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MC-13-1687 i Inspection Worksheet Miami Shores Village 10050 N.E.2nd Avenue Miami Shores, FL Phone: (305)795-2204 Fax: (305)756-8972 Inspection Number: INSP-196012 Permit Number: MC-7-13-1687 Scheduled Inspection Date:August 07,2013 Permit Type: Mechanical- Residential Inspector: Perez,JanPierre Inspection Type: Final Owner: DAVITZ,JOSEPH Work Classification: A/C Replacement Job Address: 1120 NE 100 Street Miami Shores, FL 33138- Phone Number Parcel Number 1132050190450 Project: <NONE> Contractor: DONS AIR CONDITIONING INC Phone: (904)349-8347 Building Department Comments OUTDOOR UNIT REPLACEMENT(CONDENSING) Infractio Passed Comments INSPECTOR COMMENTS False i r Inspector Comments Passed Failed Correction ❑ Needed Re-Inspection Fee No Additional Inspections can be scheduled until re-inspection fee is paid. August 06,2013 For Inspections please call: (305)762-4949 Page 15 of 39 A • JUL 9j Miami Shores Village °� 9 �� Building Department ® � AAe�000 10050 N.E.2nd Avenue,Miami Shores,FlonW 33138 Tel:(305)795.2204 Fax:(305)756.8972 INSPECTION'S PHONE NUMBER:(305)762.4949 BUILDING Permit No. PERMIT APPLICATION Master Permit No. FBC 20 Permit Type:MECHANICAL OWNER:Name(Fee Simple Titleholder) SdA I, livu, 1- Phone#: DS-'? S-Z 3 L Address: t Z® Iv p , City: tuw, / State: zi 3 3t 3Y TenantfLe§See Nance: Email: JOB ADDRESS: ( 2-0 C° t� City: Miami Shores County. _ Miami Dade Zip: Folio/Parcel#: Is the Building Historically Designated:Yes NO V1 Flood Zone: CONTRACTOR:Company Name: A o Us: At IL "je) 1" -e2 oT cam'6° Phone#. 'it'L 3 y i'l "Z Address: Z C K I!-1-G6�J aft City: +L� � State: Zip: Qualifier Name: UL one#: State Certifieation or Registration#: OA CV.;�q "- ® Certificate of Competency#: Contact Phone#: qQ 4 r 3%-f 1 ° 7 Email Address:de w e�� 'fi �®g�� rf�^✓.��°��ao� DESIGNER:Architect/Engineer: Phone#: r � Value of Work for this Permit:$ Square/I.inar Footage of Work: Type of Work: DAddress DAlteration ONew epair/Replace ODemolition Description of Work: Submittal Fee$ Permit Fee$ t(�/J ` CF$ CO/CC$ Scanning Fee$ Radon Fee$ DBPR$ Bond$ Notary$ Training/Education Fa$ Technology Fee$ Double Fee$ Structural Review$ TOTAL FEE NOW DUE$ ' Bonding Company's Name(if applicable) Bonding Company's Address City State zip Mortgage Lender's Name(if applicable) Mortgage Lender's Address City State 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 ELECTRICAL WORK,PLUMBING,_SIGN5, WELLS,POOLS,FURNACES,BOILERS,HEATERS,TANKS and AIR CONDITIONtkS,ET6..... 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. "WARNING TO OWNER: YOUR FAILURE TO RECORD A NOTICE OF COMMENCEMENT MAY RESULT IN YOUR PAYING TWICE FOR RWROVEMENTS TO YOUR PROPERTY. IF YOU INTEND TO O$TAIN 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$2500, the applicant must promise in good faith that a copy of the notice of commencement and construction lien law brochure will be,delivered to the:person whose property is subject to attachment. Also, a certified copy of the recorded notice of commencement must be posted at the job site for the first inspection which occurs seven (7) days after the building permit is issued. In the absence of such posted notice, the inspection will not be approved and a reinspection fee will be charged signature signature Owner or nt Contractor The foregoing instrument was acknowledged before me this The for%e�oing instrument was acknowledged before me this day of u+� ,20�,by J O�k D&Vl� , day of Jl9 20 L,by who is personally known to me or who has produced A who is personally known to me or who has prodgcgdr, V As iden' lion and who did take an oath. 'DL as identification and who did take an oath. NOTARY PUBLIC: NOTARY PUBLIC: Sign: A Sign: r4A13C,-�AA /-, Print: 0110 Print: A OtJ ;' L® M Commission My Commission F.xp r(40 _*� MY COMMISSION#EE094694 Y Expires: Ana NOYakovic EXPIRES May 16,2015 e Of i74r{l�8 98-0153 FloridallotnryService.com �� Q R*#BaA+BkdddeRdaBkk#ffii+k�#tnk�k#id$ �k+Rkk Bkd +ARkAlh#*R+A#ik#k&d+RBb�$8�'i#d�� •:*+= ;: APPROVED BY tkik Ows Examiner " Expires: Se g I6 { Structural Review Clerk (Revised 07/10107)(Revised 06/1=009XRevised 3/15/09) i • t Miami Shores Village Building Department toat 10050 M E.2nd Avenue Miami Shores, Florida 33138 Tel:(305) !95.2204 AIR CONDITIONING REPLACEMENT DATA Fax:(305) 756.8972 PERMIT NUMBER: MC This form must accompany ALL air conditioning replacement permit applications.Each unit change-out must be on its own data sheet.Multiple units on single sheets are not acceptable. Job Address(where the work is being done): -0 /6 City: Miami Shores Village County: Miami Dade Zip Code: 3 Sr"3 k' ALL CONDENSING UNITS MUST BE ON A 4 INCH SOLID CONCRETE SLAB ALL UNITS MUST COMPLY WITH F.E.M.A MINIMUM FLOOD ELEVATION A COPY OF THE CONTRACT IS REQUIRED WITH ALL SUBMITALS ARI(AHRI)DATA SHEET REQUIRED Change Disconnecting means:YES ❑ NO❑ ARHI Shest Attached:YES❑ NO❑ Contract Attached:YES❑ UNIT BEING REPLACED DATA a NEW UNIT MANUFACTURER AHU or PKG.UNIT MODEL# COND.UNIT MODEL# KW HEAT NOM TONS AHU CU PKG 1 M.C.A AHU CU PKG AHU CU PKG 2 M.O.P AHU CU PKG AHU CU PKG 3 VOLTS AHU CU PKG PKG UNIT I I PKG UNIT / I EER/SEER YES NO REPLACING DUCTS YES NO YES NO REPLACING THERMOSTAT YES NO YES NO NEW 4°CONCRETE S NO AIF YES NO NEW ROOF STAND OW S NO Y Wo ES NO NEW RETURN PLENUM BOX NO 1. Minimum Circuit Am fiy(Wire :ac re Size P ) 2. Maximum Overcurrent Protection(Fuse/Breaker Size): 3. Voltage of Circuit(208)240/480): ;_7W 1K 4. Size Disconnecting Means: �� Contractor's Company Name: bO ;vim Ali Phone: Y d y°S4 54g ;67 1 State Certificate or Registration N. Cd Certificate of Competency N. Signature Date. (auagws signature only) r a Call: (305) 757-0220 Jacksonville, Florida Email: info@donsairconditioninginc.com 904.398.4972 CustomerlOwners Name and Location: Joe Davitz 1120 NE 10011 Street -1 -Project 07 Miami Shores, Florida 33138 07-12-2013 Home#: 305.796.5634 Work#: _ Mobile#: Email Address: windowjoe@aol.com Customer requested permit needed for Miami Shores Village. a One outdoor unit, Carrier: F*knber: 24ABR348A310 SOOMWber 0106E10813 ,:F Pe,to pull permit for outdoor unit, $500.00. We are required to pull a permit for the outdoor unit only.Any other request by the city to alter or change, is a separate cost to customer. r r )teceived By: Total: All material is guaranteed to be as specified. Ali Acceptance of Proposal: The prices, specifications and .work to be completed in workmanlike manner .according to standard practices. Any alteration or conditions are satisfactory and are hereby accepted. You deviation from above spwacafions involving extra are authorized to the work as specified. costs will be executed only upon written orders with additional charges over and above this estimate. Accepted By. Date: ?� 3 �1 El Ira yoo a Menutacturer? Sian In AC Search Havre Q MDOY ;®aw DnttWe cHc►cun a row to view/print AM cerftfdoate. AM are riot evadable for Obsolete AC and FP meht. MSCtelrer:Indoor Cog Air OUMISY is used for standard ratkgg t purposes only.Actual values may vary deperuft on the Ihetalatmh.Please refer to the manufacturer's installation instructions for proper setting of Indoor coll air quardly. The energy effl lency ratings on the t3hem GLdde labele provided below w ere determined per Federal Tiede Cormrfsabm requirements and Department of S rgy standard tests of cmrulenser maiels combined wfth the most common Indoor components.Tire ceyffled ratings w®vary wIth different Indoor components.Print the AFB cer ttcats It order to view tre ratlres of a spwft combbatlion. Model Status of'Active means models are currently In production.Usco ntihued means that the manufacturer has elected to stop producing,yet stock is still available.Vbsoate'means that the manufacturer Is requled to stop manufachn"due to a test fallure In the AM Cer bation Rgyams. Outdoor Unit Indoor Ualt Cooling NftnEd OgIft AM indoor indoor Intloor Avg. for EneW ONMed Model Manufacturer Trade/Brand Series:Manufacturer Motet Matudecturer(Mbc- Mode' C�Air C�AI � Fie Capacity tit Sly MR Phase AM t�/TC &mw* Amarad Federal C31dde Ref# Statute Type Name Nrene Match) Quantity 3 Model tom) Type for t3cport Oporatlhg Tax Label Cooft Credit its) No results matched your crkerkL Please click on Modify Search and remove some criteria For Search Tips,refer the FAas. Home(Contact UsiTermsand Conditions License AHRI Directory Data ( Help with this Site CoWgM®2013 Air60ondidoning,Heating,and Refdgeraton inWwte.Alt rights meeivad. V ( 9 P�E0048L549 .P.E. ALUMINUM A/C STAND - �-2.500'—} 079L09 A/C UNIT DEPTH O.1Be A/C UNIT WIDTH I 0 0.125° A/C UNIT DEPTH I c O N^ —(MAX.SIZE PER SCHEDULE) Z® .°+ Q� � r----------- -'I 0.555• I a: uiLL U A/C UNIT I 2: '"a 0 188- w � � (sEE A/c srANO scHmuLE oN sHEEr I �8 �. �Q a�� Gl 2 OF 3 FOR A/C UNIT SIZES AND d o �--1.375° L m Z a _ WEIGHTS) z RAIL I-BEAM Z 4 9 W a? e'=1 ' - W v;1 K$ b a r---�----- — MIN--} !y G 1 �- —— I aZ a B1 1 s — � scHm.) scHED.) _ 2 R¢ .�. ,� .... .,...<..:. .�...��.�...�_ ....:,.. .._:.:}.