module can com- municate up to 1640 feet with no repeater. The LonWorks limit of 64 nodes per segment applies to this device. 3. 24V Thermostat Compatibility — The RACD is compatible with a programmable 24 volt thermostat. Connections are made via conventional thermostat screw terminals. Extensive unit status and diagnostics are displayed on the LCD screen of the RTU -C. 4. Zone Sensor Compatibility — The RACD is compatible with a zone sensor and a mechanical or solid state time clock con- nected to the RTU -C. Extensive unit status and diagnostics are displayed on the LCD screen of the RTU -C. ComfortAlert® A factory or field installed Comfort Alert® (21) module is available for power phase -monitoring protection and additional compressor diagnostics. The alarms can be displayed on the RTU -C display, through the (BAS) network, or connected to the "L -Terminal' of a thermostat for notification. RELY ON RUUD.'" 7 Unit Features & Benefits RACD Series Variable Frequency Drive The supply fan Variable Frequency Drive (VFD) (zz) optimizes energy usage year round by providing a lower speed for first stage cooling operation, improving IEER's over the conventional constant fan system. Operating in the constant fan mode at the reduced speed can use as little as 1/5 of the energy of a conventional constant fan system. Also, by operating at a lower speed on first stage cooling, up to 126% more moisture is removed, improving comfort during low load operation. VFD comes standard in ZT models and is a factory or field installed option in ZS models. The VFD supply fan factory option meets California Title 24 and ASHRAE 90.1-2016 requirements for multi blower speed control. VFD also ramps up to the desired speed, reducing stress on the supply fan components and noise from a sudden inrush of air. Because the airflow is cut in half during first stage cooling and constant fan operation, noise is much less during these modes of operation. Convenience Outlet, Disconnect, & Circuit Breaker For added convenience in the field, factory -installed options of powered and non -powered convenience outlet (P), disconnect 2a) and circuit breakers are available. Low and high voltage can enter from the side or through the base. Low -voltage connections are made through the low -voltage terminal strip. For ease of access, the U.L.-required low voltage barrier can be temporarily removed for low -voltage termination and then reinstalled. The high-voltage connection is terminated at the number 1 compressor contactor. The suggested mounting for the field -installed disconnect or circuit breaker is on the exterior side of the electrical control box. External Lockable Gauge Ports 00 00 00 00 0 Compressor The compressor compartment houses the heart- beat of the unit. The scroll compressor ([ known for its long life and for reliable, quie and efficient operation. The suction and discharge lines are designed with shock loops (®) to absorb the strain and stress that the starting torque, steady state operation, and shut -down cycle impose on the refrigerant tubing. ZS and ZT units have two stages of efficient cooling oper- ation in which the first stage is approxi- mately 50% of second stage. Each unit comes standard with a filter dryer. Condenser Fans The condenser fan motors (®) can easily be accessed and main- tained through the top of the unit. A down -mount fan provides corrosion protection and easy removal. The polarized plug con- nection allows the motor to be changed quickly and eliminates the need to snake wires through the unit. MicroChannel Condenser Technology The outdoor coil uses the latest microchannel technology (®) for the most effective method of heat transfer. The outdoor coil is pro- tected by optional louvered panels, which allow unobstructed airflow while protecting the unit from both the environment and vandalism. Coil Coating Every unit offers the option of factory -applied ElectroFin® E -Coat condenser coating (3f) that delivers superior corrosion resistance for outdoor coils to operate in the harsh- est of environments. Unit Features & Benefits RACD Series Economizer and Dampers Each unit is designed for both down flow or horizontal applica- tions (32) for job configuration flexibility. The return air compartment can also contain an economizer. Each unit is prewired for the economizer to allow quick, plug-in installation. Available as a factory -installed option, the economizer provides fTJ Woofing when outdoor conditions are suitable.and also provides fresh air toYAM: local requirements. It comes sttgcod:vith single enthalpy controls, whichcapJA:;,. upgraded to dual enthalpy easLN 0.. the field. The direct drive actuator combined with gear drive dampers has eliminated the need for linkage adjust- k -' •, ment in the field. The economizer control ' • has a minimum RIYFpositionset S9 • ...... point, an outdoor -air set 32 point, a mixed -air set point, and a CO2 set point. Barometric relief is stan- dard on all economizers. Power Exhaust is easily field -installed. The power exhaust is housed in the barometric relief opening and is easily slipped in with a plugin assembly. The wire harness to the economizer also has accommodations for a smoke detector. The damper minimum position, actual damper position, power exhaust on/off set point, mixed air temperature limit set point, and Demand Controlled Ventilation (DCV) set point can be read and adjusted at the unit controller display or remotely through a net- work connection. The Space CO2 level, mixed air temperature, and Economizer Status (free cooling available, single or dual enthalpy) can be read at the unit controller display or remotely through a network connection. Economizer faults will trigger a network alarm and can be read at the unit controller display or remotely through a network connection. Unit Features & Benefits RACD Series Roofcurb The Ruud roofcurb (33) is made for tool -less assembly at the jobsite by engaging tabs in slots of adjacent curb sides, which makes the assembly process quick and easy. R 0000 0,900 HUMIDIDRY® SYSTEM FEATURES HumidiDry® is Ruud's exclusive dehumidification package unit solution. It delivers maximum humidity control without compromising desired temperature set point for a high degree of comfort. HumidiDry maintains humidity levels at a desired set point when there's little or no demand for air conditioning. The HumidiDry rooftop unit is controlled by a thermostat and humidistat. The thermostat takes priority on single -stage system. When the thermostat is activated by temperatures that exceed it set point, HumidiDry operates like a standard rooftop unit. It can operate on first stage cooling when demand is low or at full capacity when air conditioning load is high. Unlike other rooftop or reheat units, HumidiDry is uniquely designed so the VFD (M) will operate at a low speed, increasing moisture removal during first -stage cooling operation. This provides initial defense for controlling humidity. When temperature is desirable but humidity exceeds the humidistat set point, the HumidiDry rooftop unit initiates a dehumidification cycle using a combina- tion of hot gas and sub -cooled liquid reheat and the VFD oper- ates at low speed. During this cycle, the HumidiDry rooftop unit delivers dry, neutral air. On a two-stage system, it is possible for both a thermostat and humidistat to register readings above set point. Under this condition, the system runs in the high stage dehumidification cycle, and the VFD operates on high speed. This provides dry conditioned air. Figure 1 shows the refrigerant path during the normal cooling mode. The liquid refrigerant leaves the TXV with the sudden pres- sure drop causing the liquid to expand to a vapor and absorbing the heat from the supply air going through the evaporator coil. The refrigerant vapor then travels to the compressor where it is elevated to a higher pressure and temperature. The superheated refrigerant vapor next carries the heat to the outside coil where the heat is then rejected and the refrigerant condenses into a subcooled liquid where the process repeats itself. Unit Features & Benefits RACD Series Figure 2 shows the refrigerant paih during thereheai mode. thihien . the reheat cycle is energized bytne1M-C, the relft solenb" * valve (®), downstream of the rbheA?coil (®), t)Nns'. The lil!I6V ' solenoid valve (®), ahead of ttV?V,, Ploses. The'discharge ' • solenoid valve (E]), in the compressor'dischame.[M opens! the • • liquid refrigerant leaves the TXlhwith the sudden pressure dTV • causing the liquid to expand toa vapor and absorbinq the heat • •: from the supply air going through the evaporator coil. The refriger- ant vapor then travels to the compressor where it is elevated to a higher pressure and temperature. The refrigerant next carries the heat to a parallel path between the outside condenser coil and a bypass circuit. Some of the heat is rejected outdoors. The ratio of heat rejected outdoors versus indoors is controlled by an outdoor fan motor controller (OFMC) (a2) that monitors the two phase temperature (®) and varies the fan speed. This 2 -phase refriger- ant vapor is then sent to the reheat coil. As the refr igerant travels through the reheat coil it condenses into a subcooled liquid where the process repeats itself. Model Number Identification RACD Series R AC D ZT 090 A C A 15 2 A A *** 1 23 4 56 789 10 11 12 13 14 15 16 17 18 19 20 1—Brand 11—Voltage 16—Control R = Ruud C = 3 phase 208-230/60 A = Non communicating D = 3 phase 460/60 B = Comfort Alert/Phase Monitor 2, 3—Unit Type Y = 3 phase 575/60 C = Clear Control AC = Package AC D = Clear Control & Comfort Alert 12—Drive 4—Cabinet Type A = belt low static 17—Minor series D = Medium Commercial B = belt med static A ° • •' • • 5, 6—Series C = belt high static F = belt VFD low static 18, 19, „—„Qptiort Q te ZT1 = Tier 1 (Commercial G = belt VFD med static See next, page Ultra® Series) H = belt VFD high static ZS2 = Tier 2 (Commercial Achiever Plus@ Series) 13,14—Heat Capacity ZR3 = Tier 3 (Commercial 00 = No Heat Achievers Series) 10 = 10kw 7, 8, 9—Capacity 15 = 15kw 20 = 20kw 090 = 7.5 ton 30 = 30kw t.'. 102 = 8.5 ton 40 = 40kw 120 = 10 ton 150 = 12.5 ton4 15—Number of stages 0 = no stages 10—Major series 1 = 1 stage A 2 = 2 stage Notes: 1. ZT - can only select VFD drives (F, G, H) in character 12 2. ZS - can select any of the drive options in character 12 3. ZR - can only select standard drives (A, B, C) in character 12 4. ZR - not available for 12.5 ton models Options RACD Series FACTORY INSTALLED OPTION CODES FOR RACD V.5 TO 12.5 TON) 18 19 20 LV = Louver protection LF = Low Ambient / Freeze Stat EC = Economizer RH = Reheat (HumidiDry)', only available with VFD NP = Non -powered Convenience Outlet SS = Supply Smoke RS = Return Smoke HA = Hinged Access CC'= Coil Coating Option code character highlighted below Option code character highlighted below Option code#oheracter hiyhlighled below. A None A None 0••0• None• .•. B LV B LF 1 L'e C HA G NP 2 D LV HA D LF NP 3 RSO E LV CC 4 S$ M` F LV HA CC 5 EC' SS.' . RS G RH H LV RH J RH HA K LV RH CC L LV RH HA M LV RH I HA CC Reheat (HumidiDry) only available on units with F, G or H drives (VFD) and "C" or "D" control 2CC-requires LV (louver protection) Instructions for Factory Installed Option(s) Selection Note: Three characters following the model number will be utilized to designate a factory -installed option or combination of options. If no factory option(s) is required, "AAO" follows the model number. Step 1: In the table above, based on the desired features, choose option code character from highlighted options on the left side under the number 18. For example, the option code character "E" has Louver protection and Coil Coating. Step 2: In the table above, based on the desired features, choose option code character from highlighted options on the left side under the number 19. For example, the option code character "D" has Low Ambient / Freeze Stat and Non -powered convenience outlet. Step 3: In the table above, based on the desired features, choose option code character from highlighted options on the left side under the number 20. For example, the option code character "3" has Economizer and Return Smoke. The resulting option code from examples above is: "ED3" Step 4: Add your option code selection to the end of model number o Example: RACDZR090ACC150AA ED3 t t Base model Option code RACDZR090ACC150AAED3 Model number with option code Selection Procedure RACD Series To select an RACDZS Cooling and Heating unit to meet a job requirement, follow this procedure, with example, using data supplied in this specification sheet. 1. DETERMINE COOLING AND HEATING REQUIREMENTS AND SPECIFIC OPERATING CONDITIONS FROM PLANS AND SPECS. Example: Voltage- 230 V - 3 Phase - 60 Hz Total Cooling Capacity- 118,000 BTUH [34.57 kW] Sensible Cooling Capacity- 79,600 BTUH [23.32 kW] Heating Capacity- 150,000 BTUH [40 kW] Condenser Entering Air- 95°F [35.0°C] DB Evaporator Mixed AirEntering- 65°F [18.3°C] WB 78°F [25.6°C] DB Indoor Air Flow (vertical)- 3600 CFM [1699 Us] External Static Pressure- 0.40 in. WG [.10 kPa] 2. SELECT UNIT TO MEET COOLING REQUIREMENTS. Since total cooling is within the range of a nominal 10 ton 35.1 kW] unit, enter cooling performance table at 95°F [35.0°C] DB condenser inlet air. Interpolate between 63°F [17.2°C] WB and 67°F [19.4°C] to determine total and sensible capacity and power input for 65°F [18.3°C] WB evaporator inlet air at 3750 CFM [1770 Us] indoor air flow (table basis): Total Cooling Capacity = 118,900 BTUH [34.82 kW] Sensible Cooling Capacity = 99,950 BTUH [29.27 kW] Power Input (Compressor and Cond. Fans) = 8,950 watts Use formula [1.10 x CFM x (1 - DR) x (dbE - 80)] in note to determine sensible capacity at 80*F [26.7°C] DB evaporator entering air: 99,950 + (1.10 x 3,600 x (1 - 0.03) x (78 - 80)) Sensible Cooling Capacity = 92,268 BTUH [27.02 kW] 3. CORRECT CAPACITIES OF STEP 2 FOR ACTUAL AIR FLOW. Select factors from airflow correction table at 3600 CFM 1699 Us] and apply to data obtained in step 2 to obtain gross capacity: Total Capacity = 118,900 x 0.98 = 116,522 BTUH [34.12 kW] Sensible Capacity = 92,268 x 0.95 = 87,655 BTUH [25.67 kW] Power Input = 8,950 x 0.99 = 8,861 Watts These are Gross Capacities, not corrected for blower motor heat or power. 4. DETERMINE BLOWER SPEED AND WATTS TO MEET SYSTEM DESIGN. Enter Indoor Blower performance table at 3600 CFM [1699 Us]. Total ESP (external static pressure) per the spec of 0.40 in. WG [.10 kPa] includes the system duct and grilles. Add from the table "Component Air Resistance," 0.076 in. WG [.02 kPa] for wet coil, 0 in. WG [.00 kPa] for downflow air flow for a total selection static pressure of 0.476 (0.5) in. WG [.12 kPa], and determine: RPM = 771 WATTS = 1,494 DRIVE = A (Belt drive, low static) 5. CALCULATE INDOOR BLOWER BTUH HEAT EFFECT FROM MOTOR WATTS, STEP 4. 1,576 x 3.412 = 5,377 BTUH [1.57 kW] 6. CALCULATE NET COOLING CAPACITIES, EQUAL TO GROSS CAPACITY, STEP 3, MINUS INDOOR BLOWER MOTOR HEAT. Net Total Capacity = 116,522 - 5,377 = 111,145 BTUH [32.54 kW] Net Sensible Capacit):= 8JV5 - 5,877 = 82,278 BTUH [24.09 -kW] 7. CALCULATE UNIT INPUT ARQ QAEER. • Total Power Input = 8,864 (step 3) +41,5766 6009: step 4)=10,437.Watts ; ' • 64:060 EER = Net Total BTUH [kW] step fl=1110.44012 0.65 Power Input, WattS(ab80e) 10,437 • 8. SELECT UNIT HEATING CAp.ACMY. From Heater Kit Table select MN to meet heating capacity. requirement; multiply kW x 3412eito convert tp 5TUH. ; • • • • Use 40 kW Heater Kit 000000 Heater Kit Model: Heater Kit Capacity: RXXJJ-DD40CP 135,120 BTUH [39.6 kW] Add indoor blower heat effect (step 5) to Heater Kit Capacity to get total heating capacity: 135,120 + 5,377 = 140,497 BTUH [41.1 kW] 9. CHOOSE MODEL RACDZS120ACA402AA. NOTE: These operating conditions are typical of a commercial applica- tion in a 95*F/79*F [35*C/26°C] design area with indoor design of 76°F [24°C] DB and 50% RH and 10% ventilation air, with the unit roof mounted and centered on the zone it conditions by ducts. Designates Metric Conversions General Data RACD Series NOM. SIZES 7.5-12.5 TONS [26.4-44.0 kW] ASHRAE 90.1-2007 COMPLIANT MODELS Model RACOZR Series ZR090 ZR102 ZR120 Cooling Performance' Gross Cooling Capacity Btu [kW] 88,000 [25.78] 99,000 [29.011 118,000 [34.57] EER/SEER2 11.2/NA 11.2/NA 11.2/NA Nominal CFM/AHRI Rated CFM [Us] 3000/3175 [1416/1498] 3400/3200 [1604/1510] 4000/3480 [1888/1642] AHRI Net Cooling Capacity Btu [kW] 85,000 [24.9) 96,000 [28.13] 114,000 [33.4] Net Sensible Capacity Btu [kW] 62,700 [18.37] 68,300 [20.01] 80,600 [23.62] Net Latent Capacity Btu [kW] 22,300 [6.53] 27,700 [8.12] 33,400 1.79], • EER3 12.9 12.9 12.9'• • Net System Power kW 7.53 8.51 9.86 "; " w Compressor No./Type 1/Scroll 1/Scroll 1/Scroll' No. Stages 1 1 1 •••• www• Outdoor Sound Rating (dB)4 88 88 88 • • Outdoor Coil- Fin Type Louvered Louvered Louvel% • w Tube Type MicroChannel MicroChannel MicroC[Tnneh MicroChannel Depth in. [mm] 0.71 [18] 0.81 [20.6] 1 [25.4] V • • • • Face Area sq. ft. [sq. m] 25.4 [2.36] 25.6 [2.38] 25.6 [2% ' ; w w• • Rows/ FPI [FPcm] 1 / 23 [9] 1 /23191 1 / 23 [9]• w Indoor Coil - Fin Type Louvered Louvered Louvered Tube Type MicroChannel MicroChannel MicroChannel MicroChannel Depth in. [mm] 1 [25.4] 1.26 [32] 1.26 [32] Face Area sq. ft. [sq. m] 11 [1.02] 10.9 [1.01] 10.9 [1.01] Rows / FPI [FPcm] 1 / 20 [8] 1 / 20 [8] 1 / 20 [8] Refrigerant Control TX Valves TX Valves TX Valves Drain Connection No./Size in. [mm] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05) Outdoor Fan - Type Propeller Propeller Propeller No. Used/Diameter in. [mm) 2/24 [609.6] 2/24 [609.6] 2/24 [609.6] Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 CFM [Us] 8000 [3775] 8000 [3775] 8500 [4011] No. Motors/HP 2 at 1/5 HP 2 at 1/5 HP 2 at 1/3 HP Motor RPM 820 820 1075 Indoor Fan - Type FC Centrifugal FC Centrifugal FC Centrifugal No. Used/Diameter in. [mm] 1/15x15 [381x381) 1/15x15 [381x381] 1/15x15 [381x381] Drive Type Belt (Adjustable) Belt (Adjustable) Belt (Adjustable) No. Speeds Single Single Single No. Motors 1 1 1 Motor RPM 1725 1725 1725 Motor Frame Size 56 56 56 Filter - Type Disposable Disposable Disposable Furnished Yes Yes Yes NO.) Size Recommended in. [mm x mm x mm] 4)2x20x20 [51408408] 4)2x20x20 [51608408] 4)2x20x20 [51408408] Refrigerant Charge Oz. [g] 100 [2835] 117 [3317] 136 [3856] Weights Net Weight lbs. [kg] 736 [334] 762 [3461 791 [359] Ship Weight lbs. [kg] 775 [352] 801 [363] 830 [376] See Page 18 for Notes Designates Metric Conversions General Data RACD Series NOM. SIZES 7.5-12.5 TONS [26.4-44.0 WV] ASHRAE 90.1-2007* COMPLIANT MODELS Model RACDZS Series ZS090 ZS102 ZS120 ZS150 Cooling Performance' 3ross Cooling Capacity Btu [kW] 88,000 [25.78] 99,000 [29.01] 118,000 [34.57] 148,000 [43.36) EER/SEER2 11.2/NA 11.2/NA 11.2/NA 11/NA Nominal CFM/AHRI Rated CFM [Us] 3000/3200 [1416/1510] 3400/3225 [1604/1522] 4000/3480 [1888/1642] 5000/4150 [2360/1958] AHRI Net Cooling Capacity Btu [kW] 85,000 [24.9] 96,000 [28.13] 114,000 [33.4] 142,000 [41.61] Net Sensible Capacity Btu [kW] 62,700 [18.37] 68,300 [20.01] 79,600 [23.32] W,600 08.89] Net Latent Capacity Btu [kW] 22,300 [6.53] 27,700 [8.12] 34,400 [10.08] • • V46 n1.721 009004 AEER3 12.9 12.9 12.9 • • . 12.A het System Power kW 7.35 8.46 9.83 • • • • • • 1 B.69 Compressor 00:00 No./Type 1/Scroll 1/Scroll 1/Scroll • • 2f%demSScroll No. Stages 2 2 2 • • • • 92, Outdoor Sound Rating (dB)4 88 88 88 ";"; E; 09000 Outdoor Coil - Fin Type Louvered Louvered Louvered LbuvePed Tube Type MicroChannel MicroChannel MicroChannel •:': Micro't;hannel MicroChannel Depth in. [mm] 0.71 [18] 0.81 [20.6] 1 [25.41: 4 4.41 Face Area sq. ft. [sq. m] 25.4 [2.36] 25.6 [2.38] 25.6 [2.384 • • 1,5 L2.93] Rows / FPI [FPcm] 1 / 23 [9] 1 / 23 [9] 1 / 23 [9] 1 /t3{9] Indoor Coil - Fin Type Louvered Louvered Louvered Louvered Tube Type MicroChannel MicroChannel MicroChannel MicroChannel MicroChannel Depth in. [mm] 1 [25.4] 1.26 [32] 1.26 [32] 1 [25.4] Face Area sq. ft. [sq. m] 11 [1.02] 10.9 [1.01] 10.9 [1.01] 13.8 [1.28] Rows / FPI [FPcm] 1 / 20 [8] 1 / 20 [8] 1 / 20 [8] 2 /18 [7] Refrigerant Control TX Valves TX Valves TX Valves TX Valves Drain Connection No./Size in. [mm] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05] Outdoor Fan - Type Propeller Propeller Propeller Propeller No. Used/Diameter in. [mm] 2/24 [609.6] 2/24 [609.6] 2/24 [609.6] 2/24 [609.6] Drive Type/No. Speeds Direct/1 Direct/1 Direct/l Direct/l CFM [Us] 8000 [3775] 8000 [3775] 8500 [4011 ] 9000 [4247] No. Motors/HP 2 at 1/5 HP 2 at 1/5 HP 2 at 1/3 HP 2 at 3/4 HP Motor RPM 820 820 1075 1100 Indoor Fan - Type FC Centrifugal FC Centrifugal FC Centrifugal FC Centrifugal No. Used/Diameter in. [mm] 1/15x15 [381x381] 1/15x15 [381x381] 1/15x15 [381x381] 1/15x15 [381x381] Drive Type Belt (Adjustable) Belt (Adjustable) Belt (Adjustable) Belt (Adjustable) No. Speeds Single Single Single Single No. Motors 1 1 1 1 Motor RPM 1725 1725 1725 1725 Motor Frame Size 56 56 56 56 Filter - Type Disposable Disposable Disposable Disposable Furnished Yes Yes Yes Yes NO.) Size Recommended in. [mmxmmxmm] 4)2x20x20 [51x508x508] 4)2x20x20 [51408408] 4)2x2Ox20 [51x508x508] 4)2x20x25 [51x508x635] Refrigerant Charge Oz. [g[ 100 [2835] 117 [3317] 136 [3856] 186 [5273] Weights Net Weight lbs. [kg] 736 [334] 762 [346] 791 [359] 993 [450] Ship Weight lbs. [kg] 775 [352] 801 [363] 830 [376] 1032 [468] See Page 18 for Notes. 2013 with optional VFD Designates Metric Conversions General Data RACD Series NOM. SIZES 7.5-12.5 TONS [26.4-44:0 kM ASHRAE 90.1-2007 COMPLIANT MODELS Model RACDZT Series ZT090 Z'171 02 ZT120 ZT150 Cooling Performance' FC Centrifugal FC Centrifugal Gross Cooling Capacity Btu [kW] 88.000 [25.78] 99,000 [29.01] 118,000 [34.57] 148,000 [43.36] EER/SEER2 11.2/NA 112/NA 11.2/NA 11/NA Nominal CFM/AHRI Rated CFM [Us] 3000/3200 [1416/1510] 3400/3225 [1604/1522] 4000/3480 [1888/1642] 5000/4150 [2360/1958] AHRI Net Cooling-flapacity Btu [kW] 85,000 [24.9] 96,000 [28.13] 114,000 [33.4] 142,000 [41.61] Net Sensible Capacity Btu [kW] 62,700 [18.37] 68,300 [20.011 79,600 [23.32] 98j6VO [28.89] Net Latent Capacity Btu [kW] 22,300 [6.53] 27,700 [8.12] 34,400 [10.081 • • 43,400 [12.72]e • • • • • IEER3 14.8 14.8 14.8" ' 0•••14.2 •• Net System Power kW 7.35 F.46 10A* • : " 013.69 000000 Compressor FC Centrifugal FC Centrifugal No./Type 1/Scroll 1/Scroll 1/ScF*1 • • • • 2J.,'kWm Scroll ' No. Stages 2 2 0000 2 000• 2 0• + Outdoor Sound Rating (dB)4 88 88 88y • _ • 18 Outdoor Coil - Fin Type Louvered Louvered Louvey[v, •+• N „ • ouvered • Tube Type MicroChannel MicroChannel MicroCtQnneP MicroChannel, MicroChannel Depth in. [mm] 0.71 [18] 0.81 [20.6] 1 [25,4] + f [25.4] Face Area sq. ft. [sq. m] 25.4 [2.36] 25.6 [2.38] 25.6 [fA+ ; 315 [2.93] ;"• • Rows/ FPI [FPcm] 1 / 23 [9] 1 / 23 [9] 1 / 23 [9] 1,123 [9] Indoor Coll - Fin Type Louvered Louvered Louvered Louvered Tube Type MicroChannel MicroChannel MicroChannel MicroChannel MicroChannel Depth in. [mm] 1 [25.4] 1.26 [32] 1.26 [32] 1 [25.4] Face Area sq. ft. [sq. m] 11 [1.02] 10.9 [1.01] 10.9 [1.01] 13.8 [1.28] Rows / FPI [FPcm] 1 / 20 [8] 1 / 20 [8] 1 / 20 [8] 2 / 18 [7] Refrigerant Control TX Valves TX Valves TX Valves TX Valves Drain Connection No./Size in. [mm] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05] 1/0.75 [19.05] Outdoor Fan - Type Propeller Propeller Propeller Propeller No. Used/Diameter in. [mm] 2/24 [609.6] 2/24 [609.6] 2/24 [609.6] 2124 [609.6] Drive Type/No. Speeds Direct/1 Direct/1 DirecUl Direct/1 CFM [Us] 8000 [3775] 8000 [3775] 8500 [4011] 9000 [4247] No. Motors/HP 2 at 1/5 HP 2 at 1/5 HP 2 at 1/3 HP 2 at 3/4 HP Motor RPM 820 820 1075 1100 Indoor Fan - Type FC Centrifugal FC Centrifugal FC Centrifugal FC Centrifugal No. Used/Diameter in. [mm] 1/15x15 [381x381] 1/15x15 [381x381] 1/15x15 [381x381] 1/15x15 [381x381] Drive Type Belt (Adjustable) Belt (Adjustable) Belt (Adjustable) Belt (Adjustable) No. Speeds Single Single Single Single No. Motors 1 1 1 1 Motor RPM 1725 1725 1725 1725 Motor Frame Size 56 56 56 56 Filter - Type Disposable Disposable Disposable Disposable Furnished Yes Yes Yes Yes NO.) Size Recommended in. [mm x mm x mm] 4)2x20x20 [51x508x508] 4)2x20x20 [51408408] 4)2x20x20 [51408408] 4)2x20x25 [51408435] Refrigerant Charge Oz. [g] 100 [2835] 117 [3317] 136 [3856] 186 [5273] Weights Net Weight lbs. [kg] 736 [334] 762 [346] 791 [359] 99314501 Ship Weight lbs. [kg] 775 [352] 801 [363] 830 [376] 1032 [468] See Page 18 for Notes Designates Metric Conversions RELY ON RTMUUE).17 General Data Notes RACD Series NOTES: 1. Cooling Performance is rated at 950 F ambient, 80° F entering dry bulb, 67° F entering wet bulb. Gross capacity -does not include the effect of fan motor heat. AHRI capacity is net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Units are certified in accordance with the Unitary Air Conditioner Equipment certification program, which is based on AHRI Standard 340/360. 2. EER and/or SEER are rated at AHRI conditions and in accordance with DOE test procedures. 3. Integrated Energy Efficiency.Ratio (IEER) is rated in accordance with AHRI Standard 340/360. 4. Outdoor Sound Rating shown is tested in accordance with AHRI Standard 270. Designates Metric Conversions 0000•• 0000•• 0000 0000 0000•• 0000•• H RELY 0N RUUD.TM 000.0 0000•• 0000 • 0000 0000•• 0000•• 0000• 0000• 0000•• 0000•• 0000•• 0000•• Gross Systems Performance Data RACD Series COOLING PERFORMANCE DATA-RACDZRO90A ENTERING INDOOR AIR 0 80°F [26.7°C] ME aD wbE 71°F [21.7 -Cl 67°F [19.4°Cl 63°F [17.2°Cl CFM pJs1 4500 [21241 3750 [17701 3000 [14161 4500 [21241 3750 [1770] 3000 [1416] 4500 [21241 3750 [17701 3000 [14161 DR 0? 0 0.01 0.09 0 0.01 0.09 0 0.01 0.09 75 Total BTUH [kM 179.6 [52.6] 173.3 [50.8] 167.0 [48.9] 172.2 [50.5] 166.2 [48.7] 160.2 [46.9] 167.3 [49.0] 161.4 147.31 155.5 [45.6] 23Sens BTUH [kW] 113.4 [33.2] 97.4 [28.5] 82.6 [24.2] 131.0 [38.4] 113.8 [33.3] 97.7 [28.6] 147.4 [43.2] 128.9 137.81 111.5 [32.7] O Power 10.2 10.0 9.9 10.1 9.9 9.8 10.0 9.9 9.7 U 80 Total BTUH [kW] 175.0 [51.3] 168.9 [49.5] 162.8 [47.7] 167.6 [49.11 161.8 [47.4] 155.9 [45.7] 162.7 [47.71 157.0 [46.0] 151.3 [44.3] T 26'7] Sens BTUH [kWJ 110.9 [32.5] 95.3 [27.9] 80.9 [23.7] 128.5 [37.7] 111.7 [32.7] 95.9 [28.1] 144.9 [42.5] 126.8 [37.2] 109.8 [32.2] D O Power 10.6 10.4 10.3 10.5 10.4 10.2 10.4 10.3 10.1 Total BTUH [kW] 170.5 [50.0] 164.5 [48.2] 158.5 [46.4] 163.1 [47.8] 157.4 [46.1 ] 151.6 [44.4] 158.1 [46.3] 152.5 [44.71 147.0 [43.11R ZI'] Sens BTUH [kW] 108.5 [31.8] 93.2 [27.3] 79.1 [23?] 126.1 [36.9] 109.6 [32.1] 94.1 [27.6] 142.4 [41.71 124.6 [36.51 108.0 [31.6] D Power 11.1 10.9 10.7 11.0 10.8 10.6 10.9 h • 10.5 R Y 90 Total BTUH [kW] 165.9 [48.6] 160.1 [46.9] 154.3 [45.2] 158.5 [46.4] 153.0 [44.8] 147.4 [43.2] 153.54A q] 101 [43.4] 142.8t41.1f]• 32'2] Sens BTUH [kW] 105.8 [31.0] 91.0 [26.7] 77.2 [22.6] 123.4 [36.2] 107.4 [31.5] 92.3 [27.0) 139.9 [40.0] 122.4[45" 1 Z••• 106.2 [31.1]. B Power 11.6 11.4 11.2 11.5 11.3 11.1 41.4.• 11.% . U 95 Total BTUH [kM 161.4 [47.3) 155.7 [45.6] 150.0 [43.9] 154.0 [45.1] 148.6 [43.5] 143.2 [42.0] 4404{48.7] 143.8 [42.1] 138.5440.6] B Sens BTUH [kW] 103.3 [30.3] 88.8 [26.0] 75.3 [22.11 120.9 [35.4] 105.2 [30.8] 90.5 [26.51 137 4V.2] 1241[35.21 104.3:A.151' T Power 12.1 11.9 11.6 12.0 11.8 11.6 11.9 • 011.4 • 11.5 E M 100 Total BTUH PMSensBTUH 156.8 [45.9] 100.6 151.3 [44.3] 145.8 [42.7] 149.4 [43.8] 144.2 [42.3] 139.0 [40.7] 144.5J42.3] 114.6 A2] 139.4 [40.8 134.3 [39.8] P 7'8] IcNlJ 29.5] 86.5 [25.3] 73.4 [21.51 118.2 [34.6] 102.9 [30.11 88.6 [26.0) 114,6[3dfif 1 02.43t•br E Power 12.6 12.4 12.2 12.5 12.3 12.1 12.4* Al • 1" • • R105 Total BTUH [kWJ 152.3 [44.6] 147.0 (43.1] 141.6 [41.5] 144.9 [42.5] 139.8 [41.0] 134.8 [39.5] h'9:A:J 135.0 [39.6] 130.1 [38.1]' T 40.6] SensSens BTUH [kM 98.0 [28.7] 84.3 [24.7] 71.5 (20.9] 115.6 [33.9] 100.6 [29.5] 86.7 [25.4] 431.9 [386] 115.7 [33.91 100.5{20.4} U 13.2 13.0 12.7 13.1 12.9 12.6 13.4 i • • • 12.5 R E 110 Total STUN [kW] 147.8 [43.3] 142.6 [41.8] 137.4 [40.3] 140.4 141.1] 135.5 [39.7] 130.6 [38.3] 1iW [39 ] 130.2 [aUW 125.9:A.%r F 43.3] Sens BTUH [kW] 95.3 [27.9) 82.0 [24.0] 69.6 [20.4] 112.9 133.1] 98.4 [28.8] 84.8 (24.81 129.2 [37.9) 115. , • 98.6 [28.9] Power 13.8 13.5 13.3 13.7 13.5 13.2 13.6 13.4 13.1q 115 Total BTUH (kW) 143.3 [42.0] 138.3 [40.5] 133.3 [39.1] 135.9 [39.8] 131.2 [38.4] 126.4 [37.0] 130.9 [38.4) 126,.4 [37.0] 121.8 [35.7] 46'11 Sens BTUH [kW] 92.6 [27.1] 79.7 [23.4] 1 67.7 [19.8] 1 110.1 [32.3] 96.0 [28.11 82.7 [24.2] 126.4 [37.0] 111.1 [32.6] 96.6 [28.31 Power 14.4 14.2 13.9 14.3 14.1 13.8 14.2 14.0 13.7 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: O When the entering air dry bulb is other than 80°F [27°C], adjust the sensible dbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 -DR) x (dbE - 80)]. wbE-Entering air wet bulb Power -KW input Designates Metric Conversions Gross Systems Performance Data RACD Series COOLING PERFORMANCE DATA- RACDZR102A ENTERING INDOOR AIR 0 80°F [26.7-C] ME wbE 71'F[21.7°Cl 57'F[19.4°CI 63°F[17.2°CI CFM [11s) 4500[2124] 3750117701 3000114161 4500 [21241 3750117701 3000[1416] 4500 [21241 3750[17701 1 3000[1416] DR O 0 0.01 0.09 0 0.01 0.09 0 0.01 0.09 75 Total BTUH [kW] 179.6 [52.6] 173.3 [50.8] 167.0 [48.9] 172.2 (50.5] 166.2 [48.7] 160.2 (46.9] 167.3 [49.0] 161.4 [47.3] 155.5 [45.6] 123.91 Sens BTUH [kW] 113.4 [33.2] 97.4 [28.5] 82.6 [24.2] 131.0 [38.4] 113.8 [33.3] 97.7 [28.6] 147.4 [43.2] 128.9 [37.8] 111.5 [32.7] O Power 10.2 10.0 9.9 10.1 9.9 9.8 10.0 9.9 9.7 U Total BTUH [kW] 175.0 [51.3] 168.9 [49.5] 162.8 [47.7] 167.6 [49.1] 161.8 [47.4] 155.9 [45.7] 162.7 [47.71 157.0 [46.0) 151.3 [44.3] T 80 Sens BTUH [kW] 110.9 [32.5] 95.3 [27.9] 80.9 [23.7] 128.5 [37.7] 111.7 [32.7] 95.9 128.1 ] 144.9 [42.5] 126.8 [37.2) 109.8 [32.2] D O 26.7] Power 10.6 10.4 10.3 10.5 10.4 10.2 10.4 10.3 10.1 M Total BTUH [kW] 170.5 [50.0) 164.5 [48.2] 158.5 [46.4] 163.1 [47.8] 157.4 [46.1] 151.6 (44.4] 158.1 [46.3] 152.5 [44.7] 147.0 [43.1] R 4] Sens BTUH [kW] 108.5 [31.8] 93.2 [27.3] 79.1 [23.2] 126.1 [36.9] 109:6 [32.11 94.1 [27.6] 142.4 (41.7) 124.6 [36.5] 108.O, -i1.6] D Power 11.1 10.9 10.7 11.0 10.8 10.6 10.9 lo:"**:* 10.5 R Y 9 Total BTUH [kW] 165.9 [48.61 160.1 [46.9] 154.3 [45.2] 158.5 (46.4] 153.0 [44.8] 147.4 [43.2] 15 [450f, 148.1 M3.4] 142.8 [41tr 32B0 Sens BTUH [kW] 105.8 [31.01 91.0 [26.71 77.2 [22.6] 123.4 (36.2] 107.4 [31.5] 92.3 [27.0] 139.7140.9] 122.4 391.M • 1 106.2 [31.1] Power 11.6 11.4 11.2 11.5 11.3 11.1 4Ilk 11. • • • 11.0 • • U im] Total BTUH [kW] 161.4 [47.3] 155.7 [45.6] 150.0 [43.9] 154.0 [45.1] 148.6 [43.5] 143.2 [42.0] 14W444> 143.8 [42.1) • 138.5 [406] B Sens BTUH [kW] 103.3 [30.3] 88.8 [26.0] 75.3 [22.1] 120.9 [35.4] 105.2 (30.8] 90.5 [26.5] 137.2 V,?b 120.3 [3J,2] 104.3 [30Zr T Power 12.1 11.9 11.6 12.0 11.8 11.6 11.9A-OJLL 11.9 • 11.5 E 700 Total BTUH [kW] 156.8 [45.9] 151.3 [44.3] 145.8 [42.7] 149.4 [43.8] 144.2 [42.3] 139.0 [40.7) 144.5•J2 L 139.4 [4Q.8] 134.3 [39.3 M F' Sens STUN [kW] 100.6 [29.5] 86.5 [25.3] 73.4 (21.5] 118.2 (34.6] 102.9 [30.1 ] 88.6 [26.0] 134.6 [30.4] 118.0 [•31'6]:1102.4130% E Power 12.6 12.4 12.2 12.5 12.3 12.1 11.4 •• 12.2•• 12.0 •• RR 705 Total BTUH [kW] 152.3 [44.6] 147.0 [43.1] 141.6 [41.51 144.9 [42.5] 139.8 [41.0] 134.8 [39.5] 13 131r 135.0 [39.6]• 130.1 (38.1] T 14D.6] Sens BTUH [kW] 98.0 [28.7] 84.3 [24.7] 71.5 [20.9] 115.6 [33.9] 100.6 [29.5] 86.7 [25.4] 13119 [38.6] 115.7 3.T • 100.5 1290? U Power 13.2 13.0 12.7 13.1 12.9 12.6 013.0 • 12 12.5 • R E 710 Total BTUH [kW] 147.8 [43.3] 142.6 [41.8] 137.4 [40.3] 140.4 [41.1] 135.5 [39.7] 130.6 [38.3] 135.4{30.7] 130.7 [36.1] 125.9 [3 F 143'31 Sens BTUH [kW] 95.3 [27.9] 82.0 [24.0] 69.6 [20.4] 112.9 [33.11 98.4 [28.8] 84.8 [24.8] 129.2 [37.9) 113.5 M" • 98.6 [28.9] Power 13.8 13.5 13.3 13.7 13.5 13.2 13.6 13.4 13.1q 115 Total BTUH [kW] 143.3 [42.0] 138.3 [40.5] 133.3 [39.1] 135.9 [39.8] 131.2 [38.4] 126.4 [37.01 130.9 [38.4] 126.4 [37.0] 121.8 [35.7] x'11 Sens BTUH [kW] 92.6 [27.1] 79.7 [23.4] 67.7 [19.8] 110.1 [32.3] 96 [28.1] 82.7 [24.2] 126.4 [37.0] 111.1 [32.6] 96.6 [28.3] Power 14.4 14.2 13.9 14.3 14.1 13.8 14.2 14.0 13.7 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: O When the entering air dry bulb is other than 80°F [27°C], adjust the sensible dbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. wbE -Entering air wet bulb Power -KW input Designates Metric Conversions 2O RELY ON RUUD.TM COOLING PERFORMANCE DATA-RACDZR120A ENTERING INDOOR AIR 0 80°F [26.7°C] dbE 110 wbE 71°F121.7°Cl 57"F 119.4°Cl 63°F[17.2°Cl 61°F [16.1°C1 59'F[15.0°Cl CFM [US] 4800 [2265] 3480 [16421 3200 [1510] 4800 [22651 3480 [1642] 3200 [1510] 4600 (22651 3480 [1642] 3200 [15101 4800 [2265] 3480 [16421 3200 [15101 4800 [2265] 3480 [1642] 3200 [15101 ORO 0.03 0.03 0.05 0.03 0.03 0.05 0.03 0.03 0.05 0.03 0.03 0.05 0.03 0.03 0.05 75 Total BTUH [kW] 158.0 [46.3] 147.8 (43.3] 145.6 [42.7] 150.4 [44.11 140.7 [41.2] 138.6 [40.6] 145.2 [42.6) 135.8 [39.8] 133.9 [39.2] 143.9 [42.2] 134.7 [39.5] 132.7 (38.9] 143.8 [42.11 134.5 [39.4] 132.6 (38.8] 7391 Sens BTUH [kW] 101.3 [29.71 86.1 (25.2] 82.8 [24.3] 120.6 [35.3] 102.4 [30.0] 98.6 [28.9] 138.3 [40.5) 117.5 (34.4] 113.1 133.1] 143.9 [42.2] 124.3 [36.4) 119.6 [35.1] 143.8 [42.11] 130.4 [38.21 125.5 (36.8] n CDm Power 7.5 7.3 7.2 7.4 7.2 7.1 7.3 7.1 7.1 7.3 7.1 7.0 7.3 7.0 7.0 80 Total BTUH [kW] 153.2 [44.91 143.4 [42.0] 141.3 [41.4] 145.6 [42.7] 136.2 [39.9] 134.2 [39.3] 140.5 [41.2] 131.4 [38.51 129.5 [37.9] 139.2 [40.8] 130.2 [38.2] 128.3 [37.6] 139.1 [40.81 130.1 [38.1] 128.2 (37.6] Sens BTUH [kW] 98.8 [29.0] 84.0 [24.6] 80.8 [23.7] 118.1 [34.6] 100.3 [29.4) 96.6 [28.3] 135.9 [39.8] 115.4 [33.8] 111.1 [32.6] 139.2 [40.81 122.2 [35.8] 117.6 (34.5] 139.1 [40.81 128.3 [37.6) 123.4 (36.21 O Power 8.0 7.7 7.6 7.9 7.6 7.6 7.8 7.5 7.5 7.7 7.5 7.4 7.7 7.4 7.4 U 85 Total BTUH [kW] 148.5 143.51 138.9 [40.7] 136.9 (40.1] 140.9 [41.3] 131.8 [38.6) 129.9 [38.1) 135.8 [39.8] 127.0 [37.2) 125.1 (36.7] 134.5 (39.4] 125.8 [36.9] 124.0 [36.3] 134.4 [39.4] 125.7 [36.8] 123.9 (36.3] TD 129.41 Sens BTUH [kW] 96.3 [28.2] 81.8 [24.0] 78.8 (23.1] 115.6 [33.9) 98.2 [28.81 94.5 [27.71 133.3 [39.1] 113.3 [33.2) 109.0 (32.0] 134.5 (39.41 120.1 [35.2] 115.6 [33.9) 134.4 139.41 125.7 [36.8] 121.4 (35.6] 0 Power 8.4 8.1 8.1 8.3 8.0 8.0 8.2 8.0 7.9 8.2 7.9 7.9 8.1 7.9 7.8 OB 900 Total BTUH [kW] 143.8 [42.1) 134.5 [39.41 132.6 [38.81 136.2 [39.9] 127.4 (37.3] 125.5 [36.8] 131.1 [38.4) 122.6 [35.9] 120.8 [35.41 129.8 [38.0) 121.4 [35.6] 119.6 [35.1] 129.7 (38.0] 121.3 [35.51 119.5 [35.0] 13 Sens BTUH [kW] 93.8 [27.51 79.7 [23.31 76.7 [22.5) 113.0 [33.1] 96.0 [28.1] 92.4 [27.1] 130.8 [38.3] 111.1 (32.6] 106.9 [31.31 129.8 (38.0] 117.9 [34.5] 113.5 [33.3) 129.7 (38.0] 121.3 [35.5] 119.3 [35.0] D Power 8.9 8.6 8.5 8.8 8.5 8.5 8.7 8.4 8.4 8.7 8.4 8.3 8.6 8.3 8.3 R Y 95 Total BTUH [kW] 139.1 140.8] 130.2 [38.1] 128.2 137.61 131.5 138.51 123.0 [36.1) 121.2 [35.5] 126.4 137.01 118.2 [34.6] 116.5 [34.1 ] 125.1 [36.7] 117.0 [34.3) 115.3 [33.8] 125.0 [36.6] 116.9 [34.3] 115.2 [33.8] 35) Sens BTUH [kW] 91.2 [26.7] 77.5 [22.7] 74.6 [21.8) 110.4 (32.4] 93.8 [27.51 90.3 126.51 126.4 137.01 108.9 (31.9] 104.8 [30.7] 125.1 [36.7] 115.7 [33.91 111.3 [32.6] 125.0 (36.6] 116.9 [34.3] 115.2 [33.8] B Power 9.4 9.1 9.0 9.3 9.0 9.0 9.2 8.9 8.9 9.2 8.9 8.8 9.1 8.8 8.8 Total BTUH [kW] 134.5 139.4] 125.8 [36.9] 123.9 136.31 1 26.8 [37.2) 118.7 [34.81 116.9 134.31 121.7 135.7] 113.8 [33.4] 112.2 [32.91 120.4 [35.31 112.7 [33.0) 111.0 [32.5) 120.3 [35.3] 112.5 [33.01 110.9 [32.5] B 37681 Sens BTUH [kW] 88.5125.91 75.2 [22.01 72.4 [21.2] 107.8 131.61 91.6 [26.8) 88.1 [25.81 121.7 135.71 106.7 [31.3] 102.7 [30.1] 120.4 [35.3] 112.7 [33.0] 109.2 [32.0) 120.3 (35.3] 112.5 [33.01 110.9 (32.5] T Power 10.0 9.6 9.6 9.9 9.5 9.5 9.8 9.5 9.4 9.7 9.4 9.3 9.7 9.4 9.3 E Total BTUH [kW] 129.8 (38.0) 121.4 135.61 119.6 [35.11 122.2 [35.81 114.3 [33.5] 112.6 (33.0) 117.0 (34.3] 109.5 [32.1) 107.9 131.61 115.8 [33.91 108.3 [31.7) 106.7 [31.31 115.6 [33.9] 108.2 [31.7] 106.6 (31.2) P 40.6] Sens BTUH [kW] 85.9 [25.21 73.0121.41 70.2 [20.61 105.1 [30.8] 89.3 (26.2] 86.0 [25.2) 117.0 (34.31 104.4 [30.6] 100.5 (29.41 115.8 [33.91 108.3 131.71 106.7 [31.3] 115.6 [33.9] 108.2 [31.7] 106.6 [31.2] E Power 10.5 10.2 10.1 10.5 10.1 10.0 10.4 10.0 10.0 10.3 10.0 9.9 10.3 9.9 9.9 R A 110 Total BTUH [kW] 125.1 [36.7) 117.1 (34.3) 115.4 [33.8) 117.5 [34.4] 109.9 (32.2] 108.3 [31.7) 112.4 [32.9] 105.1 [30.8] 103.6 (30.4] 111.1 [32.6] 104.0 [30.5) 102.4 [30.0] 111.0 [32.5] 103.8 [30.4] 102.3 [30.0] T 4331 Sens BTUH [kW) 83.1 [24.4) 70.6 [20.7) 68.0 [19.91 102.4 [30.0] 87.0 [25.5) 83.7 [24.51 112.4 [32.9] 102.1 [29.91 98.3 [28.8] 111.1 [32.6] 104.0 [30.5] 102.4 [30.0] 111.0 [32.5] 103.8 [30.4] 102.3 [30.0] U Power 11.2 10.8 1 10.7 11.1 10.7 10.6 11.0 10.6 10.5 10.9 10.6 10.5 10.9 10.5 10.5 E 15115 Total BTUH (kWJ 120.5 [35.3] 112.7 [33.0] 111.1 [32.61 112.9 133.1] 105.6 [31.0] 104.1 [30.5] 107.8 [31.6] 100.8 [29.5] 99.3 (29.1] 106.5 [31.2] 99.6 129.2] 98.2 [28.8] 106.4 [31.2] 99.5 [29.21 98.0 [28.7] 14e` Sens BTUH JkW] 80.4 [23.6] 68.3 [20.0] 65.7 (19.3] 99.7 [29.2] 84.7 [24.8] 81.5 [23.91 107.8 [31.61 99.8 [29.2] 96.0 [28.1) 106.5 [31.2] 99.6 (29.2) 98.2 [28.8] 106.4 [31.2] 99.5 [29.2] 98.0 [28.7] F 001 Power 11.8 11.4 11.3 11.7 11.3 11.311.6 11.2 11.2 11.6 11.2 11.1 11.5 11.2 11.1 129 Total BTUH [kM 115.9 [34.0] 108.4 [31.81 106.8 [31.3] 108.3 131.71 101.3 [29.7] 99.8 [29.3] 103.1 [30.2] 96.5 [28.3] 95.1 [27.9] 101.9 (29.9] 95.3 (27.9] 93.9 127.5] 101.7 [29.8] 95.2 [27.9] 93.8 [27.51 4991 Sens BTUH [kW] 77.6 [22.71 65.9 [19.31 63.5 [18.6] 96.9 [28.41 82.3 [24.11 79.2 [23.2] 103.1 [30.2] 96.5 [28.3] 93.7 [27.5] 101.9 129.91 95.3 [27.9] 93.9 (27,51 101.7 (29.8] 95.2 [27.9] 93.8 [27.5] Power 12.5 12.1 12.0 1 12.4 12.0 11.9 12.3 1 11.9 11.8 12.3 11.9 11.8 12.2 11.8 11.7 125 Total BTUH [kW] 111.3 [32.61 104.1 (30.51 102.6130 .1) 103.7 [30.41 97.0 (28.41 95.6 128.01 98.5 [28.9] 92.2 [27.01 90.8 126.6] 97.3 [28.51 91.0 [26.7] 89.7 [26.3] 97.1 [28.5] 90.9 [26.6) 89.5 [26.2) 5171 Sens BTUH [kW] 74.8 [21.91 63.5 [18.61 61.1 117.9) 94.0 [27.61 79.9 (23.4) 76.9 [22.51 98.5 [28.9] 92.2 [27.0) 90.8 126.6] 97.3 [28.51 91.0 [26.7] 89.7 [26.3] 97.1 [28.5] 90.9 [26.6) 89.5 [26.2] Power 13.2 12.8 12.7 13.1 12.7 12.6 13.0 12.6 12.5 13.0 12.5 12.5 12.9 1 12.5 12.4 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: Cu When the entering air dry bulb is other than 80°F [27°C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - Mg. Desigsates Metric ConversionswbE-Entering air wet bulb Power -KW input a 0 N0 N N MM r U' 3N d' 3 n CDm COOLING PERFORMANCE DATA-RACDZS090A ENTERING INDOOR AIR @ 80-F [28.7'C] ME (D wbE 711 [21.7'C1 57'F[19.4'C1 63'F [17.2'C1 61'F116.1*Cl 59'F[15.0'C1 CFM [t/8] 3600 [16991 3200 [15101 2400 [1133] 3600 [16991 3200 [1510] 2400 [11331 3600 [16991 3200 [1510] 2400 [11331 3600 [1699] 3200 [1510] 2400 [11331 3600 [16991 3200 [1510] 2400 [1133] OR C1 0.22 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 75 Total STUH (kW1 111.8 (32.8] 109.4 [32.0] 104.4 [30.6] 105.2 [30.8] 102.9 [30.11 98.2 [28.8] 100.4 129.41 98.2 [28.8) 93.7 (27.5] 99.0 [29.0] 96.8 (28.4] 92.4 [27.11 98.5 [28.9] 96.3 (28.2) 91.9 [26.9] 123.91 Sens BTUH [kW]65.6 19.2] 62.0 [18.2) 54.7 [16.0] 77.6 [22.7] 73.3 [21.5) 64.8 [19.0] 89.5 [26.21 84.5 [24.8) 74.7 (21.9) 95.2 [27.9] 89.9 [26.4] 79.4 (23.3] 98.5 [28.91 95.1 [27.9) 84.0 [24.6] Power 4.5 4.4 4.3 4.4 4.4 4.3 4.4 4.3 4.2 4.3 4.3 4.2 4.3 4.3 4.2 80 Total BTUH [kW] 108.5 (31.8] 106.0 [31.11 101.2 [29.7] 101.8 [29.8] 99.5 [29.2] 95.0 [27.8] 97.0 (28.4] 94.9 [27.8) 90.6 [26.5) 95.6 [28.0] 93.5 [27.4] 89.2 [26.2] 95.1 [27.9] 93.0 [27.2) 88.7 [26.0] 267] Sens BTUH [kW] 63.8 [18.7] 60.3 [17.7] 53.3 [15.6] 75.9 [22.2] 71.7 [21.0] 63.3 [18.61 87.7 (25.7] 82.9 [24.3] 73.2 [21.4] 93.4 [27.4] 88.3 [25.9] 78.0 [22.81 95.1 (27.9] 93.0 [27.2) 82.5 [24.2] O Power 4.9 4.8 4.7 4.8 4.8 4.7 4.8 4.7 4.6 4.7 4.7 4.6 4.7 4.6 4.5 U 85 Total BTUH [kW] 105.0 (30.81 102.7 [30.11 98.0 [28.7] 98.4 [28.8) 96.2 [28.2] 91.8 [26.9] 93.6 (27.4] 91.5 [26.8] 87.4 [25.6] 92.2 [27.0] 90.1 126.4] 86.0 [25.2] 91.6 [26.9] 89.6 [26.3) 85.5 [25.11TD29A] Sens BTUH [kW] 62.1 [18.2] 58.7 [17.2] 51.8 [15.2] 74.1 [21.7] 70.0120.51 61.9 [18.1] 85.9125.21 81.2 [23.81 71.7 [21.0) 91.7 [26.9] 86.6125.4] 76.5 [22.4] 91.6 [26.9] 89.6 [26.3] 81.1 [23.8] O Power 5.3 5.3 5.2 5.3 5.2 5.1 5.2 5.2 5.0 5.2 5.1 5.0 5.2 5.1 5.0 9090 Total BTUH [kW] 101.6 [29.8] 99.3 [29.11 94.8 [27.8] 94.9 [27.81 92.8 (27.2] 88.6126.01 90.1 (26.41 88.1 [25.81 84.1 [24.7] 88.7 [26.0] 86.8125.4] 82.8 (24.3] 88.2 [25.8] 86.2 [25.3) 82.3 [24.11R32.21 Sens BTUH [kW] 60.3 [17.7] 57.0 (16.7] 50.4 [14.8] 72.4 [21.2] 68.4 [20.0] 60.4 [17.71 84.2 [24.7] 79.6 [23.3] 70.3 [20.6] 88.7 [26.0] 85.0124.91 75.1 (22.0] 88.2 125.8] 86.2 [25.3] 79.6 [23.31 DPower 5.9 5.8 5.7 5.8 5.7 5.6 5.8 5.7 5.6 5.7 5.7 5.5 5.7 5.6 5.5 R Y 95 Total BTUH (kW] 98.1 [28.71 95.9 [28.1] 91.5 [26.8] 91.4 [26.8] 89.4 [26.21 85.3 [25.0] 86.6 [25.4) 84.7 [24.81 80.9 [23.7] 85.2 [25.0] 83.3 (24.4] 79.5123.31 84.7 [24.8] 82.8 [24.3] 79.0 [23.21 351 Sens BTUH [kW] 58.6 [17.21 55.4 [16.2] 48.9 [14.3] 70.7 [20.7] 66.8 [19.61 59.0 [17.3] 82.5 [24.2] 78.0 [22.8] 68.9 [20.2] 85.2 (25.0] 83.3 [24.4] 73.6 (21.6] 84.7 124.8] 82.8 [24.3] 78.2 [22.9] B Power 6.5 6.4 6.3 6.4 6.4 6.2 6.46.3 6.2 6.3 6.3 6.1 6.3 6.2 6.1 L too Total BTUH (kW] 94.5 [27.7] 92.4 [27.11 88.2 [25.91 87.9 [25.8] 85.9 [25.2] 82.0 [24.0] 83.1 [24.4] 81.2123.81 77.6 [22.7] 81.7 [23.9] 79.9 [23.41 76.2 122.3] 81.1 [23.8] 79.3 [23.3] 75.7 (22.2] B 37.81 Sens BTUH [kW] 56.9 [16.7] 53.8 [15.8] 47.5 [13.91 69.0 [20.2] 65.2 [19.1] 57.6 [16.91 80.8 [23.7] 76.4 [22.4] 67.5 [19.8] 81.7 [23.9] 79.9 [23.4] 72.2 121.2] 81.1 [23.8] 79.3 [23.3] 75.7 [22.21 T Power 7.2 7.1 1 6.9 7.1 7.0 6.9 7.1 7.0 6.8 7.0 7.0 1 6.8 7.0 6.9 6.8 E Total BTUH [kW] 91.0 [26.7] 88.9 [26.11 84.9 [24.9] 84.3 [24.7] 82.4 [24.2] 78.7 [23.1] 79.5 [23.3) 77.8 [22.8] 74.2 [21.7] 78.1 122.9] 76.4 [22.4) 72.9 [21.4] 77.6 [22.7] 75.8 (22.2) 72.4 [21.21 P 405 Sens BTUH [kW] 55.3 [16.2] 52.2 [15.3) 46.1 [13.5] 67.3 [19.7] 63.6 [18.6] 56.2 (16.5] 79.2 [23.2] 74.8 (21.91 66.1 [19.4] 78.1 [22.9] 76.4 (22.4) 70.8 (20.8] 77.6 [22.7] 75.8 [22.2] 72.4 [21.2] E Power 7.9 7.9 7.7 7.9 7.8 7.6 7.8 7.7 7.6 7.8 7.7 7.5 7.8 7.7 7.5 R A 110 Total BTUH [kW] 87.3 (25.6] 85.4 [25.0) 81.5 (23.91 80.7 [23.61 78.9 [23.1] 75.3 (22.1] 75.9 [22.2] 74.2 [21.7] 70.8 [20.8] 74.5 121.8] 72.8 [21.3] 69.5 [20.4] 74.0 [21.7] 12.3 [21.2] 69.0 [20.2] T 43.31 Sens BTUH [kW] 53.6 [15.71 50.7 [14.8) 44.8 [13.1] 65.7 [19.21 62.0 [18.2] 54.8 [16.1] 75.9 [22.2] 73.2 (21.5] 64.7 [19.0] 74.5 [21.8] 72.8 [21.3) 69.4 [20.4) 74.0 [21.71 72.3 (21.2] 69.0 [20.21 U Power 8.8 8.7 8.5 8.7 8.6 8.4 8.7 8.6 8.4 8.6 8.5 8.4 8.6 8.5 8.3 E 115 Total BTUH [kW] 83.7 [24.5] 61.8 [24.0] 78.1 [22.9] 77.0122.61 75.3 [22.1] 71.9 [21.1] 72.3 [21.2) 70.7 (20.7] 67.4 [19.8] 70.9120.81 69.3 (20.3] 66.1 [19.41 70.3 [20.6] 68.7 [20.1] 65.6 [19.2] 1] 146-11 Sens BTUH [kW] 52.0 (15.2] 49.1 [14.41 43.4 112.7] 64.0 [18.8] 60.5 [17.7] 53.4 [15.7] 72.3 [21.2] 70.7 [20.7] 63.3 [18.6] 70.9120.81 69.3 (20.3] 66.1 [19.4] 70.3 [20.6] 68.7 [20.1] 65.6 [19.2] F C) Power 9.7 9.6 9.4 9.6 9.5 9.3 9.6 9.5 9.3 9.6 9.5 9.2 9.5 9.4 9.2 Total BTUH [kW] 80.0 [23.4] 78.2 [22.9] 74.7 (21.91 73.4 (21.5] 71.7 [21.0] 68.5 [20.1] 68.6 [20.1] 67.0 [19.6] 64.0 [18.8] 67.2119.71 65.7 [19.2] 62.7 [18.4] 66.6 [19.5] 65.1 [19.1] 62.2 [18.2] 4891 Sens BTUH [kW] 50.4 [14.8] 47.6 [13.9] 42.0 [12.31 62.4 (18.3] 59.0 [17.3] 52.1 [15.31 68.6 [20.11 67.0 [19.6] 62.0 [18.2] 67.2 [19.7] 65.7 (19.2] 62.7 [18.4] 66.6 [19.5] 65.1 [19.1] 62.2 [18.2] Power 10.7 10.6 10.3 10.6 10.5 10.3 10.6 10.5 10.2 10.6 10.4 10.2 10.5 10.4 10.2 Total BTUH [kW] 76.3 [22.4] 74.6 [21.9] 71.2 [20.9] 69.6 [20.41 68.1 (20.0] 65.0 [19.0] 64.8 (19.0] 63.4 [18.6] 60.5 [17.7] 63.4 (18.6] 62.0 [18.2] 59.2 [17.4] 62.9 [18.4] 61.5 [18.0] 58.7 [17.2] 5127] Sens BTUH [kW] 48.8 [14.31 46.1 [13.5) 40.7 [11.9] 60.8 [17.8] 57.5 (16.8] 50.8 (14.9) 64.8 [19.0] 63.4 [18.6) 60.5117.7] 63.4 [18.6] 62.0 [18.2] 59.2 [17.4] 62.9 [18.4] 61.5 [18.0] 58.7 [17.2] Power 11.8 11.6 11.4 11.7 11.6 11.3 11.7 11.5 11.3 11.6 11.5 11.2 11.6 11.5 11.2 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: <D When the entering air dry bulb is other than 80°F [27°C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. [ ] Designates Metric Conversions wbE-Entering air wet bulb Power --KW input COOLING PERFORMANCE DATA-RACDZS102A ENTERING INDOOR AIR 0 80°F [26.7°C] dbEO wbE 71°F121.7°Cl 67°F[19.4°C1 63°F [17.2°C] 61°F [16.1°C] 59"F[15.0°Cl CFM [Us] 4100 119351 3225 [1522] 2700 [12741 4100 [1935] 3225 [15221 2700 [1274] 4100 [19351 3225 [1522] 2700 [1274] 4100 [19351 3225 [15221 2700 [1274] 4100 [1935] 3225 [1522] 2700 0274] DRO 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 75 Total BTUH [kW1 129.4 [37.9] 123.3 [36.1) 119.7 [35.11 122.2 (35.8] 116.5 [34.1) 113.0 [33.11 117.6 [34.5] 112.3 [32.9) 108.9 [31.9] 117.0 134.31 111.5 [32.7] 108.2 131.71 117.5 [34.4) 112.0 [32.81 108.7 [31.81 3 91 Sens BTUH [kW] 75.0 [22.0] 66.6 [19.5] 61.5 [18.0] 90.0 [26.41 79.9 [23.4] 73.9 [21.6) 103.7 [30.4] 92.0 127.01 85.0 [24.9] 109.7 132.21 97.4 (28.5] 90.0 [26.4] 115.0 [33.7) 102.1 [29.9) 94.3 [27.61 Power 6.1 6.0 5.9 6.1 5.9 5.9 6.0 5.9 5.8 6.0 5.8 5.8 5.9 5.8 5.7 80 Total BTUH [kW] 125.2 [36.7] 119.3 [35.0] 115.8 [33.9) 118.0 [34.61 112.4 [33.0] 109.1 (32.0] 113.6 [33.3] 108.2 (31.7] 105.0 [30.8] 112.8 [33.1) 107.5 [31.5] 104.3 [30.6] 113.3 [33.2) 108.0 [31.6) 104.8 [30.71 8 Sens BTUH [kW] 72.9 [21.4) 64.8 [19.0] 59.8 [17.5) 88.0 [25.81 76.1 (22.9] 72.1 [21.1] 101.6 [29.8) 90.2 (26.4) 83.3 [24.4] 107.6 [31.5] 95.5 [28.0] 88.3 [25.91 112.9 [33.11 100.2 [29.4] 92.6 [27.1] O Power 6.5 6.3 6.3 6.4 6.3 6.2 6.4 6.2 6.1 6.3 6.2 6.1 6.3 6.2 6.1 U 85 Total BTUH [kW] 120.9 135.41 115.2 [33.8] 111.8 [32.8] 113.8 [33.3] 108.4 [31.81 105.2 [30.8] 109.3 [32.0] 104.2 [30.5] 101.1 [29.6] 108.6 [31.81 103.5 (30.3] 100.4 129.41 109.0 [32.0) 103.9 [30.5] 100.8 [29.5] Sens BTUH [kW] 70.8 (20.81 62.9 [18.41 58.1 [17.0] 85.8 [25.1] 76.2 [22.31 70.4 [20.6] 99.5 [29.1) 88.3 [25.9] 81.6 [23.9] 105.5 (30.9) 93.6 [27.41 86.5 [25.41 109.0 132.01 98.3 [28.8] 90.9 [26.6] D O 129.41 Power 6.9 6.7 6.6 6.8 6.7 6.6 6.7 6.6 6.5 6.7 6.6 6.5 6.7 6.5 6.4 90 Total BTUH [kW] 116.7 [34.2) 111.2 [32.6] 107.9 [31.6) 109.5 (32.1] 104.4 [30.6] 101.3 [29.7] 105.1 [30.8] 100.1 [29.31 97.2 (28.5] 104.3 (30.6) 99.4 [29.1] 96.5 [28.3) 104.8 [30.7] 99.9 [29.3) 96.9 [28.41R0322] Sens BTUH [kW] 68.6 [20.1] 60.9 [17.9] 56.3 [16.5] 83.6 [24.5] 74.2 [21.8) 68.6 [20.11 97.3 [28.5] 86.4 [25.3] 79.8 (23.4) 103.3 (30.3) 91.7 [26.91 84.8 [24.81 104.8 [30.7] 96.4 [28.3) 89.1 [26.1] D Power 7.3 7.1 7.0 7.2 7.1 7.0 7.2 7.0 6.9 7.1 7.0 6.9 7.1 6.9 6.8 R Y 95 Total BTUH [kW] 112.4 [32.9] 107.1 [31.4] 104.0 [30.5) 105,2 [30.8] 100.3 [29.4] 97.3 [28.5) 100.8 [29.5] 96.1 [28.2] 93.2 [27.31 100.0 [29.3] 95.3 [27.91 92.5 [27.1] 100.5 [29.5] 95.8 [28.1] 93.0 [27.2] 351 Sens BTUH [kW] 66.4 [19.5] 59.0 [17,3) 54.5 [16.0] 81.4 [23.91 72.3 [21.2] 66.8 [19.6) 95.1 127,9] 84.4 [24.71 78.0 [22.91 100.0 (29.3) 89.8 [26.3] 82.9 [24.3] 100.5 [29.5] 94.5 [27.7) 87.3 [25.6] B Power 7.7 7.6 7.5 7.7 7.5 7.4 7.6 7.4 7.3 7.6 7.4 7.3 7.5 7.4 7.3 oo Total BTUH [kW] 108.1 [31.7] 103.0 [30.2] 100.0 [29.3] 100.9 [29.61 96.2 [28.2] 93.4 [27.4] 96.5 [28.3] 92.0 [27.0] 89.3 [26.2] 95.8 [28.1 ] 91.3 [26.71 88.6 [26.0] 96.2 [28.2) 91.7 [26.9] 89.0 [26.11 B 137I Sens BTUH [kW] 64.2 [18.8] 57.0 [16.71 52.6 [15.4] 79.2 [23.21 70.3 [20.6] 65.0 [19.0) 92.8 [27.2] 82.4 [24.1] 76.1 (22.3] 95.8 [28.1] 87.8 [25.7] 81.1 [23.8] 96.2 [28.2) 91.7 [26.91 85.4 [25.0] T Power 8.2 8.0 7.9 8.2 8.0 7.9 8.1 7.9 7.8 8.1 7.9 7.8 8.0 7.8 7.7 E 05 Total BTUH [kW] 103.8 [30.4] 98.9 [29.01 96.0 (28.1] 96.7 [28.3] 92.1 [27.0] 89.4 [26.2] 92.2 [27.0] 87.9 [25.8] 85.3 (25.01 91.5 (26.8) 87.2 [25.5] 84.6 [24.8] 91.9 [26.9] 87.6 [25.71 85.0 [24.9) P 40 61 Sens BTUH [kW] 61.9 [18.1) 54.9 [16.11 50.8 [14.9] 76.9 [22.5] 68.3 [20.0] 63.1 [18.5] 90.6 [26.5] 80.4123.6] 74.3 [21.81 91.5 [26.8] 85.7 [25.11 79.2 [23.2] 91.9 [26.9) 87.6 [25.71 83.6 [24.5) E Power 8.7 8.5 8.4 8.7 8.5 8.3 8.6 8.4 8.3 8.6 8.4 8.2 8.5 8.3 8.2 R A 110T Total BTUH [kW] 99.5 [29.2) 94.8127.8) 92.0 [27.0) 92.3 [27.1 ] 88.0 (25.8] 85.4 [25.0] 87.9 [25.81 83.8 (24.6] 81.3 [23.81 87.1 [25.5] 83.1 [24.3] 80.6 [23.6] 87.6 [25.7] 83.5 [24.51 81.0 [23.7] 433] Sens BTUH [kW] 59.6 [17.5) 52.9115.51 48.9 [14.31 74.6 [21.9] 66.2 [19.41 61.2 [17.9] 87.9 [25.81 78.3 [22.9] 72.4 [21.2] 87.1 [25.5] 83.1 [24.31 77.3 [22.7] 87.6 [25.7] 83.5 [24.5] 81.0 [23.7j U Power 9.3 9.1 8.9 9.2 9.0 8.9 9.1 8.9 8.8 9.1 8.9 8.8 9.1 8.9 8.7 E 115 Total BTUH [kW] 95.2 [27.9) 90.7 (26.6] 88.0 [25.81 88.0125.81 83.9 [24.61 81.4 [23.9] 83.6 [24.5) 79.7 [23.3] 77.3 [22.71 62.8 [24.3] 78.9 [23.1) 76.6 [22.4] 83.3 [24.4] 79.4 [23.31 77.0 [22.6] 11 Sens BTUH [kW] 57.2 [16.8] 50.8 [14.9) 46.9 [13.8] 72.2 (21.21 64.1 [18.8] 59.2 [17.4] 83.6 [24.5] 76.2 (22.3] 70.4 [20.6] 82.8 [24.3] 78.9 [23.1) 75.4 [22.11 83.3 [24.41 79.4 [23.31 77.0 [22.61F NJ Power 9.8 9.6 9.5 9.8 9.6 9.4 9.7 9.5 9.4 9.7 9.5 9.3 9.7 9.4 9.3 Total BTUH [kW] 90.8 [26.6] 86.6 (25.4] 84.0 [24.6] 83.7 (24.51 79.7 [23.4] 77.4 [22.71 79.2 [23.2] 75.5 [22.11 73.3 [21.5] 78.5 [23.01 74.8 [21.9] 72.6 [21.3] 78.9 [23.1] 75.2 [22.01 73.0 [21.4) 4&81 Sens BTUH [kW] 54.8 [16.1] 48.6 [14.3] 45.0 [13.2] 69.8 [20.5) 62.0 [18.21 57.3 [16.81 79.2 [23.2] 74.1 [21.7] 68.5 [20.1] 78.5 [23.0] 74.8 [21.9] 72.6 [21.3] 78.9 [23.1] 75.2 [22.0] 73.0 [21.4] Power 10.5 10.2 10.1 10.4 10.1 10.0 10.3 10.1 9.9 10.3 10.0 9.9 10.3 10.0 9.9 125 Total BTUH [kW] 86.5 [25.31 82.4 [24.2] 80.0 [23.4] 79.3 [23.2] 75.6 [22.11 73.3 [21.5] 74.9 [21.91 71.4 [20.9] 69.3 [20.3] 74.1 (21.71 70.6120.71 68.5 (20.1] 74.6 [21.9] 71.1 [20.8] 69.0 [20.21 5171 Sens BTUH [kW] 52.4 [15.31 46.5 [13.6] 42.9 [12.6] 67.4 [19.7) 59.8 (17.5] 55.3 [16.21 74.9 [21.9] 71.4 [20.91 66.4 (19.5] 74.1 (21.7] 70.6 [20.7] 68.5 [20.1) 74.6 [21.91 71.1 [20.8] 69.0 [20.21 Power 11.1 10.8 10.7 11.0 10.8 10.6 11.0 10.7 10.5 10.9 10.7 10.5 10.9 10.6 10.5 OR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: ci When the entering air dry bulb is other than 80°F [27°C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 -DR) x (dbE- 80yv • J ]pesjgrVtesJ4etric ConversionswbE-Entering air wet bulb Power -KW input • • . • • • • • COOLING PERFORMANCE DATA-RACDZS120A ENTERING INDOOR AIR 0 80°F [26.TC] ME Q) wbE 71°F[21.7°Cl 67°F[19.4°Cl 63"F117.2°Cl 61°F [16.1°C] 59°F[15.0°C] CFM [L/sl 4800 [22651 3750 [1770] 3200 [15101 4800 [22651 3750 [17701 3200 [15101 4800 (2265] 3750 [1770] 3200 [15101 4800 [2265] 3750 [17701 3200 [1510] 4800 122651 3750 [17701 3200 [1510] ORc00.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 75 Total BTUH [kW] 155.3 (45.5] 147.8 [43.3) 143.8 [42.2] 147.8 [43.3] 140.7 [41.2] 136.9 [40.1) 142.8 [41.8] 135.8 (39.8] 132.2 [38.7] 141.5 [41.5] 134.7 [39.5) 131.1 [38.4] 141.4 (41.4] 134.5 [39.4] 130.9 (38.4] 23.91 Sens BTUH ]kW] 97.3 (28.5] 86.1 [25.2) 80.2 [23.5] 115.8 [33.9) 102.4 130.01 95.4 [28.0] 132.9 (38.9] 117.5 (34.4] 109.5 132.11 140.6 [41.21 124.3 [36.4) 115.8 [33.9] 141.4 (41.4] 130.4 [38.2] 121.4 (35.6] Power 7.5 7.3 7.2 7.4 7.2 7.1 7.3 7.1 7.0 7.2 7.1 7.0 7.2 7.0 6.9 80 Total BTUH [kW] 150.6 [44.1] 143.4 [42.0) 139.5 (40.9) 143.2 [42.0] 136.2 (39.9] 132.6 [38.9] 138.1 (40.5] 131.4 [38.51 127.9 [37.5] 136.9 [40.11 130.2 [38.2] 126.8 137.11 136.7 [40.1] 130.1 [38.1) 126.6 (37.1] 2671 Sens BTUH [kW] 94.9 [27.8] 84.0 [24.6) 78.2 [22.9) 113.5 (33.21 100.3 [29.41 93.5127.41 130.5 (38.2] 115.4 [33.81 107.5 [31.51 136.9 [40.11 122.2 [35.8] 113.8 [33.4] 136.7 [40.11 128.3 [37.6) 119.5 (35.0] O Power 7.9 7.7 7.6 7.8 7.6 7.5 7.7 7.5 7.4 7.7 7.5 7.4 7.6 7.4 7.3 U 85 Total BTUH [kW] 146.0 [42.81 138.9 [40.71 135.2 [39.6] 138.5 [40.61 131.8 [38.6] 128.3 (37.61 133.5 (39.11 127.0 [37.2] 123.6 [36.21 132.2 [38.71 125.8 [36.9] 122.5 (35.9] 132.1 [38.71 125.7 [36.81 122.3 [35.9] TD 29A] Sens BTUH [kW] 92.5 [27.1) 81.8 [24.01 76.2 [22.31 111.0 [32.5] 98.2 [28.8] 91.5 [26.81 128.1 (37.5] 113.3 [33.2] 105.5 [30.91 132.2 [38.7] 120.1 (35.2] 111.9 (32.8] 132.1 [38.7] 125.7 [36.8) 117.5 [34.4] O Power 8.3 8.1 8.0 8.2 8.0 7.9 8.2 1 8.0 7.9 8.1 7.9 7.8 8.1 7.9 7.8 R 90 Total BTUH [kW] 141.4 [41.4] 134.5 (39.4] 131.0 (38.4] 133.9 [39.2] 127.4 [37.3] 124.0 [36.3] 128.8 [37.8] 122.6 [35.9] 119.3 [35.0) 127.6 [37.4] 121.4 [35.6] 118.2 [34.6) 127.5 [37.4] 121.3 [35.5) 118.1 [34.6] Sens BTUH [kW] 90.1 [26.4) 79.7 [23.3] 74.2 [21.7] 108.6 [31.8] 96.0 [28.11 89.5 [26.2] 125.6 [36.8) 111.1 [32.61 103.5 [30.3) 127.6 (37.4] 117.9 [34.51 109.8 [32.21 127.5 [37.4] 121.3 135.51 115.5 [33.8] D Power 8.8 1 8.6 8.5 8.7 8.5 8.4 8.6 8.4 8.3 8.6 8.4 8.3 8.5 8.3 8.2 R Y 95 Total BTUH [kW] 136.8 [40.1] 130.2 [38.1] 126.7 [37.11 129.3 [37.9] 123.0 (36.11 119.7 135.1 ] 124.2 136.4] 118.2 [34.6) 115.1 [33.7] 123.0 [36.0] 117.0 [34.31 113.9 [33.41 122.9 [36.0] 116.9 134.31 113.8 [33.31 1311 Sens BTUH [kW) 87.6 [25.7] 77.5 [22.7] 72.2 [21.11 106.1 [31.11 93.8 [27.51 87.4 [25.6] 123.1 (36.1 ] 108.9 [31.9] 101.5 [29.7] 123.0 [36.0] 115.7 [33.91 107.8 [31.61 122.9 [36.0] 116.9 134.31 113.4 [33.21 B Power 9.3 9.1 9.0 9.2 9.0 8.9 9.1 8.9 8.8 9.1 8.9 8.8 9.1 8.8 8.7 100 Total BTUH [kW1 132.2 [38.71 125.8 [36.9] 122.4 [35.9] 124.7 [36.5] 118.7 [34.8] 115.5 (33.8] 119.6 [35.1] 113.8 [33.4] 110.8 [32.5] 118.4 [34.7] 112.7 [33.0] 109.7 [32.1] 118.3 [34.7] 112.5133.0] 109.5 [32.1] B 37 8] Sens BTUH [kWj 85.1 [24.91 75.2 [22.0] 70.1 [20.51 103.6 [30.3] 91.6 [26.8] 85.3 [25.01 119.6 (35.11 106.7 [31.3] 99.4 [29.1] 118.4 [34.7] 112.7 [33.0] 105.7 [31.0] 118.3 [34.7] 112.5 133.0] 109.5 [32.1] T Power 9.9 9.6 1 9.5 9.8 9.5 9.4 9.7 9.5 9.3 9.6 9.4 9.3 9.6 9.4 9.2 E Total BTUH [kW] 127.6 (37.4) 121.4 135.61 118.2 [34.6] 120.1 [35.2] 114.3 [33.51 111.2 [32.6) 115.1 [33.71 109.5 [32.1] 106.6 [31.21 113.8 (33.4) 108.3 [31.7] 105.4 [30.91 113.7 [33.3] 108.2 131.71 105.3 130.91P105 40.6 ] Sens BTUH [kW1 82.5 (24.21 73.0 (21.4) 68.0119.91 101.0 129.61 89.3 [26.2) 83.2 [24.4] 115.1 [33.7] 104.4 (30.6] 97.3 [28.5] 113.8 [33.4) 108.3 131.71 103.6 [30.4] 113.7 (33.31 108.2 (31.71 105.3 130.91 EPower 10.5 10.2 10.1 10.4 10.1 10.0 10.3 10.0 9.9 10.2 10.0 9.8 10.2 9.9 9.8 R 131 Total BTUH [kW] 123.0 [36.1] 117.1 [34.3] 114.0 [33.41 115.5 [33.9] 109.9 (32.2] 107.0 131.41 110.5 [32.4] 105.1 [30.8] 102.3 [30.0] 109.3 [32.0] 104.0 (30.51 101.2 [29.7) 109.1 [32.0] 103.8 [30.4] 101.1 [29.6] T Sens BTUH [kW] Power 79.9 [23.4] 70.6 [20.7] 65.8 [19.3) 98.4128.81 87.0 [25.51 81.1 [23.81 110.5 [32.4] 102.1 [29.91 95.1 [27.9] 109.3 [32.0) 104.0 [30.51 101.2 [29.7] 109.1 [32.0] 103.8 [30.4] 101.1 [29.6] U 11.1 10.8 10.7 11.0 10.7 10.6 10.9 10.6 10.5 10.8 10.6 10.4 10.8 10.5 10.4 E 115 Total BTUH [kW] 118.5 [34.7] 112.7 [33.0] 109.7 [32.21 111.0 [32.51 105.6 [31.0] 102.8 [30.1] 1105.9 [31.0] 100.8 [29.51 98.1 [28.8] 104.7 (30.7] 99.6 [29.2] 97.0 [28.4] 104.6 [30.6] 99.5 [29.2] 96.8128.4) 146-1111 Sens BTUH [kW1 77.2 [22.6] 68.3 [20.0] 63.6 118.6] 95.7 [28.11 84.7 [24.81 78.9123.1 ] 105.9 [31.0] 99.8 [29.2) 92.9 [27.2] 104.7 (30.7] 99.6 [29.2] 97.0 [28.4] 104.6 [30.61 99.5 [29.2] 96.8 [28.41FPower11.7 11.4 11.3 11.6 11.3 11.2 11.5 11.2 11.1 11.5 11.2 11.1 11.4 11.2 11.0 120 Total BTUH [kW] 113.9 133.4] 108.4 [31.8) 105.5 130.91 106.5 [31.2] 101.3 [29.71 98.6 [28.9] 101.4 96.5 [28.31 93.9 [27.5] 100.2 [29.4] 95.3 [27.9] 92.8 [27,2] 100.0 [29.3] 95.2 [27.9) 92.6 (27.1] 48.9] Sens BTUH [kW] 74.5 [21.8) 65.9 (19.3) 61.4 (18.0] 910 127.3] 82.3 [24.1] 76.7 [22.5) 101.4 96.5 [28.3] 90.7 [26.6] 100.2 [29.4] 95.3 [27.91 92.8 [27.21 100.0 [29.3] 95.2 [27.9] 92.6 [27.11Power12.4 12.1 11.9 12.3 12.0 11.8 1211.9 11.7 12.1 11.9 11.7 12.1 11.8 11.7 125 Total BTUH [kW] 109.4 [32.11 104.1 [30.5] 101.3 [29.71 101.9 [29.9] 97.0 [28.4] 94.4 [27.7] 96.9 d128.41 92.2 127.01 89.7 [26.31 95.6 [28.0) 91.0 [26.71 88.6 [26.0) 95.5 [28.0j 90.9 [26.61 88.5 [25.91 151.71 Sens BTUH [kW] 71.8 [21.0] 63.5 [18.6] 59.2 [17.3] 90.3 [26.5] 79.9 [23.41 74.4 [21.8] 96.9 92.2 [27.0] 88.5[25.9] 95.6[28.01 91.0[26.7) 88.6 [26.0) 95.5128.01 90.9 [26.61 88.5 [25.91Power13.1 12.8 12.6 13.0 12.7 12.5 1212.6 12.4 12.9 12.5 12.4 12.8 12.5 12.3 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: D When the entering air dry bulb is other than 80°F [27°CJ, adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)). Designates Metric Conversions wbE -Entering air wet bulb Power -KW input NON, ca U7 3.1co N3 N 3a a' 3 d aM O COOLING PERFORMANCE DATA-RACDZS150A ENTERING INDOOR AIR 0 B0°F [26.7^C1 dbE0 wbE 71°F [21.7°C1 67°F[19.4°C1 63°F(17.2°C] CFM [US] 4500 [21241 3750[1770] 3000[1416] 4500121241 3750[1770] 3000 [14161 4500121241 3750[1770] 3000 [14161 0 0.01 0.09 0 0.01 0.09 0 0.01 0.09 75 Total BTUH [kW] 179.6 [52.6] 173.3 [50.8] 167.0 (48.9] 172.2 [50.5] 166.2 [48.7] 160.2 [46.9] 167.3 [49.0] 161.4 [47.3] 155.5 [45.6] 23.91 Sens BTUH [kW] 113.4 [33.2] 97.4 [28.5] 82.6 (24.2] 131.0 [38.4] 113.8 [33.3] 97.7 [28.6] 147.4 [43.2] 128.9 [37.8] 111.5 [32.7] O Power 10.2 10.0 9.9 1 10.1 9.9 9.8 1 10.0 9.9 9.7 U 80 Total BTUH [kW] 175.0 [51.3] 168.9 [49.5] 162.8 [47.7] 167.6 [49.11 161.6 [47.4] 155.9 [45.7] 162.7 [47.7] 157.0 [46.0] 151.3 [44.3] T O 26'7] Sens BTUH [kW] 110.9 [32.5] 95.3 [27.9] 80.9 [23.7] 128.5 [37.7] 111.7 [32.7] 95.9 [28.1] 144.9 [42.5] 126.8 [37.2) 109.8 [32.2] O Power 10.6 10.4 10.3 10.5 10.4 10.2 10.4 10.3 10.1 R 8 Total BTUH [kW] 170.5 (50.01 164.5 (48.2] 158.5 [46.4] 163.1 [47.8) 157.4 [46.1] 151.6 (44.4] 158.1 [46.3] 152.5 [44.7] 147.0 [43.1) 4] Sens BTUH [kW] 108.5 [31.81 93.2 [27.3] 79.1 [23.21 126.1 (36.9] 109.6 [32.11 94.1 [27.6] 142.4 [41.7) 124.6 [36.5] 108.0 [31.61 D Power 11.1 10.9 10.7 11.0 10.8 10.6 10.9 10.7 10.5 R Y 90 Total BTUH [kW] 165.9 [48.6] 160.1 [46.9] 154.3 [45.2] 158.5 (46.4] 153.0 [44.81 147.4 [43.21 153.5 [45.0) 148.1 (43.4] 142.8 [41.81 132'21 Sens BTUH [kW] 105.8 [31.0] 91.0 [26.7] 77.2 (22.61 123.4 (36.2] 107.4 [31.5] 92.3 [27.0] 139.7 [40.9) 122.4 [35.9] 106.2 [31.11 B U Power 11.6 11.4 11.2 11.5 11.3 11.1 11.4 11.2 11.0 Total BTUH [kW] 161.4 (47.3] 155.7 [45.6] 150.0 (43.9] 154.0 [45.11 148.6 [43.5] 143.2 [42.0] 149.0 [43.7) 143.8 [42.1 ] 138.5 [40.6] B 351 Sens BTUH [kW] 103.3 (30.3] 88.8 [26.0] 75.3 [22.11 120.9 [35.4] 105.2 [30.8] 90.5 [26.5] 137.2 [40.2) 120.3 [35.2] 104.3 [30.61 T Power 12.1 11.9 11.6 12.0 11.8 11.6 11.9 11.7 11.5 100Total BTUH [kW] 156.8 145.91 151.3 144.31 145.8 [42.7] 149.4 [43.8] 144.2 [42.3] 139.0 [40.7] 144.5 [42.3] 139.4 (40.8) 134.3 [39.31 IE P 137 8) Sens BTUH [kW] 100.6 (29.5] 86.5 (25.31 73.4 [21.5] 118.2 [34.61 102.9 [30.1] 88.6 [26.0) 134.6 [39.4] 118.0 (34.6) 102.4 [30.01 E Power 12.6 12. 4A71.5 12.5 12.3 12.1 12.4 12.2 12.0 R Total BTUH [kW] 152.3 [44.61 147.0 [431.51 144.9 [42.5] 139.8 [41.0] 134.8 [39.5] 139.9 [41.0] 135.0 (39.6] 130.1 [38.11T4061SensBTUH [kW] 98.0 [28.7] 84.3 [240.91 115.6 [33.9] 100.6 [29.51 86.7 [25.4] 131.9 [38.6] 115.7 (33.9] 100.5 [29.4] U Power 13.2 13.013.1 12.9 12.6 13.0 12.8 12.5 E 110 Total BTUH [kW] 147.8 [43.3] 142.6 [410.3) 140.4 (41.1] 135.5 (39.7] 130.6 [38.3] 135.4 [39.7] 130.7 (38.31 125.9 [36.9) F 433] Sens BTUH [kW] 95.3[27.9] 82.0 [240.4] 112.9 [33.1] 98.4(28.81 84.8 [24.8] 129.2 [37.9] 113.5 (33.3] 98.6 [28.9] 01 Power 13.8 13.513.7 13.5 13.2 13.6 13.4 13.1 115 Total BTUH [kW] 143.3 (42.0] 138.3 [40.5] 133.3 (39.1] 135.9 [39.8] 131.2 [38.41 126.4 [37.0] 130.9 (38.4] 126.4 [37.0] 121.8 [35.7] 46.1) Sens BTUH [kW] 92.6 127.11 79.7 [23.41 67.7 [19.8] 110.1 [32.3] 96.0 [28.11 82.7 (24.21 126.4 [37.0] 111.1 [32.6] 96.6 [28.3] Power 14.4 14.2 13.9 14.3 14.1 13.8 14.2 14.0 13.7 un-uepression rano lotai -total capacity x 1 UUU BTUH NOTES: 0 When the entering air dry bulb is other than 80°F [27°C], adjust the sensible dbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. wbE-Entering air wet bulb Power -KW input s • • • • • • • • • Designates Metric Conversions COOLING PERFORMANCE DATA-RACDZT090A ENTERING INDOOR AIR @ 80'F [26.7'C] dbE cis wbE 71'F[21.7'C1 67'F [19,41%] 63'F [17.2'C1 61'F [16.1'C] 59'F [15.0'C1 CFM [Us] 3600 [1699] 3200 [1510] 2400 [11331 3600 [16991 3200 [1510] 2400 [11331 3600 [1699] 3200 [15101 2400 [1133] 3600 [16991 3200 [15101 2400 [1133] 3600 [1699] 3200 [1510] 2400 [11331 OR CD 0.22 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 0.22 0.2 0.14 75 Total BTUH JkW] 111.8 [32.8] 109.4 (32.0] 104.4 [30.6] 105.2 [30.8] 102.9 [30.11 98.2 [28.8) 100.4 129.41 98.2 [28.81 93.7 [27.51 99.0 [29.0] 96.8 (28.4] 92.4 [27.11 98.5 [28.9) 96.3 (28.2) 91.9 [26.9] 23.91 Sens BTUH [kWJ 65.6 [19.21 62.0 [18.2] 54.7 [16.0) 77.6 [22.7] 73.4 [21.5] 64.8119.01 89.5 126.2] 84.5 [24.81 74.7 [21.91 95.2 [27.9] 89.9 (26.4] 79.4 [23.31 98.5 [28.9] 95.1 [27.9) 84.0 [24.61 Power 4.5 4.4 4.3 4.4 4.4 4.3 4.4 4.3 4.2 4.3 4.3 4.2 4.3 4.3 4.2 80 Total STUN [kWJ 108.5 (31.8] 106.0 [31.1) 101.2 (29.7] 101.8 [29.8) 99.5 [29.2] 95.0 (27.8) 97.0 (28.4] 94.9 [27.8) 90.6 [26.5) 95.6 [28.01 93.5 (27.4] 89.2 [26.2) 95.1 [27.9) 93.0 (27.2) 88.7 [26.01 Sens BTUH [kW] 63.8 (18.7) 60.3 [17.7] 53.3 [15.6] 75.9 [22.2) 71.7 (21.01 63.3 (18.6] 87.7 (25.7] 82.9 [24.31 73.2 [21.4] 93.4 [27.41 88.3 [25.91; 78.0 [22.8) 95.1 [27.9) 93.0 [27.2) 82.5 [24.2) O Power 4.9 4.8 4.7 4.8 4.8 4.7 1 4.8 4.7 4.6 4.7 4.7 4.6 4.7 4.6 4.5 U 85 Total BTUH [kW] 105.0(30.81 102.7 [30.1] 98.0 [28.7] 98.4 [28.8] 96.2 (28.21 91.8 [26.9] 93.6 [27.4] 91.5 [26.8] 87.4 [25.6) 92.2 [27.0) 90.1 126.41 86.0 [25.2] 91.7 [26.9] 89.6 [26.3) 85.5 [25.1] TO x'4] Sens BTUH [kW] 62.1 [18.2) 58.7 [17.2] 51.8 [15.2] 74.1 [21.7) 70.0 [20.5) 61.9 [18.11 86.0 [25.2) 81.2 [23.8] 71.7 [21.0) 91.7 [26.9] 86.6125.41 76.5 [22.4] 91.7 [26.9) 89.6 126.3] 81.1 [23.81 O Power 5.3 5.3 5.2 5.3 5.2 5.1 5.2 5.2 5.0 5.2 5.1 5.0 5.2 5.1 5.0 0900 Total BTUH JkW] 101.6 [29.81 99.3 [29.1] 94.8 127.8] 94.9 [27.8] 92.8 [27.21 88.6 [26.0] 90.1 [26.4) 88.1 [25.81 84.1 124.7] 88.7 [26.0] 86.8 [25.41 82.8 124.3] 88.2 [25.8] 86.2 [25.3] 82.3 [24.1] R 32.21 Sens BTUH [kW] 60.3 [17.7] 57.0 [16.71 50.4 [14.81 72.4 [21.2] 68.4 [20.01 60.4 [17.71 84.2 [24.7) 79.6 [23.31 70.3 [20.6) 88.7 [26.0) 85.0 [24.9) 75.1 [22.0] 88.2125.81 86.2 [25.3] 79.6 [23.31 Power 5.9 5.8 5.7 5.8 5.7 5.6 5.8 5.7 5.6 5.7 5.7 5.5 5.7 5.6 5.5 R Y 95 Total BTUH [kWJ 98.1 [28.7] 95.9 [28.1] 91.5 [26.8] 91.4 [26.81 89.4 [26.2] 85.3 125.01 86.6125.41 84.7 [24.81 80.9 [23.7] 85.2 [25.0] 83.3 [24.4] 79.5 (23.3] 84.7 [24.8] 82.8 124.3] 79.0123.21 351 Sens BTUH [kW] 5&6 117.21 55.4 [16.21 48.9 [14.3] 70.7 [20.71 66,8 [19.6] 59.0 [17.3] 82.5 [24.2] 78.0 [22.8] 68.9 [20.2] 85.2 [25.0] 83,3 [24.4] 73.6 [21.6] 84.7 [24.8] 82.8 [24.3] 78.2122.91BPower6.5 6.4 6.3 6.4 6.4 6.2 6.4 6.3 6.2 6.3 6.3 6.1 6.3 6.2 6.1 10D Total BTUH [kW] 94.5 [27.7] 92.4 [27.11 88.2 [25.9] 87.9 [25.8] 85.9 [25.2] 82.0 [24.0] 83.1 (24.4] 81.3 123.8] 77.6 [22.71 81.7 [23.9] 79.9 [23.4] 76.2 122.3] 81.1 (23.8] 79.3 [23.3] 75.7 [22.2] B 378] Sens BTUH [kW] 57.0 [16.71 53.8 [15.8] 47.5 [13.9] 69.0 [20.2] 65.2 [19.11 57.6 [16.9] 80.8 (23.7] 76.4 [22.4] 67.5 [19.8] 81.7 [23.9] 79.9 [23.41 72.2 [21.2] 81.1 (23.8] 79.3 [23.3] 75.7 [22.2] T Power 7.2 7.1 6.9 7.1 7.0 6.9 7.1 7.0 6.8 7.0 7.0 6.8 7.0 6.9 6.8 E Total BTUH JkWJ 91.0 [26.7) 88.9 [26.1 ] 84.9 [24.9] 84.3 [24.7] 82.4 [24.21 78.7 [23.1 ] 79.5 [23.3] 77.8 122.8] 74.2 [21.8) 78.1 [22.9) 76.4 [22.4] 72.9 [21.4] 77.6122.71 75.8 [22.2] 72.4 [21.2) M[405 Sens BTUH [kW] 55.3 [16.2) 52.2 (15.3] 46.1 [13.51 67.3 [19.7] 63.6 [18.61 56.2 [16.5] 79.2 [23.21 74.8 121.9] 66.1 [19.4) 78.1 [22.91 76.4 122.4] 70.8 [20.81 77.6 (22.7] 75.8 [22.2] 72.4 [21.2) E Power 7.9 7.9 7.7 7.9 7.8 7.6 7.8 7.7 7.6 7.8 7.7 7.5 7.8 7.7 7.5 R 13] Total BTUH [kW] 87.3 [25.6] 85.4 [25.0] 81.5 (23.9] 80.7 [23.6] 78.9 [23.1] 75.3 [22.1] 75.9 [22.2) 74.2 [21.8] 70.9 [20.8] 74.5 121.8] 72.8 (21.3] 69.5 [20.4] 74.0 [21.7] 72.3 [21.2] 69.0 [20.2) T 43 Sens BTUH [kWJ 53.6 [15.7] 50.7 [14.8] 44.8 [13.1 ] 65.7 [19.21 62.1 [18.21 54.8 [16.1) 75.9 [22.21 73.2 [21.5] 64.7 [19.0] 74.5 [21.8] 72.8 [21.3] 69.5 [20.4] 74.0 [21.7] 72.3 [21.2] 69.0 [20.2) U Power 8.8 8.7 8.5 8.7 8.6 8.4 8.7 8.6 8.4 8.6 8.5 8.4 8.6 8.5 8.3 E Total BTUH [kW] 83.7 [24.5] 81.8 [24.01 78.1 (22.9] 77.0 [22.6) 75.3 [22.1] 71.9 [21.1] 72.3 [21.2) 70.7 [20.7] 67.4 [19.8] 70.9120.81 69.3 [20.3] 66.1 [19.4] 70.3120.61 68.7 [20.1] 65.6 [19.2] Sens BTUH [kW] 52.0 [15.2] 49.1 [14.41 43.4 [12.7] 64.0 [18.8) 60.5 [17.7] 53.4 [15.7] 72.3 [21.2] 70.7 [20.7] 63.3 [18.6] 70.9 [20.8] 69.3 [20.3] 66.1 [19.4] 70.3 [20.6] 68.7 (20.1] 65.6 [19.2] F 001 Power 9.7 9.6 9.4 9.6 9.5 9.3 9.6 9.5 9.3 9.6 9.5 9.2 9.5 9.4 9.2 Total BTUH [kW] 80.0 [23.4] 78.2 [22.9] 74.7 [21.9) 73.4 [21.5) 71.7 [21.0] 68.5 (20.1] 68.6120.11 67.1 [19.61 64.0 [18.8] 67.2 [19.7] 65.7 [19.2] 62.7 [18.4] 66.6 [19.5] 65.1 [19.11 62.2118.214891SensBTUH [kW] 50.4 [14.8] 47.6 113.91 42.0 [12.31 62.4 118.3] 59.0 [17.31 52.1 (15.31 68.6 (20.1] 67.1 [19.6) 62.0 [18.2] 67.2 [19.7] 65.7 [19.21 62.7 [18.4] 66.6 (19.5] 65.1 [19.1] 62.2 [18.2) Power 10.7 10.6 10.3 10.6 10.5 10.3 10.6 10.5 10.2 10.6 10.4 10.2 10.5 10.4 10.2 Total BTUH [kWJ 76.3 [22.4] 74.6 [21.9] 71.2 [20.9) 69,6 [20.4] 68.1 [20.0] 65.0 [19.0] 64.9 [19.0] 63.4 [18.6] 60.5 [17.7] 63.4 [18.6] 62.0 [18.21 59.2 [17.4] 62.9 [18.4] 61.5 [18.0] 58.7 [17.2] 151.7] Sens BTUH [kWJ 48.8114.31 46.1 [13.51 40.7 [11.9] 60.8 [17.81 57.5 [16.81 50.8 [14.9] 64.9 [19.01 63.4 [18.6] 60.5 [17.7] 63.4 [18.61 62.0 [18.2] 59.2 [17.4] 62.9 [18.41 61.5 [18.01 58.7 [17.2] Power 1 11.8 111.6 11.4 11.7 11.6 11.3 1 11.7 11.5 11.3 11.6 11.5 11.2 11.6 11.5 11.2 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: CO When the entering air dry bulb is other than 80°F [27°C], adjust the sensible dbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. [ ] Designates Metric Conversions wbE-Entering air wet bulb Power -KW input .. ... 5'i COOLING PERFORMANCE DATA-RACDZT102A ENTERING INDOOR AIR 0 80°F [28.7°CJ MEip wbE 71°F [21.7°Cl 67°F[19.4°Cl 6W 117.2°Cl 61°F [16.1°Cl 59"F [15.0'C] CFM [Us] 4100 [19351 3225 [1522] 2700 [12741 4100 [19351 3225 [1522] 2700 (1274] 4100 [19351 3225 [1522] 2700 [1274] 4100 [1935] 3225 [1522] 2700 [1274] 4100 [19351 3225 [1522] 2700 [1274] DR 10 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14 0.21 0.17 0.14„ 0.21 0.17 0.14 75 Total BTUH [kWJ 129.4 [37.9] 123.3 [36.11 119.7 [35.11 122.2 (35.8] 116.5 [34.1] 113.0 (33.1) 117.8 [34.5] 112.3 [32.9] 108.9 [31.9] 117.0 [34.3] 111.5 [32.7) 108.2 [31.71 117.5 (34.4) 112.0 [32.8] 108.7 [31.8] 3 91 Sens BTUH [kW] 75.0 (22.0] 66.6 [19.51 61.5 [18.0) 90.0 (26.4] 79.9 [23.4] 73.9 [21.6) 103.7 [30.4] 92.0 [27.01 85.0 [24.9] 109.7 132.21 97.4 [28.5] 90.0 [26.4) 115.0 [33.7) 102.1 [29.9] 94.3 [27.6] Power 6.1 6.0 5.9 6.1 5.9 5.9 6.0 5.9 5.8 6.0 5.8 5.8 1 5.9 5.8 5.7 80 Total BTUH [kW] 125.2 [36.7] 119.3 (35.0) 115.8 133.91 118.0 [34.6] 112.4 [33.0] 109.1 [32.0) 113.6 (33.3) 108.2 [31.71 105.0 [30.8] 112.8 133.11 107.5 [31.5) 104.3 [30.6] 113.3 (33.2) 108.0 [31.61 104.8 [30.7] 26.7] Sens BTUH JkWJ 72.9 [21.4] 64.8 (19.01 59.8 [17.5] 88.0 [25.8] 78.1 [22.9] 72.1 [21.1) 101.6 (29.8] 90.2 [26.41 83.3 [24.4] 107.6 [31.5) 95.5 128.0] 88.3 [25.9] 112.9 [33.11 100.2 [29.4) 92.6 [27.11 O Power 6.5 6.3 6.3 6.4 6.3 6.2 6.4 6.2 6.1 6.3 6.2 6.1 6.3 6.2 6.1 U B5 Total BTUH [kW1 120.9 [35.41 115.2 [33.81 111.8 [32.8] 113.8 [33.3] 108.4 131.81 105.2 [30.8] 109.3 [32.0] 104.2 [30.5] 101.1 [29.6] 108.6 131.81 103.5 [30.3] 100.4 [29.4) 109.0 (32.0) 103.9 [30.5] 100.8 [29.5] TO 121141 Sens BTUH [kW] 70.8 [20.81 62.9 [18.41 58.1 [17.01 85.8 [25.1] 76.2 (22.31 70.4 [20.61 99.5 [29.11 88.3 [25.9] 81.6 (23.9] 105.5 [30.9] 93.6 [27.4] 86.5 [25.4) 109.0 (32.0) 98.3 [28.8] 90.9 [26.6] O Power 6.9 6.7 6.6 6.8 6.7 6.6 6.7 6.6 6.5 6.7 6.6 6.5 6.7 6.5 6.4 R Total BTUH [kWJ 116.7134.2) 111.2 [32.61 107.9 [31.6) 109.5 132.1] 104.4 (30.6] 101.3 [29.7] 105.1 [30.81 100.1 [29.3] 97.2 (28.51 104.3 [30.6] 99.4 [29.1] 96.5 [28.3) 104.8 (30.7] 99.9 [29.3] 96.9 [28.4] 322] Sens BTUH [kW] 68.6 (20.11 60.9 [17.9] 56.3 [16.51 83.6 (24.5] 74.2 [21.8) 68.6 (20.1] 97.3 [28.51 86.4 (25.3] 79.8 (23.41 103.3 (30.3] 91.7 [26.9] 84.8 [24.8] 104.8 [30.7] 96.4 [28.3) 89.1 [26.1] D Power 7.3 7.1 7.0 7.2 7.1 7.0 7.2 7.0 6.9 7.1 7.0 6.9 7.1 6.9 6.8 Y 95 Total BTUH JkW) 112.4 [32.9] 107.1 (31.4] 104.0 [30.5] 105.2 [30.81 100.3 [29.4] 97.3 [28.51 100.8 (29.5] 96.1 [28.2] 93.2 [27.3) 100.0 [29.3] 95.3 [27.91 92.5 [27.1] 100.5 [29.51 95.8 [28.1) 93.0 [27.2] 35] Sens BTUH [kW] 66.4 [19.5] 59.0 (17.3] 54.5 [16.0] 81.4 [23.9] 72.3 [21.2] 66.8 [19.6) 95.1 (27.9] 84.4 [24.7] 78.0 [22.9) 100.0 [29.31 89.8 [26.3] 82.9 [24.3) 100.5 [29.5] 94.5 [27.7) 87.3 [25.61BPower7.7 7.6 7.5 7.7 7.5 7.4 7.6 7.4 7.3 7.6 7.4 7.3 7.5 7.4 7.3 10. Total BTUH [kW] 108.1 [31.7] 103.0 [30.21 100.0 [29.3] 100.9 [29.6] 96.2 [28.2] 93.4 [27.4] 96.5 [28.31 92.0 [27.0] 89.3 [26.2) 95.8 [28.11 91.3 [26.7] 88.6 [26.0] 96.2 [28.2) 91.7 [26.9] 89.0 [26.11 B 37.81 Sens BTUH [kW) 64.2 [18.81 57.0 [16.7) 52.6 (15.4] 79.2 [23.2] 70.3 [20.6] 65.0 [19.0) 92.8 (27.2] 82.4 [24.1] 76.1 (22.3) 95.8 [28.1] 87.8 [25.71 81.1 [23.8] 96.2 [28.21 91.7 [26.9] 85.4 [25.0] T Power 8.2 8.0 1 7.9 8.2 8.0 7.9 8.1 7.9 7.8 8.1 7.9 7.8 8.0 7.8 7.7 E Total BTUH [kW] 103.8 [30.4] 98.9 [29.0] 96.0 [28.11 96.7 [28.3) 92.1 [27.0] 89.4 [26.2] 92.2 [27.01 87.9 [25.8) 85.3 [25.0] 91.5 [26.81 87.2 [25.5) 84.6 [24.8) 91.9 [26.91 87.6 [25.71 85.0 [24.91P461SensBTUH [kWJ 61.9 [18.1) 54.9 [16.11 50.8 [14.9] 76.9 [22.5) 68.3 [20.0] 63.1 [18.51 90.6 [26.51 80.4 [23.61 74.3 [21.8] 91.5 [26.81 85.7 [25.1] 79.2 [23.2] 91.9 [26.91 87.6 [25.7] 83.6 [24.51 E Power 8.7 8.5 8.4 8.7 8.5 8.3 8.6 8.4 8.3 8.6 8.4 8.2 8.5 8.3 8.2 R A 110 Total BTUH [kW] 99.5 (29.2) 94.8 [27.81 92.0 [27.0] 92.3127.1 ] 88.0 (25.81 85.4 [25.0] 87.9 [25.8) 83.8 [24.6) 81.3 [23.8] 87.1 [25.5] 83.1 [24.31 80.6 [23.6] 87.6 [25.71 83.5 [24.51 81.0 (23.71 T 43.31 Sens BTUH [kW] Power 59.6 [17.5] 52.9115.51 48.9 [14.31 74.6 (21.9) 66.2 [19.4] 61.2 (17.9] 87.9 [25.8] 78.3 [22.91 72.4 [21.21 87.1 [25.5] 83.1 (24.3] 77.3 [22.71 87.6 [25.71 83.5 [24.5) 81.0 [23.71 U 1 9.3 9.1 8.9 9.2 9.0 8.9 9.1 8.9 8.8 9.1 8.9 8.8 9.1 8.9 8.7 E 115 Total BTUH [kW] 95.2 [27.9] 90.7126.61 88.0 [25.8] 88.0 [25.8] 83.9 [24.61 81.4 [23.91 83.6 [24.5] 79.7 [23.31 77.3 [22.7] 82.8 [24.3] 78.9 (23.1) 76.6 [22.4] 83.3 [24.41 79.4 [23.3] 77.0 [22.61 46.11 Sens BTUH [kW] 57.2 [16.8] 50.8 (14.91 46.9 (13.81 72.2 [21.2] 64.1 [18.8] 59.2 [17.4] 83.6 124,5] 76.2 [22.3] 70.4 [20.6] 82.8 [24.3] 78.9 (23.1] 75.4 [22.11 83.3 [24.4] 79.4 [23.3) 77.0 [22.6] F O] Power 9.8 9.6 1 9.5 9.8 9.6 9.4 9.7 9.5 9.4 9.7 9.5 9.3 9.7 9.4 9.3 1P0 Total BTUH [kW] 90.8 [26.61 86.6 (25.4) 84.0 [24.61 83.7 [24.51 79.7 [23.4] 77.4 [22.7) 79.2 [23.2] 75.5 (22.1] 73.3 [21.5] 78.5 [23.0] 74.8 (21.9) 72.6 (21.3] 78.9 [23.1] 75.2 [22.0] 73.0 [21.41 Sens BTUH [kWJ 54.8 116.11 48.6 [14.31 45.0 [13.2) 69.8 12U) 62.0 (18.2] 57.3 [16.8] 79.2 [23.2] 74.1 [21.7] 68.5 [20.1) 78.5 [23.0] 74.8 (21.9) 72.6 (21.3] 78.9 [23.1] 75.2 [22.0] 73.0 [21.4] Power 10.5 10.2 10.1 10.4 10.1 10.0 10.3 10.1 9.9 10.3 10.0 9.9 10.3 10.0 9.9 125 Total BTUH [kW] 86.5 [25.31 82.4 [24.2] 80.0 [23.4) 79.3 (23.2) 75.6 [22.1] 73.3 [21.5] 74.9 [21.9] 71.4 [20.91 69.3 [20.3] 74.1 [21.71 70.6 [20.7] 68.5120.1j 74.6 [21.91 71.1 [20.8] 69.0 [20.2] 151 7J Sens BTUH [kW] 52.4 [15.3] 46.5 [13.6] 42.9 [12.6] 67.4 (19.7] 59.8 [17.51 55.3 [16.2] 74.9 [21.9] 71.4 [20.9] 66.4 [19.5] 74.1 [21.71 70.6 [20.7] 1 68.5 [20.11 74.6 [21.91 71.1 [20.8] 69.0 [20.2] Power 11.1 10.8 10.7 11.0 10.8 10.6 11.0 10.7 10.5 10.9 10.7 10.5 10.9 10.6 1 10.5 DR -Depression ratio Total -Total capacity x 1000 BTUH NOTES: O When the entering air dry bulb is other than 80°F [270C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10xEFh41e J1 -QR)* (d.bE - 801]. Designates Metric Conversions wbE-Entering air wet bulb Power -KW input 0 0 • 0 0 • 0 a to in M N N Oi. 3 Q) 7 n COOLING PERFORMANCE DATA-RACDZT120A ENTERING INDOOR AIR 0 80-F [2&7°C] dbE (1) wbE 71°F[21.7°C1 67°F[19.4°C] 631 117.2°CI 611 [16.1"C] 59°F [15.0°C] CFM [US] 4800122651 3750 [1770] 13200115101 4800 [22651 3750 [17701 3200 [15101 4800 [22651 3750 117701 3200 [15101 4800 [22651 3750 [17701 3200 [15101 4800 [2265] 3750 (17701 3201!L51 DR CD 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 0.09 0.03 0.0 75 Total BTUH [kW] 155.3 [45.5] 147.8 [43.3] 143.8 [42.2] 147.8 [43.3] 140.7 [41.21 136.9 (40.11 142.8 [41.8] 135.8 [39.8] 132.2 [38.7] 141.5 [41.5) 134.7 [39.5] 131.1 [38.4] 141.4 (41.4] 134.5 [39.4] 130.9 [38.4] 23.91 Sens BTUH [kW] 97.3 [28.5] 86.1 [25.2] 80.2 [23.5] 115.8 [33.9] 102.4 [30.0] 95.4 (28.0] 132.9 [38.9] 117.5 [34.4] 109.5 132.1] 140.6 [41.2) 124.3 [36.4] 115.8 [33.9] 141.4 [41.4] 130.4 [38.2] 121.4 [35.6] Power 7.5 7.3 7.2 7.4 7.2 7.1 7.3 7.1 7.0 7.2 7.1 7.0 7.2 7.0 6.9 80 Total BTUH [kW] 150.6 [44.1] 143.4 (42.0) 139.5 [40.9] 143.2 [42.0] 136.2 [39.9) 132.6 [38.9] 138.1 [40.5] 131.4 [38.5] 127.9 (37.5] 136.9 [40.11 130.2 [38.2] 126.8 [37.11 136.7 140.1] 130.1 [38.1] 126.6 [37.11 128.71 Sens BTUH [kW] 94.9 [27.8] 84.0 [24.61 78.2 [22.9) 113.5 (33.2] 100.3 [29.4) 93.5 [27.4] 130.5 [38.2] 115.4 [33.81 107.5 [31.5] 136.9 [40.11 122.2 (35.8) 113.8 [33.4) 136.7 (40.11 128.3 [37.6] 119.5 [35.0] O Power 7.9 7.7 7.6 1 