-._-.........,.-,�._.:rs_,�r_.�-?rte.,._,..._.;...,..<...,_� �-�^"- ..._�... _ _ 'c9�_,er��_�....,___ -,... u..-..,..�.W'-.--a,..::_._ ---..,.,..,.:�.:�.. mss CONFIGURATION THRt�TSTO = CROSSMEMBER �:� I9ETAILS ON �BT SQUARE 6° 1-0 �• ? o SHEET 2 O Y M, Z �r� (� a 1 T6D FBVISf z;" RIiOST'3"fg1Iy 1RE 4`q _ .,, 3 u'm tri DQFIbIG� ;� zF- _ '{ '� ! F � 5 � B2' � t k � a o--t .Ni V�o U a �j 7 ! � t t SCHED'� ',N 7s � N +TA PER PLATESIR'ANCJ ° l5 BASE PLATE J M g:a zy "`'s = ka uiEEfzTrtANCHaasPE _ Q �hd t.4 �i::8 d- f !;,-0 r'Z1 f. G hr 3 i, 4 t,• `�" .j '+ ,CROSSNSfMBER n r°p w8. t� .,.+, i 1 iii �` c4'." �'„�., '� ��; F t Us,' r, F ': ": ... .., Q° s �. r, rXT r,,f z yjSTAND wwTH _/11 A` SEI �LY EEVATI�Ny '';6=1 i �&LEG SPACING PER , \ - 1 SCALE 1° 1-0° END ELEVATION t� g CONFIGURATION J/ \\'1. �+ _� 4 DETAILS ON SHEET 2 u 0.750' p„ GENERAL NOTES 45" �i� "�'JJJ %20X - y�8g }--PI(REF.TABLE) HOLE FOR ANCHOR WITH TYP• / GALV.BOLT gs 1. THE SYSTEM DESCRIBED HEREIN HAS BEEN DESIGNED IN I DIAMETER Yle LARGER 0.156' - / S �a1 ACCORDANCE WITH THE 2007 FLORIDA BUILDING CODE FOR USE WITHIN STAND TYPE/COMPONENT SCHEDULE THAN ANCHOR DIAMETER 0.250 L . AND OUTSIDE THE HIGH VELOCITY HURRICANE ZONE STAND TYPE 2. NO 33-1/3%INCREASE IN ALLOWABLE STRESS HAS BEEN USED IN P^RT DESCR. HD STD 0.156 THE DEIGN OF THIS SYSTEM. WIND LOAD DURATION FACTOR Cd=1.6 HAS O 0.250'1.500'0.250' BEEN USED FOR WOOD ANCHOR DESIGN. OUTERTUBE IS x _ t; 3. POSITIVE AND NEGATIVE DESIGN PRESSURES CALCULATED FOR USE 2O SIZE 1.5°x 1.25'x 1.25°x �� m �DDD' WITH THIS SYSTEM SHALL BE DETERMINED BY OTHERS ON A JOB-SPECIFIC (B3 x 81 x tl) 0.093• 0.093° ,/�� Fa- e $ BASIS IN ACCORDANCE WITH THE GOVERNING CODE. i` �� LL C-CHANNEL ggg � � 4. MAXIMUM DIMENSIONS AND WEIGHT OF EACH A/C UNIT HAVE SEEN � �� 6°=1'-0' g a SPECIFIED AS SHOWN.SMALLER UNIT DIMENSIONS ARE PERMISSIBLE INNER TUBE 1.25•x 1.00•x 1.00•x �--� ®1 SIZE 1.25°x 7/8' THKgg6� LL PROVIDED MINIMUM UNIT WEIGHT OF 100LB.NO PART OF ANY UNIT SHALL (B2 x IZ x t2) 1.125• 0'125' (TYP.) O ° (SEE .8� ®E BE INSTALLED BEYOND 6°FROM ANY STAND'S LAST POST SUPPORT. SCHm') CWY�RITTMAXLOPE INFORMATION FOR A SPECIFIC SITE. FORGSITE CONDITION DN S DE O o XSTHK) 0.45' 1.5°x 0.090• ,�, O.D.(SEE SCHED.) 09-PAP-0001 FROM THE CONDITIONS DETAILED HEREIN,A LICENSED ENGINEER OR - REGISTERED ARCHITECT SHALL PREPARE SIT-SPECDZC DOCUMENTS FOR BASEPLATE -4•X 4•UP TO 7/8°(TYP.) 1/4' TUBE AT CENTER OF PLATE PAOB O r10ux Ol USE IN COW UNCTION PATH THIS DOCUMENT. O SIZE 4'X 4' 24•STAND HT THICK (SEE DETAIL 2/3) 6. PERMIT HOLDER SHALL VERIFY THE ADEQUACY OF THE EXISTING (P3 X PI) -S•X S'FOR 30 - 6 STRUCTURE TO WITHSTAND SUPERIMPOSED LOADS. STA"D"T BASE PLATE POST �. 7. ALL EXTRUSIONS SHALL BE 6061-T6 ALUMINUM ALLOY/TEMPER, 4°=1'-0' 6'-1'-0' UNLESS NOTED OTHERWISE. S. ALL STEEL IN CONTACT WITH ALUMINUM SHALL BE PAINTED OR 6 PLATED AS PRESCRIBED IN FBC 2007. F � UNIT CONFIGURATIONS WITH DESIGN AND ANCHOR SCHEDULES 0P83046549 'PX- STAND DESIGN SCHEDULE 1 ANCHOR SCHEDULE 079L09 A/C UNIT DIMENSIONS ALLOWABLE WIND PRESSURES;•HD•STAND ONLY ALLOWABLE WIND PRESSURES;•SID•STAND ANOIOR HOST STAND GF CONFIG:® CONFIG:® CONFIG:® CONPIG:® STRUCTURE CONFIG:® TYPE STRUCRE ANCHOR DESCRIPTION © c (M) (D) (H) ANCHORS:® ANCHORS:® ANCHORS:® ANCHORS:® ANCHORS:® 1/4'POWERS WEDGE43MT CONCRETE Z ONE a 24" 24" 24" 150.0 PSF 1242 PSF 93.9 PSF 108.2 PSF 54.1 PSF © CONCRETE ANCHOR wTH 2-1f2'NM EMBEDMENT&3'MW ® .+ > 30" 30" 30" 150.0 PSF 80.4 PSF 59.8 PSF 69.2 PSF 34.6 PSF EDGE DISTANCE Q 1M N £ 36" 36" 36" 18" 109.8 PSF 54.9 PSF 41.4 PSF 48A PSF 24.0 PSF 3•SAE GRADE 2 GALVANMED BOLT WI NUT& W lU J-.O © STEEL WASHER TO STRUCTURAL A38 STEM MEMBERS Lu 7a, U 42" 42" 42" 79.4 PSF 39.7 PSF 30.3 PSF 35.2 PSF (02P MIN THIOxNE88) o. . 48" 48" 48• 58.1 PSF 29.9 PSF 22.8 PSF 26.9 PSF SW LAO SCREW WITH 3.1?MIN THREAD 24" 24" 24" 150.0 PSF 99.6 PSF 74.1 PSF 84.9 PSF 42.5 PSF WOOD PENETRATION TO WOOD FRAMING&MIN 1'EDGE Q (9 s 30" 30" 30" 127.0 PSF 63.5 PSF 47.3 PSF 54.3 PSF 27.2 PSF 19 y m W$ 36" 36" 36" 24" 87.9 PSF 43.9 PSF 32.7 PSF 37.7 PSF #14 TW BUODEX TENS SELF4)RILLWG SCREWS Z 42" 42" 42" 64.3 PSF 32.2 PSP 24.0 PSF 27.7 PSF STEEL W/ MEMBER9 118'MIN THICKNESS) A38 STEEL W uj 48" 48" 48" 49.1 PSF 24.5 PSF 21.2 PSF 3 T^S 24" 24" 24" 150.0 PSF 76.1 PSF 57.1 PSF 73.3 PSF 36.7 PSF H w 30" 30^ 30" 97.S PSF 48.7 PSF 36.6 PSF 44.4 PSF 23.5 PSF ANCHOR NOTES: 36" 36" 36" 30" 67.7 PSF 33.8 PSF 2S.4 PSF 32.6 PSF 1. ANCHORS SHALL BE INSTALLED IN ACCORDANCE WITH "G MANUFACTURERS'RECOMMENDATIONS. a 42" 42" 42" 49.7 PSF 24.9 PSF 23.9 PSF ENSURE 48" 48" 48" 38.1 PSF FOR EACH ANCHOR. EDGE DISTANCE AS NOTED IN ANCHOR SCH�ULE N (NITERPOLATION MAY(IE UTU7EDD TO DETERM�B INTERMEDIATE VALUES BETWEEN UNIT DMWNSION8ANWOR STAND HEIGHTS.) 3. WOOD HOST STRUCTURE SHALL BE`SOUTHERN PINE'G=0.55 OR GREATER DENSITY.ALL CONCRETE SUBSTRATE SHALL HAVE MINIMUM COMPRESSIVE STRENGTH OF 3000 PSI. D 4. MINIMUM EMBEDMENT SHALL BE AS NOTED IN ANCHOR SCHEDULE a = .za. .:.,.K....:..r>.. •z. ^c.�sx -a:^..v. ,^:;.wm�:> -: mu - ::i-s... ... .y....n,,.«. ....x. ..,a.< ._n�.x.,.r;. .� :. (�'1,�A!FE!!).BH?MT-149- .E_$ ANCE..X47•Ai,:RDQFWG_FIMSH�_:.°,::.r -'' w S. WHERE WSTING STRUCTURE IS WOOD TRUSSES,EXISTING °'•; 700 MAX LB -- '� }--�'W "-f CONDITIONS MAY VARY. FIELD VERIFY THAT FASTENERS ARE INTO ADEQUATE CL .w WEIGHT I= 35� 3� I 3� 3� 3� WOOD TRUSS MEMBERS,NOT INTO PLYWOOD � Y��j WER34M WEIG WE{CYkiT WQGIiFi WQGHf „, £ a e-,q ,�F- �ri STAND CID NF7GUR�11`i(SN w -f „ir O; l ;. 3 F' NIkX' 'c 4y.' i� "�1 ix WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT UI 1 VU 12-0°MAX 12-0•MAX.. . STAND CONFIGURATION STAND CONFIGURATION n �-W • • •, � 350 LB 350 LB 350 LS 350 LB 350 LB ('HD'STAND ONLY) M o x MAX MAX MAX MAX MAX o = 35� 35� 35� 350 AX 35� Q WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT WEIGHT MtSf am is-o•Max 1s-0•Max g 1-W 4 }-�w� y ® T- 350 LB 350 LB 350 LB 50 LB 350 LB 350 LS I 350 LB 350 LB 350 LB r.3-m.-,rr 350 LB MAX MAX MAx MAX x MAX MAX MAX MAX WEIG GH WEIGHT WEIGHT I WEIGHT WEIGHT WEIGHT WEIGHT d WPtttl-PAAV(LMD001 VI --} Vl I 09-PAP-0001 ' �EQ•-- -EQ•-f �EQ•+�• I l �--EQ•---�-EQ• 4 �EQ•� PAGE DRScRIPT10N1 01. 2T-0'MAX 2T-0'MAX a MAINTAIN ALL LEG SPACING/UNIT CONFIGURATIONS AS SHOWN MAINTAIN ALL LEG SPACING/UNIT CONFIGURATIONS AS SHOWN (ONE LEG PAIR PER UNIT) (ONE LEG PAIR LESS THAN TOTAL NUMBER OF UNITS) /1 B �JJ � . y C FRANK L PED046549 NARDO.P.E. 07191609 0 C9 10N�n -0 Y4-20 x K" MV.BOLT FULLY TIGHTEN TO REFUSAL `W ?r q V .) ROUND TUBING Q iW; Z of y ey4' HANNEL TO 4 ANCHORS PER PLATE I /z/p Q Q V V `d UBE (SEE ANCHOR SCHEDULE) �a' Y FILLET WELD FULL1:1 FULL BASE PLATE �� W"C"CHANNEL RENCE®TO RECTANGULAR TUBING G Q BASE PLATE% V ROUND TUBING Q (PRE-DRILL 1 ERAly S_$ELY DEVIL_ 2 _BASE PLATE DETAIL FOR LAG) Y4 FILLET VELD SCALE:3'=1'-0° SCALE:3"=1'-0" - a° - - .. .,. 3 3 CIRCUMFERENCE p EWS'RNG ROOF DECK TO BASE PLATE '�� R :;5 .;< R <K %✓ .,. ?3 �F,: f ..•.a ';p x ;r ::✓ ? a :STAND .I THISplo- .SkIALL :% ,;, 'ED WTfkl JOIST MF�IM¢�,J 70 NllEMBY ` vb` V s gNLV:SIG: -qN f. } 1 F. ,► v § k r _ t! ,_,. y !, '� 3 i s r r ! ••" 1. ..w4si(1)IA!ITI'E1P TU CILQSC)tEAE7t' { 4 _ 6 7 f,� ' l f ( r .1 A1�Q 350L$(vlA:fI9tuL� i:Z N £UNIT HO! . . ri,tii f�.yf 1 ,R'??, 5 PSP. d ' EAzgE OF J f f'i'x' pp-iiY E•' ✓ .;n`' t�✓ !?' YI2 C - QGOY{ pp"(1)UNIT (7..,�Y'YP FROM E, 0"X3,OND350LB4`fkk.DGE)�E i>"> ' P.aa3.8 PSP. z 4)614 OQ:41° M GMT. p } Ao STEEL HOUSING PER ANGLE A/C UNIT- GlN•V•SIFkl ANCHORS TOTAL) 0 �O$ 4"%1-VT d4GA(0.078") HOUSING o SllRAP N PA55 BASE PLATE TO WOOD IT TO <a Q 6063-T6 ALUM.CUP W/ I-B EAM ONE U 4E#LIT 3 ML TO I-BEAM.MIN(4) ISOLATOR PADS`BEYOND. MIN(2)PER UNIT. ANGLES PER UNIT.(1) MIN.4 PER UNIT 3 SCALE:3"=1'-0" a PER CORNER I-BEAM (2)614 SMS AT e EACH STRAP END lie I-BEAM ISOLATOR PADS BEYOND. TO UNDERSIDE E e MIN.4 PER UNIT */OFI-BE&M 12. 3 C UNIT TIE-DOWN DETAIL 4 ALT. C UNIT TIE-DOWN DETAIL @@g 3 SCALE:3"=1'-01 3 SCALE:3"=1'-0• .ap ® COPMIWTFRUXL69FAMPE 09-PAP-0001 SCAM Bi US PARE DESCRIPTION: V COMBINA170N ItAnNGS CONnMMD 4 11NfT 8=-VOLTAt3E, INDOOR FACTORY aeA1ffi f �G Wnim ENHANCeMEr t�SUPPUED MODe. CSRH"�2 *v 47.000 TDR&TXV 14.00 11.E 58CV(A 135-22 CSRH*6012A** 47,000 Tt'>Ft&TXv 14.00 11.50 SSM("156-22 C H*Er312AR* 49= T f l 13:31} 1120 � CSfl#f* f2A** 47,000 TDR&TXV 13.50 11,20 5 (8100--20 C SRH*Wl *" 47.E TDR&TXV 13M 11.20 X120-20 CSRH'ao12A** 47,000 TDR&TXV 13.75 11.70 B PH*M-ie 48-32 CSRH*W12A** 47,000 TDR&TXV 14.00 12.00 58PH*110-20 48-52 CSRH*SM2A** 47,000 TDR&TXV 13.75 11.70 58pH*135-20 48-82 CSRH*S012A** 48,000 TXV 13.00 11.00 46-17 - R 47,Ot}D TDR97XV 1$pp 11.00 FA4CN OF 48,000 TDR&TXV 13.00 11.00 FC4DN(113j048 47,500 TDR&TXV 13.50 1120 AV FK4DN DO 471540 TDR&TXV 14.50 11.70 47.000 CAR**8t121A- 54,300 TDR&TW 13.00 11.00 *a8tt-18 C **b fA** 66,000 TDR&TXV 13.26 11.20 SOPH*110-20 CAR** 21A** 55,{� 7XV 13.00 11.00 :�:. ,. .'. .�.,:7H f 4 r..:�� ,��;+ b s.v.�r; "X.'<7 �,x �;�- a a ,�•!4e ,p,,,1".,w �m� CAR"*8Q24A** 56,000 TDR&TXV 1320 11.20 6SCV(AjQ135-22 CAR**8024A** 56,000 TDR&TXV 13.20 1120 68CV(A.))165-22 44*0 MGM TDMTW 1M 1110 *` &S,0W TTN 17tY 1980 11 LSD A,1Q136-ffi CNF*i; 4A** 551500 TDR&TXV 1160 11.60 68CV 156-22 CNRH*8424A** 55,00 TDR&TXV 1300 700' 1 68pli-WO-18 CNRH*SO'14A** 6516M TDR&TXV 13.25 11.20 68131,1*110-20 80-38 CN *W24A** 9,500 TDR&TXV 1325 11.20 58pH*135-20 60 60-46-58 CNRH*8024A** 58,000 TXV 13.00 11.00 GO-112 CNRV*6024A** x,500 TDR&TXV 1320 11.00 SBCV 135-22 Wry _ cTX11 t9$G 11.&0 41 -ffi C *' TOR&TXV 13.25 11.20 68"135-20 - t,0� TXV 13.00 11.00 CSRH*W12A** 58,000 TDR&TXV 1320 1 11.20 58CV(09135-22 CSR-l*60120k** 66,0 TDR&TXV 13.50 11.50 SSCVKM166-22 CSRH*W12A** 55,000 TDR&TXV 13.00 11.00 SOPH*DW-18 CSfW110011AV- $8,000 TCMTX1f 1325 11.2#1 gA- MGM T iTXV 1325 1120 ff*13S-2o CSR*OD12A** 56,000 TXV 13.00 11.00 FN(S, 68,= 13.00 11.00 FC4DN(F, 55,000 TDR&TXV 13.20 11.20 FK40NBDOO 58.500 1 TDR&TXV 13.50 11.70 � this ftmnm ae m at any tip M=P r00 to Om AHM aeano y► for the *Tasted oombtra#an. t in mere yea,only 1 rr W=d almuld be used to adgm TOR hmeftL Lbft molls than 1 mattrad In a slohn may cam daWadsilm in . Use either the wary Time-Delay Relay KAATD0101TDR or a furnace equipped v th MR Most Carrier furnaces are NOTES: equipped with TDR 1.Ratings we net values retieat'ng ft effears Of 0lreulatlng fan motor heat Supplemental electric heat to not included. 2.Tested Outdw indoor combinations have been tested In aocordanc a with DOE test praaedures for oentral air conditioners.Ratings for other OombinafiOne are determined under DOE co np W simulation procedures. 4-0SWWft a0la CFM tw VW Gymm by ffim"to aft In left am at Al AG&aafl 4.1x0 rtat apply v� y WM 00%as psrion W"and ralla�ty are sign fitly aft�d. EER-Energy Roo SM- .. �3 TOR-Time-�[ay Relay T"-Pmrmostatic Expansion V" 703 - DETAILED COOLING CAPACITIES'# BtlAPORATOR AIR -- CM08MM WMING AIR M MMA'Mf=dog*F CC) 78 28A am law-6)6) 128 awa ft Mmahf cm—ft Mtuhlt Calm*MBt M f�l cvow"Ptah# Total Camel MBmbf motel C wm*mmuhf total 1�PM °F '@tal Sena$ or- im Bane$ KW** Total Sans$ rop* TOW 8eire$ KEW" WW I 81u$ K TOW I Bans$ ltyy.. so as N t+ C�p a e k y P m I Fwnaea Model I • ft 24ARR3 w DETAILED COOLING CAPACITIES#CONTINUED BVAPORATOR AJR I COMBIRM WMING AIR 1IMPERATUMS dog°F(C) 78 WA (2M) wpm M(40.8) eye y I6(fl.r) 0 N N 7_F 'rt ;^f� 17 ^ gar jWQ F2 7 0.83 0.83 on pg. DETAILED COOLING CAPACITIES#CONTINUED EVAtMMMR AIR cc 76 , t WIN °P Cc) 101#1 9are KWr" Total Im KW"" 72 19.78 3125 16 2. 67 19. 29. 1 20.72 E14 26.47 20.tt1 a.s3 7 62(16.7) 27.11 24.98 2.11 28.19 0 2.31 5703A 2B 26.72 1 28.94 2.31 72 32.86 17.80 is 3131 lym 2.39 lam 67(19. 22.10 as93 1 2.38 MOD 62 16. 27. 2e 2.1 2899 2680 237 57(13. 1 27.M 2699 26q 2.37 72 2) 33 98A0 32.14 17M 2.44 1125 23.40 M. (19.4 - 224 2928 1 OW-TT 2.43 Caps" PWAW 1.80 1.00 1.00 1.0D 1.00 9.00 E G U tap 1AP�" 00 118(A6.1 (81. Teel Sys lbw� tan KW" _ UM KW"* TbW lam KW" P9• IN N f-11 14 01 1 1 i i eM M selli DETAILED COOLING CAPACMESI#CONTINUED L3YAPORATOR AIR CONDENSER EMMINO AIR IEMPgFtAW deb°F CC 78 IN 4) 95(36) 1 40. 118 48.1 (Si. EWB °P(°C) 1Y Metuht � Eryy.• Capoofty 11"PAht '� 1( Cepo ft MBtuht TOW � Capanhy YEGtht Tafal �. 1Y M� t TOW Ce I etuht 'l8tal ktiv� Rgal 1 $ TAW Taw Sam►# •b1 Soae# I" Sane* Total Sena#- 2884 a2 13 81 3.71 98 a84 47.s 888 4.41 4888 04 a82 4334 2421 27 87 1®• 89 98 2 87 .87 .19 81 98 43.0 !9197 4. 41.08 31.12 4.74 3898 $027 818 82 18. 99 40.87 94 .98 .78 .89 41.11 9889 994 8927 3798 $ 37.48 3703 488 3880 35.80 67 S. 38 4988 89 4190 41 981 x.41 40.41 393 88.91 seal 428 37Z7 37 37 4.87 98.$0 3880 8 Y 1 72 .34 29.89 80 53.0s 88 3.80 82 90.011 4.13 4SA7 27.18 4.80 48.28 28.38 4M 43.98 28.81 5.38 "D 87 19.a) 38.88 48 48.13 81 3.78 00 9494 4.07 4380 34.09 4.43 41.78 33.24 483 SM.80 32.37 827 82 6. 80 43.58 49 4CM .71 .18 1. .03 40. .47 4 38.88 4.78 9 .18 37.19 gm 87 3. 23 23 42 9.71 42.08 42.09 4.03 40.48 40.48 4.99 88.88 3888 4.78 97.19 37.19 122 72 .11 3o.9® ase . 8 .10 88 1.48 28 421 48.13 28.41 4.88 48.79 27 4.99 44,41 28.73 8.44 :500 87 9. 98 38.71 84 .79 84 383 .81 �. 4.18 4488 38.10 4.82 42.27 3854 4.82 40.08 3488 8,38 82 8. 90 48.19 sm 1 48.07 48 07 340 43.48 43.48 4.12 41.77 41.77 1 4.48 40.08 40.08 4.88 38.32 38.32 8,32 87 3. 78 A111A 1 .1 .12 9 .45 43.48 4.12 ON 41.77 4. 40.07 7 488 3833 38 33 82 Capaalty Pot& Furnace Model �a8 Capadlg Power Funlaao Modal I I CMH'482iA*- �pppity seb P~ I nenn Furnace Model 1 'aaen iraaa_oy. `48214" 1.00 -_ _ 140- _ I CMV*4824P4w 1 1,00 1 om I 5OGWA.MiSS-22 on pg. N DETAILED COOLING CAPACITIES#CONTINUED OVAFORATOR AIR I 78 (2e.4j C DW�F INS AIR 1EI WMAW �CIF VCC- 118 1 125(61.7) tm E1NB 1yLMt ' Catty M' CepaehyImuht Tote) CapaohytIlIku" CaP�iYRlBtabt A Cap ftustuht stem syabm'F(°C) 'Ms, deco# t(yy"" —lbtel eRest# ." 'tai gene# � Tm Sena# KW" Total 8aere$ KWt' Mal S—*• KW" Tm 0 t TOW and sensible capacilles are net owad#W ftwer motor heat hide been subtracted #Sm'sible capacities shaven are based on 80°F P°C)entering ak at#m Indoor oog.For sandble capacities at other then 80°F(27°C),deduct 835 Bwh CM kW)per 1000 CFM(480 L./5)of Indoor call atr for each degree bskm 80°F(27°C),or add 835 Btuh(245 kYll)per 1000 CFM(480 L/&)of indoor cog air pert degree above 80°F WC). #()wiled cooling capaciflas are be on indoor and outdoor unit at they same elevation per APg standard 210x~240-94.If additional tubing krio and/or indoor t90 Is located above oubftor unit,a slight variation In capacity may otter. *"System kw is total of Indoor and outdoor unit kilowatts. EWR—Entering Wet Bulkw NWM:When the retluM Oats fall between the published data,interpolation may be pe form d,Extrapolation ft not an acceptable practice. CONDENSER ONLY ItATINGS* SST CONDENSER ENTERING AIR TEMPERATURES°F °C -F('C) 55 1 85 75 85 95 105 115 125 (12.78) (18.33 (Z3.89j (29.44) (35Aj 40.58) (48.11) (51.87) TCG 15.30 14.40 13.60 12.9D 12.10 11.40 10.80 9.80 38 SDT 88~80 77.90 87.20 WAD 10304 116.54 125.00 134.W KW 0.83 0.83 1.03 t.i4 125 1.40 1.56 1.75 TCG 17.00 16.00 15.10 1430 13.50 1270 11.90 10.90 35 SDT 70.30 7x30 88.50 97.80 107.20 118.60 128.10 135.50 KW 0.84 0.94 1.04 1.15 127 1.41 1.58 1.77 TCG 18.70 17.70 16.70 15.60 15.00 14.10 13.20 1220 40 SDT 71.80 80.70 89.80 99.10 160.40 117.60 127.20 130.50 KW OAS DAIS 1105 1.18 12B 1.43 1,sT 1.79 TOG 20.50 19.40 18.40 17.50 18.50 15.80 14.80 13.50 48 SDT 73.30 82.20 91.20 160.40 109.70 119.30 128.30 137.60 KW 0.88 0.96 1.06 1.17 1 1.30 1.44 161 1.81 TCG 22.40 21.30 20.20 19.20 18.20 17.10 16.10 14.60 50 SDT 75.00 83.70 92.70 101.60 111.60 120.20 129.50 130.80 KW 0.87 0.97 1.07 1.18 1.31 1.48 1.63 1.83 TCG 24.40 23:.20 22.10 21.00 t9.9D 18..$0 17+60 1 18.40 55 SDT 78.70 85.30 94.20 103.20 112.30 121.60 130.70 140.00 KW 0.60 0.97 1.08 1.19 1.32 1.47 1.85 1 1.85 TCG 19.60 i 18.60 18.20 1 17.30 16.30 15.00 13.$0 12.00 30 SDT 71.10 80.30 89.50 98.80 108.10 117.30 126.30 135.20 KW 1.14 1.24 1.37 1.51 4.69 1.89 2.12 2.38 Tiffs 21.91} 29111? 2911! ilk? 18.10 13� SS.W 13LOD 35 SDT 72.80 81.60 91.00 100.20 160.60 118.60 127.70 130.70 KW 1.15 1.25 1.38 1.53 1.70 1.60 2.13 2.38 TCG 24.00 23.10 22.20 21.20 20.10 18.80 17.40 15.90 40 SDT 74.60 83.50 92.50 101.70 110.90 120.60 129.20 130.20 KW 1.16 127 1.39 1.54 1.71 1.91 2.14 2.39 Tca 26m 2540 24.30 2330 2zi0 2060 1940 iT= 411 S[JT 76.80 B&30 9420 f03t0 i1P.30 121.50 f�8o (89.W KW _ 1.17 128 1.41 158 1.73 1.93 2.15 2.41 TCG 2620 27.90 26.70 - - 25.50 24.20 22.90 21.40 19.80 50 SDT 78.60 87.10 090 104.80 113.8(? 122.90 132.60 141.00 KW 1.17 129 1.42 1.57 1.75 1.95 2.17 2.42 TCG 32.10 30.60 29.20 27.80 26.40 25.00 23.50 21.90 SDT . 0.20 07.70 106.50 115.401 '124.40 133x.40 142,40 KW 1.1 B 1.3D 1.43 1.59 1.77 1.96 2.19 2.44 TCG 24.50 23.50 22.50 21.30 20.10 18.60 17.50 18.10 30 SDT 71.20 60.30 60.60 98.80 160.10 117.50 130.30 136.10 KW 1.30 1.48 1.63 1.81 2.60 221 2.44 2.70 TCG 27.30 26.10 24.90 23.70 22.30 20.90 19.60 17.90 35 SDT 73.06 82.00 91.10 160.20 1o9.50 118.70 1261W 197.20 KW 1.32 1.48 1.655 1.83 2.03 2.24 2.46 2.75 TCG 30.20 28.90 27.60 26.20 24.70 23.20 21.00 20.00 40 SDT 74.90 83.70 92.70 101.70 110.90 120.60 129.30 130.50 KW 1.35 1.51 1.60 1.86 2.06 228 2.52 2.80 TCG 33.30 31.60 30.30 28.80 27.20 25.60 23.60 22.20 45 SDT 76.80 85.50 94.40 160.30 112.40 121.60 i30.60 130,60 KW 5.39 1.'34 1.71 169 M 2.31 2.30 234 TCG 30.40 34.60 33.30 31.60 29.60 2820 26.40 24.60 8o SDT 78.80 87.40 98.10 105.60 113.00 123.00 132.10 141.20 KW 1.42 1.57 1.73 1 1.91 2.11 2.33 2.58 2.60 TCG 30.70 38.60 38.30 34.60 32.80 31.00 29.10 27.20 55 SDT 80.80 89.30 97.90 106.70 115.60 124.80 133.80 142.70 WN 1 143 1.5x8 1.74 1.92 Z11 2,33 268 267 8 +n mew 27 II 'CONDENSER ONLY RATINGS0 SST CONDENSER ENTERING AIR TEMPERATURES°F(°C) OF(.q 55 75 85 9$ 105 ii5 125 (12.78) 18.33) (23.89 (29.44) jjjMLJ 48.tl 1.87) TCG 30.10 29.00 27.70• •28.30 24.80 23 00 21.10 19.00 sm 78.40 02.x} 431.20 10D.30 10%.M 110.40 12 .W 130.611 WN 1.63 1.B1 2.00 2.20 2.43 2.70 3.01 3.37 TGG 33,50 32,10 30,70 29.20 27.50 25.80 23.80 21,40 35 SDT 75.40 84.10 92.90 101.80 110.80 119.80 128.80 137.70 KW 1.67 1.85 2.04 224 2.47 2.73 3.04 3.40 TCG 37.00 35.50 33.90 3220 30.40 28.40 26.30 24.00 40 SDT 77.60 86.10 94.70 103.50 112.40 121.30 130.20 130.10 1 1.73 4.80 2.00 229 2.51 2.78 3,08 3.44 TCG 40.80 38.90 37.20 35.40 33.40 31.30 29.10 28.70 46 SDT 79.80 88.10 98.00 105.30 114.00 122.90 131.70 140.W KW 1.77 1.95 2.13 2.33 2.56 2.82 3.13 3.49 TCG 44.30 4250 40.80 38.60 36.50 34.30 32.00 29.40 50 SDT 82.00 90.10 98.50 107.10 115.70 124.50 133.20 142.30 KW 1.81 1.90 2.16 2.37 2.59 2.86 3.17 3.53 TCG 4m 4= 0A00 41.W 370 37.40 34. 