7.8 7.6 7.5 1 7.7 7.5 7.4 1 7.7 7.5 7.4 7.6 7.4 7.3 U 85 Total BTUH [kW] 146.0 [42.8] 138.9 [40.7] 135.2 [39.6] 138.5 [40.6] 131.8 [38.6) 128.3 [37.6] 133.5 [39.1] 127.0 [37.2] 123.6 (36.2] 132.2 (38.7] 125.8 [36.91 122.5 [35.9) 132.1 (38.71 125.7 [36.81 122.3 [35.9] TD x•4] Sens BTUH (kW] 92.5 127.1] 81.8 [24.0] 76.2 [22.3] 111.0 [32.5] 98.2 [28.8) 91.5 [26.81 128.1 [37.5] 113.3 [33.2] 105.5 (30.9] 132.2 [38.7] 120.1 [35.2] 111.9 [32 81 132.1 (38.7] 125.7 [36.8] 117.5 [34.4) O Power 8.3 8.1 8.0 8.2 8.0 7.9 8.2 8.0 7.9 8.1 7.9 7.8 8.1 7.9 7.8 Total BTUH [kW] 141.4 141.41 134.5 [39.4] 131.0 [38.4] 133.9 [39.2] 127.4 (37.3] 124.0 [36.3) 128.8 (37.8] 122.6 (35.9] 119.3 [35.0] 127.6 (37.4] 121.4 [35.6) 118.2 134.61 127.5 [37.4] 121.3 [35.5] 118.1 [34.6] R 322] Sens BTUH [kW] 90.1 (26.4) 79.7 [23.3] 74.2 [21.7] 108.6 [31.8] 96.0 (28.1 ] 89.5 [26.2) 125.6 (36.8] 111.1 (32.6] 103.5 [30.31 127.6 (37.4] 117.9 [34.5) 109.8 (32.2] 127.5 [37.41 121.3 [35.51 115.5 [33.8] D Power 8.8 8.6 8.5 8.7 8.5 8.4 8.6 8.4 8.3 8.6 8.4 8.3 8.5 8.3 8.2 R Y 95 Total BTUH [kW] 136.8 [40.1] 130.2 [38.1] 126.7 [37.11 129.3 [37.9] 123.0 (36.11 119.7 [35.11 124.2 (36.4] 118.2 [34.6] 115.1 [33.7] 123.0 [36.0] 117.0 [34.3] 113.9 [33.4] 122.9 [36.0] 116.9 [34.3] 113.8 (33.3] 351 Sens BTUH [kW] 87.6 [25.7] 77.5 (22.71 72.2 [21.11 106.1 (31.1 ] 93.8 [27.5] 87.4 [25.6] 123.1 [36.11 108.9 [31.9] 101.5 [29.7) 123.0 [36.0] 115.7 [33.9] 107.8 [31.6] 122.9 [36.01 116.9 [34.3] 113.4 [33.2] B Power 9.3 9.1 9.0 9.2 9.0 1 8.9 9.1 8.9 8.8 9.1 8.9 8.8 9.1 8.8 8.7 100 Total BTUH [kW] 132.2 [38.7] 125.8 [36.9] 122.4 [35.91 124.7 [36.5] 118.7 [34.8] 115.5 [33.8] 119.6 [35.1] 113.8 [33.4] 110.8 [32.5] 118.4 [34.7] 112.7 [33.0] 109.7 (32.1] 118.3 [34.7] 112.5 [33.0] 109.5 [32.1] B 37 8] Sens BTUH [kWJ 85.1 [24.9] 75.2 [22.0] 70.1 [20.51 103.6 (30.3] 91.6 [26.8] 85.3 [25.0] 119.6 [35.1] 106.7 [31.3] 99.4 [29.1) 118.4 (34.7] 112.7 [33.0] 105.7 (31.0] 118.3 [34.7] 112.5 [33.0] 109.5 [32.1] T Power 9.9 9.6 9.5 9.8 9.5 9.4 9.7 9.5 9.3 9.6 9.4 9.3 9.6 9.4 9.2 E Total BTUH [kW] 127.6 [37.4] 121.4 [35.6) 118.2 [34.6] 120.1 [35.21 114.3 [33.5] 111.2 [32.6] 115.1 [33.71 109.5 [32.11 106.6 [31.2) 113.8 [33.4] 108.3 [31.7] 105.4 (30.9] 113.7 (33.3] 108.2 [31.7] 105.3 130.91 P 405 Sens BTUH [kW] 82.5 [24.2] 73.0 [21.4] 68.0 [19.9] 101.0 [29.61 89.3 [26.2] 83.2 [24.4] 115.1 [33.71 104.4 [30.6] 97.3 [28.5] 113.8 [33.4] 108.3 [31.7] 103.6 [30.4] 113.7 [33.3] 108.2 [31.7] 105.3 [30.9] E Power 10.5 10.2 10.1 10.4 10.1 10.0 10.3 10.0 9.9 10.2 10.0 9.8 10.2 9.9 9.8 R Total BTUH [kW] 123.0 (36.1 ] 117.1 [34.3] 114.0 (33.4] 115.5 [33.91 109.9 (32.2] 107.0 [31.4) 110.5 [32.4] 105.1 [30.8] 102.3 [30.0] 109.3 [32.0] 104.0 (30.5] 101.2 (29.7] 109.1 [32.01 103.8 [30.4] 101.1 [29.6] T 43.3] Sens BTUH [kW] Power 79.9 [23.4) 70.6 [20.7] 65.8 (19.3] 98.4 [28.81 87.0 [25.5] 81.1 [23.81 110.5 [32.4] 102.1 [29.9] 95.1 [27.9] 109.3 [32.0] 104.0 [30.5] 101.2 (29.7] 109.1 [32.0] 103.8 [30.4] 101.1 (29.6] U 11.1 10.8 10.7 11.0 10.7 10.6 10.9 10.6 10.5 10.8 10.6 10.4 10.8 10.5 10.4 E 115 Total BTUH [kW) 118.5 [34.7] 112.7 [33.01 109.7 [32.2] 111.0 [32.5] 105.6 [31.0] 102.8 [30.1] 105.9 (31.0] 100.8 129.5] 98.1 [28.8] 104.7 [30.7) 99.6 (29.2] 97.0 (28.4] 104.6 [30.6] 99.5 [29.2] 96.8 (28.4] 146.1] Sens BTUH [kW] 77.2 [22.6] 68.3 [20.0) 63.6 [18.61 95.7128.11 84.7 [24.8] 78.9 123.1] 105.9 [31.0] 99.8 (29.2] 92.9 [27.2] 104.7 [30.71 99.6 [29.2] 97.0 (28.4] 104.6 [30.6] 99.5 [29.2] 96.8 (28.4] F O1 Power 11.7 11.4 11.3 11.6 11.3 11.2 11.5 11.2 11.1 11.5 11.2 11.1 11.4 11.2 11.0 Total BTUH [kW] 113.9 [33.4] 108.4 [31.8] 105.5 [30.9] 106.5 (31.21 101.3 [29.71 98.6 (28.9] 101.4 (29.7] 96.5 (28.31 93.9 [27.5] 100.2 [29.41 95.3 [27.9] 92.8 (27.2] 100.0 (29.3] 95.2 [27.9] 92.6 127.1] 4891 Sens BTUH [kW] 74.5 [21.8] 65.9 (19.3] 61.4 (18.0) 93.0 (27.31 82.3 [24.11 76.7 (22.5] 101.4 [29.7] 96.5 [28.3] 90.7 [26.6] 100.2 [29.41 95.3 [27.9] 92.8 (27.21 100.0 (29.3] 95.2 [27.91 92.6 [27.11Power12.4 12.1 11.9 1 12.3 12.0 11.8 12.2 11.9 11.7 12.1 11.9 11.7 12.1 11.8 11.7 Total BTUH [kW] 109.4 [32.11 104.1 [30.5]r59.2 29.7] 101.9 [29.91 97.0 [28.41 94.4 [27.7] 96.9 [28.4] 92.2 [27.0] 89.7 [26.31 95.6 (28.0] 91.0 [26.7] 88.6 [26.0] 95.5 [28.0) 90.9 [26.61 88.5 [25.9] 519] Sens BTUH [kW] 71.8 [21.01 63.5 [18.61(17.3] 90.3 [26.5) 79.9 [23.4] 74.4 [21.8] 96.9 [28.4] 92.2 [27.0) 88,5 [25.91 95.6 (28.0] 91.0 [26.71 88.6 [26.0] 95.5 [28.0] 90.9 [26.6] 88.5 [25.9] Power 13.1 12.8.6 1 13.0 1 12.7 12.5 1 12.9 12.6 12.4 1 12.9 12.5 12.4 12.8 12.5 12.3 Un-Ucpintibiwi 1duu iuiai -iutal sapacny x ivuu n i un NOTES: U When the entering air dry bulb is other than 80°F [270C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. [ j Designates Metric ConversionswbE-Entering air wet bulb Power -KW input 0:0 •• • • • • 0:0 •• • • COOLING PERFORMANCE DATA-RACDZT150A ENTERING INDOOR AIR 0 80"F [26.7°C] ME J a wbE 71°F[21.7°C] 67°F [19.4°Cl 63°F [17.2°Cl CFM [Us] 4500 [21241 3750[1770] 3000 [14161 4500 [21241 3750[1770] 3000 [14161 4500 [21241 3750[1770] 3000 [14161 0 0.01 0.09 0 0.01 0.09 0 0.01 0.09 75 Total BTUH [kW] 179.6 (52.6] 173.3 [50.8] 167.0 (48.9] 172.2 [50.5] 166.2 (48.7] 160.2 [46.9] 167.3 [49.0] 161.4 [47.3] 155.5 [45.6] 23.91 Sens BTUH [kW] 113.4 (33.2] 97.4 [28.5] 82.6 [24.2] 131.0 [38.41 113.8 (33.3] 97.7 [28.6] 147.4 [43.2] 128.9 [37.8] 111.5 [32.7] O Power 10.2 10.0 9.9 10.1 9.9 9.8 10.0 9.9 9.7 U80 Total BTUH [kW] 175.0 [51.3] 168.9 [49.5] 162.8 [47.7] 167.6 [49.1] 161.8 [47.4] 155.9 [45.7] 162.7 [47.7] 157.0 [46.0] 151.3 [44.3] T p'7] Sens BTUH [kW] 110.9 [32.5] 95.3 [27.91 80.9 [23.7] 128.5 [37.7] 111.7 [32.7] 95.9 [28.1 ] 144.9 [42.5] 126.8 [37.2] 109.8 [32.2] O Power 10.6 10.4 10.3 10.5 10.4 10.2 10.4 10.3 10.1 R 8 Total BTUH [kW] 170.5 [50.01 164.5 [48.2) 158.5 [46.4] 163.1 [47.81 157.4 [46.1] 151.6 (44.4] 158.1 [46.31 152.5 [44.7] 147.0 [43.1] 4] Sens BTUH [kW] 108.5 [31.81 93.2 [27.3] 79.1 [23.2] 126.1 (36.91 109.6 [32.1] 94.1 [27.61 142.4 [41.7] 124.6 [36.51 108.0 [31.6] D Power 11.1 10.9 10.7 11.0 10.8 10.6 10.9 10.7 10.5 R 90 Total BTUH [kW] 165.9 [48.6] 160.1 [46.9] 154.3 (45.2] 158.5 [46.41 153.0 [44.8] 147.4 [43.21 153.5 [45.0] 148.1 [43.41 142.8 [41.8] 32.2] Sens BTUH (kW] 105.8 [31.0] 91.0 [26.7] 77.2 [22.61 123.4 [36.2) 107.4 (31.51 92.3 [27.0] 139.7 [40.9] 122.4 (35.91 106.2 (31.1] B U Power 11.6 11A 11.2 11.5 11.3 11.1 11.4 11.2 11.0 L Total BTUH [kW] 161.4 147.3) 155.7 [45.61 150.0 [43.9) 154.0145.11 148.6 [43.5] 143.2 [42.0] 149.0 (43.7] 143.8 [42.1] 138.5 [40.61B95SensBTUH [kW] 103.3 130.3] 88.8 [26.0j 75.3 [22.1) 120.9 [35.4] 105.2 [30.8] 90.5 [26.5] 137.2 (40.2] 120.3 [35.2] 104.3 [30.61 T Power 12.1 11.9 11.6 12.0 11.8 11.6 11.9 11.7 11.5 E I 1 Total BTUH [kW] 156.8 [45.9] 151.3 [44.31 145.8 (42.7] 149.4 [43.8] 144.2 [42.3] 139.0 [40.7] 144.5 [42.3] 139.4 [40.8) 134.3 (39.31 P 370 Sens BTUH [kW] 100.6 (29.5] 86.5 [25.3] 73.4 [21.5] 118.2 (34.6] 102.9 [30.1) 88.6 [26.01 134.6 [39.41 118.0 [34.61 102.4 [30.01 E Power 12.6 12.4 12.2 12.5 12.3 12.1 12.4 12.2 12.0 R Total BTUH [kW] 152.3 [44.61 147.0 143.11 141.6 [41.51 144.9 [42.51 139.8 [41.0] 134.8 [39.51 139.9 [41.0] 135.0 [39.6] 130.1 [38.11 T 61 Sens BTUH [kW] 98.0 [28.7) 84.3 [24.71 71.5 [20.9) 115.6 [33.91 100.6 129.51 86.7 [25.4) 131.9 138.61 115.7 [33.9] 100.5 [29.4) U Power 13.2 13.0 12.7 13.1 12.9 12.6 13.0 12.8 12.5 E 110 Total BTUH [kW] 147.8 143.3] 142.6 [41.81 137.4 [40.3) 140.4 [41.1] 135.5 (39.71 130.6 [38.31 135.4 [39.7) 130.7 [38.31 125.9 [36.9) FPower43.3] Sens BTUH [kW] 95.3 [27.9] 82.0 [24.01 69.6 [20.4] 112.9 [33.1] 98.4 [28.81 84.8 [24.8] 129.2 [37.9] 113.5 [33.3] 98.6 [28.9] oC1 13.8 13.513.3 13.7 13.5 13.2 13.6 13.4 13.1 115 Total BTUH [kW] 143.3 [42.01 138.3 [40.5] 133.3 139.1] 135.9 [39.8] 131.2 [38.4] 126.4 [37.0] 130.9 [38.4] 126.4 137.01 121.8 [35.7] x'11 Sens BTUH [kW] 92.6 [27.11 79.7 (23.4] 67.7 [19.81 110.1 [32.3] 96.0 [28.1) 82.7 [24.21 126.4 [37.0] 111.1 [32.61 96.6 [28.3] Power 114.4 14.2 13.9 14.3 14.1 13.8 14.2 14.0 13.7 wtm -weal uapaaiy A uuu o un NuI rs: u wnen the entering air dry bulb is other than 80°F [27°C], adjust the sensibledbE -Entering air dry bulb Sens -Sensible capacity x 1000 BTUH capacity from the table by adding [1.10 x CFM x (1 - DR) x (dbE - 80)]. wbE-Entering air wet bulb Power -KW input I 0. Designates Metric Conversions Gross Systems Performance Data RACD Series a GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZS090 ENTERING INDOOR AIR @ 75°F [23.9°Cl dbE O wbE 65.3°F [18.5°Cl 64°F [17.8°CI 62.5°F [16.9°Cl CFM [L/sl 1800 [8501 1700 [8021 1200 [5651 1800 [850] 1700 [8021 1200 [5661 1800 [8501 1700 [802] 1200 [5661 0 60 Tota[ BTUH [kW1 29.7 [8.7] 29.4 [8.6] 27.9 [8.2] 27.0 [7.9] 26.7 [7.8] 25.3 [7.4] 26.6 [7.8] 26.4 [7.7] 24.9 [7.3] 0 15.6] Sens BTUH [kWI 6.5 [1.9] 6.3 [1.8) 5.4 [1.6] 9.0 [2.6] 8.7 [2.6] 7.5 [2.2] 11.4 [3.4] 11.1 [3.3) 9.6 [2.8] T D T D Power 3.2 3.1 3.1 3.2 3.2 3.1 3.2 3.2 3.1 0 65 -,Total BTUH [kW] 29.5 [8.6) 29.2 [8.5] 27.6 [8.1] 26.7 [7.8] 26.4 [7.7] 25.0 [7.3) 26.4 [7.7] 26.1 [7.6] 24.7 [7.2] R 18.31 Sens BTUH [kWI 5.0 [1.5] 4.9 [1.4] 4.2 [1.2] 7.6 [2.2] 7.4 [2.2] 6.3 [1.9] 10.0 [2.9] 9.7 [2.9] 8.4 [2.5] D D Power 3.2 3.2 3.1 3.3 3.2 3.2 3.2 3.2 3.1 R 70 Total BTUH [kW] 28.8 [8.4] 28.5 [8.4] 27.0 [7.9] 26.0 [7.6] 25.8 [7.6] 24.4 [7.1] 25.7 [7.5] 25.4 [7.5] 24.1 [7.1] y Sens BTUH [kWI 3.7 [1.1] 3.6 [1.0] 3.1 [0.9] 6.2 1.8) 6.0 [1.8) 5.2 [1.5] 8.6 [2.5] 8.4 [2.5] 7.2 [2.1] B 121'11 Power 3.2 3.2 3.1 V* 3.3 3.2 3.3 3.3 3.2 L 75 Total BTUH [kW] 27.8 [8.1] 27.5 [8.1] 26.0 [7.6] 25.0 [7.3) 24.7 [7.2) 23.4 [6.9] 24.7 [7.2] 24.4 7^.2] J2.14 23.1 [6.8) B B Sens BTUH [kWI 2.3 [0.7] 2.3 [0.7] 2.0 [0.6] 4.9 [1.4] 4.7 [1.4] 4.1 [1.2] 7.3 [2.1 ] 7.1 6.1 [1.8] T 23.9] Power 3.3 3.3 3.2 3.4 3.4 3.3 3.4 , 3.4' 3.3 00 E E Total BTUH [kW1 26.3 [7.7] 26.0 [7.6] 24.6 [7.2] 23.5 [6.9] 23.3 [6.8] 22.1 [6.5] 23.2 .81 23.0 401" J1.7 [6.41 P 2807) Sens BTUH [kWI 1.1 [0.3] 1.0 [0.3] 0.9 [0.3] 3.6 [1.0) 3.5 [1.0] 3.0 [0.9] 6.D 6[1.1? 5.9 [1!a) 5.1 [14? R E Power 3.4 3.4 3.3 3.5 3.5 3.4 43.60000 3.5 6.1 A A Total BTUH [kW1 24.5 [7.2] 24.2 [7.1] 22.9 [6.7] 21.7 [6.4] 21.5 [6.3] 20.3 [6.0] 21.4 .[`4 21.1 2 17.4 [5.1] R 2941 Sens BTUH [kW] 0.2 [-0.1] 0.2 [0.0] 0.1 [0.0] 2.4 [0.7] 2.3 [0.7) 2.0 [0.6] 4.1;.[jQl 4.7 :1.4] 120.0[51, 4.2 [-1.2] Power 3.6 3.6 3.5 3.7 3.6 3.6 6.6 3.6 6.7 E90F E Total BTUH [kW] SensBTUH[kW] 22.2 [6.5] 1.3 [-0.4] 22.0 [6.4) 1.3 20.8 [6.1 ] 1.1 19.5 [5.7) 1.2 19.3 [5.6] 1.1 18.2 [5.3] 1.0 19. j, [ 3.8 i 18.9 t5.5 3.5 0O[°C1[32'2] 9.6 [2.8] 9.3 [2.7] F 148.91 Sens BTUH [kW) 0.4) 0.3] 0.3] 0.3] 0.3] 1 12.5 [-3.7] 11.2 [-3.3] 10.3 [ 3.0] C] Power 3.8 3.7 3.6 3.8 3.8 3.7 3.;" 3.8 3.7 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZS090 ENTERING INDOOR AIR @ 75°F [23.9°C] dbEi0 wbE 65.3°F [18.5°Cl 64°F [17.8°CI 62.5'F [16.9°Cl CFM [U31 3600[16991 2900[13691 2400 [11331 3600[16991 2900 [13691 2400111331 3600 [16991 290003691 2400 [11331 060 Total BTUH [kWI 41.7 [12.2] 39.9 [11.7) 38.7 [11.3] 40.1 [11.8) 38.4 [11.3] 37.2 [10.9) 40.0 [11.7) 38.3 [11.2) 37.1 [10.9] U 15.6] Sens BTUH [kW] 8.9 [2.6] 8.0 [2.4] 7.4 [2.2] 12.8 [3.7] 11.5 [3.4] 10.5 [3.1] 18.5 [5.4] 16.7 [4.9] 15.3 [4.5] T D Power 5.0 4.9 4.8 4.9 4.8 4.8 4.9 4.8 4.8 BTUH [kWI 39.8 [11.7) 38.1 [11.2] 36.9 [10.8] 38.3 [11.2] 36.7 [10.7) 35.5 [10.4] 38.1 [11.2] 36.5 [10.7] 35.4 [10.4] R 21. Total 11 Sens BTUH [kW1 5.9 [1.7] 5.3 [1.6] 4.9 [1.4] 9.8 [2.9] 8.8 [2.6] 8.1 [2.4] 15.5 [4.6] 14.0 [4.1] 12.8 [3.8) D Power 5.1 5.0 4.9 5.1 5.0 4.9 5.0 4.9 4.9 R80 Total BTUH [kW1 36.7 [10.7] 35.1 [10.3) 34.0 [10.0] 35.1 [10.3) 33.7 [9.9] 32.6 [9.6] 35.0 [10.3] 33.5 [9.8] 32.5 [9.5] 26.71 Sens BTUH [kWJ 2.1 [0.6] 1.9 [0.5] 1.7 [0.5] 5.9 [1.7] 5.3 [1.6) 4.9 [1.4] 11.7 [3.4] 10.5 [3.1] 9.6 [2.8] ower 5.4 5.3 5.2 5.3 5.2 5.1 5.3 5.2 5.1 u 90 Tota[ BTUH [kW1 32.3 [9.5] 30.9 [9.1] 30.0 [8.8] 30.8 [9.0) 29.5 [8.6] 28.5 [8.4] 30.6 [9.0] 29.3 [8.6] 28.4 [8.3] B 32.21 Sens BTUH [kWI 2.7 [-0.8] 2.4 [-0.7] 2.2 [-0.6] 1.2 [0.3] 1.0 [0.3] 1.0 [0.3] 6.9 [2.0] 6.2 [1.8] 5.7 [1.7] T Power 5.8 5.6 5.6 5.7 5.6 5.5 5.7 5.6 5.5 E 100 Total BTUH [kWI 26.7 [7.8] 25.5 [7.5) 24.7 [7.3] 25.1 [7.4] 24.1 [7.1] 23.3 [6.8] 25.0 [7.3] 23.9 [7.0] 23.2 [6.8) P 81 Sens BTUH [kW1 8.3 [-2.4] 7.4 [-2.2] 6.8 [-2.0] 4.4 [-1.3] 4.0 [-1.2] 3.7 [-1.1] 1.3 [0.4) 1.2 [0.4] 1.1 [0.3] E Power 6.3 6.2 6.1 6.2 6.1 6.0 6.2 6.1 6.0 A 110 Tota[ BTUH [kW1 19.8 [5.8] 19.0 [5.6] 18.4 [5.4] 18.3 [5.4] 17.5 [5.1] 17.0 [5.0] 18.1 [5.3] 17.4 [5.1] 16.8 [4.9] R 43.3] Sens BTUH [kW] 14.7 [-4.3) 13.2 [-3.9] 12.2 [-3.6] 10.9 [-3.2] 9.8 [-2.9] 9.0 [-2.6] 5.1 [-1.5] 4.6 [-1.4] 4.2 [-1.2] Power 6.9 6.8 6.7 6.9 6.7 6.6 6.9 6.7 6.6 E 120 Total BTUH [kW] 11.7 [3.4] 11.2 [3.3] 10.8 [3.2] 10.1 [3.0) 9.7 [2.8) 9.4 [2.8] 10.0 [2.9] 9.6 [2.8] 9.3 [2.7] F 148.91 Sens BTUH [kW) 22.1 [-6.5] 19.8 [-5.8] 18.2 [-5.3] 18.2 [-5.3] 16.4 [-4.8] 15.1 [-4.4] 12.5 [-3.7] 11.2 [-3.3] 10.3 [ 3.0] C] Power 7.8 7.6 7.5 7.7 7.5 7.4 7.7 7.5 7.4 Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZS102 ENTERING INDOOR AIR @ 75°F [23.9°Cl ME G wbE 65.3°F[18.5°C] 64°F [17.8°C1 62.5°F[16.9°C1 CFM [Lis] 2100 [9911 1700 [8021 1400 [6611 2100 [9911 1700 [8021 1400 [6611 2100 [9911 1700 [8021 1400 [6611 0 60 Total BTUH [kW1 36.6 [10.7] 35.1 [10.31 33.9 [9.91 34.5 [10.1] 33.1 [9.7] 32.1 [9.4] 31.9 [9.3] 30.6 [9.01 29.6 [8.7] u 15'61 Sens BTUH [kW] 7.1 [2.11 6.4 [1.91 5.9 [1.7] 9.0 [2.6] 8.1 [2.4] 7.4 [2.2] 10.7 [3.1] 9.7 [2.81 8.9 [2.6] DD Power 3.9 3.8 3.7 3.8 3.8 3.7 3.8 3.8 3.7 0 65 Total BTUH [kik 35.5 [10.4] 34.0 [10.0] 32.9 [9.6] 33.4 [9.8] 32.1 [9.4] 31.0 [9.1) 30.8 [9.0] 296 8.8.6128.6 2.6] 8.4] R 18.31 Sens BTUH RW1 6.1 [1.8] 5.5 [1.6] 5.0 [1.5] 8.0 [2.31 7.2 [2.1] 6.6 [1.9) 9.7 [9.81 8 8.0 D Power 3.9 3.8 3.8 3.9 3.8 3.8 S • M. 3.8 R707 Total BTUH [kW] Sens BTUH RW] 34.1 [10.0] 4.8 [1.4] 32.7 [9.6] 4.3 [1.3] 31.7 [9.3] 4.0 [1.2] 32.1 [9.41 6.7 [2.0] 30.8 [9.0] 6.0 [1:8] 29.8 [8.71 5.5 [1.6] W l 8.5 •[2.51 2813. 1 7.6 01 27.4 • 0l7.0 bl B 1[ Power 4.0 3.9 3.9 4.0 3.9 3.9 G" 3.9 ' 3, 6 • 0TotalL BTUH NW1 32.7 [9.6] 31.3 [9.2] 30.3 [8.9] 30.6 [9.0] 29.4 [8.61 28.4 [8.3] 90 [82] 261' 47.91 26.0'[7.6] u 9. Sens BTUH [kW] 3.3 [1.0] 3.0 [0.9] 2.8 [0.8] 5.2 [1.5] 4.7 [1.4] 4.3 [1.3] 0 •[f.0] 68 [11.11 5.8 •[4- { T 123591 Power 4.1 4.0 4.0 4.1 4.0 4.0 04.4.0 4.0.. 411.9. E80 Total BTUH [kW] 31.0 [9.1) 29.7 [8.7] 28.8 [8.4] 29.0 [8.5] 27.8 [8.1] 26.9 [7.9] to •[a.7] 25.2. 4T.4] 24.4 . W42j P 126.71 Sens BTUH RM 1.7 [0.51 1.5 [0.4] 1.4 [0.4] 3.6 [1.0] 3.2 [0.9] 2.9 [0.9] 5a W.6] 4.8 [t4] 4.4 [1.31 E 37.81 Power 4.3 4.2 4.1 4.3 4.2 4.1 4.8 • 4.2 4.1 A 85 Total BTUH RW1 29.1 [8.5] 27.9 [8.2] 27.0 [7.9] 27.1 [7.9] 26.0 [7.6] 25.1 [7.4] X4.4 [1.21 23• JO..M] 22.7 • [6.6] T 29.4] Sens BTUH [kW] 02 [-0.11 0.2 [-0.1] 0.2 [-0.1] 1.7 [0.5] 1.5 [0.4] 1.4 [0.4] 3.4.[1.0] 3.1 [0.91 2.8.[0 } R 43.3] Power 4.4 4.3 4.3 4.4 4.3 4.3 4 ' X4.3' •' 4!S E Total BTUH RW1 27.1 [7.9] 26.0 [7.6] 25.1 [7.4] 25.0 [7.3] 24.0 [7.0] 23.2 [6.8] 22.4 [6961 21.5' 16.3] 20.6 [6.1] F 320 1 Sens BTUH RM 2.3 [-0.7] 2.1 [-0.6] 1.9 [ 0.6] 0.4 [ 0.1 ] 0.4 [-0.1) 0.4 [-0.1] 1.3 [0.4] 1.2 [0.3] 1.1 [0.3] GI 48.91 Power 4.6 4.5 4.4 4.6 4.5 4.4 4.6 4.5 4.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZS102 ENTERING INDOOR AIR @ 75°F [23.9°Cl dbE ci; wbE 65.3'F[18.5°C1 54°F[17.8°CI 62.5-F [16.9-C] CFM [L/sl 4100 [1935] 2900 [13691 2700 [12741 4100 [19351 2900 [13691 2700 [12741 4100 [1935] 2900 [13691 2700 [12741 0 60 Total BTUH [kW1 57.6 [16.9] 53.6 [15.71 52.9 [15.5] 45.7 [13.4] 42.5 [12.5] 42.0 [12.3] 51.3 [15.0] 47.7 [14.0] 47.1 [13.8] U 15.6] Sens BTUH [kW] 12.7 [3.7] 10.7 [3.1] 10.3 [3.0] 14.6 [4.3] 12.2 [3.61 11.8 [3.5] 20.5 [6.0] 17.2 [5.0] 16.6 [4.9] T D power 6.6 6.4 6.3 5.2 5.0 5.0 6.3 6.1 6.0 0 70 Total BTUH [kWl 52.7 [15.5] 49.1 [14.4] 48.4 [14.21 40.9 112.01 38.0 [11.1] 37.5 [11.0] 46.4 [13.61 43.2 [12.7] 42.6 [12.5] R 21.11 Sens BTUH [kW] 10.1 [3.0] 8.5 [2.51 8.2 [2.41 11.9 [3.5] 10.0 [2.9] 9.7 [2.8] 17.9 [5.2] 15.0 [4.4] 14.5 [42) D Power 6.4 6.1 6.1 5.0 4.8 4.8 6.0 5.8 5.8 R 80 Total BTUH [kW] 46.3 [13.6] 43.1 [12.6] 42.6 [12.5] 34.5 [10.1] 32.1 [9.4] 31.6 [9.3] 40.0 [11.7] 37.2 [10.91 36.7 [10.8] 26.71 Sens BTUH 1kW1 5.6 [1.6] 4.7 [1.4] 4.5 [1.3] 7.4 [2.2] 6.2 [1.8] 6.0 [1.8] 13.3 [3.9] 11.2 [3.3] 10.8 [3.2] B Power 6.4 6.1 6.1 5.0 4.8 4.8 6.1 1 5.8 5.8 u 9. Total BTUH [kW1 38.4 [11.2] 35.7 [10.5] 35.2 [10.3) 26.5 [7.81 24.7 [7.21 24.3 [7.1] 32.1 [9.41 29.8 [8.7] 29.4 [8.6] 8 32'2] Sens BTUH [kW1 0.9 [-0.3] 0.7 [-0.2] 0.7 [-0.21 0.9 [0.3] 0.8 [0.2] 0.8 [0.2] 6.9 [2.0] 5.8 [1.71 5.6 [1.61 T Power 6.6 6.4 6.4 5.2 5.1 5.0 6.3 6.1 6.1 E M 100 Total BTUH 1kW1 28.9 [8.51 26.9 [7.9] 26.5 [7.8] 17.0 [5.0] 15.8 [4.6] 15.6 [4.6] 22.6 [6.6] 21.0 [6.1] 20.7 [6.1] P 37.81 Sens BTUH [kW] 9.2 [-2.71 7.7 [-2.3] 7.5 [-2.2) 7.4 [-2.21 6.2 [-1.8] 6.0 [-1.8] 1.5 [-0.4] 1.2 [-0.4] 1.2 [-0.41 E Power 7.2 6.9 6.9 5.8 5.6 5.5 6.8 6.6 6.6 A 110 Total BTUH NW1 17.9 [5.2] 16.6 [4.9] 16.4 [4.8] 6.0 [1.8] 5.6 [1.61 5.5 [1.6] 11.5 [3.4] 10.7 [3.1) 10.6 [3.1] 43.3] Sens BTUH [kW] 19.5 [-5.7] 16.3 [-4.8] 15.8 [-4.6] 17.7 [-5.2] 14.8 [-4.3] 14.3 [-4.2] 11.7 [-3.4] 9.8 [-2.9] 9.5 [-2.8] R Power 7.9 7.7 7.6 6.5 6.3 6.3 7.6 7.4 7.3 E 128 Total BTUH [kW] 5.3 [1.5] 4.9 [1.4] 4.9 [1.4] 6.6 [-1.9] 6.1 [-1.8] 6.0 [-1.8] 1.0 [-0.3] 1.0 [-0.3] 1.0 [ 0.3] F 48.91 Sens BTUH [kW] 31.6 [-9.3] 26.5 [-7.8] 25.7 [-7.5] 29.8 [-8.71 25.0 [-7.3] 24.2 [-7.1] 23.9 [-7.0] 20.0 [-5.9] 19.4 [ 5.71 c1 Power 9.0 8.7 8.6 7.6 7.3 7.3 8.7 8.4 8.3 Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZS120 ENTERING INDOOR AIR @ 75'F [23.9°CI ME O wbE 65.3°F [18.5°Cl 64°F [17.8°Cl 62.5°F [16.9°Cl CFM [L/s] 3000 [14161 2400 [11331 2000 [9441 3000 [14161 2400 [11331 2000 [9441 3000 [14161 2400 [11331 2000 19441 0 60 Total BTUH RWI 46.5 [13.6] 44.4 [13.0] 43.1 [12.6] 43.1 [12.6] 41.2 [12.1] 40.0 [11.7] 40.3 [11.8] 38.6 [11.3] 37.4 [11.0] 0 15.6] Sens BTUH [kW] 12.9 [3.8] 11.6 [3.4] 10.7 [3.1] 13.8 [4.0] 12.3 [3.6] 11.4 [3.31 18.5 [5.4] 16.5 [4.8] 15.3 [4.5] TD power Power 4.6 4.5 4.4 4.5 4.4 4.3 4.5 4.4 4.3 0 65 Total BTUH RWI 45.7 [13.4] 43.7-[12.8] 42.4 [12.4] 42.3 [12.4] 40.5 [11.9] 39.3 [11.5] 39.6 [11.6] 37.8 [41.1] 36.7 [10.8] R 18 3] Sens BTUH [kW1 10.5 [3.1] 9.4 [2.8] 8.7 [2.5] 11.4 [3.3] 10.2 [3.0] 9.4 [2.8] 16.1 [4.7j 14.4 Zd.2] 13.3 [3.y D Power Power 4.6 4.5 4.5 4.6 4.5 4.4 t • 4.4 4.4 R 7070 Total BTUH [kW1 44.7 [13.1] 42.7 [12.5] 41.4 [12.1] 41.3 [12.1] 39.5 [11.6] 38.3 [11.2] 38.5 jLi 36.9 [1Q.$]•435.7 10+5] 126.71 Sens BTUH 1kW1 Sens BTUH [kW] 8.3 [2.4] 7.4 1;2.2] 6.9 [2.0] 9.2 [2.7] 8.2 [2.4] 7.6 [2.21 13.E L40#11 3.6]• 11.4 [341 B Power 4.7 4.6 4.6 4.7 4.6 4.5 12. 4 t 4.5 4.5 • 0TotalB75 BTUH RW] 43.4 [12.7] 41.5 [12.2] 40.2 [11.8] 40.0 [11.7] 38.3 [11.2] 37.1 [10.9] 37.$ 35.6 aQ.4] 34.5 [10:1] 32.21 Sens BTUH RWI Sens BTUH NWI 6.3 [1.8] 5.6 [1.7] 5.2 [1.5] 7.2 [2.1] 6.4 [1.9] 5.9 [1.7] 11.9 • X3!91 10.6 '[3.1]• 9.8 [2". T 23'91 Power 4.9 4.8 4.7 4.8 4.7 4.7 1186 • • 4.7 • • 4.6 • • M 80 Total BTUH [kW] 41.8 [12.2] 40.0 [11.7] 38.8 [11.4] 38.4 [11.3] 36.8 [10.8] 35.6 [10.4] 35.0 110" 34.1 [10.8] 83.1 [9.73 P 26 ll Sens BTUH [kW] 4.5 [1.3] 4.0 [1.2] 3.7 [1.1] 5.4 [1.6] 4.8 [1.4] 4.4 [1.3] 10.1. [. 9.0 [2.6]. 8.3 [2.4] E Power Power 5.1 5 4.9 5 4.9 4.9 5 • 4.9 4.8 A85 Total BTUH RWI Total BTUH RWI 40.0 [11.7] 38.2 [11.2] 37.1 [10.9] 36.6 [10.7] 35.0 [10.3] 33.9 [9.9] 33.§ [9.9 32.4 :9.51-• 431.4 [962] T[ 29.41 Sens BTUH RWI Sens BTUH [kW] 2.9 [0.8] 2.6 [0.8] 2.4 [0.7] 3.8 [1.1] 3.4 [1.0] 3.1 [0.91 8.6 L295]] 7.6 [2.2] 7.0 [2.0] R Power Power 5.4 5.3 5.2 5.3 5.2 5.1 5..3 5.Z•66•0 5.1 . E 02] Total BTUH (kW1 37.9 [11.1] 36.2 [10.6] 35.1 [10.3] 34.5 [10.1] 33.0 [9.7] 32.0 [9.4] 31.7 [9.3] 30.4 [g.9] 29.4 [8.6] F 13g Sens BTUH RWI 1.5 [0.4] 1.3 [0.4] 1.2 [0.4] 2.4 [0.7] 2.1 [0.6] 2.0 [0.6] 7.1 [2.111 6.3 [1.9] 5.8 [1.7] 1°C] Power Power 5.7 5.6 5.5 5.6 5.5 5.4 5.6 5.5 5.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZS120 ENTERING INDOOR AIR @ 75°F [23.9°Cl dbE 1 wbE 65.3°F MUM 64°F(17.8°Cl 62.5°F116.9°Cl CFM IL/31 4800[22651 3800117931 3200[15101 4800 [22651 3800117931 320005101 4800[22651 380007931 3200[1510] 0 60 Tota[ BTUH [kW] 58.1 [17.0] 55.4 [16.2] 53.9 [15.8] 55.5 [16.3] 53.0 [15.51 51.4 [15.1] 53.1 [15.6] 50.7 [14.9] 49.2 [14.4] U 15.61 Sens BTUH RWI 10.5 [3.1] 9.3 [2.71 8.6 [2.5] 15.6 [4.6] 13.9 [4.1] 12.9 [3.81 19.9 [5.8] 17.7 [5.2] 16.4 [4.8] T D power 7.0 6.9 6.8 6.9 6.8 6.7 6.9 6.8 6.7 BTUH NW1 53.4 [15.7] 51.0 [14.9] 49.5 [14.5] 50.8 [14.9] 48.5 [14.2] 47.1 [13.8] 48.4 [14.2] 46.2 [13.5] 44.9 [13.2] R 210Total 11 Sens BTUH RWI 8.3 [2.4] 7.4 [2.21 6.8 [2.0] 13.4 [3.91 12.0 [3.5] 11.1 [3.2] 17.7 [5.2] 15.8 [4.6] 14.6 [4.3] D Power 7.1 7.0 6.9 7.0 6.9 6.8 7.0 6.9 6.8 80 Total BTUH [kW] 48.4 [14.2] 46.2 [13.5] 44.9 [13.2] 45.8 [13.4] 43.7 [12.8] 42.5 [12.4] 43.4 [12.7] 41.5 [12.1] 40.3 [11.8] y 126.71 Sens BTUH 1kW1 4.5 [1.3] 4.0 [1.2] 3.7 [1.1] 9.7 [2.8] 8.6 [2.5] 8.0 [2.3] 14.0 [4.1] 12.5 [3.6] 11.5 [3.4] B Power 7.4 7.3 7.2 7.3 7.2 7.1 7.3 7.2 7.1 L 90 Total BTUH NW1 43.1 [12.6] 41.1 [12.0] 39.9 [11.7] 40.5 [11.9] 38.6 [11.3] 37.5 [11.0] 38.1 [11.2] 36.3 [10.6] 35.3 [10.3] B 32.21 Sens BTUH RWI 0.8 [-0.2] 0.7 [-0.2] 0.6 [-0.2] 4.4 [1.3] 3.9 [1.11 3.6 [1.1] 8.7 [2.5] 7.7 [2.31 7.2 [2.1] T Power 7.9 7.7 7.6 7.8 7.7 7.5 7.8 7.6 7.5 E100 Total BTUH [kW] 37.4 [11.0] 35.7 [10.5] 34.6 [10.2] 34.8 [10.2] 33.2 [9.7] 32.2 [9.4] 32.4 [9.5] 30.9 [9.1] 30.0 [8.8] P 37.81 Sens BTUH (kWI 7.6 [-2.21 6.8 [-2.0] 6.3 [-1.8] 2.5 [-0.7] 2.2 [-0.6] 2.0 [46] 1.8 [0.5] 1.6 [0.51 1.5 [0.4] R Power 8.6 8.4 8.3 8.5 8.3 8.2 8.5 8.3 8.2 A 110 Total BTUH RWI 31.3 [9.2] 29.9 [8.8] 29.0 [8.5] 28.7 [8.4] 27.4 [8.0] 26.6 [7.8] 26.3 [7.7] 25.1 [7.4] 24.4 [7.1] R 143.31 Sens BTUH RWI 16.0 [-4.7] 14.3 [-4.2] 13.2 [-3.91 10.9 [-3.2] 9.7 [-2.81 9.0 [-2.6] 6.6 [-1.9] 5.9 [-1.7] 5.5 [-1.6] Power 9.5 9.3 9.2 9.4 9.2 9.1 9.4 9.2 9.0 E 120 Total BTUH (kW] 24.9 [7.31 23.8 [7.0] 23.1 [6.8] 22.3 [6.5] 21.3 [6.2] 20.7 [6.1] 19.9 [5.8] 19.0 [5.61 18.5 [5.4] F 148 91 Sens BTUH [kW] 26.0 [ 7.6] 23.2 [ 6.8] 21.5 [ 6.3] 20.9 [ 6.1 ] 18.6 [ 5.5] 17.2 [-5.0] 16.6 [-4.9] 14.8 [-4.3] 13.7 [-4.0] C] Power 10.6 10.3 10.2 10.5 10.2 10.1 10.5 10.2 10.1 Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZS150 ENTERING INDOOR AIR @ 75°F [23.9°C1 dbE CD wbE 65.3°F [18.5°Cl 64°F [17.8°Cl 62.5°F [16.9°Cl CFM [L/sl 3000 [14161 2400 [11331 2000 19441 3000 [14161 2400 [11331 2000 [9441 3000 [14161 2400 [11331 1 2000 [9441 0 60 Tota[ BTUH [kW1 46.5 [13.6] 44.4 [13.0] 43.1 [12.6] 43.1 [12.6] 41.2 [12.1] 40.0 [11.7] 40.3 [11.8] 38.6 [11.3] 37.4 [11.0] U 15.6) Sens BTUH [kW1 12.9 [3.8] 11.6 [3.4] 10.7 [3.1] 13.8 [4.0] 12.3 [3.6] 11A [3.3] 18.5 [5.4] 16.5 [4.8] 15.3 [4.5] T D power Power 4.6 4.5 4.4 4.5 4.4 4.3 4.5 4.4 4.3 0 65 Total BTUH [kW] 45.7 [13.4] 43.7 [12.8] 42.4 [12:4] 42.3 [12.4] 40.5 [11.9] 39.3 [11.5] 39.6 [11.6) 37.8 [ii. 36.7 [10.8] R 18.31 Sens BTUH [kW1 10.5 [3.1] 9.4 [2.8] 8.7 [2.5] 11.4 [3.3] 10.2 [3.0] 9.4 [2.8] 16.1 [Q.7) 143 (4.21 13.3 .[39L D Power Power 4.6 4.5 4.5 4.6 4.5 4.4 3 • 4.4 4.4 R70 Total BTUH [kW1 Total BTUH [kW1 44.7 [13.1) 42.7 [12.5] 41.4 [12.1] 41.3 [12.1] 39.5 [11.6] 38.3 [11.2] 4%L L11] 36.9110 J 35.7 LlQ.5 126.71 21'11 Sens BTUH RW1 8.3 [2.4] 7.4 [2.2] 6.9 [2.0] 9.2 [2.7] 8.2 [2.4] 7.6 [2.2] 13.9 •[4.1 ] 12.4 I3. 11.4 (3. B Power Power 4.7 4.6 4.6 43 4.6 4.5 d.8" 4-1; • 4. 75 Total BTUH [kWI 43.4 [12.7] 41.5 [12.2] 40.2 [11.8] 40.0 [11.7] 38.3 [11.2] 37.1 [10.9] 3f2 nt q] 35SI10.41 34.5 n0.11 B 123.91 Sens BTUH 1kW1 6.3 [1.8] 5.6 [1.7] 5.2 [1.5] 7.2 [2.1] 6.4 [1.9] 5.9 [1.7] 11091-[13.51 10.6 [3!t) 9.8 •[f1 T Power Power 4.9 4.8 4.7 4.8 4.7 4.7 04.8.0 4.7.. 4.6.:. E BTUH [kW] Total BTUH NW1 41.8 [12.2] 40.0 [11.7] 38.8 [11.4] 38.4 [11.3] 36.8 [10.8) 35.6 [10.4] 950 [14.5] 34.1440.0] 33.1 .[OJ} P 26071 Sens BTUH NK 4.5 [1.31 4.0 [1.2] 3.7 [1.1] 5.4 [1.6] 4.8 [1 Al 4.4 [1.3] 141..[2en] 9.0 [2.6] 8.3 [2.41 R Power Power 5.1 5 4.9 5 4.9 4.9 59 • 4.9 4.8 T 85 Total BTUH [kW1 40.0 [11.7] 38.2 [11.2] 37.1 [10.9] 36.6 [10.7] 35.0 [10.3] 33.9 [9.9] X3.8 J.9] 324• f9!91 31.4 T 29.41 Sens BTUH RW1 2.9 [0.8] 2.6 [0.8] 2.4 [0.7] 3.8 [1.1] 3.4 [1.0] 3.1 [0.9] 8.5 •[2 b] A [2.2) x[ 9.2] 7.0 .[20} R Power Power 5.4 5.3 5.2 5.3 5.2 5.1 1.3 5'2' 5.1 E Total BTUH [kWI Total BTUH NW1 37.9 [11.1 ] 36.2 [10.6] 35.1 [10.3) 34.5 [10.1) 33.0 [9.7] 32.0 [9.4] 31.7 [9.3] 30.4' 18.M 29.4 [8.6] F 32021 Sens BTUH [kW] 1.5 [0.4] 1.3 [0.4] 1.2 [0.4] 2.4 [0.7] 2.1 [0.6] 2.0 [0.6] 7.1 [2.11 6.3 [1.9] 5.8 [1.7] 1G Power Power 5.7 5.6 5.5 5.6 5.5 5.4 5.6 5.5 5.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZS150 ENTERING INDOOR AIR @ 75'F [23.9°CI dbE T, wbE 65.3°F [18.5°CI 64°F[17.8°Cl 62.5°F[16.9°Cl CFM [L/sI 6000 [28321 4100 [19351 4000 [18881 6000 [28321 1 4100 [19351 4000 [18881 6000 [28321 4100 [19351 4000 [18881 0 602F Total BTUH [kW1 99.3 [29.1] 91.5 [26.8] 91.1 [26.7) 101.6 [29.8] 93.7 [27.4] 93.2 [27.3] 92.7 [27.2] 85.5 [25.1] 85.2 [25.0] u T 15.61 Sens BTUH [kW] 33.3 [9.7] 27.4 [8.0] 27.0 [7.9] 40.1 [11.8] 33.0 [9.7] 32.6 [9.6] 46.4 [13.6] 38.1 [11.2] 37.7 [11.0] D power 9.5 9.1 9.1 9.3 8.9 8.9 9.3 8.9 8.9 0 704E Total BTUH [kW] 94.4 [27.7) 87.1 [25.5] 86.7 [25.4] 96.7 [28.3) 89.2 [26.1] 88.8 [26.0] 87.9 [25.8) 81.1 [23.8] 80.7 [23.7] R 2111 SensBTUH[kW] 27 [7.9] 22.2 [6.5] 21.9 [6.41 33.9 [9.9] 27.9 [8.2] 27.5 [8.1] 40.1 [11.7] 33.0 [9.7] 32.6 [9.51 D Power 9.7 9.3 9.3 9.5 9.2 9.2 9.5 9.2 9.1 R804E Total BTUH [kW1 87.6 [25.7] 80.8 [23.7] 80.4 [23.6] 89.9 [26.3] 82.9 [24.3] 82.5 [24.2] 81.1 [23.8) 74.8 [21.9] 74.4 [21.8] 126.71 Sens BTUH [kW1 20.1 [5.9] 16.5 [4.8) 16.3 [4.8] 27.0 [7.9] 22.2 [6.5] 21.9 [6.4] 33.2 [9.7) 27.3 [8.0) 27.0 [7.9] B Power 10.2 9.8 9.8 10 9.6 9.6 10 9.6 9.6 904F Total BTUH NW1 78.7 [23.1] 72.6 [21.3] 72.3 [21.2] 81.0 [23.7) 74.7 [21.9] 74.4 [21.8] 72.2 [21.2] 66.6 [19.5] 66.3 [19.4] B 32.21 Sens BTUH [kW1 12.5 [3.7] 10.3 [3.01 10.2 [3.0] 19.4 [5.7] 15.9 [4.7] 15.8 [4.61 25.6 [7.5] 21.0 [6.2] 20.8 [6.1] T Power 11 10.5 10.5 10.8 10.4 10.3 10.8 10.3 10.3 ETotal1004E BTUH [kW] 67.8 [19.9] 62.5 [18.3] 62.3 [18.2] 70.1 [20.5] 64.7 [18.9] 64.4 [18.9] 61.3 [18.0] 56.5 [16.6] 56.3 [16.51P37'61 Sens BTUH RW1 4.3 [1.3] 3.5 [1.0] 3.5 [1.0] 11.2 [3.3] 9.2 [2.7] 9.1 [2.7] 17.4 [5.1] 14.3 [4.2] 14.1 [4.1] R Power 11.9 11.5 11.4 11.8 11.3 11.3 11.8 11.3 11.3 A 110 Total BTUH [kW1 54.9 [16.1] 50.6 [14.8] 50.4 [14.8] 57.2 [16.8] 52.7 [15.5] 52.5 [15.4] 48.4 [14.2] 44.6 [13.1) 44.4 [13.0] R 143.31 Sens BTUH [kW] 4.6 [-1.31 3.8 [-1.1) 3.7 [-1.1] 2.3 [0.7] 1.9 [0.5] 1.9 [0.5] 8.5 [2.5] 7.0 [2.0] 6.9 [2.0] Power 13.2 12.6 12.6 13 12.5 12.4 13 12.5 12.4 E 120 Total BTUH [kWI 40.0 [11.7] 36.8 [10.8] 36.7 [10.8] 42.3 [12.4] 39.0 [11.4] 38.8 [11.4] 33.4 [9.8] 30.8 [0.91 30.7 [9.0] F 48.91 Sens BTUH [kW] 14.1 [-4.1] 11.6 [-3.41 11.5 [-3.4] 7.2 [-2.1] 6.0 [-1.7] 5.9 [-1.7] 1.0 [-0.3] 0.9 [-0.2) 0.8 [-0.2] C] Power 14.6 14.1 14 14.5 13.9 13.9 14.4 13.9 13.8 RELY ON RUUD.TM 33 Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZT090 ENTERING INDOOR AIR @ 75°F [23.9°Cl dbE O wbE 65.31 [18.5°Cl 64°F [17.8°C] 62.5°F [16.9°Cl CFM [Us] 1800 [8501 1700 [8021 1200 [5651 1800 18501 1700 18021 1200 [5661 1800 [8501 1700 [8021 1200 [5661 0 60 Total BTUH [kW1J 29.7 [8.7] 29.4 [8.61 27.9 [8.2] 27.0 [7.9] 26.7 [7.81 25.3 [7.4] 26.6 [7.8] 26.4 [7.71 24.9 [7.3] U 15'61 Sens BTUH [kW1 6.5 [1.9] 6.3 [1.81 5.4 [1.6] 9.0 [2.61 8.7 [2.61 7.5 [2.2] 11.4 [3.41 11.1 [3.3] 9.6 [2.81 D Power Power 3.2 3.1 3.1 3.2 3.2 3.1 3.2 3.2 3.1 0 Total BTUH [kW) Total BTUH [kW1 29.5 [8.6] 29.2 [8.5] 27.6 [8.1] 26.7 [7.8] 26>4 [7.7] 25.0 [7.3] 26.4 [7.7] 26.17.6] J2.g] 24.7 [7.2] 8.4R18531SensBTUHNWI5.0 [1.5] 4.9 [1.4] 4.2 [1.2] 7.6 [2.2] 7.4 [2.2] 6.3 [1.9] 10.4 [2.% 9.7 251 D Power Power 3.2 3.2 3.1 3.3 3.2 3.2 3. • 3.2 3.1 R 70 Total BTUH [kW] 28.8 [8.4] 28.5 [8.4) 27.0 [7.9] 26.0 [7.6] 25.8 [7.6J 24.4 [7.1] 25..[;1 25.4 17 14.1 [7,,j1 26.71 21'11 Sens BTUH [kW] 3.7 [1.1] 3.6 [1.0] 3.1 [0.9] 6.2 [1.8] 6.0 [1.8J 5.2 [1.5] 8.6 [261 8.4 [2. 7.2 [2.1 B Power Power 3.2 3.2 3.1 3.3 3.3 3.2 3.3 • 3.3 4 3.2 ; 0 75 Total BTUH [kW1 27.8 [8.1] 27.5 [8.1] 26.0 [7.6] 25.0 [7.3] 24.7 [7.21 23.4 [6.9] 24.-4 [92 24.4 j?.7 Z3.1 [N] B 23'91 Sens BTUH [kW1 2.3 [0.7] 2.3 [0.7] 2.0 [0.6] 4.9 [1.4] 4.7 [1.4] 4.1 [1.2] 7.3 •['P!1 f 7.1 12.1 ] 6.1 [1 46t T Power Power 3.3 3.3 3.2 3.4 3.4 3.3 9.f•.. 3.4. a 3.3 .• E Total BTUH NWI Total BTUH [kW1 26.3 [7.7] 26.0 [7.6] 24.6 [7.2] 23.5 [6.9] 23.3 [6.8] 22.1 [6.5] 23.2 •[68} 23.0 spa] 1.7 [6,1} P 1280 2671 Sens BTUH [kW] 1.1 [0.3] 1.0 [0.3] 0.9 [0.3] 3.6 [1.0] 3.5 [1.0] 3.0 [0.9] 6.Q.p 91 5.9 [1.7] 5.1 [1.5] E Power Power 3.4 3.4 3.3 3.5 3.5 3.4 5 • 3.5 3.4 A 85 Total BTUH [kW) 24.5 [7.2] 24.2 [7.1] 22.9 [6.7] 21.7 [6.4] 21.5 [6.3] 20.3 [6.0] 21.4 [6.31 21.1 20.0 [5.9] T 29.4] Sens BTUH RW1 0.2 [-0.1 ] 0.2 [0.0] 0.1 [0.0] 2.4 [0.7] 2.3 [0.7] 2.0 [0.6] 4.8 r1] J&..2] 4.7 1.4] 4.0 [1:j R Power Power 3.6 3.6 3.5 3.7 3.6 3.6 3.6 3.6, •' 3.5 • E Total BTUH NWI Total BTUH [kW1 22.2 [6.5] 22.0 [6.41 20.8 [6.1] 19.5 [5.7] 19.3 [5.6] 18.2 [5.3] 19.1 [5.6] 18.9 [S.3] 17.9 [5.3] F 320 21 Sens BTUH RWl 1.3 [-0.4] 1.3 [-0.4] 1.1 [-0.3] 1.2 [0.31 1.1 [0.3] 1.0 [0.31 3.6 [1.1 ] 3.5 [1.0] 3.0 [0.9] G] Power Power 3.8 3.7 3.6 3.8 3.8 3.7 3.8 3.8 3.7 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZT090 ENTERING INDOOR AIR 0 75'F [23.9°Cl dbE T wbE 65.3°F [18.5°Cl 64°F [17.8°CI 52.5°F [16.9°Cl CFM [L/sl 3600 [16991 2900 [13691 2400 [11331 3600 [16991 2900 [13691 2400 [11331 3600 [16991 2900 [13691 2400 [11331 0 60 Total BTUH [kWI 41.7 [12.2] 39.9 [11.7] 38.7 [11.3] 40.1 [11.8] 38.4 [11.31 37.2 [10.9] 40.0 [11.7] 38.3 [11.2] 37.1 [10.9] u 15.61 Sens BTUH RWl 8.9 [2.6] 8.0 [2.4] 7.4 [2.2] 12.8 [3.7] 11.5 [3.41 10.5 [3.1] 18.5 [5.4] 16.7 [4.9] 15.3 [4.5] T D Power 5.0 4.9 4.8 4.9 4.8 4.8 4.9 4.8 4.8 0 70 Total BTUH [kW) 39.8 [11.7] 38.1 [11.21 36.9 [10.8] 38.3 [11.2] 36.7 [10.7] 35.5 [10.4] 38.1 [11.21 36.5 [10.7] 35.4 [10.4] R 21.11 Sens BTUH RW) 5.9 [1.7] 5.3 [1.6] 4.9 [1.4] 9.8 [2.91 8.8 [2.6] 8.1 [2.4] 15.5 [4.6] 14.0 [4.1] 12.8 [3.8] D Power 5.1 5.0 4.9 5.1 5.0 4.9 5.0 4.9 4.9 R80 Total BTUH [kW1 36.7 [10.7] 35.1 [10.3] 34.0 [10.0] 35.1 [10.3] 33.7 [9.9] 32.6 [9.6] 35.0 [10.3] 33.5 [9.81 32.5 [9.5] 26.71 Sens BTUH [kW] 2.1 [0.6] 1.9 [0.5] 1.7 [0.5] 5.9 [1.7] 5.3 [1.6] 4.9 [1.4] 11.7 [3.4] 10.5 [3.1] 9.6 [2.81 B Power 5.4 5.3 5.2 5.3 5.2 5.1 5.3 5.2 5.1 90 Total BTUH [kW1 32.3 [9.5] 30.9 [9.1] 30.0 [8.8] 30.8 [9.01 29.5 [8.6] 28.5 [8.4] 30.6 [9.0] 29.3 [8.6] 28.4 [8.3] B 132.21 Sens BTUH [kW1 2.7 [-0.8] 2.4 [-0.7] 2.2 [-0.6] 1.2 [0.3] 1.0 [0.31 1.0 [0.3] 6.9 [2.0] 6.2 [1.81 5.7 [1.71 T Power 5.8 5.6 5.6 5.7 5.6 5.5 5.7 5.6 5.5 E Total BTUH NWI 26.7 [7.8] 25.5 [7.5] 24.7 [7.3] 25.1 [7.4] 24.1 [7.1] 23.3 [6.8] 25.0 [7.3] 23.9 [7.0] 23.2 [6.8] PP 3781 Sens BTUH [kW1 8.3 [-2.4] 7.4 [-2.2] 6.8 [-2.0] 4.4 [-1.3] 4.0 [-1.2] 3.7 [-1.1] 1.3 [0.4] 1.2 [0.41 1.1 [0.3] R Power 6.3 6.2 6.1 6.2 6.1 6.0 6.2 6.1 6.0 A 110 Total BTUH 1kW1 19.8 [5.8] 19.0 [5.6] 18.4 [5.4] 18.3 [5.41 17.5 [5.1] 17.0 [5.0] 18.1 [5.3] 17.4 [5.1] 16.8 [4.9] R 43.3] Sens BTUH NWI 14.7 [-4.3] 13.2 [-3.9] 12.2 [-3.6] 10.9 [-3.2] 9.8 [-2.9] 9.0 [-2.6] 5.1 [-1.5] 4.6 [-1.4] 4.2 [-1.2] Power 6.9 6.8 6.7 6.9 6.7 6.6 6.9 6.7 6.6 E 120 Total BTUH NWI 11.7 [3.4] 11.2 [3.31 10.8 [3.21 10.1 [3.0] 9.7 [2.8] 9.4 [2.8] 10.0 [2.9] 9.6 [2.8] 9.3 [2.7] F 48.91 Sens BTUH [kW1 22.1 [-6.5] 19.8 [-5.8] 18.2 [-5.3] 18.2 [-5.3] 16.4 [-4.8] 15.1 14.4] 1 12.5 [-3.7] 11.2 [-3.3] 10.3 [-3.0] Cl Power 7.8 7.6 7.5 7.7 7.5 7.4 7.7 7.5 7.4 Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZT102 ENTERING INDOOR AIR @ 75'F [23.9'Cl dbE Q wbE 65.3°F[18.5°Cl I 64°F117.8°CI 62.5°F116.9°Cl CFM [Us] 2100 [9911 1 1700 [8021 1400 [6611 2100 [9911 1700 [8021 1400 [".611 2100 [9911 1700 [8621 1400 [6611 0 60 Total BTUH [kW1 36.6 [10.7] 35.1 [10.3] 33.9 [9.91 34.5 [10.11 33.1 [9.7] 32.1 [9.4] 31.9 [9.31 30.6 [9.0] 29.6 [8.7] u 15.61 Sens BTUH [kWl 7.1 [2.1] 6.4 [1.9] 5.9 [1.7] 9.0 [2.6] 8.1 [2.4] 7.4 12.21 10.7 [3.1] 9.7 [2.8] 8.9 [2.6] DD Power Power 3.9 3.8 3.7 3.8 3.8 3.7 3.8 3.8 3.7 70 Total BTUH RW1 Total BTUH [kW1 35.5 [10.4] 34.0 [10.0] 32.9 [9.6] 33.4 [9.8] 32.1 [9.4] 31.0 [9.1] 30.8 [9.0] 29.S [8.64 28.6 [8.41R1831SensBTUH [kW1 6.1 [1.81 5.5 [1.6] 5.0 [1.5] 8.0 [2.3] 7.2 [2.1] 6.6 [1.9] 9.7 [2.8] 8.j • [2'67 8.0 D Power Power 3.9 3.8 3.8 3.9 3.8 3.8 ASP • 3.8 3. R70 Total BTUH [kWI Total BTUH RW1 Sens BTUH IM 34.1 [10.0] 4.8 [1.4] 32.7 [9.6] 4.3 [1.3] 31.7 [9.3] 4.0 [1.21 32.1 [9.4] 6.7 [2.01 30.8 [9.0] 6.0 [1.8] 29.8 [8.7] 5.5 [1.6] 965• $$.gg] 8.5 2.5] 28.5. 8.317.6 1 27.4 8.01 7.0 '4.1r 0 121.11 Power 4.0 3.9 3.9 4.0 3.9 3.9 004'.(109 3.9 • 3. 75 Total BTUH RWl 32.7 [9.6] 31.3 [9.21 30.3 [8.9] 30.6 [9.0] 29.4 [8.6] 28.4 [8.3] 1%) 26.: • V.91 26.0 17.6] B 123.91 Sens BTUH NWl 3.3 [1.0] 3.0 [0.9] 2.8 [0.8] 5.2 [1.5] 4.7 [1.4] 4.3 [1.3] 7.0 •[9.0] 6.8 [104 5.8 qkw T Sens BTUH [kW1 Power 4.1 4.0 4.0 4.1 4.0 4.0 0041.00 440 .. 4.Q... E Power Total BTUH [kW1 31.0 [9.1] 29.7 [8.7] 28.8 [8.4] 29.0 [8.5] 27.8 [8.1] 26.9 [7.9] 96.3 .[Z. ] 25.2.W,.4]1 24.4 P 2671 Sens BTUH NW1 1.7 [0.5] 1.5 [0.4] 1.4 [0.4] 3.6 [1.0] 3.2 [0.9] 2.9 [0.9] 5,% 11.6] 4.8 [1.4] 4.4[1.3L R Sens BTUH [kW1 Power 4.3 4.2 4.1 4.3 4.2 4.1 44 • 4.2 4.1 A85 Power Total BTUH NW1 29.1 [8.5] 27.9 [8.2] 27.0 [7.91 27.1 [7.9] 26.0 [7.6] 25.1 [7.4] 7.4.4 [7.2] 23.4 • 22.7 [6.6] R 129.41 Sens BTUH [kW] 0.2 [-0.1] 0.2 [-0.11 0.2 [-0.1] 1.7 [0.5] 1.5 [0.4] 1.4 [0.4] 3.44T.9] 3.1 [0.9] 2.8 ;[Q.$]. 143.31 Sens BTUH [kW1 Power 4.4 4.3 4.3 4.4 4.3 4.3 4.4 • 4!3• • 41 E Power Total BTUH RW1 27.1 [7.9] 26.0 [7.6] 25.1 [7.4] 25.0 [7.3] 24.0 [7.01 23.2 [6.8] 22.4 [6.61 21.5 • [6.3 20.8 [6.1 J F 32821 Sens BTUH [kW] 2.3 [-0.7] 2.1 [-0.61 1.9 [-0.6] 0.4 [-0.1] 0.4 [-0.1] 0.4 [-0.1] 1 1.3 [0.4] 1.2 [0.3] 1.1 [0.3] Cl Sens BTUH [kWI Power 4.6 4.5 4.4 4.6 4.5 4.4 4.6 4.5 4.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZT102 ENTERING INDOOR AIR @ 75°F [23.9°CI dbE C wbE 65.3°F [18.5°C] 64°F [17.8°Cl 62.5°F [16.9°CI CFM [L/sl 4100 [1935] 2900 [1369] 2700 [12741 4100 [19351 2900 [13691 2700 [12741 4100 [19351 2900 [13691 2700 [12741 0 60 Total BTUH [kWl 57.6 [16.9] 53.6 [15.7] 52.9 [15.5] 45.7 [13.4] 42.5 [12.5] 42.0 [12.3] 51.3 [15.01 47.7 [14.0] 47.1 [13.8] 0 15.61 Sens BTUH [kW] 12.7 [3.7] 10.7 [3.1] 10.3 [3.0] 14.6 [4.3] 12.2 [3.6] 11.8 [3.5] 20.5 [6.01 17.2 [5.01 16.6 [4.9] T D Power 6.6 6.4 6.3 5.2 5.0 5.0 6.3 6.1 6.0 0 70 Total BTUH RW1 52.7 [15.5] 49.1 [14.4] 48.4 [14.2] 40.9 [12.0] 38.0 [11.1] 37.5 [11.0] 46.4 [13.6] 43.2 [12.7] 42.6 [12.5] R 21.11 Sens BTUH IM 10.1 [3.0] 8.5 [2.51 8.2 [2.41 11.9 [3.5] 10.0 [2.9] 9.7 [2.8] 17.9 [5.2] 15.0 [4.4] 14.5 [4.2] D Power 6.4 6.1 1 6.1 5.0 4.8 4.8 6.0 5.8 5.8 RBO Total BTUH [kWI 46.3 [13.6] 43.1 [12.6] 42.6 [12.5] 34.5 [10.1] 32.1 [9.4] 31.6 19.31 40.0 [11.7] 37.2 [10.9] 36.7 [10.8] 26.71 Sens BTUH NW1 5.6 [1.6] 4.7 [1.4] 4.5 [1.3] 7.4 [2.2] 6.2 [1.8] 6.0 [1.81 13.3 [3.9] 11.2 [3.3] 10.8 [3.2] B Power 6.4 6.1 6.1 5.0 4.8 4.8 6.1 5.8 5.8 u 9 Total BTUH RW1 38.4 [11.2] 35.7 [10.5] 35.2 [10.3] 26.5 [7.8] 24.7 [7.2] 24.3 [7.1] 32.1 [9.41 29.8 [8.7] 29.4 [8.6] B 32'. 21 Sens BTUH [kW1 0.9 [-0.3] 0.7 [-0.2] 0.7 [-0.21 0.9 [0.3] 0.8 [0.2] 0.8 [0.21 6.9 [2.0] 5.8 [1.71 5.6 [1.6] r Power 6.6 6.4 6.4 5.2 5.1 5.0 6.3 6.1 6.1 E M 100 Total BTUH [kWl 28.9 [8.5] 26.9 [7.9] 26.5 [7.8] 17.0 [5.0] 15.8 [4.6] 15.6 [4.6] 22.6 [6.61 21.0 [6.1] 20.7 [6.11 P 37.81 Sens BTUH [kW1 9.2 [-2.7] 7.7 [-2.31 7.5 [-2.2] 7.4 [-2.2] 6.2 [-1.8] 6.0 [-1.8] 1.5 [-0.4] 1.2 [-0.4] 1.2 [-0.4] R Power 7.2 6.9 6.9 5.8 5.6 5.5 6.8 6.6 6.6 A 110 Total BTUH [kW1 17.9 [5.2] 16.6 [4.9] 16.4 [4.81 6.0 [1.8] 5.6 [1.6] 5.5 [1.6] 11.5 [3.4] 10.7 [3.1] 10.6 [3.1] T 143.31 Sens BTUH [kW1 19.5 [-5.7] 16.3 [-4.8] 15.8 [-4.61 17.7 [-5.2] 14.8 [-4.3] 14.3 [-4.2] 11.7 [-3.41 9.8 [-2.9] 9.5 [-2.8] Power 7.9 7.7 7.6 6.5 6.3 6.3 7.6 7.4 7.3 E 120 Total BTUH [kW1 5.3 [1.5] 4.9 [1.41 4.9 [1.4] 6.6 [-1.9] 6.1 [-1.8] 6.0 [-1.8] 1.0 [-0.3] 1.0 [-0.3] 1.0 [-0.3] FCJ 48.91 Sens BTUH [kWI 31.6 [-9.3] 26.5 [-7.81 25.7 [-7.5] 29.8 [-8.71 25.0 [-7.3] 24.2 [-7.1] 23.9 [-7.0] 20.0 [-5.9] 19.4 [-5.7] Power 9.0 8.7 8.6 7.6 1 7.3 1 7.3 8.7 8.4 1 8.3 Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZT120 ENTERING INDOOR AIR @ 75°F [23.9"C] MEC wbE 65.3°F [18.5°C1 64°F117.8°C1 62.5°F116.9°Cl CFM [Lis] 3000 [14161 2400 [11331 20001JW1 3000 [1416] 2400 [11331 2000 [9441 3000 [14161 2400 [1133] 2000 [9441 060 0 Total BTUH [kW1 46.5 [13.6] 44.4 [13.0] 43.1 [12:6] 43.1 [12.6] 41.2 [12.1] 40.0 [11.7] 40.3 [11.8] 38.6 [11.3] 37.4 [11.0] U 15.61 Sens BTUH [kW] 12.9 [3.8) 11.6 [3.4] 10.7 [3.1] 13.8 [4.0] 12.3 [3.6] 11.4 [3.3] 18.5 [5.4] 16.5 [4.8] 15.3 [4.5] T D T D power 4.6 4.5 4.4 4.5 4.4 4.3 4.5 4.4 4.3 0 65 Total BTUH [kWl 45.7 [13.4] 43.7 [12.8] 42.4 [12.4] 42.3 [12.4] 40.5 [11.9] 39.3 [11.5] 39.6 [11.6] 37.8 [11.1] X36.7 [10.8] R 18 3] Sens BTUH [kW] 10.5 [3.11 9.4 [2.8] 8.7 [2.51 11.4 [3.3] 10.2 [3.0] 9.4 [2.8] 16.1. [4.71, 14.4 Z4!2j T3.3 [391 D D Power 4.6 4.5 4.5 4.6 4.5 4.4 4. • 4.4 4.4 RTotal70 BTUH RW] Sens BTUH RM 44.7 [13.1] 8.3 [2.4] 42.7 [12.5] 7.4 [2.2] 41.4 [12.1] 6.9 [2.0] 41.3 [12.1] 9.2 [2.71 39.5 [11.6] 8.2 [2.4] 38.3 [11.2] 7.6 [2.2] 38. X11. 