1 3= 55 SDT 84.10 92.10 100.40 108.80 117.40 126.10 134.70 143.40 KW 1.82 1.99 2.18 2.38 2.81 2.87 3.18 3.55 • TCG 1 37.30 35.60 34.00 32.30 30.50 28.70 26.90 25.90 30 SDT 72.90 81.90 91.00 100.10 109.40 118.70 128.90 137.40 KW 1 M 2.20 2.41 ZOO 3.W 3.34 3.71 4.10 T 41.W M311 37.5;? 35.8D 3380 31.90 2I�W 2760 35 SDT 74.80 83.50 92.50 101.30 110.30 120.00 129.30 130.30 KW 1.97 2.19 2.44 2.72 3.03 3.37 3.75 4.15 TCG 45.90 43.10 41.20 30.20 37.20 3520 33.00 30.90 40 SDT 76.50 85.20 94.10 103.10 112.20 121.40 130.60 130.30 KW 2.30 222 2.47 2.75 3.90 3.41 3.78 4.19 Tta 4&30 47.30 45.20 43.10 40.99 35.70 3&49 34 o 45 SDT' ?8.40 87:00 95.80 104.70 113.70 122.80 131.90 141.10 KW 2.03 225 2.50 2.78 3.10 3.44 3.82 423 TCG 5160 51.70 4940 47.10 4480 42.40 3960 37.40 W SDT 80.50 80.00 97.80 190.40 115.30 124.30 133.40 142.50 KW 2.07 229 2.54 2.82 3.13 3.48 3.86 428 TCG 58.70 56.30 53.90 51.40 48.90 46.30 43.70 41.00 55 WT +2.32 91.90 88150 t05.2Q 117.00 125.90 13400 t49,80 KW 2.33 2.58 2.80 3.17 3.52 3.91 4.32 TCG 40.70 38.10 35.60 33.10 30.50 28.80 25.80 30 SDT 81.40 90.20 99.20 108.30 117.40 126.50 135.90 KW 2.53 2.75 3.30 328 3.54 3.84 4.15 TCG 48.10 45.40 42.70 40.00 37.30 34.70 32.80 29.40 as WT 7460 83.10 81.80 100.80 10980 116.00 128.10 187.30 KW 2.38 2.57 2.60 3.08 3.34 3.64 3.96 4.30 TCG 53.30 50.40 47.50 44.70 41.80 30.90 3020 93.40 40 SDT 76.50 85.00 93.70 102.50 111.50 120.50 129.80 130.80 KW 2.39 2.81 2.85 3.11 3.41 3.73 4.07 4.44 TCG 58.90 55.80 52.70 49.80 40.80 43.60 40.70 37.70 45 SDT 78.80 87.80 95.80 104.30 11320 122.20 13120 14RW m 243 2.65 2,30 &17 3.47 &so +4.17 4.50 TCG 64.80 61.40 58.10 54.80 51.60 48.40 45.30 42.10 50 SDT 80.80 89.10 97.50 108.10 115.00 123.90 130.90 141.90 KW 2.47 2.30 2.94 322 3.53 3.88 4.26 4.67 TCG 71.90 67.30 63.80 80.20 58.80 53.40 50.10 46.70 55 SDT 83.90 91.30 9960 108.10 118.80 125.60 1 134.60 143.50 KW 24t 2.73 2923 9.27 3a 3m 4.34 4.77 See uoWs an 28 CONDE SIER ONLY RATINGS* SST CONDENSER ENTERING AIR TEMPERATURES°F BS 75 85 95 105 115 125 (12.78 (18.33) (23.89) 1 (28.49) (35.0) ;. . TCG 52.00 49.50 47.10 X3717 41.90 39.10 38.10 32.80 38 SDT 75.00 WAD 15.00 111.91} 120.5(} 1�6E? 138.60 KW 2.71 3.02 3.35 412 4.58 5.10 5.71 TCG 57.40 54.70 52.00 44.50 43.50 40.30 37.00 35 SDT 77.00 85.80 84.80 113.00 122.10 131.10 140.10 KW 2.79 3.09 3.41 4.18 4.65 5.19 5.81 TCG 8320 80.20 57.30 54.40 51.30 48.20 44.80 41.30 40 SDT 79.10 87.80 98.70 105.60 114.70 123.70 132.70 141.70 FOfft 288 3.17 3.413 3.83 428 4.74 529 an TCG 60.30 68.00 62.80 59.60 56.40 53.00 4950 45.80 46 SDT 81.30 89.90 98.60 107.50 118.40 125.40 134.40 143.30 KVV 2.96 328 3.57 3.93 4.34 4.82 5.39 6.03 TCG 75.60 72.00 68.50 85.10 1 81.60 58.00 54.20 50.30 50 SDT 83.50 92.00 100.80 109.40 118.20 127.10 136.00 144.90 KW 3.08 3.34 3.65 4.00 442 4.90 5.47 6.14 TOG wm 78:112 74:W 700 WW f.QQ sm 59:90 55 SDT 85.70 84.110 102.60 111.30 120.00 128.90 137.70 146.50 KW 3.17 3.42 3.72 4.06 4.48 4.97 5.55 622 *AN llsOng appl only to systems shown in combination nongs twe. KM! - Outdoor Unit lalowatts Only. SDT-Saturated Temperature Leaving Compressor(°FrC) SST- Saturated Temperature Entering Compressor(°F/°try TC6i-+moo Como cwm 1m mh) 29 ,Gib S'll" M+CAPf ONS -c -SYSTEN AM CADNIDMONM GENERAL 1-1/2 TO S NOMINAL L TONS System I?escription - Fans Outdoor-mounted, air-cooled, split-system air conditioner unit — Condenser tan will be direct-drive propeller type, suitable for ground or rooftop installation. Unit consists of a discharging air upward. hctnwW r, an ah-umbd as—um weir, progeks-" a Umdamer far=tc a wW be to atfy nebad,i phase condenser fen,and a control box.Unit w$1 discharge supply air type with class B insulation and permay lubricated upward as shown on contract dmwh4OL Unit will be used in a bearings.Shafts will be corrosion "nt. refrigeration circuit to match up to a packaged fan coil or coil Fan blades will be statically and dynamically balanced. unit. Quality Assurance — Condense=r fan openings will be equipped with coated steel safety guards. — Unit will be rated bra with the editing wire v4 AN 210: — Compressor will he hermetically sealer. — Unit will be certified for capacity and efficiency,and listed in the latest ARI directory. — Compressor will be mounted on rubber vibration — Unit construction will comply with latest edition of isolators. ANSI/ASHRAE and with NEC. Condenser Coil — Unit will be constructed ig accordance with UL - Condenser coil will be air cooled. aid:wN oM tt UL kbd of appra"3.Utah. -- t fit wilt be wamcmrd otakminum fins medwk try will have c-UL-us approval. bonded to copper tugs which are then cleaned, — Unit cabinet will be capable of withstanding Federal dehydrated,and sealed Test Method Standard No.141(Method 6061)300-hr Refrigeration Components salt spray test. — Refrigeration circuit components will include — Air-doled condenser coils will be leak tested and liquid-line shutoff valve with sweat connections, pt to tt v%mr-Trite shutoff valve with swed +a eras; — Unit comtructed in IS09001 approved duality_ syde m clwW ofeft-22 mfikemmot,and cautpummaiL Delivery,Stange,and Handling — Unit will be equipped with filter drier. — Unit will be shipped as single package only and is Operating Chamcteds" stored and handled per unit manufacturer's — The capacity of the unit will meet or exceed recommendations. Btuh at a suction temperature of °F/°C. The WaTanty(for bdusioa by WoOf Wg engiam) power consawfim at full load will not excel Icy I U.S_and Canada ugly. — Combination of the unit and the evaporator or fan coil PRODUCTS unit will have a total net doling capacity of Equipment Btuh or greater at conditions of CFM entering Factory-assembled,single-piece,air-caroled air conditioner unit. air temperature at the evaporator at °F/°C wet Captained within the unit encda�sure is all factory wiring,giging, bulb and 'F/'C dry bulb, and air entering the oak FM required �- — The system will have a STrER of Btuhlwatt or lam' start-up. Unit Cabinet greater at DOE condition Unit cabinet will be constructed of galvanized steel, Electrical Requirements bonderizei,and coated with a powder coat paint. — Nominal unit electrical characteristics will be v, single phase, 60 hz. The unit will be capable of saddactary Operahm wid"VOUW haw of v to V. — Nominal unit electrical characteristics will be v, three phase, 60 hz. The unit will be capable of satisfactory operation within voltage limits of v to V. — Unit electrical power will be single point connection. — CoMol gait wlil be W Special Features — Refer to section of this literature identifying accessories and descriptions for specific features and available enhancements. C40vftm em ca cam.•ratatat m.• .§1 403t PdFAd1RUAA EdOw s PD Manuewtorer remvm as rtgM to ctango,at mW dma,spedficadom amt desk-vAdma notko esa WOme moons. Rep km:2 r-aPo 30 r M=to the Experts. 'PrndUCt Data INDUSTRY LEADING FEATURES/ BENEFITS Efficiency • 13 SEW11 MR(Nominal) low* • Microtube Technology' refrigeration system �It n • Indoor air quality accessories available k Sound � .ht±'nl #8 +t 9 lS F 11ii • � 'lll�{��I 1�� Sound level as law as 76 dBA • As low as 74 dBAwlth Optional wcemry wand hood k ;�1 Comfort !s • System supports Thermidistat'" or standard thermostat a;lii6{i € controls Reliabflity {� • Scroll compressor Internal pressure relief valve ,1t�� j 4� • iQLesaelthemudoverinad ;IIt1113i��F� • Filter drier V� � � � • Balanced xeiesat3an system far maximum reliability �m y i WeatherArmor' protection package: • Solid,durable sheet metal construction guard As an Energy Star®Partner, Carrier Corporation has determined • Wire coil oil �� 1 that this p - the Energy S fnr energy • efficiency. Refer to the oombinatiorr ratings in the Product Data APpfiattions 't, for system combinations that meet Energy Stars'guidelines � a NOTE. Ratings contained In this document are subject to Long-line -up 0 2fe feet .96 m)total ser above change at any time. Always refer to the A13RI directory length, up to 20t feet (64.96 m) condenser above (www.ahrtdirector .o for the most up-to-date ratings evaporator;or up to 60&.(18.28 m)evaporator above y p' � condenser(See Longline Guide for more information.) iriforniation. • Lc (down to 40TJ 299-C)with armory kit Warranty Single Phase • 5-year limited compressor warranty • 5-yas OMW PM vasty Three Phase • 5-year limited compressor warranty • 1-year limited parts warranty MODEL NUMBER NOMENCLATURE 1 2 3 4 b a 7 8 3 10 11 12 13 N N A A NN N N N NN MY AIN N N 2 4 A B R 3 3 8 A 0 0 3 0 Product Product rx MaJor am Cooling Vadefim qM 0138", %*"* $ad" 3-2030-9 24=AC A=RESAC 0=f3866 R=R--M 3=t3SEER Gar/1s® 0=NO! 0—Not 5=208)230-3 Dented Defined 8-480/3 original ODA Guard 1 878!3 Serbs IS09=2Wo � � MCI C �f. us • � c®�lI?•L�IT 'Reacls�d .ai aasl�n aunt Eater sweaftlemranew a8M , h = w, . , ` &W .� d NO an n,air n. . FOMtecoe8m wa�a6mge and oft fim no#admasaM and aMAae IML STANDARD FEATURES Feature 18 24 30 36 42 48 80 lil atminn s`i=ER 14.6 1428 14.8 14 14 14 1315 Scroll Compressor X X X X X X X Udire Coil Guard X X X X X X X Field-Installed Filter Drier X X X X X X X FM-tt Se**q Service Valves X X X X X X X Internal Pressure Relief Vein X X X X X X X Internal Thermal Overload X X X X X X X Long-Line capability X X X X X X X Low Ambient capability with Kit X X X X X X X X-SYaada d II 2 PHYSICAL DATA 38-38, 42-31, 49-4 80-36, UI+N7SUESERIES 18-92 24—W 30-35, 38-55, 42-91, 30-53 38-63, 42-81, 48—x, 00-88, 38-12 42-11 48-11 80-12 OWWn9 td lb 120(326.6) 120(64.4) 130M.0) 139 83.0 192(87.1) 208 87.1 222 100.1 Stdpping Wow Ib 154(69-9) 158(70.8) 170(77.1) 177 80.3) 220 99.8) 1 242 1 1 285(1202 Son* RER4(QERARr Flom. (R— Control TXV —22 Hard ShubM Charge tb 3.9(1.8) 4.5(9.0) 4.9(22) 5.4(2.4) 1 7.15 73S(3.6) 9 1(42) COND FM propeffer Type,Dked Drive Air Discharge Vertical Ak lily C 1880 2200 2730 3170 3155 4050 4050 HP 1/12 1/10 1/5 1/5 1/4 1/4 1/4 COWCOIL 118$ 11� 11� 11� 11� 800 80Q Face Area 9.85 9.85 11.49 12.93 21.58 22.83 25.15 RM per In. 20 20 215 25 25 25 26 Fbm 1 1 1 1 1 1 1 Ckcuite 3 3 4 4 S 8 8 VALVE CONNEUE n.ID vapor 3/4 3/4 3/4 7/8 1 7/8 1 7/8 7/8 Ram WW 3/4 3/4 39 7/8 7M 1 7M9 1 1®fA5 .�s *Units are rated vd1h 25 ft(7.e rn)of Itneset length. See Vapor Una Stang and CooNng CepadW Lose table when using other eizes and Iangft of lineset. Nom: See unit Installation Instruction for proper Installation. VMM LM SIMG AND COOLING CAPIACM LOSS LONG LINE APPLICATION: An application is considwed separation is 2W&(W%a)whn outdoor=it is above indoor "Long line"when the total equivalent tubing length exceeds 80 unit, and 60 &(18.28 m)when the outdoor unit is below the ft.(2438 m)or when there is more than 20 ft.(6.09 m)vertical indoor unit. Refer to Accessory Usage Guideline below for separation between indoor and outdoor units.These applications required accessories. See Longline Application Guideline for require additional accessories and system modifications for required piping and system modifications.Also,refer to the table WS" SYWM Opendm Tim nwxhmuu a1JOwable MW bebw for Oe vagnr tube baud on Me mW kno to equivalent length is 250 ft. (76.2 m� The maximum vertical minimize the cooling capacity loss. unit C +V Low M Nmnktd Liquid Vapor line Total Equivalent Una Length 8.(m) Slze Diameters OM St !d Ap"c�on Lo Una Application R�dt99 Ac ceaeot199 am*) pn•OD) 28-50 51-80 81-100 101-125 128-1� 11151-175 178-200 201-2.25 228-250 .t- tit R-22 SM AC 314 0 0 24000 6f8 1 2 u' R-22 3/8 3/4 0 0 . AC 7/8 0 1 0 t , 30110 5/8 1 1 3 R-22 3118 314 0 1 AG T 4 0 38000 3/4 1 1 A h � R-22 3/8 AC 7/8 0 0 MW 314 1 2 ?, n' R-22 3(8 7/8 AC 1-1/8 0 0 480 3/4 f 1-22 7 AO 80000 mum R-22 3/8 7/8 AC -w 3 24AE3F�3 i ' IVA hires f •kill e ♦ 1. f' — i I ACCESSORY USAGE GUIDELINE REOMED FOR LOW-AMBIENT RECBARED FOR LONG LH E R G RED FOR ACCESSORY �N � COAST w /t2.89C) ( X4 e� nn 2 adles/322 Ian) Ball Sea ft Fan Motor Pest No No Conwremor Start Assist Capaeltor and Relay Yes Yea No C rat "enter Ym we No Hand Shut-Off 7" Kos Yes Yes Uquld Lire Solenold tea No No No NNW Agnew,or Low-ambient Proem"Switch Yes No No Support Feet Recommended No Recmnmended Vanier Start Caordnoi Yes No Pb *For tubing line sets betmen 80 and 200 ft(24.38 and 80.16 m) /or 20 tt 8.08 m)Verucal"mntlal,refer to Maidential Sett-Systam LnglIne A%lim fiur Qddeilne. I Adftrai tatlukament1w Law- &a mo&degm UnkAj#j&ftMaaWs Cefurl. Ace mory DCrlption S)Sd Ut "ftd A phal>e"Ily) 1.Ball-Bearing Fart Motor A Low-Ambient Pressure Switch must be used when A fan motor with ball bearings which permits speed reduction cooling operation is at outdoor temperatures below while maintaining bearing lubrication. 55°F(12.8°C)to a minimum of 0°F(47.8°C). Uuv dun: far Required on all units when using MotorMageiftr 8.Motor Low-Ambient Controller , 2.Compressor Start Assist-Capacitor and Relay A fan-speed control device activated by a temperature sensor, Start capacitor and relay gives a "hard" boost to compressor designed to control condenser fan motor speed in rinse to the motor at each start up. saturated condensing temperature during operation in doling mode only.For outdoor temperatures down to-20°F(-28.9°C}, Usage Guideline: it maintains condensing temperature at 100°F t].0°F(37.8°C RWmd for sIA&-phm smR tampmom in the _12aC, following applications: Usage Guideline: Long-Line A MotorMaste& Low Ambient Controller or Low-ambient cooling Low-Ambient Pressure Switch must be used when Suggested for all compressors in areas with a history of cooling operation is used at outdoor temperatures low voltage problems. below 55°F(12 8°C� 3.Gamprawr Start Ault— I�pe Suggeod for alt commmW applicatim. Solid state electrical device which gives a "soft boost to the 9.Outdoor Air Temperature Sensor compressor at each start-up. Designed for use with Carrier Thermostats crated in this Usage Guideline: publication. This device enables the thermostat to display the Suggested in installations with marginal power supply. outdoor temperature. This device is also required to enable 4.Crankcase Heater special thermostat features such as auxiliary heat lock out. An electric.regiamm hemerr which mounts to the crass of the Usk OW ' compressor to keep the lubricant warm during off cycles. Suggested for aid Cancer thermostats dieted in this Improves compressor lubrkatiott on restart and minYmiZ®s the publication. chance of liquid slugging. 10.Sound Hood Usage Guideline: Wraparound sound reducing cover for the compressor.Reduces Required in low-ambient coaling applications. the sound level by about 2 dBA. Vaqu in Long-Lino appUcations. use C l Suggested in all commercial applications. Suggested w.b en unit Is installed closer than 15 ft(`457 m)to S. Cycle Protector quiet area%b Wmmst,€tc, The cycle protector is designed to prevent compressor short Suggested when unit is installed between two houses less cycling. This control provides an approximate 5-minute delay than 10 ft(3.05 m)apart. after power to the compressor has been interrupted for any 11.Support Feet pawca outage,P=ftC4QV MI*01 trip,6WIDOW Four atk*-um plastic lba that rye the unit 4 in..(W L6 ter) jiggft or normal cycling above the mounting pad.This allows sand,dirt,and other debris 4,Evaporator Fhm Thermostat to be flashed from the unit base,minimizing corrosion. An SPST temperature-actuated switch that stops unit operation Usage Guideline: when evaporator reaches freeze-up conditions. Suggested in the following applications: Usage Guideline: Coastal installations. Requited when tone an"at kit has been adder 1iYurdy awn or whom debr a is nounaRy 7.Low-Ambient Pressure Switch Kit Rooftop installations. A long-life pressure switch which is mounted to outdoor unit For improved sound ratings. service valve. It is designed to cycle the outdoor feu motor in order to maintain head pressure within normal operating limits. The control will maintain working head pressure at low-ambient temperatures down to 0°F(-18°C)when properly installed. Ul 5 CHARGING SUBCOOLING(TXV-TYPE EXPANSION DEVICE) 18-32 10 24-33 30-33 30-53 10(5.6) 38-53 38-53 38-83 38-12 42-31 42-61 42-61 42-11 48-32 48-82 48-11 60-36 60-56 OD-88 10(5.8) 60-12 ELECTRICAL DATA MIN MAN MAX AGAR MAX UNIT SIZE- OPER VOLTS' COMIPR FAN WIRE WINE LENGTH LENGTH FUSE** VOLTAGE, V/PH MICA Mott S1ZEt 1L(m)# R(m)# or CKT SERIES Ate WN LRA WLA FLA 4W O W o 4r 6 W o �K 18-8x 40.3 7. 0.5 10.1 14 14 78(23. 74 1$ 24-39 54.0 10.4 1 0.75 13.8 14 14 57(17.4) 54(16.171 20 3D-33 6B.0 14.1 1.1 18.7 14 14 42(12.8) 40(12.2) 3D 38-33 208/230/1 253 197 77.0 14.4 1.1 19.1 12 12 85(19.8) 62(18.9) 30 42-51 104.0 192 t.4 25.4 10 f0 79(24.1 75 .9) 40 48-31 137.0 202 1.2 26.4 10 10 76 34 72{21. ) 40 8L-= 141.0 25.3 12 32.9 8 a 94(28.7) 90(27 A 50 1180 7.7 1.1 1 10.7 14 14 mp" 81(247} 18 38-63 73.0 9.8 1.1 13.1 14 14 69(21-0) 660.1) 20 42-51 200AM= 2153 197 ® 12.8 1.a 17.4 12 ix 83 3 78(x4.0) 28 48-51 all 13.1 1.2 17.8 12 12 82 0 76 ) 80-58 110.0 15.4 12 20.4 10 10 113(34.4) 108(32.9) 30 38-83 38.0 5.8 0.5 7.7 14 14 236(71.9) 225(68.8) 10 42-81 46013 b08 414 44.0 6.0 1 0.7 82 14 14 222(87.7) 1 211 .3) 1 15 4"1 41,0 81 1 98 8.2 14 14 2 211(64,3) 1b W-M 5210 A 0 14 14 739WN t 1 38-12 27.8 4. 0.5 5.5 14 14 303(82.4) 28S(87.8) 10 42-11 575/3 832 518 33.0 4.6 6.6 6.3 14 14 2Ext(79 247(76.3) 1s 48-11 i 33.0 4.8 0.5 6.3 14 14 280(792) 247(76.3) 15 80-12 1 38.9 5.4 0.5 7.3 14 14 227(69.2) 216(65.8) 10 "Permissible limits of the voltage range at which the unit will operate saQsfactorily t If wire is applied at ambient greater than 30°C(86°F),consult table 310-16 of the NEC(ANSVNFPA 70). The ampacity of non-metalllo-sheathed cable trade nwm R1JhMf,,&W be ttret of WC(140°F)candifform,per tree NEC(ANSUAMA Male 338-28 if other th&7 undo (po-plat 80° or75°C(440°ar187°f3 ota ,ad� ��10 � � �t40l ��t of the NEC(ANS1ffiM 70). # Lmoh shown Is as measured 1 way along wire pat between unit and smbe pal for voltaga dW not to erred 2%. **Tim-Delay fuse. FLA -FUA Load Amps LRA -Lod(ed Rotor Amps MCA -MAnimum CkOuR Amps RLA -Rated Load Ampa KM OMVW*MM I&24-V an 9))unb WW YMOm wftmW pwm mwo, COW Yf9 mug be wW ftm wike dWWMW ID Wk M nlators/ pressom min Internal overload prates on. 6 A-WEIGHTED SOUND LEVEL UNTSrt- SIA19)ARD TifPIC�OCTAVE SPECTRUM{�„ VOLTAGE,SERIES d 125 250 Sao 1000 2000 4000 8000 18-32 76 51.0 61.5 67.0 68.5 66.0 61.0 55.5 24-33 76 54.0 64.0 68.0 71.0 69.0 64.5 5910 30-33 78 64 6 8Q.6'i 7" 7" 674 8" SFA 8D-R 38-33 30-53 38-63 e.76 gas 69.5 72.0 73.5 5 65.0 69.8 38-12 42-31 42-81 42-81 79 60.5 68.6 71.5 75.5 69.5 65.5 66.0 42-tt 46-32 48-62 80 5115 83.5 66.0 76.0 66.0 66.6 8315 48-62 48-11 60-38 60-- 60 - 80 54.5 63.5 71.6 74.5 67.0 68.0 68.5 - W-1a A-WEIGHTED SOUND POWER WrM ACCESSORY SOUND HOOD UNT Km- S RATII� TYPML OCTAVE SPECTRUM(d%wNwud�� VOLTAGE,SERIES (d" 125 250 500 1000 2000 4000 8000 18-32 74 62.5 62.5 68.0 69.0 67.0 81.5 86.0 24-33 75 66.5 6510 69.5 70.0 wo B4.5 5910 30-35 30-53 7S 55.0 638 no 70.0 6" G&O &f.5 36-W 36- 3 38-888 78 60.5 70.0 72.5 72.5 69.5 68.5 60.0 35-12 42-31 42-53 42-W is 413.3 4 O 71.5 74,5 4.5 0&0 et.5 42-11 48-32 48-52 48-82 79 53.0 63.5 65.0 76.0 4.0 62.0 59.6 48-11 60-35 so-so 76 56.5 63$ 70.5 725 as.S B4.o BSO so-it DIMENSIONS (AIRY A B C I D AE P © H J A l AA AI P DMA R x W 9MBR318 2 X 0 1 0 1 0 23 SW 23' 3 8/4m 3/4' 4 7/18° 21 114' 9 1/8' 5110' 3' 2 13/18• 112' 13 1/2• 14' 10 1/2' 1840 1200 23 7/8•180 1118' X132 9P10' • • m e 1 • 0 J • S • Om 1 s m s • . 2AABR324 3 x 0 0 0 28$84 28 9 3/4 3/4' 4 7118 21 1 4 1 8 118 3' 2 13/1 1 2 11 1/2• 12 112 10 1160 1200 28 7/8 X30 0018• X 32 9/18 9AM330 3 X 0 I 0 2S 314' 28 7/18' 3 814' 3/4' 4 7116' 21 114' fl/O' 5118' 3' 2 13118' Ills 15 1/2' 12 112' 14 114' 1100 1300 29 74'X 30 1118' X 32$118' 2WR338 2 61 X 0 0 81 3/19' 25 1/2' 3 7140 7/8' 0 8118' 94 11d10' 9 1/8' $t10' 31 2 13119' 112' 19° 15 114' 13' 1170 1394 32 319' 1 35 112' I *mist 3 x 0 I z ZAA8R360 2 0 1 0 0 $56 39 118' S T/4m T/8° 8 801 S. 28 WIP 9 1/8' St10' 3' 2 15/18' Slb' 17 1/4' 10' 15 112' 2950 2220 1 31 118• X 30 5110' X 42 314' 8 x 0 1 I I s YES NOTES: 0 a AO 1. ALLOW 'CLEARANCE TO$WI4t SIDE OF UNIT 48• UNIT 8'QN $ES[_ti' ON REMAINING$IDE. AND 2 EA UNITS rrNOPffR AIRFLOW. 2.Will X80 IM ;RZ IG WENT IN cOOLINO 3. affE8 8IOUTION is in�F1n ISTI POSITION OF THE DN L NINW. 4. CENTEN OF GRAVITY®. Aso. AIR DItSCHARBE All IN 1 1 a 00 FIELD a IN---+- FIELB PR Y CONN. P 171/8" E WITH o + AIR IM LIQUID LIN 8 . C 3 102' J t 7!A^ OD VAPOR 8.811E CORN. H �K- CAIN IR wo m 03/8" TIESoR KNoc WT SM IUX= PM 121 PLACES 18,24 30 28' 18' 30 3 112' 31 112' 60 35.$4. DMNSIONS U!T A 8 C D K p D H J K 4 m P cif 9MUMN L x W x 24MR342 1 1 X X X $1 1110' 39 1/8' 3 118' 718° 8 9116' 24 11118' 8 110' 5110° 3' 2 15/16' Mr 16 718' 18' 18 3/4' 192# 2201 32 3/8' 1 35 1/2' X 42 714' 24>18M 1 a X 0 0 38' 35 314' 3 7/8• 718' 6 9116' 28 7118' 0 118' 5110' 3' 2 16/18' 510' 18 114' 18 1/2' 11 1/2' 200 2408 38 1/4'1 39 5110' X.89 318' 2 1 0 X 1 2 $60 5 1 0 Y X 35" 45 15/10' 3 1/0" 7/8' 4 01165 28 WIS' 9 110' $118" 3' 2 15116' 810' 18 3/4' 17' 20 116' 230 274# 86 118" %3$ 5/16' 1 49 8118' N07M. 1. 18.LON 38 0'Cgp�BCEpTTOgN3Y�IuC��38980E UENA�NII�6I$[, 24"681®EEA KNITS Fat PNOPtR AINFL�. 2. M1NIMl61 09�[DOOB OPENAF!ANSIED IN COOLING IgDE IO F. NA1. 12 F. 3. MIT E818f/EEIMUTEB IS THE 18TH POSITION OF THE A 3O. 4. CENTER V GRAVITY ®. AIR DISCHARGE AY IN DI6E 1 f 1 0 m FIgELUDq C B Qli� E IF AIR I --+^ FIELD P�718 �WTH a 1 +--AYR IN Sg�O' LIMO LINE 1011N. C 11 1708' 00 VAPOR LM CM.—/ L K L Lin it KNOC T PAD 03J8' TIE (2) PLLAP.Es 28' ' 42 31 112'X 1J2' 48.60 35.1-us CLEARANCES Clearances(various examples) milt Waif 6" 152.4 24" (609.6) 24" 12„ Service (609.6) (304.8) Service 12" (304•8) 152.4 12" (304.8) Lj 12" (304.8) 0 - 24" 24" 24ty (609.6) (6@9.6) (609.6) Service Service Service 18" 18" 1810 4 (457.2) (457.2) (457.2) Note: Numbers in O = mm cOMBE4MO N R"NGs twT Si2E-Vo TAtiE, TOTAL CAR am FURNACE >� BTIAi ENHANCEMENT RA W" E� MODEL *CAR**1814ik- 17,100 TXV 13.00 11.20 CAR**1814A** 17,000 TDR&TXV 14.00 12.00 gem=-12 OAWn4S14A- 1Y,7� T�B1XV 44,96 12.20 3ffi w''R}ti r'' b- Efla.«`^b. CAR*PA14A** X17= TDR&TXV 14.00 12.00 1 68CV -12 CAR**2414A** 17,700 TDR&TXV 14.50 .1220 SBPH*045-08 CAR"*2414A** 17,500 TXV 13.00 112D CAR**2417A** 17,400 TDR&TXV 14.00 12.00 58CV �090-18 CAR**2417A** 17,= TDR&T)(0 UAR U00 t4 CAIR*'*2417A*'* 17,600 7XV 13.00 1120 C6F*2418A** 17,500 TXV ry13A0 112D Bosom./' CNRH*2417A** 17,400 TDR&TXV 14.00 12.00 SBCV(A, OM-12 CNRH*2417A** 17,600 TDR&TXV 14.00 12.00 68CV("090-18 CNRH*2417A** 17400 TDR&TXV 14.00 12.00 56MV 080-14 !*2417A** 17,,AW 14.00 12.00 14 CNRH*2417A** 17,400 TDR&TXV 14.00 1200 t4 CNF9'i*2417A** 17,700 TDMTXV 14600 12.20 Uti*048-08 ,.:ry�,� "�' ;`�' -�.s s° t� x .'. � xtri _ s+�, �`�. •' 'N3 CNRH*2417A** 17,500 TXV 13.00 1120 CNRV*1814A** 17,300 TDR&TXV 14.00 12.00 580V 070-12 04TP*VA** 17,304 TDR&TXV 14,64 13,24 t6-33 CNRV*1814A** 17,180 7X9/ 13.00 11.90 CNR1!*2414A** 17,400 TDR&TXY 14.E 12.00 1 58CV(AXWO-12 CNRV*2414A** 17,700 TDR&TXV 14.60 12.20 68PH*046-08 CNRV*2414A** 17,500 TXV 13.00 11.20 CNRV*2417A** 17,600 TDR&TXV 14.OD 12.00 SSCV -1e *2417A** 17AM ymmm 1400 1200 14 CNRV*2417A** 171600 TXV 13.00 11.20 CSRH*2412A** 17AW TDR&TXV 1000 12.00 58CV 12 CSRH*2412A** 17,600 TDR&TXV 14.00 12.00 68CV(AJC)C90-1e CSF&M412A** 17,40D TDR&TXV 14.00 12.00 58MV(B,C)080-14 CSRH*2412A** 17,400 TDR&TXV 14.00 12.00 58MV 000-14 1'Avm 17,606 TOWN 14.06 12.06 % CSTM19A" 1717011 Tmr" 14AO 12.24 WH*045-00 CSRH*2412A** 17,500 TXV 13.CD 1120 FA4CN(F,C)018 17,300 TDROW 13.OD 1120 FA4CN(F,C)024 17,000 TDR&TXV 13.00 11.20 FC4DNFO18 17,600 TDR&TXV 14.00 12.00 FC40NF024 17,700 TDR&TXV 14.00 1100 EN M4 17,6100 Tmro 13,00 1124 FFIENE024 17,400 T'DRWXV 1320 11.50 FK47N€Wi 17,590 TDR&TXV 14.00 12.00 F K4DNFOO2 18,900 TDR&TXV 14.00 12.OD *CAR**2414A** 23,000 TXV 13.00 1120 wil CAR**2414A** 22,800 TDR&TXV 14.00 12.00 SBCV6A,Xj070-12 AA"'* WAW TmTXV 1404 18.06 08 CAR**2417A** 22,800 TDRBLTXV 14.00 12.00 58CV(A,X)D80-18 CAR**2417A** 23,200 TDR&TXV 14.00 12.110 68WA OSO-14 CAR**2417A** 23,000 TXV 13.OD 11.20 24-'35 •e ��, .�. Rom , CAR**0014A"* 22,800 TDR&TXV 14.00 12.00 58CV(A X 70-12 CAR**3M44** 23WO TDR&TXV 14,25 12.00 SBPH*045-08 a€i**30i4A- 230Q6 w 13.00 11,20 CAft**0017A** 231000 TDR&TW 14.00 12.00 SSAX)O-16 CAR**3017A** 23,000 TDR&TXV 14.OD 12.00 C)OBD-14 CAR**3017A** 23,000 TXV 13.00 11.00 S q,o CNRF*24i8A** 23,000 TXV 1&00 11.20 sm tow onw20 11 r COMBINAnON RAMNGS CONTINUES UNIT SUM-VOLIAGE, . INDOOR TOTAL CAR r FURNACE sw�uED � ,� >� DES Mme. wm ENHANCEMENT RAMNO MOB' CNRH"2417A** 22,E TDR&TXV 14.00 1200 58CV 0-12 CNRH 2a17A" Mm TOR&TIV 14J24 1200 -ie CNRH*2417A** 221800 TDR&TXV 1400 1200 SSCV 110-20 C M*9417A** 22,E TDR&TXV 14.00 1200 MV 135-92 CNRH*2417A** 22.800 TDR&TXV 14.00 12.00 SBCVOX155 22 CNRH*2417A** 23,200 TDR&TXV 14.00 12.00 SSMV(B, -14 CNRH*2417A** 22,800 TDR&TXV 14.00 12.00 58W(BC)08D-14 CNRH*2417A** 22,E TDR&TXV 14.00 12.00 SSMV(B 0080-20 CNW*2417A** TomTXV 14,00 am LAe 20 CNRH*2417A** 23,000 TMTW 14.00 1200 .Qlao-20 CNRH*2417A** 22,800 TDR&TXV 14.00 12.00 SBMVBM-14 CNRH*2417A** 23,E T MT)(V 14.00 12.00 SBPH*045-08 CNRH*2417A" 23,000 TXV 1300 11.20 81m CNRH*3Dl7A"* 031000 TDR&TXV 14.00 12.00 SSCV(A,))070-12 CNRH*3017A** 2.3000 TDR&TXV 14.00 12.00 SBCV i6 CNW*=7A** 23.000 WETS 1400 12.00 110-20 CNRH*3017A** 23,000 TDR&TXV 14.00 12.00 SWV 70131-22 CNRH*0017A"* 23,000 TM&7XV 14.00 1200 88CV IBS-22 CNRH*3017A** 23,200 TDR&TXV 14.00 1200 58MV#kQ060-14 CNRH*3017A** 23,000 TDR&TXV 14.00 12.00 58MV 000-14 CNRH*3017A** 22,000 TDR&TXV 14.00 12.00 SBMV(B,C)080-20 CNRH*3017A** 23,000 TDR&TXV 14.00 12.00 SBMV(B, 100-20 4TA** 23,004 TOWN 44,04 12,44 MM-0 C t*SMTA** g3,000 TDRIi7X11 14.00 12.00 14 CNRH*3017A** 23,800 TDR&TXV 1428 12.00 58PH*045-00 CNRH*SD17A** 23,000 TXV 13.00 1120 CNRV"2414A"* 22,800 TDR&TXV 14.00 12.00 SBCV(A))070-12 CNRV*2414A** 23,600 TDR&TXV 14.00 12.00 SBPH*046-08 CNRV*2414A** 23,000 TXV 13.00 1120 CNRV*2417A** 22, 10 Tm&r" 14.00 12.00 16 248311 CNRV*2417A** 23,000 TOR&7XV 14.00 12.00 SSMVA -14 CNRV*2417A** 23,000 TXV 13.00 11.20 Aff ;a �, •.' .: hY . :,,,.m} yCYI riA y�1 ,� �s� „^. t ? . . `.?s.+ Ps.t `3�'gf a4b7 s ' CNRV*3014A** 22,800 TDR&TXV 14.x1 12.00 58CV(A,X)070-12 CNRV*3014A** 23,000 TDR&TXV 1426 12.00 SSPH*045-08 *" 2 oce TXV I&OD 1150 CNRV"0017A** 23,000 TDR&TXV 14,00 12.00 SBCV -16 CNRV*3017A** 23,000 TDR&TXV 14.00 12.00 88MV(B,Q060-14 CNRV*3017A** 23,000 TXV 13.00 1120 w ) CSRH*2412A** 23,000 TDR&TXV 14.00 1200 I SBCV(A,X)070-12 CSRH*2412A** 23,200 TDR&TXV %00 12.00 Eg i8 CON-PWRA" gum TDMTW 1419 lim 19-24 CSRH*2412A** 23,200 TDR&TXV 14.00 12.00 5OV(A))136-22 CSRH*2412A** 23,E TDR&TXV 14.00 12.00 SWVQ,Xji6S-22 CSFJ-V2412A** 23,400 TDR&TXV 14.00 12.00 58MV(SC)0S1-14 CSRH*2412A** 23,000 TDR&TXV 14.00 1 12.00 55MV(B,C)080-14 CSRH*2412A** 23,000 TDR&TXV 14.00 12.00 SBMV(I%C)000-20 CSRH*2412A** 23,200 TDR&TXV 14.00 12.00 5SMV(B,C)100-20 120'" 2200 Tf3R8mm 14.09 12,00 , 12q+29 CSFV-(*24i2A** 23,200 7TXV 14.00 12.00 14 CSRH*2412A** 23.600 TDR&TXV 14.00 12.00 SBPH*046-08 CSRH*2412A** 23,400 TXV 13.00 1120 �<fi^. `fi��N.,itt'n, ,y' ��...�� . c `•"��r�� .�i�.s.��':�;fi •$. �`°,i3..�,.,�,+i8 ;�"F�:�'�a �v.w�l.:.£�,sts ��,w�a-.^S`c`"" .,:.s,:;,?t�,->�.��.,.�aM CSRH*3012A** 23,000 TDR&TXV 14.00 1 12.00 68Cyf 070-12 CSRH*3012A** 23,200 TDR&TXV 14.00 12.00 6SCV(A,)Q090-16 124** 23,200 TDR&TXV 14,00 12,00 WV 110-20 'P`3012A 2UW 14,04 _ 1200 133--22 CSF4-r 12A** 23,200 TDR&TXV 14.00 12.00 155-22 CSRH*3012A** 23,400 TOR&TXV 14.00 12.00 -14 12A** 23,000 To%TXV 14.00 12.00 65MV(BC)000-14 CSM*3012A*" 22,800 TDR&TXV 14.00 1 12.00 68MV(BtC)000-20 CSRH*3012A** 23,000 TDR&TXV 14.00 12.00 SBMV(B, 100-20 CSRH*3012A** 23,200 TDR&TXV 14.00 12.00 SSMV 120-20 now an m Ev 12 COMBINATION RA GS CONTINUED Ftwomm FACTO" sm to"am-Vomalp, MWOOR TOTAL CAR SENSE; MODEL sm ��T � >� MODEL CSRH*3012A** 23,000 TDRVXV 14.00 12.00 SBMVBD40-14 12A** 23,800 TDR&TXV 1425 12Ao 58PH*045-08 T!N FA40a7tt(f*C} 4 22MO TDR&TXV 13.0p 1120• FA4CW..C}EW 23,0 TDII&TXV 1100 11.2D 24-33 FC4DNF024 23,200 TDR&TXV 14.00 12.00 FC4DNF030 23,400 TDR&TXV 14.Od 12.00 FF1ENE024 22,600 TDR&TXV 1&00 11.20 FRENSW 23=- TDftTKV 13A0 11.20 Rt a%M TDR&7981 14.0D 12.00 FK40NF001 23,000 TDR&TXV 14.00 12.00 FK40NFOM 22,800 T'DR&TXV 14.00 12.00 *CAR"*3Q74A** 27,600 TXV 13.0 11.20 CAP**3017A** 28,600 TDR&TXV' 1400 1200 58PH*070 16 TA** 2s, 0 TX1t um 08.00 >d GdP*°3821A*" x,000 T TXV 1450 1220 5~000-18 �3 Cd4R**3014A** 27200 TDR&TXV 1400 12.00 SSCV(1\,X}070 112 CAR**3017A*" 27,400 N TDR&TXVa 14.00 12.00 58aY(A,X)o0-1® CAW*M?A** 2'1,4113 TDR&TXV' %90 t 18,c1p x-14 C f1'A'* 2°,600 7liil 1300 1,.W � k� cAR**3s14A** 27,4 TDR&TXV 14.00 12.00 58CV(A X)070-12' CAR** t4A** 27,8M TXV 13.OD 1120 CAR**3617A** 27,400 TDR&TXV 14.00 12.00 58CV(A,1Q080-18 CAR**=7A** 27,800 TDR&TXV 14,00 12A0 6m 14 CAR 47A- 27 '!001 Woo 112D CAR"*38d1A** 27,800 TOR&TXV 14.00 1 12A0 SBCV(A)0110-20 CAR**3621A** 28,200 TDR&7XV 14.00 12.00 SBMV 14 CAR**3621A** 28,20 TDR&TXV 14.00 12.00 56MV($,C)080-20 CAR**36MA** 28,200 TDR&TXV 14.00 12.00 58MV(B,C)10-20 CAR**321A** 27,E TXV 13.00 1120 38-= CNPttVM7A"" 2%GW TmTXN 14.00 12� li"070-16 30-53 CNPH"3017A** 28,600 TDR&TXV 14.00 12.00 5m*090-16 CNPH*M7A** 28,800 TDR&TXV 14.00 110 58PH*070-18 CNPH*3617A** 28,800 TDR&TXV 1450 12.00 58PH*CW 18 _ 17A*` 2880 TDA&TXV 14000 12.00 50'11'070 18 CNPW"3617A** 281#!0 TDR& 00 7XV 14 1200 0-18 ..w1"'^�.i�r� .. „�,r3.'z� x•a-.. � �'�``�h' ,,., ,.. ..',,.3�'�?_ �' ,'.ri r.,P,; .,A.;'.I'. , CNPV* L1A** 28,6000 Ti?R&TXV 1450 12.00 WM*060-18 CNRF*3818A** 27,600 TXV f3.0 1120 7a*" 27, T77N 14.E 1$00 12 1TXV 14.00 12.00 ii(11,f�09d-id CNRH*3017A** 27,40 TDR&TXV 14.00 1100 58C1t("110-20 CNRH*3617A** 27,40 TDR&TXV 14.00 12.00 WW 135-22 CNRH*3017A** 27,40 TDR&TXV 14.00 12.0 5BCV(A)9155-22 CNRH*3017A** 27,600 TDR&TXV 14.00 12.00 58MV(S OOD-14 CNRH*3017A** 27,200 TDR&TXV 14.00 12.00 58MV -14 CNR4*3017A** 27AW TDR&TXV 14.00 12,00 wW 27,200 14A0 12A0 CNFH*3017A** 27,40 TDR&7XV 14.00 12.000 SBNN(B, 120-2D G "M7A** 27,+000 TDR&TXV 14.000 12.00 14 CNRH*3017A** 27,800 TXV 13.00 11.20 CNRH*Wi7A** 27,40 TDR&TXV 14.0 12.0 +" W=(A)40M-12 CNRH*36i7A""' 27,400 TDR&TXV 14.00 12.00 58CV -16 1�RPD 1'�B 0NI p2,� 13 COMBINATION RAMGS CONTINUED UNIT UZE-i6:IAGF, WDOOR TOTALL�CAR TO: owes MODEL ATM wA4qJED STANDARD Em RAWACE ENHANCEMENT RATING MODEL ONFW30`17�A:- 27�,400 TDR&TXV 14.00 12.00 �N=3617A** SBCV 110-2D 4 * 1:27,400 TnRAIr 14.00 .97 :i -7 IZOD SM"136-22 Tmow 17A- 27,800 TDR&TXV 14.00 Izoo 14 64*�M-� M :T!n CTXV 1440 1201) 51 MRMii GM*i-2F1-7A- 27,400 TDR&TXV 14,00 1200 58hAVAgOW26- CNRH*3617A** 27= TDR&TXV 14.00 CNF*i 12.00 58MV(BC)100-20 *361W 27,400 TDR&TXV 14.00 12.00 58Afii 3.0120-20 CNRH*36l7A** 27,400 TDR&TXV 14.00 55MVB040-14 -;TAW to= 1120 1A AVHV-00140k- 27= TDR&TXV CNRV-iaj-iqFv,- 27,600 TXV 58cmv -12 CNRV*3017A** 27,400 TDR&TXV 14.00 12.OD ,600 WcV 090-16 27,000 14.00 12.00 (8,C)080-14 ..............3017.0**).......... 27.WO TXV - 13.00 11.20 17A** 27AW TDR&TXV 14.00 CNRV*3817A- 2716M TDR&TXV 14.00 law 7A** 27,800 13M 14 CNRV*3821A- 27,400 TDR&TXV 1A** 27,200 TDR&TXV 00 BSCV(A-Vil TM&TXV TDRbETXit 14. CNRV*36M W law TXV 1&00 11.20 MUM TDR&TXV 14.00 12.00 58PH*070-1e CSPH*3012A** 28,E TDR&TXV 14,00 12.00 58PH*M-le WN, Qtf-4.41 CSPH*3M2A** 24000 =07 cwws*Fw� ".0m 1 12-00 613PH*070-18 g, 14AO 39-311 gm, 30-53 27,400 Tm&TXv 14.00 12.00 27AW TDR&TXV 14.00 law wevoAm-12 OSRH*3ol2A- - is 27,400 TDR&TXV-- 1440 72.00 110-20 j7R--I.W2A-* 27,400 TDR&TXV 14-00 12.00 SBCV 135-22 CSRH*3012A- 27,400 --iWT-xv 14.00 12.00 58cvMI55-22 B"FgaF--�Ef-mm Tw&r" 14.00-- csR"*=2K- f CSRH*3oi2A- 2r,4W TCMT)CV 14.W IZW-! 27,: �N�CW01714 TDR&TXV 14.00 'CSRH*3012A** 12.00 55 QCED-20 TDR&TXV 14.00 12. - C8W;T0�W* 27,WD 00 -WINAQ100-20 CSRH*3012A** 27,400 14.00 12.OD 5WB Q120-20 TDR&TXV 14.00 12.00 58MV8040-14 MVA�- 27,00Q -TXV - 13.00 1120 TOMMY CSRH*3612A- 27,400 CSF#4*Wi2A** 14.00 12.00 GWV(A)W-18 27,40D TDR&TXV ---1-4.00 12.00 CSFV-PM2A- 27-,400 TDR&TXV 1a.00 12.00 2A** 27,400 TDR&TXV 14.00 12.00 58CVM165-22 :PR UMZA,w 27,400 TDR&TXV 14.00 1200 a ---- - -- - �,C) W tom* ,4W t731 Tifti t400 -14 C #*39- E 40 TDR&TXV 4. 0 12. 0 aqos�-14 1200 SO CM*r3Bf2A-- 27,400 TIMM 14.00 12.00 100-20 -2 7A00 TDR&TXV XV 12.00 68MV 120-20 27,400 TDR&TXV 14.00 12.00 14 --diF�2A- 27-400 T)WCV 13 00 1120 77 L4CN(FCXW 27,40D MR&T)fV 13.00 11.20 ` 7f5WT-XV 13,01) -imr 4, 6- FC4DNF03D 27.800 TDR&TXV ----i4-.O-O 1100 FFI03 � 27 TDR&TXV FF1 IS-00 11.20 27,600 41 N TDR&TXV --------13-00 11.20 27,800 4.00 F�MN 28, TDR&TXV 12 00 FK40NF001 27,400 TDR&TXV 14.00 12.00 Sao rn on pg.2a ' 14.00 1200 L 14 UNIT 83ZE-VMTAGF, 8E RIES INDOOR MODEL TOTAL CAP SAM FACE SUPPLIED ENHANCEMENT � FUNIYACE MODEL RAIM im *CAR**3617A** 33,800 TXV 13.00 11.20 CAR"M4A** 3= TDR&r" 43.x$ It" 12 CAR**=4A** 33,400 TDR&TXV 1320 11.20 sopm*045-08 CAR**M4A** 33000 TXV 13A0 1120 __ i" f <<`�v�• -�q .''?'� ,s ?fi�`u i ;v ;i! Ha r.. .:.,u s_,.Y-.z� _ w,..,. 'i..�}l'.,. ..4ui 4�;tx. .a'-1 •t.`,'', CAR"*3817A*" 33,600 TDR&TXV 14.00 12.00 SSCV(A,l 090-16 CAR**3617A** 331800 TDR&TXV 13.60 11.70 SBW(SC)M-14 CAR**3617A** 34,6W TDR&TXV 13.50 11.70 SEPH*070--16 "A** 3'4,600 7DIR&7XV i400 1200 k,X io-M CAR*"3621A** 33,800 TDR&TXV I&SD 11.70 68MV(B,C)080-14 CAR**3821A** 33,E nmTXV 14.00 12.00 66MV(B,C)OSO-20 CAR**3MlA*" 33,BW TDR&TXV 14.W 12.00 MW(SC)I00-2D CAR**3621A** 35,000 TDR&TXV 14.00 12.00 SOPH*O0-16 CAR**3821A** 36,200 TDR&TXV 14.00 12.00 56PH*110-20 CAR"*3621A*" 33,800 7XV 13.00 11.20 ...",r c�,l, ''a":r,:..��,.. a;,._: CAR*"4221A** .«. ,�`�,.:.�k�e+. 34,000 °"";•,{' ,\'r::r�'igi .... TDR&TXV :: �_; -' 14.00 'i"t4s,. Rm�� S""u+sa 1200 5EIC11{A�1(j11fl--20 CAR"4221A** 34A00 TDR&TXV 14.00 12.00 (ELC)0-14 CAR**4221A** 33,800 TDR&TXV 14.00 12.00 S&W(S -2D CAR**4221A** 34,000 TDR&TXV 14.00 12.00 58MV{B,C)100-20 CAR**4221A** 35,200 TDR&TXV 14.00 12.00 5SPH*OW-16 CAR**4221A** 35,400 TDR&TXV 14.00 12.00 56PH"110-20 C.AW*4231A** CAR**4224A**r 34, f0 TXV 53,410E 11,20 34,000 TDR&TXV 14.00 12.00 &BCV 135-22 CAR**4224A** 34,000 TDR&TXV 14.00 12.00 58GV 155-22 CAR**4224A** 34,000 TDR&TXV . 14.00 12.00 66MV(E5, 120-20 CAR**4224A** 33,800 TDR&TXV 13.5D 11.70 SSMVBM-14 36-W 36-63 35-12 CAR**4224A** 34,200 TXV 13.00 11.20 c - - -_ 99, 0 To 1900 llao CNM*3617A** �33,� TOW" 1&W 11.70 7777, xnn. 56C,"Y Q-12 CNRH*3617A** 33,800 TE?W", 1&W 11.70 SEN`V 16 CNRH*3617A** 33,600 TDR&TXV 13.50 11.70 1 SBCV 110-20 CNRH*3617A** 33,60 TDR&TXV 14.00 12.00 56CV("135-22 CNRH*3817A** 33,600 TDR&TXV 14.00 12.00 &BCV 155-22 CNfVi*Wi7A*w WAO TmTW lam 11.70 14 CNftf*=TA** 33'em ToWTXV 13.50 11.70 SE ,Cj0W-Y4 CNRH*3617A** 33,600 TDR&TXV 13,50 11.70 SHUN -20 CNRH*3617A** 33,600 TDR&TXV 13.50 11.70 56MV(B,C)lW--2D CNRH*3Si7A** 33,600 TDR&TXV 13.60 11.70 SBMV(B,C)120-20 CNRH*3617A** 33,600 TDR&TXV 13.50 11.70 1 56MV8040-14 CNRH*3617A** 34,400 TDR&TXV 13.20 11.20 58PH*045-08 CNRH*M7A** 34,400 TDR&TXV 13.60 11.70 56PH*W0-18 C t*M7A** $400 MPATW 44.0# 1 Im * CNRH*3617A** 34,600 TDX4&TXV 14.00 12.00 SSPH*110-20 CNRH*3817A** 33,800 TXV 13.00 11.20 ,w7,y•.,�wU �r'.�,r.� ,^x�»,`z�."k CNRH*4221A** �� :,,.��"v,.��ra 33,800 ,v,.0 i h w'�•.a TDR&TXV n: •..-;,U,� 13.60 R >j'„�i j lax ,y�? ,,„uA 11.70 - `�'. 68CV(A,X)070-12 CNRH*4221A** 34,000 TDR&TXV 14.00 12.00 66CV(A,)Q080-16 CNRH*4221A** 34,000 TDR&TXV 14.00 12.00 SSCVM110-20 A** 3,060 T mm 14,00 12.00 1 28 t1*422iA** 34,000 TDR&TXV idt� 12.00 5Aiss-22 CNRH*4221A** 34,000 TDR&TXV 14.00 12.00 6WAV -14 CNRH*4221A** 33,800 TDR&TXV WD 11.70 58W(BC)OW-14 CNRH*4221A** 33,600 TDR&TXV 14.00 1100 5SMV ,Q08D-20 CNRH*4221A** 34,000 TDR&TXV 14.00 1100 58MV(B.C)100-20 CNRH*4221A** 34,000 TDR&TXV 14.00 12.00 58MV(B,C)120-20 CNRH*4221A** 3SAW TDR&TXV 13,50 11.70 14 CAF*1*422IA** 3Q 806E 1X1/ 1320 11.50 CNRH*4221A** MOW TDR&TXV 13.5D 11.70 58PH*070-16 1A** 35,260 TDR&TXV 14.00 12.00 SOPH*090-18 CNRH*4221A** 35,400 TDR&TXV 14.00 12.00 60PH*110-20 CNRH*4221A** 34,260 TXV 13.00 11.20 CNRV*3817A** 33,600 TDR&TXV 13.50 11.70 &8CV 080-18 I&I UNIT 812E-VOLTAGE, SERIF INDOOR MODEL TOTAL CAP, wm FACTORY WJPPUED �T sm 1� P JFWACE MODEL STANDARD RAMN4 mw CNRV*3617A** CNRV*3617A** 33,600 34,400 TDR&TXV TDR&TXV 13.50 1360 11.70 11.70 68MV(Bpow-14 6SPH*070-18 Ct 174** WIX TXV 99Jl0 1120 tv* iA** CNRV*3821A** CNRV*3821A"* CNRV*3821A** 33,E 33,800 33,800 33,800 TDR&TXV TDR&TXV TDR&TXV TDR&TXV 9369 1350 13.50 13.60 11.70 11.70 11.70 11.70 68C1/(AA110-20 58MV(B, -14 68MIV(B,QOSO-20 68MIV ,C 100-20 CNRV*3821A** 34,600 TDR&TXV 14.00 12.00 68PH*OW-18 '* 34.Aw ToftTXV 1440 1240 E*ttC-24 1A** 3`4,800 7XV CNRV*4221A** C-t~4221A** CNRV*4221A** CNRV*4221A" CNRV*4221A** 34,000 A 33,800 33AW 34,000 35,200 TDR&TXV TDR&TXV TDR&TXV TDR&TXV TDR&TXV 14.00 1360 14.00 14.00 14.00 12.00 11.70 1240 12.00 12.00 68CV(A,X)110-20 68MV(B, -14 68MV(B,C)[SO-20 68M V(B,g10D-20 68PH*MO-18 CNR3t*A2dtA' 26..440 Tm1w 44.00 1280 10-1 CNRV*4221A*'* �*; �, ,ta ,z.,f,� �_., 34,200 T" �':' ,. ,`i'Y',n°� .�� ..- 13.00 11.20 u -,w:" es:t:,:e r,`_,r.«., r �;h ✓,. �pr"i. 14.00 12.04" SBCV A W70-12 14.00 12.00 68CV(A, M-18 14.00 12.00 58CV 110-20 C3RH*=2A** 69H*3812A** CSRH*3812A** 3%= 33,600 33,600 TDR&TW TDR&TXV TDR&TXV CSRH*3812A** *" 33,6W am 33.800 TDR&TXV -TDMTXV TDRRL7XV 14.00 14,04 1440 12.00 42M 1P-W 68CY(AX)136-22 M ZS18VR/(03, 14 CSRH*38t2A** 33,600 TDR&TXV 14.00 12.00 WIN -14 38-33 39-53 38-ft 38-12 CSRH*3812A** CSRH*3812A** CSFDi'"3612A*'* CSRH*3812A**" 33,8W 33,600 33,610 33,600 TDR&TXV TDR&TXV TDR&TXV TDR&TXV 14.00 14.00 14.00 14.00 12.0 12.00 12.00 1200 WW(B,C)080-20 68MV C)10a-20 NW(B,Gg120-20 58MVB040-14 CSRH*3512A** 34,400 TDR&TXV 1320 1120 68PH*045-00 C8Rd*MRM* $4.400 TDA&iXY 13.H0 11.70 6BF 070-48 CSRH*M2A" Ksoo TDR&TXV 14.00 1200 68 0-98 2A** 31,1100 TOR&TXV 14.E 12.OD 88P4*010-20 CSRH*3812A** r e CSRH*4212A** CSRH*4212A** 3311100 33,8(0 34,E TXV i,.; r, �;; TDR&TXV � TDR&TXV 1&00 f ass 14.00 14.00 11.20 12.00 12.00 ,, ;� s 68CV(A,X)070-12 sBcv 090-16 CSFM*QVAA** 34.096 TMUV 14.96 12.96 10-0 CSFVI*MgAO* 34AW TDMTXV 14.00 4110 5mmT3S-22 CSRH*4212A** 34.000 TDR&TXV 14.00 12.00 68CV 168-22 CSRH*4212A** CSRH*4212A** 33,800 33,810 TDR&TXV TDR&TXV 14.00 14.00 12.E 12.00 58MIV(B,C)0W-14 6SMV(B, OSD-14 CSRH*4212A** 33,800 TDR&TXV 14.(0 12.w 59MV(B,C)08D-20 CSRH*4212A** CWH*4212A** 34,000 34000 TDR&7XV TDR&TXV 14.00 14,E 12.00 12.w WW(SC)100-20 NW 120-20 09"4212A** sum i T)N 14" 12.00 114 CS"4212A** 34,SW TDR&TXV 13.20 11.50 68PH*046-08 CSRH*4212A** 351000 TDR&TXV I&GD 11.70 6OW1070-16 C RH*4212A** 35,200 TDR&TXV 14.00 12.00 68PH*090-18 CSRH*4212A** 35,400 TDR&TXV 14.00 12.00 68PH*l10-20 CSRH*4212A*" 34,200 TXV 13.00 1120 �.�d'wVS 33,E Tt TXtf Taco 1t.1•1e1 f C)04L 33,0300 T TXV 13.00 1120 FC4DN(F, 038 34,600 TDR&TXV 13.60 11.70 FC4DN(F,B)042 35,400 TDR&TXV 13.60 11.70 MENEWS 34,400 TDR&TXV 13.00 1120 FK4DN(B,F]003 34,400 TDR&TXV 14.00 12.00 FK4DN(B,F)005 35,810 TDR&TXV 14.00 12.00 38.200 TDR&TXV 1400 law 33,805 i3,a8 11.70 fK4DNFb02 34,210 TDR&TXV 13.60 11.70 Iul oft CANS an w 20 17 ENHANCEMENT RA'nNQ 59k*-�4221A- 40,000 MR&TXV 1&50 11.2D 58"100-20 V911,PIR CAR**4Bl7A** 40,500 m 13.00 11.00 CAR**4824A** 41000 TDR&TXV 14.00 11.50 155-22 CNRH 1A" 40,000 TDR&TXV 13.50 11.20 5SMVB040-14 CNRH*4221A" 39,5W TDR&TXV I&OG 11.20 68 *070-16 41,000 13.50 11.2D 55CVKMO70-12 TomTXV CNRH*4821A** 41,000 ym&lw 14.00 11.5D -W CNRH*4821A** 40,500 MR&TXV 13.20 11.50 580W-0-7-6-16 CNRH*4821A** 40,500 MR&TXV 14.00 12.00 50PH*i 10-20 MORROW- 41AM CNFWw4221A**_ 40,= 21 000 1 TDMTW oft CANS an w 20 17 COMBLNA71ON RATINGS CONTR'4MO UNIT SIZE-YOLTAQE', INDOOR TOTAL,CAR FA SERIEB MODEL Slum = WIANDARD ToRt EER RAVUCE NRV*4221A'* EN�cEMEN7 RAMNQ : 40 500 TXV 1300 11.00 44,089 TE#m'fX1l 44.09 44.89 A** 41,000 TTt7XV 1360 11,E 1,4 C 4821A** 41,000 R&TXV 13.60 11.20 -20 4821A- 41,E R& 14.E 11.60 190-20 CNRV*4621A** 49,600 TXV 14.00 12.00 -1 CN 4821A** 40,5Q0 TDR&TXV 14.00 12.00 A 13.00 11 66PH*710- CNRV*4821 41,800 y 00 41 14M � !t l�-22 410011 41 l5P2z 414** 41 OW TDR&TXV 13.69 11.20 69A 0-14 41 TXV 14.00 lim s'12-20 C-I WW4824A**** 40.500 14.00 12.E 58PH*135- 824A 41500 TXV 1300 1100 CSRH*4212A** 40,000 TDR&TXV 1&50 11.20 58CV 070-12 12A** 40,E 14.00 11.50 -t6 421 14. 44, 421 40.E 14 lire ! CSMW4-212A- .000 14,00 11.60 68CV 165-22 CSM---12A** 40,000 TDR&TXV 13.50 1120 55MiV8040-14 4212A 40,000 TDR&TXV 13.50 1120 68MV6060-14 CSRW4212A** 40,000 TDR&TXV 1& 1120 WNW- 1=4 *4212A** 40,000 TDR&TXV 13.50 11.20 20 CSRH*42 2A** 40,000 TDR&TXV 14.00 11.50 1MZ2 +�-3t 40 14.W 1160 42-01 " 1 17 -l6 42-11 CSR!*4212x*" 00 TDR&TXV 1375 11.70 *080-16 4h:-11 14. 11. *140- CS"4212A** 40,000 mm1XV 14.00 11.70 -20 CSf51*4212A** 40,5w TXV 13.00 11.00 '4612x** .(40,500 TXV 13.50 1120 (A,)X070-12 COMM- �*' 58 TMTXV 1488 11,mt 4909 18 CSRFi*4812A** 40,5W TDR&MCV 14.00 11.b0 135-222 CS 1*4812A 40,800 TDR&W 14.00 11.60 Xy1 22 C6RH*4812A** 40,600 TXV 13.50 11.20 14 4612A- 40,600 TDR& 13. 11.20 14-CCSBRF*-HP*44851 tgA**CSf61*4812A** 40,500 TDR& 1350 1120 -14 CSRH*4812A** 40,500 TDR&TXV I&540 1120 58MVBW0-20 1 1160 100-20 44.x! 11AD pA** 40,500 TOR& 13.20 11.60 MR OU70--16 Ci*4612A** 40,6 TDR&TXV 14.00 12.00 R -16 CSRH*4812A** 90.500 TDR&TXV 14,W 12A0 66PH*110-2D CSftli*4812A** 40,500 TDR& 14.0 12.00 68PH*136-20 CSRH*4812A** 41,000 TXV 13.0 11.00 g.. .0 . 41,0W TD 13.00 11.00 4l MR&TXV 1 8100 TDMTXV FFM 4 048 42,500 14.00 11.50 1. 40,000 TDR&UV 14.00 11.50 FK4DNF005 42,000 TDRUXV 14.00 11.50 *CAR**4821A** 46,000 TXV 13.00 11.00 45,50! TDR r" 1&W 11 w f8 CAR"*481TA*y* 46,000 T" 13.0 11.00 CAR**4WlA** r 4SX0 TOR&TXV 1320 A 11.00 68CV 110-20 CAR**4821A** 46,000 TDR&TXV 1320 11.00 68MN8p60-2D 48-32 48-52 CAR**4821A** 46,500 TDR&TXV 1320 11.80 58MVB100-20 486-82 CAR**4821A** 45,500 TDR&TXV 1325 11.50 58PH*O0-16 4B-t7 CAW*4MA= �S TW&TXV tit 11,70 CAR**4824A** 45500 TDR&TXV 1&50 11.20 58CY 136-22 CAR**4824A** 45,600 TDR&T)N 14.00 11.59 SI V A 155-22 CAR"*4824A** 45,000 TDR&TXV 13.20 11.00 58MN612D-2D CAR**4824A** 45,500 TDR&TXV 1350 11.70 58PH*135 20 CAR**M1A** 46600 TDR&TXV 13.60 1120 68C1f 110-20" on pg '20 18 UNIT -VOLTAGE, 1NDdOR TOTAL CAR °tom am DES MOIRL 8TU14 SUPPLIED STANDARD EER FURNACE EMANCEMENT Rpm T MC7� � CAR�p*�* 48,500 TDR&TXV 13.50 11.20 58pAY@O80_2p I 46'6W TDR&TXV 13.50 11.20 SBMVEfl00-20 CAR**GM,k* 48,5 TDR&TXV 13.75 11.70 � * 0- 6 CAR 2m-A** 4850 TDRSTXV 14.W 7300 88PH*11d- ryCd413**t3�7A**,a.,; 4A** 48,586 T (f1(V 13.$0 1120 135- d CA!**eQ24A** 47,000 TDMTXV 14.00 11.60 68CV( 155-22 CAR**6M4A- 48,500 TDR&TXV 13.50 11.20 SBMVB120-20 CAR"*8024A** 47,000 TDR&TXV 13.75 11.70 504*135-20 CAR**6024A** 47.= TXV 13.W 1100 4818A** 46000 TXV 13 0d 11.E 77�' „tee "`Q't.�.,_..a.K =117-IM CNRH*4821A** 45,500 TOW" 13.50 11.20 56CV 0w-18 CNRH*4821A** 46,500 TDR&TXV 13.50 11.E AX}110-20 CNRH*4821A** 46,500 TDR&TXV 13.50 11,20 58CV 13$-22 CNRH*4821A** 48,000 TDR&TXV 13.60 11.20 68CV 166-22 S t*AUTA** TVA&TXV 13.2D 71.00 C�t�fA 25 4550 T8R8,TXY 13.20 77.00 � 25 CNRH*4821A** 461600 TDR&TXV 1320 11.00 5BMVB120-20 CNRH*4821A** 45,E TMTXV 13.20 11.60 58PH*mo-10 CNRH*4821A** 45,500 TDR&TXV 13.50 11.70 58PH*110-2D CNRH*4821A** 45,500 TDR&TXV 13.50 11.70 58PH*135-� CNRH*4821A** 46,500 TXV 13.00 11.00 TMIW 1380. 11.20 c� „ 9 *SW4A** 48,= TMTXV 73.50 1 i1� 58CV iia- s CNRH* A** 46.500 TDR&TXV lam 11�0 t1BGV 138-� CNRH*8024A** 47,000 TDR&TXV 14.00 11.50 PO MM-22 CNRH*6024A** 46,500 TDR&TXV 13.50 11.20 6BMV$ M- CNRH*8024A** 46,500 TDR&TXV 1350 1120 58MVB7CO--20 CNRH'*6924A** 48,500 TDR&TXV 13.50 1120 SSMVB120-20 ** 47 TDR&TXV 79.76 11,E -7g 48-62 47,000 Tt1 14.OD -0 00- FiBFt{'+i 10-8(1 48-82 CNF#i*eM4A** 47,000 TDR&TXV 13.75 11.70 58PH*135-20 48-11 47 S00 TXV � « 13.00 1100 t Y CNF{1/*4821A'* 45,500 i TDR&TXV 13.50 1120 58CV 110-20 �. 55MY8�-20 CNRV*4821A** 13.20 11.00 TDR&TXV CNRV"4821A** 45500 TDR&TXV 1320 11.00 58MNB100-20 A'r* 4S,SOeD TDR&TXV 73,20 11.80 1d CNRV*4821A** 45,500 TDFt&7XV 13.50 11.70 SBPH*110-20 CNRV*4021A** 48,500 TXV !300 11.00 CNRV 4824A 45,5W.,. TDR&TXV 7360 1120 68CV A X)136 22 CNRV*4824A** 48,000 TDR&TXV 13.50 1120 SSCV 156-22 CNRV*4824A** 45,500 TDR&TXV 13.20 11.00 SBMVB120-20 aot4824A** 900 TCHi M law 11.70 5w}S'"tss-w CKW V*482AWk** 41%SW 18.00 11.00 r CNW%M4A** 1720 SBCV 48,500 CNRV*8p24A** 47,000 �� 13.60 A,X)135-22 TDR&TXV 14.00 11.50 58CV 155-22 CNRV*8024A** 48,F TDR&TXV 13.50 1120 BOAM120-20 CNRV*8024A** 47,000 TDR&TXV 13.75 11.70 58PH*135-20 CNRV*8024A** 47,500 TXV 13.00 11.00 ($9*48t2A** 48,000 TOR&TXV 13.50 1120 58CV I 18 CSRH*4872A- 46,000 TDR&TXV 73.50 1120 i 70-20 CSRFt*4612A** 46,000 TDR&TXV 13.50 1120 58CV A 736-22 CSRH*4612A** 48,000 TDR&TXV 13.50 1120 SBCV(A,X)ibb-22 CSRH*481?A** 46,000 TDR&TXV 13.20 11.00 =(A,) 1 -20 CSRH*4812A** 46,000 TOR&TXV 13.20 11.00 58MVB100-20 CSRt't*46,W-- 413000 TDM7XV 43afi 11.w 6R6fS1E4f-0 CSRfP'48T2l1** 45, 0 TDROXV 18.20 1160 Smlf'0 (-18 CSRi*4812A** 45,500 TDR&TXV 13.50 11.70 SBPH*110-20 CSRH*4812A** 46,500 TDR&TXV 13.50 11.70 68PH*135-20 C3RH*4812A** 47000 TXV f300 11.00 s z 4.�F� i t .. CSRH*8012A** 47,000 TDR&TXV 13.50 11.20 5805/ 080-1@ CSRH*f3012A** 47,E TDR&TXY 13 50 1120 68CV 110-20 19