13. [A 36.9 [f0.8 2.4 [3• 85.7 [10.5 11.4 [3 1 6 21'1] Power 4.7 4.6 4.6 4.7 4.6 4.5 1[.6 • • • 4.5 4 4.5- 5 • uu 75 Total BTUH [kW] 43.4 [12.7] 41.5 [12.2] 40.2 [11.8] 40.0 [11.7] 38.3 [11.2) 37.1 [10.9] 379. ntllr 35.6 [j0.q] X4.5 [10. B Sens BTUH [kW1 6.3 [1.8] 5.6 [1.7] 5.2 [1.5] 7.2 [2.1] 6.4 [1.9] 5.9 [1.7] 11.9 • p[ 861• 10.6 f3.1J 9.8 [2 6} T 23'9] Power 4.9 4.8 4.7 4.8 4.7 4.7 0.•.•. 4.7. 4.6 .. E T Total BTUH [kW] 41.8 [12.2] 40.0 [11.7] 38.8 [11.4] 38.4 [11.3] 36.8 [10.8] 35.6 [10.4] 35.-A f1 ,i} 34.1 [ 0,0@ 3.1 [9.7j, P 26071 Sens BTUH [kW] 4.5 [1.3] 4.0 [1.2] 3.7 [1.1] 5.4 [1.6] 4.8 [1.4] 4.4 [1.3] 10.1, •(x•91 9.0 [2.6] 8.3 [2.4] E P Power 5.1 5 4.9 5 4.9 4.9 45 • 4.9 4.8 A 85 • Total BTUH [kW] 40.0 [11.7] 38.2 [11.2] 37.1 [10.9] 36.6 [10.7] 35.0 [10.3] 33.9 [9.9] 33. [9.9 32.4 9!9] 91.4 [9.2] 8.2 29.41 Sens BTUH [kW] 2.9 [0.8) 2.6 [0.8] 2.4 [0.71 3.8 [1.1 ] 3.4 [1.0] 3.1 [0.9) 8. [26} 7.6 2.2] 7.0 [2'bjR R Power 5.4 5.3 5.2 5.3 5.2 5.1 5.3• 5. •• 5.1 • E 90 Total BTUH RW1 37.9 [11.1] 36.2 [10.6] 35.1 [10.3] 34.5 [10.1] 33.0 [9.7] 32.0 [9.4] 31.7 [9.3] 30.4 [$1 29.4 [8.6] F 32'2] Sens BTUH [kW] 1.5 [0.4] 1.3 [0.4] 1.2 [0.4] 2.4 [07] 2.1 [0.6] 2.0 [0.6] 7.1 [2.1] 6.3 [1.9] 5.8 [1.7] 01 F Power 5.7 5.6 5.5 5.6 5.5 5.4 5.6 5.5 5.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZT120 ENTERING INDOOR AIR @ 75°F [23.9°C] dbE C wbE 65.3°F [18.5°Cl 64°F [17.8°Cl 62.5°F [16.9°Cl CFM [L/sl 4800[2265] 3800[17931 3200[1510] 4800[2265] 3800[17931 3200115101 4800[22651 3800[1793] 3200[1510] 0 60 Total BTUH NWI 58.1 [17.0] 55.4 [16.2] 53.9 [15.8] 55.5 [16.3] 53.0 [15.5] 51.4 [15.11 53.1 [15.6] 50.7 [14.9] 49.2 [14.4) U 15.6] Sens BTUH IM 10.5 [3.1] 9.3 [2.7] 8.6 [2.5] 15.6 [4.6] 13.9 [4.1] 12.9 [3.8] 19.9 [5.8] 17.7 [5.2] 16.4 [4.8] T D Power 7.0 6.9 6.8 6.9 6.8 6.7 6.9 6.8 6.7 0 70 Tota[ BTUH [kW] 53.4 [15.7] 51.0 [14.9] 49.5 [14.5] 50.8 [14.9) 48.5 [14.2] 47.1 [13.8] 48.4 [142] 46.2 [13.5] 44.9 [13.2] R 121.11 Sens BTUH [kW] 8.3 [2.4] 7.4 [22] 6.8 [2.0] 13.4 [3.9] 12.0 [3.51 11.1 [3.2] 17.7 [5.2] 15.8 [4.6] 14.6 [4.3] D Power 7.1 1 7.0 6.9 7.0 6.9 6.8 7.0 6.9 6.8 RBO Total BTUH [kW] 48.4 [14.21 46.2 [13.5] 44.9 [13.2] 45.8 [13.4] 43.7 [12.8] 42.5 [12.4] 43.4 [12.7] 41.5 [12.1) 40.3 [11.8] 26.71 Sens BTUH [kW] 4.5 [1.3] 4.0 [1.2] 3.7 [1.1] 9.7 [2.8] 8.6 [2.5] 8.0 [2.3] 14.0 [4.11 12.5 [3.6] 11.5 [3.4] B Power 7.4 7.3 7.2 7.3 7.2 7.1 7.3 7.2 7.1 Total BTUH RW1 43.1 [12.6] 41.1 [12.0] 39.9 [11.7] 40.5 [11.9) 38.6 [11.3] 37.5 [11.0] 38.1 [11.2] 36.3 [10.6] 35.3 [10.3] B 3221 Sens BTUH [kW] 0.8 [-0.2] 0.7 [-0.2] 0.6 [-0.2] 4.4 [1.3] 3.9 [1.1) 3.6 [1.1] 8.7 [2.5] 7.7 [2.3] 7.2 [2.1] T Power 7.9 7.7 7.6 7.8 7.7 7.5 7.8 7.6 7.5 E Total BTUH [kW] 37.4 [11.01 35.7 [10.51 34.6 [10.2] 34.8 [10.2] 33.2 [9.7] 32.2 [9.4] 32.4 [9.5] 30.9 [9.1] 30.0 [8.8] P 3781 Sens BTUH RW] 7.6 [-2.2] 6.8 [-2.0] 6.3 [-1.8] 2.5 [-0.7] 2.2 [-0.6] 2.0 [-0.6] 1.8 [0.5] 1.6 [0.5] 1.5 [0.4] R Power 8.6 8.4 8.3 8.5 8.3 8.2 8.5 8.3 8.2 A 110 Total BTUH [kW1 31.3 [9.2] 29.9 [8.8] 29.0 [8.5] 28.7 18.41 27.4 [8.0] 26.6 [7.8] 26.3 [7.7] 25.1 [7.4] 24.4 [7.1] R 31 Sens BTUH RM 16.0 [-4.7] 14.3 [-4.2] 13.2 [-3.9] 10.9 [-32] 9.7 [-2.8] 9.0 [-2.6] 6.6 [-1.9] 5.9 [-1.7] 5.5 [-1.6] Power 9.5 9.3 9.2 9.4 9.2 9.1 9.4 9.2 9.0 E 120 Tota[ BTUH [kW] 24.9 [7.3] 23.8 [7.Oj 23.1 [6.8] 22.3 (6.5] 21.3 [6.2] 20.7 (6.1 ] 19.9 [5.8] 19.0 [5.6] 18.5 [5.4] F 48.91 Sens BTUH [kW] 26.0 [-7.6] 23.2 [-6.8] 21.5 [-6.3] 20.9 [-6.1] 18.6 [-5.5] 17.2 [-5.0] 1 16.6 [-4.9] 14.8 [-4.3] 13.7 [-4.0] 1°C1 Power 10.6 10.3 10.2 10.5 10.2 10.1 10.5 10.2 10.1 Gross Systems Performance Data RACD Series GROSS SYSTEMS PERFORMANCE DATA (LOW REHEAT MODE)-RACDZT150 ENTERING INDOOR AIR @ 75°F [i3.9°Cl ME G wbE 65.3°F[18.5°CI 64°F117.8°Cl 62.5°F[16.9°Cl CFM IL/sl 3000 [1416] 2400 [11331 2000 [9441 3000 [14161 2400 [11331 2000 [9441 3000 [14161 2400 [11331 200019441 0 60 Total BTUH [kW1 46.5 [13.6] 44.4 [13.0] 43.1 [12.6] 43.1 [12.6] 41.2 [12.1] 40.0 [11.7] 40.3 [11.8] 38.6 [11.3] 37.4 [11.0] 0 15.6] Sens BTUH [kW] 12.9 [3.8] 11.6 [3.41 10.7 [3.1] 13.8 [4.0) 12.3 [3.6] 11.4 [3.3] 18.5 [5.41 16.5 [4.81 15.3 [4.5] 7 D Power 4.6 4.5 4.4 4.5 4.4 4.3 4.5 4.4 4.3 0 65 Total BTUH RW] 45.7 [13.4] 43.7 [12.8] 42.4 [12.4) 42.3 [12.4] 40.5 [11.9] 39.3 [11.5) 39.6 [11.6] 3706 [11. 36.7 [10.8] R 18.31 Sens BTUH [kW] 10.5 [3.1] 9.4 [2.8] 8.7 [2.5] 11.4 [3.3] 10.2 [3,0] 9.4 [2.8] 46.1 [Q.7] 14; t 13.3 ,0,91 D Power 4.6 4.5 4.5 4.6 4.5 4.4 S • 4 4 4.4 R 70 Total BTUH [kW] 44.7 [13.1] 42.7 [12.5] 41.4 [12.1] 41.3 [12.1] 39.5 [11.6] 38.3 [11.2] j j1j] 36!J[i 35.7 11Qi5j Y 21'1] Sens BTUH [kW] 8.3 [2.4] 7.4 [2.2] 6.9 [2.0] 9.2 [2.7] 8.2 [2.4] 7.6 [2.2] 13.9 •j•4.l] 12.4 TT 66]] 11.4 (3 4TT B Power 4.7 4.6 4.6 4.7 4.6 4.5 10 4.5 4:0 00, L 75 Total BTUH [kW] 43.4 [12.7] 41.5 [12.2] 40.2 [11.8] 40.0 [11.7] 38.3 [11.2) 37.1 [10.9] 371 9] 35$110.4 34.5 j10.1] B 23.91 Sens BTUH [kW] 6.3 [1.8] 5.6 [1.71 5.2 [1.5] 7.2 [2.1] 6.4 [1.9] 5.9 [1.71 1?.t-f6.5] 106 [311] 9.8;Ivj { T Power 4.9 4.8 4.7 4.8 4.7 4.7 004400 47 . • 4$• • • E OF Total BTUH [kW] 41.8 [12.2] 40.0 [11.7] 38.8 [11.4] 38.4 [11.3] 36.8 [10.8] 35.6 [10.4] 857 {10.51 34'10[4(T.0]; 33.1 •[6d} P 28071 Sens BTUH [kW] 4.5 [1.3] 4.0 [1.2] 3.7 [1.1] 5.4 [1.6] 4,8 [1.4] 4.4 [1.3] 191.(29] 9.0 [206] 8.3 [2.4j R Power 5.1 5 4.9 5 4.9 4.9 9 • 4.9 4.8 T 85 Total BTUH [kW] 40.0 [11.7] 38.2 [11.2] 37.1 [10.9] 36.6 [10.7] 35.0 [10.3] 33.9 [9.9] X3.8 [(;.9] 3241.1?.t 31.4 [9.2] T 29'4] Sens BTUH [kW] 2.9 [0.8] 2.6 [0.8] 2.4 [0.7] 3.8 [1.1] 3.4 [1.0] 3.1 [0.91 8.5 .02+6] 7% [2.2] 7.0 •[.244RPower5.4 5.3 5.2 5.3 5.2 5.1 X5.3 • 2 • • 51 E 90 Total BTUH RW] 37.9 [11.1] 36.2 [10.6] 35.1 [10.3] 34.5 [10.1] 33.0 [9.7] 32.0 [9.4] 31.7 [9.3] 30.4'18.9) 29.4 [8.6] F 32"2] Sens BTUH 1kW1 1.5 [0.4] 1.3 [0.4] 1.2 [0.4) 2.4 [0.7] 2.1 [0.6] 2.0 [0.6] 7.1 [2.1] 6.3 [1.9] 5.8 [1.7] c] Power 5.7 5.6 5.5 5.6 5.5 5.4 5.6 5.5 5.4 GROSS SYSTEMS PERFORMANCE DATA (HIGH REHEAT MODE)-RACDZT150 ENTERING INDOOR AIR @ 75°F [23.9°CI ME C; wbE 65.3-F [18.5-C) 64°F [17.8°CI 62.5°F[16.9`C] CFM [Us1 6000 [2832] 4100 [19351 4000 [18881 6000 [28321 4100 [19351 4000 [18881 6000 [2832] 4100 [1935] 4000 [18881 0 6041' Total BTUH [kW1 99.3 [29.11 91.5 [26.8] 91.1 [26.7] 101,6 [29.81 93.7 [27.4] 93.2 [27.3] 92.7 [27.2) 85.5 [25.1] 85.2 [25.0] 0 15.6] Sens BTUH [kW1 33.3 [9.7] 27.4 [8.0) 27.0 [7.9] 40.1 [11.8) 33.0 [9.7] 32.6 [9.6] 46.4 [13.6] 38.1 [11.2] 37.7 [11.0] DD Power 9.5 9.1 9.1 9.3 8.9 8.9 9.3 8.9 8.9 0 704E Total BTUH [kW] 94.4 [27.7] 87.1 [25.5] 86.7 [25.4] 96.7 [28.3] 89.2 [26.1] 88.8 [26.0] 87.9 [25.8] 81.1 [23.8] 80.7 [23.7] R 21.11 Sens BTUH [kW] 27 [7.9] 22.2 [6.5] 21.9 [6.4] 33.9 [9.9] 27.9 [8.2) 27.5 [8.1] 40.1 [11.7] 33.0 [9.7] 32.6 [9.5] D Power 9.7 9.3 9.3 9.5 9.2 9.2 9.5 9.2 9.1 R804E Total BTUH RW] 87.6 [25.7] 80.8 [23.7] 80.4 [23.6] 89.9 [26.3] 82.9 [24.3] 82.5 [24.2] 81.1 [23.8] 74.8 [21.9] 74.4 [21.8] Y 26.71 Sens BTUH [kW] 20.1 [5.9] 16.5 [4.8] 16.3 [4.8] 27.0 [7.9] 22.2 [6.5) 21.9 [6.4] 33.2 [9.71 27.3 [8.0] 27.0 [7.9] B Power 10.2 9.8 9.8 10 9.6 9.6 10 9.6 9.6 L 902F Tota[ BTUH RW] 78.7 [23.1] 72.6 [21.3] 72.3 [21.2] 81.0 [23.71 74.7 [21.9] 74.4 [21.8] 72.2 [21.2] 66.6 [19.5] 66.3 [19.4] B 32.21 Sens BTUH [kW] 12.5 [3.7) 10.3 [3.01 10.2 [3.0] 19.4 [5.7) 15.9 [4.7] 15.8 14.6] 25.6 [7.5] 21.0 [6.2] 20.8 [6.1] T Power 11 10.5 10.5 10.8 10.4 10.3 10.8 10.3 10.3 EI OF Total BTUH [kW] 67.8 [19.9] 62.5 [18.3] 62.3 [18.2] 70.1 [20.5] 64.7 [18.9] 64.4 [18.9] 61.3 [18.0] 56.5 [16.6] 56.3 [16.5] P 37. 1 37'81 Sens BTUH RW] 4.3 [1.3] 3.5 [1.0] 3.5 [1.0] 11.2 [3.3] 9.2 [2.7] 9.1 [2.7] 17.4 [5.1] 14.3 [4.2] 14.1 [4.1] H Power 11.9 11.5 11.4 11.8 11.3 11.3 11.8 11.3 11.3 A 110 Tota[ BTUH [kW] 54.9 [16.1] 50.6 [14.8] 50.4 [14.8] 57.2 [16.8] 52.7 [15.5] 52.5 [15.4] 48.4 [14.2] 44.6 [13.1] 44.4 [13.0] T 143-31 Sens BTUH [kW] 4.6 [-1.31 3.8 [-1.11 3.7 [-1.1] 2.3 [0.7] 1.9 [0.5] 1.9 [0.5] 8.5 [2.5] 7.0 [2.0] 6.9 [2.01 Power 13.2 12.6 12.6 13 12.5 12.4 13 12.5 12.4 E 120 Total BTUH [kW] 40.0 [11.7] 36.8 [10.8] 36.7 [10.8] 42.3 [12.4] 39.0 [11.4] 38.8 [11.4] 33.4 [9.8] 30.8 [0.9] 30.7 [9.0] F 48.91 Sens BTUH [kWl 14.1 [-4.1] 11.6 [-3.4] 11.5 [-3.4] 7.2 [-2.1] 6.0 [-1.7] 5.9 [-1.7) 1.0 [-0.31 0.9 [-0.2] 0.8 [-0,2] Power 14.6 14,1 14 14.5 13.9 13.9 14.4 13.9 13.8 RELY ON RUUD.TM 37 AIRFLOW PERFORMANCE- 7.5 TOK[26.4 kW] - 60 Hz - DOWNFLOW Air Model RACDZ`090* Voltage 208/230 460 575 — 3 phase 60 Hz Blower Sheave AK84H AK84H AK84H Motor Sheave 1VL40*7/8 1VP50*7/8 1VP56*7/8 Belt A49 A50 A51 Tums Open 0 1 1 2 1 3 1 4 1 5 0 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM 767 721 678 635 590 548 992 949 908 866 823 782 1108 1067 1029 987 946 905 Flow External Static Pressure—Inches of Water[kPa) CFM IL/sl 0.1 021 0.2 051 0.3 07) 0.4 10) 0.5 12] 0.6 151 0.7 [.17) 0.8 [.20] 0.9 22] 1.0 [.25] 1.1 [.27] 1.2 30] 1.3 321 1.4 [.35] 1.5 [.37] 1.6 [.401 1.7 [.421 1.8 45) 1.9 471 2.0 50] RPMF W RPMJ W IRPMI W RPM W RPM W RPM W RPM] W RPM W RPM W RPMJ W IRPM W RPM W RPM W RPMJ W IRPM W RPM W IRPM W RPM W RPM W RP W 400 11331 I — 551 782 585 814 619 848 652 885 684 926 717 969 748 1016 780 1065 810 1118 841 1174 870 1233 900 1294 929 113591 957 1427 985 1498 1012 1572 1039 1649 1065 1729 1091 1813 50011180 I — 562 816 596 848 629 884 661 923 693 964 725 1009 756 1057 787 1108 617 1162 846 1219 876 1279 904 1343 933 11409 960 1478 987 1550 1014 1626 1040 1704 1066 1786 1092 1870 600 1227 I — 574 851 607 885 639 922 671 962 702 1006 733 1052 1101 794 1153 823 1209 852 1267 881 1329 909 1393 937 1461 964 1531 990 1605 1016 1682 1042 1762 1067 1844 1092 1930 700 1274 553 857 585 889 618 925 650 963 681 1004 712 1049 742 1096 772 1147 801 1201 830 1258 858 1317 886 1380 914 1446 941 1515 967 1587 L 1662 1019 1740 1044 1821 1068 1905 1092 19938001321565896597930629966660100669110497211095751114478011968081251837130986413708921434919150194515729711645996172110211801104518831069196910932057 900 1368 577 937 609 972 640 11010 670 110511 701 1096 730 111431 759 1193 788 12461 816 1303 843 1362 871 1425 897 1490 923 1559 949 1630 974 1705 999 1783 1023 1864 1047 1948 1070 2035 1093 2124 000 1416 590 981 621 1017 651 11057 681 110991 710 1145 739 111931 768 1245 796 1300 823 1357 850 14181 877 1482 903 1549 928 1619 953 1692 978 1768 1002 1847 1026 1929 1049 2014 1072 2103 1094 2194 100 1463 602 11027 633 1065 662 1105 692 11149 720 1196 749 11246 777 1299 804 1355 831 1414 857 14761 883 1541 908 1610 933 1681 958 17551 982 1833 1005 1913 1028 1997 1051 2083 1073 2173 1094 2266 200 1510 615 1075 645 1114 674 1157 702 1202 731 1250 758 1301 785 1356 812 1413 838 1473 864 1537 889 1603 914 1673 938 1746 962 1821 986 1900 1008 1982 1031 2067 1053 2155 1074 2246 1095 2340 300 1557 628 1126 657 1166 685 1210 713 1256 741 1306 768 4 820 1473 846 1535 871 1600 896 1668 920 1739 944 1813 967 1890 989 1970 1012 2053 1033 2139 1055 2229 1075 2321 1096 2416 400 1604 640 1179 669 1221 697 1266 724 1314 751 136 777 6 829 1536 854 1599 878 1665L902 1734 926 1807 949 1882 971 1960 993 2 42 1015 2126 1036 2214 1057 2305 1077 2398 1097 2495 500 1652 653 1235 681 1278 708 1324 735 1373 761 142 787 M518459837 1601 661 1665 885 1733 909 1803 932 1877 954 1954 976 2034 997 2116 1018 2202 1039 2291 1059 2383 1078 2478 1097 2576 600 1699 666 1292 693 1337 720 1384 746 1435 771 1489 797 1668 869 1734 892 1803 915 1875 938 1950 959 2028 981 2709 1001 2193 1022 2280 1042 2371 1061 2464 1080 2560 1098 2660 nv c: wr-unve ien ui uie auiu nne, niu-unve ngm oT ooia lines, um-unve ngnt or oouDie line. Drive Package A/F B/G C/H Motor H.P. [W] 2 [1491.4] 3 [2237.1] 3 [2237.1] Blower Sheave AK84H AK84H AK84H Motor Sheave 1VL40*7/8 1VP50*7/8 1VP56*7/8 Belt A49 A50 A51 Tums Open 0 1 1 2 1 3 1 4 1 5 0 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM 767 721 678 635 590 548 992 949 908 866 823 782 1108 1067 1029 987 946 905 w'r onto c — L..U. GIG JIIVY IO UV U IrVU, 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions AIRFLOW PERFORMANCE- 7.5 TON [26.4 kW] - 60 Hz - DOWNFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Vertical Economizer RXRN-AEF2000 & RA Damper Open Concentric Adapter RXMC-DD01 (Flush) Concentric Diffuser RXRN-AE02000 & Concentric Adapter RXMC-OD01 (Drop) CFM [L/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 2400 [1133] 0.96 0.89 0.98 0.04 [.01) 0.01 [.00] 0.66 [.16] 0.53 [.131 2500 [1180] 0.96 0.90 0.99 0.05 [.01 ] 0.02 [.00) 0.71 .18] 0.57 [.14) 2600 [1227] 0.97 0.92 0.99 0.05 [.011 0.02 [.01] 0.75 [.19] 0.60 [.151 2700 1274 0.97 0.93 0.99 0.05 .01 0.03 .01 0.80 .20 0.65 .16 2800 [1321 ] 0.98 0.95 0.99 0.06 [.011 0.04 [.01] 0.85 [.21] 0.69 [.171 2900 [1368] 0.98 0.96 1.00 0.06 [.021 0.04 [.011 0.91 .23] 0.74 .18) 3000 [1416] 0.99 0.97 1.00 0.07 [.02] 0.05 [.01] 0.96 [.24] 0.79 [.201 3100 [1463] 1.00 0.99 1.00 0.07 [.021 0.06 [.021 1.02 [.251 0.86 [.21 ] 3200 [1510] 1.00 1.00 1.01 0.07 [.02) 0.07 [.02] 1.08 [.271 0.92 [.23] 3300 1557 1.01 1.02 1.01 0.08 .02] 0.08 [.02 1.15 .291 0.99 .25) 3400[16041 1.01 1.03 1.01 0.08 .02 0.09 .02 1.21 .30 1.05 .26 3500 [1652] 1 1.02 1.05 1.01 1 0.09 [.02] 0.10 .02] 1 1.29 [.321 1.09 .27 3600 [1699] 1 1.02 1.06 1.02 1 0.09 [.021 0.11 .03J 1 1.36 [.341 1.13 .28 mumpq oorrecuon ractor nmes gross perrormance aata resumng sensime capacity cannot exceed total capacity. Designates Metric Conversions 90 0• 0:0 Or AIRFLOW PERFORMANCE- 7.5 TON [26.4 kW] - 60 Hz - SIDEFLOW Air Model RACDZ*090* Voltage 208/230 460 575 — 3 phase 60 Hz 3 [2237.11 Blower Sheave AK84H AK84H AK84H Motor Sheave 1 VL40*7/8 1 VP50*7/8 1 VP56*7/8 Belt A49 A50 A51 Turns Open 0 1 2 1 3 1 4 1 5 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM Flow 1 720 1 676 1 633 1 589 1 544 1 989 1 949 1 908 1 865 1 823 1 780 1 1108 1 1067 1 1029 1 987 1 946 1 905 External Static Pressure—Inches of Water [kPal CFM [L/sl 0.1 021 0.2 051 0.3 071 0.4 10] 1 0.5 [.121 0.6 151 0.7 [.171 0.8 201 0.9 1.221 1.0 [.25I 11.11.271 1.2 301 1.3 321 1.4 [.351 1.5 [.371 1.6 [.401 1.7 [.421 1.8 1.451 1.9 [.471 2.0 [.501RPMFWRPM] W RPMJ W RPM W JRPMJ W RPMJ W JRPMI W RPM W JRPMj W RPM W IRPM W RPM W IRPM W RPM W RPM W RPM1 W RPMJ W RPM1 W RPM W RPM W 400 1133 I — 558 822 594 853 1 629 1887 663 925 697 965 730 10091 763 1056 794 11061 826 1159 856 12161 886 1275 915 1338 943 1404 971 1474 998 11546 1025 1622 1051 1700 1076 1782 500 1180 568 848 604 881 638 1917 672 956 705 998 738 10441 769 1092 801 11441 831 1199 861 1258 890 1319 919 1384 947 1452 974 1523 1001 1597 1027 1674 1052 1755 1077 1838 600 1227 543 846 579 877 613 912 647 1950 681 991 713 1035 745 10821 777 1132 807 1186 837 1243 867 1303 895 1366 923 1433 951 1502 978 1575 1004 1651 1029 1730 1054 1812 1078 1898 700 1274 554 877 589 910 623 946 657 986 689 1029 722 1074 753 11241 784 1176 814 1231 844 1290 872 1352 901 1417 928 1485 955 1556 981 1631 1007 1708 1032 1789 1056 1873 1079 1961 800 1321 566 911 600 946 634 984 666 1026 699 1070 7301118 761 11691 792 1223 821 1280 850 1340 878 1404 906 1470 933 1540 959 1613 985 1690 1010 1769 1034 1852 1058 1938 1081 2027 900 1368 543 1 916 577 949 611 986 644 1026 676 1069 708 1115 739 1164 770 12171 799 1273 828 1332 857 1394 885 1459 912 1528 938 15991 964 1674 989 1752 1014 1833 1037 1918 1061 2005 1083 2096 000 1416 555 1955 589 990 622 1029 655 1070 687 1115 718 1163 748 1214 778 12691 807 1326 836 1387 864 1451 891 1518 918 1588 944 1662 969 17381 994 1818 1017 1901 1041 1987 1063 2077 1085 2169- 16910010011463146356819986011035634107566611186971165728 1215t8098386 87 1324 816 1383 844 1445 871 1511 898 1580 924 1652 949 1727 974 1806 998 1887 1022 1972 1044 2060 1066 2151 1088 2245 20011510- 581 1044 614 1083 646 1125 677 1170 708 1218 738 127096 1382 824 1443 852 1507 879 1575 905 1646 931 1719 955 1796 980 1876 1003 1960 1026 2046 1048 2136 1070 2229 1091 2325 300 1557 594 1093 626 1134 658 1178 689 1225 719 1275 749 132806 1444 833 1507 860 1573 887 1642 912 1714 937 1790 962 1869 985 1951 1008 2036 1031 2124 1052 2216 1073 2310 1094 2408 400 1604 607 1146 639 1189 670 1234 701 1283 730 1335 759 139015 1509 843 1574 869 1642 895 1713 920 1787 944 1864 968 1945 991 1014 2115 1036 2205 1057 2298 1077 2395 1097 2494 500 1652 621 1203 652 1247 683 1294 713 1344 742 1398 770 1455 25 1578 852 1644 878 1714 903 1786 928 1862 952 1941 975 2024 997 t2109 1019 2198 1041 2290 1061 2385 1081 2483 1101 2584 600 1699 635 1262 666 1308 696 1357 725 1409 754 1465 782 1523 36 1650 862 1718 887 1789 912 1864 936 1941 959 2022 982 2106 1004 1025 2284 1046 2378 1066 2474 1086 2574 1104 2677 nu i C. rvr-unve roil ui uIe uuiu 111111, 0/141-unve ngn[ ur uuia unes, tan-unve ngm or aouoie ene. Drive Package A/F B/G C/H Motor H.P. [W] 2 [1491.4] 3 [2237.1] 3 [2237.11 Blower Sheave AK84H AK84H AK84H Motor Sheave 1 VL40*7/8 1 VP50*7/8 1 VP56*7/8 Belt A49 A50 A51 Turns Open 0 1 2 1 3 1 4 1 5 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM 765 1 720 1 676 1 633 1 589 1 544 1 989 1 949 1 908 1 865 1 823 1 780 1 1108 1 1067 1 1029 1 987 1 946 1 905 wun,ya — a,w. m .— yp.. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions AIRFLOW PERFORMANCE- 7.5 TON [26.4 kW] - 60 Hz - SIDEFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Horizontal Economizer RXRN-AEF2000 & RA Damper Open Concentric Adapter RXMC-OD01 (Flush) Concentric Diffuser RXRN-AE02000 & Concentric Adapter RXMC-DO01 (Drop) CFM [L/s] Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 2400 [1133] 0.96 0.89 0.98 0.04 [.011 0.01 [.00] 0.66 [A 6) 0.53 [.13] 2500 [1180] 0.96 0.90 0.99 0.05 [.01) 0.02 [.00] 0.71 [.18] 0.57 [.14] 2600 [1227] 0.97 0.92 0.99 0.05 [.01] 0.02 [00] 0.75 [.19] 0.60 [.15] 2700 [1274] 0.97 0.93 0.99 0.05 [.01] 0.03 [.01] 0.80 [20] 0.65 [.16] 2800 [1321 ] 0.98 0.95 0.99 0.06 [.01] 0.04 [01 ] 0.85 [.21] 0.69 [.17] 2900 [1368] 0.98 0.96 1.00 0.06 [.02] 0.04 [.01] 0.91 [.23] 0.74 [.18] 3000 [1416] 0.99 0.97 1.00 0.07 [.02] 0.05 [.01] 0.96 [.24] 0.79 [.20] 3100 [1463] 1.00 0.99 1.00 0.07 [.02] 0.06 [.011 1.02 [.25] 0.86 [.21] 3200 [1510] 1.00 1.00 1,01 0.07 (.02] 0.07 [.02] 1.08 [.27] 0.92 [.23] 3300 [1557] 1.01 1.02 1.01 0.08 [.02] 0.08 [.02] 1.15 [.29] 0.99 [.25] 3400 [1604] 1.01 1.03 1.01 0.08 [.02] 0.09 [.02] 1.21 [.30] 1.05 [.26] 3500 [1652] 1.02 1.05 1.01 0.09 [.02] 0.10 [.02] 1.29 [.32] 1.09 [.27] 3600 [1699] 1.02 1.06 1.02 0.09 [.02] 0.11 [.03] 1.36 [.34] 1.13 [.28] mumpq correcuon tactor times gross penormance aata resunmg sensinle capacity cannot exceed total capacity. Designates Metric Conversions 7I7D U) C N3 N d7 3 AIRFLOW PERFORMANCE— 8.5 TON [29.9 kW] — 60 Hz — DOWNFLOW Air Model RACDZ'102' Voltage 208/230 460 575 — —3phase 60 Hz 3 [2237.1] 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40' 7/8 1 VP50'7/8 1 VP56"7/8 Belt A49 A50 A51 Turns Open 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM 804 758 1 710 1 661 1 616 1 559 1 1048 1 1003 1 959 1 914 Flow 1 957 0:0000000goo External Static Pressure—Inches of Water [kPaj 0:0 or CFM [L/sj 0.1 [.021 0.2 [.05) 0.3 [.071 0.4 [.101 0.5 [.121 0.6 [.15] 0.7 [.171 0.8 [.20j 0.9 [.221 1.0 [.25I 1.1 [.27j 1.2 [.30] 11.3 [.321 1.4 [.35] 1.5 [.371 1.6 [.401 1.7 [.421 1.8 [.451 1.9 1.471 2.0 [.501 RPMJ W RPMj W JRPMJ W RPM W RPMj W RPMJ W jRPMj W RPM W IRPMI W RPM W JRPMj W RPM W RPM W RPM W RPM W RPM W RPMj W RPMj W RPMj W RP W 700 12741 561 894 596 934 631 975 665 1018 698 1062 730 1108 762 1155 793 1203 823 1253 853 1304 882 1357 910 1411 937 1467 964 1524 990 1583 1015 1643 1039 1704 1063 1767 1086 1832 800[1321 573 927 608 969 642 1013 676 1058 708 1104 740 1152 771 1201 802 1252 832 1304 861 1358 889 1413 917 1470 943 1528 970 1587 995 1648 1020 1711 1044 1775 1067 1840 1090 1907 900 1368 586 964 620 1008 654 1054 687 1101 719 1150 750 1200 781 1252 811 1305 840 1360 869 1416 897 1473 924 1532 950 1593 976 1654 1001 1718 1025 1782 1048 1848 1071 1916 1093 1985 000 1416 564 959 599 1004 633 1051 666 1099 698 1149 730 1200 761 1253 791 1307 820 1362 849 1419 877 1477 904 1537 931 1598 957 1661 982 1725 1006 1791 1030 1858 1053 1926 1075 1996 1097 2067 100 1463 578 1001 612 1048 645 1098 678 1148 710 1200 741 1254 771 1308 801 1365 830 1423 858 1482 886 1542 912 1605 939 1668 964 1733 989 1800 1012 1868 1036 1937 1058 2008 1080 2080 1101 2154 200 1510 592 1046 625 1096 658 1148 690 1201 721 1255 752 1311 782 1368 811 1427 840 1487 867 1548 894 1611 921 1676 946 1742 971 1809 995 1878 1019 1948 1041 2020 1063 2093 1085 2168 1105 2244 300 1557 605 1096 638 1148 671 1202 702 1257 733 1314 763 1372 793 1432 821 1493 849 1555 877 1619 903 1684 929 1751 954 1819 979 1889 1002 1960 1025 2033 1047 2107 1069 2182 1090 2259 1110 2337 400 1604 619 1149 652 1204 684 1260 715 1317 745 1376 775 1437 804 1499 832 1562 860 1627 886 1693 912 1761 938 1830 962 1900 986 1972 1009 2046 1032 2121 1053 2197 1074 2275 1095 2354 1114 2435 500 1652 634 1206 666 1263 697 1322 728 1382 758 1443 787 1506 815 1570 843 1635 870 1702 896 1771 922 1841 946 1912 970 1985 994 2060 1017 2135 1038 2213 1060 2291 1080 2371 1100 2453 1119 2536 600 1699 648 1267 680 1326 711 1387 741 1449 770 1513 799 1578 827 1645 854 1713 880 1782 906 1853 931 1925 955 1999 979 2074 1002 2151 1024 2229 1045 2308 1066 2389 1086 2472 1105 2556 1124 2641 700 1746 663 1332 694 1393 724 1456 754 1521 783 1587 811 1654 838 1723 865 1793 891 1865 916 1938 941 2013 965 2089 988 2167 1010 2246 1032 2326 1053 2408 1073 2491 1092 2576 1111 2662 1129 2750 800 1793 678 1400 708 1464 738 1529 767 1596 795 1665 823 1734 850 1805 876 1678 902 1952 926 208 951 2105 974 2183 996 2263 1018 2344 1039 2427 1060 2511 1080 2597 1099 2684 1117 2772 1134 2862 900 1840 693 1472 723 1538 752 1606 781 1675 806 1746 836 1818 862 1892 888 1966 913 2043 937 2121 961 2200,-983 2281 1005 2363 1027 2447 1048 2532 1067 261 1087 2706 1105 2796 1123 2886 1140 2979 000 1888 708 1548 737 1617 766 1687 794 1758 822 1831 848 1906 874 1981 900 2059 924 2137 948 2218 971 2299 993 2382 1015 2467 1036 2553 1056 2640 1075 2729 1094 2819 1112 2911 1129 3004 1146 3099 100 1935 723 1628 752 1699 781 1771 808 1845 835 1920 861 1997 887 2075 911 2155 935 2236 959 2318 981 2402 1003 2488 1024 2574 1045 2663 1064 2752 1083 2644 1101 2936 1119 3030 1136 3126 1152 3223 wv ic. rvr-uuvu fuu ui mu uuw nnu, oru-unve ngnt or uuiu lines, tart-unve rigni oT oouD1e tine. Drive Package AN B/G C/H Motor H.P. [W] 2 [1491.4] 3 [2237.1] 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40' 7/8 1 VP50'7/8 1 VP56"7/8 Belt A49 A50 A51 Turns Open 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 RPM 804 758 1 710 1 661 1 616 1 559 1 1048 1 1003 1 959 1 914 1 872 1 826 1 1168 1 1128 1 1087 1 1044 1002 1 957 a niyo m onum ni vviu type. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions 82, 00 En m 13M N 3 M 0:0 0:0000000goo 0:0 or 82, 00 En m 13M N 3 M AIRFLOW PERFORMANCE- 8.5 TON [29.9 kW] - 60 Hz - DOWNFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANPE Concentric Diffuser Vertical Economizer RXRN-AEF2000 & RA Damper Open Concentric Adapter RXMC-DO01 (Flush) Concentric Diffuser RXRN-AE02000 & Concentric Adapter RXMC-DO01 (Drop) CFM [L/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 2700 [1274] 0.97 0.93 0.99 0.07 [.02] 0.03 [.011 0.80 [.20] 0.65 [.16] 2800 [1321 ] 0.98 0.94 0.99 0.07 [.02) 0.03 [.011 0.85 [.21] 0.69 [.17] 2900 [1368] 0.98 0.96 0.99 0.08 [.02] 0.04 [.01] 0.91 [.23] 0.74 [.18] 3000 [1416] 0.99 0.97 1.00 0.08 [.02] 0.05 [.01] 0.96 [.24] 0.79 [20] 3100 [1463] 0.99 0.99 1.00 0.09 [.02] 0.06 [.01] 1.02 [.25] 0.86 [.21] 3200 [1510] 1.00 1.00 1.00 0.10 [.02] 0.07 [.02] 1.08 [.27] 0.92 [.23) 3300 [1557] 1.01 1.01 1.00 0.10 [.03] 0.08 [.02] 1.15 [.29] 0.99 [.25] 3400 [1604] 1.01 1.03 1.01 0.11 [.03] 0.09 [.02] 1.21 [.30] 1.05 [.26] 3500 [1652] 1.02 1.04 1.01 0.11 [03] 0.10 [.02] 1.29 [.32] 1.09 [.27] 3600 [1699] 1.02 1.06 1.01 1 0.12 [.03] 0.11 [.03] 1.36 [.34] 1.13 [.28] 3700 [1746] 1.03 1.07 1.02 0.13 [.03] 0.12 [.03] 1.43 [36] 1.18 [.29] 3800 [1793] 1.03 1.09 1.02 0.13 [.03] 0.13 [.03] 1.50 [37] 1.23 [.31] 3900 [1840] 1.04 1.10 1.02 0.14 [.04] 0.15 [.04] 1.59 [.40] 1.31 [.33] 4000 [1888] 1.05 1.12 1.02 0.14 [.04] 0.16 [.04] 1.68 [.42] 1.38 [.34] 4100 [1935] 1.05 1 1.13 1 1.03 0.15 [.04] 0.17 [.04] 1.74 [.43] 1.44 [.36] mumpty correction Tactor times gross penormance data resumng sensible capacity cannot exceed total capacity. Designates Metric Conversions so 0• AIRFLOW PERFORMANCE- 8.5 TON [29.9 kW] - 60 Hz - SIDEFLOW Air Model RACDZ•102` Voltage 208/230 460 575— 3 phase 60 Hz 3 [2237.1 ] 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40'7/8 1 VP50*7/8 1 VP56"7/8 Belt A49 A50 A51 Turns Open 0 1 2 3 4 5 0 1 1 1 2 1 3 1 4 1 5 1 0 1 2 1 3 1 4 1 5 RPM 802 754 707 662 1 616 1 555 1 1048 1 1005 1 960 1 916 1 870 1 827 1 1170 1 1126 1085 1 1044 1 1000 1 956 Flow s External Static Pressure—Inches of Water [kPa] CFM IL/s] 0.1 [.021 0.2 [.05] 6.3 [.07] 0.4 [.101 0.5 [.12] 0.6 [.15] 0.7 [.17] 0.8 201 10.9 221 1.0 [.251 1.1 [.27] 1.2 [.30] 1.3 [.32] RPMT W RPMj W RPMj W RPM W RPMj W RPM W RPM W RPM W RPM W RPM W IRPM W RPM W IRPM W RPMI W RPM W RPM W IRPM W RPMj W IRPM W RPM W 700 1274 577 932 611 969 644 1009 677 1052 710 1098 742 1147 774 1199 806 1254 837 1312 868 1373 898 1437 929 1505 959 1575 988 1648 1017 1725 1046 1804 1074 1686 1102 1972 800[1321 556 926 589 962 622 1000 655 1042 687 1087 719 1134 751 1185 783 1239 814 1295 844 1355 875 1416 905 1484 934 1553 963 1624 992 1699 1021 1777 1049 1858 1077 1942 1105 2029 900[1368 568 958 601 995 633 1036 666 1079 697 1125 729 1174 760 1227 791 1282 821 1340 851 1402 881 1466 911 1533 940 1604 968 1677 997 1754 1025 1834 10 2 1916 1080 2002 1107 2090 000 1416 580 994 613 1033 645 1074 676 1119 708 1167 738 1218 769 1272 799 1329 829 1389 859 1452 888 1518 917 1587 945 1659 973 1734 1001 1812 1029 1894 1056 1978 1082 2065 1109 2155 100 1463 561 996 593 1033 624 1073 656 1117 687 1163 718 1213 748 1265 778 1321 808 1379 837 1441 866 1506 895 1573 923 1644 951 1718 978 1794 1006 1874 1033 1957 1059 2043 1085 2132 1111 2224 200 1510 574 1037 605 1076 636 1118 667 1163 698 1211 728 1262 758 1316 787 1373 816 1434 845 1497 873 1563 902 1632 929 1705 957 1780 984 1858 1010 1940 1037 2024 1063 2112 1088 2202 1113 2296 300 1557 587 1082 618 1122 648 1166 679 1212 709 1262 738 1315 767 1371 796 1430 825 1491 853 1556 881 1624 908 1695 936 1769 962 1846 989 1926 1015 2009 1041 2095 1066 2184 1091 2276 1116 2372 400 1604 600 1130 630 1172 660 1217 690 1266 720 1317 749 1371 777 1429 806 1489 834 1553 861 1619 888 1689 915 1761 942 1837 968 1916 994 1997 1020 2082 1045 2170 1070 2260 1094 2354 1118 2451 500 1652 613 1182 643 1226 672 1273 702 1323 730 1376 759 1432 787 1491 815 1553 842 1618 869 1686 896 1757 922 1831 948 1909 974 1989 999 2072 1024 2158 1049 2248 1073 2340 1097 2436 1121 2534 600 1699 626 1238 656 1263 685 1332 713 1383 741 1438 769 1495 797 1556 824 1620 851 1687 877 1756 904 1829 929 1905 955 1964 980 2066 1005 2151 1029 2238 1053 2329 1077 2423 1100 2520 1123 2621 700 1746 640 1297 668 1344 697 1394 725 1447 753 1504 780 1563 807 1625 833 1690 860 1759 886 1830 911 1905 937 1982 961 2063 986 2146 1010 2233 1034 2322 1057 2415 1081 2510 1103 2609 1126 2711 800 1793 653 1360 681 1409 709 1460 737 1515 764 1573 790 1634 817 1698 843 1765 869 1835 894 1908 919 1984 944 2063 968 2145 992 2230 1016 2318 1039 2410 1062 2504 1084 2601 1107 2701 1128 2805 900 1840 667 1426 694 1477 721 1530 748 1587 775 1646 801 1709 827 1774 852 1843 878 1914 902 1989 927 2067 951 2147 975 2231 998 2318 1021 2408 1044 2500 106612596,106812695.11-10 27-97,1131 2902 000 1888 660 1496 707 1548 734 1604 760 1662 786 1723 812 1787 837 1854 862 1924 887 1998 911 2074 935 2153 958 2235 981 2321 1004 2409 1027 2501 1049 2595 1071 2693 1092 2793 1113 2897 1134 3003 100 1935 694 1570 720 1624 746 1681 772 1740 797 1803 822 1869 847 1938 872 2009 896 2084 919 2162 943 2243 965 2327 988 2414 1010 2504 1032 2597 1054 2693 1075 2792 1 096 2895 1116 3000 1137 3108 Nu i t: wt-unve ien or me Do10 line, tl7G-unve ngnt of Dow lines, uH-urive rlgnt of double line. Drive Package AN B/G C/H Motor H.P. [W] 2 [1491.4] 3 [2237.1 ] 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1 VL40'7/8 1 VP50*7/8 1 VP56"7/8 Belt A49 A50 A51 Turns Open 0 1 2 3 4 5 0 1 1 1 2 1 3 1 4 1 5 1 0 1 2 1 3 1 4 1 5 RPM 802 754 707 662 1 616 1 555 1 1048 1 1005 1 960 1 916 1 870 1 827 1 1170 1 1126 1085 1 1044 1 1000 1 956 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions s MD 81 00, m O S. M N 3 os0 m AIRFLOW PERFORMANCE -8.5 TON [29.9 kW] - 60 Hz - SIDEFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Horizontal Economizer RXRN-AEF2000 & RA Damper Open Concentric Adapter RXMC-OD01 (Flush) Concentric Diffuser RXRN-AED2000 & Concentric Adapter RXMC-0001 (Drop) CFM [L/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa1 2700 [1274] 0.97 0.93 0.99 0.07 [.02] 0.03 [.01] 0.80 [.20] 0.65 [.16] 2800 [1321 ] 0.98 0.94 0.99 0.07 [.02) 0.03 [.01] 0.85 [.21] 0.69 [.17] 2900 [1368] 0.98 0.96 0.99 0.08 [.021 0.04 [.01] 0.91 [.23] 0.74 [.181 3000 [1416] 0.99 0.97 1.00 0.08 [.02] 0.05 [.01] 0.96 [.24] 0.79 [.20] 3100 [1463] 0.99 0.99 1.00 0.09 [.02] 0.06 [.01] 1.02 [.25] 0.86 [.21] 3200 [1510] 1.00 1.00 1.00 0.10 [.02] 0.07 [.02] 1.08 [.27] 0.92 [.23] 3300 [1557] 1.01 1.01 1.00 0.10 [.03] 0.08 [.021 1.15 [.29] 0.99 [.25] 3400 [16041 1.01 1.03 1.01 0.11 [.031 0.09 [.02] 1.21 [.30] 1.05 [.261 3500 [16521 1.02 1.04 1.01 0.11 [.03] 0.10 [.02] 1.29 [.32] 1.09 [.271 3600 [1699] 1.02 1.06 1.01 0.12 [.03] 0.11 [.03] 1.36 [.34] 1.13 [.281 3700 [1746] 1.03 1.07 1.02 0.13 [.03] 0.12 [.03] 1.43 [.36] 1.18 [.29] 3800 [1793] 1.03 1.09 1.02 0.13 [.03] 0.13 [.031 1.50 [.37] 1.23 [.31] 3900 [1840] 1.04 1.10 1.02 0.14 [.04] 0.15 [.041 1.59 [.40] 1.31 [.331 4000 [1888] 1.05 1.12 1.02 0.15 [.041 0.16 [.04] 1.68 [.421 1.38 [.34] 4100 [1935) 1 1.05 1.13 1.03 0.15 [.041 0.17 [.04] 1.74 [.43] 1.44 [.36] w. FY o.ncrwn 1-1 telIIca }fl VJJ Pc11V1IIla[ It U Vala ICaUlllllY aellalUle GapaGRy uaiiijut exceed tetai capaary. Designates Metric Conversions e. • AIRFLOW PERFORMANCE -10 TON [35.1 kW] - 60 Hz - DOWNFLOW NU It: A/F-Unve left of the bold line, B/6 -Drive right of bold lines, C/H-Drive right of double line. Drive Package Model RACDZ'120` Voltage 208/230 460 575— 3 phase 2 [1491.4] 60 Hz 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1VL40'7/8 1VP50'7/8 1VP56'7/8 Belt A49 A50 A51 Turns Open 0 1 1 2 1 3 4 1 5 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 3 Air Flow 1 5 RPM 802 1 758 1 710 1 661 616 1 559 1 1040 999 1 955 1 911 1 868 1 824 1 1155 1 1120 1 1080 1039 1 996 1 953 External Static Pressure—Inches of Water [kPa] CFM (Us] 0.1 02] 0.2 051 0.3 07] 0.4 101 0.5 12] 0.6 15] 0.7 [.171 0.8 RPMJ W RPM W RPMJ W RPM W RPM1 W RPMJ W IRPM W RPM W RPM W RPM WRPM W RPM W RPM W RPM W RPM W RPM W RPM W RPMJ W IRPM W RPM W 200 1510 597 11D46 629 1092 661 11141 692 1191 723 11242 753 1296 782 1351 811 1409 839 1468 867 1528 893 1591 920 1655 945 1722 970 1790 994 1859 1018 1931 1041 2004 1064 2080 1085 2157 1107 2236 300 1557 610 11092 642 1141 674 11192 705 1244 735 1299 764 1355 793 1413 822 1473 849 1535 876 15991 903 1664 928 1731 954 1800 978 1871 1002 1943 1025 2018 1048 2094 1070 2172 1091 2251 1112 2333 400 1604 624 11142 655 1194 686 11247 717 1303 747 1360 776 1419 804 1480 832 1542 859 1607 886 1673 912 1741 937 1811 962 1883 986 1956 1010 2031 1032 2108 1055 2187 1076 2268 1097 2350 1117 2435 500 1652 638 11196 669 1251 699 11307 729 1365 759 1425 787 1487 815 1550 843 1616 870 1683 896 1752 921 1823 946 1895 971 1969 994 2046 1017 2124 1040 2203 1061 2285 1083 2368 1103 2454 1123 2541 600 1699 651 11255 682 1312 712 11371 742 1432 771 1494 799 1559 827 1625 854 1693 880 1763 906 1835 931 1908 955 1984 979 2061 1003 2140 1025 2220 1047 2303 1068 2387 1089 2473 1109 2561 1129 2651 700 1746 665 11317 696 1377 725 11439 755 1503 783 1568 811 1635 838 1704 865 1775 891 1848 916 1922 941 1998 965 2076 988 12156 1011 2238 1033 2321 1055 2406 1075 2493 1096 2582 1115 2673 1134 2765 800 1793 679 1385 709 1447 739 11512 767 1578 795 1646 823 117161 850 1788 876 1861 901 1937 926 2014 950 2093 974 2173 997 2256 1019 1234011041 2426 1062 2514 1083 2604 1102 2696 1122 2789 1140 2884 900 [184011 693 11456 723 1521 752 1589 780 116581 808 11728 835 1801 861 1875 887 1952 912 2030 936 2110 960 2191 983 2275 1006 2360 1028 2447 1049 2536 1070 2627 1090 2719 1109 2813 1128 2909 1146 3007 000 [18884 708 11532 737 1600 765 1670 793 11741 F8-2-0—Fl 8-1-5 847 1890 873 1967 898 2046 923 2127 947 2210 970 2294 993 2380 1015 2468 1036 2558 1057 2650 1077 2743 1097 2838 1116 2935 1134 3034 1152 3135 100 [19354 722 11612 751 1682 779 1755 806 1830 833 11906 859 1984 884 2064 909 2145 933 2229 957 2314 980 2401 1002 2490 1024 2581 1045 2673 1065 2768 1085 2864 1104 2962 1123 3061 1141 3163 1158 3266 2001198211 736 11696 765 1769 792 1845 819 1922 845 12001 871 2082 896 2164 921 2249 9442335 968 2423 990 2513 1012 2604 1033 2698 1054 2793 1074 2890 1093 2989 1112 3090 1130 3192 1147 3296 1164 3402 3001202911 751 11784 779 1861 806 1939 832 2019 858 2100 883 2184 908 2269 932 2356 955 2445 978 2536 1000 2629 1022 2723 1043 2819 1063 2917 1082 3017 1101 3118 1119 3222 1137 3327 1154 3434 400 2076 765 1877 793 1956 820 2037 846 2120 871 2204 896 2290 920 2378 944 2468 967 2560 989 2653 1010 2749 1032 2846 1052 2945 1072 3045 1091 3148 1109 3252 1127 3358 1144 3466 1161 3576 500 2123 780 1974 807 2056 833 2140 859 2225 884 2312 908 2401 932 2492 955 2584 978 2679 1000 2775 1021 2873 1041 2973 1061 3074 1081 3178 1099 3283 1117 3390 1135 3499 1152 3609 1168 3722 600 2171 795 12076 821 2160 847 2246 872 2335 897 2424 921 2516 944 2610 967 2705 989 2802 1010 2901 1031 3002 1051-1310-411071 3208 1090 3314 1108 3422 1126 3532 1143 3644 1159 3757 — 700 2218 810 2181 836 2269 861 2358 886 2448 910 2541 934 2635 957 2732 979 2830 1000 2929 1021 3031 1042 3134 1062 3240 1081 3347 1099 3455 1117 3566 1134 3679 1151 3793 1167 3909 800 2265 825 2291 850 2381 875 2473 900 2567 923 2662 946 2759 969 2858 991 2959 1012 3061110331qIR'lliO52 3272 1072 3380 1090 3489 1108 3601 1126 3714 1143 3829 NU It: A/F-Unve left of the bold line, B/6 -Drive right of bold lines, C/H-Drive right of double line. Drive Package A/F B/G C/H Motor H.P. [W] 2 [1491.4] 3 [2237.1] 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1VL40'7/8 1VP50'7/8 1VP56'7/8 Belt A49 A50 A51 Turns Open 0 1 1 2 1 3 4 1 5 0 1 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 3 1 4 1 5 RPM 802 1 758 1 710 1 661 616 1 559 1 1040 999 1 955 1 911 1 868 1 824 1 1155 1 1120 1 1080 1039 1 996 1 953 i a V1y znmarc acuniya me SIIUWII m UUm typo. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions AIRFLOW PERFORMANCE -10 TON [35.1 kW] - 60 Hz - DOWNFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Vertical Economizer RXRN-AEF3415 & RA Damper Open Diffuser RXMC-OD02 (Flush) Concentric Diffuser RXRN-AE03415 & Diffuser, RXMC-OD02 (Drop) CFM [L/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 3200 [1510] 0.97 0.93 0.99 0.10 [.02] 0.07 [.02] 0.74 [.181 0.56 [.14] 3300 [1557] 0.98 0.94 0.99 0.10 [.03] 0.08 [.02] 0.79 [.20] 0.59 [.15] 3400 [1604] 0.98 0.96 0.99 0.11 [.03] 0.09 [.02] 0.84 [.21] 0.62 [.151 3500 [1652] 0.99 0.97 1.00 0.11 [.031 0.10 [.02] 0.90 [.221 0.66 [.16] 3600 [1699] 0.99 0.98 1.00 0.12 [.03] 0.11 [.031 0.95 [.24] 0.69 [.17] 3700 [1746] 1.00 0.99 1.00 0.13 [.03] 0.12 [.03] 1.00 [.25] 0.73 [.181 3800 [1793] 1.00 1.01 1.00 0.13 [.03] 0.13 [.031 1.04 [.26] 0.76 [.19] 3900 [1840] 1.01 1.02 1.00 0.14 [.04J 0.15 [.04] 1.09 [.27] 0.80 [.20] 4000 [1888] 1.01 1.03 1.01 0.15 [.041 0.16 [04] 1.13 [.28] 0.84 [.211 4100 [1935] 1.02 1.04 1.01 0.15 [.041 0.17 [.04) 1 A 9 [.30] 0.88 [.22] 4200 [1982) 1.02 1.06 1.01 0.16 [.041 0.19 [.05] 1.24 [.311 0.92 [.23] 4300 [2029] 1.03 1.07 1.01 0.17 [.04] 0.20 [05] 1.31 [.331 0.97 [.24] 4400 [20761 1.03 1.08 1.01 0.18 [.041 0.21 [.051 1.37 [.341 1.02 [.251 4500 [2123] 1.04 1.09 1.02 0.19 [.05] 0.23 [.061 1.43 [.35] 1.07 [.27] 4600 [21711 1.04 1.11 1.02 0.19 [.05] 0.24 [.06] 1.48 [.37] 1.11 [.28] 4700 [2218] 1 1.05 1 1.12 1.02 0.20 [.05) 0.26 [.06] 1.54 [.38] 1.15 [.29] 4800 [2265] 1 1.05 1 1.13 1.02 0.21 [.05J 0.28 [.071 1.59 [.401 1.19 [.30] Unryiy W11UL'UV11 iacwi U11105 y ubb EIummidmx uami Ietwitiny Sensime capacity cannot eXceea mial Capacity. Designates Metric Conversions 000 . . . 0.0 00 0 00 81 O0mM E5 3E5 d. N 3 W0 0M AIRFLOW PERFORMANCE -10 TON [35.1 kW] - 60 Hz - SIDEFLOW Air Model RACDZ*120* Voltage 208/230 460 575 — 3 phase 60 Hz 312237.11 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1VL40*7/8 1VP50*7/8 1VP56*7/8 Belt A49 A50 A51 Turns Open 10 1 2 3 1 4 5 0 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 798 753 707 663 1 616 1 556 1 1041 1 998 955 1 912 Flow 1 1078 1 1037 1 994 1 951 External Static Pressure—Inches of Water [kPa] CFM [L/s) 0.1 [.02] 0.2 [.05] 0.3 [.07) 0.4 [.10] 0.5 [.12) 0.6 [.15] 0.7 [.17] 0.6 RPMT W RPMJ W RPMJ W RPMJ W RPMJ W RPMl W IRPM W RPMJ W IRPM W RPM W RPM W RPM W IRPM W RPMJ W IRPM W RPM W RPM W RPM W IRPM W RPM W 200 15101 575 1018 607 1057 637 1099 667 1143 697 1191 727 1240 756 1293 785 1348 814 1406 842 1466 870 1529 897 1595 924 1664 951 1735 978 1809 1004 1885 1030 1965 1055 2047 1080 2131 1105 2219 300 1557 588 1060 618 1101 649 1146 679 1192 708 1242 737 1294 766 1349( 854 1406 823 1466 850 1529 876 1595 905 1663 932 1734 958 1808 984 1884 1010 1963 1035 2045 1060 2129 1085 2216 1109 2306 400 1604 600 1106 630 1150 660 1196 690 1245 719 1297 748 1352 776 14091469 832 1531 859 1597 886 1664 913 1735 939 1808 965 1884 990 1963 1016 2044 1040 2128 1065 2215 1089 2305 1113 2397 500 1652 613 1156 643 1202 672 1251 701 1302 730 1357 758 1413 786 14731535 841 1600 868 1668 894 1738 920 1811 946 1887 972 1965 997 2046 1022 2130 1046 2217 1070 2306 1094 2397 1117 2492 600 1699 626 1210 655 1258 684 1310 713 1364 741 1420 769 1479 796 15411606 850 1673 877 1743 903 1816 929 1892 954 1970 979 2050 1004 2134 1028 2220 1052 2309 1076 2400 1099 2494 1122 2591 700 1746 639 1268 668 1319 696 1373 724 1429 752 1488 779 1550 806 16141681 860 1751 886 1823 911 1898 937 1976 962 2056 986 2140 1011 2225 1035 2314 1058 2405 1081 2499 1104 2596 1127 2695 800 1793 652 1330 680 1384 708 1440 736 1498 763 1560 790 1624 817 16901760 869 1832 895 1907 920 1984 945 2064 970 2147 994 2233 1018 2321 1041 2412 1064 2505 1087 2602 1110 2701 1132 2802 900 1840 665 1397 693 1452 721 1511 748 1572 775 1636 801 1702 828 17711843 879 1917 904 1995 929 2075 954 2157 978 2242 1001 2330 1025 2421 1048 2514 1071 2610 1093 2709 7115 20LO 1137 2914 000 1888 678 1467 706 1525 733 1586 760 1650 787 1716 813 1785 839 1856 864 1930 889 2007 914 2087 938 2169 962 2254 986 2341 1009 2432 1032 2525 1055 2620 1077 2719 1099 2820 1121 2923 114E 3030 100 1935 692 1542 719 1602 746 1666 772 1731 798 1800 824 1871 850 1945 875 2022 899 2101 923 2183 947 2267 971 2355 994 2445 1017 2537 1040 2633 1062 2731 1084 2831 1105 2935 1126 3041 1147 3150 200 1982 706 1621 732 1684 759 1749 785 1817 810 1888 836 1962 861 2038 885 2117 909 2199 933 2283 957 2370 980 2460 1003 2552 1025 2647 1047 2745 1069 2845 1091 2948 1112 3054 1132 3163 1153 3274 300 2029 720 1704 746 1769 772 1837 797 1907 823 1981 847 2057 872 2135 896 2217 920 2301 943 2387 9662477 989 2569 1012 2664 1034 2761 1055 2861 1077 2964 1098 3069 1118 3178 1139 3288 1156 3402 400 2076 734 1791 760 1858 785 1928 810 2001 835 2077 859 2155 883 2237 907 2320 931 2407 954 2496 976 2587 999 2682 1020 2779 1042 2879 7063 2981 1084 3087 1105 3195 1125 3305 1145 3418 500 2123 748 1882 773 1952 798 2024 823 2100 847 2178 871 2259 895 2342 918 2428 941 2517 964 2608 986 2702 1008 2799 1030 2899 1051 3001 1071 3106 1092 3214 1112 3324 1132 3437 1151 3552 600 2171 762 1977 787 2049 612 2124 836 2202 860 2283 884 2366 907 2451 930 2540 952 2631 974 2725 996 2822 1018 2921 1039 3023 1059 3127 1080 3235 1100 3345 1120 3457 1139 3573 1158.T69-1 700 2218 777 2076 801 2151 826 2228 849 2309 873 2391 896 2477 919 2565 941 2656 963 2750 985 2846 1006 2945 1027 3046 1048 3151 1068 3258 1088 3367 1108 3480 1127 3595 1146 3712 800 2265 792 2180 816 2257 840 2337 863 2419 886 2504 909 2592 931 2683 953 2776 975 2872 996 2971 1017 3072 1037 3176 1058 3283 1077 3392 1097 3504 1116 3619 1135 3736 1153 3856 Nei e:;vr-unve lett of the ooia One, tstu-unve ngnt of Dola lines, G7H-Urive right of double line. Drive Package RPM A/F B/G C/H Motor H.P. [W] 2 [1491.4] 312237.11 3 [2237.1] Blower Sheave AK79H AK79H AK79H Motor Sheave 1VL40*7/8 1VP50*7/8 1VP56*7/8 Belt A49 A50 A51 Turns Open 10 1 2 3 1 4 5 0 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 1 5 798 753 707 663 1 616 1 556 1 1041 1 998 955 1 912 1 867 1 824 1 1155 1 1119 1 1078 1 1037 1 994 1 951 I a niyo w 1—v rypc. 2 -. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions AIRFLOW PERFORMANCE -10 TON [35.1 kW] - 60 Hz - SIDEFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Horizontal Economizer RXRN-AEF3415 & RA Damper Open Diffuser RXMC-DD02 (Flush) Concentric Diffuser RXRN-AED3415 & Diffuser RXMC-DO02 (Drop) CFM [L/s1 Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 3200 [1510] 0.97 0.93 0.99 0.10 [.02] 0.07 [.02] 0.74 [.18] 0.56 [.14] 3300 [1557] 0.98 0.94 0.99 0.10 [.03] 0.08 [02] 0.79 [.20] 0.59 [.15] 3400 [1604] 0.98 0.96 0.99 0.11 [.03] 0.09 [.02] 0.84 [.21] 0.62 [.15] 3500 [1652] 0.99 0.97 1.00 0.11 [.03] 0.10 [.02] 0.90 [.22] 0.66 [.16] 3600 [1699] 0.99 0.98 1.00 0.12 [.03] 0.11 [.03] 0.95 [.24) 0.69 [.17] 3700 [1746] 1.00 0.99 1.00 0.13 [.03] 0.12 [.03] 1.00 [.25] 0.73 [.18] 3800 [1793] 1.00 1.01 1.00 0.13 [.03] 0.13 [.03) 1.04 [.26] 0.76 [.19] 3900 [1840] 1.01 1.02 1.00 0.14 [.04] 0.15 [.04) 1.09 [.27) 0.80 [.20] 4000 [1888] 1.01 1.03 1.01 0.15 [.04] 0.16 [.04] 1.13 [.28) 0.84 [.21] 4100 [1935] 1.02 1.04 1.01 0.15 [.04] 0.17 [.04] 1.19 [.30] 0.88 [.22]_ 4200 [1982] 1.02 1.06 1.01 0.16 [.04] 0.19 [.05] 1.24 [.31] 0.92 [.231 4300 [2029] 1.03 1.07 1.01 0.17 [.04] 0.20 [.05] 1.31 [.33] 0.97 [.24] 4400 [2076] 1.03 1.08 1.01 0.18 [.04] 0.21 [.05] 1.37 [.34] 1.02 [.25] 4500 [2123] 1.04 1.09 1.02 0.19 [.05] 0.23 [.06] 1.43 [.35] 1.07 [.27] 4600 [2171 ] 1.04 1.11 1.02 0.19 [.05] 0.24 [.06] 1.48 [.37] 1.11 [.28] 4700 [2218) 1.05 1.12 1.02 0.20 [.05] 0.26 [.06] 1.54 [38] 1.15 [.29] 4800 [2265] 1.05 1.13 1.02 1 0.21 [.05] 0.28 [.07] 1 1.59 [.40] 1.19 [.30] mtimpiy correction Tactor times gross penormance data resumng sensiole capacity cannot exceed total capacity. Designates Metric Conversions AIRFLOW PERFORMANCE -12.5 TON [43.9 kW] - 60 Hz - DOWNFLOW Air Model RACDZ"150' Voltage 208/230 460 575 — 3 phase 60 Hz AK71 H AK79H Motor Sheave 1VL44'7/8 iVP60'1xl/8 Belt A48 A52 Turns Open 0 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 5 RPM 1 1003 1 958 1 912 1 863 1 814 1 764 1 1220 1 1171 1 1127 1 1085 1 1039 994 Flow External Static Pressure—Inches of Water Wal CFM [L/sl 0.1 021 0.2 [.051 0.3 [.071 0.4 [.101 0.5 1.121 0.6 [.151 0.7 [.171 0.8 [.201 0.9 [.221 1.0 [.251 1.1 271 1.21.301 1.3 [.321 1.4 [.351 11.5 [.371 1.6 1.401 1.7 [.421 1.8 [.451 1.9 [.471 2.0 [.501 RPMJ W RPM W RPMj W RPMJ W RPMJ W RPMl W RPMI W RPM1 W IRPMI W RPMJ W JRPMJ W RPM W JRPMJ W RPM W RPM W RPM W RPM W RPM W IRPM W RPMJ W 000 1888 766 JIT76 795 1806 824 11842 851 1883 878 11931 904 1985 929 2044 953 2110 97L 2181 998 122591101912342 1040 2431 1059 2526 1078 2627 1096 2734 1113 2847 1129 2966 1144 3091 1158 3221 1171 3358 100 1935 778 11820 807 1856 835 11897 862 1944 888 11997 913 2056 937 2120 961 2191 983 2268 1005 2350 1026 2439 1045 2533 1064 2634 1082 2740 1099 2852 1116 2970 1131 3094 1145 3224 1159 3360 1171 3502 200 1982 792 11875 820 1915 847 11961 873 2014 899 12072 923 2136 947 2206 969 2282 991 2364 1012 2451 1032 2545 1051 2645 1070 2750 1087 2862 1103 2979 1119 3102 1134 3232 1147 3367 1160 3508 1172 3655 300 2029 806 11938 833 1984 859 12036 885 2093 910 2156 934 2226 957 2301 979 2382 1000 2469 1020 2562 1040 2661 1058 2766 1076 2877 1092 2993 1108 3116 1123 3244 1137 3379 1150 3519 1162 3665 1174 3818 400 2076 820 12012 847 2063 873 2119 898 2182 922 2251 945 2325 967 2406 989 2492 1009 2584 1029 2682 1048 2787 1065 2897 1082 3013 1098 3134 1113 3262 1128 3396 1141 3536 1154 3681 1165 3833 1176 3990 500 2123 835 12095 861 2151 886 2213 911 2281 934 2355 957 2434 978 2520 999 2611 1019 2709 1038 2812 1056 2922 1073 3037 1090 3158 1105 3285 1119 3418 1133 3557 1146 3702 1158 3853 1168 4009 1178 4172 600 2171 851 12187 876 2249 901 2316 925 2389 947 2468 969 2553 990 2644 1010 2740 1030 2843 1048 2952 1065 3066 1082 3187 1097 3313 1112 3445 1126 3584 1139 3728 1151 3878 1162 4034 1172 4196 1182 4363 700 2218 867 12290 892 2356 916 2428 939 2507 961 2591 982 1268iJ1003 2777 1022 2879 1041 12987 1058 3101 1075 3220 1091 3346 1106 3478 1120 3615 1133 3759 1145 3908 1157 4063 1167 4224 1177 4391 1186 4564 800 2265 884 12401 908 2473 932 2551 954 2634 975 2723 996 2819 1016 2920 1034 3027 1052 3140 1069 3259 1085 3384 1101 3515 1115 3652 1128 3795 1141 3943 1153 4098 1163 4258 1173 4425 1182 4597 1190 4775 900123121 902 12523 925 2599 948 2682 969 2771 990 12866 1010 2966 1029 3073 1047 3185 1065 3303 1081 3427 1097 3558 1111 3694 1125 3836 1138 3984 1149 4137 1160 4297 1170 4463 1180 4634 1188 4812 1195 4995 000 [235911 920 12653 943 127361 965 12824 986 2917 1006 3017 1025 3123 1044 3235 1061 3352 1078 3476 1093 3605 1108 3741 1122 3882 1135 4029 1147 4182 1158 4341 1169 4506 1178 4677 1187 4854 1194 5036 1201 5225 100 240711 939 12794 961 2881 982 12974 1003 3073 1022 3179 1041 3289 1058 3406 1075 3529 1091 3658 1106 3792 1120 3933 1134 4079 1146 4232 1158 4390 1168 4554 1178 4725 1187 4901 1194 5083 1201 5270 1208 5464 2001245411 958 12944 980 3036 1000 3135 1020 3239 1039 3349 1057 3465 1074 3588 1090 3716 1105 3849 1120 3989 1133 4135 1146 4287 1158 4444 1168 4608 1178 4777 1187 4953 1196 5134 1203 5321 1209 5514 1215 5713 3001250111 978 13103 999 3201 1019 3305 1038 3414 1056 3530 1074 3651 1090 3778 1106 3912 1120 4051 1134 4196 1147 4347 1159 4504 1170 4666 1180 4835 1189 5010 1198 5190 1205 5377 1212 5569 1217 5767 1222 5972 400125481 999 13273 1019 3376 1038 3484 1057 3599 1074 3720 1091 3846 1107 3979 1122 4117 1136 4261 1149 4412 1161 4568 1172 4730 1183 4898 1192 5072 1201 5252 1209 5438 1215 5629 1221 5827 1226 6030 500 12595U1-02-013--4-51 1040 3559 1058 3673 1076 3793 1093 3919 1109 4051 1124 4189 1138 4332 1152 4482 1164 4637 1176 4799 1186 4966 1196 5139 1205 5318 1213 5503 1220 5694 1226 5891 — 600 2643 1042 3640 1061 3753 1079 3872 1096 3997 1112 4128 1128 4265 1142 4408 1156 4557 1168 4712 1180 5039 1201 5212 1210 5390 1218 5574 1226 5765 700 2690 1064 3838 1083 3956 1100 4080 1117 4211 1132 4347 1147 4489 1161 4637 1174 4791 1186 4951 1197 5289 1216 5467 1225 5650 800 2737 1088 4045 1105 4169 1122 4298 1138 4434 1153 4575 1167 4723 1180 4876 1192 5035 1204 5200 1214 17224 5548 — 900 2784 1111 4262 1128 4391 1144 4526 1160 4666 1174 4813 1187 4966 1200 5124 1211 5289 1222- 000 2831 1136 4489 1152 4623 1167 4763 1182 4909 1196 5061 1208 5218 1220 5382 Iru 1 c. rvr-unvc lerl ul um uum Ine, mu-unve ngnl ur ouia Ines. Drive Package A/F B/G Motor H.P. [W] 3 [2237.1] 5 [3728.5] Blower Sheave AK71 H AK79H Motor Sheave 1VL44'7/8 iVP60'1xl/8 Belt A48 A52 Turns Open 0 1 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 5 RPM 1 1003 1 958 1 912 1 863 1 814 1 764 1 1220 1 1171 1 1127 1 1085 1 1039 994 rvV I W.I. I-al;W1y JIICQYC JC111111 b Gle tjIIUWII III UUIU type. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions s ••• • w• • Or O. AIRFLOW PERFORMANCE -12.5 TON [43.9 kW] - 60 Hz - DOWNFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Vertical Economizer RXRN-AEF3618 & RA Damper Open Concentric Adapter RXMC-DD03 (Flush) Concentric Diffuser RXRN-AE03618 & Concentric Adapter RXMC-0003 (Drop) CFM IL/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 4000 [1888] 1.01 1.03 1.01 0.15 [.04] 0.16 [.04] 0.76 [.19] 0.68 [.17] 4100 [1935] 1.02 1.04 1.01 0.16 [04] 0.17 [.04] 0.79 [20] 0.72 [.18] 4200 [1982] 1.02 1.06 1.01 0.17 [.04] 0.19 [.05] 0.82 [.20] 0.75 [.19] 4300 [2029] 1.03 1.07 1,01 0.17 [.04] 0.20 [.05] 0.86 [.21] 0.79 [.20] 4400 [2076] 1.03 1.08 1.01 0.18 [.05] 0.21 [.05] 0.90 [.22] 0.83 [.211 4500 [2123] 1.04 1.09 1.02 0.19 [.05] 0.23 [.06] 0.94 [.23] 0.86 [.21] 4600 [2171] 1.04 1.11 1.02 0.20 [.05] 0.24 [.06] 0.98 [.24] 0.89 [22] 4700 [2218] 1.05 1.12 1.02 0.21 [.05] 0.26 [.06] 1.02 [.25] 0.94 [.23] 4800 [2265] 1.05 1.13 1.02 0.21 [.05] 0.28 [.07] 1.06 [.26] 0.98 [.24] 4900 [2312] 1.06 1.14 1.02 0.22 [.06] 0.29 [.071 1 A 0 [.27] 1.01 [.25] 5000 [2359] 1.06 1.16 1,03 0.23 [.06] 0.31 [.08] 1.14 [.28] 1.04 [.26] 5100 [2407] 1.07 1.17 1.03 0.24 [.06] 0.33 [.08] 1.18 [.29] 1.07 [.27] 5200 [2454] 1.07 1.18 1.03 0.25 [.06] 0.35 [.09] 1.22 [.30] 1.10 [.27] 5300 [2501 ] 1.08 1.19 1.03 0.26 [.06] 0.36 [.09] 1.27 [.32] 1.15 [.291 5400 [2548] 1.08 1.21 1.03 0.27 [.07] 0.38 [.09] 1.33 [.33] 1.20 [.30] 5500 [2595] 1.09 1.22 1.04 0.28 [.07] 0.40 [.10] 1.37 [.34] 1.25 [.31] 5600 [2643] 1.09 1.23 1.04 0.29 [.07] 0.42 [.10] 1.42 [.35] 1.30 [.32] 5700 [2690] 1.10 1.24 1.04 0.30 [.07] 0.44 [.11] 1.47 [.37] 1.34 [.33] 5800 [2737] 1.10 1.26 1.04 0.31 [.08] 0.46 [.111 1.52 [.38] 1.38 [.34] 5900 [2784] 1.10 1.27 1 1.05 0.32 [.08] 0.48 [.12] 1.56 [.39] 1.42 [.35] 6000 [2831 ] 1 1.11 1.28 1 1.05 0.33 [.08] 0.51 [.13] 1.60 [.40] 1.45 [.36] 1 --ply wlIoUwn inuwf umns Ylu" penuimanue uata iesunmg sensue capacity cannot exceea total capacity. Designates Metric Conversions AIRFLOW PERFORMANCE -12.5 TON [43.9 kW] - 60 Hz - SIDEFLOW Air Model RACDZ'150" Voltage 208/230 460 575 — 3 phase 60 Hz AK71 H AK79H Motor Sheave 1 VL44"7/8 1 VP60' 1x1 /2 Belt A48 A52 Turns Open 0 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 5 RPM 1 1002 1 955 1 909 1 862 1 813 1 765 1 1208 1 1171 1 1127 1 1084 1 1038 995 Flow External Static Pressure—Inches of Water Wal CFM [L/s1 0.1 021 0.2 05J 0.3 1.071 0.4 (.10) 0.5 [.121 0.6 15] 0.7 [.171 0.8 [.201 0.9 [.221 1.0 [.25J 1.1 [.271 1.2 30] 1.3 [.321 1.4 [.351 1.5 1.371 1.6 (.401 1.7 1.421 1.8 [.451 1.9 [.471 2.0 [.501RPMTWRPMJWJRPMJWRPMWRPMWRPMWRPMWRPMWRPMWRPMWRPMWRPMWIRPMWRPMJWRPMWRPMJWIRPMWRPMJWIRPMWRPMW 000 1888 I - 791 117571 819 11824 846 1892 872 1961 897 2031 922 2101 946 2173 970 2245 993 2318 1015 2392 1036 2467 1057 2542 1077 2619 1096 2696 1115 2774 1133 2853 1150 2933 1167 3014 1183 3095 100 [1935. 782 11773 809 1841 836 1911 863 1982 888 2053 913 2125 937 2198 961 2272 984 2346 1006 2422 1027 2498 1048 2576 1068 2654 1088 2733 1106 2812 1124 2893 1142 2975 1158 3057 1174 3140 1189 3224 200 1982 801 11860 828 1932 854 2004 880 2077 905 2150 929 2225 952 2300 975 2377 997 2454 1019 2532 1040 2611 1060 2691 1079 2771 1098 2853 1116 2935 1133 3018 1150 3102 1166 3187 1181 3272 1196 3359 300 2029 819 1954 845 2028 871 2102 896 2177 920 2254 944 2331 967 2409 989 2488 1011 2567 1032 2648 1052 2729 1071 2811 1090 2894 1108 2978 1125 3063 1142 3149 1158 3235 1174 3323 1188 3411 1202 3500 400 2076 837 2053 863 2129 888 2207 912 2284 936 2363 959 2443 981 2523 1003 2605 1024 2687 1044 2770 1064 2854 1082 2938 1101 3024 1118 3110 1135 3197 1151 3286 1166 3375 1181 3464 1195 3555 1208 3646 500 2123 855 2159 880 2237 905 23171 929 123971 952 2479 974 125611 996 2644 1016 2727 1037 2812 1056 2897 1075 2984 1093 3071 1111 3159 1128 3248 1144 3338 1159 3428 1174 3520 1188 3612 1201 3705 1214 3799 600 2171 873 2270 898 2351 921 2433 944 125161 967 2600 988 2684 1009 2770 1030 2856 1049 2943 1068 3031 1086 3120 1104 3210 1121 3300 1137 3392 1152 3484 1167 3577 1181 3671 1195 3766 1207 3861 1219 3958 700 2218 891 23871 914 124711 938 2556 960 126411 982 2727 1003 2814 1023 2902 1043 2991 1062 3080 1080 3171 1097 3262 1114 3354 1130 3447 1146 3541 1161 3636 1175 3732 1188 3828 1201 3925 1213 4023 - - 800 2265 908 25111 931 125971 954 2684 975 2772 996 2860 017 2950 1036 3040 1055 3132 1074 3224 1091 3317 1108 3410 1124 3505 1140 3601 1155 3697 1169 3794 1182 3892 1195 3991 1207 4091 1219 4191 - - 900 2312 925 2640 947 2729 969 2818 990 2908 1011 3000 1031 3092 1050 3184 1068 3278 1086 3373 1102 3468 1119 3565 1134 3662 1149 3760 1163 3859 1177 3958 1190 4059 1202 4160 1213 4262 - - - 000 2359 942 2775 964 2866 985 2958 1005 3051 1025 3145 1044 3239 1062 3335 1080 3431 1097 3526 1113 3626 1129 3725 1144 3824 1158 3925 1172 4026 1185 4128 1197 4231 1208 4335 1219 4440 - - - - 100 2407 958 2916 979 3010 1000 3104 1020 3200 1039 3296 1057 3393 1075 3491 1092 3589 1108 3689 1124 3789 1139 3891 1153 3993 1167 4096 1180 4200 1192 4304 1204 4410 1214 4516 - - - - - 200 2454 975 3063 995 3160 1015 3256 1034 3354 1053 3453 1070 3552 1087 3653 1104 3754 1120 3856 1135 3959 1149 4063 1162 4167 1175 4273 1188 4379 1199 4486[ 216 4594 1220 4703 - - - 300 2501 991 3217 1010 3315 1030 3415 1048 3515 1066 3616 1083 3718 1100 3821 1115 3924 1130 4029 1145 4134 1158 4241 1171 4348 1184 4456 1195 4564 1206 4674 4785 400 2548 1006 3376 1026 3477 1044 3579 1062 3681 1079 3785 1096 3889 1111 3995 1126 4101 1141 4208 1155 4316 1168 4425 1180 4534 1192 4645 1203 4756 1213 4868 500 2595 1022 3541 1040 3644 1058 3749 1075 3854 1092 3960 1108 4067 1123 4175 1137 4283 1151 4393 1164 4503 1177 4614 1188 4726 1199 4839 1210 4953 1219 5068 600 2643 1037 3712 1055 3818 1072 3924 1089 4032 1105 4141 1120 4250 1134 4361 1148 4472 1161 4584 1174 4697 1185 4810 1196 4925 1207 5040 1216 5156 700 2690 1052 3888 1069 3997 1086 4106 1102 4217 1117 4328 1132 4440 1145 4552 1159 4666 1171 4780 1183 4896 1194 5012 1204 5129 1214 5247 800 2737 1067 4071 1083 4182 1099 4294 1115 4407 1129 4520 1143 4635 11564750 1169 4866 1181 4983 1192 5101 1202 5220 1212 5339 1221 5460 goo900 2784 1081 4260 1097 4374 1113 4488 1127 4603 1141 4719 1154 4836 1167 4954 11 5073 1190 5192 1200 5312 1210 5433 1219 5555 17— 000 2831 1095 4455 1111 4571 1126 4688 1139 4805 1153 4924 1165 5043 1177 5164 1188 5285 1199 5407 1209 5529 1218 5653 - Nut t: A/t-unve rentoT me ooia une, 1i/u-unve ngnt or ooia Imes. Drive Package A/F B/G Motor H.P. [W] 3 [2237.1] 5 [3728.5] Blower Sheave AK71 H AK79H Motor Sheave 1 VL44"7/8 1 VP60' 1x1 /2 Belt A48 A52 Turns Open 0 1 2 1 3 1 4 1 5 1 0 1 1 1 2 1 3 1 4 5 RPM 1 1002 1 955 1 909 1 862 1 813 1 765 1 1208 1 1171 1 1127 1 1084 1 1038 995 11V w. i. V06W1y snaavc seumys die JIIUWII If umu ryye. 2. Do not set motor sheave below minimum or maximum turns open shown. 3. Re -adjustment of sheave required to achieve rated airflow at AHRI minimum External Static Pressure 4. Add component resistance (below) to duct resistance to determine total External Static Pressure. Designates Metric Conversions AIRFLOW PERFORMANCE -12.5 TON [43.9 kW] - 60 Hz - SIDEFLOW (con't.) Airflow AIRFLOW CORRECTION FACTORS * Wet Coil COMPONENT AIRFLOW RESISTANCE Concentric Diffuser Horizontal Economizer RXRN-AEF3618 & RA Damper Open Concentric Adapter RXMC-0003 (Flush) Concentric Diffuser RXRN-AED3618 & Concentric Adapter RXMC-DD03 (Drop) CFM [L/sl Total MBH Sensible MBH Power kW Resistance - Inches of Water [kPa] 4000 [1888] 1.01 1.03 1.01 0.15 [.04] 0.16 [.04] 0.76 [.19] 0.68 [.17] 4100 [1935] 1.02 1.04 1.01 0.16 [04] 0.17 [.04] 0.79 [.20] 0.72 [.18] 4200 [1982] 1.02 1.06 1.01 0.17 [.04] 0.19 [.05] 0.82 [.20] 0.75 [.19] 4300 [2029] 1.03 1.07 1.01 0.17 [04] 0.20 [.05] 0.86 [.21] 0.79 [.20] 4400 [2076] 1.03 1.08 1.01 0.18 [.05] 0.21 [.05] 0.90 [.22] 0.83 [.21] 4500 [2123] 1.04 1.09 1.02 0.19 [.05] 0.23 [.06] 0.94 [.23] 0.86 [.21] 4600 [2171] 1.04 1.11 1.02 0.20 [.05] 0.24 [.06] 0.98 [.24] 0.89 [.22] 4700 [2218] 1.05 1.12 1.02 0.21 [.05] 0.26 [.06] 1.02 [.25] 0.94 [.23] 4800 [2265] 1.05 1.13 1.02 0.21 [.05] 0.28 [.07] 1.06 [26] 0.98 [.24] 4900 [2312] 1.06 1.14 1.02 0.22 [.06] 0.29 [.07] 1.10 [.27] 1.01 [.25] 5000 [2359] 1.06 1.16 1.03 0.23 [.06] 0.31 [.08] 1.14 [.28] 1.04 [.26] 5100 [2407] 1.07 1.17 1.03 0.24 [.06] 0.33 [.08] 1.18 [.29] 1.07 [.27] 5200 [2454] 1.07 1.18 1.03 0.25 [.06] 0.35 [.09] 1.22 [.30] 1.10 [.27] 5300 [2501 ] 1.08 1.19 1.03 0.26 [.06] 0.36 [.09] 1.27 [.32] 1.15 [.29] 5400 [2548] 1.08 1.21 1.03 0.27 [.07] 0.38 [.09] 1.33 [.33] 1.20 [.30) 5500 [2595] 1.09 1.22 1.04 0.28 [.07] 0.40 [.10] 1.37 [.34] 1.25 [.31] 5600 [2643] 1.09 1.23 1.04 0.29 [.07] 0.42 [.10] 1.42 [.35] 1.30 [.32] 5700 [2690] 1.10 1.24 1.04 0.30 [.07] 0.44 [.11] 1.47 [.37] 1.34 [.33] 5800 [2737] 1.10 1.26 1.04 0.31 [.08] 0.46 [.11] 1.52 [.38] 1.38 [.34] 5900 [2784] 1.10 1.27 1.05 0.32 [.08] 0.48 [.12] 1.56 [.39] 1.42 [.35] 6000 [2831] 1.11 1.28 1.05 1 0.33 [.08] 0.51 [.13] 1.60 [.40] 1.45 [.36] munip y wrrecaon tactor umes gross penormance aata resumng sensmie capacity cannot exceea total capacity. Designates Metric Conversions 0. 00 • . . . . . . 00 • 0 00 000 . . .. .. Electrical Data AACD Series 1 54 RELY ON RUUD." ELECTRICAL DATA - RACDZR SERIES 090ACA 090ACB 090ACC 090ADA 090ABB 090ADC 090AYA 09DAYB 090AYC Unit Operating Voltage Range 187-253 187-253 414-506 414-506 517-633 517-633 517-633 Volts 2081230 208/230 460 460 575 575 575 Phase 3 3 3 3 3 3 3 E 0 Hz 60 60 60 60 60 60 60 Minimum Circuit Ampacity 41 43 21 23 16 17 17 Minimum Overcurrent 50 50 25 30 20 20 20Protection=Device Size Maximum Overcurrent 60 60 30 35 25 25 25ProtectionDeviceSize No. 1 1 1 1 1 1 1 Volts 208/230 208/230 460 460 575 575 of 60&*575 Phase 3 3 3 3 3 3 3 w RPM 3450 3450 3450 3450 3450 3450 4 9 3450 m E HP, Compressor 1 7 7 7 7 7 7 7 Amps (RLA), Comp. 1 25 25 12.8 12.8 9.6 99-49.6 9,6 Amps (LRA), Comp. 1 164 164 100 100 78 78 78 No. 2 2 2 2 2 2 2 C2 Volts 208/230 208/230 460 460 575 575 575 m Phase 1 1 1 1 1 1 m HP 1/5 1/5 1/5 1/5 1/5 1!5 1/5 Amps (FLA, each) 1.2 1.2 0.8 0.8 0.6 0.6 0.6 Amps (LRA, each) 2.3 2.3 1.4 1.4 1.1 1.1 1.1 No. 1 1 1 1 1 1 1 Volts 208/230 208/230 460 460 575 575 575 o is Phase 3 3 3 3 3 3 3 o HP 2 3 2 3 2 3 3 W Amps (FLA, each) 6.6 9.1 3.3 4.6 2.5 3.5 3.5 Amps (LRA, each) 47 74.5 22.5 38.1 19 20 20 1 54 RELY ON RUUD." Electrical Data RACD Series ELECTRICAL DATA - RACDZR SERIES 102ACA 102ACB 102ACC 102AOA 102ADB 102ADC 102AYA 102AYB 102AYC Unit Operating 187-253 187-253 187-253 414-506 414-506 414-506 517-633 517-633 517-633VoltageRange Volts 208/230 208/230 208/230 460 460 460 575 575 575 Phase 3 3 3 3 3 3 3 3 3 0 Hz 60 60 60 1 60 60 60 60 60 60 Minimum Circuit Ampacity 44 46 49 22 23 24 16 17 17 Minimum Overcurrent 60 60 60 25 30 30 20 20 20ProtectionDeviceSize Maximum Overcurrent 0 70 70 30 35 35 25 25 25ProtectionDeviceSize No. 1 1 1 1 1 1 1• 1••• o 0 Volts 208/230 209/230 208/230 460 460 460 675 • Wii • • 575 • Phase 3 3 3 3 3 3 0003000 B••• 3i••• w RPM 3450 3450 3450 3450 3450 3450 ASM 0 34500 3450 HP, Compressor 1 71/2 71/2 71/2 71/2 71/2 71/2.71'/2 1/ • 7 t/2 E Amps (RLA), Comp.1 27.6 27.6 27.6 12.8 12.8 12.8 9 6' 9.600 9.0000 Amps (LRA), Comp.1 191 191 191 100 100 100 78 ;'; A* 0 No. 2 2 2 2 2 2 Z Volts 208/230 208/230 208/230 460 460 460 96 • 575 575 m Phase 1 1 1 1 1 1 1 1* 0 0 1 0 HP 1/5 1/5 1/5 1/5 1/5 1/5 JF5 • 1>16••• o Amps (FLA, each) 1.2 1.2 1.2 0.8 0.8 0.8 0.6 0.6 Amps (LRA, each) 2.3 2.3 2.3 1.4 1.4 1.4 1.1 1.1 1.1 No. 1 1 1 1 1 1 1 1 1 LL Volts 208/230 208/230 208/230 460 460 460 575 575 575 is Phase 3 3 3 3 3 3 3 3 3 o a HP 2 3 3 2 3 3 2 3 3 W Amps (FLA, each) 7.1 9.1 12 3.5 4.6 6 2.5 3.5 1 3.5 Amps (LRA, each) 45 74.5 74.5 22.5 38.1 38.1 19 20 20 Electrical Data RACD Series 56 RELY ON RUUD.'" ELECTRICAL DATA - RACDZR SERIES 120ACA 120ACB 120ACC 120ADA 120ADB 120ADC 12DAYA 120AYB 120MC Unit Operating Voltage Range 187-253 187-253 187-253 414-506 414-506 414-506 517-633 518-632 518-632 Volts 208/230 208/230 208/230 460 460 460 575 575 575 Phase 3 3 3 3 3 3 3 3 3 E 0 Hz 60 60 1 60 60 60 60 60 60 60 Minimum Circuit Ampacity 48 51 53 26 27 28 19 20 20 Minimum Overcurrent 60 60 60 30 30 35 25 25 25ProtectionDeviceSize Maximum Overcurrent 70 70 80 35 40 40 25 30 30ProtectionDeviceSize No. 1 1 1 1 1 1 61 • 1• 1 •. o Volts 208/230 208/230 208/230 460 460 460 576• 575 • • • • 575 Phase 3 3 3 3 3 3 3••• 3 •••A3450RPM3450345034503450345034503456 • • 3450 • HP, Compressor 1 10 10 10 10 10 10 b'•• 1 • Amps RLA), Comp. 1 28.2 28.2 28.2 14.7 14.7 14.7 11'.g" 11S • Amps LRA), Comp. 1 239 239 239 130 130 130 93J' ; No. 2 2 2 2 2 2 2 2 2 Volts 208/230 208/230 208/230 460 460 460 675 • 575 575 m Phase 1 1 1 1 1 1 1 1• ••• • 1 m HP 1/3 1/3 1/3 1/3 1/3 1/3 4443a • 1/3 1/3 •• CX Amps (FLA, each) 2.4 2.4 2.4 1.4 1.4 1.4 1 1• • • 1 Amps (LRA, each) 4.7 4.7 4.7 2.4 2.4 2.4 4.7 4.7 4.7 No. 1 1 1 1 1 1 1 1 1 U - Volts 208/230 208/230 208/230 460 460 460 575 575 575 R Phase 3 3 3 3 3 3 3 3 3 CL HP 2 3 3 2 3 3 2 3 3 W Amps (FLA, each) 7.9 10.1 12 3.9 5 6 2.5 3.5 3.5 Amps (LRA, each) 45 74.5 74.5 22.5 38.1 38.1 19 20 20 56 RELY ON RUUD.'" Electrical Data RACD Series ELECTRICAL DATA - RACDZS SERIES 090ACB 090ABB 090ACA 090ACG 090ADA 090ADC 090AYA 090AYB 090AYC090ACF090ACH090ADF090ADG 090ACC 090ADH Unit Operating Voltage Range 187-253 187-253 414-506 414-506 517-633 517-633 517-633 Volts 208/230 208/230 460 460 575 575 575 w Phase 3 3 3 3 3 3 3 E O Hz 60 60 60 60 60 60 60 Minimum Circuit Ampacity 41 44 17 19 13 14 14 Z Minimum Overcurrent 50 50 20 25 15 20 20ProtectionDeviceSize Maximum Overcurrent 60 60 25 25 15 20 • • 20ProtectionDeviceSize No. 1 1 1 1 1 1 •• 1 • Z Volts 208/230 208/230 460 460 575 575 • • 575 00000 Phase 3 3 3 3 3 3 3• w RPM 3450 3450 3450 3450 3450 3450 " 00 34500 6 HP, Compressor 1 7 7 7 7 7 7 Amps (RLA), Comp. 1 25.3 25.3 9.6 9.6 7.1 7.1 . 7 Amps (LRA), Comp. 1 184 184 84 84 60 60 10' 0:' 6 No. 2 2 2 2 2 2 Z Volts 208/230 208/230 460 460 575 5755 m Phase 1 1 1 1 1 1 . • 1 0000 coco HP 1/5 1/5 1/5 1/5 1/5 1/5 ' 1/5 a Amps (FLA, each) 1.2 1.2 0.8 0.8 0.6 0.6 0.6 Amps (LRA, each) 2.3 2.3 1.4 1.4 1.1 1.1 1.1 No. 1 1 1 1 1 1 1 U.Volts 208/230 208/230 460 460 575 575 575 o is Phase 3 3 3 3 3 3 3 o HP 2 3 2 3 2 3 3 W Amps (FLA, each) 6.6 9.1 3.2 9.1 2.5 3.5 3.5 Amps (LRA, each) 22.5 74.5 22.5 38.1 1 19 20 20 Electrical Data RACD Series ELECTRICAL DATA - RACDZS SERIES 102ACA 102ACB 102ACC 102ADA 102ADB 102ADC 102ADH 102AYA 102AYB 102AYC102ACF102ACG102ACH102ADF102ADG Unit Operating 187-253 187-253 187-253 414-506 414-506 414-506 414-506 517-633 517-633 517-633VoltageRange Volts 208/230 208/230 208/230 460 460 460 460 575 575 575 Phase 3 3 3 3 3 1 3 3 3 1 3 3 E 0 Hz 60 60 60 60 60 60 60 60 60 60 Minimum Circuit 46 48 51 21 22 24 24 16 17 17 Minimum Overcurrent 60 60 60 25 25 30 30 20 20 20ProtectionDeviceSize Maximum Overcurrent 70 70 70 30 30 35 35 25 25 25ProtectionDeviceSize No. 1 1 1 1 1 1 1 1 06 1 S 0 Volts 208/230 208/230 208/230 460 460 460 460 5 S • 575 575 Phase 3 3 3 3 3 3 3 S 3 CDgoca RPM 3450 3450 3450 3450 3450 3450 3450 9¢j).. 3450 3450 EHP, Compressor 1 71/2 71/2 71/2 71/2 71/2 71/2 71/2 7.1 7 j/ 7 1/2-- 2•- v AmpsAmps (RLA), Comp. 1 28.8 28.8 28.8 12.5 12.5 12.5 12.5 2.30 7 ' . 9.7 .. Amps (LRA), Comp.1 191 191 191 100 100 100 100 9047400 70, • 70 .. 0 No. 2 2 2 2 2 2 2 2• • 2 .. o Volts 208/230 208/230 208/230 460 460 460 460 59f• • 575 • 575 d Phase 1 1 1 1 1 1 1 1 • 1 1•• m HP 1/5 1/5 1/5 1/5 1/5 1/5 1/5 1/.5'. T/5 1/5 • Amps (FLA, each) 1.2 1.2 1.2 0.8 0.8 0.8 0.8 0.6 ' QQ • 0.6 • Amps (LRA, each) 2.3 2.3 2.3 1.4 1.4 1.4 1.4 1.1 1.T' 1.1 No. 1 1 1 1 1 1 1 1 1 1 c i Volts 208/230 208/230 208/230 460 460 460 460 575 575 575 o R Phase 3 3 3 3 3 3 3 3 3 3 CL HP 2 3 3 2 3 3 3 2 3 3 W Amps (FLA, each) 7.1 9.1 12 3.5 9.1 9.1 12 2.5 3.5 3.5 Amps (LRA, each) 45 74.5 74.5 22.5 38.1 38.1 38.1 19 20 20 Electrical Data RACD Series ELECTRICAL DATA - RACDZS SERIES 120ACA 120ACB 120ACC 120ADA 120ABB 120ADC 120AYA 120AYB 120AYC120ACF120ACG120ACH120ADF120ADG120ADH Unit Operating 187-253 187-253 187-253 414-506 414-506 414-506 517-633 518-632 518-632VoltageRange Volts 208/230 208/230 208/230 460 460 460 575 575 575 is Phase 3 3 3 3 3 3 3 3 3 0 Hz 60 60 60 60 60 60 60 60 60 Minimum Circuit Ampacity 54 56 58 26 27 28 19 20 20 Minimum Overcurrent 70 70 70 30 35 35 25 25 25ProtectionDeviceSize Maximum Overcurrent 80 80 90 40 40 40 25 30 30ProtectionDeviceSize No. 1 1 1 1 1 1 1 f••• 1 o Volts 208/230 208/230 208/230 460 460 460 0.576 ; 57 575 Phase 3 3 3 3 3 3 i... 3 w RPM 3450 3450 3450 3450 3450 3450 41Z. 3450. 34V EHP, Compressor 1 10 10 10 10 10 10 44 • 01.0 . Amps (RLA), Comp.1 32.6 32.6 32.6 14.8 14.8 14.8 14.4 • 11.7 • . 11 J. • • Amps (LRA), Comp.1 240 240 240 130 130 130 496'• • 93t7 • •4 93o'• • • No. 2 2 2 2 2 2 200 Z• 2•••• Volts 208/230 208/230 208/230 460 460 460 0' 0 575 0 575rE t Phase 1 1 1 1 1 1 1 ' l •; 1• ••• m HP 1/3 1/3 1/3 1/3 1/3 1/3 1/3 . g Amps (FLA, each) 2.4 2.4 2.4 1.4 1.4 1.4 1 1'.' 1' Amps (LRA, each) 4.7 4.7 4.7 2.4 2.4 2.4 4.7 47 4.7 No. 1 1 1 1 1 1 1 1 1 U - Volts 208/230 208/230 208/230 460 460 460 575 575 575 o is Phase 3 3 3 3 3 3 3 3 3 o CL HP 2 3 3 2 3 3 2 3 3 W Amps (FLA, each) 7.9 10.1 12 3.9 5.1 6.0 2.5 3.5 3.5 Amps (LRA, each) 1 45 74.5 74.5 22.5 38.1 38.1 19 20 20 Electrical Data RACD Series 60 RELY ON Ruuo.TM ELECTRICAL DATA - RACDZS SERIES 150ACA 150ACB 150ACF 150ADA 150ADB 150AYA 150AYB150ACG150ADF150ADG Unit Operating Voltage Range 187-253 187-253 187-253 414-506 414-506 518-632 518-632 Volts 208/230 208/230 208/230 460 460 575 575 Phase 3 3 3 3 3 3 3 E 0 Hz 60 60 60 60 60 60 60 Minimum Circuit Ampacity 70 75 70 34 37 25 27 Minimum Overcurrent 80 90 80 40 40 30 30ProtectionDeviceSize Maximum Overcurrent 90 90 90 40 45 30 30ProtectionDeviceSize No. 2 2 2 2 2 2 2 Volts 208/230 208/230 208/230 460 460 575 575 Phase 3 3 3 3 3 3 3 RPM 3450 3450 3450 3450 3450 3450 3450 o HP, Compressor 1 6 6 6 6 6 6 6 m Amps (RLA), Comp. 1 22.4 22.4 22.4 10.6 10.6 7.7 7.7 CL Amps (LRA), Comp. 1 164 164 164 100 100 78 78 HP, Compressor 2 0 0 0 0 0 0 0 Amps (RLA), Comp. 2 22.4 22.4 22.4 10.6 10.6 7.7 7.7 Amps (LRA), Comp. 2 164 164 164 100 100 78 78 No. 2 2 2 2 2 2 2 Volts 208/230 208/230 208/230 460 460 575 575 m Phase 1 1 1 1 1 1 1 m HP 3/4 3/4 3/4 3/4 3/4 3/4 3/4 o Amps (FLA, each) 4.2 4.2 4.2 2.3 2.3 1.2 1.2 Amps (LRA, each) 10.1 10.1 10.1 4.9 4.9 No. 1 1 1 1 1 1 1 U Volts 208/230 208/230 208/230 460 460 575 575 o Phase 3 3 3 3 3 3 3 a HP 3 5 3 3 5 3 5 W Amps (FLA, each) 10.4 16 10.4 5.2 8 4.4 5.9 Amps (LRA, each) 74.5 82 74.5 38.1 41 20 38 60 RELY ON Ruuo.TM Electrical Data RACD Series RELY ON F2UUD.TM 61 ELECTRICAL DATA - ACDZT SERIES 090ACf 090ACG 090ADF 090ADG MACH 090ADH Unit Operating 187-253 187-253 414-506 414-506VoltageRange Volts 208/230 208/230 460 460 Phase 3 3 3 3 o Hz 60 60 60 60 Minimum Circuit Ampacity 41 44 17 21 Minimum Overcurrent 50 0 20 30ProtectionDeviceSize Maximum Overcurrent 60 60 25 30ProtectionDeviceSize No. 1 1 1• 61 S0 Volts 208/230 208/230 46%.' ; 460 Phase 3 3 39 • • • • • 3 RPM 3450 3450 3450• • . • . 3450 m E HP, Compressor 1 7 7 7 • . • • 7 0 Amps (RLA), Comp.1 25.3 25.3 9.6 • • • • 6 Amps (LRA), Comp.1 184 184 84 • • • • • 84 No. 2 2 20• •• 06 •2 0060 Volts 208/230 208/230 460";'; 460 m Phase 1 1 1' m HP 1/5 1/5 1/ • • 1/5 0. 0 Ams FLA, each 1.2 1.2 0.8 0.8 Amps (LRA, each) 2.3 2.3 1.4 1.4 No. 1 1 1 1 Volts 208/230 208/230 460 460 a is Phase 3 3 3 3 CL HP 2 3 2 3 W Amps (FLA, each) 6.6 9.1 3.2 4.6 Amps (LRA, each) 22.5 74.5 22.5 38.1 RELY ON F2UUD.TM 61 Electrical Data RACD Series 62 RELY ON RUUD.TM ELECTRICAL DATA - ACDZT SERIES 102ACF 102ACG 102ACH 102ADF 102ADG 102ADH Unit Operating Voltage Range 187-253 187-253 187-253 414-506 414-506 414-506 Volts 208/230 208/230 208/230 460 460 460 Phase 3 3 3 3 3 3 E 0 Hz 60 60 60 6ii 60 60 Minimum Circuit Ampacity 46 48 51 21 22 24 Minimum Overcurrent 60 60 60 25 25 30ProtectionDeviceSize Maximum Overcurrent 70 70 70 30 30 35ProtectionDeviceSize No. 1 1 1 1 1 1 o Volts 208/230 208/230 208/230 460 460 460 Phase 3 3 3 3 31 3 FA RPM 3450 3450 3450 3450 3450 60-3450 m E HP, Compressor 1 71/2 71/2 71/2 71/2 10172 71/2 Amps (RLA), Comp. 1 28.8 28.8 28.8 12.5 T?•5 10, • 2.5 Amps (LRA), Comp. 1 191 191 191 100 900100 100 No. 2 2 2 2 2 Volts 208/230 208/230 208/230 460 460 460 Phase 1 1 1 1 f 1 m HP 1/5 1/5 1/5 1/5 1/5 00001/5 Amps (FLA, each) 1.2 1.2 1.2 0.8 0.8CjAmps (LRA, each) 2.3 2.3 2.3 1.4 1.4 1.4 No. 1 1 1 1 1 1 i Volts 208/230 208/230 208/230 460 460 460 Phase 3 3 3 3 3 3 a HP 2 3 3 2 3 3 W Amps (FLA, each) 7 9.1 12 3.5 4.6 6.0 Amps (LRA, each) 45 74.5 74.5 22.5 1 38.1 38.1 62 RELY ON RUUD.TM Electrical Data RACD Series ELECTRICAL DATA - ACDZT SERIES 120ACF 120ACG 120ACH 120ADF 120ADG 120ADH Unit Operating 187-253 187-253 187-253 414-506 414-506 414-506VoltageRange Volts 208/230 208/230 208/230 460 460 460 Phase 3 3 3 3 3 3 E 0 Hz 60 60 60 60 60 Minimum Circuit Ampacity 54 56 58 26 27 28 Minimum Overcurrent 70 70 70 30 35 35ProtectionDeviceSize Maximum Overcurrent 80 80 90 40 40 40ProtectionDeviceSize No. 1 1 1 1 1 1 o Volts 208/230 208/230 208/230 460 460 460 • • • • Phase 3 3 3 3 10 • 3 3 • RPM 3450 3450 3450 3450 010• • • 8450 3450 • ++ • EHP, Compressor 1 10 10 10 10 10 10 • 0 Amps (RLA), Comp.1 32.6 32.6 32.6 14.8 14.8; 14.8 • Amps (LRA), Comp. 1 240 240 240 130 130 130 • • • • o No. 2 2 2 2 T"T 2 2 • ' • Z Volts 208/230 208/230 208/230 460 460 460 m Phase 1 1 1 1 1 1 m HP 1/3 1/3 1/3 1/3 1/3 1/3 o Amps (FLA, each) 2.4 2.4 2.4 1.4 1.4 1.4 • • • • Amps (LRA, each) 4.7 4.7 4.7 2.4 2.4 2.4 No. 1 1 1 1 1 1 i Volts 208/230 208/230 208/230 460 460 460 o R Phase 3 3 3 3 3 3 o CL HP 2 3 3 2 3 3 W Amps (FLA, each) 7.9 10.1 12 3.9 5.1 6.0 Amps (LRA, each) 45 74.5 74.5 22.5 38.1 38.1 Electrical Data RACD Series 64 RELY ON RUUD." ELECTRICAL DATA - ACDZT SERIES 150ACF 150ACG 150ADF 150ADG Unit Operating Voltage Range 187-253 187-253 414-506 414-506 Volts 208/230 208/230 460 460 Phase 3 3 3 @ Hz 60 60 60 60 Minimum Circuit Ampacity 70 75 39 Minimum Overcurrent 80 90 40 40 • Protection Device Size Maximum Overcurrent 90 90 40 45.' Protection Device Size No. 2 2 2 0 ' Volts 208/230 208/230 460 00"1160 w Phase 3 3 3 0 ;' RPM 3450 3450 3450 346 0 HP, Compressor 1 6 6 6 6 • sp Amps (RLA), Comp. 1 22.4 22.4 10.6 10!6 • CL Amps (LRA), Comp. 1 164 164 100 100 HP, Compressor 2 0 0 0 0 Amps (RLA), Comp. 2 22.4 22.4 10.6 10.6 Amps (LRA), Comp. 2 164 164 100 100 o No. 2 2 2 2 Volts 208/230 208/230 460 460 Phase 1 1 1 1 m HP 3/4 3/4 3/4 3/4 g Amps (FLA, each) 4.2 4.2 2.3 2.3 Amps (LRA, each) 10.1 10.1 4.9 4.9 No. 1 1 1 1 i Volts 208/230 208/230 460 460 o is Phase 3 3 3 3 CL HP 3 5 3 5 W Amps (FLA, each) 10.4 16 5.2 8 Amps (LRA, each) 74.5 82 38.1 41 64 RELY ON RUUD." 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACOZ- Nominal kW Steps @ 208/240 V 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V@208V@240V @208V 240V No Heat 41/41 50/60 50/60 41/41 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 41/41 50/50 50/60 26/30 30/30 41/41 50/60 50/60 R090ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 46/52 50/50 60/60 38/44 40/45 41/41 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 60/68 60/60 70/70 52/60 60/60 41/41 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/95 90/90 100/100 75/87 80/90 41/41 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 110/125 1 41/41 50/60 50/60 No Heat 43/43 50/60 50/60 43/43 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 43/43 50/50 50/60 26/30 30/30 43/43 50/60 50/60 R090ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 43/43 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 43/43 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 43/43 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 1 110/125 43/43 50/60 50/60 No Heat 43/43 50/60 50/60 43/43 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 43/43 50/60 50/60 26/30 30/30 43/43 50/60 50/60 R090ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 43/43 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 43/43 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 43/43 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 43/43 50/60 50/60 No Heat 44/44 60170 60/70 44/44 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 60170 60/70 26/30 30/30 44/44 60/70 60/70 R102ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 47/53 60/70 60/70 38/44 40/45 44/44 60/70 60!70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 61/69 70170 70/70 52/60 60/60 44/44 60170 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/96 90/90 100/100 75/87 80/90 44/44 60170 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 1 110/125 44/44 60/70 60/70 No Heat 46/46 60/70 60/70 46/46 60/70 60/70 DD10CP 1 7.4/9.9 7.4/9.9 20.6/23.8 46/46 60/70 60/70 26/30 30/30 46/46 60/70 60/70 R102ACB D015CP 1 10.8/14.4 10.8/14.4 30.0/34.6 49/55 60170 60170 38/44 40/45 46/46 60/70 60/70 DD20CP 1 14.9/19.8 14.9/19.8 41.3/47.6 63/71 70170 80/80 52/60 60/60 46/46 60170 60/70 DD30CP 1 21.6/28.8 21.6/28.8 60.0/69.3 87/98 90/90 100/100 75/87 80/90 46/46 60170 60/70 DD40CP 1 29.7/39.6 29.7/39.6 1 82.5/95.2 115/131 125/125 150/150 104/119 110/125 46/46 60/70 1 60/70 No Heat 49/49 60170 60/70 49/49 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 49/49 60170 60/70 26/3030430 49/49 60/70 60/70 R102ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/70 60170 38/44 • 0 010:45: X49/49 0 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67175 70/70 80/80 52/60 ' a0• * : 2949.: 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 0 8X0'•; 19/19 ; 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 119/134 1 125/125 1 150/150 104/119 110/125 49/49 60/70 60!70 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. MM off 3_ M mNr f-30:0 g. 0: • 0 • 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Heater Kit Air Conditioner Heater Kit Air Conditioner Unit Model Rte- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACOZ- Nominal kW Steps @ 208/240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V @ 208 V @ 240 V @ 208 V 4t! 240 V No Heat 48/48 60170 60/70 48/48 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 48/48 60/60 60/60 26/30 30/30 48/48 60/70 60/70 R120ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 48/54 60/60 60/60 38/44 40/45 48/48 60/70 60110 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 62/70 70/70 70/70 52/60 60/60 48/48 60/70 60no DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 85/97 90/90 100/100 75/87 80/90 48/48 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 113/129 125/125 150/150 104/119 1 110/125 48/48 60/70 60/70 No Heat 51/51 60170 60/70 51/51 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 51/51 60/60 60/60 26/30 30/30 51/51 60170 60/70 R120ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 51/56 60/60 60/60 38/44 40/45 51/51 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 65/73 70/70 80/80 52/60 60/60 51/51 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 51/51 60170 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 116/132 125/125 150/150 104/119 110/125 1 51/51 60/70 60/70 No Heat 53/53 60/80 60/80 53/53 60/80 60/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 53/53 60/60 60/60 26/30 30/30 53/53 60/80 60/80 R120ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/60 60/60 38/44 40/45 53/53 60/80 60/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 60/60 53/53 60/80 60/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 53/53 60/80 60/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 1 110/125 53/53 60/80 60/80 No Heat 41/41 50/60 50/60 41/41 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 41/41 50/50 50/50 26/30 30/30 41/41 50/60 50/60 S090ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 46/52 50/50 60/60 38/44 40/45 41/41 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 60/68 60/60 70/70 52/60 60/60 41/41 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/95 90/90 100/100 75/87 80/90 41/41 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 110/125 41/41 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 S090ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70170 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 44/44 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 S090ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/440/45• 44/g4 • 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 • e0:60• . 44/44 • 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 • W:30.*: 34444.: 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 115/131 1 125/125 1 150/150 1 104/119 0 10_M 21 • 0,114/J4 • 4,050/60 1 50/60 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. Or 0:0 o m o 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Heater Kit Air Conditioner Heater Kit Air Conditioner Unit Model RXJJ- No. of Rated Heater Heater Unit Min. CM. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACDZ- Nominal kW Steps @ 2081240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V @208V @240V @208V @240V No Heat 41/41 50/60 50/60 41/41 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 41/41 50/50 50/50 26/30 30/30 41/41 50/60 50/60 S090ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 46/52 50/50 60/60 38/44 40/45 41/41 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 60/68 60/60 70/70 52/60 60/60 41/41 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/95 90/90 100/100 75/87 80/90 41/41 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 110/125 41/41 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 S090AGG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 44/44 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 S090ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 44/44 50/60 50/60 No Heat 46/46 60/70 60/70 46/46 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 46/46 60/60 60/60 26/30 30/30 46/46 60/70 60/70 S102ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 47/52 60/60 60/60 38/44 40/45 46/46 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 61/69 70/70 70/70 52/60 60/60 46/46 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/96 90/90 100/100 75/87 80/90 46/46 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 112/128 125/125 150/150 104/119 110/125 1 46/46 60/70 60/70 No Heat 48/48 60/70 60/70 48/48 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 48/48 60/60 60/60 26/30 30/30 48/48 60/70 60/70 S102ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 60/60 60/60 38/44 40/45 48/48 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 48/48 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 48/48 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 48/48 60/70 60/70 No Heat 51/51 60/70 60/70 51/51 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 51/51 60/60 60/60 26/30 51/§1 • 60/70 60/70 S102ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/60 60/60 38/44 . 30/30 10:45•. . 451/91 • 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 • 00.'; Z141.: 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 100/110 75/87 8.0:'900„ 0.51/:1 ; 060/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 119/134 1 125/125 1 150/150 104/119 110/125 1 51/51 1 60/70 1 60/70 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. 0 M_ mmN 0:0 •• • 0:0 •• f G j' 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACDZ- Nominal kW Steps @ 208/240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 VCol208V@240V Cal 208 V @ 240 V No Heat 46/46 60/70 60/70 46/46 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 46/46 60/60 60/60 26/30 30/30 46/46 60/70 60/70 S102ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 47/53 60/60 60/60 38/44 40/45 46/46 60[70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 61/69 70170 70/70 52/60 60/60 46/46 60/70 60[70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/96 90/90 100/100 75/87 80/90 46/46 60170 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 1 110/125 46/46 60/70 60/70 No Heat 48/48 60170 60/70 48/48 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 48/48 60/60 60/60 26/30 30/30 48/48 60/70 60/70 S102ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 60/60 60/60 38/44 40/45 48/48 60[70 60/70 0020CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 7060 80/80 52/60 60/60 48/48 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 48/48 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 48/48 60/70 60/70 No Heat 51/51 60170 60/70 51/51 60/70 60/70 OD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 51/51 60/60 60/60 26/30 30/30 51/51 60/70 60/70 S102ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/60 60/60 38/44 40/45 51/51 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 60/60 51/51 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 51/51 60170 60/70 DD40CP 1 29.7/39.6 101.34/135.12 1 82.5/95.2 119/134 125/125 150/150 104/119 1 110/125 51/51 60170 60170 No Heat 54/54 70/80 70/80 54/54 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 54/54 70170 70/70 26/30 30/30 54/54 70/80 70/80 S120ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 54/54 70[10 70/70 38/44 40/45 54/54 70/80 70/80 D020CP 1 14.9/19.8 50.84/67.56 41.3/47.6 62/70 70170 70/70 52/60 60/60 54/54 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 85/97 90/90 100/100 75/87 80/90 54/54 70/80 70/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 113/129 125/125 150/150 104/119 110/125 1 54/54 70/80 70/80 No Heat 56/56 70/80 70/80 56/56 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 56/56 70170 70/70 26/30 30/30 56/56 70/80 70/80 S120ACB DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 56/56 7060 70170 38/44 40/45 56/56 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 65/73 70[70 80/80 52/60 60/60 56/56 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 56/56 70/80 70/80 D040CP 1 29.7/39.6 101.34/135.12 1 82.5/95.2 116/132 125/125 150/150 104/119 110/125 56/56 70/80 70/80 No Heat 58/58 70/90 70/90 58/58 70/90 70/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 58/58 70170 70/70 26/30 30/30 58/58 70/90 70/90 S120ACC DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 58/59 70170 70/70 38/44 4.0445. 58/58 • 70/90 70/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 • 60060• • 8 • 70/90 70/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 • 8A:)0 • • : 18/' 8/,%B-- 70/90 70/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 1 23.; 58/SB : 070/90 70/90 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. 00 0:0 •• • • Mm o4 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACDZ- Nominal kW Steps 0 208/240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V w • • ••• @ 208 V @ 240 V @ 208 V @ 240 V No Heat 54/54 70/80 70/80 54/54 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 54/54 70170 70/70 26/30 30/30 54/54 70/80 70/80 S120ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 54/54 70170 70170 38/44 40/45 54/54 70/80 70/80 OD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 62/70 70/10 70/70 52/60 60/60 54/54 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 85/97 90/90 100/100 75/87 80/90 54/54 70/80 70/80 D040CP 1 29.7/39.6 101.34/135.12 82.5/95.2 113/129 125/125 150/150 104/119 110/125 54/54 70/80 70/80 No Heat 56/56 70/80 70/80 56/56 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 56/56 70/70 70/70 26/30 30/30 56/56 70/80 70/80 S120ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 56/56 70/70 70170 38/44 40/45 56/56 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 65/73 70/10 80/80 52/60 60/60 56/56 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 56/56 70/80 70/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 116/132 125/125 150/150 104/119 110/125 1 56/56 70/80 70/80 No Heat 58/58 70/90 70/90 58/58 70/90 70/90 OD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 58/58 70/70 70/70 26/30 30/30 58/58 70/90 70/90 S120ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 58/59 70/10 70/10 38/44 40/45 58/58 70/90 70/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 60/60 58/58 70/90 70/90 OD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 58/58 70/90 70/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 110/125 58/58 70/90 70/90 No Heat 70/70 80/90 80/90 70/70 80/90 80/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 70/70 80/90 80/90 26/30 30/30 70/70 80/90 80/90 S150ACA DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 70/70 80/90 80/90 38/44 40/45 70/70 80/90 80/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 70/73 80/90 80/90 52/60 60/60 70/70 80/90 80/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 70/70 80/90 80/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 117/132 125/125 150/150 104/119 110/125 70/70 80/90 80/90 No Heat 75/75 90/90 90/90 75/75 90/90 90/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 75/75 90/90 90/90 26/30 30/30 75/75 90/90 90/90 S150ACB D015CP 1 10.8/14.4 36.85/49.13 30.0/34.6 75/75 90/90 90/90 38/44 40/45 75/75 90/90 90/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 75/80 90/90 90/90 52/60 60/60 75/75 90/90 90/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 95/107 100/100 110/110 75/87 80/90 75/75 90/90 90/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 124/139 125/125 150/150 104/119 110/125 75/75 90/90 90/90 No Heat 70/10 80/90 80/90 70/70 80/90 80/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 70/70 80/90 80/90 26/30TO 30 70/j0 80/90 80/90 S150ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 70/70 80/90 80/90 38/44 . 5e e f0/fO • 80/90 80/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 70/13 80/90 80/90 52/60 ' fjpj60••: O/L 80/90 80/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 • 890••; 10/=0 ; 80/90 80/90D040CP129.7/39.6 101.34/135.12 82.5/95.2 1 117/132 1 125/125 1 150/150 1 104/119 110/125 70/70 80/90 80/90 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. Cern tnr) M = m N w • • ••• 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. Rte- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Mtn./Max. RACDZ- Nominal kW Steps @ 208/240 V @ 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V@208V@240V @208V @240V No Heat 75/75 90/90 90/90 75/75 90/90 90/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 75/75 90/90 90/90 26/30 30/30 75/75 90/90 90/90 S150ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 75/75 90/90 90/90 38/44 40/45 75/75 90/90 90/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 75/80 90/90 90/90 52/60 60/60 75/75 90/90 90/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 95/107 100/100 110/110 75/87 80/90 75/75 90/90 90/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 124/139 125/125 150/150 104/119 1 110/125 75/75 90/90 90/90 No Heat 41/41 50/60 50/60 41/41 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 41/41 50/50 50/50 26/30 30/30 41/41 50/60 50/60 T090ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 46/52 50/50 60/60 38/44 40/45 41/41 50/60 50/60 D020CP 1 14.9/19.8 50.84/67.56 41.3/47.6 60/68 60/60 70/70 52/60 60/60 41/41 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/95 90/90 100/100 75/87 80/90 41/41 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 112/128 125/125 150/150 104/119 110/125 41/41 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 T090ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 44/44 50/60 50/60 No Heat 44/44 50/60 50/60 44/44 50/60 50/60 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 44/44 50/50 50/50 26/30 30/30 44/44 50/60 50/60 T090ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 50/50 60/60 38/44 40/45 44/44 50/60 50/60 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 60/60 44/44 50/60 50/60 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 80/90 44/44 50/60 50/60 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 115/131 125/125 150/150 104/119 110/125 44/44 50/60 50/60 No Heat 46/46 60/70 60/70 46/46 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 46/46 60/60 60/60 26/30 30/30 46/46 60/70 60/70 T102ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 47/52 60/60 60/60 38/44 40/45 46/46 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 61/69 70/70 70/70 52/60 60/60 46/46 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 84/96 90/90 100/100 75/87 80/90 46/46 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 1 82.5/95.2 112/128 125/125 150/150 104/119 110/125 46/46 60/70 60170 No Heat 48/48 60/70 60/70 48/48 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 48/48 60/60 60/60 26/30 30/30 48/48 60/70 60/70 T102ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 49/55 60/60 60/60 38/44• 0/45 48/48 60/70 60/70 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 63/71 70/70 80/80 52/60 • 0;60• • 48/48 • 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 87/98 90/90 100/100 75/87 • p140••: 38/4: 60170 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 115/131 1 125/125 1 150/150 1 104/119 1 2J • 48/ ; 4 •'60/70 1 60/70 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. or • • • • ••• • • o N0 M _ N r Cn 208/240 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Neater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt.Max. Fuse Mid. Circuit Over Current Protective Device SizeHeaterKitSequenceHeaterkWKOTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max. Min./Max. Min./Max. RACOZ- Nominal kW Steps @ 208/240 V 0 208/240 V @ 208/240 V @ 208/240 V 208/240 V 208/240 V 208/240 V N 208 V @ 240 V @ 208 V @ 240 V No Heat 51/51 60!10 60/70 51/51 60/70 60/70 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 51/51 60/60 60/60 26/30 30/30 51/51 60/70 60170 T102ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 53/59 60/60 60/60 38/44 40/45 51/51 60/70 60/70 OD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/15 70!10 80/80 52/60 60/60 51/51 60/70 60/70 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 51/51 60/70 60/70 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 1 110/125 51/51 60/70 60/70 No Heat 54/54 70/80 70/80 54/54 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 54/54 70/70 70/70 26/30 30/30 54/54 70/80 70/80 T120ACF DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 54/54 70!10 70/70 38/44 40/45 54/54 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 62/70 70!10 70/70 52/60 60/60 54/54 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 85/97 90/90 100/100 75/87 80/90 54/54 70/80 70/80 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 113/129 125/125 150/150 104/119 110/125 1 54/54 70/80 70/80 No Heat 56/56 70/80 70/80 56/56 70/80 70/80 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 56/56 70/70 70/70 26/30 30/30 56/56 70/80 70/80 T120ACG DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 56/56 70/70 70/70 38/44 40/45 56/56 70/80 70/80 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 65/73 70/70 80/80 52/60 60/60 56/56 70/80 70/80 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/90 100/100 75/87 80/90 56/56 70/80 70/80 D040CP 1 29.7/39.6 101.34/135.12 82.5/95.2 116/132 125/125 150/150 104/119 110/125 56/56 70/80 70/80 No Heat 58/58 70/90 70/90 58/58 70/90 70/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 58/58 70/70 70/70 26/30 30/30 58/58 70/90 70/90 T120ACH DD15CP 1 10.8/14.4 36.85/49.13 30.0/34.6 58/59 70/70 70/70 38/44 40/45 58/58 70/90 70/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 67/75 70/70 80/80 52/60 60/60 58/58 70/90 70/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 90/102 90/90 110/110 75/87 80/90 58/58 70/90 70/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 119/134 125/125 150/150 104/119 1 110/125 58/58 70/90 70/90 NONE 70/70 90/90 90/90 70/70 80/90 80/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 70/70 90/90 90/90 26/30 30/30 70/70 80/90 80/90 150ACF DD15CP 1 9.0/14.4 36.85/49.13 30.0/34.6 70/70 90/90 90/90 38/44 40/45 70/70 80/90 80/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 70/73 90/90 90/90 52/60 60/60 70/70 80/90 80/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 88/100 90/100 90/100 75/87 80/90 70/70 80/90 80/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 117/132 125/150 125/150 104/119 110/125 70/70 80/90 80/90 NONE 75/75 90/90 90/90 75/75 90/90 90/90 DD10CP 1 7.4/9.9 25.25/33.78 20.6/23.8 75/75 90/90 90/90 26/30 75/7.5 • 90/90 90/90 150ACG DD15CP 1 9.0/14.4 36.85/49.13 30.0/34.6 75/75 90/90 90/90 38/44 . V430 • 40/45 • • 90/90 90/90 DD20CP 1 14.9/19.8 50.84/67.56 41.3/47.6 75/80 90/90 90/90 52/60 ' 6010 • • : J5/T5 5/X* 90/90 90/90 DD30CP 1 21.6/28.8 73.70/98.27 60.0/69.3 95/107 100/110 100/110 75/87 A4)0'.; 95/Z5 : 90/90 90/90 DD40CP 1 29.7/39.6 101.34/135.12 82.5/95.2 1 124/139 1 125/150 1 125/150 104/119 110/125 75/75 90/90 1 90/90 For Canadian use Only. uses'*'" tUSes for Inductive circuit. Field Installed only. n 04 M = mNp, N 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. Rte- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps 480 V @ 480 V @ 480 V 4i' 480 V 480 V 480 V 480 V@480V480V @ 480 V @ 480 V No Heat 21 25/30 21 25/30 DDIODNV 1 9.9 33.78 11.9 21 25/25 15 15 21 25/30 R090ADA DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 21 25/30 DD20DNV 1 19.8 67.56 23.8 34 35/35 30 30 21 25/30 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 21 25/30 DD40DNV 1 39.6 135.12 1 47.6 64 70/70 60 1 60 21 25/30 No Heat 23 30/35 23 30/35 DDIODNV 1 9.9 33.78 11.9 23 30/30 15 15 23 30/35 R090ADB DDI5DNV 1 14.4 49.13 17.3 28 30/30 22 25 23 30/35 DD20DNV 1 19.8 67.56 23.8 36 40/40 30 30 23 30/35 DD30DNV 1 28.8 98.27 34.6 49 50/50 44 45 23 30/35 DD40DNV 1 39.6 135.12 47.6 66 70/70 60 60 23 30/35 Heat 23 30/35 23 30/35 DDIODNV 1 9.9 33.78 11.9 23 30/30 15 15 23 30/35 LNo R090ADCOADC DD15DNV 1 14.4 49.13 17.3 28 30/30 22 25 23 30/35 OD20DNV 1 19.8 67.56 23.8 36 40/40 30 30 23 30/35 DD30DNVV 1 28.8 98.27 34.6 49 50/50 44 45 23 30/35 DD40DNV 1 39.6 135.12 1 47.6 66 70/70 60 1 60 23 30/35 No Heat 22 25/30 22 25/30 DD10CP 1 36.2 123.52 45.6 62 70/70 57 60 22 25/30 R102ADA DD15CP 1 52.8 180.16 66.3 88 90/90 83 90 22 25/30 DD20CP 1 72.9 248.75 91.3 119 125/125 115 125 22 25/30 DD30CP 1 105.6 360.32 132.7 171 175/175 166 175 22 25/30 DD40CP 1 145.3 495.78 182.5 233 250/250 229 250 22 25/30 No Heat 23 30/35 23 30/35 DD10CP 1 36.2 123.52 45.6 63 70/70 57 60 23 30/35 R102ADB DD15CP 1 52.8 180.16 66.3 89 90/90 83 90 23 30/35 DD20CP 1 72.9 248.75 91.3 120 125/125 115 125 23 30/35 DD30CP 1 105.6 360.32 132.7 172 175/175 166 175 23 30/35 DD40CP 1 145.3 495.78 1 182.5 234 250/250 229 250 23 30/35 No Heat 24 30/35 24 30/35 DD10CP 1 36.2 123.52 45.6 65 70/70 57 60 24 30/35 R102ADC DD15CP 1 52.8 180.16 66.3 91 100/100 83 24. . 30/35 DD20CP 1 72.9 248.75 91.3 122 125/125 115 • x+99 • 126 • • 24• • 30/35 DD30CP 1 105.6 360.32 132.7 174 175/175 166 ' 3t • • : 24o o o 30/35 DD40CP 1 1 1 145.3 495.78 182.5 1 236 250/250 1 - 229- s 30/3524; For Uanadian use only. Uses "P" fuses for inductive circuit. Field installed only. or • • • • ••• • • E! off N n M = co Na N 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps @ 480 V @ 480 V 0 480 V @ 480 V 480 V 480 V 480 V@480VCgs480V Cap 480 V 480 V No Heat 26 30/35 26 30/35 DDIODNV 1 9.9 33.78 11.9 26 30/30 15 15 26 30/35 R120ADA DDI5DNV 1 14.4 49.13 17.3 27 30/30 22 25 26 30/35 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 26 30/35 DD30DNV 1 28.8 98.27 34.6 49 50/50 44 45 26 30/35 DD40DNV 1 39.6 135.12 1 47.6 65 70/70 60 1 60 26 30/35 No Heat 27 30/40 27 30/40 DDIODNV 1 9.9 33.78 11.9 27 30/30 15 15 27 30/40 R120ADB DDI5DNV 1 14.4 49.13 17.3 28 30/30 22 25 27 30/40 DD20DNV 1 19.8 67.56 23.8 36 40/40 30 30 27 30/40 DD30DNV 1 28.8 98.27 34.6 50 50/50 44 45 27 30/40 DD40DNV 1 39.6 135.12 47.6 66 70110 60 60 1 27 30/40 No Heat 28 35/40 28 35/40 DDIODNV 1 9.9 33.78 11.9 28 35/35 15 15 28 35/40 R120ADC D015DNV 1 14.4 49.13 17.3 30 35/35 22 25 28 35/40 DD20DNV 1 19.8 67.56 23.8 38 40/40 30 30 28 35/40 DD30DNV 1 28.8 98.27 34.6 51 60/60 44 45 28 35/40 DD40DNV 1 39.6 135.12 1 47.6 67 70/70 60 1 60 28 35/40 No Heat 17 20/25 17 20/25 DDIODNV 1 9.9 33.78 11.9 19 20/20 15 15 17 20/25 S090ADA DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 17 20/25 DD20DNV 1 19.8 67.56 23.8 34 35/35 30 30 17 20/25 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 17 20/25 DD40DNV 1 39.6 135.12 47.6 64 70/70 60 60 1 17 20/25 No Heat 19 25/25 19 25/25 DDIODNV 1 9.9 33.78 11.9 27 30/30 15 15 19 25/25 S090ADB DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 19 25/25 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 19 25/25 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 19 25/25 DD40DNV 1 39.6 135.12 1 47.6 71 80/80 60 60 19 25/25 No Heat 19 25/25 19 25/25 DDIODNV 1 9.9 33.78 11.9 27 30/30 15.. 14 . i9 25/25 S090ADC DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 ; V5; ; 19 25/25 DD20DNV 1 19.8 67.56 23.8 42 45/45 1.: 30 • • so: • • 19 25/25 DD30DNV 1 28.8 98.27 34.6 55 60/60 44.: 04i 19 25/25 DD40DNV 1 1 1 39.6 135.12 47.6 1 71 1 80/80 1 - 60 60 19 1 25/25 1 - For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. 0 000 0 000 0 000 MM8m N n' M_ m' ofN y 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJ3_ No. of Rated Neater Heater Unit Min. Ckt. Over Current protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Cur Protective ent Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps @ 480 V @ 480 V @ 480 V @ 480 V 480 V 480 V 480 V@480V@480V @ 480 V @ 480 V No Heat 17 20/25 17 20/25 DDIODNV 1 9.9 33.78 11.9 19 20/20 15 15 17 20/25 S090ADF DD150NV 1 14.4 49.13 17.3 26 30/30 22 25 17 20/25 DD20DNV 1 19.8 67.56 23.8 34 35/35 30 30 17 20/25 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 17 20/25 DD40DNV 1 39.6 135.12 1 47.6 64 70/70 60 60 17 20/25 No Heat 19 25/25 19 25/25 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 19 25/25 S090ADG DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 19 25/25 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 19 25/25 OD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 19 25/25 0040DNV 1 39.6 135.12 47.6 71 80/80 60 60 19 25/25 No Heat 19 25/25 19 25/25 D01ODNV 1 9.9 33.78 11.9 27 30/30 15 15 19 25/25 S090ADH DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 19 25/25 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 19 25/25 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 19 25/25 DD40DNV 1 39.6 135.12 1 47.6 71 80/80 60 1 60 19 25/25 No Heat 21 25/30 21 25/30 DD10DNV 1 9.9 33.78 11.9 21 25/25 15 15 21 25/30 S102ADA DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 21 25/30 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 21 25/30 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 21 25/30 DD40DNV 1 39.6 135.12 47.6 64 70/70 60 60 1 21 25/30 No Heat 22 25/30 22 25/30 DDIODNV 1 9.9 33.78 11.9 27 30/30 15 15 22 25/30 S102ADB DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 22 25/30DD20DNV119.8 67.56 23.8 42 45/45 30 30 22 25/30 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 22 25/30 DD40DNV 1 39.6 135.12 1 47.6 71 80/80 60 60 22 25/30 No Heat 24 30/35 24 30/35 DDIODNV 1 9.9 33.78 11.9 27 30/30 15 15 24 30/35 S102ADC DDI5DNV 1 14.4 49.13 17.3 33 35/35 2$ • • 2b . 24 30/35 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 : 30; ; 24 30/35 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 • • t15• • • 4 30/35 OD40DNV 1 39.6 135.12 47.6 71 80/80 6Q.: 60• : 4 30/35 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. oo • • • MM 04 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model No. RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeHeaterKitSequenceHeaterkWKBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZNominalkWSteps@480V@480V@480V@480V480V480V480VCEJ480V@480V@480V@480V No Heat 21 25/30 21 25/30 DDIODNV 1 9.9 33.78 11.9 21 25/25 15 15 21 25/30 S102ADF DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 21 25/30 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 21 25/30 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 21 25/30 DD40DNV 1 39.6 135.12 1 47.6 64 70/70 60 1 60 21 25/30 No Heat 22 25/30 22 25/30 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 22 25/30 S102ADG DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 22 25/30 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 22 25/30 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 22 25/30 DD40DNV 1 39.6 135.12 47.6 71 80/80 60 60 1 22 25/30 No Heat 24 30/35 24 30/35 DD10DNV 1 9.9 33.78 11.9 30 30/35 15 15 24 30/35 S102ADH DDI50NV 1 14.4 49.13 17.3 37 40/40 22 25 24 30/35 DD20DNV 1 19.8 67.56 23.8 45 45/50 30 30 24 30/35 D030DNV 1 28.8 98.27 34.6 59 60/60 44 45 24 30/35 DD40DNV 1 39.6 135.12 1 47.6 75 80/80 60 60 24 30/35 No Heat 26 30/40 26 30/40 DDIODNV 1 9.9 33.78 11.9 26 30/30 15 15 26 30/40 S120ADA DDI5DNV 1 14.4 49.13 17.3 27 30/30 22 25 26 30/40DD20DNV119.8 67.56 23.8 35 35/35 30 30 26 30/40 DD30DNV 1 28.8 98.27 34.6 49 50/50 44 45 26 30/40 DD40DNV 1 39.6 135.12 47.6 1 65 70/70 60 60 26 30/40 No Heat 27 35/40 27 1,5/40DD10ONV19.9 33.78 11.9 27 35/40 15 15 27 35/40 S120ADB DDI5DNV 1 14.4 49.13 17.3 28 35/40 22 25 27 35/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 27 35/40 OD30DNV 1 28.8 98.27 34.6 50 50/50 44 45 27 35/40 DD40DNV 1 39.6 135.12 1 47.6 66 60/70 60 60 27 35/40 No Heat 28 35/40 28 35/40 DD10ONV 1 9.9 33.78 11.9 28 35/40 15 15 . 18 35/40 S120ADC DDI5DNV 1 14.4 49.13 17.3 30 35/40 22 • 5• . 28 35/40DD20DNV119.8 67.56 23.8 38 40/40 30 • • 4609 • • 28 35/40 DD30DNV 1 28.8 98.27 34.6 51 60/60 44.: 46• : 8 35/40DD40DNV139.6 135.12 47.6 67 70/70 60 60 1 28 1 35/40 For Canadian use only. Uses "I"' fuses for inductive circuit. Field installed only. fn 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Heater Kit Air Conditioner Heater Kit Air Conditioner Unit Model RXJJ- No. of Rated Heater Heater Unit Min. Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps @ 480 V Cg 480 V @ 480 V @0 480 V 480 V 480 V 480 V480V@480V @ 480 V @ 480 V No Heat 26 30/40 26 30/40 DDIODNV 1 9.9 33.78 11.9 26 30/30 15 15 26 30/40 S120ADF DDI5DNV 1 14.4 49.13 17.3 27 30/30 22 25 26 30/40 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 26 30/40 DD30DNV 1 28.8 98.27 34.6 49 50/50 44 45 26 30/40 DD40DNV 1 39.6 135.12 1 47.6 65 70!10 60 1 60 26 30/40 No Heat 27 35/40 27 35/40 DDIODNV 1 9.9 33.78 11.9 27 35/40 15 15 27 35/40 S120ADG DDI5DNV 1 14.4 49.13 17.3 28 35/40 22 25 27 35/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 27 35/40 DD30DNV 1 28.8 98.27 34.6 50 50/50 44 45 27 35/40 DD400NV 1 39.6 135.12 47.6 70 70/70 60 60 27 35/40 No Heat 28 35/40 28 35/40 DDIODNV 1 9.9 33.78 11.9 28 35/40 15 15 28 35/40 S120ADH DDI5DNV 1 14.4 49.13 17.3 30 35/40 22 25 28 35/40 DD20DNV 1 19.8 67.56 23.8 38 40/40 30 30 28 35/40 DD30DNV 1 28.8 98.27 34.6 51 60/60 44 45 28 35/40 DD40DNV 1 39.6 135.12 1 47.6 67 70/70 60 1 60 28 35/40 No Heat 34 40/40 34 40/40 DDIODNV 1 9.9 33.78 11.9 34 40/40 15 15 34 40/40 S150ADA DDI5DNV 1 14.4 49.13 17.3 34 40/40 22 25 34 40/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 34 40/40 DD30ONV 1 28.8 98.27 34.6 50 50/50 44 45 34 40/40 DD40DNV 1 39.6 135.12 47.6 1 66 70170 60 60 1 34 40/40 No Heat 37 40/45 37 40/45 DDIODNV 1 9.9 33.78 11.9 37 40/45 15 15 37 40/45 S150ADB DDI5DNV 1 14.4 49.13 17.3 37 40/45 22 25 37 40/45 DD20DNV 1 19.8 67.56 23.8 40 40/45 30 30 37 40/45 OD30DNV 1 28.8 98.27 34.6 54 60/60 44 45 37 40/45 DD40DNV 1 39.6 135.12 1 47.6 70 70/70 60 1 60 37 40/45 No Heat 34 40/40 34 40/40 DD10ONV 1 9.9 33.78 11.9 34 40/40 15 15 34 40/40 S150ADF DDI5DNV 1 14.4 49.13 17.3 34 40/40 2?... 25 . 34 40/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30;; 34 40/40 OD300NV 1 28.8 98.27 34.6 50 50/50 44 • • 45• • • 34 40/40 DD40DNV 1 1 1 39.6 1 135.12 47.6 1 66 1 70170 1 I ..*6Q..: 060• : 1.34 1 40/40 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Unit Heater Kit Air Conditioner Heater Kit Air Conditioner Model RXJJ- No. of Rated Heater Heater Unit Min, Ckt. Over Current Protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Ampacity fns Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACDZ- Nominal kW Steps @ 480 V @ 480 V @ 480 V @ 480 V 480 V 480 V 480 V N 480 V @ 480 V @ 480 V @ 480 V No Heat 37 40/45 37 40/45 DD10DNV 1 9.9 33.78 11.9 37 40/45 15 15 37 40/45 S150ADG DDI5DNV 1 14.4 49.13 17.3 37 40/45 22 25 37 40/45 DD20DNV 1 19.8 67.56 23.8 40 40/45 30 30 37 40/45 DD30DNV 1 28.8 98.27 34.6 54 60/60 44 45 37 40/45 DD40DNV 1 39.6 135.12 1 47.6 70 70170 60 1 60 37 40/45 No Heat 17 20/25 21 20/25 DD10DNV 1 9.9 33.78 11.9 19 20/25 15 15 21 20/25 T090ADF DDI5DNV 1 14.4 49.13 17.3 26 30/30 22 25 21 20/25 OD20DNV 1 19.8 67.56 23.8 34 35/35 30 30 21 20/25 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 21 20/25 DD40DNV 1 39.6 135.12 47.6 64 70/70 60 60 21 20/25 No Heat 21 30/30 21 30/30 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 21 30/30 T090ADG DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 21 30/30 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 21 30/30 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 21 30/30 DD40DNV 1 39.6 135.12 1 47.6 71 80/80 60 1 60 21 30/30 No Heat 21 30/30 21 30/30 DD10DNV 1 9.9 33.78 11.9 27 30/30 15 15 21 30/30 T090ADH DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 25 21 30/30 DD20DNV 1 19.8 67.56 23.8 42 45/45 30 30 21 30/30 DD30DNV 1 28.8 98.27 34.6 55 60/60 44 45 21 30/30 DD40DNV 1 39.6 135.12 47.6 71 80/80 60 60 1 21 30/30 No Heat 21 25/30 21 25/30 DD10DNV 1 9.9 33.78 11.9 21 25/25 15 15 21 25/30 T102ADF D0I5DNV 1 14.4 49.13 17.3 26 30/30 22 25 21 25/30 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 21 25/30 DD30DNV 1 28.8 98.27 34.6 48 50/50 44 45 21 25/30 DD40DNV 1 39.6 135.12 1 47.6 64 70170 60 60 21 25/30 No Heat 22 30/35 22 30/35 DDI0DNV 1 9.9 33.78 11.9 27 30/30 01$06 16 • 032 30/35 T102ADG DDI5DNV 1 14.4 49.13 17.3 33 35/35 22 ev 30/35 DD20DNV 1 19.8 67.56 23.8 42 45/45 X30 •; 0; ; 30/35 DD30DNV 1 28.8 98.27 34.6 55 60/60 449 • • 45 • 22 30/35 DD40DNV 1 1 1 39.6 1 135.12 47.6 1 71 1 80/80 1 1 60 60 22 30/35 For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. iii fns Mm m N 480 VOLT, THREE PHASE, 60 Hz, AUXILIARY ELECTRIC HEATER KITS CHARACTERISTICS AND APPLICATION Single Power Supply For Both Unit and Heater Kit Separate Power Supply For Both Unit and Heater Kit Heater Kit Air Conditioner Heater Kit Air Conditioner Unit Model RXJJ- No. of Rated Heater Heater Unit Min. CM. Over Current protective Device Size Min. Ckt. Max. Fuse Min. Circuit Over Current Protective Device SizeNo. Heater Kit Sequence Heater kW KBTU/Hr Amp. Amp acfty Ampacity Size AmpacityMin./Max Min./Max Min./Max. Min./MaxRACOZ- Nominal kW Steps @ 480 V @ 480 V @ 480 V @ 480 V 480 V 480 V 480 V @ 480 V @ 480 V @ 480 V @ 480 V No Heat 24 30/35 24 30/35 DD10DNV 1 9.9 33.78 11.9 24 30/35 15 15 24 30/35 T102ADH DD15ONV 1 14.4 49.13 17.3 30 30/35 22 25 24 30/35 DD200NV 1 19.8 67.56 23.8 38 40/40 30 30 24 30/35 DD30DNV 1 28.8 98.27 34.6 51 60/60 44 45 24 30/35 DD400NV 1 39.6 135.12 1 47.6 67 70/70 60 1 60 24 30/35 No Heat 26 30/40 26 30/40 DD100NV 1 9.9 33.78 11.9 26 30/30 15 15 26 30/40 T120ADF DDI5DNV 1 14.4 49.13 17.3 27 30/30 22 25 26 30/40 DD20DNV 1 19.8 67.56 23.8 35 35/35 30 30 26 30/40 DD300NV 1 28.8 98.27 34.6 49 50/50 44 45 26 30/40 DD400NV 1 39.6 135.12 47.6 65 70/70 60 60 26 30/40 No Heat 27 35/40 27 35/40 DDIODNV 1 9.9 33.78 11.9 27 35/40 15 15 27 35/40 T120ADG DDI5DNV 1 14.4 49.13 17.3 28 35/40 22 25 27 35/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 27 35/40 DD30DNV 1 28.8 98.27 34.6 50 50/50 44 45 27 35/40 DD40DNV 1 39.6 135.12 1 47.6 70 70/70 60 1 60 27 35/40 No Heat 28 35/40 25 35/40 DDIODNV 1 9.9 33.78 11.9 28 35/40 15 15 25 35/40 T120ADH DDI5DNV 1 14.4 49.13 17.3 30 35/40 22 25 25 35/40 DD20DNV 1 19.8 67.56 23.8 38 40/40 30 30 25 35/40 DD30DNV 1 28.8 98.27 34.6 51 60/60 44 45 25 35/40 DD400NV 1 39.6 135.12 47.6 67 70/70 60 60 25 35/40 No Heat 34 40/40 35 40/40 DD10DNV 1 9.9 33.78 11.9 34 40/40 15 15 35 40/40 T150ADF DDI5DNV 1 14.4 49.13 17.3 34 40/40 22 25 35 40/40 DD20DNV 1 19.8 67.56 23.8 37 40/40 30 30 35 40/40 DD30DNV 1 28.8 98.27 34.6 50 50/50 44 45 35 40/40 DD40DNV 1 39.6 135.12 1 47.6 66 70/70 60 1 60 35 40/40 No Heat 37 40/45 37 40/45 DD100NV 1 9.9 33.78 11.9 37 40/45 15 15 37 40/45 T150ADG DDI5DNV 1 14.4 49.13 17.3 37 40/45 21 • • 26 37 40/45 DD20DNV 1 19.8 67.56 23.8 40 40/45 30 0; ; 37 40/45 DD30ONV 1 28.8 98.27 34.6 54 60/60 44 • 5; • 017 40/45 DD40DNV 1 39.6 135.12 47.6 70 70170 68 • 37 1 40/45 1 - For Canadian use only. Uses "P" fuses for inductive circuit. Field installed only. M m 0 CnM= N R CONTROLACCESS SERVICE DISCONNECT KNOCKOUT ACCESS PANEL COMPRESSOR — FILTER ACCESS PANEL 577/8" . 10 <* 1470 mm] 89" 2261 mm] 150 MODEL 60' t1r5 4mtsl] 020 NO 50" jf2lORlrr] RE-It"COYER DRAIN PAN SUPPLY COVER ACCESS PANEL BLOWER ACCESS PANEL HEAT EXCHANGER i9e a.n, 11\{nl\Il(lafs sill111Ui 1i ;}i. RECEPTACLE Dimensional Data RACD Series 0000•• 0000 0000 0009•• 9• • POWER ENTRY Designates Metric Conversions T 0000•• 0000•• 0000•• 0000• 0000• 0000•• 0000•• 0000•• Illustration ST -A1273-26-00 Dimensional Data RACD Series SUPPLY AND RETURN DIMENSIONS FOR HORIZONTAL APPLICATIONS 61/e" 156 mm)l 15" SUPPLY AIR381mm] 51/4" 133 mm] 13"Tle 330 mm] [89 mm] RETURN AIR 291le 197/6" 749 mm] [505 mr 57/8" 21 7/e" - 149 mm] [555 mm] 593/e" 1510 mm] SUPPLY AND RETURN DIMENSIONS FOR DOWNFLOW APPLICATIONS 553/e" 1407 mm] 591/z" 1511 mm] F 2" 863/4" 51 mm] [2203 mm] TYP. (3) SIDES 90l/e" 2289 mm] 143/x" 365 mm] 371/2" 953 mm) RETURN 363/s"-1 224 mm] 593/e" 1507 mm] 14" 356 mm [32 mm] 63/4" 171 mm] 281/2" 724 mm] SUPPLY SVz" 140 mm] 125/e" 321 mm] 61/2" 165 mm] 4i/e" 105 mm] Illustration ST -A1273 -01-A-00 Designates Metric Conversions 000.0 37/2" 0 1953 mm] 0.0 006.00 00.0 0.• 0000.. 0000.. 0000 0000 00: 0000 00000 Imm] 460800 000.0 0000.• 0 00-0: 000000 0000•• 0 • 0 0 • • 0Illustra*46 • ST -A1273 -01-F 00 0 14" 356 mm [32 mm] 63/4" 171 mm] 281/2" 724 mm] SUPPLY SVz" 140 mm] 125/e" 321 mm] 61/2" 165 mm] 4i/e" 105 mm] Illustration ST -A1273 -01-A-00 Designates Metric Conversions WEIGHTS Capacity Tons [kW] Corner Weights by Percentage A B C D 7.5-12.5 [21.1-44.0] 261, 34% 17% 1 23% 14.9 mm] SHACKLES \ EACH CORNER) 43il2" 1104.9 mm) CENTER OF GRAVITY Dimensional Data RACD Series AO Illustration ST -A1273 -01—J-00 V CENTER 237Is" OF 606.4 mm] GRAVITY CLEARANCES The following minimum clearances must be observed for proper unit performance and serviceability. RECOMMENDED CLEARANCE In. (mm) LOCATION 48 [1219] A - FRONT 24 [609] B - CONDENSER END 48 [1219] 3 C - DUCT END 24 [609] (2) D - FILTER SIDE 60 [1524) E - ABOVE d! 18'f457 mm) MINIMUM IF DRAINPAN WILL NOT BE REMOVED. Q, 48" [1219 MM) MINIMUM IF ECONOMIZER IS INSTALLED. Field Installed Accessories RACD Series FIELD INSTALLED ACCESSORY EQUIPMENT (cont'd.) Accessory Model Number Shipping Weight Lbs. [kg[ Installed Weight Lbs. [kg] Factory Installation Available? Economizerw/Single Enthalpy (Downflow) RXRD-01MDDAM3 86 [39.0] 57 [25.9] Yes Economizerw/Single Enthalpy (Horizontal) RXRD-01MDHAM3 84 [38.1] 55 [24.9] Yes Economizer-w/Single Enthalpy (Downflow) DDC RXRD-01 MDDBM3 86 [39.0] 57 [25.9] No Economizer w/Single Enthalpy (Horizontal) DDC RXRD-01 MDHBM3 84 [38.11 55 24.9] Jo Dual Enthalpy Kit RXRX-BV01 1 [.5] 1 ;[.5] No Dual Enthalpy Kit DDC RXRX-BV02 1 [.5] 4 • .[.5] o • • Carbon Dioxide Sensor (Wall Mount) RXRX-AR02 3 [1.4] To 11.0] No • Power Exhaust RXRX-CDF01 C 58 [26.3] 4121.8] No Power Exhaust RXRX-CDF01 D 50 [22.7] 44 20.0] No Manual Fresh Air Damper RXRF-ADA1 15 [6.8] V• 15.4] 110 Motorized Fresh Air Damper RXRF-ADB1 38 [17.2] 11.[44.06] No Motorized Fresh Air Damper (DDC) RXRF-ADC1 38 [17.2] 31 [14.06] No • • Roofcurb,14" RXKG-DDD14 109 [49.4] 1(,}'[47.2] No ;• Roofcurb, 24' RXKG-DDD24 145 [65.8] 140 [63.5] No • Roofcurb Adapter RXRX-DDCAE 235 [106.6] 215 [97.5] No Concentric Diffuser 7.5/8.5 Ton Flush RXRN-AEF2000 235 [106.6] 215 [97.5] No Concentric Diffuser 10.0 Ton Flush RXRN-AEF3415 30 [13.6] 25 [11.3] No Concentric Diffuser 12.5 Ton Flush RXRN-AEF3618 250 [113.4] 130 [59] No Concentric Diffuser 7.5/8.5 Ton Drop RXRN-AED2000 275 [124.7] 170 [77.1] No Concentric Diffuser 10.0 Ton Drop RXRN-AED3415 35 [15.9] 30 [13.6] No Concentric Diffuser 12.5 Ton Drop RXRN-AED3618 270 [122.5] 160 [72.6] No Concentric Adapter 7.5/8.5 Ton Drop RXMC-DD01 300 [136.1] 180 [81.6] No Concentric Adapter 10 Ton Drop RXMC-DD02 25 [11.3] 20 [9.1] No Concentric Adapter 12.5 Ton Drop RXMC-DD03 75 [34] 65 [29.5] No Outdoor Coil Louver Kit - ACD/090/102/120 RXRX-ADD04A 52 [23.6] 47 [21.3] Yes Outdoor Coil Louver Kit - ACD150 RXRX-ADD04B 43 [19.5] 39 [17.7] Yes Unwired Convenience Outlet RXRX-BN01 2 [1.0] 1.5 [.7] Yes Unfused Service Disconnect RXRX-BP01 10 [4.5] 9 [4.1] Yes Comfort Alert (1 Per Compressor) RXRX-AZ01 DDC 3 [1.5] 2 [0.9] Yes Comfort Alert (1 Per Compressor) RXRX-AZ02 3 [1.5] 2 [0.9] Yes BACnet Communication Card RXRX-AY01 1 [0.5] 1 [0.5] No LonWorks Communication Card RXRX-AY02 1 [0.5] 1 [0.5] No Room Humidity Sensor RHC-ZNS4 1 [0.5] 1 [0.5] No Room Temperature and Relative Humidity Sensor RHC-ZNS5 1 [0.5] 1 [0.5] No Low -Ambient Control Kit RXRZ-A04 4 [1.8] 3 [1.4] Yes Freeze Stat Kit RXRX-AM01 2 [1.0] 1.5 [.7] Yes Designates Metric Conversions HZ RELY 0N RUUD.TM Field Installed Accessories RACD Series FIELD INSTALLED ACCESSORY EQUIPMENT Accessory Model Number Shipping Weight Lbs. [kgl Installed Weight Lbs. [kgl Factory Installation Available? Variable Frequency Drive Kit RXRX-ACO2 9.1 [4.1 ] 7.6 [3.4] No RXRX-AC03 11.7 [5.3] 10.2 [4.6] No RXRX-AC05 11.7 [5.3] 10.2 [4.6] No RXRX-AD02 9.4 [4.3] • 1.9 [3.6] • • No RXRX-AD03 12.3 [5.6] • . •101 [4.9] . No •' RXRX-AD05 12.3 [5.6] • • •14@8 [4.9] • No . • ..: RXRX-CCO2 9.1 [4.1] • ' 0 7% [3.4] No • RXRX-CC03 11.7 [5.3] • 1 k [4.6]:*, No • RXRX-CC05 11.7 [5.3] • • Qj [4.6] No • RXRX-CD02 9.4 [4.3] • • . 719 [3.6] • . No • • • • RXRX-CD03 12.3 [5.6] • • •14!6 [4.9] No RXRX-CD05 12.3 [5.6] • 10*8 [4.9]; • No • • • • Electric Heater Kits RXJJ-DD10CP 30 [13.6] • 27,6 [12.5] Yes :... RXJJ-DD15CP 32 [14.5] 29.5 [13.4]0 Yes RXJJ-DD20CP 34 [15.4] 31.5 [14.3] Yes RXJJ-DD30CP 37 [16.8] 34.5 [15.6] Yes RXJJ-DD40CP 40 [18.1] 37.5 [17] Yes RXJJ-DDIODNV 30 [13.6] 27.5 [12.5] Yes RXJJ-DD15DNV 32 [14.5] 29.5 [13.4] Yes RXJJ-DD20DNV 34 [15.4] 31.5 [14.3] Yes RXJJ-DD30DNV 37 [16.8] 34.5 [15.6] Yes RXJJ-DD40DNV 40 [18.1] 37.5 [17] Yes Single Point Wiring Kit RXJX-AC0605 23 [10.4] 25 [11.3] No RXJX-AC0805 24 [10.9] 26 [11.8] No RXJX-AD0605 25 [11.3] 27 [12.2] No RXJX-AC0909 26 [11.8] 28 [12.7] No RXJX-AD0609 1 25 [11.3] 27 [12.2] No Designates Metric Conversions VARIABLE FREQUENCY DRIVE KIT MSA HORSEPOWER 02 = 2 HORSEPOWER 03 = 3 HORSEPOWER 05 =5 HORSEPOWER VOLTAGE C = 230V D = 480V DESIGN SERIES A =TWO WIRE CONTROL C =COMMUNICATING SINGLE POINT WIRING KIT RXJX-A C 09 09 CABINET CODE 05 = 090-102 C VOLTAGE 090-120 D VOLTAGE 120 C VOLTAGE 09 = 150 C VOLTAGE 150 D VOLTAGE AMPERAGE 06 = 60 AMPS 08 = 80 AMPS 09 = 90 AMPS VOLTAGE C = 208/230 V D =460V SERIES Field Installed Accessories RACD Series FLUSH MOUNT ROOM TEMPERATURE SENSORS FOR NETWORKED DDC APPLICATIONS 0 B j ROOM TEMPERATURE SENSOR ZNS-101 with TIMED OVERRIDE BUTTON 10kQ room temperature sensor transmits room temperature to DDC system. Timed override Mutton allows tenant to change from unoccupied temperature setpoint to occupieq temperaturq sent for a preset time. ••• •• .. ROOM TEMPERATURE SENSOR ZNS-102 • with TIMED OVERRIDE BUTTON and STATUS INDICATOR ...... • 10k4 room temperature sensor transmits room temperature to DDC systerfl. TWd ovejri q pVtton • • • • • allows tenant to change from unoccupied temperature setpoint to occupie4 teqWrature setpoint fo,g. • • preset time. Status Indicator Light transmits ALARM flash code to occupied %pace. 646 0 • t • ROOM TEMPERATURE SENSOR ZNS-103 with SETPOINT ADJUSTMENT and TIMED OVERRIDE BUTTON 10kQ room temperature sensor with setpbint adjustment transmits room temperature to DDC system along with desired occupied room temperature setpoint. Timed override button allows tenant to change from unoccupied temperature setpoint to occupied temperature setpoint for a preset time. ROOM HUMIDITY SENSOR RHC-ZNS4 Transmits room relative humidity to DDC System. ROOM TEMPERATURE AND RELATIVE HUMIDITY SENSOR RHC-ZNS5 Transmits room temperature and relative humidity to DDC System. 84 RELY ON RUUD.TM COMMUNICATION CARDS Field Installed Field Installed Accessories RACD Series BACnet* COMMUNICATION CARD RXRX-AY01 The field installed BACnet® Communication Card allows the RTU -C unit controller to communicate with a third party building management system that supports the BACnet Application Specific Controller de-ice profile. The BACnet® Communication Module plugs onto the unit RTU -C controyer aqd allows communication between the RTU -C and the BACnet MSTP network.• 6' • •' 6666.. 6666 6• 6690 .•9606 w 66.6.6 • • • 6.66 •• s • • 9 • • LonWorks® COMMUNICATION CARD RXRX-AY02 The field installed LonWorks® Communication Card allows the RTU -C unit.orxztroller to cgmmunicate with a third party building management system that supports the LonMarlk Sate Cowifort,Contro4er,,;, SCC) functional profile or LonMark Discharge Air Controller (DAC) functional profile. ZNTdLbhMark, , Communication Module plugs onto the RTU -C controller and allows corrlrpunicdtion bgVgen the • • •; RTU -C and a LonWorks Network. • RELY ON RUUD.'" 85 Field Installed Accessories RACD Series NON -DDC ECONOMIZER FOR DOWNFLOW DUCT INSTALLATION Use to Select Factory Installed Options Only RXRD-OIMDDAM3—Single Enthalpy (Outdoor) and AXRD-SJCM3 Single Enthalpy with Smoke Detector RXRX-BV02—Dual Enthalpy Upgrade Kit RXRX-AR02—Optional Wall -Mounted CO2 Sensor ENTHALPY Features Honeywell Controls Available Factory Installed or Field Accessory Gear Driven Direct Drive Actuator Fully Modulating (0-100%) Low Leakage Dampers Slip -In Design for Easy Installation Standard Barometric Relief Damper ACTUATOR Single Enthalpy with Dual Enthalpy Upgrade Kit Available CO2 Input Sensor Available Field Assembled Hood Ships with Economizer Economizer Ships Complete for Downflow Duct Application. DDC Optional Remote Minimum Position Potentiometer (270 ohm) Honeywell #S963131 136) is Available from Prostock. Field Installed Power Exhaust Available 167116• Prewired for Smoke Detector [468.5 mm] If connected to a Building Automation System (BAS), all economizer functions can be viewed on the (BAS) or 16 x 2 LCD screen If connected to thermostat, all economizer functions can be viewed on 16 x 2 LCD screen Illustration ST -A1273-01 0-00 46t/ei' 121.8 mm] y 11 15000..1 nnmm] 833/W 43113e 216.3 mm] [126.5 mm] 471/2" 1207.5 mm] 4 4'/ • • • 105.54nm] •• • •••••• Illustration ST -A1283-01 RAINHOOD Designates Metric Conversions 8911e 217.6 mm] O. 29111e" 738.3 mm] 4 4'/ • • • 105.54nm] •• • •••••• Illustration ST -A1283-01 RAINHOOD Designates Metric Conversions NON -DDC ECONOMIZER FOR HORIZONTAL DUCT INSTALLATION Field Installed Only RXRD-01DAHM3—Single Enthalpy (Outdoor) RXRX-BV01—Dual Enthalpy Upgrade Kit RXRX-AR02—Wall-mounted CO2 Sensor Features Honeywell Controls Available as a Field Installed Accessory Only Gear Driven Direct Drive Actuator Fully Modulating (0-100%) Low Leakage Dampers Slip -In Design for Easy Installation Standard Barometric Relief Damper Single Enthalpy with Dual Enthalpy Upgrade Kit Available CO2 Input Sensor Available Field Assembled Hood Ships with Economizer Economizer Ships Complete for Hovrizontal Duct Application Optional Remote Minimum Position Potentiometer (270 ohm) Honeywell #S963131 136) is Available from Prostock ENTHALPY SENSOR ACTUATOR r o Q Field Installed Power Exhaust Available If connected to a Building Automation _< 1s9/,s' System (BAS), all economizer functions [421 mm] can be viewed on the (BAS) or 16 x 2 LCD screen If connected to thermostat, all economizer functions can be viewed on 16 x 2 LCD screen SUPPLY DUCT CUTOUT -, 125/e" x 363/x" 320.7 mm x 924 mm] OPENING DUCT RETURN DUCT Field Installed Accessories RACD Series 533/64" 140 mm] I I ! 28 1ea„ t • [720 mm] 1989 mm]* • • Anton • i • • • ST -A1282-01 4"[101.6 mm] MINIMUM RECOMMENDED 373/4" 958.8 mm] 7123/8" 314.3 mm Illustration ST -A1273-04-00 MANUAL FRESH AIR DAMPER Designates Metric Conversions RELY ON RUUD.TM 87 Field Installed Accessories RACD Series POWER EXHAUST KIT FOR RXRD-01 MDDAM3, RXRD-01 MDDBM3, RXRD-01 MDHAM3, RXRD-01 MDHBM3 ECONOMIZERS RXRX-CDF01 Voltage Code VERTICAL AIRFLOW HORIZONTAL AIRFLOW Alustrabm STA1295-01 POWER EXHAUST -- BAROMETRIC RELIEF DAMPERS OUTSIDE AIR INTAKE HOOD WITH MIST ELIMINATOR 37318" 949.3 mm] FIELD SUPPLIED \ REINFORCING BRACE AS REQUIRED) EXHAUST AIR HOOD LOCATION DETERMINED BY INSTALLER ECONOMIZER/DAMPER ...... BRACKET • Illustration • • • ST -Al273-05-00 BAROMETRIC RELIEF DAMPERS EXHAUST HOODS WITH BIRDSCREEN Model No. No. of Fans Volts Phase HP (ea.) CFM [L/sl- RPM FLA (ea.) LRA (ea.) RXRX-CDF01C 2 208-230 1 0.47 2200 3000 1.55 1.1 RXRX-CDF01D 2 460 3 0.40 1970 2750 0.51 1.9 1-M Is perran at u- w.c. extemal static pressure. [ ] Designates Metric Conversions DDC—ECONOMIZER FOR DOWNFLOW DUCT INSTALLATION Use to Select Field Installed -Options Only RXRD-01 MDDBM3 —Single Enthalpy (Outdoor) RXRX-BV02—Dual Enthalpy Upgrade Kit RXRX-AR02—Optional Wall -Mounted CO, Sensor Features Honeywell Controls ENTHALPY / Available Factory Installed or Field Accessory Gear Driven Direct Drive Actuator _ Fully Modulating (0-100%) Ultra Low Leak Dampers meet California Title 24 requirements Slip -In Design for Easy Installation . Standard Barometric Relief Damper ACTUATOR 0 Single Enthalpy with Dual Enthalpy • Upgrade Kit Available CO2 Input Sensor Available Field Assembled Hood Ships with Economizer Economizer Ships Complete for DocDownflowDuct Application. ® • Optional Remote Minimum Position Potentiometer (270 ohm) Honeywell #S963131 136) is Available 18'/16" from Prostock. [468.5 mm] Field Installed Power Exhaust Available Prewired for Smoke Detector If connected to a Building Automation System (BAS), all economizer functions can be viewed on the (BAS), or 16 x 2 LCD screen If connected to thermostat, all economizer functions can be viewed on 16 x 2 LCD screer Illustration ST -A1273-01 G-00 54 Field Installed Accessories RACD Series 216.3 mm] [ I ea.a mm1 RAINHOOD Designates Metric Conversions RELY ON RUUC7.TM H9 89/16" 217.6 mm] 0 - 291/16" 738.3 mm] 216.3 mm] [ I ea.a mm1 RAINHOOD Designates Metric Conversions RELY ON RUUC7.TM H9 400 00 00 00 Y,,,• 1058.5 mm]• Illustration ST -A1283-01 216.3 mm] [ Iea.a mm1 RAINHOOD Designates Metric Conversions RELY ON RUUC7.TM H9 Field Installed Accessories RACD Series DDC—ECONOMIZER FOR HORIZONTAL DUCT INSTALLATION Feld Installed Only RXRD-01 MDHBM3 —Single Enthalpy (Outdoor) [140 mm RXRX-BV02—Dual Enthalpy Upgrade Kit ENTHALPY SENSORRXRX-AR02—Wall-mounted CO2 Sensor Features Honeywell Controls Available as a Field Installed Accessory Only ACTUATOR Gear Driven Direct Drive Actuator Fully Modulating (0-100%) Ultra Low Leak Dampers meet California 20+/ea" o — [720 mm] Title 24 requirements Slip -In Design for Easy Installation Standard Barometric Relief Damper Single Enthalpy with Dual Enthalpy Upgrade Kit Available fee** CO2 Input Sensor Available Field Assembled Hood Ships with Economizer s '. • Economizer Ships Complete for Horizontal Duct Application Optional Remote Minimum Position Potentiometer yi • • 000000 270 ohm) (Honeywell #S963131 136) is Available ww• • j' . a25i64" • from Prostock 10890mm] w • • 0 • • 6000:0r • • Field Installed Power Exhaust Available 169/,8" w'. luus>rl n • ST-Al2 1• • •; If connected to a Building Automation System 421 mm] • • • BAS), all economizer functions can be viewed on the (BAS), or 16 x 2 LCD screen If connected to thermostat, all economizer functions can be viewed on 16 x 2 LCD screen SUPPLY DUCT 4'[101.6 mm] MINIMUM RECOMMENDED CUTOUT 125/8" X363/a 320.7 mm X 924 mm] OPENING DUCT Illustration ST -A1273-04-00 373/a" ---_ MANUAL FRESH 958.8 mm] AIR DAMPER 123/8" \ 314.3 mm RETURN DUCT [ ] Designates Metric Conversions 90 RELY ON RUUD.TM FRESH AIR DAMPER MOTORIZED DAMPER KIT RXRF-ADB1 Illustration ST -A1273-10-00 Designates Metric 1 MOTORIZED DAMI RXRX-ADC1 Motor Kit for DDC Field Installed Accessories RACD Series 216.3 mm] (126.5 mm] RAINHOOD Illustrabon M73 -01G-00 RXRX-AW04 Modulating Motor Kit w/position feedback for AXRF-KDAi) Features Honeywell Controls Gear Driven Direct Drive Actuator Fully Modulating (0-100%) Low Leakage Dampers Slip -In Design for Easy Installation Plug -In Polarized 12 -pin and 4 -pin Electrical Connections Pre-Configured—No Field Adjustments Necessary Addition of Dual Enthalpy Upgrade Kit allows limited economizer function CO2Sensor Input Available for Demand Control Ventilation (DCV) Optional Remote Minimum Position Potentiometer (270 ohm) (Honeywell #S96361136) is available from Prostock All fresh air damper functions can be viewed at the RTU -C unit controller display If connected to a Building Automation System (BAS), all fresh air damper functions can be viewed on the (BAS) Designates Metric Conversions Field Installed Accessories RACD Series FRESH AIR DAMPER (Cont.) RXRF-ADA1 HORIZONTAL APPLICATION CUT OUT 1251e x 36T/ 1 320.7 mm x 924 mm] OPENING DUCT 373/4" 958.8 m SUPPLY DUCT RETURN DUCT 92 RELY ON RUUD.T1 MANUALFRESH AIR DAMPER 4'[101.6 mm] MINIMUM RECOMMENDED 12%' 314.3 mmJ DOWNFLOW APPLICATION 314.3mrQ"••. Illustration ST•A1273-04-00 MANUALFRESH AIR DAMPER ration 3-00 Designates Metric Conversions ROOFCURBS (Full Perimeter) Ruud's roofcurb design can be utilized on all 7.5-12.5 ton 26.4-44.0 kW] RACD. Two available heights (14" [356 mm] and 24" [610 mm]) for ALL models. Quick assembly corners for simple and fast assembly. Opening provided in bottom pan to match the Thru the Curb" electrical connection opening provided on the unit base pan. 1 " [25 mm] x 4" [102 mm] Nailer provided. Insulating panels not required because of insulated outdoor base pan. Sealing gasket (40' [12.2 m]) provided with Roofcurb. Packaged for easy field assembly. Roofcurb Model Height of Curb RXKG-DDD14 14" [356 mm] RXKG-DDD24 24" [610 mm] ROOFCURB INSTALLATION 85318" 2168.5 mm] 531/2" 1358.9 mm] 1575/32" 92.9 mr 31 t7`m" 00.9 mm] 8 21316" 542.9 mml 15131le 401.6 mr Illustration ADS -106190-01 Designates Metric Conversions Field Installed Accessories RACD Series GASKET , l OOFTOP UNIT NAILER STRIP ROOFCURB DUCT' ROOF FLASHING' INSULATION' ROOFING' rx'HE CANT STRIP' INSULATION* ROOF DECK' BY CONTRACTOR FOR INSTALLATION OF DUCT AS SHOWN, USE RECOMMENDED DUCT SIZES FROM ROOFCURB INSTALLATION INSTRUCTIONS. FOR DUCT FLANGE ATTACHMENT TO UNIT, SEE UNIT INSTALLATION INSTRUCTIONS FOR RECOMMENDED DUCT SIZES. IllustMtion AE743-Cz 14" 355.6 mm) RELY ON RTM000. 93 Field Installed Accessories RACD Series ROOFCURB ADAPTERS (Cont.) RXRX—DDCAE Illustration ADS -106176-01 SHEET 2 APPROXIMATE STATIC PRESSURE DROP @2,000 = 0.06" w.g. @3:000 = 0.12" w.g. 04,000 = 0.22" w.g. @5,000 = 0.36" w.g. 817/e" I. D. 2079.6 mm] 403/16" 1020.8 mm] R/A & S/A 1— 547/6" 1393.8 mm] EX O.D. 853/e" O.D. 2168.5 mm] 531/2" O.D. 1358.9 mm] 761.2 ml • EX S/A • • • Ssr't.D' • 41 I/W 11043 mm] EX RIA 2510 66.7 mm] 25/e" 66.7 mm] 3W3 . 12" EXR/A mL..... 0000 • 0000 0000•• 0000•• 12Z4 nij • • • 3119/ m•"• 802.5• • • " @1* 3/. 3"mm] SIAIRIi• .... •••• 0000 • • 14" • i• :••1• mm].••... 277/6" • • 708 mm) • • • 901/16" EX O.D. 2287.6 mm) TOP VIEW Illustration ADS -106176-01 SHEET 1 5392" 1358.9 mml Designates Metric Conversions 94 RELY ON RUUD.rM 1m] CONCENTRIC DIFFUSER APP' '^^T'n"' ROOFCURB Field Installed Accessories RACD Series DOWNFLOW TRANSITION DRAWINGS RXMC-DD02 Used with RXRN-AEF3415 or RXRN-AED3415 14716" Concentdc Diffusers. [377.8 mm) I.D. I R.IGHT 3043l6a" I I ( 779.1 mm) I.D. illustration ADS -106193-02 3923/64" 999.7 mm] I.D. 303/4" Imo- I.D. 781 mm] 377.8 mm] I.D. I.D. 32713z" [97.8 mm] 2° 15" 15- 50.8 mm] [381 mm] [381 mm] RIGHT Designates Metric Conversions 153/16" 385.7 mm I.D. I DWNFLOW IANSITIONS SUPPLIED 3923/64" 999.7 mm] I.D. 153/16" DUCTS 385.7 mm) I.D. VAral& ST-AI'll-11-0131601 3923/64" 999.7 mm] I.D. 153/16" 385.7 mm) I.D. 101/32, 254.9 mm) 34" 863.6 mm] iMRELYONRUUD.95 Field Installed Accessories RACD Series DOWNFLOW TRANSITION DRAWINGS (Cont.) RXMC-DD03 Used with RXRN-AEF3618 or RXRN-AED3618 Concentric Diffusers. Illustration ADS -106193-03 3923/64" 999.7 mm) I.D. 14 Ile" 377.8 mm] I.D. 3043/e4" 779.1 mm) --[ I.D. i 3043/64" 14/a" F[ 779.1 mm] 147 mm] I.D. 13 I.D. 00" [98.7 mm) 2' [E— 18" moi[ jE— 18- 50.8 mm] [457.2 mm] [457.2 mm] Designates Metric Conversions 96 RELY ON RUUD.'" 1531le 385.7 mm: I.D. I 00.00• 0 • ••• ••••• 23/go • • 03- 0 . 0 0 0 • i• i 15416" •.•..• r[385.16 RiRir • • • • 101/32' 254.9 mm] 36" — 914.4 mm] 00.00• 0 • ••• ••••• 23/go • • 03- 0 . 0 0 0 • i• i 15416" •.•..• r[385.16 RiRir • • • • 101/32' 254.9 mm] 36" — 914.4 mm] DOWNFLOW TRANSITION DRAWINGS (Cont.) RXMC-DD01 Used with RXRN-AEF2000 or RXRN-AED2000 Concentric Diffusers. 1- 25 mrr IilustraN ST -A197 Field installed Accessories RACD Series Designates Metric Conversions Field Installed Accessories RACD Series CONCENTRIC DIFFUSER -STEP DOWN RXRN-AED2000 (7.5 & 8.5 Ton [26.4 & 29.9 kW] Models) For Use With Downflow Transition (RXMC-DD01) and 20" [508 mm] Round Supply and Return Ducts All aluminum=diffuser with aluminum return air eggcrate. Built-in anti -sweat gasket. Molded fiberglass supports. Built-in hanging supports. 453/4" 12" Diffuser box constructed of [1214 mm) [305mm) sheetmetal insulated with m55252mm] 1 " [25.4 mm] 1.5 lbs. 7 kg] duct liner. 12" 305mm] 63/4" \ 171 mm] 293!4" 757 mm] 63/8" 162 mm] ENGINEERING DATA° 27/6" 473/4" - 73 mm] (1214 mm] Illustration ST -A1273-13 Model No. Flow Rate CFM [L/sl Throw (Z 0) Feet [ml Neck Velocity fpm [m/sI 0000.. RXRN-AED2000 2600 [1222) 22-39 [6.7-11.9] 0000.. Q7 k° 2800 [1316] 23-40 [7.1-12.2) 720 [3.7] 1699 Mm] 133/4" 0900 0000 0000•• 349 mm] ,•' 0000 • 27-45 [8.2-13.7] 874 [4.4] 0000•• 45 48 4000 [1880] 34-56 [10.4-17.1) 1028.1 [5.2) 50 0000. 0000•• 0.0 00 0000.• 0000.• 0000• 27/6" 473/4" - 73 mm] (1214 mm] Illustration ST -A1273-13 Model No. Flow Rate CFM [L/sl Throw (Z 0) Feet [ml Neck Velocity fpm [m/sI Noise Level a; dbA) RXRN-AED2000 2600 [1222) 22-39 [6.7-11.9] 669 [3.4] 32 2800 [1316] 23-40 [7.1-12.2) 720 [3.7] 38 3000 [1410] 25-42 [7.6-12.8) 772 [3.9] 40 3200 [1504] 26-43 [7.9-13.1] 823 (4.2] 41 3400 [1598) 27-45 [8.2-13.7] 874 [4.4] 42 3600 [1692] 30-50 [9.1-15.2] 925.5 [4.7] 45 3800 [1786] 32-53 [9.8-16.2] 976.8 [4.9] 48 4000 [1880] 34-56 [10.4-17.1) 1028.1 [5.2) 50 NOTES: O All data is based on the air diffusion council guidelines. O Throw data is based on 75 FPM Terminal Velocities using isothermal air. cI Throw is based on diffuser blades being directed in a straight pattern. Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit. Designates Metric Conversions 98 RELY ON RUUO.TM CONCENTRIC DIFFUSER -STEP DOWN 1511 x 3411 [381 x 836 mm] RXRN-AED3415 (8.5 & 10 Ton [29.9 kW & 35.2] Models) For Use With Downflow Transition (RXMC-DD02) and 15" x 34" [381 x 836 mm] Supply and Return Ducts All aluminum diffuser with aluminum return air eggcrate. Built-in anti -sweat gasket. Molded fiberglass supports. Built-in hanging supports. Diffuser box constructed of sheetmetal insulated with 1 " [25.4 mm] 1.5 lbs. 7 kg] duct liner. - Double deflection diffuser with the blades secured by spring steel. ENGINEERING DATA° Field Installed Accessories RACD Series Illustration ST -A1273-31-00 Model No. Flow Rate CFM [Us] Throw 2 q; Feet [m] Neck Velocity fpm [m/s] Noise Level dbA) RXRN-AED3415 3600 [1692] 26-53 [7.9-16.2] 851 [4.3) 27 3800 [1786] 27-55 [8.2-16.8] 898 [4.5) 29 4000 [1880) 29-58 [8.8-17.7] 946 [4.8] 30 4200 [1974] 31-61 [9.4-18.6] 1 993 [5.1] 32 4400 [2068] 1 32-64 [9.8-19.5] 1040 [5.3] 33 4600 [2162] 1 34-66 [10.4-20.1] 1087.5 [5.5] 35 NOTES: O All data is based on the air diffusion council guidelines. Z Throw data is based on 75 FPM Terminal Velocities using isothermal air. 0) Throw is based on diffuser blades being directed in a straight pattern. U Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit. Designates Metric Conversions Field Installed Accessories RACD Series CONCENTRIC DIFFUSER -STEP DOWN 18" x 36" [457 x 914 mm] RXRN-AED3618 (12.5 & 15 Ton [44.0 & 52.8 kW] Models) For Use With Downflow Transition (RXMC-DD03) and 18" x 36" [457 x 914 mm] Supply and Return Ducts All aluminum diffuser with aluminum [12 return air eggcrate. Built-in anti -sweat gasket. SUPPLY Molded fiberglass supports. Built-in hanging supports. Diffuser box constructed of sheetmetal [ 91 insulated with 1 " [25.4 mm] 1.5 lbs. 7 kg] duct liner. Double deflection diffuser with the blades secured by spring steel. 12 Illustration ST -A1273-11-00 3 90 mm] 56 m 1156 mm] 1213 mm] Throw,2' S Feet [m] 3/4" I mm] Noise Level c"_a`, dbA) 4400 [2068] P0' 841 [4.3] 508 r RXRN-AED3618 4600 [2162] 31-57 [9.4-17.4] 875 [4.4] 29 5000 [2350] 33-62 [10.1-18.9] 951 [4.8] 30 nom] • 988 [5.1] 31 5400 [2538] 36-67 [10.9-20.4] 1025 [5.2] 32 O0 0EIEI 000 36" i mm] 0000 0000• 473, 1213 101:1• 0001 3 /y" I mm] i 23/8" 60 mm] F L3,/2" Vz" 18" 18" 3 90 mm] 56 m 1156 mm] 51 rt Throw,2' S Feet [m] Neck Velocity fpm ]m/sl Noise Level c"_a`, dbA) 4400 [2068] P0' 841 [4.3] 508 r RXRN-AED3618 4600 [2162] 31-57 [9.4-17.4] 875 [4.4] 29 5000 [2350] 33-62 [10.1-18.9] 951 [4.8] 30 nom] • 988 [5.1] 31 5400 [2538] 36-67 [10.9-20.4] 1025 [5.2] 32 ENGINEERING DATA"' 455/8" M] [1158 mm] 0 Model No. RETURN Throw,2' S Feet [m] Neck Velocity fpm ]m/sl Noise Level c"_a`, dbA) 4400 [2068] 29-55 [8.8-16.8] 841 [4.3] 26 RXRN-AED3618 4600 [2162] 31-57 [9.4-17.4] 875 [4.4] 29 5000 [2350] 33-62 [10.1-18.9] 951 [4.8] 30 nom] • 988 [5.1] 31 5400 [2538] 36-67 [10.9-20.4] 1025 [5.2] 32 Model No. Flow Rate CFM [L/sl Throw,2' S Feet [m] Neck Velocity fpm ]m/sl Noise Level c"_a`, dbA) 4400 [2068] 29-55 [8.8-16.8] 841 [4.3] 26 RXRN-AED3618 4600 [2162] 31-57 [9.4-17.4] 875 [4.4] 28 4800 [2256] 32-60 [9.8-18.3] 915 [4.6] 29 5000 [2350] 33-62 [10.1-18.9] 951 [4.8] 30 5200 [2444] 34-65 [10.4-19.8] 988 [5.1] 31 5400 [2538] 36-67 [10.9-20.4] 1025 [5.2] 32 NOTES: O All data is based on the air diffusion council guidelines. Throw data is based on 75 FPM Terminal Velocities using isothermal air. Throw is based on diffuser blades being directed in a straight pattern. Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit Designates Metric Conversions FLUSH MOUNT CONCENTRIC DIFFUSER -FLUSH RXRX-AEF2000 (7.5 & 8.5 Ton [26.4 & 29.9 kW] Models) For Use With Downflow Transition (RXMC-DD01) 20"[508 mm] Round Supply and Return Ducts All aluminum diffuser with aluminum return air eggcrate. Built-in anti -sweat gasket. Molded fiberglass supports. Built-in hanging supports. z" [ 5443 [ 310 mm) Diffuser box constructed of [1130 mm] 3 mmmJ sheetmetal insulated with 1 " [25.4 mm] 1.5 lbs. 7 kg] duct liner. 310 mm] 13" 330 mm) Illustration ST -A1273-14-00 ENGINEERING DATA° Field Installed Accessories RACD Series 27/a" 48- i 30" 173 mm) [1219 mm) 762 mm] Model No. Flow Rate CFM [L/sl Throw (Z T Feet [m] Neck Velocity tpm [m/sl 27M0•••• 689thm] 131?4i 337 mmr ,-' RXRN-AEF2000 3000 [1410] 20-30 [6.1-9.1] 35 3200 [1504] 22-33 [6.7-10.1] 816 [4.1] 9131/4' 91337 mm) • • 25-38 [7.6-11.6] 918 [4.7] 43 3800 [1786] 26-39 [7.9-11.9] 969 [4.9] 45 4000 [1880] 27-40 [8.2-12.2] 1020 [5.2] 48 27/a" 48- i 30" 173 mm) [1219 mm) 762 mm] Model No. Flow Rate CFM [L/sl Throw (Z T Feet [m] Neck Velocity tpm [m/sl Noise Level U dbA) 2600 [1222] 17-24 [5.2-7.31 663 [3.4] 30 2800 [1316] 18-28 [5.5-8.5] 714 [3.6] 35 RXRN-AEF2000 3000 [1410] 20-30 [6.1-9.1] 765 [3.9] 35 3200 [1504] 22-33 [6.7-10.1] 816 [4.1] 40 3400 [1598] 23-37 [7-11.3] 867 [4.4] 40 3600 [1692] 25-38 [7.6-11.6] 918 [4.7] 43 3800 [1786] 26-39 [7.9-11.9] 969 [4.9] 45 4000 [1880] 27-40 [8.2-12.2] 1020 [5.2] 48 NOTES: (D All data is based on the air diffusion council guidelines. 9 Throw data is based on 75 FPM Terminal Velocities using isothermal air. 0) Throw is based on diffuser blades being directed in a straight pattern. 40 Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit Designates Metric Conversions RELY ON RUUD.T" 101 Field Installed Accessories RACD Series CONCENTRIC DIFFUSER -FLUSH 1511 x 3411 [381 x 864 -mm] RXRN-AEF3415 (8.5 810 Ts% -i [29.9 8 35.2] Models) For Use With Downflow Transition (RXMC-DD02) 15" x 34" [381 x 864 mm] Supply and Return Ducts WIN, 0000.. 3600 [1692] All aluminum diffuser with aluminum 3T44.. return air eggcrate. 23/4" 70 mm] Built-in anti -sweat gasket. B L• Molded fiberglass supports. SUPPLY — Built-in hanging supports. Diffuser box constructed of sheetmetal insulated with 1" [25.4 mm] 1.5 lbs. 7 kg] duct liner. 23/4" 0000. 70 mm] Illustration ST -A1273-07-00 35/e" 92 mm] 413/4, 1060 mm] RETURN Flow Rate CFM [Us] 4404 Neck Velocity fpm [m/s] WIN, 0000.. 3600 [1692] 14-34 [4.3-10.4] 3T44.. 3800 [1786] 15-36 [4.6-11.1] 891 [4.5] 29 B L• 0000:. 16-37 [4.9-11.3] 413/4" 1060"00 4600 [2162] 19-43 [5.8-13.1] 1079 [5.5] 0000. 36 94 69. 40 0 00•.• 4 4000.• 4404 RETURN 15" 15" 35/e" 381 mm] [381 mm] [92 mm] 2V4" 57 mm] 2" 51 mm] ENGINEERING DATA° 357/8" 911 mm] Model No. Flow Rate CFM [Us] 4404 Neck Velocity fpm [m/s] Noise Level dbA) 0000.. 3600 [1692] 14-34 [4.3-10.4] 3T44.. 3800 [1786] 15-36 [4.6-11.1] 891 [4.5] 29 B L• 0000:. 16-37 [4.9-11.3] 413/4" 1060"00 4600 [2162] 19-43 [5.8-13.1] 1079 [5.5] 0000. 36 94 69. 40 0 00•.• 4 4000.• 4404 6496• 9 15" 15" 35/e" 381 mm] [381 mm] [92 mm] 2V4" 57 mm] 2" 51 mm] ENGINEERING DATA° 357/8" 911 mm] Model No. Flow Rate CFM [Us] Throw Z Z Feet [m] Neck Velocity fpm [m/s] Noise Level dbA) 3600 [1692] 14-34 [4.3-10.4] 844 [4.3] 27 3800 [1786] 15-36 [4.6-11.1] 891 [4.5] 29 RXRN-AEF3415 4000 [1880] 16-37 [4.9-11.3] 938 [4.8] 30 420011974J 17-39 [5.2-11.9] 985 [5.1] 32 4400 [2068] 18-41 [5.5-12.5] 1032 [5.2] 33 4600 [2162] 19-43 [5.8-13.1] 1079 [5.5] 35 4800 [2256] 20-45 [6.1-13.7] 1126 [5.7] 36 NOTES: O All data is based on the air diffusion council guidelines. Z Throw data is based on 75 FPM Terminal Velocities using isothermal air. Throw is based on diffuser blades being directed in a straight pattern. Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit. Designates Metric Conversions CONCENTRIC DIFFUSER -FLUSH 18" x 36" [457 x 914 mm] RXRN-AEF3618 (12.5 Ton [44.0 kW] MosUels) For Use With Downflow Transition (RXMC-DD03) and 18" x 36"[457 x 914 mm] Supply and Return Ducts All aluminum diffuser with aluminum return 43/4" air eggcrate. [ 121 mi Built-in anti -sweat gasket. SUPPLY Molded fiberglass supports. Built-in hanging supports. Diffuser box constructed of sheetmetal 36" insulated with 1 " [25.4 mm] 1.5 lbs. [914 Ir 7 kg] duct liner. Illustration ST -A1273-12-00 43/4" 1121 m 31/2" 90 mm] 413/4" 1061 mm] ENGINEERING DATA° 473/4" 1213 mm] 1. I . 2" 51 mm] 267/a" 683 mm] 23/8" 60 mm] 18"18" 457 mm] [457 mm] Field Installed Accessories RACD Series RETURN Neck Velocity fpm [m/s] Noise Level dbA) 0000.. III9 13-28 [4.1-8.5] 0000 Y 4800 [2256] 15-31 [4.6-9.4] 1002 [5.1] 39 1 5000 [2350] 16-32 [4.9-9.8] 0000.. 5200 (2444] 17-33 [5.2-10.1] 1083 [5.5] 1 476/4"s • 5400 [2538] 18-35 [5.5-10.7] 1123 [5.7] 121 mm? 00:00• 1 • • 0000•• 1 • 1I 0000.• I 0•..• 0 • I 0 2" 51 mm] 267/a" 683 mm] 23/8" 60 mm] 18"18" 457 mm] [457 mm] Field Installed Accessories RACD Series 31/2" 90 mm] Model No. RETURN Neck Velocity fpm [m/s] Noise Level dbA) 0000.. 4400 [2068] 13-28 [4.1-8.5] 0000 Y 4800 [2256] 15-31 [4.6-9.4] 1002 [5.1] 39 1 5000 [2350] 16-32 [4.9-9.8] 0000.. 5200 (2444] 17-33 [5.2-10.1] 1083 [5.5] 1 476/4"s • 5400 [2538] 18-35 [5.5-10.7] 1123 [5.7] 121 mm? 00:00• 1 • • 0000•• 1 • 11 • 0000.• I 0•..• 0 • 0 31/2" 90 mm] Model No. Flow Rate CFM [Us] Throw c1, !) Feet [m] Neck Velocity fpm [m/s] Noise Level dbA) RXRN-AEF3618 4400 [2068] 13-28 [4.1-8.5] 922 [47] 35 4600 [2162] 14-30 [4.3-9.1] 962 [4.9] 37 4800 [2256] 15-31 [4.6-9.4] 1002 [5.1] 39 5000 [2350] 16-32 [4.9-9.8] 1043 [5.3] 40 5200 (2444] 17-33 [5.2-10.1] 1083 [5.5] 42 5400 [2538] 18-35 [5.5-10.7] 1123 [5.7] 43 NOTES: OAll data is based on the air diffusion council guidelines. 9Throw data is based on 75 FPM Terminal Velocities using isothermal air. ZThrow is based on diffuser blades being directed in a straight pattern. Actual noise levels may vary due to duct design and do not include transmitted unit noise. Adequate duct attenuation must be provided to reduce sound output from the unit. Designates Metric Conversions RELY ON RUUD.TM103 Guide Specifications RACD Series GUIDE SPECIFICATIONS - RACD-090 thru 150 You may copy this document directly into your building specification. This specification is written to comply with the 2016 version of the "master format" as published by the Construction Specification Institute. www.csinet.org. ELECTRIC HEAT PACKAGED ROOFTOP HVAC Guide Specifications Size Range: 7.5 to 12.5 Nominal Tons Section Description 23 06 80 Schedules for Decentralized HVAC Equipment 23 06 80.13 Decentralized Unitary HVAC Equipment Schedule 23 06 80.13.A. Rooftop unit schedule . . ;"' •' see 1. Schedule is per the project specification requirements. • • • • : • • • • 23 0716 HVAC Equipment Insulation • • 23 0716.00.A Decentralized, Rooftop Units: • • • • • • • 1. Interior cabinet surfaces shall be insulated with a minimum 1/2 -in. thick, minimum 1.6 Ib densiV,, flexible fib;rgiass"insulation • 0•' ' '' bonded with a phenolic binder, with aluminum foil facing on the air side. 000. 2. Insulation and adhesive shall meet NFPA 90A requirements for flame spread and smoke gent *a&; o! we • e • 23 0913 Instrumentation and Control Devices for HVAC so*:* 23 0913.23 Sensors and Transmitters 23 0913.23.A. Thermostats . • : • • • 1. Thermostat must • • • • • • a. have capability to energize 2 different stages of cooling, and 2 different stages of heating. b. must include capability for occupancy scheduling. 23 09 23 Direct -Digital Control System for HVAC 23 09 23.00A RTU -C controller 1. Shall be ASHRAE 62-2001 compliant. 2. Shall accept 18-32VAC input power. 3. Shall have an operating temperature range from -40°F (-40°C) to 1580E -(700C), 10%-95% RH (non -condensing). 4. Controller shall accept the following inputs: space temperature, setpoint adjustment, outdoor air temperature, indoor air quality, outdoor air enthalpy, fire shutdown, return air enthalpy, fan status, remote time clock/door switch. 5. Shall accept a CO2 sensor in the conditioned space, and be Demand Control Ventilation (DCV) ready. 6. Shall provide the following outputs: Economizer, fan, cooling stage 1, cooling stage 2, heat stage 1, heat stage 2, exhaust, occupied. 7. Unit shall provide surge protection for the controller through a circuit breaker. 8. Shall have a field installed communication card allowing the unit to be Internet capable, and communicate at a Baud rate of 19.2K or faster 9. Shall have an LED display independently showing the status of activity on the communication bus, and processor operation. 10. Shall have either a field installed BACnet' plug-in communication card which includes an EIA -485 protocol communication port, or a field installed LonWorksT" plug-in communications card. 11. Software upgrades will be accomplished by local download. Software upgrades through chip replacements are not allowed. 12. Shall be shock resistant in all planes to 5G peak, 11 ms during operation, and 10OG peak, 11 ms during storage. 13. Shall be vibration resistant in all planes to 1.5G @ 20-300 Hz. 14. Shall support a bus length of 4000 ft max, 60 devices per 1000 ft section, and 1 RS -485 repeater per 1000 ft sections. 23 09 23.00.B. Open protocol, direct digital controller: 1, Shall be ASHRAE 62-2001 compliant. 2. Shall accept 18-30VAC, 50-601-1z, and consumer 15VA or less power. 3. Shall have an operating temperature range from -40°F (-40°C) to 130OF (54°C),10% - 90% RH (non -condensing). 4. Shall have either a field installed BACnet' plug-in communication card which includes an EIA -485 protocol communication port, or a field installed LonWorksT" plug-in communications card. 5. The BACnet' plug in communication card shall include built-in protocol for BACNET (MS/TP and PTP modes) 6. The LonWorks" plug in communication card shall include the Echelon processor required for all Lon applications. 7. Shall allow access of up to 62 network variables (SNVT). Shall be compatible with all open controllers 8. Baud rate Controller shall be selectable through the EIA -485 protocol communication port. 9. Shall have an LED display independently showing the status of serial communication, running, errors, power, all digital outputs, and all analog inputs. 104RELY ON RUUD." Guide Specifications RACD Series 10. Shall accept the following inputs: space temperature, setpoint adjustment, outdoor air temperature, indoor air quality, outdoor air enthalpy, compressor lock -out, fire shutdown, enthalpy switch, and fan status/filter status/ humidity/ remote occupancy. 11. Shall provide the following outputs: economizer, fan, cooling stage 1, cooling stage 2, heat stage 1, heat stage 2, exhaust. 12. Software upgrades will be accomplished by either local or remote dov:r;oad. No software upgrades through chip replacements are allowed.63 23 09 33 Electric and Electronic Control System for HVAC 23 09 33.00.A. General: 1. Shall be complete with self-contained low -voltage control circuit protected by a resettable circuit breaker on the 24-v transformer side. Transformer shall have 100VA capabilities. 2. Shall utilize color -coded wiring. 3. Shall include a central control terminal board to conveniently and safely provide connection points for vital control functions such as: smoke detectors, phase monitor, economizer, thermostat, DDC control options, loss of charge, freeze sensor, high pressure switches. 4. Unit shall include a minimum of one 10 -pin screw terminal connection board for connection of control wiring. 23 09 33.00.B. Safeties: 1. Compressor over -temperature, over current. 2. Loss of charge switch. a. Units with 2 compressors shall have different colored wires for the circuit 1 and circuit 2 low and high pressure switches. b. Loss of charge switch shall use different color wire than the high pressure switch. The purpose is to assist the installer and service technician to correctly wire and or troubleshoot the rooftop unit. 0 :.. • ; • c. Loss of charge switch shall have a different sized connector than the high pressure switcM;Q1byshall pli i ally prevehf' •; • the cross -wiring of the safety switches between the high and low pressure side of the sygtg" . . &• 3. High-pressure switch. 0 0 0:0 a. Units with 2 compressors shall have different colored wires for the circuit 1 and circuit 2 low.and high pwsure switch;,.. •.: b. High pressure switch shall use different color wire than the low pressure switch. The purp to assist A ip9taller Id. service person to correctly wire and or troubleshoot the rooftop unit. • • • • . ... • c. High pressure switch shall have a different sized connector than the loss of charge switcfl'TtIdy shall phyaically prevent.... the cross -wiring of the safety switches between the high and low pressure side of the s}1$ ".• 4. Freeze protection sensor, evaporator coil. ....:. 5. Automatic reset, motor thermal overload protector. • . . 23 09 93 Sequence of Operations for HVAC Controls . . • • 23 09 93.00.A INSERT SEQUENCE OF OPERATION 23 41 13 Panel Air Filters 2341 13.00.A. Standard filter section shall 1. Shall consist of factory -installed, low velocity, throwaway 2 -in. thick fiberglass filters of commercially available sizes. 2. Filters shall be accessible through an access panel as described in the unit cabinet section of this specification (23 81 19.13.1-0. 23 81 19 Self -Contained Air Conditioners 2381 19.13 Small -Capacity Self -Contained Air Conditioners 23 81 19.13.A. General 1. Outdoor, rooftop mounted, electrically controlled, heating and cooling unit utilizing a(n) hermetic scroll compressor(s) for cooling duty and heat pump for heating duty. 2. Factory assembled, single -piece heating and cooling rooftop unit. Contained within the unit enclosure shall be all factory wiring, piping, controls, and special features required prior to field start-up. 3. Unit shall use environmentally sound R-41 Oa refrigerant. 4. Unit shall be installed in accordance with the manufacturer's instructions. 5. Unit must be selected and installed in compliance with local, state, and federal codes. 23 81 19.13.B. Quality Assurance 1. Unit meets ASHRAE 90.1-2007 and 2013 minimum efficiency requirements. 2. 3 phase units are Energy Star qualified. 3. Unit shall be rated in accordance with AHRI Standards 210/240 and 340/360. 4. Unit shall be designed to conform to ASHRAE 15. 5. Unit shall be UL -tested and certified in accordance with ANSI 221.47 Standards and UL -listed and certified under Canadian standards as a total package for safety requirements. 6. Insulation and adhesive shall meet NFPA 90A requirements for flame spread and smoke generation. 7. Unit casing shall be capable of withstanding 1000 -hour salt spray exposure per ASTM 13117 (scribed specimen). II . RELY ON RUUD.TM 105 Guide Specifications RACD Series 8. Unit shall be designed in accordance with ISO 9001:2015, and shall be manufactured in a facility registered by ISO 9001:2015. 9. Roof curb shall be designed to conform to NBCA Standards. 10. Unit shall be subjected to a completely automated run test on the assembly line. The dateor each unit will be stored at the factory, and must be available upon request. 11. Unit shall be designed in accordance with UL Standard 1995, Fifth Edition including tested to withstand rain. 12. Unit shall be constructed to prevent intrusion of snow and tested to prevent snow intrusion into the control box up to 40 mph. 23 81 19.13.C. Delivery, Storage, and Handling 1. Unit shall be stored and handled per manufacturer's recommendations. 2. Lifted by crane requires either shipping top panel or spreader bars. 3. Unit shall only be stored or positioned in the upright position. 2381 19.13.E. Project Conditions 1. As specified in the contract. 2381 19.13.F. Operating Characteristics 1. Unit shall be capable of starting and running at 115°F (46°C) ambient outdoor temperature, meeting maximum load criteria of AHRI Standard 210/240 or 340/360 at t 10% voltage. 2. Compressor with standard controls shall be capable of operation from 40°F (4°C) , ambient outdoor temperatures. Accessory low ambient kit is necessary if mechanically cooling at ambient temperatures below 40OF (40C). 3. Unit shall discharge supply air vertically or horizontally as shown on contract drawings. 4. Unit shall be factory configured for vertical supply & return configurations. 0 • • • • 0 • 5. Unit shall be field convertible from vertical to horizontal configuration. • 9 9. *000 0000.. 9 2381 19.13.G. Electrical Requirements • • 0:0 • ' 0 0 9 0 0:0 1. Main power supply voltage, phase, and frequency must match those required by the manufacfuW * 9 • 9 2381 19.13.H. Unit Cabinet . •"'. ; 9 • • 000% 0000 .. 1. Unit cabinet shall be constructed of galvanized pre -painted steel. 0000.. 9 ... 2. Unit cabinet exterior paint shall be: film thickness, (dry) 0.003 inches minimum, flat (per ASTMA54.3•d0°F): 60+H;9ess: 9 H -2H Pencil hardness. . • * 0 • 0 . 000.9 3. Evaporator fan compartment interior cabinet insulation shall conform to AHRI Standards 210/240 8440/360. minimum exterior sweat criteria. Interior surfaces shall be insulated with a minimum 1/2 -in. thick, 1.6 Ib density, flexibilfII1&§IKss insulation, aluminum foil -faced on the air side. '..' ; 9 9....: 4. Base of unit shall have locations for thru-the-base electrical connections (factory installed or field installed), 9tvd;jrti. 5. Base Rail a. Unit shall have base rails on all sides. b. Holes shall be provided in the base rails for rigging shackles to facilitate maneuvering and overhead rigging. c. Holes shall be provided in the base rail for moving the rooftop by fork truck. d. Base rail shall be a minimum of 14 gauge thickness. 6. Condensate pan and connections: a. Shall be a sloped condensate drain pan made of a non -corrosive material. b. Shall comply with ASHRAE Standard 62. c. Shall use a 3/4" NPT drain connection, through the side of the drain pan. Connection shall be made per manufacturer's recommendations. 7. Top panel: a. Indoor section shall be a single piece top panel. 8. Electrical Connections a. All unit power wiring shall enter unit cabinet at a single, factory -prepared, knockout location. b. Thru-the-base capability 1. Standard unit shall have a thru-the-base electrical location(s) using a raised, embossed portion of the unit basepan. 2. No basepan penetration, other than those authorized by the manufacturer, is permitted. 9. Component access panels (standard) a. Cabinet panels shall be easily removable for servicing. b. Stainless steel metal hinges are standard on all doors. c. Panels covering control box, indoor fan, indoor fan motor, and electric or gas heater components (where applicable), shall have 1/4 turn latches. Guide Specifications RACD Series 23 81 19.13.J. Coils 1. Standard Aluminum Micro Channel Coils: on all models. a. Standard evaporator and condenser coils shall have aluminum micro channel coils. b. Evaporator and Condenser coils shall be leak tested to 150 psig, pressure tested to 550 psig, and qualified to UL 1995 burst test at 2,200 psig. 23 81 19.13.K. Refrigerant Components 1. Refrigerant circuit shall include the following control, safety, and maintenance features: a. Thermal Expansion Valve O -W with ventun type distributor. b. Refrigerant filter drier. c. Extemal service gauge connections to unit suction and discharge lines. 2. Compressors a. Unit shall use one fully hermetic, scroll compressor for each independent refrigeration circuit. b. Compressor motors shall be cooled by refrigerant gas passing through motor windings. d. Compressors shall be internally protected from high discharge temperature conditions. e. Compressors shall be protected from an over -temperature and over -amperage conditions by an internal, motor overload device. f. Compressor shall be factory mounted on rubber grommets. g. Compressor motors shall have internal line break thermal, current overload and high pressure differential protection. h. Crankcase heaters shall not be required for normal operating range. 4 . 2381 19.13.L Filter Section ; • • :0000* 4444.. 1. Fitters access is specified in the unit cabinet section of this specification." • • • • • 2. Fitters shall be held in place by a sliding filter tray, facilitating easy removal and installation. • : •' 0000 • • • • • 4444.. 3. Shall consist of factory -installed, low velocity, throw -away 2 -in. thick fiberglass filters. • • • • ; • • 4. Filters shall be standard, commercially available sizes. '... ' • ' 5. Filter face velocity shall not exceed 365 fpm at nominal airflows. • 4444. . • 4444. 23 81 19.13.M. Evaporator Fan and Motor • • • • • ' ..' ; 4999.. 1. Evaporator fan motor: ;' •; • . • • 9 a. Shall have permanently lubricated bearings. ; • ...... b. Shall have inherent automatic -reset thermal overload protection or circuit breaker. • • 9.99 c. Shall have a maximum continuous bhp rating for continuous duty operation; no safety factors above 4 m4img shalf ' be required. " 2. Belt -driven Evaporator Fan: a. Belt drive shall include an adjustable -pitch motor pulley. b. Shall use sealed, permanently lubricated ball-bearing type. c. Blower fan shall be double -inlet type with forward -curved blades. d. Shall be constructed from steel with a corrosion resistant finish and dynamically balanced. 23 81 19.13.N. Condenser Fans and Motors 1. Condenser fan motors: a. Shall be a totally enclosed motor. b. Shall use permanently lubricated bearings. c. Shall have inherent thermal overioad protection with an automatic reset feature. d. Shall use a shaft -down design. Shaft -up designs including those with "rain -slinger devices" shall not be allowed. 2. Condenser Fans: a. Shall be a direct -driven propeller type fan. b. Shall have aluminum blades riveted to corrosion -resistant steel spiders and shall be dynamically balanced. 23 81 19.13.0. Special Features, Options and Accessories 1. Integrated Economizers: a. Integrated, gear -driven parallel modulating blade design type capable of simultaneous economizer and compressor operation. b. Independent modules for vertical or horizontal return configurations shall be available. Vertical return modules shall be available as a factory installed option. c. Damper blades shall be galvanized steel with metal gears. Plastic or composite blades on intake or return shall not be acceptable. Guide Specifications RACD Series d. Shall include all hardware and controls to provide free cooling with outdoor air when temperature and/or humidity are below setpoints. e. Shall be equipped with gear driven dampers for both the outdoor ventilation air and the return air for positive air stream control. Shall be capable of introducing up to 100% outdoor air. g. Shall be equipped with a barometric relief damper capable of relieving up to 100% return air. h. Shall be designed to close dampers) during loss -of -power situations with spring return built into motor. i. An outdoor single enthalpy sensor shall be provided as standard. Outdoor air sensor setpoint shall be adjustable and shall range from the enthalpy equivalent of 63°F @ 50% rh to 73°F @ 50% rh. Additional sensor options shall be available as accessories. j. The economizer controller shall also provide control of an accessory power exhaust unit function. Factory set at 70%, with a range of 0% to 100%. k. The economizer shall maintain minimum airflow into the building during occupied period and provide design ventilation rate for full occupancy. A remote potentiometer may be used to override the damper setpoint. 1. Dampers shall be completely closed when the unit is in the unoccupied mode. m. Economizer controller shall accept a 2-10Vdc CO2 sensor input for IAQ/DCV control. In this mode, dampers shall modulate the outdoor -air damper to provide ventilation based on the sensor input. n. Compressor lockout sensor on the unit controller is factory set at 35°F and is adjustable from 30°F (-1 °C) to 50°F (10°C) and resets the cooling lockout at 5°F (+2.7°C) above the set point. o. Actuator shall be direct coupled to economizer gear. No linkage arms or control rods shall be acceptable.. p. Economizer controller shall provide indications when in free cooling mode, in the DCV modg, ortlle exhaust fan contact • ... • • is closed. ' • • • *V06 q. Economizer wire harness will have provision for smoke detector. *00:00 • • • • 2. Two -Position Motorized Damper a. Damper shall be a Two -Position Motorized Damper. Damper travel shall be from the full cloSg4 pp8ition tote field adjustable %-open setpoint. 00000 b. Damper shall include adjustable damper travel from 25% to 100% (full open). . •' • • • c. Damper shall include single or dual blade, gear driven dampers and actuator motor. • • • • • . • d. Actuator shall be direct coupled to damper gear. No linkage arms or control rods shall be Iceptable. • e. Damper will admit up to 100% outdoor air for applicable rooftop units. : •' • • f. Damper shall close upon indoor (evaporator) fan shutoff and/or loss of power. • • • • • • g. The damper actuator shall plug into the rooftop unit's wiring harness plug. No hard wiring shall be requireci. ' h. Outside air hood shall include aluminum water entrainment filter 3. Manual damper a. Manual damper package shall consist of damper, air inlet screen, and rain hood which can be preset to admit up to 50% outdoor air for year round ventilation. 4. Head Pressure Control Package a. Controller shall control coil head pressure by condenser -fan cycling. 5. Condenser Coil Hail Guard Assembly a. Shall protect against damage from hail. b. Shall be louvered design. 6. Convenience Outlet: a. Non -Powered convenience outlet. 1. Outlet shall be powered from a separate 115-120v power source. 2. A transformer shall not be included. 3. Outlet shall be factory -installed and internally mounted with easily accessible 115-v female receptacle. 4. Outlet shall include 15 amp GFI receptacles. 5. Outlet shall be accessible from outside the unit. 7. Fan/Filter Status Switch: a. Switch shall provide status of indoor evaporator fan (ON/OFF) or filter (CLEAN/DIRTY). b. Status shall be displayed either over communication bus (when used with direct digital controls) or through the controller LCD display inside the unit control box. 8. Propeller Power Exhaust: a. Power exhaust shall be used in conjunction with an integrated economizer. b. Independent modules for vertical or horizontal return configurations shall be available. Guide Specifications RACD Series c. Horizontal power exhaust is shall be mounted in return ductwork. d. Power exhaust shall be controlled by economizer controller operation. Exhaust fans shall be energized when dampers open past the 0-100% adjustable setpoint on the economizer control. 9. Roof Curbs (Vertical): a. Full perimeter roof curb with exhaust capability providing separate air streams for energy recovery from the exhaust air without supply air contamination. b. Formed galvanized steel with wood nailer strip and shall be capable of supporting entire unit weight. c. Permits installation and securing of ductwork to curb prior to mounting unit on the curb. 10. High -Static Indoor Fan Motor(s) and Drive(s): a. High -static motor(s) and drive(s) shall be factory -installed to provide additional performance range. 11. Outdoor Air Enthalpy Sensor. a. The outdoor air enthalpy sensor shall be used to provide single enthalpy control. When used in conjunction with a return air enthalpy sensor, the unit will provide differential enthalpy control. The sensor allows the unit to determine if outside air is suitable for free cooling. 12. 13. Return Air Enthalpy Sensor: a. The return air enthalpy sensor shall be used in conjunction with an outdoor air enthalpy sensor to provide differential enthalpy control. 14. Indoor Air Quality (CO2) Sensor. a. Shall be able to provide demand ventilation indoor air quality (IAQ) control. :...: • b. The IAQ sensor shall be available in wall mount with LED display. The setpoint shall have'a4dstjient capility. 15. Smoke detectors: g f • g f • ' • a. Shall be a Four -Wire Controller and Detector. g•g•f• b. Shall be environmental compensated with differential sensing for reliable, stable, and drjr-fldt%ensitivitoyt, • • c. Shall use magnet -activated test/reset sensor switches. • "' • • • d. Shall have a recessed momentary switch for testing and resetting the detector. + f e. Controller shall include: • • • 1. One set of normally open alarm initiation contacts for connection to an initiating de;icebir uit on jafirealarm control panel. • . • • • • • 2. Two Form -C auxiliary alarm relays for interface with rooftop unit or other equipment.** g • : • • 3. One Form -C supervision (trouble) relay to control the operation of the Trouble LED on a remote tesi/ras%Station. 4. Capable of direct connection to two individual detector modules. 5. Can be wired to up to 14 other duct smoke detectors for multiple fan shutdown applications. 16. Electric Heat: a. Heating Section 1. Heater element open coil resistance wire, nickel -chrome alloy, strung through ceramic insulators mounted on metal frame. Coil ends are staked and welded to terminal screw slots. 2. Heater assemblies are provided with integral fusing for protection of internal heater circuits not exceeding 48 amps each. Auto reset thermo limit controls, magnetic heater contactors (24 v coil) and terminal block all mounted in electric heater control box (minimum 18 ga galvanized steel) attached to end of heater assembly. 26 29 23.12. Adjustable Frequency Drive 1. Unit shall be supplied with an electronic variable frequency drive for the supply air fan. 2. Drive shall be factory installed in an enclosed cabinet. 3. Drive shall meet UL Standard 95-5V. 4. The completed unit assembly shall be UL listed. 5. Drives are to be accessible through a tooled access hinged door assembly. 6. The unit manufacturer shall install all power and control wiring. 7. The supply air fan drive output shall be controlled by the factory installed main unit control system and drive status and operating speed shall be monitored and displayed at the main unit control panel. 8. Drive shall be programmed and factory run tested in the unit. i Limited WarrantywRACDSeries 0400•• 0.00.• 0 0000•• 0 4••• 0 000 • 0• 0000•• 0000• • 00•• BEFORE PURCHASING THIS APPLIANCE, READ IMPORTANT ENERGY COST AND EFFICIENCY INFORMATION AVAILABLE FROM YOUR RETAILER. GENERAL TERMS OF LIMITED WARRANTY* Ruud will furnish a replacement for any part of this product which fails in normal use and service within the applicable periods stated, in accordance with the terms of the limited warranty. For complete details of the Limited and Conditional Warranties, including applicable terms and conditions, contact your local contractor or the Manufacturer for a copy of the product warranty certificate. 110 RELY ON RUUD.'" Compressor 3 Phase, Commercial Applications ................Five (5) Years Parts 3 Phase, Commercial Applications ..................One (1) Year sr 0000•• 0000 0000•• 0000 0000•• 0000 0000 0000•• 0000•• 0000•• 0400•• 0.00.• 0 0000•• 0 4••• 0 000 • 0• 0000•• 0000• • 00•• BEFORE PURCHASING THIS APPLIANCE, READ IMPORTANT ENERGY COST AND EFFICIENCY INFORMATION AVAILABLE FROM YOUR RETAILER. GENERAL TERMS OF LIMITED WARRANTY* Ruud will furnish a replacement for any part of this product which fails in normal use and service within the applicable periods stated, in accordance with the terms of the limited warranty. For complete details of the Limited and Conditional Warranties, including applicable terms and conditions, contact your local contractor or the Manufacturer for a copy of the product warranty certificate. 110 RELY ON RUUD.'" Compressor 3 Phase, Commercial Applications ................Five (5) Years Parts 3 Phase, Commercial Applications ..................One (1) Year sr DIVISION OF Environmental Health IftVOA 11805 26th Street • Miami, FL 33175YzjO Inspect]2d-k r Date Address OSTDS # f11" 16 22 Florida Health Miami -Dade County OSTDS/Well Division Comments: Signature ft 1G - 17" a 5 6 3 lvfes rL 33138 INSPECTION REQUESTS: (305)762.4949 or to on h ~" '"" e "are: 4/77/, Requests greceivedby3.30pm'ld9'ms 9ovlenergov--Prod/sellserviceWORKISALLOWED: MONDAYTHROUG,H FRIDAY, 8:00AM - nopmSATURDAY8:00AM - 6:00PM. NO WORK ISALLOWED ON SUNDAY OR HOLIDAYS BUILDING AND ROOFING INSPECTIONS ARE DONE MONDAY THROUGH FRIDAY. NO INSPECTION WILL BE MADE UNLESS THE PERMIT CARD IS DISPLAYED AND HAS BEEN APPROVED . PLANSAREREADILYAVAILABLE . IT IS THE PERMIT APPLICANTS RESPONSIBILITY TO ENSURE THAT WORK IS ACCESSIBLE ANDEXPOSEDFORINSPECTIONPURPOSES. NEITHER THE BUILDING OFFICIAL NOR THE CITY SHALL BE LIABLE FOREXPENSEENTAILEDINTHEREMOVALORREPLACEMENTOFANYMATERIALREQUIREDTOALLOWINSPECTION . Owner's Name: Job Address: 9835 NE 2ND AVE Miami Shores, FL 33138 Contractor(s) Phone J.C. & ASSOCIATES GROUP, INC (305)253-8225 Owner's Phone: POST ON SITE 1132060134380 Total Square Feet: 2,480 dotal Job Valuation: $ 58,580.00 Address 10820 SW 200 DR 100, MIAMI, FL 33157 Description: NEW PROPOSED RESTAURANT IN EXISTING RETAIL BUILDING. DINING, BAR & FULL KITCHEN. UNIT#9835 BUSINESS NAME: SINS Nd WARNING TO*OWNER: YOUR FAILURE TO RECORD A NOTICE OF COMMENCEMENT MAY RESULT IN YOUR PAYING TWICE FOR IMPROVEMENTS TO YOUR PROPERTY. A NOTICE OF COMMENCEMENT MUST BE RECORDED AND POSTED ON THE JOB SITE BEFORE THE FIRST INSPECTION. IF YOU INTEND TO OBTAIN FINANCING, CONSULT WITH YOUR LENDER OR AN ATTORNEY BEFORE COMMENCING WORK OR RECORDING YOUR NOTICE OF COMMENCEMENT. Page 1 of 1 INSPECTION DATE INSP Foundation Stemwall Slab Columns (1st Lift) Columns (2nd Lift) Tie Beam Truss/Rafters Roof Sheathing Bucks Interior Framing p Insulation Ceiling Grid Drywall Firewall Wire Lath Pool Steel Pool Deck Final Pool Final Fence Driveway ,Base, Tin Cap In -Progress Roof Installation Roofing Final — Shutters Attachment Final Shutters Rails and Guardrails " ADA compliance DOCUMENTS Soil Bearing Cert Soil Treatment Cert Floor Elevation Survey Reinf Unit Mas Cert Insulation Certificate Spot Survey Final Survey Truss Certification STRUCTURAL COMMENTS ai S 6) WINDOWSDOORS INSPECTION I DATE IIN Attachment INSPECTION WORKSPUBLIC DATE INSP Excavation Ni ELECTRICAL INSPECTION DATE INSP Temporary Pole 30 Day Temporary Pool Bonding Pool Deck Bonding Pool Wet Niche Underground Footer Ground Slab Wall Rough Ceiling Rough Rough Telephone Rough l Telephone Final TV Rough TV Final Cable Rough Cable Final Intercom Rough Intercom Final Alarm Rough Alarm Final Fire Alarm Rough Fire Alarm Final Service Work With cq ELECTRICAL COMMENTS INSPECTION I DATE JINSP Final Sprinkler Final Alarm use INSPECTION DATE INSP Rough Water Service 2nd Rough 107k.. t Awl Top Out Fire Sprinklers Septic Tank Sewer Hook-up Roof Drains Gas LP Tank Well Lawn Sprinklers Main Drain Pool Piping Backflow Preventor Interceptor Catch Basins Condensate Drains HRS Final PLUMBING COMMENTS lowR 9:n - o ce t G MECHANICAL Q INSPECTION DATE INSP Underground Pipe Rough Ventila#ion Rough Hood Rough Pressure Test Final Hood Final Ventilation Final Pool Heater Final Vacuum MECHANICAL COMPA S 46 le pCAA W_ It l FOG CONTROL DEVICE (FCD) INSTALLATION INSPECTION 0 M =1 DEPARTMENT OF REGULATORY AND ECONOMIC RESOURCES Division of Environmental Resources Management (DERM) Water and Wastewater Section 1 701 NW 1 st Court • Miami, FL 33136 0 rRUCTUR Sternwall Slab Columns (1st Lift) Columns (29citift) Tie Bean Truss/Raft ers- Roof Sh thing Bucks interior Framing Insulation ceiling Grid Drywall Firewall Wire Lath Pool Steel pool 0eck Final Pool 71 Final,Fence Screen' Enclosures IShutters 'Attacnmen i r7 Fin a=te rs,, I Rails ind'Gukdrails, ADA compliance_ DOWIVIENI Soil Bearing Cert Soil -Treatment Ce .rt Mi"L Floor Elevation Survey Reinf Unit Mas Cert insulation Certificate S po Su veyopt- Su'Ney Final Survey Truss Certification -, VIRUCTURAL C01 INSPECTION'RECOR INSP DOORS M cK PLUMBING 57 Water Service nd i e o 7ug Water Se nd 0 g2 . Rough 0TopOut SDATEINspFireSprinklers Septic Tank Sewer Hook-up Roof Drains Gas DATE INSP LP Tank 1A1 lit Temporary Pole I Lawn Sprinklers_ AO Day Temporary Pool Bonding Main Drain Pohl Deck Bonding Pool Piping P601 Wet Niche Backflow'Preventor Interceptornterceptor Footer-Groutid Catch Basins lCotidensate Dra'ins,l. Slab HRS FiriaL., Wall Rough Ceiling Rough Rough _ _ , P11-11 Telephone Rough Telephone Final TV,Rough TV Final Cable Rough Cable Final Intercom Rough hterc)m Final Alarm Rough Rough pho 'ne ough:T Alarm Final Fire Alarm Rough Firet rm IFireAlarmFin5I Sjrvjj e Work With... ELECTELECT RICAL COMMEN' PLUMBING COMMENTS r ;CL R) FA= MECHAWICAL. M01r1op"T"", YMW—Ria Hood Rough Pressure Test_ FinalHood Final Ventilation Final Pool Heater - ihal'V icuu& MECHANICAL CO Ile Name: Permit # Email: CpP_toSCo s NsGAStiBP'F ,SAM Miami Shores Village Building Department 10050 N.E.2nd Avenue Miami Shores, Florida 33138 Tel: (305) 795.2204 Fax: (305) 756.8972 Phone # -963-`k99 CERTIFICATE OF OCCUPANCY/COMPLETION CHECK LIST uilding permit card. Surveys (2 copies) Final as built - Required Items: Elevations of buildings showing all intended setbacks from property lines and other existing structures. Ingress+ Egress, required parking spaces, Wheel stops, stripping, and all paving to exterior. Certificate of Elevation — (Sealed by surveyor). Expiration date required on the form. Certificate of Insulation. Certificate of Soil Treatment (Final treatment -original)\ CHAPTER 2913-5 TERMITE PROTECTION: "This Building has received a complete treatment for the prevention of subterranean termites. Treatment is in accordance with the rules and as established by the Florida Department of Agriculture and Consumer Services." W//Health Department Approval Letter (On septic or private water). Note: If the house is on septic tank, approval letter is required from Health Dpt. Soil Compaction Letter (Density report is required) R gal certification letter from the Engineer/Architect (on masonry, trusses, special structure, etc) Backflow preventor certificate (Required on commercial projects only) Declaration of use. (Recorded in Miami -Dade Clerk of Courts) PLEASE NOTE THAT THE SAME ITEMS ARE REQUIRED FOR TEMPORARY CO Emergency-Ea-(Wfthrottt24-Hrs-ProcessirrgyAdditionaf fee -is -$80.00. Temporary CO (Up to 90 days max) $75.00. Residential CO $150.00 Residential CC $50.00 Commercial CO and CC $200.00 cjck. U AVl- UtJ 1 IS Tb T!4 E: P l.-.0 Vl —L-> C ZWVI . ISLATEK® Corporate Headquarters Mr. Mike Dominquez Santa Rosa All Weather Insulation 6130 N.W. 74 Avenue Miami, FL 33166 Re: 9835 NW 2 Ave — G- G —1 r/- l O - 2g; Dear Mr. Dominquez: REF 04NF9094 Isolatek International 41 Furnace Street Stanhope, NJ 07874 Telephone: 973.347.1200 April 4, 2019 This is in regards to CAFCO® BLAZE -SHIELD® II Spray Applied Fire Resistive Material (SFRM) for the above referenced project. It is our understanding that project conditions consist of a shaft wall constructed of 2 inch by 6 inch wood studs and gypsum wallboard cover on both sides. You have inquired as to a method for achieving a 2 hour rated wall. We propose first removing one side of the gypsum wallboard cover. CAFCO BOND -SEAL must be applied as a sealant to the back side of the in place gypsum wall board. CAFCO BLAZE -SHIELD II will then be sprayed into the cavity to a minimum thickness of 3-5/8" in accordance with UL Design U357. The entirety of the cavity does not need to be filled. Please be advised that the CAFCO BLAZE -SHIELD II must be completely cured prior to the reinstallation of the gypsum wall board and the cavity being sealed. It is our opinion that the fire resistive rating shall be achieved provided that the CAFCO SFRM is applied in accordance with the written application and installation instructions, the method proposed, and UL Guidelines. The above recommendation is being provided to assist the architect, project team, owner and authority having jurisdiction to determine a suitable protection method for the construction assembly. Authorities having jurisdiction should be consulted in all cases where approval is to be obtained for all installations that fall outside the scope of UL or design guidelines. We trust this information is of assistance. Should you have any questions, please feel free to contact the undersigned at 973-347-1200. Sincerely, Nicholas Federici Applications & Development Engineer CAFCO® Fire Protection Products NF Cc: J. Steck - Isolatek International p-.wi " No • -20 10 744 • ISOLATEK Brand www.isolatek.com Brand Harpoon,EWMAINpN Fest Control Fro* 4 ni777 P.O. Box 942513 • Miami, FL 33194-2513 • Tel: 786-286-1349 7 Email: harpoonpro@live.com D. A. C. S. Bureau of Entomolgy & Pest Control License JB 167045 CERTIFICATE OF PRE CONSTRUCTION SOIL TREATMENT CERTIFICATE No. 015 3 Property owner: Builder Company: Treatment permormed at: Legal description (if available) 15- q L) Footing application [OSlab appliation Final (perimeter) application THIS CERTIFICATE IS GOOD ONLY FOR ONE KIND OF APPLICATION Total square foot treated:_jc)Date of treatment: U ` Common name of pesticide: z2lle 1 '7C Solution applied at: Q % uantity Operator: ejy 11 Signature of Licensee or Agent Certified pest control operator: Date: 6 1 of solution applied: - EDUCATION - PREVENTION - HYGIENE A NEW CONCEPT ON PEST CONTROL TECHNIQUES " YcM Engineering Concepts Corp. 4 Date: 07-30-2019 To: Ismael Naranjo, Building Official Miami Shores Village 10050 NE 2"d Ave Miami Shores FL 33138 From: Yan Luis Solis, P.E Ref: Soil Compaction Inspection Report Address: 9801 NE 2"d Ave, Miami Shores FL 33138 Permit # PLC 10-18-2563 Dear Building official: 1, Yan Luis Solis P.E, did a site inspection for the above reference location. 1 attest that the compaction at the Paver and Concrete area located at the East Side of the Property (Non vehicular Traffic Courtyard) was more than 98% as per Note on the approved PWK-1 Plan. This compaction was made in 2 different times in Stratum of 8" each with enough water helped giving us at least a capacity of 2000 Pounds / Sq. Ft. Concrete area compaction was field verified on April 29, 2019 and compaction on the paver area on May 20, 2019.The material used was lime rock that has the optimum moisture content and proper loose consistency after being compacted to a density no less than 98% determined by A ASHTO T 180. 1n each stratum preparation was the same and the material was placed in layer of no more than 8". We checked different points approximately 4'-0" straightedge laid parallel and across and we did not detected irregularities greater than 0.25". The area was checked after compacted. If you have any questions do not hesitate to contact me. Sincerely Lrsrr,,, CEN3 F 75 23 ..;f STAT F '(v Rt R IOP irrrrrr Yan Luis Solis, P.E 305-484-5596 Yan.solis@ycmengineering.com Florida De artment of Business ProfeSsianal Regulation Ron DeSantis, Governor Halsey Beshears, Secretary JULY 29, 2019 ARE YOU READY FOR YOUR INSPECTION? EMAIL: DHR.DISTRICT1 @MYFLORIDALICENSE.COM With your file number TWO BROTHERS REST LLC 9835 NE 2ND AVE MIAMI SHORES, FL 33138 Re: Division of Hotels and Restaurants Plan Review License Type: 2010 PERMANENT FOOD SERVICE Application No. 1170474 D130 Log No. HQ -19-6725 Dear Plan Review Applicant: File #319832 Congratulations on your decision to operate a restaurant in Florida! I have approved the public food service establishment plans for SINS GASTROBAR, 9835 NE 2ND AVE, MIAMI SHORES, FL 33138, as of 7/29/2019, with the following condition(s): 1) A SMOOTH AND EASILY CLEANABLE, NON-ABSORBENT CEILING IS REQUIRED WITH NO OPEN CEILING EXPOSED TO STUDS, JOISTS AND RAFTERS IN THE BAR, FOOD PREPARATION AND DISHWASHING AREAS. 2) PROPER AND EFFECTIVE PROTECTION OF ALL DISPLAYED FOODS TO BE VERIFIED BY INSPECTOR. 3) PROVIDE A WRITTEN CONSUMER ADVISORY IF ANIMAL PRODUCTS ARE OFFERED RAW OR UNDERCOOKED. 4) THE THREE -COMPARTMENT SINK MUST HAVE DRAIN BOARDS ON EACH SIDE OR SHELF ABOVE SINKS. 5) PLANS PROVIDED MUST ACCURATELY REFLECT ALL FOOD SERVICE EQUIPMENT AND ITS LOCATION IN THE ESTABLISHMENT. FAILURE TO PROVIDE ACCURATE PLANS COULD RESULT IN DELAY AT THE TIME OF THE LICENSING INSPECTION. Please have the above information or proof of compliance with the conditions ready for the inspector at your opening inspection. The conditions listed above are required to pass your opening inspection. Please include the file number and log number listed above on any documents submitted. Your plans are only approved as submitted to us and with the above conditions. Changes in proposed operational procedures may require additional equipment and certain changes may require a new plan review. If you decide to change the menu, equipment or operation, please notify us immediately. Your plan approval is valid for one year from the date of this letter, so you must license the proposed establishment before then. If your plan approval expires after a year, you may have to complete the plan review process again. If you are no longer in charge of this project, please forward this letter to the correct person or company. When the construction is complete, please email Dhr.districtl @myfloridalicense.com to request contact from an inspector to schedule an opening inspection. Be ready to provide the file number located at the top of this letter. Please allow 1-2 days for the inspector to contact you to schedule the inspection. Phone: 850.487.1395 Division of Hotels & Restaurants www.MvFloridaLicense.com Plan Review Office License Efficiently. Regulate Fairly. 2601 Blair Stone Road Tallahassee, FL 32399-1011 Florida pr De artment of Business F rofessional Regulation Good luck with your enterprise! Sincerely, OVL- Denise Cunningham, Senior Plan Reviewer Denise.Cunningham@myfloridalicense.com ENCLOSURE(S) Ron DeSantis, Governor Halsey Beshears, Secretary Phone: 850.487.1395 Division of Hotels & Restaurants www.MvFloridaLicense.com Plan Review Office License Efficiently. Regulate Fairly. 2601 Blair Stone Road Tallahassee, FL 32399-1011 Name: Permit Email: e,SG Miami Shores Village Building Department 10050 N.E.2nd Avenue Miami Shores, Florida 33138 Tel: (305) 795.2204 Fax: (305) 756.8972 Phone CERTIFICATE OF OCCUPANCYICOMPLETION CHECK LIST l uilding permit card. Surveys (2 copies) Final as built - Required Items: Elevations of buildings showing all intended setbacks from property lines and other existing structures. Ingress+ Egress, required parking spaces, Wheel stops, stripping, and all paving to exterior. 0 Certificate of Elevation - (Sealed by surveyor). Expiration date required on the form. Pertificate of Insulation. Certificate of Soil Treatment (Final treatment -original)\ CHAPTER 2913-5 TERMITE PROTECTION: "This Building has received a complete treatment for the prevention of subterranean termites. Treatment is in accordance with the rules and II as established by the Florida Department of Agriculture and Consumer Services." CY Health Department Approval Letter (On septic or private water). Note: If the house is on septic tank, approval letter is required from Health Dpt. Soil Compaction Letter (Density report is required) F' al certification letter from the Engineer/Architect (on masonry, trusses, special structure, etc) Backflow preventor certificate (Required on commercial projects only) Declaration of use. (Recorded in Miami -Dade Clerk of Courts) PLEASE NOTE THAT THE SAME ITEMS ARE REQUIRED FOR TEMPORARY CO Erner-gency-Eo-(Wittrorxt-24-Hrsprocessing-} Additior-raaf-fee-is-$80:00-. --- Temporary CO (Up to 90 days max) $75.00. Residential CO $150.00 Residential CC $50.00 Commercial CO and CC $200.00 r 7r_->2_MiT — N6 -L:?,LoG-_ cv- wvvTD QG,-rj (z0:q= BACKFLOW DEVICE TEST REPORT FORM Date: 43kii Account Name/Business Name: SIP5 G—NAUSTYZO ' JV:k 2 Account Address: 993S93S 1 amo ma: Account Number: Device Name: W 1 us-,% 1J5 C(-1 J Serial Number: i Z3 0 l Device Location: Tested by (PRINT): Meter Number:( 4 12 a`( Model Number: I iC L Size: 1 14 Above data certified to be corre Tester Signature: Certification Number: }( Z( 3 Company Name: °7 o Z " y 9 `t 90 Company Telephone Category: General Limited Inspector Tester Method of Testing: ?i Test Kit Used: 'T( -C -q Or Comments: Check No. 1 Check No. 2 Air -Inlet Valve 1 Gate or Ball 2 Gate or Ball or Circle One) Circle One) Relief Valve Test Mark One) / Mark One) Opened at Mark One) Mark One) Before Leaked Leaked 2.- L lbs. Leaked Leaked Repairs Closed Tight Closed Tight Differential Pressure Closed Tight Closed Tight Diff Press Diff Press Repairs and New Materials Test Mark One) Mark One) Opened at Mark One) Mark One After Leaked Leaked lbs. Leaked Leaked Repairs Closed Tight Closed Tight Differential Closed Closed Pressure Tight Tight Diff Press Diff Press Above data certified to be corre Tester Signature: Certification Number: }( Z( 3 Company Name: °7 o Z " y 9 `t 90 Company Telephone Category: General Limited Inspector Tester Method of Testing: ?i Test Kit Used: 'T( -C -q Or Comments: