The URL can be used to link to this page

EL-05-40Miami Shores Village 10050 NE 2nd Avenue Phone: 305 - 795 -2204 Printed: 2/8/2005 Page 1 of 1 Applicant: NOEL Owner: HERNANDEZ JOB ADDRESS: 89 Parcel # 1121360060320 NE 106 HERNANDEZ, NOEL ST Fees: Description Amount FEE2005 -1648 Building Fee $150.00 FEE2005 -1649 Submittal Fee ($50.00) FEE2005 -1650 Training and Education Fee $0.60 FEE2005 -1651 Technology Fee $3.75 FEE2005 -1652 CCF $1.20 Electrical Permit Permit Number: EL2005 -40 Contractor FYRSAFE EQUIPMENT Contractor's Address: 1641 WEST 40TH ST Local Phone: 305 - 594 -7679 Legal Description: 36 52 41 PB 41 - 78 DUNNINGS MIAMI SHORES EX NO 2 LOT 16 BLK Total Fees: $105.55 Permit Status: APPROVED Permit Expiration: 7/24/2005 Construction Value: $2,475.00 Work: NEW FIRE ALARM Signed: (INSPECTOR) Total Fees: $105.55 Total Receipts: $0.00 iq'cr( F'63 08 PAID In consideration of the issuance to me of this permit, I agree to perform the work covered hereunder in compliance with all ordinances and regulations pertaining thereto and in strict conformity with the plans, drawings, statements or specifications submitted to the proper authorities of Miami Shores Village. In accepting this permit I assume responisibility for all work done by either myself, my agent, servants or employes. Signed: (Contractor or Builder) BY: MIAMI SHORES VILLAGE BUILDING DEPARTMENT 305 - 795 -2204 Building Inspection Request Date Approved Correction Re-Insp'n Fee Type Insp'n , - �� tz4,4 -� { Permit No. (. L a 5 Vu Name Address k �� 1 . /o& it, Company ' Phone # CS 0-- ✓ -3 Inspection Date / Date Type Insp'n Permit No. Name Address Company Phone # Inspection Date Approved Correction Re-Insp'n Fee MIAMI SHORES VItLAGE BUILDING DEPARTMENT:: 305-795-2204 Building Inspection Request 22_ zMIAMI SHORES VILLAGE 33UILDING DEPARTMENT 305- 795 -2204 Bui ding Inspection Request " Date Type Insp'n A 4. T , Permit No. trel3e, Name 2 �� I� G 7 Address 7 9°,/ Company Phone # ; ear — �� — /2 7 -$ Inspection Date Approved Correction Re- Insp'n Fee o 41,3 SHORES VILLAGE 'cBUILDING DEPARTMENT n , 305-795-2204 r1.-,` 6 Bui ding Inspection Request Date 4. ,4P Type Insp'n A „6"; e>I Permit No. Name Address 7 eg r 9/ 97 Company Phone' # t — / Inspection Date Approved Correction Re-Insp'n Fee •••• ‘;?; Date Type Insp'n Permit No. Approved Correction Re- Insp'n Fee MIAMI SHORES VILLAGE BUILDING DEPARTMENT 305- 795 -2204 Building Inspection Request �\ Name Address g A /, Company P ` )A- Phone # s /7 7 € ` 9S° Inspection Date v Si .tali . /`/ PA- / Pr 4)6- e % coe a/c.- g iyII/ a_n / - -MIAMI SHORES VILLAGE BUILDING DEPARTMENT 305-795-2204 Buildi g Inspection Request Date i Type Insp'n Inspection Date Approved Correction Re-Insp'n Fee Permit No. L 0 P Name Address AJE ( 6 1- 1,0) , L&L, Company Phone # S/ 77 ?)/e3 I : A fr, e p A 1 )--- 1/ _ BUILDING PERMIT APPLICATION FBC 2001 Permit Type (circle): Building Tenant/Lessee Name @- $ Value of Work For4h ` Q 4 Total Fee Now Due $ (Continued on opposite side) Miami Shores Village Building Department 10050 N.E.2nd Avenue, Miami Shores, Florida 33138 Tel: (305) 795.2204 Fax: (305) 756.8972 .`i ? Awe Electrical Owner's Name (Fee Simple Titleholder) L _ Owner's Address el 4. / (45 State Job Address (where the work is being done) ?I? No /D 4 5-1 4 City Miami Shores Village County Miami -Dade Zip 33/ 3 8' Is Building Historically Designated YES NO Contractor's Company Name F 1 R- 5/? PE E'Ai 1» MINT Phone # (7 ai) .5 7C If Contractor's Address 1641 w e 5 'qo gytn e e 7 City 14A fe44 ` State � �� Zip 3 � / 2 Qualifier / v d /2.he/l-7 CO rie Zie w S/�-C State Certificate or Registration No. E P 0000 3 7 2- Certificate of Competency No. Architect/Engineer's Name (if applicable) Phone # Permit No. t-_O Master Permit No. Plumbing Mechanical Roofing Phone # Zip g Phone # Square Footage Of Work: Type of Work: ['Addition EEAlteration ❑New 0 Repair /Replace Describe Work F/ i : t 7 4! ,4 /a / �/l d to 7 6,4r Ayr * * * * * * * * * * * * * * * * * * ***** **** Fees * ** ** *,** *** * * * * *** * ** ** *** ** ** RECEOVED JAI 2 5 2 '^ '' 5 11 Demolition -0 6qqa ° Submittal Fee $ SO.00 Permit Fee $ A 3'%''li aeP CCF $ CO /CC Notary $ Training/Education Fee $ Technology Fee $ Scanning $ Radon $ Zoning Bond $ Code Enforcement $ Structural Plan Review. $ Bonding Company's Name (if applicable) Bonding Company's Address City 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, SIGNS, WELLS, POOLS, FURNACES, BOILERS, HEATERS, TANKS and 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. "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 approv /•i d a reinspection fee will be charged. Signature ' ` 3 Signature e-te° Owner or Agent The foregoing instrument was acknowledged -, ore me this 5 1 4 ' day of 4 :0.1 , 2005 by who is ersonally kno - Rne or w I . . • roduced , INALDO S. CANO NOTARY PUBL ; ro` a.;s Notary yP Public � - State of Florida P'. n y lE `i 1,2008 Sign. 4' a • - - o,< OA haivn # DD 351915 Print: / O = `C . _ By National NotaryAssn. My Commission Expires: ******************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** APPLICATION APPROVED BY./ Chc 05/13/03 State Zip r v The foregoing instrument was ail dged pg ire me this 7 7 day of T/ , 20 A by who s ersonally known me or who duced as identification andwh6 did take an oath. NOTARY PUBLIC: Sign: Print: My Commission xpires: REINALDO S. CANO ; %,,Notary Public - State of Florida • WlyCornmildon Expires Sep]. 2008 o _ Issior r 1915 1 Notar Ns: ******************* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** ' 4 -0 ".- 0_ Plans Examiner Engineer Zoning ITEM BATH TUB UNIT FEE ITEM SWITCH OUTLETS UNIT FEE ITEM SPACE HEATERS UNIT FEE BIDET LIGHT OUTLETS CENTRAL HEATING DISHWASHER RECEPTACLES A/C (WIND) DISPOSAL SERVICE TEMPORARY _ A/C (CENTRAL) DRINKING FOUNTAIN SERVICE SIZE IN AMPS DUCT WORK FLOOR DRAIN SERVICE REPAIRAAETER CHANGE REFRIGERATION GREASE TRAP APPLIANCE OUTLETS PROCESS AND PRESS PIPING INTERCEPTOR RANGE TOP UNDERGROUND TANKS LAVATORY OVEN ABOVE (ROUND TANKS LAUNDRY TRAY WATER HEATER U.F. PRESSURE VESSELS CLOTHES WASHER MOTORS 0- 1 HP STEAM BOILERS SHOWER MOTORS AVER 1- 3 HP HOT WATER BOILERS SINK, POT /3 COMP. MOTORS OVER 3- 5 HP MECHANICAL VENTILATION SINK, RESIDENCE MOTORS OVER 5- 8 If TRANSPORTING ASSEMBLIES SINK, SLOP MOTORS OVER 8- 10 HP ELEVATORS/ESCALATORS TEMPORARY WATER CLOSET MOTORS OVER 10- 25 HP FIRE SPRINKLER SYSTEMS URINAL MOTORS OVER 25-100 HP COOLING TOWERS WATER CLOSET MOTORS OVER 100 HP VIOLATION INDIRECT WASTES - .. A/C WINDOW REINSPECTION WATER SUPPLY TO: AIR CONDITIONERS F / A e R /A AM / A/C UNIT STRIP HEATER FIRE SPRINKLER GENERATORS TRANSFORMERS HEATER -NEW INST. GENERATORS TRANSFORMERS HEATER- REPLACE GENERATORS TRANSFORMERS LAWN SPRINKLER -WELL SPECIAL PURPOSE SWIMMING POOL OUTLETS COMMERCIAL WATER SERVICE SIGN TUBES SEWER CONNECTIONS .SIGN TRANSFERS UTILITY -SEWER SIGN TIME CLOCK UTILITY -WATER FIXTLRES SEPTIC TANK ANTENNA RELAY TELEVISION CUTLETS DRAINFIELD, 4' TILE/RES. VIOLATION PUMP & ABANDON SEPTIC TANK REINSPECTION SOAKAGE PIT CU. FT. CATCH BASIN DISCHARGE WELL DOMESTIC WELL x AREA DRAIN ROOF INLET SOLAR WATER HEATER FIRE STANDPIPE POOL PIPING LAWN SPRINKLER SYSTEM GAS RANGE METER SET (GAS) GAS PIPING (AN APPLICI ZON FOR BUILDING PERMIT MUST ACCOMPANY THIS ADDENDUM. IF A MASTER PERMIT HAS B. OBTAINED6 3E OWNER'S NOTARIZED SIGNATURE NEED NOT BE PRESENT ON SUBSEQUENT APPLICATIONS.) PLUMBING ADDENDUM TO BUILDING PERMIT APPLICATION ELECTRICAL MECHANICAL The following pages were originally attached to ans with the following permit # C-1_ DS -° `1-0 1 Process # Permit # Date: 1 / z Fire De • artment Application # YES NO N/A LOCATION/COMMENTS 3 Pro'ect Name: / V` 0 0 6,1 IL de w Z,v L' e, 4 Address: ' . e la 6 le ee A C i a f 7 i A copy of the contract is provided or an affidavit from the owner showing the total cost o 5 the = • ui • ment and installation. Cost $ ■■■ s S stems costin • more than $5,000 are sealed or approved by a Fla Registered Engineer. 7 A co • of alarm • ualifier's license is attached. EC EF EH EY # L p000a3' 2 This fire alarm: is required under 'Vfi I (fill in the code or indicate if it //f/ A '32- 2. - f 4 a is a life safety equivalency), or not required by any code or authority. For non- required systems or components, a statement is included indicating which code or AHJ (See def. AHJ In NFPA 72) is requiring the system or component and the s • arameters of the re • ulrement. A copy of the Notice of Violation from Miami -Dade County Fire Rescue, or a Copy of the 10 relevant sections of the approved Life Safety Plan, is attached. I A com • lete statement of the sco • of work is stated on the • Ian. • The total number of devices and com • onents bein s installed is A descrip on o the building an • or section of the • ui • ng s provi • ed includ ng, re suppression systems, number of stories, square footage, and _elevation of the last 13 occu • led floor if over 5 stories. 14 A location ke is • rovided showin r the area of •. o • osed >work within the bulidin • . .. All devices in areas in whic the voltage, temperature and humidity variations exceed those conditions stated in NFPA 72, are listed for conditions and all such areas are 15 identified. A specific sequence of operation including all alarm, supervisory, trouble and control functions such as fire suppression, door release, smoke control, etc., are specified on the 1s plan. 17 A s • - ciflcatlon of • ower - limited or non- ower limited is included on the plan. Emergency forces notification or sprinkler supervision _ is required or _ is provided, but is not re • uired. Off -site monitorin • is •rovided is not • rovided. ®® ■ ■ The method of communication to the monitoring station is included on the plan. Complete specifications sheets are provided for all devices, control units, and com • onents. n Manufacturer's documentation of device com • atibili has been • rovided. 23 Each device and com • onent model number is s • • ified in the s mbol legend. ill! ■ Floor plans are drawn to 118" scale or, if using another scale, all device coverage is 24 dia . ramed on the • Ian and all room dimensions are included. Each device, appliance and component is identified with it's own unique number and indicated on the floor • Ian and riser? All new existin . re • laced or relocated devices are indicated on the floor • Ian. All rooms & spaces are labeled indicating their use and the occupant load has been 27 • rovided for all assembl use rooms with an occu • ant load of 50 or rester.. 2a Ceilin • condition and hei, ht is • rovided for all ceilin a mounted devices. ■ A riser diagram is provided showing each floor and building with all zones and circuits 29 labeled. ■ 30 The wire size • e, and number is • rovided for each circuit. The FACP or remote annunciator is located near the main entrance/lobby when required 31 or in the Central Control Station. / Y � MIAMI DADE FIRE RESCUE FIRE ALARM PRE - SUBMITTAL CHECKLIST Designer to MI In and answer all items and provide location/comments as appropriate. F /Apresubmittal Rev.10107 /02 Page 1 82 YES lc NO WA ■ ■ LOCATION/COMMENTS 33 The FACP and all sub • anels in unoccu • led rooms are • rotected with a smoke detector. If a complete automatically activated system, there is at least 1 pull station each floor or 2 34 for lar e e buildin s. If a manually activated system, the travel distance to reach a pull station is less than 200' 35 and near all exits. _ __ _— All automatic initiating devices are shown and are located in accord with NFPA 72, the 36 manufacturer's s • - cifications, and acce • ted en • Ineerin, • ractices. All visible devices are placed per the tables In NFPA 72 and each strobe has its candela 37 ratan . listed on the floor • fan and riser. All corridor spaced strobes are placed a maximum of 100' apart and within 15' from ends 38 of the corridor. = All s • aces meet the audible characteristics of NFPA 72 and NFPA 101. ■® ■® ®® ®® ■ Wails, partition, racks, shelves and equipment which may block devices are shown with their het • ht indicated. Duct detectors or relays for duct detectors are shown on the floor plan and riser for all s stems over 2000 cfm. The fire pump is monitored for run, phase reversal & phase loss to _ a continuously 42 manned location, or the supervised fire alarm system. Elevator recall Is connected to the fire alarm s stem. All interconnected fire alarm control panels are arranged to function as a single system and monitored for integrity per NFPA 72: All relays for automatic extinguishing systems are shown on the floor plan and riser hood, s,rinkler, FM200 etc. The class and/or style is shown for all initiating device circuits, signal line circuits and notification a • • fiance circuits..: -. The : maximum - number of each device type Is provided for each SLC, based on class and 47 s le • r NFPA 72 and the manufacturer's s • - ifications. II p The power supply model number and capacity is specified for each power supply in each 4a fire alarm control panel. The total device load,: including voltage drop calculations, are provided for each notification a • • (lance circuit for each • ower su • • I . The watts, e to • is indicated for all s • eakers. The wattage capacity and load is provided for each amplifier. All load and draw calculations correlate with the provided spec sheets and the device draw or available • ower is hi , hli s hted on the s • eciflcation sheets. This system is a Local Fire Alarm System or a Proprietary Supervising Station Fire Alarm 53 S stem and is stated as such on the • Ian. 24 hours seconda • ower This system will be certificated as a Central Station Fire Alarm System and is stated as 54 such on the • tans. 24 hours seconda •ower This system is a Remote Supervising Station Fire Alarm System as stated on the plan and 55 will be • rovided with 60 hours of secondary power supply. ■ This system includes Emergency Voice Evacuation and is provided with 15 minutes of 56 seconda alarm • ower. This system Is being provided back up power by an emergency generator and will provide 4 hours of standby power plus the_ppropriate secondary alarm power. Battery calculations, detailed in chart form, are provided for each back -up power supply. Designed by : i 4, , „” A Phone # (3 0..4 I , - Mi •U ■ 0 , - ,x.. • Si � nature: � ■ Instructions are available on request. Refer to the instructions for a line by line 63 clarification of the above items. MIAMI DADE FIRE RESCUE FIRE ALARM PRE - SUBMITTAL CHECKLIST Designer to till in and answer all items and provide location/comments as appropriate. F /Apresubmitlal Rev.10/07/02 Page 2 • • Flretrre®ALarms PN: 51512:B1 ECN 04 -071 Fire Alarm Control Panel MS -2 & MS -4 Document #51512 02/11/04 Revision: B , Fire Alarm System Limitations An automatic fire alarm system typically made up of smoke detectors, heat detectors, manual pull stations, audible warn- ing devices, and a fire alarm control with remote notification capability —can provide early warning of a developing fire. Such a system, however, does not assure protection against property damage or loss of life resulting from a fire. The Manufacturer recommends that smoke and/or heat detec- tors be located throughout a protected premise following the recommendations of the current edition of the National Fire Protection Association Standard 72 (NFPA 72), manufacturer's recommendations, State and local codes, and the recommendations contained in the Guide for Proper Use of System Smoke Detectors, which is made available at no charge to all installing dealers. A study by the Federal Emer- gency Management Agency (an agency of the United States govemment) indicated that smoke detectors may not go off in as many as 35% of all fires. While fire alarm systems are de- signed to provide early warning against fire, they do riot guar- antee warning or protection against fire. A fire alarm system may not provide timely or adequate warning, or simply may not function, for a variety of reasons: Smoke detectors may not sense fire where smoke cannot reach the detectors such as in chimneys, in or behind walls, on roofs, or on the other side of closed doors. Smoke detectors also may not sense a fire on another level or floor of a build- ing. A second -floor detector, for example, may not sense a first -floor or basement fire. Particles of combustion or "smoke" from a developing fire may not reach the sensing chambers of smoke detectors be- cause: • Barriers such as closed or partially closed doors, walls, or chimneys may inhibit particle or smoke flow. • Smoke particles may become "cold," stratify, and not reach the ceiling or upper walls where detectors are located. • Smoke particles may be blown away from detectors by air outlets. • Smoke particles may be drawn into air returns before reaching the detector. The amount of "smoke" present may be insufficient to alarm smoke detectors. Smoke detectors are designed to alarm at various levels of smoke density. If such density levels are not created by a developing fire at the location of detectors, the detectors will not go into alarm. Smoke detectors, even when working properly, have sensing limitations. Detectors that have photoelectronic sensing chambers tend to detect smoldering fires better than flaming fires, which have little visible smoke. Detectors that have ion- izing -type sensing chambers tend to detect fast - flaming fires better than smoldering fires. Because fires develop in differ- ent ways and are often unpredictable in their growth, neither type of detector is necessarily best and a given type of detec- tor may not provide adequate warning of a fire. Smoke detectors cannot be expected to provide adequate warning of fires caused by arson, children playing with matches (especially in bedrooms), smoking in bed, and violent explosions (caused by escaping gas, improper storage of flammable materials, etc.). LlmV tg.p65 01/10/2000 While a fire alarm system may lower insurance rates, it is not a substitute for fire insurance! Heat detectors do not sense particles of combustion and alarm only when heat on their sensors increases at a predetermined rate or reaches a predetermined level. Rate -of -rise heat detec- tors may be subject to reduced sensitivity over time. For this reason, the rate -of -rise feature of each detector should be tested at least once per year by a qualified fire protection specialist. Heat detectors are designed to protect property, not life. IMPORTANT! Smoke detectors must be installed in the same room as the control panel and in rooms used by the system for the connection of alarm transmission wiring, communications, signaling, and/or power. If detectors are not so located, a devel- oping fire may damage the alarm system, crippling its ability to report a fire. Audible warning devices such as bells may not alert people if these devices are located on the other side of closed or partly open doors or are located on another floor of a building. Any warning device may fail to alert people with a disability or those who have recently consumed drugs, alcohol or medication. Please note that • Strobes can, under certain circumstances, cause seizures in people with conditions such as epilepsy. • Studies have shown that certain people, even when they hear a fire alarm signal, do not respond or comprehend the mean- ing of the signal. It is the property owner's responsibility to conduct fire drills and other training exercise to make people aware of fire alarm signals and instruct them on the proper reaction to alarm signals. • In rare instances, the sounding of a warning device can cause temporary or permanent hearing loss. A fire alarm system will not operate without any electrical power. If AC power fails, the system will operate from standby batteries only for a specified time and only if the batteries have been properly maintained and replaced regularly. Equipment used in the system may not be technically com- patible with the control. It is essential to use only equipment listed for service with your control panel. Telephone lines needed to transmit alarm signals from a premise to a central monitoring station may be out of service or temporarily disabled. For added protection against tele- phone line failure, backup radio transmission systems are rec- ommended. The most common cause of fire alarm malfunction is inade- quate maintenance. To keep the entire fire alarm system in excellent working order, ongoing maintenance is required per the manufacturer's recommendations, and UL and NFPA stan- dards. At a minimum, the requirements of Chapter 7 of NFPA 72 shall be followed. Environments with large amounts of dust, dirt or high air velocity require more frequent mainte- nance. A maintenance agreement should be arranged through the local manufacturer's representative. Maintenance should be scheduled monthly or as required by National and/ or local fire codes and should be performed by authorized pro- fessional fire alarm installers only. Adequate written records of all inspections should be kept. • Installation Precautions WARNING - Several different sources of power can be con- nected to the fire alarm control panel. Disconnect all sources of power before servicing. Control unit and associated equip- ment may be damaged by removing and/or inserting cards, modules, or interconnecting cables while the unit is energized. Do not attempt to install, service, or operate this unit until this manual is read and understood. CAUTION - System Reacceptance Test after Software Changes. To ensure proper system operation, this product must be tested in accordance with NFPA 72 Chapter 7 after any programming operation or change in site - specific soft- ware. Reacceptance testing is required after any change, ad- dition or deletion of system components, or after any modifica- tion, repair or adjustment to system hardware or wiring. All components, circuits, system operations, or software func- tions known to be affected by a change must be 100% tested. In addition, to ensure that other operations are not inadvert- ently affected, at least 10% of initiating devices that are riot directly affected by the change, up to a maximum of 50 de- vices, must also be tested and proper system operation veri- fied. This system meets NFPA requirements for operation at 0-49° C/32 -120° F and at a relative humidity of 85% RH (non - condensing) at 30° C/86° F. However, the useful life of the system's standby batteries and the electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this system and all peripherals be installed in an environment with a nomi- nal room temperature of 15 -27° C/60 -80° F. Verify that wire sizes are adequate for all initiating and indicating device loops. Most devices cannot tolerate more than a 10% I.R. drop from the specified device voltage. Adherence to the following will aid in problem -free installation with long -term reliability: Like all solid state electronic devices, this system may operate erratically or can be damaged when subjected to light- ning- induced transients. Although no system is completely immune from lightning transients and interferences, proper grounding will reduce susceptibility. Overhead or outside aerial wiring is not recommended, due to an increased sus- ceptibility to nearby lightning strikes. Consult with the Techni- cal Services Department if any problems are anticipated or encountered. Disconnect AC power and batteries prior to removing or in- serting circuit boards. Failure to do so can damage circuits. Remove all electronic assemblies prior to any drilling, filing, reaming, or punching of the enclosure. When possible, make all cable entries from the sides or rear. Before making modifi- cations, verify that they will not interfere with battery, trans- former, and printed circuit board location. Do not tighten screw terminals more than 9 in -lbs. Over - tightening may damage threads, resulting in reduced terminal contact pressure and difficulty with screw terminal removal. Though designed to last many years, system components can fail at any time. This system contains static - sensitive components. Always ground yourself with a proper wrist strap before handling any circuits so that static charges are re- moved from the body. Use static - suppressive packaging to protect electronic assemblies removed from the unit. Follow the instructions in the installation, operating, and programming manuals. These instructions must be followed to avoid damage to the control panel and associated equipment. FACP operation and reliability depend upon proper installation by authorized personnel. FCC Warning WARNING: This equipment generates, uses, and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual, may cause interference to radio communications. It has been tested and found to comply with the limits for class A computing device pursuant to Subpart B of Part 15 of FCC Rules, which is designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference, in which case the user will be required to correct the interference at his own expense. Canadian Requirements This digital apparatus does not exceed the Class A limits for radiation noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications. Le present appareil numerique n'emet pas de bruits radioelectriques depassant les limites applicables aux appareils numeriques de la classe A prescrites dans le Reglement sur le brouillage radioelectrique edicte par le ministere des Communications du Canada. UmWarLg.p85 01!102000 • • • SECTION 1: Product Description 10 1.1: Product Features 10 1.2: Specifications 12 1.3: Controls and Indicators 13 1.4: Circuits 14 1.5: Components 14 1.6: Optional Modules and Accessories 15 SECTION 2: Installation 17 2.1: Backbox Mounting 17 2.2: Operating Power 19 2.3: Input Circuits 20 2.4: Output Circuits 22 2.4.1: Notification Appliance Circuits 22 2.4.2: DC Power Output Connections 23 2.4.3: Relays 23 2.5: Power - limited Wiring Requirements 24 2.6: Installation of Optional Modules 25 2.6.1: CAC-4 Class A Converter Module (MS -4 only) 25 2.6.1.1 Installation 25 2.6.1.2 Wiring NACs and IDCs for Class A 26 2.6.2: 4XTMF, 4XLMF and 4XZMF Option Modules (MS -4 only) 27 2.6.2.1 4XTMF Transmitter Module Installation (MS -4 only) 28 2.6.2.2 4XZMF Zone Relay Module (MS -4 only) 29 2.6.2.3 4XLMF LED Interface Module (MS -4 only) 30 SECTION 3: Program Options via DIP Switch 31 3.1: DIP Switch Settings 32 3.1.1: SW1 DIP Switch Settings 34 3.1.1.1 Silence Inhibit 34 3.1.1.2 Auto - silence 34 3.1.1.3 Temporal Coding 34 3.1.1.4 Selective Silence 34 3.1.1.5 Trouble Reminder 34 3.1.1.6 AC Trouble Delay 34 3.1.1.7 Autoresettable Supervisory 34 3.1.1.8 IDC Combination Circuit 34 3.1.2: SW2 DIP Switch Settings 35 3.1.2.1 IDC1 Verification (MS -4 only) 35 3.1.2.2 IDC1 Supervisory (MS -4 only) 35 3.1.2.3 IDC1 Verification for MS -2 or IDC2 Verification for MS -4 35 3.1.2.4 IDC1 Supervisory for MS -2 or IDC2 Supervisory for MS-4 35 3.1.2.5 IDC2 Verification for MS -2 or IDC3 Verification for MS -4 36 3.1.2.6 IDC2 Supervisory for MS -2 or IDC3 Supervisory for MS -4 36 3.1.2.7 IDC4 Verification (MS-4 only) 36 3.1.2.8 IDC4 Supervisory (MS -4 only) 36 3.1.3: SW3 DIP Switch Settings 36 3.1.3.1 NAC1 Nonsilenceable 36 3.1.3.2 NAC1 Disable 36 3.1.3.3 NAC2 Nonsilenceable (MS -4 only) 36 3.1.3.4 NAC2 Disable (MS -4 only) 36 3.1.3.5 Strobe Synchronization 37 3.1.3.6 Nonsilenceable Waterflow for Combination Circuit 37 3.1.3.7 Spares 37 SECTION 4: Operating Instructions 38 MS- 2/MS -4 P/N: 51512:81 02/11/04 Table of Contents 5 Table of Contents 4.1: Switch Functions in Normal Mode 38 4.1.1: ACK - Acknowledge 38 4.1.2: Silence 38 4.1.3: Zone Enable/Disable 38 4.1.4: Reset/(Lamp Test) 38 4.1.5: Walktest 39 4.2: Walktest 39 4.3: Status LEDs 40 4.4: Operation 41 4.4.1: Fire Alarm Response 42 4.4.2: Fire Alarm Restoral 42 4.4.3: System Supervisory Condition Response 42 4.4.4: System Supervisory Restoral Response 42 4.4.5: Trouble Condition Response 43 4.4.6: Trouble Condition Restoral 43 SECTION 5: Power Supply Calculations 44 5.1: Overview 44 5.2: Calculating the AC Branch Circuit 44 5.3: Calculating the System Current Draw 45 5.3.1: Overview 45 5.3.2: How to Use Table 5 -3 on page 46 to Calculate System Current Draw 45 5.4: Calculating the Battery Size 47 5.4.1: NFPA Battery Requirements 47 5.4.2: Selecting and Locating Batteries 47 6 MS-2/MS-4 P/N: 51512:B1 02/11/04 It is imperative that the installer understand the requirements of the Authority Having Jurisdiction (AHJ) and be familiar with the standards set forth by the following regulatory agencies: • Underwriters Laboratories Standards • NFPA 72 National Fire Alarm Code Before proceeding, the installer should be familiar IvIt:h the following documents. NFPA Standards This Fire Alarm Control Panel complies with the following NFPA Standards: NFPA 72 National Fire Alarm Code for Local Fire Alarm Systems and Remote Station Fire Alarm Systems (requires an optional Remote Station Output Module) Underwriters Laboratories Documents for Reference: UL 38 Manually Actuated Signaling Boxes UL 217 Smoke Detectors, Single and Multiple Station UL 228 Door Closers — Holders for Fire Protective Signaling Systems UL 268 Smoke Detectors for Fire Protective Signaling Systems UL 268A Smoke Detectors for Duct Applications UL 346 Waterflow Indicators for Fire Protective Signaling Systems UL 464 Audible Signaling Appliances UL 521 Heat Detectors for Fire Protective Signaling Systems UL 864 Standard for Control Units for Fire Protective Signaling Systems UL 1481 Power Supplies for Fire Protective Signaling Systems UL 1638 Visual Signaling Appliances UL 1971 Signaling Devices for Hearing Impaired Other: NEC Article 250 Grounding NEC Article 300 Wiring Methods NEC Article 760 Fire Protective Signaling Systems Applicable Local and State Building Codes Requirements of the Local Authority Having Jurisdiction (LAHJ) Fire•Lite Documents Fire•Lite Device Compatibility Document 411 Digital Alarm Communicator/Transmitter 411UD Digital Alarm Communicator/Transmitter Document #15384 Document #50921 Document #50759 MS- 2/MS -4 PN 51512:B1 02/11/04 7 8 24 VDC Resettable Power 500 mA max. -24VDC + 24 VDC MC (4.7 KS2,% watt ELR) Zone 2 B Zone 2 B+ Zone 1 B Zone 1 B+ MS-2 Main Circuit Board B+ B- B+ B- ZONE1 ZONE2 I LONE 1 1 1r fz Wtt:uL:�:L9 MMITEM Lrua :rruad ZONE 2 AC POWER go NAG DISABLE go E Lk1 ENABLEIDISABLE HOT NEUT EARTH BATTERY 09 09 ® EARTH BAIT an SW1 SV12 SAG C TRBL NORM C NC NO TROUBLE ALARM C JP3 JP3 - Cut to disable Ground Fault detection (only with approval of AHJ) NAC (4.71M, V2 watt ELR) 2.5A max. B B+ J7 Transformer Connector L 120 VAC, 23A Earth Neutral Hot (supervised) — Charger Fault LED Battery Fault LED Earth Fault LED J8 Battery Connector 18 Amp Hour max. Trouble Relay (fail -safe) 2 amps @ 30 VAC Common Trouble (Normally Open) Normal (Normally Closed) Alarm Relay 2 amps @ 30 VAC Common Normally Closed Normally Open SW1, SW2 and SW3 Programming DIP Switches MS- 2/MS -4 PN 51512:B1 02/11/04 • IDC (4.7 KS2, V2 watt ELR) TB3 Zone 4 B- Zone 4 B+ Zone 3 B Zone 3 B-f Zone 2B Zone 2 B+ Zone 1 B Zone 1 B +— k ' -ma 6 s iEF ■IIa ed■■■• 's I NAC (4.7KO, watt ELR) TB2 2.5A max. per NAC NAC 2B NAC 2B NAC 1 B NAC 1 B +— 24 VDC Power TB1 500 mA per circuit - Reset + Reset - Nonreset +Nonreset — O 0 o 0 0 .0 J7 B+ B- B+ B- Nonreset Reset NAC 1 NAC 2 J7 Transformer Connector J9 Transformer (optional) 120 VAC, 2.3A Hot Neutral Earth (supervised) 0 0 1 =1 f 1 MS- 2/MS -4 PN 51512:B1 02/11/04 MS-4 Main Circuit Board 0 ZONE 1 ZONE 2 ZONE 3 ZONE 4 TROUBLE C NC NO C NC NO ALARM SUPV B+ B- B+ B- B+ B- B+ B- C TRBL NORM ��JP3 I ZONE'I ,. LLII]i' 311::.).1 ' '®'. Fl 10 (.l _ ZONE2 !: # Nnaarrt: ETnIMEM b • • I ItEREMPB tuaa: M1:_r.:Y / eir 1I: M L 07 01 . ZONE ALARMS N I 3.?.: _.. ?. t1u�a:�4t: �7 i'� Iaeu:Yt�crt:t� c. cl ee cl AC NAC ZONE "NAC SVSTE01 POWER WALK ALARM POWER DISABLE DISABLE FAULT TRODULU TROUBLE TEST SILENCE ca [l ..1 ca , o. 01 11 _ 01 rzuwi ZONE vAt, 1, 7i TB8 —s Y® n 4 inv.J HOT NEUT EARTH BATTERY J8 Battery Connector — 18 Amp Hour max. CLASS A CONVER� Class A Converter Module J8 ®®® EARTH am 010 J1 0 JP2 U ( JP1 SW1 SW2 SW3 0 — Charger Fault LED Battery Fault LED Earth Fault LED Trouble Relay TB5 (fail -safe) 2A @ 30 VAC Common Trouble (Normally Open) —Normal (Normally Closed) Alarm Relay TB6 2A @ 30 VAC Common Normally Closed — Normally Open Supv. Relay TB7 2A @ 30 VAC Common Normally Closed Normally Open 1 JP3 - Cut to disable Ground Fault • detection (only with approval of AHJ) J5 J3 `-J3 and J5 Option Module Connectors 0 0 1 "vi----. J4 and J6 ' Option Module „ Connectors r 1 SW1, SW2 and SW3 Programming DIP Switches 00 Module Placement Supervision (if installed) JP1 - cut to supervise module on J3 & J5 JP2 - cut to supervise module on J4 and J6 9 Product Description Product Features SECTION 1 1.1 Product Features Product Description The MS -2 is a two zone FACP (Fire Alarm Control Panel) and the MS-4 is a four zone FACP. The information in this manual refers to both the MS -2 and MS-4 unless otherwise specified. These control panels provide reliable fire signaling protection for small to medium sized commercial, industrial and institutional buildings. The FACP is compatible with System Sensor's I detectors which are microprocessor-based conventional smoke detectors that can transmit a maintenance trouble signal to the FACP indicating the need for cleaning and a supervisory `freeze' signal when the ambient temperature falls below the detector rating (refer to System Sensor's I Installation and Maintenance Instructions document 156- 1800 -00 for device specifications). In addition, the control panel is compatible with conventional input devices such as two -wire smoke detectors, four -wire smoke detectors, pull stations, waterflow devices, tamper switches and other normally -open contact devices. Refer to Fire•Lite Device Compatibility Document for a complete listing of compatible devices. Outputs include one NAC (Notification Appliance Circuit) on the MS -2 and two NACs on the MS -4. Each FACP has a Form -C Alarm and Trouble relay and 24 VDC resettable power. In addition, the MS -4 has a Form -C Supervisory relay and a nonresettable power output. The FACP supervises wiring, AC voltage and battery level. Activation of a compatible smoke detector or any normally -open fire alarm initiating device will activate audible and visual signaling devices, illuminate an indicating LED, sound the piezo sounder at the FACP, activate the FACP alarm relay and operate an optional module used to notify a remote station or initiate a auxiliary control function. • Style B (Class B) IDC (Initiating Device Circuit) ✓ one zone programmable for combination supervisory and waterflow ✓ MS -2 - two IDCs ✓ MS -4 - four IDCs • Style Y (Class B) NAC (Notification Appliance Circuit) ✓ MS -2- one NAC ✓ MS -4 - two NACs • Form -C Alarm Relay • Form -C Trouble Relay • Form -C Supervisory Relay (MS -4 only) • 3.0 amps total system current standard for MS -2 and MS -4 • 6.0 amps total system current available for MS-4 with optional second transformer • Optional Dress Panel DP -MS2 /4 • Optional Trim Ring P/N: TR -1 -R for semi -flush mounting the cabinet • Control Buttons ✓ ACK (Acknowledge) ✓ Alarm Silence ✓ Reset ✓ Walktest ✓ Zone Enable/Disable (one per zone) E €rccuzo „.MS -4 10 MS- 2/MS -4 PN 51512:B1 02/11/04 • Product Features Product Description MS 2/MS - 4 PN 51512:B1 02/11/04 • LED Indicators ✓ Fire Alarm (one per zone) ✓ Supervisory (one per zone) ✓ Trouble (one per zone) ✓ Maintenance (one per zone) ✓ AC Power ✓ NAC Disable ✓ Zone Disable ✓ NAC Fault ✓ System Trouble ✓ Power Trouble ✓ Walktest ✓ Alarm Silence ✓ Earth Fault (on circuit board) ✓ Battery Fault (on circuit board) ✓ Charger Fault (on circuit board) • Piezo sounder for alarm, trouble and supervisory • 24 volt operation • Low AC voltage sense • Alarm Verification • NACs Programmable for: ✓ Silence Inhibit ✓ Auto - Silence ✓ Strobe Synchronization ✓ Selective Silence (horn- strobe mute) ✓ Temporal or Steady Signal ✓ Silenceable or Nonsilenceable • Automatic battery trickle charger • Silent or audible walktest capabilities • Optional NAC Class A converter module (MS-4 only) • Optional 4XTMF Transmitter Module (MS -4 only) • Optional 4XZMF Zone Relay Module (MS -4 only) • Optional 4XLMF Module for RZA -4XF Remote LED Annunciator (MS -4 only) 11 Product Description Specifications 1.2 Specifications AC Power - TB8 120 VAC, 50/60 Hz, 2.3 amps Wire size: minimum #14 AWG (2.0 mm with 600V insulation Battery (sealed lead acid only) - J8 Maximum Charging Circuit - Normal Flat Charge: 27.6 VDC @ 0.8 amp Maximum Charger Capacity: 18 Amp Hour battery (two 7 Amp Hour batteries can be housed in the FACP cabinet. Larger batteries require a separate battery box such as the Fire•Lite BB -17F) Initiating Device Circuits - TB3 Alarm Zones 1 & 2 (MS -2 and MS-4) Alarm Zones 3 & 4 (MS -4 only) Power - limited circuitry Operation: All zones Style B (Class B) Normal Operating Voltage: Nominal 20 VDC Alarm Current: 15 mA minimum Short Circuit Current: 40 mA maximum Maximum Loop Resistance: 100 ohms End -of -Line Resistor: 4.7K0, " watt (Part #71252) Standby Current: 4 mA Refer to Fire•Lite Device Compatibility Document for listed compatible devices Notification Appliance Circuit(s) - TB2 One NAC on MS -2, two NACs on MS -4 Operation: Style Y (Class B) Power - limited Circuitry Normal Operating Voltage: Nominal 24 VDC Maximum Signaling Current: 2.5 amps total with standard transformer. 5.0 amps total (2.5 amp maximum per NAC) with optional transformer on MS-4 only End -of -Line Resistor: 4.7K.0, " watt (Part #71252) Refer to Fire•Lite Device Compatibility Document for compatible listed devices Form -C Relays Trouble Relay TB5 (fail -safe) Alarm Relay TB6 Supervisory Relay TB7 (MS -4 only) Relay Contact Ratings: 2 amps @ 30 VAC (resistive) Resettable Power - TB1 Operating Voltage: Nominal 24 VDC Maximum Available Current: 500 mA - appropriate for powering 4 -wire smoke detectors (see note 1) Power - limited Circuitry Refer to Fire•Lite Device Compatibility Document for compatible listed devices Nonresettable Power - TB1 (MS-4 only) Operating Voltage: Nominal 24 VDC Maximum Available Current: 500 mA (see note 1) Power - limited Circuitry Refer to Fire•Lite Device Compatibility Document for compatible listed devices 1. Total current for resettable power and one Notification Appliance Circuit must not exceed 3.0 amps for the MS -2. Total current for nonresettable power, resettable power and two Notification Appliance Circuits must not exceed 6.0 amps for the MS -4 (requires optional second transformer) 12 MS- 2/MS -4 PN 51512:B1 02/11/04 • Controls and Indicators Product Description 1.3 Controls and MS- 2/MS -4 PN 51512:B1 02/11/04 Indicators Front Panel Membrane Buttons • Acknowledge • Alarm Silence • Reset • Walktest • Zone Enable/Disable - Zone 1 • Zone Enable/Disable - Zone 2 • Zone Enable/Disable - Zone 3 (MS -4 only) • Zone Enable/Disable - Zone 4 (MS -4 only) LED Indicators • Fire Alarm Zone 1 - red LED • Fire Alarm Zone 2 - red LED • Fire Alarm Zone 3 - red LED (MS-4 only) • Fire Alarm Zone 4 - red LED (MS-4 only) • Supervisory Zone 1 - yellow LED • Supervisory Zone 2 - yellow LED • Supervisory Zone 3 - yellow LED (MS -4 only) • Supervisory Zone 4 - yellow LED (MS -4 only) • Trouble Zone 1 - yellow LED • Trouble Zone 2 - yellow LED • Trouble Zone 3 - yellow LED (MS -4 only) • Trouble Zone 4 - yellow LED (MS -4 only) • Maintenance Zone 1 - yellow LED • Maintenance Zone 2 - yellow LED • Maintenance Zone 3 - yellow LED (MS -4 only) • Maintenance Zone 4 - yellow LED (MS -4 only) • AC Power - green LED • NAC Disable - yellow LED • Zone Disable - yellow LED • NAC Fault - yellow LED • System Trouble - yellow LED • Power Trouble - yellow LED • Walktest - yellow LED • Alarm Silence - yellow LED • Earth Fault - yellow LED (on main circuit board) • Battery Fault - yellow LED (on main circuit board) • Charger Fault - yellow LED (on main circuit board) 13 Product Description Circuits 1.4 Circuits 1.5 Components Local Piezo Sounder A piezo sounder provides separate and distinct sounds for alarm, trouble, maintenance and supervisory conditions as follows: • Alarm - on steady • Trouble - pulse 1 second on and 1 second off • Maintenance - pulse % second on and 1/2 second off • Supervisory - pulse 1/2 second on and % second off Input Circuits Two input IDCs (Initiating Device Circuits) on the MS -2 and four IDCs on the MS-4 provide Style B (Class B) configurations. All IDCs accept P detectors as well as conventional two -wire smoke detectors, four -wire smoke detectors and normally -open contact devices. Output Circuits • 24 VDC resettable power output - 500 mA • 24 VDC nonresettable power output (MS -4 only) - 500 mA • 24 volt battery charger (up to 18 Amp Hour batteries) Notification Appliance Circuits One NAC (Notification Appliance Circuit) Style Y (Class B) on the MS -2 Two NACs Style Y (Class B) on the MS-4 Relays Alarm Relay Trouble Relay (fail -safe) Supervisory Relay (MS -4 only) Form -C contacts rated 2.0 amps @ 30 VAC (resistive) Main Circuit Board The main circuit board contains the system's CPU, power supply, other primary components and wiring interface connectors. Optional modules plug in and are mounted to the MS-4 main circuit board only. Cabinet The cabinet is red and the backbox measures 14.5" (36.8 cm) x 15.218" (38.65 cm) x 2.875" (7.3 cm) and provides space for two batteries (up to 7 Amp Hours). Also available is an optional dress panel which mounts inside the cabinet. Transformer Assembly One 100VA transformer is provided standard with the FACP. An optional second 100VA transformer is available for the MS -4 to provide maximum accessory power. Batteries The cabinet provides space for two 7 Amp Hour batteries (larger batteries up to 18 Amp Hour, require use of a UL listed battery box such as the Fire•Lite BB -17F). Batteries must be ordered separately. 14 MS- 2/MS -4 PN 51512:B1 02/11/04 • Optional Modules and Accessories Product Description 1.6 Optional Modules and Accessories CAC -4 Class A Converter Module (MS -4 only) The CAC -4 Module can be used to convert the Style B (Class B) Initiating Device Circuits to Style D (Class A) and Style Y (Class B) Notification Appliance Circuits to Style Z (Class A). The module connects to Jl on the MS-4 main circuit board. 4XTMF Transmitter Module (MS -4 only) The 4XTMF provides a supervised output for local energy municipal box transmitter and alarm and trouble reverse polarity. It includes a disable switch and disable trouble LED. A module jumper option allows the reverse polarity circuit to open with a system trouble condition if no alarm condition exists. The 4XTMF mounts to the MS -4 main circuit board, occupying one of the two sets of option module connectors. 4XLMF LED Interface Module (MS-4 only) The LED Interface Module supports the RZA -4XF Remote Annunciator module. Annunciator wiring is supervised for open conditions by this module. The 4XLMF mounts to the MS -4 main circuit board option module connectors J3 and J5 only. RZA -4XF Remote Annunciator (MS -4 only) The Remote Annunciator mounts on a standard single -gang electrical box and provides LED indication of the following: • Alarm Zone 1 (red LED) • Alarm Zone 2 (red LED) • Alarm Zone 3 (red LED) • Alarm Zone 4 (red LED) • System Trouble (yellow LED) A Local Trouble Sounder and Silence Switch are also provided. All LED wiring is supervised for open conditions. Any open condition will cause the System Trouble LED to illuminate. Slide -in paper labels permit an easy change of zone information. Note: The RZA -4XF Remote Annunciator requires the use of the LED Interface Module (4XLMF). 4XZMF Zone Relay Module (MS -4 only) The Zone Relay Module provides Form -C relay contacts for the following: • Alarm Zone 1 • Alarm Zone 2 • Alarm Zone 3 • Alarm Zone 4 • System Alarm • System Trouble As a jumper option, the first four relays described above can be made silenceable. The 4XZMF mounts to the MS -4 main circuit board, occupying one of the two sets of option module connectors. Dress Panel DP -MS2 /4 A dress panel DP -MS2 /4 is available as an option. The dress panel restricts access to the system wiring while allowing access to the membrane switch panel. MS- 2/MS -4 PN 51512:B1 02/11/04 15 Product Description Optional Modules and Accessories Battery Box The Fire•Lite BB -17F battery box may be used to house two batteries greater than 7 Amp Hour to a maximum of 18 Amp Hour. The battery box mounts directly below the control panel cabinet, centered to the main circuit board. The BB -17F is red and is provided with knockouts. 411 and 411UD Digital Alarm Communicator/Transmitter The three input/channel 411 and the four input/channel411UD are dual line, digital alarm communicator /transmitters which can be used as slave communicators with the MS -4 FACP. The inputs /channels are compatible with normally open relay contacts, require ELRs (End -of -Line Resistors), are supervised and are fully programmable. The communicators interface with the public switched telephone network and are compatible with most central station receivers. Power supplied must be 12 or 24 volts, filtered and nonresettable. The communicators are mounted in a small metal enclosure, providing a variety of mounting options. Refer to the 411 or 411UD manual for additional information. 16 MS- 2/MS -4 PN 51512:B1 02/11/04 • • • Backbox Mounting SECTION 2 2.1 Backbox Mounting 2.875" (7.3 cm) 10.375" Height = 15.000" (26.35 cm) (38.10 cm) The cabinet can be surface mounted or semi -flush mounted using the optional Trim Ring P/N: TR - - R. The door is removable during the installation period by opening and lifting if off the hinges. The cabinet mounts using two key slots at the top of the backbox and two additional 0.250" diameter holes located at the bottom. Carefully unpack the system and check for shipping damage. Select a location for the cabinet that is in a clean, dry, vibration -free area where extreme temperatures are not encountered. The area should be readily accessible with sufficient room to easily install and maintain the control panel. Locate the top of the cabinet approximately five feet above the floor with the hinge mounting on the left. Determine the number of conductors required for the devices to be installed and determine the appropriate knockouts. All wiring must be in accordance with the National and/or Local codes for fire alarm systems and power supplies. Bottom Installation 1. Mark and predrill holes for the top two keyhole mounting bolts 2. Install two upper fasteners in the wall with the screw heads protruding approximately %a" 3. Using the upper keyholes, mount the backbox over the two screws 4. Mark the lower two holes, remove the backbox from the wall and drill the mounting holes 5. Mount the backbox, install the remaining fasteners and tighten all screws 0 0 0 0 0 0 5 0 • Backbox = 14.5" (36.8 cm) 9.1" (23.1 cm) 2.7" 10 46.86cm) o 0 0 N Pem Studs O A z 0 Backbox Mounting Holes 0 0 Figure 2.1 Backbox Mounting Dimensions Top Depth = 3.000" (7.62 cm) 0 0 1.125" (2.868 cm) Installation 1 1 1 MS- 2/MS -4 PN 51512:B1 02/11/04 17 Installation Backbox Mounting Door = 15.342" (38.97 an) v Battery Box = 8.5" (21.59 cm) Top Bottom Door = 14.677 " (37.28 cm) Battery Box =14.5" �I (37.384 cm) Figure 2.2 Backbox and Battery Box T Depth 2.875" (7.3 cm) P pth = 3.050° -( cm) I Depth = 4.75 (12.065 cm) I When batteries larger than 7 Amp Hour, up to 18 Amp Hour, are being used, the BB -17F battery box (or UL listed equivalent) must be installed. To install the BB -17F: 1. Mount the FACP cabinet to the wall 2. Remove knockouts on the bottom of the FACP cabinet and top of the BB -17F 3. Using conduit, hang the BB -17F from the FACP cabinet making sure there is at least W' of clearance between the two cabinets 4. Anchor the BB -17F to the wall 18 MS- 2/MS -4 PN 51512:B1 02/11/04 • • • 2.2 Operating Power • WARNING: Several different sources of power can be connected to this panel. © Disconnect all sources of power before servicing. The panel and associated equipment may be damaged by removing and/or inserting cards, modules or interconnecting cables while this unit is energized Primary Power Source (AC) and Earth Ground Connections AC power connections are made inside the control panel cabinet. The primary power source for the panel is 120 VAC, 50/60 Hz, 2.3 amps. Run a pair of wires (with ground conductor) from the protected premises main breaker box to TB8 of the main circuit board. As per the National Electrical Code, use 14 AWG (2.00 mm 1.6 mm O.D.) or heavier gauge wire with 600V insulation. No other equipment may be connected to this circuit. In addition, this circuit must be provided with overcurrent protection and may not contain any power disconnect devices. A separate Earth Ground connection must be made to ensure proper panel operation and lightning and transient protection. Connect the Earth Ground wire [minimum 14 AWG (2.00 mm to the transformer mounting stud. Do not use conduit for the Earth Ground connection since this does not provide reliable protection. Secondary Power Source (Batteries) Observe polarity when connecting the battery. Connect the battery cable to J8 on the main circuit board using the plug -in connector and cable provided. The battery charger is current- limited and capable of charging sealed lead acid batteries. The charger shuts off when the system is in alarm. WARNING: Battery contains sulfuric acid which can cause severe burns to the skin Q and eyes and can destroy fabrics. If contact is made with sulfuric acid, immediately flush the skin or eyes with water for 15 minutes and seek immediate medical attention. • Operating Power Installation Optional second transformer shown installed Standard transformer Earth ground wire shown connected to transformer mounting stud MS 2/MS - 4 PN 51512:B1 02/11/04 Figure 2.3 Operating Power Connections 5 8 1 19 Installation Input Circuits 2.3 Input Circuits 20 The MS -2 has two IDCs (Initiating Device Circuits) and the MS -4 has four IDCs. Each circuit is compatible with System Sensor's I smoke detectors which generate a maintenance signal when the detector becomes dirty and a separate supervisory `freeze' signal when ambient temperature falls below the detector rating. The maximum loop resistance limit for each IDC is 100 ohms. The field wiring for each zone is supervised for opens, shorts and ground faults. All conditions are visually and audibly annunciated. Each circuit is configured for Style B (Class B) operation and will accept I smoke detectors, any normally -open contact devices as well as conventional 2 -wire or 4 -wire, 24 VDC smoke detectors. In addition, Zone 1 (IDC 1) on the MS -2 and Zone 2 (IDC2) on the MS-4 can be programmed as combination supervisory and waterflow zones. Refer to the Fire•Lite Device Compatibility Document for a list of compatible devices. MS-4 Initiating Device Circuits can be converted to Style D (Class A) by installing the optional Class A Converter module. Refer to "CAC -4 Class A Converter Module (MS -4 only)" on page 25. I I U manual pull stations heat detectors UL listed Power Supervision Relay (refer to Device Compatibility Document for list of compatible relays) Resettable 24 VDC 4-wire smoke detector power (500 mA maximum) + - + - Nonreset Reset UL listed compatible 4 smoke detector Iry B+ B- NAC 1 Class B Initiating Device Circuits (supervised and power- limited) 4.7 KS1, '/z watt resistor P/N:71252 B+ B- NAC 2 CO w Figure 2.4 IDC Connections B+ B- B+ B- ZONE 1 ZONE 2 UL listed compatible 2 -wire smoke detectors Dummy load all unused circuits - 4.7 KO, '/z watt resistor (P/N: 71245) B+ B- B+ B- ZONE 3 ZONE 4 Note: Zones 3 & 4 on MS -4 only MS -2/MS-4 PN 51512:B1 02/11/04 • Input Circuits Installation Supervisory Switch (tamper) Supervisory Switch (tamper) In -Line- Resistor 1.2 KO., ''A watt resistor P/N: 75579 Combination Waterflow /Supervisory Zone A combination Waterflow /Supervisory circuit allows an FACP to distinguish between an Alarm switch (waterflow device) and a Supervisory switch (tamper) installed on the same circuit. The following figure illustrates the wiring of Zone 2 as a Style B (Class B) Waterflow /Supervisory circuit. Note that only Zone 1 on the MS -2 and Zone 2 on the MS -4 can be configured in this manner. Class B Initiating Device Circuits (supervised and power- limited) 4.7 KC , % watt resistor P/N:71252 B+ B- B+ B- B+ B- B+ B- ZONE 1 ZONE 2 ZONE 3 ZONE 4 Figure 2.5 Style B Combination Circuit on Zone 2 of the MS -4 Dummy load all unused circuits - 4.7 KO, '/ watt resistor (P/N: 71245) Note: Zones 3 & 4 on MS-4 only m Requirements for the Combination Waterflow /Supervisory circuit are as follows: ✓ The Waterflow Alarm Switch(es) must connect to the FACP Initiating Device Circuit before the In -Line Resistor as shown in Figure 2.5 ✓ The Waterflow Supervisory Switch(es) must connect to the FACP Initiating Device Circuit after the In -Line Resistor as shown in Figure 2.5 ✓ Program the FACP Initiating Device Circuit #1 on the MS -2 or Circuit #2 on the MS-4 as a Combination circuit by placing SW1 DIP switch 8 to the ON position as described in "SW1 DIP Switch Settings" on page 34 ✓ Waterflow Alarm Switch activation causes the panel to latch into alarm until the alarm condition is cleared and the FACP is reset ✓ Supervisory Switch activation causes the panel to track the supervisory condition, that is, the panel will clear when the supervisory condition is cleared (if FACP is programmed for Autoresettable Supervisory) MS- 2/MS -4 PN 51512:B1 02/11/04 21 Installation Output Circuits 2.4 Output Circuits 22 Notification Appliance Circuit polarity shown in alarm condition 2.4.1 Notification Appliance Circuits The MS -2 provides one Style Y (Class B) NAC (Notification Appliance Circuit) while the MS-4 provides two Style Y (Class B) NACs. Each circuit is capable of providing a maximum of 2.5 amps of current. Total current drawn from these as well as other DC power outputs cannot exceed 3.0 amps for the MS -2 or 6.0 amps for the MS -4 with the optional second transformer installed (refer to battery calculations section). Each circuit is supervised and power - limited. Refer to the Fire•Lite Device Compatibility Document for a listing of compatible notification appliances. The MS -4 NACs can be converted to Style Z (Class A) by installing the optional Class A Converter module. Refer to "CAC -4 Class A Converter Module (MS -4 only)" on page 25. Class B Notification Appliance Circuits (supervised and power- limited) 4.7 KS , %z watt resistor P/N:71252 U 1 .. 1 r E B+ Polarized Bell Polarized Strobe Polarized Horn 0o B+ B- B- NAC 1 NAC 2 Figure 2.6 NAC Connections Polarized Bell Polarized Horn- Strobe Polarized Hom Dummy load any unused circuits (P/N: 71245) MS- 2/MS -4 PN 51512:B1 02/11/04 • Output Circuits Installation Nonresettable Power (500 mA) - MS-4 Only 24 VDC filtered, nonresettable power can be obtained from these terminals (power - limited) Note: Relay contacts are shown with power applied to the panel and no active troubles, alarms or supervisories. The Trouble Relay is a fail -safe relay which will transfer on any trouble or total power failure. MS- VMS-4 PN 51512:B1 02/11 /04 24.2 DC Power Output Connections Resettable 24 VDC power is available on both the MS -2 and MS -4 control panels. Nonresettable 24 VDC power is available only on the MS -4. Figure 2.7 Auxiliary Power 4 -Wire Smoke Detector Power (500 mA) 24 VDC filtered, resettable power for 4 -wire smoke detectors can be obtained from these terminals (power - limited) 2.4.3 Relays The MS -2 and MS-4 control panels provide an alarm and fail -safe trouble relay and the MS-4 also provides a supervisory relay. Each Form -C relay is rated for 2 amps @ 30VAC (resistive). Note that relay connections may be power-limited or nonpower- limite4 provided that 0.25" minimum spacing is maintained between conductors of power-limited and nonpower-limited circuits. TROUBLE ALARM C TRBL NORM C NC NO Figure 2.8 Relay Terminals SUPV C NC NO [0] Mal kiit 23 Installation r i � 2.5 Power - limited Wiring Requirements Power - limited and nonpower - limited circuit wiring must remain separated in the cabinet. All power - limited circuit wiring must remain at least 0.25" (6.35 mm) away from any nonpower - limited circuit wiring. Furthermore, all power - limited and nonpower - limited circuit wiring must enter and exit the cabinet through different knockouts and/or conduits. A typical wiring diagram for the MS -4 is illustrated below. 24 Power - limited Circuits Power - limited Wiring Requirements Nonpower - limited Circuits i EMIE EWE `vim _ ■ � vetk O � 'r te.® A = • + + -' - •— -- - C Nc NO .. A . A- A+ + A• A. A. A. A• •, CLASS CLASS CLASSA CLASSA CLASS CLASS NAC1 WC 2 ZONE 1 ZQE2 ZONE3 ZCNE4 2m1=3 CAC -4 . f:` *ONE wr u, ua:u:�ael JP2(� (aJP1 mg. sVY1 6112 3N3 AC Power Figure 2.9 Typical UL Power - limited Wiring Requirements Power - limited Circuits Nonpower - limited Circuit MS- 2/MS -4 PN 51512:B1 02/11/04 • Installation of Optional Modules Installation 2.6 Installation of Optional Modules CAUTION: Remove all power (AC and DC) before installing or removing modules or wiring. Secure to Standoffs 2.6.1 CAC-4 Class A Converter Module (MS-4 only) 2.6.1.1 Installation The CAC-4 Module can be used to convert the four Style B (Class B) Initiating Device Circuits to Style D (Class A) and the two Style Y (Class B) Notification Appliance Circuits to Style Z (Class A). The module plugs into connector Jl which is located at the top right of the MS-4 main circuit board. Install the three supplied standoffs in the holes on the main circuit board as indicated in the following figure. Carefully align the connector on the CAC -4 with Jl on the FACP main circuit board and press the module securely into place. Make certain the pins are properly aligned to prevent bending or breaking of any connector pins. 0 ( + - + Nonreset Reset A+ A- A+ A- A+ A- A+ A- A+ A- A+ A- CLASS A CLASS A CLASS A CLASS A CLASS A CLASS A NAC 1 NAC 2 ZONE 1 ZONE 2 ZONE 3 ZONE 4 B- B+ B- C1 NAC2 CAC -4 Module B+ B- B+ 8- B+ B- B+ B- C ZONE 1 ZONE 2 ZONE 3 ZONE 4 MS -4 Main Circuit Board CLASS A CONVERTER J1 Connector J1 Figure 2.10 CAC -4 Module Installation Secure to Standoff uu u p C NC NO , • C NC NO ALARM SUPV C JP3 0 MS- 2/MS -4 PN 51512:B1 02/11/04 25 Installation Installation of Optional Modules 26 Tamper Polarized trobe CAC -4 Class A Converter Module Smoke Pull Station Heat Gee. MilEs • ts 000@00 A+ A- A+ A- A+ A- A+ A- A+ A- A+ A- CLASS A CLASS A CLASS A CLASS A CLASS A CLASS A NAC 1 NAC 2 ZONE 1 ZONE 2 ZONE 3 ZONE 4 O Circuit polarities shown in alarm condition Class B (Style B) IDC -4.7KO 'A watt ELR resistor P/N:71252 (supervised and power - limited) •N `. Class A (Style Z) NAC (supervised and power - limited) O Polarized 2.6.1.2 Wiring NACs and IDCs for Class A Wire the Style Z (Class A) Notification Appliance Circuits using TB2 of the MS-4 and TB1 of the CAC-4 module. Wire the Style D (Class A) Initiating Device Circuits using TB3 of the MS -4 and TB1 of the CAC-4. Make certain to observe polarity when connecting the devices to the circuits. The B+ and A+ terminals must comprise the feed and return for the positive side of a device and the B- and A- terminals must comprise the feed and return for the negative side of a device. To configure any of the zones for Class B when the CAC -4 is installed, simply wire to the B+ and B- input on the FACP terminal(s) and install the End -of -Line Resistor after the last device on the circuit. Do not wire to the corresponding A+ and A- terminals on the CAC -4 module. Note that Zone 1 IDC on the MS -2 and Zone 2 IDC on the MS-4 can be configured as a combination waterflow /supervisory circuit as illustrated in the following figure. 12 KO '/2 watt In -Line resistor P/N:75579 IMPORTANT! All devices must be within 20 feet ofthe Class A portion of the circuit and wiring must be in conduit. Class A (Style D) IDC Combo Waterflow & Supervisory 20K0., Y2 watt ELR resistor P/N:75477 (supervised and power- limited) Class A (Style D) IDC (supervised and power - limited) Figure 2.11 Wiring NACs and IDCs for Class A Operation Dummy load all unused circuits - 4.7 KO Y2 watt ELR resistor (P/N: 71245) MS -4 Circuit Board MS- 2/MS -4 PN 51512:B1 02/11/04 • Installation of Optional Modules Installation 2.6.2 4XTMF, 4XLMF and 4XZMF Option Modules (MS-4 only) The 4XLMF LED Interface Module can only be plugged into connectors J3 and J5 on the MS -4 main circuit board. The 4XTMF and 4XZMF modules can be plugged into connectors J3 and J5 or J4 and J6 on the MS-4 main circuit board. A combination of any two of the three modules can be installed. The following steps must be followed when installing each of these modules: 1. Remove all power (AC and DC) from the FACP before installing the modules 2. Cut jumper JP1 (for connectors J3 and J5) and/or JP2 (for connectors J4 and J6) on the main circuit board to allow the control panel to supervise the placement of any installed option module 3. Install the two supplied metal standoffs in the locations indicated. These standoffs provide the required earth ground protection 4. Carefully plug the connectors on the option module into connectors J3 and J5 or J4 and J6 on the FACP main circuit board, being careful not to bend any pins 5. Secure the option module to the standoff on the main circuit board with the supplied screws 6. When the installation has been completed, connect the wiring to the modules as indicated in the following sections 7. Test system for proper operation B+ B• B+ B- B+ B- B+ B- B+ B- B+ B- C 11 f iM C PC NO NAC 1 NAC 2 ZONE 1 ZONE 2 ZONE 3 ZONE 4 TROUBLE ALARM ZONE I arros.:a07.,0 Fri .....:.1 smcrrui. I.e:p`1 1: e� I `•' ZONE2 I s&l'eLL34$lrof ee:_ LJ .1/B lul1r:Y1a:1_ ZONE: ZONE CAC ZONE N. power, POWER DISABLE MAPLE. FAULT TROUBLE TES SILENCE HOT NEUT EARTH J3 J5 JP2 Jumper Cut to install module on J4 & 16 Figure 2.12 4X Option Module Connection to MS -4 JP1 Jumper Cut to install module on J3 & J5 Standoffs (when using J3 & J5 Standoffs (when using J4 & J6 MS - 2/MS - PN 51512:B1 02/11/04 27 Installation Installation of Optional Modules 2.62.1 4XTMF Transmitter Module Installation (MS-4 only) The 4XTMF provides a supervised output for a local energy municipal box transmitter in addition to alarm and trouble reverse polarity. A jumper option allows the reverse polarity circuit to open with a system trouble condition if no alarm condition exists. A disable switch allows disabling of the transmitter output during testing to prevent accidental calling of the monitoring service. Local Energy Municipal Box Service (NFPA 72 Auxiliary Fire Alarm Systems): Supervisory Current: 5.0 mA Trip Current: 350 mA (subtracted from notification appliance power) Coil Voltage: 3.65 VDC Maximum Coil Resistance: 14.6 ohms Maximum allowable wire resistance between panel and trip coil: 3 ohms Municipal Box wiring can leave the building Remote Station Service (NFPA 72 Remote Station Fire Alarm Systems) - Intended for connection to a polarity reversal circuit or a Remote Station receiving unit having compatible ratings: Maximum load for each circuit: 10 mA Reverse polarity output voltage: 24 VDC Remote Alarm and Remote Trouble wiring can leave the building Before installing the module, place the disconnect switch to the down (disconnect) position to prevent accidental activation of the municipal box. Note that a Disconnect LED will illuminate after the module is installed in the FACP. In addition, the System Trouble LED will turn on to indicate the Disconnect condition. Disconnect Switch shown in disconnect position Note: 4XTMF Module is not suitable for transmitting reverse polarity supervisory signal. Connect to FACP J3 & J5 or J4 & J6 Figure 2.13 4XTMF Transmitter Module Polarities are shown for module activation —1+ — 2_ Remote Alarm (power - limited)* F 4- — Remote Trouble (power - limited)* No connection _ Municipal Box (nonpower- limited)* * Wiring from these terminals can exit the protected premises. Dummy load terminals 6 and 7 (4.7k0., 'A watt resistor) if Municipal Box is not connected. 28 MS- 2/MS -4 PN 51512:B1 02/11/04 • Installation of Optional Modules Installation 2.6.2.2 4XZMF Zone Relay Module (MS-4 only) The 4XZMF provides four zone alarm, one system alarm and one system trouble Form -C relays. Nonpower - limited and power - limited wiring must have a minimum distance of 0.25 ", wire to wire. If this module is used to drive nonpower - limited and power - limited circuits, follow the instructions below: Relay #1 through #4 will activate with Output #1 through #4 and remain latched unless `LATCH' jumper is cut. �N Relay #1 NC C C ( Relay #2 { N O NC l NO Relay #3 {NC Relay #4 { NC C I S I S I S � S � IS SI S � IS S S S! S t� l OR 0 U • Cut jumper for nonlatching (silenceable) relay operation se Disable Switch to disconnect the relays 1 - NO 2 -NC } Relay #1 3 -c !!!1 4 NO 5 - NC Relay 76810 -NO - NC Relay #2 9 #3 -C -N ) 11 - NC r Relay #4 12 -C 1 13 16 -NO 14 - NC Alarm 15 -C JJJ - NO 17 - NC 5 Trouble 18 -C 1) Skip a set of dry contacts to maintain the 0.25" required space between power - limited and nonpower - limited circuits. The wiring of this module must follow the requirements as specified in "Power- limited Wiring Requirements" on page 24. 2) If this module is needed to drive power - limited and nonpower - limited relays that are next to each other, refer to the following illustration which shows a typical connection: Figure 2.14 4XZMF Zone Relay Module } power - limited circuit power - limited circuit nonpower - limited circuit nonpower - limited circuit 1 MS- 2/MS -4 PN51512:B1 02/11/04 29 Installation Installation of Optional Modules 4XLB 9 e 9 4XLMF Module 2.6.2.3 4XLMF LED Interface Module (MS only) The 4XLMF supports the RZA -4XF Remote Annunciator module. The wiring of this module must follow the requirements as specified in "Power- limited Wiring Requirements" on page 24. Important: The 4XLMF module can only be installed on connectors J3 and J5 of the MS -4 main circuit board. i Q SYSTEM TROUBLE 1 .4 RE -SOUND TONE el) SILENCE FIRE ALARM ANNUNCIATOR Front View of RZA -4XF — 1 — +24 VDC — 2 —Out #1 — 3 —Out #2 — 4 —Out #3 — 5 —Out #4 — 6 — System Trouble — 7 — Sound — 8 _Resound E3 Connect to corresponding terminals of RZA -4XF Remote Annunciator Side View Figure 2.15 4XLMF LED Interface Module Note: Make wiring connections with system power off. Maximum wire impedance is 50 ohms per wiring connection. Single -gang Box 30 MS- 2/MS -4 PN 51512:B1 02/11/04 • • • Installation of Optional Modules Program Options via DIP Switch SECTION 3 Program Options via DIP Switch 00 0 0 This section describes the programming options available via DIP switch settings. The FACP can be field programmed using option DIP switches SW1, SW2 and SW3 which are located in the bottom right side of the main circuit board. Refer to the following illustration for switch locations and DIP switch placement in the ON and OFF positions. B. B- B. B. B• B. B. B. B- B. B- C TRBL NAC1 NAC2 ZONE? ZONE2 ZONE3 ZONE4 TROUBLE finnan ann. QA9A ® 0 conYmrEit J1 N4 G'rr,• SONE a 11 'ice (—.u.......t._ TSB MOT rte,,. 0 0 c Nos c Nc AO ) AIHRE7 3Uw C P3 1 1 0 SW1 SW2 SW3 0 Figure 3.1 Field Programming DIP Switches Switches 1 through 7 shown in OFF position Switch 8 shown in ON position MS- 2/MS -4 PN 51512:B1 02/11/04 31 Switch Number DIP Switch Number DIP Switch ON SW1 1 Silence Inhibit 2 Auto - silence 3 Temporal Coding 4 Selective Silence (if sync. enabled) 5 Trouble Reminder 6 AC Trouble Delay 7 Autoresettable Supervisory 8 IDC Combination Waterflow/ Supervisory Circuit SW2 1 not used 2 not used 3 IDC1 Verification 4 IDC1 Supervisory 5 IDC2 Verification 6 IDC2 Supervisory 7 not used 8 not used SW3 1 NAC1 Nonsilenceable 2 NAC1 Disable 3 not used 4 not used 5 & 6 used to select strobe synchronization feature as shown to the right No Synchronization System Sensor Synchronization Gentex Synchronization Wheelock Synchronization 7 Nonsilenceable Waterflow for Combination Circuit (only if SW1 switch 8 is ON) 8 spare Program Options via DIP Switch DIP Switch Settings 3.1 DIP Switch Settings The following tables list the programmable features for the MS -2 and MS-4. Placing a DIP switch in the ON position will select the feature while placing the DIP switch in the OFF position will deselect the feature. The exceptions to this rule are SW3 DIP switches 5 & 6. These two switches are used to select the Notification Appliance Circuit synchronization feature. A detailed description of each feature is presented in the following pages. Important: When any programmable feature is changed by repositioning a DIP switch, the FACP Reset button must be pressed to ensure that the control panel can read the new switch position. 32 Table 3.1 MS-2 DIP Switch Settings Switch 5 Switch 6 OFF OFF ON OFF OFF ON ON ON MS- 2/MS -4 PN 51512:B1 02/11/04 Switch Number DIP Switch Number DIP Switch ON SW1 1 Silence Inhibit 2 Auto - silence 3 Temporal Coding 4 Selective Silence (if sync. enabled) 5 Trouble Reminder 6 AC Trouble Delay 7 Autoresettable Supervisory 8 IDC Combination Waterflow/ Supervisory Circuit SW2 1 IDC1 Verification 2 IDC1 Supervisory 3 IDC2 Verification 4 IDC2 Supervisory 5 IDC3 Verification 6 IDC3 Supervisory 7 IDC4 Verification 8 IDC4 Supervisory SW3 1 NAC 1 Nonsilenceable 2 NAC1 Disable 3 NAC2 Nonsilenceable 4 NAC2 Disable 5 & 6 used to select strobe synchronization feature as shown to the right No Synchronization System Sensor Synchronization Gentex Synchronization Wheelock Synchronization 7 Nonsilenceable Waterflow for Combination Circuit (only if SW 1 switch 8 is ON) 8 spare • • DIP Switch Settings Table 3.2 MS -4 DIP Switch Settings Program Options via DIP Switch Switch 5 Switch 6 OFF OFF ON OFF OFF ON ON ON MS- 2/MS -4 PN 51512:B1 02/11/04 33 Program Options via DIP Switch DIP Switch Settings 3.1.1 SW1 DIP Switch Settings 3.1.1.1 Silence Inhibit Switch 1, placed in the ON position, selects the Silence Inhibit feature. This feature prevents the silencing or resetting of the NACs (Notification Appliance Circuits) for a period of one minute after initiation of an alarm. Placing switch 1 to the OFF position deselects the Silence Inhibit feature. The factory default setting is switch 1 OFF for no Silence Inhibit. 3.1.1.2 Auto - silence Switch 2, placed in the ON position, selects the Auto - silence feature. This feature automatically silences all NACs, programmed for silenceable operation, ten minutes after alarm activation. A new activation on another zone will resound the NACs. The factory default setting is switch 2 OFF for no Auto - silence. 3.1.1.3 Temporal Coding Switch 3, placed in the ON position, selects the Temporal Coding feature. This feature causes the NACs to pulse, " second on, " second off, " second on, " second off, " second on, 1" seconds off, continually repeating this pattern while activated. The factory default setting is switch 3 OFF for no Temporal Coding, which will cause the NACs to sound a steady signal when activated. Note that Temporal Coding is disabled if Strobe Synchronization is enabled 3.1.1.4 Selective Silence Switch 4, placed in the ON position, selects the Selective Silence feature. This feature allows the use of various manufacturer's horn strobe mute protocols. When Selective Silence is enabled and the Synchronization feature is selected (refer to "Strobe Synchronization" on page 37), pressing the Silence button will turn off all silenceable audible devices while leaving on the visual devices, such as strobes. The factory default setting is switch 4 OFF for no Selective Silence. Note: Enabling Selective Silence but not Synchronization will cause audible and visual devices to be turned off when the Silence button is pressed 3.1.1.5 Trouble Reminder Switch 5, placed in the ON position, selects the Trouble Reminder feature. This feature causes the FACP piezo to sound every 15 seconds for alarms and every two minutes for troubles after the alarms or troubles have been silenced. In addition, the piezo will resound 24 hours after a trouble has been silenced but not cleared. The factory default setting is switch 5 OFF for Trouble Reminder disabled. 3.1.1.6 AC Trouble Delay Switch 6, placed in the ON position, selects the AC Trouble Delay feature. This feature allows the FACP to delay trouble activation for six hours following an AC loss or brownout condition. The factory default setting is switch 6 OFF for no AC Trouble Delay. 3.1.1.7 Autoresettable Supervisory Switch 7, placed in the ON position, selects the Autoresettable Supervisory feature. This feature causes the IDCs (Initiating Device Circuits), programmed as supervisory circuits, to automatically reset (nonlatching) after the alarm condition has been cleared. The factory default setting is switch 7 OFF for no Autoresettable Supervisory. 3.1.1.8 IDC Combination Circuit Switch 8, placed in the ON position, sets IDC #1 on the MS -2 or IDC #2 on the MS -4 as a combination circuit. A combination zone can be used for monitoring supervisory devices such as valve tamper switches and alarm devices such as waterflow switches. Supervisory conditions, which latch via software, can be silenced by pressing the Acknowledge and then Silence buttons. The factory default setting is switch 8 OFF for no Combination circuit. 34 MS- 2/MS -4 PN 51512:B1 02/11/04 • DIP Switch Settings Program Options via DIP Switch Detector Alarm Verification (Reset/Retard + Confirmation) Detector Goes Into Alarm 0 sec. Detector Alarms on Different L Zone During First Detector's Verification Period 3.1.2 SW2 DIP Switch Settings 3.1.2.1 IDC1 Verification (MS-4 only) Switch 1 only on the MS -4, placed in the ON position, selects the Verification feature for IDC (Initiating Device Circuit) #1. When Verification is selected the followin events will occur when a smoke detector activates: 1. FACP removes power from all zones for 6 seconds, resetting all smoke detectors 2. Power is reapplied and a 12 second retard period begins, allowing detectors to stabilize RESET 3. During the 18 second reset/retard periods of steps 1 & 2, subsequent alarms by the same zone are ignored 4. Alarms detected on any other zone during the retard period will cause the FACP to immediately process the alarm 5. A 60 second confirmation period follows the reset/retard period. If an alarm occurs during the confirmation period, on the zone which initiated verification, the FACP will immediately process the alarm. If no alarm is detected during this confirmation period, the FACP returns to normal condition Important! Circuits selected for verification must have only smoke detectors installed 6 sec. 18 sec. RETARD Alarm Ignored CONFIRMATION -41111- Control Panel Processes Alarm if Same Detector is Still in Alarm Control Panel Immediately Processes Alarm The factory default setting is switch 1 OFF for no IDC1 Verification. 78 sec. 3.1.2.2 IDC1 Supervisory (MS-4 only) Switch 2 only on the MS -4, placed in the ON position, programs IDC #1 as a Supervisory circuit. A supervisory zone can be used for monitoring supervisory devices such as sprinlder tamper switches. A supervisory activation will pulse the piezo sounder at a " second rate and flash the zone supervisory LED at the same rate. The factory default setting is switch 2 OFF for no IDC1 Supervisory. 3.1.2.3 IDC1 Verification for MS - 2 or IDC2 Verification for MS Switch 3, placed in the ON position, selects the Verification feature for IDC #1 on the MS -2 or IDC #2 on the MS -4. The factory default setting is switch 3 OFF for no Verification. Refer to IDC1 Verification (MS -4 only) for a description of this feature. 3.1.2.4 IDC1 Supervisory for MS - 2 or IDC2 Supervisory for MS Switch 4, placed in the ON position, programs IDC #1 on the MS -2 or IDC #2 on the MS -4 as a Supervisory circuit. A supervisory zone can be used for monitoring supervisory devices such as sprinlder tamper switches. A supervisory activation will pulse the piezo sounder at a " second rate and flash the zone supervisory LED at the same rate. The factory default setting is switch 2 OFF for no Supervisory. MS- 2/MS -4 PN51512:B1 02/11/04 35 Program Options via DIP Switch DIP Switch Settings 3.1.2.5 IDC2 Verification for MS - 2 or IDC3 Verification for MS Switch 5, placed in the ON position, selects the Verification feature for IDC #2 on the MS -2 or IDC #3 on the MS-4. The factory default setting is switch 5 OFF for no Verification. Refer to "IDC 1 Verification (MS -4 only)" on page 35 for a description of this feature. 3.1.2.6 IDC2 Supervisory for MS - 2 or IDC3 Supervisory for MS Switch 6, placed in the ON position, programs IDC #2 on the MS -2 or IDC #3 on the MS -4 as a Supervisory circuit. A supervisory zone can be used for monitoring supervisory devices such as sprinkler tamper switches. A supervisory activation will pulse the piezo sounder at a " second rate and flash the zone supervisory LED at the same rate. The factory default setting is switch 6 OFF for no Supervisory. 3.1.2.7 IDC4 Verification (MS only) Switch 7 only on the MS -4, placed in the ON position, selects the Verification feature for IDC #4. The factory default setting is switch 7 OFF for no IDC4 Verification. Refer to "IDC1 Verification (MS -4 only)" on page 35 for a description of this feature. 3.1.2.8 IDC4 Supervisory (MS only) Switch 8 only on the MS -4, placed in the ON position, programs IDC #4 as a Supervisory circuit. A supervisory zone can be used for monitoring supervisory devices such as sprinkler tamper switches. A supervisory activation will pulse the piezo sounder at a " second rate and flash the zone supervisory LED at the same rate. The factory default setting is switch 8 OFF for no IDC4 Supervisory. 3.1.3 SW3 DIP Switch Settings 3.1.3.1 NAC1 Nonsilenceable Switch 1, placed in the ON position, programs NAC #1 as a nonsilenceable circuit. Selecting this feature will prevent the notification appliances on NAC #1 from being silenced by the Autosilence feature or by pressing the Alarm Silence button. The factory default setting is switch 1 OFF for silenceable circuit. 3.1.3.2 NAC1 Disable Switch 2, placed in the ON position, will disable NAC #1, preventing the notification appliances from activating. This feature may be used during maintenance or while testing the system to prevent building evacuation. The FACP will indicate an NAC disabled fault and system trouble while this feature is selected. The factory default setting is switch 2 OFF for NAC1 enabled. 3.1.3.3 NAC2 Nonsilenceable (MS only) Switch 3 only on the MS -4, placed in the ON position, programs NAC #2 as a nonsilenceable circuit. Selecting this feature will prevent the notification appliances on NAC #2 from being silenced by the Autosilence feature or by pressing the Alarm Silence button. The factory default setting is switch 3 OFF for silenceable circuit. 3.1.3.4 NAC2 Disable (MS only) Switch 4 only on the MS -4, placed in the ON position, will disable NAC #2, preventing the notification appliances from activating. This feature may be used during maintenance or while testing the system to prevent building evacuation. The FACP will indicate an NAC disabled fault and system trouble while this feature is selected. The factory default setting is switch 4 OFF for NAC2 enabled. 36 MS- 2/MS -4 PN 51512:B1 02/11/04 • DIP Switch Settings Program Options via DIP Switch 3.1.3.5 Strobe Synchronization Switches 5 and 6 are used to program the Synchronization feature. This feature controls the activation of notification appliances in such a way that all devices will turn on and off at exactly the same time, This is particularly critical when activating strobes which must be synchronized to avoid random activation and a potential hazard or confusion. The FACP can be programmed to operate with a variety of manufacturer's devices. The following table lists the required switch settings to accomplish synchronization: Synchronization Feature Switch 5 Switch 6 No Synchronization OFF OFF System Sensor Synchronization ON OFF Gentex Synchronization OFF ON Wheelock Synchronization ON ON The factory default setting is switches 5 and 6 OFF for No Synchronization. 3.1.3.6 Nonsilenceable Waterflow for Combination Circuit If SW1 switch 8 is set to the ON position to select a Combination Waterflow/ Supervisory Circuit (refer to "IDC Combination Circuit" on page 34) and SW3 switch 7 is set to the ON position to select the Nonsilenceable Waterflow for the Combination Circuit option, the following conditions will occur: • MS -2 - NACs become nonsilenceable upon acitvation of IDC #1 (Combination Circuit) • MS -4 - NACs become nonsilenceable upon activation of IDC #2 (Combination Circuit) Notes: 1.If initial alarm activations are from IDCs other than the Combination Circuit, the NACs will be either silenceable or nonsilenceable, depending on the setting of SW3 switches 1 and 3 (refer to "NAC1 Nonsilenceable" on page 36 and "NAC2 Nonsilenceable (MS-4 only)" on page 36). 2.If alarm activation is from the Combination Circuit programmed for nonsilenceable, all NACs will be nonsilenceable regardless of subsequent IDC activations. 3.1.3.7 Spares Switch 8 is a spare switch and has no function at this time. The switch should therefore be left in the factory default setting of OFF. MS- 2/MS -4 PN 51512:B1 02/11/04 37 Operating Instructions Switch Functions in Normal Mode SECTION 4 Operating Instructions The MS -2 and MS -4 have two modes of operation which are Normal and Walktest modes. Upon initial power -up, the system will be in Normal Mode. This section discusses operation of the control panel in the Normal Mode. 4.1 Switch Functions in Normal Mode 4.1.1 ACK - Acknowledge The Acknowledge button, which is located on the FACP membrane switch panel, silences the system piezo sounder and changes all flashing system LEDs to on steady. Pressing the Acknowledge button will have no effect on the Notification Appliance Circuits. To activate, press and hold the Acknowledge button for a minimum of one second. 4.1.2 Silence Pressing the Silence button, which is located on the FACP membrane switch panel, silences the system piezo sounder, turns off the silenceable Notification Appliance Circuits and turns on the Alarm Silence LED. The Silence button will be ignored for nonsilenceable waterflows and NACs. Upon the occurrence of a subsequent event (alarm or trouble), Silence is overridden and the control panel will respond to the new event. To activate, press the Silence button for a minimum of one second. Note: If Silence Inhibit has been enabled, NACs cannot be silenced for one minute following initiation of an alarm. 4.1.3 Zone Enable /Disable To disable a zone, press the corresponding Zone Enable/Disable button. The Zone Disable and system Trouble LEDs will blink, as well as the Trouble LED for the disabled zone. To enable the zone, press the Zone Enable/Disable button a second time. 4.1.4 Resetl(Lamp Test) The system Reset button, which is located on the FACP membrane switch panel, resets the system and any smoke detectors. Each press of the Reset button will cause the following: ✓ Clear all status LEDs ✓ Tum off the Notification Appliance Circuits ✓ Reset all zones by temporarily removing power ✓ Silence the onboard piezo sounder ✓ Restore all system relays to normal ✓ Temporarily remove power from the resettable power output Note: if Silence Inhibit is active, a panel reset cannot occur for one minute. Any alarm, supervisory or trouble condition that exists after a system reset will resound the system, reactivating appropriate system activity. Any zones that were disabled before the reset will be disabled after the reset. Lamp Test - When the Reset button is pressed and then released, the FACP will perform a Lamp Test. All panel LEDs will be turned on and the piezo will sound for approximately two seconds. 38 MS- 2/MS -4 PN 51512:B1 02/11/04 • Walktest Operating Instructions 4.2 Walktest 4.1.5 Walktest The Walktest button, which is located on the FACP membrane switch panel, allows a panel walktest to be performed. Pressing and holding the Walktest button for a minimum of two seconds causes the FACP to enter audible walktest. Pressing the Walktest button and then the Silence button and holding both for a minimum of two seconds will cause the panel to enter silent walktest. Walktest can be exited by pressing and holding the Walktest button for a minimum of three seconds or by pressing the Reset button. Refer to "Walktest" for a complete description of this feature. Walktest allows the testing of all control panel IDCs (input zones). An audible or silent walktest may be performed. It is important to note that while the FACP is in Walktest mode, the control panel is in an off - normal condition and does not provide fire protection. It should also be noted that the trouble relay will be activated while the control panel is in Walktest mode. Placing the control panel into Walktest mode will only be possible if the system has no active alarms. Prior to initiating a walktest, check to make certain that all system faults have been cleared. Upon entering Walktest mode, the following conditions should occur: • Trouble relay will activate • Alarm relay will be disabled • Supervision relay will be disabled (MS-4 only) • Piezo sounder will be disabled • I smoke detectors will enter their own test mode causing their LEDs to flash twice every five seconds (refer to the I specification document) • All alarm conditions will be displayed as they occur by blinking zone alarm LED • All zone troubles will be displayed as they occur by blinking zone trouble LED During walktest, the FACP zone LEDs will blink for the first activation on a zone. Subsequent activations on the same zone will cause the corresponding zone LED to blink the number of alarms on the zone since the start of the test, followed by a two second pause and then a repeat of the sequence. Note that following a zone activation, a 6 second reset for conventional and 60 second reset for P detectors is initiated. No new alarms or troubles will be detected during this reset period Disabled zones will not respond during Walktest. A zone may be disabled while in Walktest mode, should a faulty device be detected. This allows the user to return the system to Normal mode, enabling all other zones while preventing the faulty zone from triggering a false alarm. Audible Walktest To perform an audible Walktest, press and hold the Walktest button for a minimum of two seconds. The Trouble and Walktest LEDs will blink at a'' 'A second rate. While testing input devices, the first initiating device activated on a zone will cause the NACs to sound for four seconds. Subsequent device activations on the same zone will cause the NACs to turn on for one second. Any smoke detectors that are activated will automatically be reset by the panel. Zone faults (open circuits) will cause the NACs to remain on steadily until the fault is cleared. During an audible walktest, if a device remains latched in alarm (such as a Pull Station that is not reset after activation), subsequent testing of devices on the same zone will not trigger the NACs. Be certain to reset or clear each device after testing. MS- 2/MS -4 PN 51512:B1 02/11/04 39 Operating Instructions Status LEDs 4.3 Status LEDs Silent Walktest To perform a silent Walktest, press the Walktest button, then press the Alarm Silence button and hold both for a minimum of two seconds. The Trouble, Walktest and Alarm Silence LEDs will blink at a 'A second rate. A silent walktest will not activate the control panel Notification Appliance Circuits. All alarm and trouble conditions must be observed using the LEDs at the control panel as described in the previous sections. Exiting Walktest Mode Walktest mode can be exited by pressing and holding the Walktest button for a minimum of three seconds or by pressing the Reset button. The time - out feature will cause the control panel to automatically exit Walktest mode if no button presses have occurred for one hour. AC Power LED A green LED that remains on while the AC power supply is within correct limits. If this indicator fails to light under normal conditions, service the system immediately. NAC Disable LED A yellow LED that blinks to indicate that a Notification Appliance Circuit has been disabled using the main circuit board DIP switches. The LED will turn on steady when the Acknowledge or Alarm Silence button is pressed. Zone Disable LED A yellow LED that blinks to indicate that one or more alarm zones have been disabled using the Zone Enable/Disable buttons. The disabled zone's trouble LED will also be on. The Acknowledge or Alarm Silence button does not affect the Zone Disable LED. NAC Fault LED A yellow LED that blinks to indicate that an NAC trouble condition exists in the system. The LED turns on steady when the Acknowledge or Alarm Silence button is pressed. System Trouble LED A yellow LED that blinks to indicate that a system fault or abnormal condition exists and that the fire alarm system may be inoperative. It turns on steady when the Acknowledge or Alarm Silence button is pressed. Power Trouble LED A yellow LED that blinks to indicate an AC power, battery or charger trouble condition. It turns on steady when the Acknowledge or Alarm Silence button is pressed. Walktest LED A yellow LED that blinks to indicate that the control panel is in Walktest mode. The Acknowledge and Alarm Silence buttons do not affect the Walktest LED. Alarm Silence LED A yellow LED that turns on to indicate that an Alarm condition exists in the system but the Notification Appliance Circuits and the local piezo sounder have been silenced. Zone Fire Alarm LED A red LED for each zone that blinks to indicate that an alarm exists on the corresponding zone. It turns on steady when the Acknowledge or Alarm Silence button is pressed. 40 MS- 2/MS -4 PN51512:B1 02/11/04 • Operation Operating Instructions 4.4 Operation Zone Supervisory LED A yellow LED for each zone that blinks if the zone has been programmed for supervisory and a supervisory condition exists on the corresponding zone. It turns on steady when the Acknowledge or Alarm Silence button is pressed. Note that an P smoke detector freeze condition is displayed as a supervisory condition. The zone does not have to be programmed as a supervisory for this to occur. Zone Trouble LED A yellow LED for each zone that blinks to indicate that a trouble exists on the corresponding zone. It turns on steady when the Acknowledge or Alarm Silence button is pressed. Zone Maintenance LED A yellow LED for each zone that blinks to indicate that a I smoke detector on the corresponding zone is dirty or in need of maintenance. It turns on steady when the Acknowledge or Alarm Silence button is pressed. Earth Fault LED (on main circuit board) A yellow LED that blinks to indicate a ground fault condition on the system. A ground fault occurs when a low resistance between the FACP and earth ground exists. The LED turns on steady when the Acknowledge or Alarm Silence button is pressed. Battery Fault LED (on main circuit board) A yellow LED that blinks to indicate a low battery or no battery condition on the FACP. It turns on steady when the Acknowledge or Alarm Silence button is pressed. Charger Fault LED (on main circuit board) A yellow LED that blinks to indicate a battery charger fault. It turns on steady when the Acknowledge or Alarm Silence button is pressed. Normal mode is the standard mode of operation. In this mode, the panel continuously monitors system status. When no alarm or trouble conditions exist, the control panel will be in the following state: • all LEDs will be off (except the AC Power LED) • the Notification Appliance Circuits will be off • all relays are in their normal state • the onboard piezo sounder will be off • 13 smoke detectors will be polled for maintenance and freeze conditions on initial entry into Normal mode. Thereafter, each device will be polled every hour for freeze and every four hours for maintenance conditions All alarm and system trouble conditions are annunciated on the control panel's LEDs. Note: To ensure that the system is functioning properly, the FACP will perform a freeze check five minutes after the panel is reset, followed by a maintenance check. If there is no freeze or maintenance condition, the panel will continue to monitor for freeze conditions every hour and maintenance conditions every four hours. MS- 2/MS -4 PN 51512:B1 02/11/04 41 Operating Instructions Operation 4.4.1 Fire Alarm Response The control panel will, upon detection of an alarm condition, cause the following: • Latch the alarm condition - requires panel reset to clear alarm condition • Blink the Zone Alarm LED one second On and one second Off • Turn on remote annunciator alarm LED and piezo sounder • Turn the Notification Appliance Circuit(s) on • Turn the FACP piezo sounder on steady • Turn on the alarm relay • Start the Silence Inhibit, Auto - silence and Trouble Reminder functions if enabled 4.4.2 Fire Alarm Restoral The control panel returns to normal after all alarms have been cleared and a system reset button has been pressed (pull stations have been reset, smoke detectors have reset and no smoke is present, waterflow has stopped). The control panel will perform the following upon restoral of all active alarms: • Turn off the FACP Zone Alarm LED • Tum off remote annunciator alarm LED and piezo sounder • Turn off the Notification Appliance Circuit(s) • Turn off the FACP piezo sounder • Turn off the alarm relay • 13 smoke detectors will be polled for maintenance and freeze conditions on initial entry into Normal mode. Thereafter, each device will be polled every hour for freeze and every four hours for maintenance conditions 4.4.3 System Supervisory Condition Response Zones can be programmed for supervisory in applications where a waterflow sensing device has been employed and a sprinkler tamper switch is to be monitored. An I detector in a `freeze' condition (detected abnormally low ambient temperature) will also generate a supervisory condition on its alarm zone (refer to the I specification sheet for temperature threshold). Any supervisory condition will cause the control panel to perform the following functions: • Blink the FACP Zone Supervisory LED 1/2 second On and %z second Off • Pulse the piezo sounder %z second On and %z second Off • Turn on the supervisory relay (MS-4 only) 4.4.4 System Supervisory Restoral Response When the supervisory condition has been cleared, the control panel will perform the following: • Turn off the FACP Zone Supervisory LED • Turn off the piezo sounder • Turn off the supervisory relay (MS -4 only) 42 MS- 2/MS -4 PN 51512:B1 02/11/04 Operation Operating Instructions 4.4.5 Trouble Condition Response The control panel, upon detection of one or more trouble conditions, well perform the following: • Blink the FACP System Trouble LED one second On and one second Off • Blink the FACP Zone Trouble LED one second On and one second Off • Turn on remote annunciator Trouble LED and pulse the piezo sounder • Pulse the FACP piezo sounder one second On and one second Off • Transfer fail -safe Trouble relay • Additional LEDs will turn on or blink according to the specific trouble ✓ NAC Disable LED if NAC has been disabled ✓ Zone Disable LED if a zone has been disabled ✓ NAC Fault LED if a fault is detected on an NAC if Power Trouble LED if an AC, battery or charger fault is detected ✓ AC Power LED will turn off if AC fail or brownout occurs ✓ Alarm Silence LED if Silence button is pressed after an alarm or trouble ✓ Walktest LED if Walktest mode is entered ✓ Zone Maintenance LED if a I smoke detector needs servicing ✓ Earth Fault LED if a ground fault occurs ✓ Battery Fault LED if low or no battery condition occurs ✓ Charger Fault LED if a charger trouble occurs 4.4.6 Trouble Condition Restore! The control panel performs the following upon restoral of all trouble conditions: • Turn off the FACP System Trouble LED • Turn off the FACP Zone Trouble LED • Turn off the remote annunciator Trouble LED and piezo sounder • Turn off the piezo sounder • Transfer the fail -safe Trouble relay • Turn off additional LEDs corresponding to specific troubles MS- 2/MS -4 PN 51512:B1 02/11/04 43 Device Type Number of Current Draw Devices (AC amps) Total Current per Device MS -2 or MS-4 1 X 2.3 = 2.3 [ ] X = [ ] X [ ] = Sum Column for AC Branch Current Required = Power Supply Calculations Overview SECTION 5 Power Supply Calculations 44 5.1 Overview This section contains instructions and tables for calculating power supply currents in alarm and standby conditions. This is a four -step process, consisting of the following: 1. Calculating the total amount of AC branch circuit current required to operate the system 2. Calculating the power supply load current for non -fire and fire alarm conditions and calculating the secondary (battery) load 3. Calculating the size of batteries required to support the system if an AC power loss occurs 4. Selecting the proper batteries for your system 5.2 Calculating the AC Branch Circuit The control panel requires connection to a separate, dedicated AC branch circuit, which must be labeled FIRE ALARM. This branch circuit must connect to the line side of the main power feed of the protected premises. No other non -fire alarm equipment may be powered from the fire alarm branch circuit. The branch circuit wire must run contin- uously, without any disconnect devices, from the power source to the control panel. Overcurrent protection for this circuit must comply with Article 760 of the National Electrical Codes as well as local codes. Use 14 AWG (2.00 mm wire with 600 volt insulation for this branch circuit. Use Table 5 -1 , to determine the total amount of current, in AC amperes (A), that must be supplied to the system. TABLE 5 -1:120 VAC Branch Circuit Requirements MS- 2/MS -4 PN 51512:B1 02/11/04 Calculating the System Current Draw Power Supply Calculations 5.3 Calculating the System Current Draw 53.1 Overview The control panel must be able to power all internal and external devices continuously during the non -fire alarm condition. To calculate the non -fire alarm load on the system power supply when primary power is applied, use Calculation Column 1 in Table 5 -3 on page 46. The control panel must support a larger load current during a fire alarm condition. To calculate the fire alarm load on the power supply, use Calculation Col- umn 2 in Table 5 -3 on page 46. The secondary power source (batteries) must be able to power the system during a primary power loss. To calculate the non -fire alarm load on the secondary power source, use Calculation Column 3 in Table 5 -3 on page 46. When calculating current draw and the battery size, note the following: • `Primary' refers to the main power source for the control panel • `Secondary' refers to the control panel's backup batteries • All currents are given in amperes (A). Table 5 -2 shows how to convert milliam- peres and microamperes to full amperes. TABLE 5- 2:Converting to Full Amperes To convert... Multiply Example Milliamperes (mA) to amperes (A) mA x 0.001 3 mA x 0.001 = 0.003A Microamperes (RA) to amperes (A) µA x 0.000001 300 ILA x 0.000001 = 0.0003 A 5.3.2 How to Use Table 5-3 on page 46 to Calculate System Current Draw Use Table 5 -3 on page 46 to calculate current draws as follows: 1. Enter the quantity of devices in all three columns 2. Enter the current draw where required. Refer to the Fire -Lite Device Compati- bility Document for compatible devices and their current draw 3. Calculate the current draws for each in all columns 4. Sum the total current for each column 5. Copy the totals from Column 2 and Column 3 to Table 5-4 on page 47 Following are the types of current that can be entered into Table 5 -3 on page 46: ✓ Calculation Column 1 - The primary supply current load that the control panel must support during a non -fire alarm condition, with AC power applied. ✓ Calculation Column 2 - The primary supply current load that the control panel must support during a fire alarm condition, with AC power applied. ✓ Calculation Column 3 - The standby current drawn from the batteries in a non -fire alarm condition during a loss of AC power. MS- 2/MS -4 PN51512:B1 02/11/04 45 Device Type Calculation Column 1 Primary, Non -Fire Alarm Current (amps) Calculation Column 2 Primary, Fire Alarm Current (amps) Calculation Column 3 Secondary, Non -Fire Alarm Current (amps) Qty X[current drawl= Total Qty X [current draw] = Total Qty Xlcurrent draw]= Total Main Circuit Board MS -2 or MS-4 1 X[0.0801= X[0.0851= 0. 1 X[0.11211= X[0.175]'= 0. 1 X[0.080]= X[0.085]= 0. CAC-4 [ 1 X[0.0011= [ ] X[0.001]= X[0.001]= 4XTMF [ 1 X[0.0051= [ ] X[0.011] X[0.005]= 4XZMF [ ] X[0.004]= [ ] X[0.008]= X[0.004]= 4XLMF/RZA -4XF pair 1 P max X[0.0041= [ ] X[0.019]= X[0.0041= 2 -wire Detector Heads [ ] X[ 1 [ ] X[ ]= X[ 1= 4-wire Detector Heads [ 1 X[ ] [ ] X[ 1= X[ 1= Power Supervision Relays4 [ 1 X[0.0251= [ 1 X[0.025]= X[0.0251= [ 1° NAC #1 [ 1= [ 1 X[ p NAC #2 Current Draw from TB1 (nonalarm6) [ ] X[ 1= [ 1° Sum each column for totals Primary Non -Alarm = Primary Alarm = Secondary Alarm = Power Supply Calculations TABLE 5- 3:System Current Draw Calculations Calculating the System Current Draw Table 5 -3 contains three columns for calculating current draws. For each column, calculate the current and enter the total (in amperes) in the bottom row. When finished, copy the totals from Calculation Column 2 and Calculation Column 3 to Table 5 -4 on page 47. Table Footnote 1. If using the Reverse Polarity Alarm output, add 0.005 amps; if using the Reverse Polarity Trouble output, add another 0.005 amps. 2. Refer to the Device Compatibility Document for standby current. 3. Refer to the Device Compatibility Document for standby current. 4. Must use compatible listed Power Supervision Relay. 5. Current limitation of Terminal TB2 circuits is 2.50 amps per NAC (MS-4 requires optional transformer for max. current) 6. The total standby current must include both the resettable (TB1 Terminals 3 & 4) and nonresettable for MS-4 only (TB1 Termi- nals 1 & 2) power. Caution must be taken to ensure that current drawn from these outputs during alarm does not exceed maxi- mum ratings specified. Current limitations of TB1, Terminals 1 & 2 = 0.500 amps, filtered, 24 VDC +/-5%, 120 Hz ripple @ 10 mV nonresettable power and TB1, Terminals 3 & 4 = 0.500 amps, filtered, 24 VDC +/ -5 %, 120 Hz ripple @ 10mV resettable power. 7. Total current draw listed above cannot exceed 3.0 amps with only standard transformer installed or, for the MS-4, 6 0 amps with both the standard and optional transformers installed. 46 MS- 2/MS -4 PN 51512:B1 02/11/04 Secondary Standby Load (total from Table 5 -3 Calculation Column 3) [ ] Required Standby Time (24 or 60 hours) X[ ] = AH Primary Alarm Load (total from Table 5 -3 Calculation Column 2) [ ] Required Alarm Time (for 5 min., enter 0.084, for 10 min., enter 0.168) X[ ] = AH Sum of Standby and Alarm Ampere Hours = AH Multiply by the Derating Factor X 1.2 Battery Size, Total Ampere Hours Required = All Calculating the Battery Size Power Supply Calculations 5.4 Calculating the Battery Size Use Table 5-4 to calculate the total Standby and Alarm load in ampere hours (AH). This total load determines the battery size (in AH), required to support the control panel under the loss of AC power. Complete Table 5-4 as follows: 1. Enter the totals from Table 5 -3 on page 46, Calculation Columns 2 and 3 where shown 2. Enter the NFPA Standby and Alarm times (refer to `NFPA Requirements' below) 3. Calculate the ampere hours for Standby and Alarm, then sum the Standby and Alarm ampere hours 4. Multiply the sum by the derating factor of 1.2 to calculate the proper battery size (in AH) 5. Write the ampere hour requirements on the Protected Premises label located inside the cabinet door TABLE 5 4:Total Secondary Power Requirements at 24 VDC 5.4.1 NFPA Battery Requirements • NFPA 72 Local, Central and Proprietary Fire Alarm Systems require 24 hours of standby power followed by 5 minutes in alarm • NFPA 72 Auxiliary and Remote Station require 60 hours of standby followed by 5 minutes in alarm. Batteries installed in a system powered by a generator need to provide at least 4 hours of standby power 5.4.2 Selecting and Locating Batteries Select batteries that meet or exceed the total ampere hours calculated in Table 5 -4 . The control panel can charge batteries in the 7 AH to 18 AH range. The control panel cabi- net is capable of housing batteries up to 7 AH. Batteries larger than 7 AH require the BB -17F or other UL listed external battery cabinet. MS- 2/MS -4 PN 51512:B1 02/11/04 47 r Numerics 411 16 411UD 16 4XLMF installation 27, 30 see also LED Interface Module 15 see also LED interface module 30 specifications 30 wiring to RZA -4XF 30 4XTMF installation 27, 28 operation 28 see also Transmitter Module 15 see also transmitter module 28 specifications 28 4XZMF installation 27, 29 see also Zone Relay Module 15 see also zone relay module 29 specifications 29 A AC power 19 AC Power LED 40 AC power rating 12 AC power requirements 44 AC trouble delay 34 accessories 15 ACK see also Acknowledge 10 Acknowledge 10, 13 Acknowledge button 38 alarm piezo pulse rate 14 alarm relay 8, 9,10,14, 23 contact rating 12 Alarm Silence 10, 13 Alarm Silence LED 40 alarm verification 35, 36 timing graph 35 annunciator, remote see also RZA -4XF 30 applications 10 audible Walktest 39 autoresettable supervisory 34 auto - silence 34 auxiliary power 23 B backbox dimensions 14, 17 mounting 17 battery 14, 19 precautions 19 rating 12 battery box 16 mounting 18 battery calculations 47 battery connector 8, 9 MS- 2/MS -4 PN 51512:B1 02/11/04 Index Battery Fault LED 41 BB -17F 18 see also battery box 16 buttons 13 see also control buttons 10 C cabinet dimensions 17, 18 mounting 17 see also backbox 14 CAC -4 20 installation 25 see also Class A Converter Module 9, 15 charger 14 charger capacity 12 Charger Fault LED 41 circuits 10 Class A 15, 20, 26 Class A Converter Module 9, 15 installation 25 Class B 10,12,14, 20 coding NACs 34 combination circuit 10, 21 see also waterflow /tamper 34 combination waterflow /supervisory 10, 20, 21 requirements 21 wiring 21 compatibility see also device compatibility 10 control buttons 10 controls 13 current maximum system 12 nonresettable power 23 resettable power 23 see also system current 10 total output 22 current requirements for system 45, 46 D description 10 device compatibility 10 Digital Alarm Communicator/Transmitter see also 411 & 411UD 16 dimensions backbox 14, 17 DIP switch options see also programming 31 DIP switch settings 32 see also programming 31 disable see also zone enable /disable 10 disable NAC 36 dress panel 10, 15 E Earth Fault LED 41 earth ground 19 49 enable see also zone enable /disable 10 End -of -Line resistor IDC 12, 20, 21 NAC 12, 22 F fail -safe trouble relay 23 fail -safe relay see also trouble relay 14 features 10 fire alarm response 42 fire alarm restoral 42 Form -C 15, 29 see also relay 10, 14 freeze 20 freeze signal see also smoke detector monitoring 10 G Gentex synchronization 37 Ground Fault disable 8, 9 I 13 detectors 14, 20 IDC 9, 10, 12, 14, 20 alarm current 12 compatibility 20 End -of Line resistor 21 End -of -Line resistor 12, 20 maximum loop resistance 12, 20 see also Initiating Device Circuit 8 short circuit current 12 standby current 12 wiring 20 indicators 13 see also LED 11 Initiating Device Circuit 8, 9, 10, 12, 14, 20 Class A 26 In -Line resistor IDC combination circuit 21 installation 17 4XLMF 27 4XTMF 27, 28 4XZMF 27 CAC -4 25 Class A Converter Module 25 option modules 25, 27 J J3 and J5 option module connectors 27 J4 and J6 option module connectors 27 JP1 jumper placement supervision 27 JP2 placement supervision 27 50 Index L Lamp Test 38 LED 11, 13 AC Power 11, 13, 40 Alarm Silence 11, 13 alarm silence 40 Battery Fault 11, 13 battery fault 41 Charger 11, 13 charger fault 41 Earth Fault 11, 13 earth fault 41 Fire Alarm 11, 13 main circuit board 8, 9 Maintenance 11, 13 NAC Disable 11,13 NAC disable 40 NAC Fault 11, 13 NAC fault 40 Power Trouble 11, 13 power trouble 40 Supervisory 11, 13 System Trouble 11, 13 system trouble 40 Trouble 11, 13 Walktest 11, 13 walktest 40 Zone Disable 11, 13 zone disable 40 zone fire alarm 40 zone maintenance 41 zone supervisory 41 zone trouble 41 LED Interface Module 15 installation 27 see also 4XLMF 30 M main circuit board see also MS -2 8 see also MS -4 9 maintenance 20 piezo pulse rate 14 maintenance signal see also smoke detector monitoring 10 modes of operation see also normal and walktest 38 mounting cabinet 17 MS -2 Main Circuit Board 8 MS -4 Main Circuit Board 9 municipal box 28 municipal box transmitter see also 4XTMF 15 N NAC 9, 10, 12, 14, 22 coding 34 current 22 MS- 2/MS -4 PN 51512:B1 02/11/04 • disable 36 End -of -Line resistor 12, 22 maximum current 12 nonsilenceable 36 see also Notification Appliance Circuit 8 wiring 22 NAC Disable LED 40 NAC Fault LED 40 nonpower - limited wiring 24 nonresettable power 9, 10, 12, 14, 23 current 23 maximum current 12 nonsilenceable NAC 36 normal mode 38 Notification Appliance Circuit 8, 9, 10, 12, 14, 22 Class A 26 0 operating instructions 38 operation 41 option modules 15 connector 9 connectors 27 installation 25, 27 placement supervision 27 P piezo 14 alarm 14 maintenance 14 see also sounder 11 supervisory 14 trouble 14 polarity reversal circuit see also 4XTMF 28 power 12, 19, 23 maximum system 12 primary 19 secondary see also battery 19 see also resettable and nonresettable power 9 power supply calculations 44 Power Trouble LED 40 power - limited wiring 24 programming 31, 32 chart 32 DIP switches 31 feature chart 32 supervisory 35 programming DIP switches 31 R relay 8, 9, 10, 14, 15, 23, 29 contact rating 12, 23 Remote Annunciator see also RZA -4XF 15 remote station service 28 Reset 10 Reset button 38 resettable power 8, 9, 10, 12, 14, 23 MS- 2/MS -4 PN 51512:B1 02/11/04 Index current 23 maximum current 12 reverse polarity circuit see also 4XTMF 15 RZA -4XF see also Remote Annunciator 15 see also remote annunciator 30 wiring to RXLMF 30 S selective silence 34 silence selective 34 Silence button 38 silence inhibit 34 silent walktest 40 sounder 11, 14 status LEDs 40 strobe synchronization see also synchronization 37 Style B 12, 14, 20 see also Class B 10 Style D 15, 20, 26 Style Y 12, 14 see also Class B 10 Style Z 15, 26 supervision option module placement 27 supervisory piezo pulse rate 14 see also programming supervisory 35, 36 supervisory relay 9, 10, 14, 23 contact rating 12 supervisory response 42 supervisory restoral 42 switch functions 38 synchronization Gentex 37 see also strobe synchronization 37 System Sensor 37 Wheelock 37 system current 10 system current calculations 45 System Sensor synchronization 37 System Trouble LED 40 T temporal coding 34 transformer assembly 14 rating 14 Transmitter Module 15 transmitter module see also 4XTMF 28 trouble piezo pulse rate 14 trouble relay 8, 9, 10, 14, 23 contact rating 12 fail -safe 23 trouble reminder 34 51 trouble response 43 trouble restoral 43 U UL wiring requirements 24 V verification alarm timing graph 35 see also alarm verification 35 w Walktest 10, 13 Walktest LED 40 Walktest Mode 38 Walktest mode 39 audible 39 exiting 40 silent 40 waterflow /tamper circuit 34 Wheelock synchronization 37 wiring CAC -4 26 Class A Converter Module 26 Class A IDC 26 Class A NAC 26 combination waterflow /supervisory 21 IDC 20 NAC 22 nonpower- limited 24 power - limited 24 UL requirements 24 Z Zone 1 20 Zone Disable LED 40 Zone Enable/Disable 10, 13 Zone Fire Alarm LED 40 Zone Maintenance LED 41 zone relay module 15 see also 4XZMF 29 Zone Supervisory LED 41 Zone Trouble LED 41 Index 52 MS- 2/MS -4 PN51512:B1 02/11/04 • • Limited Warranty The manufacturer warrants its products to be free from defects in materials and workmanship for eighteen (18) months from the date of manufacture, under normal use and service. Products are date- stamped at time ofmanufacture. The sole and exclusive obligation ofthe manufacturer is to repair or replace, at its option, free of charge for parts and labor, any part which is defective in materials or workmanship under normal use and service. For products not under the manufacturer's date -stamp control, the warranty is eighteen (18) months from date of original purchase by the manufacturer's distributor unless the installation instructions or catalog sets forth a shorter period, in which case the shorter period shall apply. This warranty is void if the product is altered, repaired, or serviced by anyone other than the manufacturer or its authorized distributors, or if there is a failure to maintain the products and systems in which they operate in a proper and workable manner. In case of defect, secure a Return Material Authorization form from our customer service department. Return product, transportation prepaid, to the manufacturer. This writing constitutes the only warranty made by this manufacturer with respect to its products. The manufacturer does not represent that its products will prevent any loss by fire or otherwise, or that its products will in all cases provide the protection for which they are installed or intended. Buyer acknowledges that the manufacturer is not an insurer and assumes no risk for loss or damages or the cost of any inconvenience, transportation, damage, misuse, abuse, accident, or similar incident. THE MANUFACTURER GIVES NO WARRANTY, EXPRESSED OR IMPLIED, OF MERCHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE, OR OTHERWISE WHICH EXTEND BEYOND THE DESCRIPTION ON THE FACE HEREOF. UNDER NO CIRCUMSTANCES SHALL THE MANUFACTURER BE LIABLE FOR ANY LOSS OF OR DAMAGE TO PROPERTY, DIRECT, INCIDENTAL, OR CONSEQUENTIAL, ARISING OUT OF THE USE OF, OR INABILITY TO USE THE MANUFACTURER'S PRODUCTS. FURTHERMORE, THE MANUFACTURER SHALL NOT BE LIABLE FOR ANY PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THE COURSE OF, OR AS A RESULT OF, PERSONAL, COMMERCIAL, OR INDUSTRIAL USE OF ITS PRODUCTS. This warranty replaces all previous warranties and is the only warranty made by the manufacturer. No increase or alteration, written or verbal, of the obligation of this warranty is authorized. LlmWartg.p05 01/102000 FI re•uTe ®ALarms World Headquarters One Fire -Lite Place, Northford, CT 06472 -1653 USA 203 -484 -7161 • Fax 203 -484 -7118 www.firelite.com ISO 9001 EIRENNUINIMUNION QSIIIITY SYSTEMS • • • • • • Fire• rre ®ALarms PN 15384:AF ECN 03 -367 Device Compatibility Document Document 15384 AF 06/10/03 Rev: Table of Contents Control Panel Circuit Specifications 3 Accessories Circuit Specifications 4 Compatible Two -Wire Smoke Detectors (UL Listed) 5 Various Manufacturers 5 Maximum Number of Detectors per Zone 7 System Sensor 7 Fenwal 10 Fire•Lite Detectors 11 Edwards Detectors 11 Simplex Detectors 11 Detection Systems Detectors 11 Four -Wire Smoke Detectors /Devices (UL Listed) 12 Notification Appliances (UL Listed) 13 • System Sensor - 12VDC 13 • System Sensor - 24VDC 13 • Gentex - 12VDC 14 • Gentex - 24VDC 14 • Wheelock - 12VDC 15 • Wheelock - 24VDC 15 • Wheelock Speakers 17 Automatic Water Control Valves (FM- Approved) 18 Door Holders (UL Listed) 19 Relays (UL Listed) 19 SLC Loop Surge Surpressors (UL Compatible) 19 2 Device Compatibility Document PN 15384:AF 6/10/03 • • • Control Panel Circuit Specifications MP -12 Initiating Device Circuit Voltage: 8.6 - 12.2VDC Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MP - 24 and MP242FC Initiating Device Circuit Voltage: 18 - 26.2VDC Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Waved Rectified MS - 124 Initiating Device Circuit Voltage: 18 - 26.4VDC Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS - 2, MS Initiating Device Circuit Voltage: 17.3 - 24.6 Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS - 424A Initiating Device Circuit Voltage: 18 - 25.2VDC Max Detector Circuit Standby Current: 2.5mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS - 2410B Initiating Device Circuit Voltage: 18.62 - 25.43 VDC Max Detector Circuit Standby Current: 2.0 mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS - 4012 Initiating Device Circuit Voltage: 8.62 - 12.7VDC Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS - 4024 Initiating Device Circuit Voltage: 18 - 26.3VDC Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS - 4424, MRP - 4424 and MS - 4424B Initiating Device Circuit Voltage: 17.5 - 26.5VDC Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS - 4412B Initiating Device Circuit voltage: 8.8V - 13.62VDC Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified Device Comparability Document PN 15384:AF 6/10/03 Control Panel Circuit Specifications MS -5012 Initiating Device Circuit Voltage: 8.6 - 13.5VDC Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS - 5024 and MS- 5024UD Initiating Device Circuit Voltage: 17.1 -25.0 VDC Max Detector Circuit Standby Current: 2.0 mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS 5210UD Initiating Device Circuit Voltage: 17.9 -26.4 VDC Max Detector Circuit Standby Current: 2.0 mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS 9200 /AMS - 9200 (M302, MMF - 302) Initiating loop voltage: 16 -27.5 VDC Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS 9200UD/MS 9200UDE (M302, MMF - 302) Initiating loop voltage: 19.05 -25.18 VDC Compatibility Identifier: "A" NAC Power: Full Wave Rectified MS 9600/MS - 9600E (M302, MMF - 302) Initiating loop voltage: 16 -27.5 VDC Compatibility Identifier: "A" NAC Power: Filtered S200 (IZ-4F / IZ -4AF / IZ -8F) Canada Only Initiating Device Circuit Voltage: 17 - 26.5VDC Max Detector Circuit Standby Current: 2.5mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified 51000 Initiating Device Circuit Voltage: 18 - 25.7VDC Max Detector Circuit Standby Current: 2.5mA/circuit NAC Power: Full Wave Rectified S2000 (IZ -4F / IZ-4AF / IZ -8F) Initiating Device Circuit Voltage: 17 - 26.5VDC Max Detector Circuit Standby Current: 2.5mA/circuit Compatibility Identifier: "A" NAC Power: MPS -24A Filtered 3 Accessories Circuit Specifications Accessories Circuit Specifications 411 -UDAC Universal Digital Alarm Communicator Initiating Device Circuit Voltage: 8.6 - 13.5VDC Max Detector Circuit Standby Current: 2.0mA/circuit Compatibility Identifier: "A" NAC Power: Full Wave Rectified APS -6RF Auxiliary Power Supply Use with the S -2000 control panels NAC Power: Filtered AVPS -24F Audio Visual Power Supply Use with the S -2000 control panels NAC Power: Full Wave Rectified 4 FCPS -24F Field Charger Power Supply Input voltage: 9 to 32VDC Notification Circuit output: 19.1 to 26.4VDC NAC Power: Filtered FCPS -2404 Field Charger Power Supply Input Voltage 9 to 32 VDC NAC Power: Filtered FCPS- 24FS6, FCPS -24FS8 Field Charger Power Supply Input Voltage 9 to 32 VDC NAC Power: Filtered Device Compatibility Document PN 15384:AF 6/10/03 Model Detector ID Detector Type Base Model Base ID Standby Current (uA) Detection Systems DS200 A Photoelectric MB200 -2W A 200 Detection Systems DS200HD A Photo / Thermal MB200 -2W A 200 Edwards 6250B 001 Ionization 6251B -001 001 50 Edwards 6264B 001 Ionization N/A N/A 50 Edwards 6270B 001 Photoelectric 6251B-00 001 65 Fenwal CPD -7021 I1FE1 Duct 70- 211002 -000 D22FE1 60 Fenwal CPD -7021 I1FE1 Ionization 70- 201000 -001 70- 201000 -002 70- 201000 -003 70- 201000 -005 FEOIA FEO2A FEOIA FEOSA 60 Fenwal PSD -7125 P5FE1 Photoelectric 70- 201000 -001 70- 201000 -002 70- 201000 -003 70- 201000 -005 FEOIA FEO2A FEO3A FEOIA 100 Fenwal PSD -7126 P6FE1 Photo / Thermal 70- 201000 -001 70- 201000 -002 70- 201000 -003 70- 201000 -005 FEOIA FEOIA FEO3A FEOSA 100 Fenwal PSD -7129 P9FE1 Duct 70- 211002 -000 D22FE1 100 Fire -Lite LPSD -12 HD-4 Photo BLP -12 HB -80 200 Fire -Lite LPSD -12 HD-4 Photo BLP -12 -R HB -83 200 Simplex 2098 -9201 HD -3 Photoelectric 2098 -9211 HB -54 45 Simplex 2098 -9202 HD -3 Photoelectric 2098 -9211 BB-54 45 Simplex 2098 -9576 HD -3 Ionization 2098 -9211 HB -54 40 System Sensor 2W -B A Photoelectric I3 N/A N/A 120 System Sensor 2WT-B A Photoelectric I 3 N/A N/A 120 System Sensor 1100/D A Ionization N/A N/A 100 System Sensor 1151 A Ion B401 / B 110LP / B116LP A 120 System Sensor 1400 A Ion N/A N/A 100 System Sensor 1451 A Ion B401B / B406B A 120 System Sensor 1451DH A Ion DH-400 A 120 System Sensor 1800 A Ion N/A N/A 120 System Sensor 1851B A Ion B101B / B107B A 120 System Sensor 1851DH A Ion DH1851DC A 120 System Sensor 2151 A Photo B401 / B110LP / B116LP A 120 Various Manufacturers Compatible Two -Wire Smoke Detectors (UL Listed) Various Manufacturers Device Compatibility Document PN 15384:AF 6/10/03 Compatible Two -Wire Smoke Detectors (UL Listed) 5 Model Detector ID Detector Type Base Model Base ID Standby Current (uA) System Sensor 2300T A Photo / Therm. N/A N/A 120 System Sensor 2400 A Photo N/A N/A 120 System Sensor 2400AIT A Photo / Iso. Therm. / Horn N/A N/A 120 System Sensor 2400AT A Photo / Therm. / Horn N/A N/A 120 System Sensor 2400TH A Photo / Therm. N/A N/A 120 System Sensor 2451 A Photo B401B / B406B DH-400 A 120 System Sensor 2451TH A Photo / Therm. B401B / B406B A 120 System Sensor 2800 A Photo N/A N/A 120 System Sensor 2800TH A Photo / Therm. N/A N/A 120 System Sensor 2851B A Photo B 101 B / B 107B A 120 System Sensor 2851BTH A Photo / Therm. B101B / B107B A 120 System Sensor 2851DH A Photo DH2851DC A 120 System Sensor 2100/D /S A Photoelectric N/A N/A 120 System Sensor 2100T/D /S A Photoelectric N/A N/A 120 System Sensor DH100P A Photoelectric N/A N/A 100 System Sensor DH100LP A Photoelectric N/A N/A 120 Compatible Two -Wire Smoke Detectors (UL Listed) Various Manufacturers 6 Device Compatibility Document PN 15384:AF 6/10/03 Detector Model Number Base Model Number MP -12 MP -24 MS -124 MS -424A MS -2410B 1100/D N/A 20 20 N/A N/A 20 1151 B401B110LP/ B116LP 16/16/ N/A 16/16/1 N/A N/A 16 / 16 / 1 1400 N/A 16 16 16 20 20 1451 B401B / B406B 16 /N /A 16/1 16/1 20/1 16/1 1451DH DH-400 16 16 16 20 16 1851DH DH1851DC 16 16 16 20 16 2100/D /S N/A 16 16 N/A N/A 20 2100T/D /S N/A 16 16 N/A N/A 20 2151 B401B110LP/ B116LP 16/16/ N/A 16/16/1 N/A N/A 16 / 16 / 1 2300T N/A 16 16 16 20 16 2400 N/A 16 16 16 20 16 2400ATT N/A N/A 1 1 1 1 2400AT N/A N/A 1 1 1 1 2400TH N/A 16 16 16 20 16 2451 B401B / B406B 16/N/A 16 / 1 16 / 1 20 / 1 16 / 1 2451 DH-400 16 16 16 20 16 2451TH B401B / B406B 16/N/A 16 / 1 16 / 1 20 / 1 16 / 1 2851DH DH2851DC 16 16 16 20 16 1800 N/A N/A 1851B B101B N/A 1851B B107B N/A 2800 N/A N/A 2800TH N/A N/A 2851B B101B N/A 2851B B107B N/A 2851BTH B101B N/A 2851BTH B107B N/A DH100P N/A 20 20 N/A N/A N/A DH100LP N/A 16 16 N/A N/A 16 • System Sensor Maximum Number of Detectors per Zone When using two -wire smoke detectors containing supplementary relays or indicators, the operation of more than one detector per zone cannot be ensured System Sensor System Sensor & Fenwal Detectors can be mixed or matched in any zone, provided maximum detector standby current per loop is not exceeded. Device Compatibility Document PN 15384:AF 6/10/03 Maximum Number of Detectors per Zone 7 Model Number Base Model MS -4012 MS -4024 MS -4424 11 MS-44P-42442B MS -5012 411 -UDAC 1100/D N/A N/A N/A 20 20 20 1151 B401B110LP/ B116LP 16/16/ N/A 16/16 /1 15/15/1 16/16/ N/A 16/16/ N/A 1400 N/A 16 16 20 20 16 1451 B401 B / B406B 16 / N/A 16 / 1 15 / 1 16 / N/A 16 /N /A 1451DH DH-400 16 16 15 16 16 1851DH DH1851DC 16 16 15 16 16 2100/D /S N/A N/A N/A 16 16 16 2100T/D /S N/A N/A N/A 16 16 16 2151 B401B110LP/ B116LP 16/16/ N/A 16/16/1 15/15/1 16/16/ N/A 16/16/ N/A 2300T N/A 16 16 15 16 16 2400 N/A 16 16 15 16 16 2400AIT N/A N/A 1 1 N/A N/A 2400AT N/A N/A 1 1 N/A N/A 2400TH N/A N/A 16 15 16 16 2451 B401 B / B406B 16 / N/A 16 / 1 15 / 1 16 / N/A 16 / N/A 2451 DH-400 16 16 15 16 16 2451TH B401B / B406B 16 / N/A 16 / 1 15 / 1 16 / N/A 16 / N/A 2851DH DH2851DC 16 16 15 16 16 1800 N/A N/A 1851B B101B N/A 1851B B107B N/A 2800 N/A N/A 2800TH N/A N/A 2851B B101B N/A 2851B B107B N/A 2851BTH B101B N/A 2851BTH B107B N/A DH100P N/A N/A N/A 20 20 20 DH100LP N/A N/A N/A 16 16 N/A Maximum Number of Detectors per Zone System Sensor Detectors - continued: 8 System Sensor Device Compatibility Document PN 15384:AF 6/10/03 Model Number Base Model MS -5024 MS- 5024UD MS- 5210UD MS -2 MS-4 M -302 MMF -302 51000 S200 52000 2W -B N/A N/A 16 N/A N/A N/A 2WT B N/A N/A 16 N/A N/A N/A 1100/D N/A 20 20 24 N/A 25 1151 B401BI IOLP/ B116LP 16 / 16 / 1 16/16/1 20 / 20 / 1 N/A 20/20/1 1400 N/A 20 20 24 20 25 1451 B401B / B406B 16 / 1 16/ 1 20 / 1 20 / 1 20 1451DH DH-400 16 16 20 20 20 1800 N/A N/A N/A 24 N/A 1851B B101B N/A N/A 20 N/A 1851B B107B N/A N/A 1 N/A 1851DH DH1851DC 16 16 20 20 20 2100/D /S N/A 16 16 20 N/A 20 2100T/D /S N/A 16 16 20 N/A 20 2151 B401B110LP/ B116LP 16 / 16 / 1 16/16/1 20 / 20 / 1 N/A 20/20/1 2300T N/A 16 16 20 20 20 2400 N/A 16 16 20 20 20 2400AIT N/A 1 1 1 1 1 2400AT N/A 1 1 1 1 1 2400TH N/A 16 16 20 20 20 2451 B401B / B406B 16 / 1 16/1 20 / 1 20 / 1 20 / 1 2451 DH-400 16 16 20 20 20 2451TH B401B / B406B 16 / 1 16/1 20 / 1 20 / 1 20 / 1 2800 N/A N/A N/A 20 N/A 2800TH N/A N/A N/A 20 N/A 2851B B101B N/A N/A 20 N/A 2851B B107B N/A N/A 1 N/A 2851BTH B101B N/A N/A 20 N/A 2851BTH B107B N/A N/A 1 N/A 2851DH DH2851DC 16 16 20 20 20 DH100P N/A 20 16 24 N/A 25 DH100LP N/A 16 16 20 N/A 20 • • • System Sensor System Sensor Detectors - continued: Device Compatibility Document PN 15384:AF 6/10/03 Maximum Number of Detectors per Zone 9 Detector Model Number Base Model Number MP -24 MS-124 MS -424A MS -4024 MS -4424 MS -4424B MRP -4424 CPD -7021 70- 201000 -001 33 33 40 30 30 70- 201000 -002 70- 201000 -003 70- 201000 -003 70- 201000 -005 70- 201000 -005 CPD -7021 70- 211002 -000 1 1 1 CPD -7021 70- 211002 -000 1 1 1 1 1 PSD -7125 70- 201000 -001 20 20 25 20 20 70- 201000 -003 70- 201000 -002 70- 201000 -005 70- 201000 -003 PSD -7126 70- 201000 -001 20 24 70- 201000 -005 25 70- 201000 -002 PSD -7126 70- 201000 -001 20 20 25 20 20 70- 201000 -002 70- 201000 -005 PSD -7129 70- 201000 -003 1 1 1 1 70- 201000 -005 PSD -7129 70- 211002 -000 1 1 1 1 1 Detector Model Number Base Model Number MS-5024 MS- 5024UD MS- 5210UD M-302 MMF -302 S1000 S200 S2000 CPD -7021 70- 201000 -001 25 40 40 41 70- 201000 -002 70- 201000 -003 70- 201000 -005 CPD -7021 70- 211002 -000 1 1 1 1 PSD -7125 70- 201000 -001 20 24 25 25 70- 201000 -002 70- 201000 -003 70- 201000 -005 PSD -7126 70- 201000 -001 20 24 25 25 70- 201000 -002 70- 201000 -003 70- 201000 -005 PSD -7129 70- 211002 -000 1 1 1 1 Maximum Number of Detectors per Zone Fenwal Fenwal Fenwal & System Sensor Detectors can be mixed or matched in any zone, provided maximum detector standby current per loop is not exceeded. 10 Device Compatibility Document PN 15384:AF 6/10/03 Detector Base MP -24 MS-124 MS -424A MS -4024 S1000 Model Number Model Number N/A 11 11 LPSD -12 BLP -12 -R DS200 MB200 -2W 10 10 15 10 15 DS200HD MB200 -2W 10 10 15 10 15 Detector Model Number Base Model Number MP -12 MS -4012 MS -5012 411 -UDAC MS -4412B LPSD -12 BLP -12 N/A N/A 11 11 LPSD -12 BLP -12 -R 11 11 11 11 Detector Model Number Base Model Number M -302 MMF -302 2098 -9201 2098 -9211 20 2098 -9202 2098 -9211 20 2098 -9576 2098 -9211 20 Detector Model Number Base Model Number M -302 MMF -302 6250B 6251B -001 20 6264B N/A 1 6270B 6251B -001 20 • Fire•Lite Detectors Fire•Lite Detectors Only those control panels listed allow for the use of these detectors. Edwards Detectors Only those control panels using the monitor modules listed allow for the use of these detectors. Simplex Detectors Only those control panels using the monitor modules listed allow for the use of these detectors. Device Compatibility Document PN 15384:AF 6/10/03 Detection Systems Detectors Only those control panels listed allow for the use of these detectors. Maximum Number of Detectors per Zone 11 Smoke Detector/Base Detector Type Max Standby Current (mA) Alarm Current (mA) Fenwal CPD -7021 (w /70- 201000 -005 Base) Ionization 0.10 * Fenwal PSD -7125 Photoelectric 0.10 * Fenwal PSD -7126 (w /70- 201000 -005 Base) Photoelectric 0.10 * Fire -Lite BLP -12-4W Base * * Gentex 824 Photoelectric 0.50 * Gentex 824T Photoelectric 0.50 Gentex 824CP Photoelectric 0.50 * Gentex 824CPT Photoelectric 0.50 * Hochiki HSC -4R Base * * Hochiki SPB -24 Projected Beam 0.25 * System Sensor B112LP Base 0.12 36 System Sensor B114LP Base * * System Sensor B404B Base * System Sensor DH100ACDC Photoelectric 0.15 0.70 System Sensor DH100ACDCLP Photoelectric 0.15 0.70 System Sensor DH100ACDCLWP Photoelectric 0.15 0.70 System Sensor DH400ACDCI Ionization Duct 25 95 System Sensor DH400ACDCP Photoelectric Duct 25 95 System Sensor 1112/24/D Ionization 0.05 50 System Sensor 1424 Ionization 0.10 41 System Sensor 1451 (w/B402B Base) Ionization 0.10 39 System Sensor 2112/24ATR Photoelectric 0.50 60/70 System Sensor 2112 /24AITR Photoelectric 0.50 60/70 System Sensor 2112/24/D Photoelectric 0.05 50 System Sensor 2112/24R Photoelectric 0.50 60/70 System Sensor 2112/24TR Photoelectric 0.50 60/70 System Sensor 2112/24T/D Photoelectric w /135° Thermal 0.05 50 System Sensor 2112 /24TSRB Photoelectric w /135° Thermal Supervisory Relay 15 45 System Sensor 2312/24TB Photoelectric 0.12 50 System Sensor 2412 (12 volt) Photoelectric 0.12 77 System Sensor 2412AT (12 volt) Photoelectric 0.12 58 System Sensor 2412TH (12 volt) Photoelectric 0.12 77 System Sensor 2424 Photoelectric 0.10 41 System Sensor 2424TH Photoelectric 0.10 41 System Sensor 2451 Photoelectric 0.10 39 System Sensor 2451TH (with/B402B Base) Photoelectric 0.10 39 System Sensor 2W -MOD Loop Test/Maintence Mod. 30 50 System Sensor 4W -B (12/24 Volt) Photoelectric I3 .05 23 System Sensor4WT -B (12/24 Volt) Photoelectric I w/Therm .05 23 System Sensor 6424 Projected Beam 10 28.4 Notes: 1. Not Compatible with the MS -2410B * Contact manufacturer for current draws Four -Wire Smoke Detectors /Devices (UL Listed) Four -Wire Smoke Detectors /Devices (UL Listed) 12 Detection Systems Detectors Device Compatibility Document PN I5384:AF 6/10/03 MODEL NUMBER & NOMENCLATURE (System Sensor) CH12 /24 Electronic Chime /Sounder CH2415, CH241575, CH2475, CH24110 SpectrAlert Chime with Strobe MA- 12/24D Electronic Sounder MAl2 /24EH Multi Alert Horn with Mechanical Tone MAEH24LO, MAEH24LOC, MAEH24LOLA, MAEH24M, MAEH24MC, MAEH2415ADA, MAEH2475ADA, MAEH241575ADA, MAEH24110ADA, MAEH2415ADAS, MAEH241575ADAS Multi Alert Horn with Mechanical Tone /Strobe MASS24D, MASS24LO, MASS24M Electronic Sounder /Strobe MASS24LOC, MASS24MC Electronic Ceiling Sounder /Strobe MASS24LOLA Electronic Sounder /Strobe with Fuego lens MASS2415ADA, MASS2475ADA, MASS24110ADA, MASS241575ADA Sounder /Signaling Strobe MASS2415ADAS, MASS241575ADAS Sounder /Signaling Strobe w/ Synch. Ckt. MDL / MDLW Sync Modules for use with SpectraAlert series P2415, P241575, P2430, P2475, P24110 SpectrAlert Horn/Strobe PA400R Sounder PC24115, PC24177 SpectrAlert Ceiling Mount HomlStrobe System Sensor - 12VDC Notification Appliances (UL Listed) Control panels with Notification circuits supplied by Special Purpose (FWR, Filtered) power must use appliances listed in this table. • Refer to manufacturer's installation instructions for more information. • Contact manufacturer for current draws or additional options System Sensor - 12VDC Use only 12VDC devices with 12 volt control panels. MODEL NUMBER & NOMENCLATURE (System Sensor) CH12/24 Electronic Chime /Sounder Notification Appliances (UL Listed) H12 SpectrAlert Horn MA- 12/24D Electronic Sounder MAl2 /24EH Multi Alert Horn with Mechanical Tone MAEH1215ADA, MAEH121575ADA Multi Alert Horn with Mechanical Tone /Strobe MASSI2D, MASS12LO Electronic Sounder /Strobe MASS1215ADA, MASS121575ADA Sounder /Signaling Strobe MDL / MDLW Sync Modules for use with SpectraAlert series PA400R Sounder PS12LO Add -on Strobe P1215, P121575 SpectrAlert Horn/Strobe RP1215ADA, RP121575ADA Retrofit Strobe Plate SS12, SS12LO Strobe S1215, S121575 SpectrAlert Strobe SS1215ADA, SS121575ADA Signaling Strobe System Sensor - 24VDC Use only 24VDC devices with 24 volt control panels. Device Compatibility Document PN 15384:AF 6/10/03 13 MODEL NUMBER & NOMENCLATURE (Gentex) GEC - 24-15, GEC - 24-30, GEC- 24 -60, GEC- 24- 75,GEC- 24- 110,GEC- 24- 15/75W Horn/Strobe GES- 24-15, GES- 24 -30, GES- 24 -60, GES- 24- 75,GES- 24- 110,GES- 24- 15/75W Strobe GMH -24 Electro - Mechanical Horn GMS- 24-15, GMS- 24 -15 -1, GMS -24 -110, GMS -24- 110 -1, GMS -24- 1575 -1, GMS -24 -3075, GMS24 -30W, GMS24 -60W Electro - Mechanical Hom with Strobe GOT-24 Multi -Tone Horn GOS- 24 -15 -1, GOS- 24- 110 -1, GOS- 24- 1575 -1, GOS -24- 3075 -1 Multi -Tone Horn/Strobe GXS -4RH, GXS -4BH, GXS -4RL, GXS -4BL Strobes GXS -4-15, GXS- 4 -15 -1, GXS-4 -1575, GXS -4 -30, GXS -4 -60, GXS - 4-110, GXS -4- 110 -1, GXS-4 -3075 Strobe GX -90-4 Horn GX- 90S -4BH, GX- 90S -4BL, GX- 90S -4RL, GX- 90S -4RH, GX- 90S -4 -15, GX- 90S- 4 -15 -1, GX -90S -4 -110, GX- 90S-4- 110 -1, GX -90S -4 -1575 Horn with Strobe HG124 Electronic Horn Notification Appliances (UL Listed) MODEL NUMBER & NOMENCLATURE (System Sensor) PS24LO Add -on Strobe RP2415ADA, RP241575ADA, RP2475ADA, RP24110ADA Retrofit Strobe Plate S2415, S241575, S2430, S2475, S24110 SpectrAlert Strobe SC24115, SC24177 SpectrAlert Ceiling Mount Strobe SP100W24LOC, SP100W24MC Ceiling Speaker /Strobe, 8 "" round grille SP101R24LO, SP101R24M Speaker /Strobe, 5 "" square grille SP2C24115, SP2C24177 SpectrAlert Ceiling Mount Speaker Strobe SP2R2415, SP2R2430, SP2R2415/75, SP2R2475, SP2R24110 SpectrAlert Speaker Strobe S1224MC, P1224MC, SP1224MC SpectrAlert Strobe SS24, SS24LO, SS24M, Strobe SSM24 -6, SSM24 -8, SSM24 -10 Alarm Bell SS24LOC, SS24LOBC(beige), SS24MC Ceiling Strobe SS2415ADA, SS2475ADA, SS24110ADA, SS241575ADA Signaling Strobe SS2415ADAS, SS241575ADAS Signaling Strobe with Synch. Circuit V4R2415ADA, V4R2475ADA, V4R24110ADA, V4R241575ADA Speaker /Signaling Strobe Gentex -12VDC Use only 12VDC devices with 12 volt control panels. MODEL NUMBER & NOMENCLATURE (Gentex) GX -90 -2 Horn Gentex - 24VDC Use only 24VDC devices with 24 volt control panels. 14 GXS -2 -15, GXS -2 -1575 Strobe GX90S -2 -15 Horn with Strobe GX90S -2 -1575 Horn with Strobe HG124 Electronic Horn SHG12 -15, SHG12 -1575 Electronic Horn with Strobe Gentex - 12VDC Device Compatibility Document PN 15384:AF 6/10/03 MODEL NUMBER & NOMENCLATURE (Gentex) HS24 -15, HS24 - 15/75, HS24 -30, HS24 -60, HS24 -110, HS24 -110W, HS24 -75W, HS24 -60W, HS24 -30W, Multi -Tone Horn/Strobe SHG -24L, SHG -24H, SHG24 -15, SHG24 -15 -1, SHG 24 -60, SHG24 -110, SHG24 - 110 -1, SHG24 -1575, SHG24 -30, SHG24 -60, SHG24 -3075 Electronic Horn with Strobe SPK4 -15, SPK4 -15 -1, SPK4 -1575, SPK4 -110, SPK4- 110 -1, SPK4 -24 -3075 Speaker with Strobe SPK8 -15, SPK8 -15 -1, SPK8 -1575, SPK8 -110, SPK8 - 110 -1B, SPK8 -24 -3075 Speaker with Strobe SPKE4, SPKE4 -15 -1, SPKE4- 15/75, SPKE4- 15/75 -C SPKE4- 30/75, SPKE4 -60, SPKE4- 110 -1, SPKE4 -60W, SPKE4 -30W Speaker with Strobe SPKE8, SPKE8 -15 -1, SPKE8- 15/75, SPKE8- 15/75 -C, SPKE8- 30/75, SPKE8 -60, SPKE8 -110- 1, SPKE8- 1575W, SPKE8 -30W Speaker with Strobe ST24 -15, ST24 - 15/75, ST24 -30, ST24 -60, ST24 -110, ST24- 75W,ST24 -110W, ST24 -30W Strobe WGMS -24-75 Weatherproof Electro- Mechanical Horn with Strobe Wheelock - 12VDC Wheelock - 12VDC Use only 12VDC devices with 12 volt control panels. MODEL NUMBER & NOMENCLATURE (Wheelock) AMT-12/24 Multi -Tone Horn AMT- 12- LS -VFR, AMT 12- LSM -VFR Multi -Tone Horn Strobe AS -1215, AS -1230, AS- 121575 Audible Strobe DSM -12/24 Dual Synchronization Module LS1- 12 -VFR, LS1M- 12 -VFR Strobe LSP- 12 -VFR, LSPM- 12 -VFR Strobe MS1- 12 -VFR Strobe MSP- 12 -VFR Strobe MT- 12/24 -R MultiTone NS- 121575W -FR, NS4- 121575W -FR Horn Strobe RS -1215, RS- 121575 Strobe SM -12/24 Synchronization Module Wheelock - 24VDC Use only 24VDC devices with 24 volt control panels. Notification Appliances (UL Listed) MODEL NUMBER & NOMENCLATURE (Wheelock) 7002T-24 Horn with Strobe AES- DL1- WM- 24 -VF -R, AES- ELI- WM- 24 -VF -R Multi -Tone Signals AES -DL1- LSM -24, AES -ELI- LSM -24 Horn Strobe AH -24, AH -24WP Horn AMT-12/24 Multi -Tone Hom AMT 24- IS -VFR, AMT 24- LS -VFR, AMT -24- LSM- VFR,AMT 2475 -FR Multi -Tone Hom Strobe AS -2415, AS -2430, AS- 2430C, AS -2475, AS- 24110, AS- 241575 Audible Strobe AS- 2415W, AS- 2430W, AS- 2475W, AS- 24110W, AS- 241575W Horn/Strobe AS- 24MCW -FR Multi- Candela Appliance Device Compatibility Document PN 15384:AF 6/10/03 15 MODEL NUMBER & NOMENCLATURE (Wheelock) ASWP -2475W Weatherproof Audible Strobe CH- CFI -IS -24 -CFW, CH- CF1 -LS -24 -CFW, CH- CFI -MS -24 -CFW Chime CH- DFI- IS- 24 -VFR, CH- DFI- LS- 24 -VFR, CH- DF1- LSM- 24 -VFR, CH- DFI- MS- 24 -VFR Chime CH70 -24, CH90 -24 Chime CH70- 2415W, CH70 -2430, CH70 -2475, CH70- 241575 Chime with Strobe CH70 -24MCW FR Multi - Candela Appliance CH90- 2475C, CH90- 24100C Chime with Strobe DSM -12/24 Dual Synchronization Module EH-DL1-WM-24-VF-R, EH- ELI- WM- 24 -VF -R Electronic Horn Strobes HSW 24 -HFR, HSPW- 24 -HFR, HS2W HFR Strobe IS- 24 -VFR, IS1- 24 -VFR, IS3- 24 -VFR Strobe ISP- 24 -VFR Strobe LS- 24 -VFR, LS1- 24 -VFR, LS1M- 24 -VFR LS3- 24 -VFR, LS3M- 24 -VFR Strobe LSM- 24 -VFR Strobe LSP- 24 -HFR, LSPM- 24 -VFR Strobe MB- G6 -24 -R Motor Bell, 6" gong MB- G10 -24 -R Motor Bell, 10" gong MBS- G6 -24-R Motor Bell/Strobe, 6" gong MBS- G10 -24 -R Motor Bell/Strobe, 10" gong MIZ -24 Mini Piezo Horn MIZ -24- HSW -HFR, MIZ- 24- IS -VFR, MIZ- 24- LS -VFR, MIZ- 24- LSM -VFR, MIZ- 24- MS -VFR, MIZ- 24- WM -VFR, MIZ- TC24 -R, MIZ- TC24 -W Mini -Horns Strobe MS- 24 -VFR, MS1- 24 -VFR, MS3- 24 -VFR Strobe MSP- 24 -HFR Strobe MT- 12/24 -R MultiTone MT- 24 -WM, MT- 24- WM -VFR MultiTone Strobel17cd MT 24- IS -VFR, MT 24- LS -VFR, MT -24- LSM -VFR, MT- 24- MS -VFR MultiTone Strobe MT- 24- SL -VFR, MT- 24- SLM -VFR Multi- tone /Strobe MT4- 24- IS -VFR, MT4- 24- LS -VFR, MT4 -24- LSM -VFR, MT4- 24- MS -VFR MultiTone Strobe NS- 2415W -FR, NS- 2430W -FR, NS- 2475W -FR, NS- 24110W -FR NS- 241575W -FR Horn Strobe NS4- 2415W -FR, NS4- 2430W -FR, NS4 - 2475W -FR, NS4- 24110W -FR, NS4- 241575W FR, NS4 - 24MCW-FR, NS- 24MCW -FW, NS- 24MCW -FR Horn Strobe RS -1230, RS -2415, RS -2430, RS -2475, RS- 24110, RS- 241575 Strobe RS- 2415W, RS- 241575W Strobe RSS- 2415W, RSS- 2415175W, RSS- 2430W, RSS- 2475W, RSS- 24110W Strobe RSS - 24MCW -FR Strobe RSS- 2415- CR -FW, RSS- 2430- CR -FW, RSS- 2475- CR -FW, RSS- 24100 -CR -FW Strobe RSS- 24150- CR -FW, RSS- 24177 -CR -FW Strobe RSSP- 24MCW -FR strobe RSSP- 2415W, RSSP- 2415/75W, RSSP- 2430W, RSSP- 24185W Strobe SCM -24 -R Synchronized Controller Module SHW- 24 -HFR, SH2W- 24 -HFR, SHPW- 24 -HFR Strobe SL- 24 -VFR, SL1- 24 -VFR, SL3- 24 -VFR, SLP- 24 -VFR Strobe SLM- 24 -VFR, SLIM- 24 -VFR, SL3M- 24 -VFR, SLPM- 24 -VFR Strobe Notification Appliances (UL Listed) 16 Wheelock - 24VDC Device Compatibility Document PN 15384:AF 6/10/03 MODEL NUMBER & NOMENCLATURE (Wheelock) E70, E70 -R, E90, E90 -W Speaker ET70, ET90 Speaker with Strobe E70 -24MCW Speaker Strobe S25W, S7OW Speaker STH -15S Loud Speaker ET70- 2415W, ET70- 2430W, ET70- 2475W, ET70- 24110W, ET70- 241575W, ET70- 24MCW -FR Speaker with Strobe E- 70- IS -24, E- 70- LS -24, E- 70- LSM -24, E- 70 -MS -24 Low Profile Speaker /Strobe E70- 2415W, E70- 2430W, E70- 2475W, E70- 24110W, E70- 241575W, E70- 24185W -FR Speaker with Strobe ET90- 2415C, ET90- 2430C, ET90- 2475C, ET90- 24100C, ET70- 24185W -FR Speaker with Strobe E- 90- IS -24, E- 90- LS -24, E- 90 -MS -24 Low Profile Speaker /Strobe E90- 2415C, E90- 2430C, E90- 2475C, E90- 24100C Speaker with Strobe E- 7025- SL -VFR, E- 7025 - SLM -VFR, E- 7070- SL- VFR,E- 7070 - SLM -VFR Speaker with Strobe E- 9025 -SL -CFW, E- 9070 -SL -CFW Speaker with Strobe ET 1070- IS- 24 -VFR, ET- 1070- LS- 24 -VFR, ET -1070- LSM- 24 -VFR, ET 1070- MS- 24 -VFR Speaker with Strobe ET 1070- SL -VFR, ET 1070 - SLM -VFR Speaker with Strobe ET- 1080- IS- 24 -VFR, ET- 1080- LS- 24 -VFR, ET 1080 - LSM- 24 -VFR, ET 1080- MS- 24 -VFR Speaker with Strobe ET 1080- SL -VFR, ET 1080- SLM -VFR Speaker with Strobe ET 1090 -IS -24 -CFW, ET 1090 -LS -24 -CFW, ET- 1090 -MS -24 -CFW Speaker with Strobe ET- 1090 -SL -CFW Speaker with Strobe • • • Wheelock Speakers Notification Appliances (UL Listed) MODEL NUMBER & NOMENCLATURE (Wheelock) SM -12/24 Synchronization Module SR -2415, SR- 241575 Synchronized Strobe WMT- 24 -FR, WM1T 24 -FR, WM3T -24 -FR Strobes Wheelock Speakers Device Compatibility Document PN 15384:AF 6/10/03 17 Manufacturer Model Voltage Watts Amps NPS Orfice PSI Solenoid Group A Skinner LV2LBX25 24 VDC 11 458 mA 1/2" 5/8" Solenoid Group B These valves are interchangeable ASCO T8210A107 24 VDC 16.8 700 mA 1/2" 5/8" ASCO R8210A107 24 VDC 16.8 700 mA 1/2" 5/8" ASCO 8210A107 24 VDC 16.8 700 mA 1/2" 5/8" Solenoid Group C Star Sprinlder Corp. p/n 5550 24 VDC part of Model D Deluge Valve Solenoid Group D ASCO 8210G207 24 VDC 10.6 440 mA 1 1/2" 1/2" Solenoid Group E Skinner 73218BN4UNLVNOC111C2 24 VDC 10.0 420 mA 1/2" 5/8" Solenoid Group F Skinner 73212BN4TNLVNOC322C2 24 VDC 22.0 0.92 I 1/2" I 1/2" 250 Solenoid Group G Skinner 71395SN2ENJ1NOH111C2 24 VDC 10.0 420 mA 1/4" 1/16" 250 Automatic Water Control Valves (FM- Approved) For Preaction and Deluge Sprinkler Releasing Applications Automatic Water Control Valves (FM- Approved) For Preaction and Deluge Sprinkler Releasing Applications (section not recognized by UL) S2000 (TC- 2F/TC -4F) S200 (TC- 2F/TC -4F) Canada Only Note: Refer to the FM approval guide for automatic water control valves which are compatible with solenoids listed. 18 Device Compatibility Document PN 15384:AF 6/10/03 MANUFACTURER MODEL TYPE Current (mA) Edwards DH150A Floor Mount 96 Edwards DH154A Flush Mount 96 Edwards DH158A Surface Mount 96 Rixon Firemark FM -980 Floor Mount, single 68 Rixon Firemark FM -996 Surface Wiring 68 Rixon Firemark FM -998 Concealed Wiring 68 MANUFACTURER MODEL Current (mA) Air Products & Controls, LTD MR -101 /C 15 Northern Technologies MR -201 /C 35 PAM -1 15 PAM -2 15 PAM -SD 15 System Sensor A77 -716B 20 MANUFACTURER Model Number Ditek 2LVLP -F Edco SLCP -30 Northern Technologies PLP -42N • • • Wheelock Speakers Door Holders (UL Listed) Door Holders (UL Listed) Relays (UL Listed) Device Compatibility Document PN 15384:AF 6/10/03 SLC Loop Surge Surpressors (UL Compatible) 19 FIre•LITe ®ALarms World Headquarters One Fire -Lite Place, Northford, CT 06472 -1653 USA 203 - 484 -7161 • Fax 203 - 484 -7118 www.firelite.com Is® e • • • Fire•ure' ALarms BG -12 Estacion Pulsadora Manual Patented, U.S. Patent No. Des. 428,351; 6,380,846; 6,314,772; Other Patents Pending Documento 50964 -1 156- 2263 -02 Descripci6n La estacibn pulsadora BG -12 es una estaci6n no c6dificada y de doble acci6n manual con la caracteristica de reajuste de una cerradura hexagonal. Esta provee a los paneles de control de Fire -Lite con una alarma de initiation de entrada normalmente abierta (N /O). El BG -12 reune las normas de control y funcionamiento de la ADAAG ( section 4.1.3 [13]) y los requisites de ADA para que la estaci6n pulsadora sea activada con una fuerza de jale maxima de 5 Libras. Las instrucciones de funcionamiento estan moldeadas en la manija (manubrio) junto al texto Braille. Los ntimeros moldeados de las terminales tambi6n estan presentes. Par metros de Contacto del Interruptor El Contacto del interrupter (N /O) es oro plateado para la confiabilidad y clasificado en 0.25 A en 30 voltios (AV o DC). Instalacibn La estaci6n pulsadora BG -12 puede ser montada en la superficie del respaldo de un SB -10 o un SB- 1 /0; esta tambibn puede ser semi - montada en una caja el6ctrica cuadrada ya sea individual o doble de 4" (10.16 cm). El anillo optional (BG -TR) puede ser usado si el BG -I2 va a ser semi - montado. Funcionamiento Para activar la estaci6n pulsadora de doble action, simplemente empuje hacia adentro y tire hacia abajo la manija (manubrio). La palabra "ACTIVATED" aparecera despubs que la manija haya sido tirada hacia abajo. Esta permanecera hasta que la estaci6n pulsadora sea reajustada. La estaci6n pulsadora incluye un poste individual, un interruptor individual (SPST) Normalmente Abierto (N /O) el cual se cierra en la activation de la estaci6n pulsadora. Reajuste de la Estacion Pulsadora 1. Para reajustar la cerradura hexagonal de la estaci6n pulsadora del BG -12, se inserta la !lave hexagonal proporcionada de 9/64 pulgadas en la cerradura hasta que este firmemente sentada, y se le da' /4 de giro en sentido contrario a las manecillas del reloj. 2. Abra la puerta hasta que el manubrio regrese a la position normal. 3. Cierre y asegure la puerta. Nota: Al cerrar la puerta el interruptor es reajustado automaticamente a la position `Normal'. El abrir la puerta de la estacibn no activara o desactivara el interruptor de la alarma. Document 50964 -1 BG -12 Estacibn Pulsadora Manual 156-2263-02 Alambrado Desade FACP + IDC — Hacia el Proximo + Dispositivo I Advertencia! No enlace el cableado debajo de los terminales. Rompa la corrida de cable para mantener la supervision. PRECAUC16N No se separe la puerta de la estacibn pulsadora durante la instalaci6n. La puerta de la estaci6n no podra ser reatada a la placa posterior desputss de que la placa posterior haya sido instalada sobre una caja elt ctrica. PRECAUC16N Instale la estacibn pulsadora de Fire -Lite BG -12 de acuerdo con estas instrucciones, aplicando las normas de la NFPA y los c6digos y requisites de fuego locales y nacionales de IaAHJ (Autoridad teniendo la juridicci6n). Se deben conducir pruebas regulares de los dispositivos utilizando las normas apropiadas de acuerdo a la NFPA. La falla de seguir estas instrucciones puede resultar en la falla del dispositivo para reportar una condition del alarma. Fire -Lite no es responsible por dispositivos que hayan sido instalados, probados o mantenidos inapropiadamente. ADA Conformidad: Para el cumplimiento con la ADA, si el espacio del piso vacio permite solamente el alcance frontal a un objeto, la altura maxima del alcance frontal perrnitida es de 48 pulgadas (121.92 cm). Si el espacio del piso vacio permite el alcance paralelo por una persona en silla de ruedas, la altura maxima de lado permitida es de 54 pulgadas (137.16 cm). FIre•uTe warms BG -12 Manual Pull Station Patented, U.S. Patent No. Des. 428,351; 6,380,846; 6,314,772; Other Patents Pending Document 50964 -1 156- 2263 -02 Description The BG -12 pull station is a non - coded, dual - action manual pull station with a hex -lock reset feature. It provides Fire•Lite control panels with one normally open (N /O) alarm initiating input. The BG -12 meets the ADAAG controls and operating mechanisms guidelines (sec- tion 4.1.3[ 13]), and the ADA requirement for a 5 Ib. maximum pull force to activate the pull station. Operating instructions are molded into the pull station handle along with Braille text. Molded Terminal numbers are also present. Ratings Switch contact (N /O) is gold plated for reliability and rated at 0.25 A at 30 volts (AC or DC). Installation The BG -12 pull station can be surface mounted to an SB -10 or SB -I/O surface backbox or semi -flush mounted on a standard single -gang, double -gang or 4" (10.16 cm) square electrical box. The optional BG -TR trim ring can be used if the BG -12 is to be semi -flush mounted. Operation To activate the dual- action pull station, push in and pull down on the handle. The word ACTIVATED' appears after the handle is pulled down. This will remain until the pull sta- tion is reset. The pull station includes one Single Pole, Single Throw (SPST) Normally Open (N /O) switch which closes upon activation of the pull station. Resetting the Pull Station 1. To reset the BG -12 hex lock pull station, insert the supplied 9/64 -inch hex wrench into the lock until firmly seated and turn counterclockwise 1/4 -turn. 2. Open the door until the handle returns to normal. 3. Close and lock the door. Note: Closing the door automatically resets the switch to the `Normal' position. Opening the door will not activate or deactivate the alarm switch. Document 50984 -1 BG -12 Manual Pull Station 156- 2263 -02 Wiring From FACP + IDC — To Next + Device IDC ARNING! Do not loop wiring under any terminals. Break wire run to maintain IDC supervision. CAUTION! Do not detach the door of the pull station during installation. The door of the pull station cannot be reattached to the backplate after the backplate has already been installed onto an electrical box. CAUTION! Install the Fire•Lite BG -12 pull station in accordance with these instructions, applicable NFPA standards, national and local Fire and Electrical codes and the requirements of the AHJ (Authority Having Jurisdiction). Regular testing of the devices should be con- ducted in accordance with the appropriate NFPA standards. Failure to follow these directions may result in failure of the device to report an alarm condition. Fire•Lite is not responsible for devices that have been improperly installed, tested or maintained. ADA Compliance For ADA compliance, if the clear floor space only allows forward approach to an object, the maximum forward reach height allowed is 48 inches (121.92 cm). If the clear floor space allows parallel approach by a person in a wheelchair, the maximum side reach allowed is 54 inches (137.16 cm). Table 2: dBA Sound Output for 24VDC Per UL and ULC Description Volume Reverberant Per UL 464 Anechoic Per CAN/ULC - S525 -99 16.0VDC 24.0VDC 33.0VDC 20.0VDC 24.0VDC 31.0VDC Continuous Horn Low 77 81 83 87 89 91 High 83 87 90 90 92 94 Code 3 Hom Low 72 76 79 87 89 91 High 79 82 86 90 92 94 Table 1: UL and ULC Ratings Model Regulated Voltage (VDCNRMS) Voltage Range Limit Per UL 464 and UL 1971 (VDCNRMS) Voltage Range Per CAN/ULC - S525 -99 and CAN/ULC- S526 -02 (VDCNRMS) Strobe Candela (cd) NS -24MCW 24 16.0 -33.0 20.0 -31.0 15/30/75/110 WhPRIOCIC INC. 273 Branchport Avenue Long Branch, NJ 07740 Thank you for using our products. (800) 631 -2148 (US) INSTALLATION INSTRUCTIONS (800) 397 -5777 (CANADA) SERIES NS -MCW MULTI - CANDELA TWO WIRE APPLIANCE www.wheelockinc.com (WALL MOUNT VERSION) Use this product according to this instruction manuaL Please keep this instruction manual for future reference. GENERAL: Wheelock's Series NS -MCW Hom Strobe Appliance requires only 2 -wires for operation of the horn and strobe appliance. The NS- MCW provides four selectable candela settings (15, 30, 75, 110). The NS -MCW is the ideal choice for applications where the audible silence feature is required. The NS -MCW Appliance is UL Listed under Standard 1971 for Signaling Devices for the Hearing Impaired and UL Standard 464 for Audible Signal Appliances. The NS -MCW is also ULC Listed under Standard CAN/ULC -S526- 02 for Visual Signaling Appliances and Standard CAN/ULC-S525-99 for Audible Signaling Appliances for Fire Alarm Systems. It is listed for indoor use only and equipped with an NS Mounting Plate (NSMP) that can be mounted to single -gang, double -gang, 4" backbox, 100mm European backbox or SHBB surface backbox (See Mounting Options). This strobe model is Listed for wall mounting only. The NS -MCW Appliance uses a Xenon flashtube with solid state circuitry enclosed in a rugged Lexan® lens to provide maximum visibility and reliability for effective visible signaling. NOTE: "Lexan" is a registered trademark of General Electric Company. The hom portion of the NS -MCW Appliance can be field set to provide either Continuous Hom or Code 3 Horn. The sound output can be field set for High (HI) or Low (LO) dBA. The NS -MCW Horn Strobe can also be used with a Sync Module (SM), Dual Sync Module (DSM) or Wheelock's Power Supplies to provide synchronized strobe and synchronized Code 3 signal. This strobe model is designed for use with either filtered DC (VDC) or unfiltered Full -Wave Rectified (VRMS) input voltage. All inputs are polarized for compatibility with standard reverse polarity supervision of circuit wiring by a FACP. N OTE: All CAUTIONS and WARNINGS are identified by the symbol . All warnings are printed in bold capital letters /I\ \ WARNING: THE NS HORN STROBE IS A "FIRE ALARM DEVICE - DO NOT PAINT." NOTE: All Canadian Installations should be in accordance with the Canadian Standard for the Installation of Fire Alarm Systems - CAN/ULC- S524 -01 and Canadian Electrical Code, Part 1. Final acceptance is subject to Authorities Having Jurisdiction. WARNING: PLEASE READ THESE INSTRUCTIONS CAREFULLY. FAILURE TO COMPLY WITH ANY OF THE FOLLOWING INSTRUCTIONS, CAUTIONS AND WARNINGS COULD RESULT IN IMPROPER APPLICATION, CANDELA SETTING, INSTALLATION AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. S ULC Directional Characteristics: Rated output 92dBA (Unit set on high volume an -3dBA: 60 degrees left, 40 degrees right -6dBA: 70 degrees left, 70 degrees right NOTES: 1. The Strobe will produce 1 flash per second over the "Regulated Voltage" range. 2. This model is UL/ULC Listed for indoor use with a temperature range of +32 °F to +120 °F (0 °C to +49 °C) and maximum humidity of 93% RH ± 2 %. NOTE: THE MAXIMUM WIRE IMPEDANCE BETWEEN STROBES SHALL NOT EXCEED 35 OHMS. THE MAXIMUM NUMBER OR STROBES ON A SINGLE NOTIFICATION APPLIANCE CIRCUIT SHALL NOT EXCEED 47. Copyright 2004 Wheelock, Inc. All rights reserved. P83983 J Sheet 1 of 8 MOUNTING PROCEDURES: CAUTION: Check that the installed product will have sufficient clearance and wiring room prior to installing backboxes and conduit, especially if sheathed multiconductor cable or 3/4" conduit fittings are used. 1. The NS -MCW model has an integrated NS -MCW Mounting Plate (NSMP). 2. The NS -MCW Mounting Plate (NSMP) must be oriented correctly when it is mounted to the backbox. Turn the NSMP so that the arrow below the word "Top" points to the top side of the NSMP. 3. The NS -MCW model can be flush mounted to a standard single -gang backbox (Figure A), 4" or 100mm backbox (Figure B) or double -gang backbox (Figure C). NS -MCW can also be surface mounted to a 4" or 100mm backbox (Figure B), double -gang backbox (Figure C) or the SHBB (Figure D). 4. Mount the NSMP first to the backbox. Next slide the Beauty Plate over the NSMP until the 2 side snaps of the NS -MCW Beauty Plate engage with the NSMP. 5. The NS -MCW Beauty Plate can be removed from the strobe assembly once engaged. First, gently insert a screwdriver into one of the slots located on the side edges of the NS -MCW Beauty Plate. Second, gently pull away from the wall with the inserted screwdriver to disengage the snap. Third, repeat the first and second steps for the second slot. Finally, gently lift the Beauty Plate away from the NSMP. 6. Mounting hardware for each mounting option is supplied. 7. Conduit entrances to the backbox should be selected to provide sufficient wiring clearance for the installed product. 8. When terminating field wires, do not use more lead length than required. Excess lead length could result in insufficient wiring space for the signaling appliance. 9. Use care and proper techniques to position the field wires in the backbox so that they use minimum space and produce minimum stress on the product. This is especially important for stiff, heavy gauge wires and wires with thick insulation or sheathing. 10. Do not pass additional wires (used for other than the signaling appliance) through the backbox. Such additional wires could result in insufficient wiring space for the signaling appliance. 11. The effect of shipping and storage temperatures shall not adversely affect the performance of the appliance when stored in original cartons and are not subjected to misuse or abuse. The NS -MCW strobe is listed for indoor use. 0 WARNING: WHEN INSTALLING STROBES IN AN OPEN OFFICE OR OTHER AREAS CONTAINING PARTITIONS OR OTHER VIEWING OBSTRUCTIONS, SPECIAL ATTENTION SHOULD BE GIVEN TO THE LOCATION OF THE STROBES SO THAT THEIR OPERATING EFFECT CAN BE SEEN BY ALL INTENDED VIEWERS, WITH THE INTENSITY, NUMBER, AND TYPE OF STROBES BEING SUFFICIENT TO MAKE SURE THAT THE INTENDED VIEWER IS ALERTED BY PROPER ILLUMINATION, REGARDLESS OF THE VIEWER'S ORIENTATION. FAILURE TO DO SO COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. P83983 J Sheet 6 of 8 Table 3A: ULC Current Ratings (AMPS) with Hi dBA Setting (NS) Rated Average Current ULC Voltage 15cd 30cd 75cd 110cd 20.0VDC 0.074 0.107 0.184 0.244 24.0VDC 0.061 0.085 0.129 0.167 31.0VDC 0.060 0.075 0.110 0.130 20.0VRMS 0.133 0.189 0.285 0.383 24.0VRMS 0.125 0.170 0.225 0.281 31.0VRMS 0.125 0.160 0.214 0.253 Rated Peak/Inrush Current * ULC Voltage 15cd 30cd 75cd 110cd 20.0- 31.0VDC 0.400 0.470 0.550 0.650 20.0- 31.0VRMS 0.500 0.580 0.910 1.200 Table 3: UL Current Ratings (AMPS) Maximum RMS Current with Hi dBA Setting UL Voltage 15cd 30cd 75cd 110cd DC 16.0- 33.0VDC 0.074 0.107 0.184 0.244 FWR 16.0- 33.0VRMS 0.133 0.189 0.285 0.383 Maximum RMS Current with Low dBA Settin 0.274 UL Voltage 15cd 30cd 75cd 110cd DC 16.0- 33.0VDC 0.066 0.101 0.177 0.232 FWR 16.0- 33.0VRMS 0.098 0.136 0.205 0.259 Table 3B: ULC Current Ratings (AMPS) with Low dBA Setting (NS) Rated Average Current ULC Voltage 0.066 0.101 0.177 0.232 20.0VDC 0.049 0.072 0.117 0.154 24.0VDC 0.045 0.060 0.093 0.114 31.0VDC 0.116 0.169 0.274 0.369 20.0VRMS 0.098 0.136 0.205 0.259 24.0VRMS 0.096 0.125 0.176 0.215 31.0VRMS 0.066 0.101 0.177 0.232 Lh WARNING: FOR ULC VERSIONS THESE APPLIANCES WERE TESTED TO THE OPERATING VOLTAGE OF 20.0 -31.0 VOLTS FOR 24V MODELS USING FILTERED (DC) OR UNFILTERED FULL- WAVE - RECTIFIED (FWR). APPLY 80% AND 110% OF THESE VOLTAGE VALUES FOR SYSTEM OPERATIONS. A\ WARNING: FOR UL VERSIONS THESE APPLIANCES WERE TESTED TO THE OPERATING VOLTAGE LIMITS OF 16.0 -33.0 VOLTS FOR 24V MODELS USING FILTERED (DC) OR UNFILTERED FULL- WAVE - RECTIFIED (FWR). DO NOT APPLY 80% AND 110% OF THESE VOLTAGE VALUES FOR SYSTEM OPERATION. 1 WARNING: CHECK THE MINIMUM AND MAXIMUM OUTPUT OF THE POWER SUPPLY AND STANDBY BATTERY AND SUBTRACT THE VOLTAGE DROP FROM THHL CIRCUIT WIRING RESISTANCE TO DETERMINE THE APPPLIED VOLTAGE TO THE STROBES. WARNING. CANDELA SETTING WILL DETERMINE THE CURRENT DRAW OF THE PRODUCT. * The maximum time duration for the peak/inrush current is 10 milliseconds. O WARNING: MAKE SURE THAT THE TOTAL RMS CURRENT, TOTAL AVERAGE CURRENT AND TOTAL PEAK CURRENT REQUIRED BY ALL APPLIANCES THAT ARE CONNECTED TO THE SYSTEM'S PRIMARY AND SECONDARY POWER SOURCES, APPLIANCE CIRCUITS, SM, DSM SYNC MODULES AND WHEELOCK'S POWER SUPPLIES DO NOT EXCEED THE POWER SOURCES' RATED CAPACITY OR THE CURRENT RATINGS OF ANY FUSES ON THE CIRCUITS TO WHICH THESE APPLIANCES ARE WIRED. OVERLOADING POWER SOURCES OR EXCEEDING FUSE RATINGS COULD RESULT IN LOSS OF POWER AND FAILURE TO ALERT OCCUPANTS DURING AN EMERGENCY, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. P83983 J Sheet 2 of 8 FLUSH MOUNTING FLUSH OR SURFACE MOUNT B 4" SQ. X OR 100mm EUROPEAN NS MOUNTING NS BEAUTY PLATE MAXIMUM 1 -1/2" X BACKBOX PLATE (NSMP) DEEP 37.5mm (SUPPLIED) NUMBER BACKBOX i . ( OF CONDUCTORS #8-32 X 7/8" SCREWS / A NS MOUNTING NS BEAUTY MAXIMUM ® ♦ PLATE �� PLATE (NSMP) NUMBER STD. SINGLE 7 BACKBOX / / (SUPPLIED) -, OF CONDUCTORS #6-32 SCREWS -GANG X 7/8" � 4. AWG #18 AWG#16 AWG#14 AWG#12 AWG #18 AWG#16 AWG#14 AWG#12 4 4 4 4 4 4 4 4 FLUSH OR SURFACE MOUNTING SURFACE MOUNT D 5' SQ. SHBB NS MOUNTING NS BEAUTY PLATE MAXIMUM X 1 -9116' BACKBOX I PLATE (NSMP) $ I (SUPPLIED) NUMBER DEEP 4* Ilt � OF CONDUCTORS #8-32 X 7/8° ' '/ C NS NS p in i ♦ / MOUNTING PLATEN (NSMP) BEAUTY PLATE MAXIMUM DOUBLE DEEP BACKBOX , I 0 011°, 1 (SUPPLIED) 1 NUMBER OF CONDUCTORS -GANG X 2 -1/4" #6-3� 7/8' / AWG #18 AWG#16 AWG#14 AWG#12 AWG #18 AWG#16 AWG#14 AWG#12 4 4 4 4 4 4 4 4 WIRING INFORMATION: Figure 6: FROM PRECEDING APPLIANCE, FACP OR SYNC MODULE When the sync module is used, the audible tone will be the code 3 sound only. Refer to Sync Module installation instruction sheets SM (P83123), DSM (P83177) or Wheelock's Power Supplies for additional information. MOUNTING OPTIONS: } TO NEXT SIGNAL OR END OF LINE RESISTOR (EOLR) Figure 7: f 1) The NS -MCW Appliance has in -out wiring terminals that accepts two #12 to #18 American Wire Gauge (AWG) wires at each screw terminal. Strip leads 3/8" inches for connection to screw terminals. 2) Break all in -out wire runs on supervised circuit supervision as shown in Figure 7. The polarity shown in the wiring diagrams is for the operation of the appliances. The polarity is reversed by the FACP during supervision. CAUTION: The following figures show the maximum number of field wires (conductors) that can enter the backbox used with each mounting option. If these limits are exceeded, there may be insufficient space in the backbox to accommodate the field wires and stresses from the wires could damage the product. Although the limits shown for each mounting option comply with the National Electrical Code (NEC), Wheelock recommends use of the largest backbox option shown and the use of approved stranded field wires, whenever possible, to provide additional wiring room for easy installation and minimum stress on the product from wiring. P83983 J Sheet 5 of 8 Table 4A: Vertical Plane(UL 1971) Vertical Angle (in deg.) 15cd 30cd 75cd 1 Ocd UL Min. Typ. 15cd UL Min. Typ. 30cd UL Min. Typ. 75cd UL Min. Typ. 110cd 0 15.0 23 30.0 49 75.0 116 110.0 155 5 13.5 26 27.0 51 67.5 123 99.0 166 10 13.5 21 27.0 42 67.5 105 99.0 139 15 13.5 19 27.0 39 67.5 95 99.0 134 20 13.5 19 27.0 36 67.5 82 99.0 116 25 13.5 17 27.0 34 67.5 83 99.0 114 30 13.5 16 27.0 32 67.5 79 99.0 107 35 9.8 16 19.5 33 48.8 86 71.5 114 40 6.9 13 13.8 27 34.5 61 50.6 84 45 5.1 7 10.2 14 25.5 34 37.4 48 50 4.1 6 8.1 13 20.3 32 29.7 43 55 3.3 6 6.6 13 16.5 31 24.2 42 60 2.7 6 5.4 12 13.5 30 19.8 39 65 2.4 6 4.8 12 12.0 28 17.6 37 70 2.3 6 4.5 12 11.3 28 16.5 39 75 2.0 5 3.9 11 9.8 26 14.3 36 80 1.8 5 3.6 10 9.0 25 13.2 33 85 1.8 5 3.6 11 9.0 27 13.2 35 90 1.8 2 3.6 5 9.0 11 13.2 16 Table 4: Horizontal Plane TIL 1971) Horizontal Angle (in deg.) 15cd 30cd 75cd 110cd UL Min. Typ. 15cd UL Min. Typ. 30cd UL Min. Typ. 75cd UL Min. Typ. 110cd 0 15.0 25 30.0 47 75.0 115 110.0 149 5 13.5 24 27.0 48 67.5 115 99.0 153 10 13.5 24 27.0 48 67.5 113 99.0 151 15 13.5 24 27.0 47 67.5 112 99.0 153 20 13.5 22 27.0 47 67.5 110 99.0 146 25 13.5 22 27.0 46 67.5 107 99.0 149 30 11.3 22 22.5 44 56.3 109 82.5 145 35 11.3 23 22.5 44 56.3 104 82.5 140 40 11.3 22 22.5 44 56.3 104 82.5 135 45 11.3 24 22.5 48 56.3 110 82.5 152 50 8.3 23 16.5 44 41.3 104 60.5 142 55 6.8 18 13.5 34 33.8 79 49.5 101 60 6.0 17 12.0 34 30.0 82 44.0 104 65 5.3 16 10.5 32 26.3 78 38.5 102 70 5.3 15 10.5 31 26.3 75 38.5 95 75 4.5 13 9.0 27 22.5 66 33.0 81 80 4.5 9 9.0 18 22.5 40 33.0 56 85 3.8 4 7.5 9 18.8 22 27.5 31 90 3.8 8 7.5 15 18.8 38 27.5 48 Table 4B: ULC Light Output on Axis Rating CAN/ULC- S526 -02 15cd Setting 30cd Setting 75cd Setting 110cd Setting Min. Typ. Min. 30.0 Typ. 47.0 Min. 75.0 Typ. 115.0 Min. 110.0 Typ. 149.0 Min.2cd 15.0 25.0 c t When calculating the total current: Use Table 3 to determine the highest value of "RMS Current" for an individual NS Appliance (across the expected operating voltage range of the NS Appliance) or use Table 3A/3B to determine the highest value of "Rated Average Current or Peak/Inrush Current" of an individual NS Appliance (across the expected voltage range of the NS Appliance) then multiply the value by the total number of NS Appliances; be sure to add the currents for any other appliances, powered by the same source and include any required safety factors. If the peak current exceeds the power supplies' peak capacity, the output voltage provided by the power supplies may drop below the listed voltage range of the appliances connected to the supply and the voltage may not recover in some types of power supply. For example, an auxiliary power supply that lacks filtering at its output stage (either via lack of capacitance and/or lack of battery backup across the output) may exhibit this characteristic. 0 CAUTION: Strobes are not designed to be used on coded systems in which the applied voltage is cycled on and off. LIGHT DISTRIBUTION PER UL 1971 AND CAN/ULC- S526 -02: P83983 J Sheet 3 of 8 Limited Warranty Wheelock products must be used within their published specifications and must be PROPERLY specified, applied, installed, operated, maintained and operationally tested in accordance with these instructions at the time of installation and at least twice a year or more often and in accordance with local, state and federal codes, regulations and laws. Specification, application, installation, operation, maintenance and testing must be performed by qualified personnel for proper operation in accordance with all of the latest National Fire Protection Association (NFPA), Underwriters' Laboratories (UL), Underwriters' Laboratories of Canada (ULC), National Electrical Code (NEC), Occupational Safety and Health Administration (OSHA), local, state, county, province, district, federal and other applicable building and fire standards, guidelines, regulations, laws and codes including, but not limited to, all appendices and amendments and the requirements of the local authority having jurisdiction (AHJ). Wheelock products when properly specified, applied, installed, operated, maintained and operationally tested as provided above are warranted against mechanical and electrical defects for a period of three years from date of manufacture (as determined by date code). Correction of defects by repair or replacement shall be at Wheelock's sole discretion and shall constitute fulfillment of all obligations under this warranty. THE FOREGOING LIMITED WARRANTY SHALL IMMEDIATELY TERMINATE IN THE EVENT ANY PART NOT FURNISHED BY WHEELOCK IS INSTALLED IN THE PRODUCT. THE FOREGOING LIMITED WARRANTY SPECIFICALLY EXCLUDES ANY SOFTWARE REQUIRED FOR THE OPERATION OF OR INCLUDED IN A PRODUCT. WHEELOCK MAKES NO REPRESENTATION OR WARRANTY OF ANY OTHER KIND, EXPRESS, IMPLIED OR STATUTORY WHETHER AS TO MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR ANY OTHER MATTER. USERS ARE SOLELY RESPONSIBLE FOR DETERMINING WHETHER A PRODUCT IS SUITABLE FOR THE USER'S PURPOSES, OR WHETHER IT WILL ACHIEVE THE USER'S INTENDED RESULTS. THERE IS NO WARRANTY AGAINST DAMAGE RESULTING FROM MISAPPLICATION, IMPROPER SPECIFICATION, ABUSE, ACCIDENT OR OTHER OPERATING CONDITIONS BEYOND WHEELOCK'S CONTROL. SOME WHEELOCK PRODUCTS CONTAIN SOFTWARE. WITH RESPECT TO THOSE PRODUCTS, WHEELOCK DOES NOT WARRANTY THAT THE OPERATION OF THE SOFTWARE WILL BE UNINTERRUPTED OR ERROR -FREE OR THAT THE SOFTWARE WILL MEET ANY OTHER STANDARD OF PERFORMANCE, OR THAT THE FUNCTIONS OR PERFORMANCE OF THE SOFTWARE WILL MEET THE USER'S REQUIREMENTS. WHEELOCK SHALL NOT BE LIABLE FOR ANY DELAYS, BREAKDOWNS, INTERRUPTIONS, LOSS, DESTRUCTION, ALTERATION, OR OTHER PROBLEMS IN THE USE OF A PRODUCT ARISING OUT OF OR CAUSED BY THE SOFTWARE. THE LIABILITY OF WHEELOCK ARISING OUT OF THE SUPPLYING OF A PRODUCT, OR ITS USE, WHETHER ON WARRANTIES, NEGLIGENCE, OR OTHERWISE, SHALL NOT IN ANY CASE EXCEED THE COST OF CORRECTING DEFECTS AS STATED IN THE LIMITED WARRANTY AND UPON EXPIRATION OF THE WARRANTY PERIOD ALL SUCH LIABILITY SHALL TERMINATE. WHEELOCK IS NOT LIABLE FOR LABOR COSTS INCURRED IN REMOVAL, REINSTALLATION OR REPAIR OF THE PRODUCT BY ANYONE OTHER THAN WHEELOCK OR FOR DAMAGE OF ANY TYPE WHATSOEVER, INCLUDING BUT NOT LIMITED TO, LOSS OF PROFIT OR INCIDENTAL OR CONSEQUENTIAL DAMAGES. THE FOREGOING SHALL CONSTITUTE THE SOLE REMEDY OF THE PURCHASER AND THE EXCLUSIVE LIABILITY OF WHEELOCK. IN NO CASE WILL WHEELOCK'S LIABILITY EXCEED THE PURCHASE PRICE PAID FOR A PRODUCT. WHEELOCK'S LIABILITY ON ANY CLAIM OF ANY KIND, INCLUDING NEGLIGENCE AND BREACH OF WARRANTY, FOR ANY LOSS OR DAMAGE RESULTING FROM, ARISING OUT OF, OR CONNECTED WITH THIS CONTRACT, OR FROM THE MANUFACTURE, SALE, DELIVERY, RESALE, REPAIR OR USE OF ANY PRODUCT COVERED BY THIS ORDER SHALL BE LIMITED TO THE PRICE APPLICABLE TO THE PRODUCT OR PART THEREOF WHICH GIVES RISE TO THE CLAIM. WHEELOCK'S LIABILITY ON ANY CLAIM OF ANY KIND SHALL CEASE IMMEDIATELY UPON THE INSTALLATION IN THE PRODUCT OF ANY PART NOT FURNISHED BY WHEELOCK. IN NO EVENT SHALL WHEELOCK BE LIABLE FOR ANY CLAIM OF ANY KIND UNLESS IT IS PROVEN THAT OUR PRODUCT WAS A DIRECT CAUSE OF SUCH CLAIM. FURTHER, IN NO EVENT, INCLUDING IN THE CASE OF A CLAIM OF NEGLIGENCE, SHALL WHEELOCK BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES. SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR CONSEQUENTIAL DAMAGES, SO THE PRECEDING LIMITATION MAY NOT APPLY TO ALL PURCHASERS. 3/04 Limitation of Liability P83983 J Sheet 8 of 8 L � CANDELA SETTINGS: To set the candela, slide the switch to the desired setting. The setting is indicated by the pointer and label visible on the bottom side of the lens. See Figure 1. WARNING: THE CANDELA SELECT SWITCH MUST BE FIELD SET TO THE REQUIRED CANDELA INTENSITY BEFORE INSTALLATION. WHEN CHANGING THE SETTING OF THE CANDELA SELECT SWITCH, MAKE CERTAIN THAT IT "CLICKS" IN PLACE. AFTER CHANGING THE CANDELA SETTING, THE APPLIANCE MUST BE RETESTED TO VERIFY PROPER OPERATION. IMPROPER SETTING OF THE CANDELA SELECT SWITCH, MAY RESULT IN OPERATION AT THE WRONG CANDELA, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. [Lco SETTINGS: O SHOWN SET ON HI dB SHOWN SET ON LOW dB JUMPER PLUGS I J Figure 1: Showing Location of Jumper Plug and Candela Selector. O TOP _ CENTER PIN IS NOT USED SHOWN [j SET ON CODE3 dl' CENTER PIN IS NOT USED SHOWN r SET ON � i' CODE 3 (Use needle nose pliers to pull and properly set the jumper plugs.) n V O O WARNWCt ® ® I I TO PREVENT ELECTRIC SHOCK DO NOT REMOVE THIS COVER. NO USER SERVICEABLE PARTS INSID + .cJy STB AUD CANDELA SELECTOR NOTE: Factory setting is on High dB, Code 3 and 15cd. WARNING: THE NS -MCW APPLIANCE MUST BE FIELD SET TO THE DESIRED TONE AND dBA SOUND OUTPUT LEVEL BEFORE THEY ARE INSTALLED. THIS IS DONE BY PROPERLY INSERTING JUMPER PLUGS IN ACCORDANCE WITH THESE INSTRUCTIONS. INCORRECT SETTINGS WILL RESULT IN IMPROPER PERFORMANCE, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. NOTE: The Code 3 Horn incorporates the temporal pattern (1/2 second on, 1/2 second off, 1/2 second on, 1/2 second off, 1/2 second on, 1 -1/2 off and repeat) specified by ANSI/NFPA for standard emergency evacuation signaling. The Code 3 Horn should be used only for fire evacuation siffnalini and not for any other purpose. Figure 2: Jumper plug settings for High dB and Code 3. Figure 3: Jumper plug settings for Low dB and Continuous Horn. SHOWN h SET ON LOW dB BOTTOM VIEW _ CENTER PIN IS NOT USED SHOWN SET ON � : o- CONT HORN * Figure 4: Jumper plug settings for Low dB and Code 3. Figure 5: Jumper plug settings for High dB and Continuous Horn. CENTER PIN IS NOT USED SHOWN 1— SET ON SHOWN CONT HORN * SET ON HI dB No jumper plugs are needed for Continuous Horn and low dB settings. However, it is recommended that the jumper plug be retained in the unit for future use (if needed) as shown in Figure 3, 4 and 5. NOTE: The NS -MCW must be set for Code 3 horn when used with the sync module. * Continuous horn operation without sync module. P83983 J Sheet 4 of 8 CAUTION: If these appliances are operated within 15 inches of a person's ear, they can produce a sound pressure level that exceeds the maximum 120dBA permitted by ADA and OSHA rules. Exposure to such sound levels can result in damage to a person's hearing. The 110 candela strobe setting is Listed for use in sleeping or non - sleeping areas when installed in accordance with appropriate NFPA Standards and the Authority Having Jurisdiction. A\ WARNING: INSTALLATION OF WHEELOCK 110 CANDELA STROBE PRODUCTS IN SLEEPING AREAS SHOULD BE WALL MOUNTED AT LEAST 24" BELOW THE CEILING AS FOLLOWS: (1) THE ON AXIS (DIRECTLY IN FRONT OF LENS) LIGHT OUTPUT SHOULD BE DIRECTED AT THE EYE -LIDS OF THE SLEEPING PERSON, E.G. PILLOW END OF BED, BED HEAD; (2) NO PART OF THE BED SHALL BE MORE THAN SIXTEEN (16) FEET FROM THE STROBE NOTIFICATION APPLIANCE. INSTALLERS MUST ADVISE OWNERS AND OPERATORS OF BUILDINGS WITH SLEEPING OCCUPANTS, E.G. HOTELS AND MOTELS, TO WARN GUESTS, RESIDENTS AND EMPLOYEES TO NOT MOVE THE BED LOCATION TO A POSITION VIOLATING POINTS (1) AND (2) ABOVE OR SERIOUS INJURY AND /OR LOSS OF LIFE MAY OCCUR DURING A FIRE EMERGENCY. WARNING: A SMALL POSSIBILITY EXISTS THAT THE USE OF MULTIPLE STROBES WITHIN A PERSON'S FIELD OF VIEW, UNDER CERTAIN CIRCUMSTANCES, MIGHT INDUCE A PHOTO - SENSITIVE RESPONSE IN PERSONS WITH EPILEPSY. STROBE REFLECTIONS IN A GLASS OR MIRRORED SURFACE MIGHT ALSO INDUCE SUCH A RESPONSE. TO MINIMIZE THIS POSSIBLE HAZARD, WHEELOCK STRONGLY RECOMMENDS THAT THE STROBES INSTALLED SHOULD NOT PRESENT A COMPOSITE FLASH RATE IN THE FIELD OF VIEW WHICH EXCEEDS FIVE (5) Hz AT THE OPERATING VOLTAGE OF THE STROBES. WHEELOCK ALSO STRONGLY RECOMMENDS THAT THE INTENSITY AND COMPOSITE FLASH RATE OF INSTALLED STROBES COMPLY WITH LEVELS ESTABLISHED BY APPLICABLE LAWS, STANDARDS, REGULATIONS, CODES AND GUIDELINES. NOTE: NFPA 72 /ANSI 117.1 conform to ADAAG Equivalent Facilitation Guidelines in using fewer, higher intensity strobes within the same protected area. These appliances can produce a distinctive three pulse Temporal Pattern Fire Alarm Evacuation Signal (for total evacuation) in accordance with NFPA 72, 1999 Edition. CAUTION: Check the installation instructions of the manufacturers of other equipment used in the system for any guidelines or restrictions on wiring and/or locating Notification Appliance Circuits (NAC) and notification appliances. Some system communication circuits and/or audio circuits, for example, may require special precautions to assure immunity from electrical noise (e.g. audio crosstalk). NOTE: This equipment has been tested and found to comply with the limits for a Class B digital appliance, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: 1) Reorient or relocate the receiving antenna, 2) Increase the separation between the equipment and receiver, 3) Connect the equipment into an outlet on a circuit different from that to which the receiver is connected, and 4) Consult the dealer or an experienced radio/TV technician for help. The Series NS products and these instructions are copyrighted by Wheelock and the Series NS products contain proprietary, confidential and trade secrets of Wheelock. No part of the Series NS products and these instructions may be photocopied, printed or reproduced in any form or modified, adapted, changed or enhanced, or converted to another programming language, or used to create updated, related or derivative works, without the prior written consent of Wheelock. No part of the Series NS products shall be decomposed, disassembled or reverse engineered. ANY MATERIAL EXTRAPOLATED FROM THIS DOCUMENT OR FROM WHEELOCK MANUALS OR OTHER DOCUMENTS DESCRIBING THE PRODUCT FOR USE IN PROMOTIONAL OR ADVERTISING CLAIMS, OR FOR ANY OTHER USE, INCLUDING DESCRIPTION OF THE PRODUCT'S APPLICATION, OPERATION, INSTALLATION AND TESTING IS USED AT THE SOLE RISK OF THE USER AND WHEELOCK WILL NOT HAVE ANY LIABILITY FOR SUCH USE. IMPORTANT: READ SEPARATE "GENERAL INFORMATION" SHEET FOR INFORMATION ON THE PLACEMENT, LIMITATIONS, INSTALLATION, FINAL CHECKOUT, AND PERIODIC TESTING OF NOTIFICATION APPLIANCES. P83983 J Sheet 7 of 8 Table 1A: Audibles/Speakers for RSSP Strobe/Plate Product Series Multitone Appliances AMT, MT, MT4 Horns AH, NH Motor Bells MB -G6 /G 10 Speakers ET- 1010/1070/1080, ET70, E702517070, E70 Chimes CH70 Table 1: UL Ratings Regulated Voltage Range Strobe Mounting Model Voltage Limit Per UL 1971 Candela Options (VDC/VRMS) ( VDCNRMS) (cd) RSS- 24MCWH 24 16.0 -33.0 135/185 A,B,C,D RSSP- 24MCWH 24 16.0 -33.0 135/185 E,F Wheelock INC. 273 Branchport Ave. Long Branch, N.J. 07740 (800) 631 -2148 Thank you for using our products. www.wheelockinc.com INSTALLATION INSTRUCTIONS SERIES RSS AND RSSP MULTI- HIGH - CANDELA STROBE APPLIANCES (WALL MOUNT VERSIONS) Use this product according to this instruction manuaL Please keep this instruction manual for future reference. GENERAL: Wheelock's Series RSS and RSSP Multi- High - Candela Strobes can provide a non - synchronized strobe appliance when connected directly to a Fire Alarm Control Panel (FACP), or provide a synchronized strobe appliance when used in conjunction with a Sync Module (SM), Dual Sync Module (DSM) or Wheelock's Power Supplies utilizing Wheelock sync protocol. The Series RSS and RSSP Multi- High - Candela Strobe Appliances are UL Listed under Standard 1971 (Signaling Devices for the Hearing Impaired) for indoor Fire Protection Service. The Multi- High - Candela strobe provides two selectable light output intensities in one unit. These Strobes are listed for wall mount and indoor use only, with the backboxes specified in these instructions (See Mounting Options). RSS models have an integrated Strobe Mounting Plate (SMP) that can be mounted to a single -gang, double -gang, 4" backbox, 100mm European backbox or SHBB surface backbox. The strobes use a Xenon flashtube with solid state circuitry enclosed in a rugged Lexan® lens to provide maximum visibility and reliability for effective visible signaling. All inputs are polarized for compatibility with standard reverse polarity supervision of circuit wiring by the FACP. NOTE: "Lexan" is a registered trademark of General Electric Company. NOTE: All CAUTIONS and WARNINGS are identified by the symbol A\ . All warnings are printed in bold capital letters. WARNING: THE RSS AND RSSP STROBE APPLIANCE IS A "FIRE ALARM DEVICE - DO NOT PAINT." NOTE: Final acceptance is subject to Authorities Having Jurisdiction. WARNING: PLEASE READ THESE INSTRUCTIONS CAREFULLY BEFORE USING THIS PRODUCT. FAILURE TO COMPLY WITH ANY OF THE FOLLOWING INSTRUCTIONS, CAUTIONS AND WARNINGS COULD RESULT IN IMPROPER APPLICATION, CANDELA SETTING, INSTALLATION AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. SPECIFICATIONS: NOTE: THE MAXIMUM WIRE IMPEDANCE BETWEEN STROBES SHALL NOT EXCEED 35 OHMS. THE MAXIMUM NUMBER OF STROBES ON A SINGLE NOTIFICATION APPLIANCE CIRCUIT SHALL NOT EXCEED 47. NOTES: 1. Strobes will produce 1 flash per second over the "Regulated Voltage" range. 2. All models are UL Listed for indoor use with a temperature range of +32 °F to +120 °F (0 °C to +49 °C) and maximum humidity of 85% RH. Copyright 2004 Wheelock, Inc. All rights reserved. P84450 C Sheet 1 of 7 Table 2: UL Current Ratings Maximum RMS Current Draw UL Voltage 135cd 185cd DC 16 -33VDC 0.300 0.420 FWR 16- 33VRMS 0.455 0.645 D WARNING: CHECK THE MINIMUM AND MAXIMUM OUTPUT OF THE POWER SUPPLY AND STANDBY BATTERY AND SUBTRACT THE VOLTAGE DROP FROM THE CIRCUIT WIRING RESISTANCE TO DETERMINE THE APPPLIED VOLTAGE TO THE STROBES. A WARNING: FOR UL APPLICATIONS THESE APPLIANCES WERE TESTED TO THE OPERATING VOLTAGE LIMITS OF 16-33 VOLTS USING FILTERED (DC) OR UNFILTERED FULL- WAVE - RECTIFIED (FWR). DO NOT APPLY 80% AND 110% OF THESE VOLTAGE VALUES FOR SYSTEM OPERATION. WARNING: CANDELA SETTING WILL DETERMINE THE CURRENT DRAW OF THE PRODUCT. * The maximum time duration for the peak/inrush current is 10 milliseconds. / \ WARNING: MAKE SURE THAT THE TOTAL RMS CURRENT AND TOTAL PEAK CURRENT REQUIRED BY ALL APPLIANCES THAT ARE CONNECTED TO THE SYSTEM'S PRIMARY AND SECONDARY POWER SOURCES, NAC CIRCUITS, SM, DSM SYNC MODULES AND WHEELOCK'S POWER SUPPLIES DO NOT EXCEED THE POWER SOURCES' RATED CAPACITY OR THE CURRENT RATINGS OF ANY FUSES ON THE CIRCUITS TO WHICH THESE APPLIANCES ARE WIRED. OVERLOADING POWER SOURCES OR EXCEEDING FUSE RATINGS COULD RESULT IN LOSS OF POWER AND FAILURE TO ALERT OCCUPANTS DURING AN EMERGENCY, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. When calculating the total currents: Use Table 2 to determine the highest value of "RMS Current" for an individual strobe (across the expected operating voltage range of the strobe) then multiply the value by the total number of strobes; be sure to add the currents for any other appliances, including audible signaling appliances, powered by the same source and include any required safety factors. If the peak current exceeds the power supplies' peak capacity, the output voltage provided by the power supplies may drop below the listed voltage range of the appliances connected to the supply and the voltage may not recover in some types of power supplies. For example, an auxiliary power supply that lacks filtering at its output stage (either via lack of capacitance and/or lack of battery backup across the output) may exhibit this characteristic. P84450 C Sheet 2 of 7 Table 3: UL Light Output - Horizontal and Vertical Plane Angle (in deg.) Horizontal Plane Vertical Plane 135cd 185cd 135cd 185cd UL Min. Typ. 135cd UL Min. Typ. 185cd UL Min. Typ. 135cd UL Min. Typ. 185cd 0 135.0 159.3 185.0 235.3 135.0 159.6 185.0 222.3 5 121.5 159.3 s 166.5 225.7 121.5 169.4 166.5 231.7 10 121.5 156.9 166.5 228.0 A 121.5 165.4 166.5 223.0 15 121.5 157.3 166.5 231.7 121.5 157.7 166.5 216.7 20 121.5 156.1 166.5 230.0 121.5 178.3 166.5 226.7 25 121.5 160.2 166.5 235.3 121.5 172.7 166.5 238.7 30 101.3 163.5 138.8 242.3 121.5 150.7 166.5 206.3 35 101.3 171.0 138.8 254.7 87.8 123.6 120.3 160.0 40 101.3 181.3 138.8 267.7 62.1 103.5 85.1 151.8 45 101.3 171.2 138.8 243.7 45.9 79.8 62.9 119.7 50 74.3 165.5 101.8 250.0 36.5 58.5 50.0 85.5 55 60.8 149.0 83.3 224.0 29.7 54.6 40.7 78.8 60 54.0 136.6 74.0 201.3 24.3 53.3 33.3 77.0 65 47.3 131.1 64.8 192.3 21.6 53.7 29.6 72.8 70 47.3 107.1 64.8 160.2 20.3 55.1 27.8 77.2 75 40.5 89.1 55.5 125.0 17.6 56.3 24.1 80.4 80 40.5 66.4 55.5 96.6 16.2 51.1 22.2 73.9 85 33.8 49.1 46.3 65.7 16.2 45.8 22.2 66.3 90 33.8 50.8 46.3 69.4 16.2 28.8 22.2 46.9 • LIGHT DISTRIBUTION PER UL 1971: WIRING INFORMATION: Figure 1: Wiring Diagrams Figure 2: 1) All Strobe Appliances have m -out wiring terminals that accepts two #12 to #18 American Wire Gauge (AWG) wires at each screw terminal. Strip leads 3/8 inches and connect to screw terminals. 2) Break all in -out wire runs on supervised circuits to assure integrity of circuit supervision as shown in Figure 2. Strobe/Plate assembly has two red leads and two black leads for in -out wiring. The polarity shown in the wiring diagrams is for the operation of the appliances. The polarity is reversed by the FACP during supervision. Refer to Sync Module instruction sheets SM (P83123), DSM (P83177) or Wheelock's Power Supplies for additional information. P84450 C Sheet 3 of 7 TO NEXT SIGNAL FROM PRECEDING APPLIANCE, FRCP - ' OR END OF L NE OR SYNC MODULE 1 t 44, RESISTOR (CM) STROBES +' - STRDBE/PIAIE ASSEMBLY AUDIBLE 8 O IN UNISON AUDIBLE `1 VISIBLE r+ I - I - FROM PRECEDING 1 I - RED - BLK TO NEXT - APPLIANCE. FACP > OR EOLR OR syNo MODULE AUDIBLE VISIBLE FROM PRECEDING - 111111 i 1 =1 TO NEXT OR SYNC MODULE M IN APPLIANCE LE ■ ' APPLIANCE. FACP APPLIANCE OR OR EOLR SYNC MODULE • LIGHT DISTRIBUTION PER UL 1971: WIRING INFORMATION: Figure 1: Wiring Diagrams Figure 2: 1) All Strobe Appliances have m -out wiring terminals that accepts two #12 to #18 American Wire Gauge (AWG) wires at each screw terminal. Strip leads 3/8 inches and connect to screw terminals. 2) Break all in -out wire runs on supervised circuits to assure integrity of circuit supervision as shown in Figure 2. Strobe/Plate assembly has two red leads and two black leads for in -out wiring. The polarity shown in the wiring diagrams is for the operation of the appliances. The polarity is reversed by the FACP during supervision. Refer to Sync Module instruction sheets SM (P83123), DSM (P83177) or Wheelock's Power Supplies for additional information. P84450 C Sheet 3 of 7 MOUNTING PROCEDURES: A\ CAUTION: Check that the installed product will have sufficient clearance and wiring room prior to installing backboxes and conduit, especially if sheathed multiconductor cable or 3/4" conduit fittings are used. 1. This RSS model has an integrated Strobe Mounting Plate (SMP). 2. The Strobe Mounting Plate (SMP) must be oriented correctly when it is mounted to the backbox. Turn the SMP so that the arrow above the words "Horizontal Strobe" points to the top side of the SMP. 3. This RSS model can be flush mounted to a standard single -gang backbox (Figure A), 4" or 100mm backbox (Figure B) or double -gang backbox (Figure C). It can also be surface mounted to a 4" or 100mm backbox (Figure B), double -gang backbox (Figure C) or the SHBB (Figure D). The RSSP model can be flush mounted to a 4" backbox (Figure E) or surface mounted to a SBL -2 backbox (Figure F). 4. Move the selector switch to the desired candela setting. The setting is indicated by a pointer and can be seen on the bottom side of the lens. See Figures 3 and 4 below. 5. Mount the SMP first to the backbox. Next slide the Beauty Plate over the SMP until the 2 snaps of the Beauty Plate engage with the SMP. 6. The Beauty Plate can be removed from the strobe assembly once engaged. First, gently insert a screwdriver into one of the slots located on the top and bottom edges of the Beauty Plate. Second, gently pull away from the wall with the inserted screwdriver to disengage the snap. Third, repeat the first and second steps for the second slot. Finally, gently lift the Beauty Plate away from the SMP. 7. Mounting hardware for each mounting option is supplied. 8. Conduit entrances to the backbox should be selected to provide sufficient wiring clearance for the installed product. 9. When terminating field wires, do not use more lead length than required. Excess lead length could result in insufficient wiring space for the signaling appliance. 10. Use care and proper techniques to position the field wires in the backbox so that they use minimum space and produce minimum stress on the product. This is especially important for stiff, heavy gauge wires and wires with thick insulation or sheathing. 11. Do not pass additional wires (used for other than the signaling appliance) through the backbox. Such additional wires could result in insufficient wiring space for the signaling appliance. 12. The effect of shipping and storage temperatures shall not adversely affect the performance of the appliance when stored in the original cartons and are not subjected to misuse or abuse. RSS- 24MCWH Strobes are listed for indoor use. Figure 3: Figure 4: BOTTOM VIEW NOTE: The RSS/RSSP Multi- High - Candela come pre -set at 185cd. BACK VIEW CANDELA SELECTOR A\ CAUTION: Strobes are not designed to be used on coded systems in which the applied voltage is cycled on and off. A\ \ WARNING: THE CANDELA SELECT SWITCH MUST BE FIELD SET TO THE REQUIRED CANDELA INTENSITY BEFORE INSTALLATION. WREN CHANGING THE SETTING OF THE CANDELA SELECT SWITCH, MAKE CERTAIN THAT IT "CLICKS" IN PLACE. AFTER CHANGING THE CANDELA SETTING, THE APPLIANCE MUST BE RETESTED TO VERIFY PROPER OPERATION. IMPROPER SETTING OF THE CANDELA SELECT SWITCH, MAY RESULT IN OPERATION AT THE WRONG CANDELA, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. P84450 C Sheet 4 of 7 A FLUSH MOUNTING B FLUSH OR SURFACE MOUNT C FLUSH OR SURFACE MOUNT DOUBLE DEEP STROBE PLATE (SNIP) BEAUTY MAXIMUM -GANG BACKBOX c. ° AJ MOUNTING PLATE (SUPPLIED) NUMBER X 21/4" " , % ;'; -- " OF CONDUCTORS X32 X 5!8 SCREWS o 4" SQ. X OR 100m EUROPEAN BEAUTY PLATE MAXIMUM 1 -1/2' X 37.5imi (SUPPUED) NUMBER DEEP BACKBOX BACKBOX STROBE PLATE 1�� / OF CONDUCTORS MOUNTING pop) #832 X SCREWS 314" STROBE E AUT BEAUTY MAXIMUM o • • MOUNTING ALA) PLATE . r Rl (SUPPLIED)- NUMMBEER i - R O OF B OF STD. BACKBOX C ONDUCTORS C SINGLE-GANG 2' DEEP X32 X SCREWS /MG #18 AWG #16 AWG #14 AWG #12 AY #18 AWG#16 MG #14 V # AWG#18 AWG#16 AWG#14 AWG#12 4 4 4 4 4 4 4 4 4 4 4 4 D SURFACE MOUNTING E FLUSH MOUNTING F SURFACE MOUNTING BACKBOX (SBL -2) APPLIANCE .(0 (6, MAXIMUM NUMBER OF o CONDUCTORS SHOW A STROBE MOUNTING PLATE (SMP) BEAUTY PLATE MAXIMUM (SUPPLIED (SHI3B) NUMBER o `k `tm OF CONDUCTORS #&32X3/4" SCREWS APPLIAN «rrr r .4 1 MAXIMUM NUMBER STANDARD DEEP �' OF CONDUCTORS 4" X 2 -1/8' BACKBOX Ma t& AWG #16 AWG #14 AWG #12 AWG #18 AWG #18 AWG #14 AWG#12 MG #18 AWG #16 AWG #14 AWG #M2 8 8 8 8 8 8 8 8 4 4 4 4 MOUNTING OPTIONS: / t \ WARNING: REMOVAL OF THE COVER AT THE BACK OF THE MOUNTING PLATE COULD RESULT IN SEVERE ELECTRIC SHOCK. CAUTION: The following figures show the maximum number of field wires (conductors) that can enter the backbox used with each mounting option. If these limits are exceeded, there may be insufficient space in the backbox to accommodate the field wires and stresses from the wires could damage the product. Although the limits shown for each mounting option comply with the National Electrical Code (NEC), Wheelock recommends use of the largest backbox option shown and the use of approved stranded field wires, whenever possible, to provide additional wiring room for easy installation and minimum stress on the product from wiring. Figures E and F are shown with optional 6" bell. See Table 1A for other possible appliance combinations. P84450 C Sheet 5 of 7 A\ WARNING: WHEN INSTALLING STROBES IN AN OPEN OFFICE OR OTHER AREAS CONTAINING PARTITIONS OR OTHER VIEWING OBSTRUCTIONS, SPECIAL ATTENTION SHOULD BE GIVEN TO THE LOCATION OF THE STROBES SO THAT THEIR OPERATING EFFECT CAN BE SEEN BY ALL INTENDED VIEWERS, WITH THE INTENSITY, NUMBER, AND TYPE OF STROBES BEING SUFFICIENT TO MAKE SURE THAT THE INTENDED VIEWER IS ALERTED BY PROPER ILLUMINATION, REGARDLESS OF THE VIEWER'S ORIENTATION. FAILURE TO DO SO COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. The 135/185cd settings are Listed for use in sleeping or non - sleeping areas when installed in accordance with appropriate NFPA S tandards and the Authority Having Jurisdiction. / • \ WARNING: INSTALLATION OF WHEELOCK 135/185 CANDELA STROBE PRODUCTS IN SLEEPING AREAS SHOULD BE WALL MOUNTED AT LEAST 24" BELOW THE CEILING AS FOLLOWS: (1) THE ON -AXIS (DIRECTLY IN FRONT OF LENS) LIGHT OUTPUT SHOULD BE DIRECTED AT THE EYE -LIDS OF THE SLEEPING PERSON, E.G. PILLOW END OF BED, BED HEAD; (2) NO PART OF THE BED SHALL BE MORE THAN SIXTEEN (16) FEET FROM THE STROBE NOTIFICATION APPLIANCE. INSTALLERS MUST ADVISE OWNERS AND OPERATORS OF BUILDINGS WITH SLEEPING OCCUPANTS, E.G. HOTELS AND MOTELS, TO WARN GUESTS, RESIDENTS AND EMPLOYEES TO NOT MOVE THE BED LOCATION TO A POSITION VIOLATING POINTS (1) AND (2) ABOVE OR SERIOUS INJURY AND /OR LOSS OF LIFE MAY OCCUR DURING A FIRE EMERGENCY. A\ WARNING: A SMALL POSSIBILITY EXISTS THAT THE USE OF MULTIPLE STROBES WITHIN A PERSON'S FIELD OF VIEW, UNDER CERTAIN CIRCUMSTANCES, MIGHT INDUCE A PHOTO - SENSITIVE RESPONSE IN PERSONS WITH EPILEPSY. STROBE REFLECTIONS IN A GLASS OR MIRRORED SURFACE MIGHT ALSO INDUCE SUCH A RESPONSE. TO MINIMIZE THIS POSSIBLE HAZARD, WHEELOCK STRONGLY RECOMMENDS THAT THE STROBES INSTALLED SHOULD NOT PRESENT A COMPOSITE FLASH RATE IN THE FIELD OF VIEW WHICH EXCEEDS FIVE (5) Hz AT THE OPERATING VOLTAGE OF THE STROBES. WHEELOCK ALSO STRONGLY RECOMMENDS THAT THE INTENSITY AND COMPOSITE FLASH RATE OF INSTALLED STROBES COMPLY WITH LEVELS ESTABLISHED BY APPLICABLE LAWS, STANDARDS, REGULATIONS, CODES AND GUIDELINES. NOTE: NFPA 72 /ANSI 117.1 conform to ADAAG Equivalent Facilitation Guidelines in using fewer, higher intensity strobes within the same protected area. A\ \ CAUTION: Check the installation instructions of the manufacturers of other equipment used in the system for any guidelines or restrictions on wiring and/or locating Notification Appliance Circuits (NAC) and notification appliances. Some system communication circuits and/or audio circuits, for example, may require special precautions to assure immunity from electrical noise (e.g. audio crosstalk). NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: 1) Reorient or relocate the receiving antenna, 2) Increase the separation between the equipment and receiver, 3) Connect the equipment into an outlet on a circuit different from that to which the receiver is connected., and 4) Consult the dealer or an experienced radio/TV technician for help. ANY MATERIAL EXTRAPOLATED FROM THIS DOCUMENT OR FROM WHEELOCK MANUALS OR OTHER DOCUMENTS DESCRIBING THE PRODUCT FOR USE IN PROMOTIONAL OR ADVERTISING CLAIMS, OR FOR ANY OTHER USE, INCLUDING DESCRIPTION OF THE PRODUCT'S APPLICATION, OPERATION, INSTALLATION AND TESTING IS USED AT THE SOLE RISK OF THE USER AND WHEELOCK WILL NOT HAVE ANY LIABILITY FOR SUCH USE. IMPORTANT: READ SEPARATE "GENERAL INFORMATION" SHEET FOR INFORMATION ON THE PLACEMENT, LIMITATIONS, INSTALLATION, FINAL CHECKOUT, AND PERIODIC TESTING OF NOTIFICATION APPLIANCES. P84450 C Sheet 6 of 7 Limited Warranty Wheelock products must be used within their published specifications and must be PROPERLY specified, applied, installed, operated, maintained and operationally tested in accordance with these instructions at the time of installation and at least twice a year or more often and in accordance with local, state and federal codes, regulations and laws. Specification, application, installation, operation, maintenance and testing must be performed by qualified personnel for proper operation in accordance with all of the latest National Fire Protection Association (NFPA), Underwriters' Laboratories (UL), Underwriters' Laboratories of Canada (ULC), National Electrical Code (NEC), Occupational Safety and Health Administration (OSHA), local, state, county, province, district, federal and other applicable building and fire standards, guidelines, regulations, laws and codes including, but not limited to, all appendices and amendments and the requirements of the local authority having jurisdiction (AHJ). Wheelock products when properly specified, applied, installed, operated, maintained and operationally tested as provided above are warranted against mechanical and electrical defects for a period of three years from date of manufacture (as determined by date code). Correction of defects by repair or replacement shall be at Wheelock's sole discretion and shall constitute fulfillment of all obligations under this warranty. THE FOREGOING LIMITED WARRANTY SHALL IMMEDIATELY TERMINATE IN THE EVENT ANY PART NOT FURNISHED BY WHEELOCK IS INSTALLED IN THE PRODUCT. THE FOREGOING LIMITED WARRANTY SPECIFICALLY EXCLUDES ANY SOFTWARE REQUIRED FOR THE OPERATION OF OR INCLUDED IN A PRODUCT. WHEELOCK MAKES NO REPRESENTATION OR WARRANTY OF ANY OTHER KIND, EXPRESS, IMPLIED OR STATUTORY WHETHER AS TO MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR ANY OTHER MATTER USERS ARE SOLELY RESPONSIBLE FOR DETERMINING WHETHER A PRODUCT IS SUITABLE FOR THE USER'S PURPOSES, OR WHETHER IT WILL ACHIEVE THE USER'S INTENDED RESULTS. THERE IS NO WARRANTY AGAINST DAMAGE RESULTING FROM MISAPPLICATION, IMPROPER SPECIFICATION, ABUSE, ACCIDENT OR OTHER OPERATING CONDITIONS BEYOND WHEELOCK'S CONTROL. SOME WHEELOCK PRODUCTS CONTAIN SOFTWARE. WITH RESPECT TO THOSE PRODUCTS, WHEELOCK DOES NOT WARRANTY THAT THE OPERATION OF THE SOFTWARE WILL BE UNINTERRUPTED OR ERROR -FREE OR THAT THE SOFTWARE WILL MEET ANY OTHER STANDARD OF PERFORMANCE, OR THAT THE FUNCTIONS OR PERFORMANCE OF THE SOFTWARE WILL MEET THE USER'S REQUIREMENTS. WHEELOCK SHALL NOT BE LIABLE FOR ANY DELAYS, BREAKDOWNS, INTERRUPTIONS, LOSS, DESTRUCTION, ALTERATION, OR OTHER PROBLEMS IN THE USE OF A PRODUCT ARISING OUT OF OR CAUSED BY THE SOFTWARE. THE LIABILITY OF WHEELOCK ARISING OUT OF THE SUPPLYING OF A PRODUCT, OR ITS USE, WHETHER ON WARRANTIES, NEGLIGENCE, OR OTHERWISE, SHALL NOT IN ANY CASE EXCEED THE COST OF CORRECTING DEFECTS AS STATED IN THE LIMITED WARRANTY AND UPON EXPIRATION OF THE WARRANTY PERIOD ALL SUCH LIABILITY SHALL TERMINATE. WHEELOCK IS NOT LIABLE FOR LABOR COSTS INCURRED IN REMOVAL, REINSTALLATION OR REPAIR OF THE PRODUCT BY ANYONE OTHER THAN WHEELOCK OR FOR DAMAGE OF ANY TYPE WHATSOEVER, INCLUDING BUT NOT LIMITED TO, LOSS OF PROFIT OR INCIDENTAL OR CONSEQUENTIAL DAMAGES. THE FOREGOING SHALL CONSTITUTE THE SOLE REMEDY OF THE PURCHASER AND THE EXCLUSIVE LIABILITY OF WHEELOCK. IN NO CASE WILL WHEELOCK'S LIABILITY EXCEED THE PURCHASE PRICE PAID FOR A PRODUCT. Limitation of Liability WHEELOCK'S LIABILITY ON ANY CLAIM OF ANY KIND, INCLUDING NEGLIGENCE AND BREACH OF WARRANTY, FOR ANY LOSS OR DAMAGE RESULTING FROM, ARISING OUT OF, OR CONNECTED WITH THIS CONTRACT, OR FROM THE MANUFACTURE, SALE, DELIVERY, RESALE, REPAIR OR USE OF ANY PRODUCT COVERED BY THIS ORDER SHALL BE LIMITED TO THE PRICE APPLICABLE TO THE PRODUCT OR PART THEREOF WHICH GIVES RISE TO THE CLAIM. WHEELOCK'S LIABILITY ON ANY CLAIM OF ANY KIND SHALL CEASE IMMEDIATELY UPON THE INSTALLATION IN THE PRODUCT OF ANY PART NOT FURNISHED BY WHEELOCK. IN NO EVENT SHALL WHEELOCK BE LIABLE FOR ANY CLAIM OF ANY KIND UNLESS IT IS PROVEN THAT OUR PRODUCT WAS A DIRECT CAUSE OF SUCH CLAIM. FURTHER, IN NO EVENT, INCLUDING IN THE CASE OF A CLAIM OF NEGLIGENCE, SHALL WHEELOCK BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES. SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR CONSEQUENTIAL DAMAGES, SO THE PRECEDING LIMITATION MAY NOT APPLY TO ALL PURCHASERS. 3/04 P84450 C Sheet 7 of 7 Table 1: UL/ULC Ratin_ s Model Regulated Voltage (VDC/VRMS) Voltage Range Limit Per UL 1638 (VDCNRMS) Voltage Range Per CAN/ULC- S526 -02 (VDCNRMS) UL Rated Strobe Candela cd ULC Rated Strobe Candela (cd) At 25 °C At -35 °C RSSWP -2475W 24 16.0 -33.0 20.0 -31.0 180 75 180 wheelock INC. 273 Branchport Ave. Long Branch, N.J. 07740 (800) 631 -2148 (800) 397 -5777 www.wheelockinc.com Thank you for using our products. INSTALLATION INSTRUCTIONS SERIES RSSWP STROBE WEATHERPROOF APPLIANCE (2 -WIRE WALL MOUNT VERSION) Use this product according to this instruction manual. Please keep this instruction manual for future reference. GENERAL: Wheelock's Series RSSWP Strobes can provide a non - synchronized strobe signal when connected directly to a Fire Alarm Control Panel (FACP), or provide a synchronized strobe signal when used in conjunction with a Sync Module (SM), Dual Sync Module (DSM), or Wheelock's Power Supplies. The RSSWP strobe appliance is UL Listed under Standard 1638 (Visual Signaling Appliances) for indoor /outdoor use, fire protective service. The Series RSSWP Strobe Appliances are also ULC Listed under Standard CAN/ULC- S526 -02 for Visual Signaling Appliances. The strobe has a 75 candela intensity on axis at -35 ° C and low current draw. For outdoor applications the RSSWP must be wall mounted to a Weatherproof Backbox (WPSBB). The strobes use a Xenon flashtube with solid state circuitry enclosed in a rugged Lexan® lens to provide maximum visibility and reliability for effective visible signaling. All inputs are polarized for compatibility with standard reverse polarity supervision of circuit wiring by a FACP. NOTE: "Lexan" is a registered trademark of General Electric Company. NOTE: All CAUTIONS and WARNINGS are identified by the symbol n. All warnings are printed in bold capital letters. A\ WARNING: THE RSSWP STROBE APPLIANCE IS A "FIRE ALARM DEVICE - DO NOT PAINT." NOTE: All Canadian Installations should be in accordance with the Canadian Standard for the Installation of Fire Alarm Systems - CAN/ULC-S524-01 and Canadian Electrical Code, Part 1. Final acceptance is subject to Authorities Having Jurisdiction. WARNING: PLEASE READ THESE INSTRUCTIONS CAREFULLY. FAILURE TO COMPLY WITH ANY OF THE FOLLOWING INSTRUCTIONS, CAUTIONS AND WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLATION AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. SPECIFICATIONS: NOTES: 1. Strobes will produce 1 flash per second over the "Regulated Voltage" range. 2. All models are UL/ULC Listed for indoor and outdoor use with a temperature range of -31 °F to +150 °F ( -35 °C to +66 °C) and maximum humidity of 93% RH, ± 2 %. NOTE: THE MAXIMUM WIRE IMPEDANCE BETWEEN STROBES SHALL NOT EXCEED 35 OHMS. THE MAXIMUM NUMBER OF STROBES ON A SINGLE NOTIFICATION APPLIANCE CIRCUIT SHALL NOT EXCEED 47. Copyright 2004 Wheelock, Inc. All rights reserved. P84135 G Sheet 1 of 6 Table 2A: ULC Current Ratings (AMPS) Rated Average Current ULC Voltage 75cd 20.0VDC 0.138 24.0VDC 0.094 31.0VDC 0.067 20.0VRMS 0.222 24.0VRMS 0.160 31.0VRMS 0.128 Rated Peak/Inrush Current * ULC Voltage 75cd 20.0- 31.0VDC 0.650 20.0- 31.0VRMS 0.650 Table 2: UL Current Ratings (AMPS) Maximum RMS Current Draw UL Voltage 75cd DC 16 -33VDC 0.138 FWR 16- 33VRMS 0.222 * The time duration for the peak/inrush current is 10 milliseconds A\ WARNING: FOR UL APPLIACATIONS THESE APPLIANCES WERE TESTED TO THE OPERATING VOLTAGE LIMITS OF 16-33 VOLTS USING FILTERED (DC) OR UNFILTERED FULL- WAVE - RECTIFIED (FWR). DO NOT APPLY 80% AND 110% OF THESE VOLTAGE VALUES FOR SYSTEM OPERATION. A\ \ WARNING: FOR ULC APPLIACATIONS THESE APPLIANCES WERE TESTED TO THE OPERATING VOLTAGE LIMITS OF 20-31 VOLTS USING FILTERED (DC) OR UNFILTERED FULL - WAVE - RECTIFIED (FWR). APPLY 80% AND 110% OF THESE VOLTAGE VALUES FOR SYSTEM OPERATION. WARNING: CHECK THE MINIMUM AND MAXIMUM OUTPUT OF THE POWER SUPPLY AND STANDBY BATTERY AND SUBTRACT THE VOLTAGE DROP FROM THE CIRCUIT WIRING RESISTANCE TO DETERMINE THE APPLIED VOLTAGE TO THE STROBES. A\ \ WARNING: MAKE SURE THAT THE TOTAL RMS CURRENT, TOTAL AVERAGE CURRENT AND TOTAL PEAK CURRENT REQUIRED BY ALL APPLIANCES THAT ARE CONNECTED TO THE SYSTEM'S PRIMARY AND SECONDARY POWER SOURCES, NAC CIRCUITS, SM, DSM SYNC MODULES OR WHEELOCKS POWER SUPPLIES DO NOT EXCEED THE POWER SOURCES' RATED CAPACITY OR THE CURRENT RATINGS OF ANY FUSES ON THE CIRCUITS TO WHICH THESE APPLIANCES ARE WIRED. OVERLOADING POWER SOURCES OR EXCEEDING FUSE RATINGS COULD RESULT IN LOSS OF POWER AND FAILURE TO ALERT OCCUPANTS DURING AN EMERGENCY, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. When calculating the total currents: Use Table 2 to determine the highest value of "RMS Current" for an individual strobe (across the expected operating voltage range of the strobe), use Table 2A to determine the highest value of "Rated Average Current" or "Rated Peak Current" of an individual strobe (across the expected voltage range of the strobe), then multiply these values by the total number of strobes; be sure to add the currents for any other appliances, including audible signaling appliances, powered by the same source and include any required safety factors. If the peak current exceeds the power supplies' peak capacity, the output voltage provided by the power supplies may drop below the listed voltage range of the appliances connected to the supply and the voltage may not recover in some types of power supplies. For example, an auxiliary power supply that lacks filtering at its output stage (either via lack of capacitance and/or lack of battery backup across the output) may exhibit this characteristic. A\ CAUTION: Strobes are not designed to be used on coded systems in which the applied voltage is cycled on and off. P84135 G Sheet 2 of 6 Table 3: Candela at Various Angles Per UL 1638 Model Rated Candela Al A2 A3 A4 A5 A6 /A7 RSSWP -2475W 75.0c1 180 16 16 15 15 8 LIGHT DISTRIBUTION: WIRING INFORMATION: FROM FACP, PRECEDING APPLIANCE OR SYNC • MODULE MOUNTING OPTIONS: Figure 1: Wiring Diagram . T O D NEX OF APP�CE OR RESISTOR (EOLR) Figure 2: Refer to Sync Module instruction sheets SM (P83123), DSM (P83177) or Wheelock's Power Supplies for additional information. 1) All Strobe Appliances have in -out wiring terminals that accepts two #12 to #18 American Wire Gauge (AWG) wires at each screw terminal. Strip leads 3/8 inches and connect to screw terminals. 2) Break all in -out wire runs on supervised circuits to assure integrity of circuit supervision as shown in Figure 2. The polarity shown in the wiring diagram is for the operation of the appliances. The polarity is reversed by the FACP during supervision. WARNING: REMOVAL OF THE PRINTED CIRCUIT BOARD COVER AT THE BACK OF THE MOUNTING PLATE COULD RESULT IN SEVERE ELECTRIC SHOCK. CAUTION: The following figure show the maximum number of field wires (conductors) that can enter the backbox used with each mounting option. If these limits are exceeded, there may be insufficient space in the backbox to accommodate the field wires and stresses from the wires could damage the product. Although the limits shown for each mounting option comply with the National Electrical Code (NEC), Wheelock recommends use of the largest backbox option shown and the use of approved stranded field wires, whenever possible, to provide additional wiring room for easy installation and minimum stress on the product from wiring. DRAIN HOLE (Dom) MAXIMUM NUMBER OF CONDUCTORS A M3 #18 A M3 #16 AWG#14 AV12L21 4 4 4 4 P84135 G Sheet 3 of 6 MOUNTING PROCEDURES: Use this mounting procedure to position the field wires in the backbox so that they use minimum space and produce minimum stress on the product. This is especially important for stiff, heavy gauge wires and wires with thick insulation or sheathing. 1. Connect 4 field wires to the RSSWP terminal block (polarity must be observed). 2. Bend the 4 field wires up 90° at the connection to the terminal block. 3. Carefully push. the 4 field wires into the backbox by hand. 4. Carefully press the RSSWP to the backbox, verifying that the RSSWP is in contact with the gasket all the way around. It should not be resting on the lip of the backbox. 5. Screw the RSSWP to the WPSBB using the #8 -18 X 1" screws supplied. 6. The knock -out opening on the backbox is sized for a /2" conduit and matching connector. Be sure that a proper watertight conduit fitting is used to connect the backbox for outdoor /severe environment applications. MOUNTING NOTES: A\ WARNING: THIS UNIT MUST BE WALL MOUNTED ON A FLAT SURFACE, SO THAT THE WALL COVERS THE ENTIRE BACK SURFACE, AND WITH THE DRAIN HOLES POINTED DOWN TOWARD THE GROUND AND "TOP" FACING UP. WHEN USED IN AN OUTDOOR APPLICATION OR A NEMA 3R APPLICATION KNOCKOUTS IN THE REAR OF THE BACKBOX MUST REMAIN INTACT. A\ CAUTION: Check that the installed product will have sufficient clearance and wiring room prior to installing backboxes and conduit, especially if sheathed multiconductor cable or 3/4" conduit fittings are used. 1. Conduit entrances to the backbox should be selected to provide sufficient wiring clearance for the installed product. 2. When terminating field wires, do not use more lead length than required. Excess lead length could result in insufficient wiring space for the signaling appliance. 3. Do not pass additional wires (used for other than the signaling appliance) through the backbox. Such additional wires could result in insufficient wiring space for the signaling appliance. 4. The effect of shipping and storage temperatures do not adversely affect the performance of the appliances when stored in the original cartons and are not subjected to misuse. P84135 G Sheet 4 of 6 • M A WARNING: WHEN INSTALLING STROBES IN AN OPEN OFFICE OR OTHER AREAS CONTAINING PARTITIONS OR OTHER VIEWING OBSTRUCTIONS, SPECIAL ATTENTION SHOULD BE GIVEN TO THE LOCATION OF THE STROBES SO THAT THEIR OPERATING Et'r'ECT CAN BE SEEN BY ALL INTENDED VIEWERS, WITH THE INTENSITY, NUMBER, AND TYPE OF STROBES BEING SUFFICIENT TO MAKE SURE THAT THE INTENDED VIEWER IS ALERTED BY PROPER ILLUMINATION. FAILURE TO DO SO COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. A WARNING: A SMALL POSSIBILITY EXISTS THAT THE USE OF MULTIPLE STROBES WITHIN A PERSON'S FIELD OF VIEW, UNDER CERTAIN CIRCUMSTANCES, MIGHT INDUCE A PHOTO - SENSITIVE RESPONSE IN PERSONS WITH EPILEPSY. STROBE REFLECTIONS IN A GLASS OR MIRRORED SURFACE MIGHT ALSO INDUCE SUCH RESPONSE. TO MINIMIZE THIS POSSIBLE HAZARD, WHEELOCK STRONGLY RECOMMENDS THAT THE STROBES INSTALLED SHOULD NOT PRESENT A COMPOSITE FLASH RATE IN THE FIELD OF VIEW WHICH EXCEEDS FIVE (5) Hz AT THE OPERATING VOLTAGE OF THE STROBES. WHEELOCK ALSO STRONGLY RECOMMENDS THAT THE INTENSITY AND COMPOSITE FLASH RATE OF INSTALLED STROBES COMPLY WITH LEVELS ESTABLISHED BY APPLICABLE LAWS, STANDARDS, REGULATIONS, CODES AND GUIDELINES. NOTE: NFPA 72 /ANSI 117.1 conform to ADAAG Equivalent Facilitation Guidelines in using fewer, higher intensity strobes within the same protected area. A CAUTION: Check the installation instructions of the manufacturers of other equipment used in the system for any guidelines or restrictions on wiring and/or locating Notification Appliance Circuits (NAC) and notification appliances. Some system communication circuits and/or audio circuits, for example, may require special precautions to assure immunity from electrical noise (e.g. audio crosstalk). NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: 1) Reorient or relocate the receiving antenna, 2) Increase the separation between the equipment and receiver, 3) Connect the equipment into an outlet on a circuit different from that to which the receiver is connected, and 4) Consult the dealer or an experienced radiofTV technician for help. ANY MATERIAL EXTRAPOLATED FROM THIS DOCUMENT OR FROM WHEELOCK MANUALS OR OTHER DOCUMENTS DESCRIBING THE PRODUCT FOR USE IN PROMOTIONAL OR ADVERTISING CLAIMS, OR FOR ANY OTHER USE, INCLUDING DESCRIPTION OF THE PRODUCT'S APPLICATION, OPERATION, INSTALLATION AND TESTING IS USED AT THE SOLE RISK OF THE USER AND WHEELOCK WILL NOT HAVE ANY LIABILITY FOR SUCH USE. IMPORTANT: READ SEPARATE "GENERAL INFORMATION" SHEET FOR INFORMATION ON THE PLACEMENT, LIMITATIONS, INSTALLATION, FINAL CHECKOUT, AND PERIODIC TESTING OF NOTIFICATION APPLIANCES. P84135 G Sheet 5 of 6 Limited Warranty Wheelock products must be used within their published specifications and must be PROPERLY specified, applied, installed, operated, maintained and operationally tested in accordance with these instructions at the time of installation and at least twice a year or more often and in accordance with local, state and federal codes, regulations and laws. Specification, application, installation, operation, maintenance and testing must be performed by qualified personnel for proper operation in accordance with all of the latest National Fire Protection Association (NFPA), Underwriters' Laboratories (UL), Underwriters' Laboratories of Canada (ULC), National Electrical Code (NEC), Occupational Safety and Health Administration (OSHA), local, state, county, province, district, federal and other applicable building and fire standards, guidelines, regulations, laws and codes including, but not limited to, all appendices and amendments and the requirements of the local authority having jurisdiction (AHJ). Wheelock products when properly specified, applied, installed, operated, maintained and operationally tested as provided above are warranted against mechanical and electrical defects for a period of three years from date of manufacture (as determined by date code). Correction of defects by repair or replacement shall be at Wheelock's sole discretion and shall constitute fulfillment of all obligations under this warranty. THE FOREGOING LIMITED WARRANTY SHALL IMMEDIATELY TERMINATE IN THE EVENT ANY PART NOT FURNISHED BY WHEELOCK IS INSTALLED IN THE PRODUCT. THE FOREGOING LIMITED WARRANTY SPECIFICALLY EXCLUDES ANY SOFTWARE REQUIRED FOR THE OPERATION OF OR INCLUDED IN A PRODUCT. WHEELOCK MAKES NO REPRESENTATION OR WARRANTY OF ANY OTHER KIND, EXPRESS, IMPLIED OR STATUTORY WHETHER AS TO MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR ANY OTHER MATTER. USERS ARE SOLELY RESPONSIBLE FOR DETERMINING WHETHER A PRODUCT IS SUITABLE FOR THE USER'S PURPOSES, OR WHETHER IT WILL ACHIEVE THE USER'S INTENDED RESULTS. THERE IS NO WARRANTY AGAINST DAMAGE RESULTING FROM MISAPPLICATION, IMPROPER SPECIFICATION, ABUSE, ACCIDENT OR OTHER OPERATING CONDITIONS BEYOND WHEELOCK'S CONTROL. SOME WHEELOCK PRODUCTS CONTAIN SOFTWARE. WITH RESPECT TO THOSE PRODUCTS, WHEELOCK DOES NOT WARRANTY THAT THE OPERATION OF THE SOFTWARE WILL BE UNINTERRUPTED OR ERROR -FREE OR THAT THE SOFTWARE WILL MEET ANY OTHER STANDARD OF PERFORMANCE, OR THAT THE FUNCTIONS OR PERFORMANCE OF THE SOFTWARE WILL MEET THE USER'S REQUIREMENTS. WHEELOCK SHALL NOT BE LIABLE FOR ANY DELAYS, BREAKDOWNS, INTERRUPTIONS, LOSS, DESTRUCTION, ALTERATION, OR OTHER PROBLEMS IN THE USE OF A PRODUCT ARISING OUT OF OR CAUSED BY THE SOFTWARE. THE LIABILITY OF WHEELOCK ARISING OUT OF THE SUPPLYING OF A PRODUCT, OR ITS USE, WHETHER ON WARRANTIES, NEGLIGENCE, OR OTHERWISE, SHALL NOT IN ANY CASE EXCEED THE COST OF CORRECTING DEFECTS AS STATED IN THE LIMITED WARRANTY AND UPON EXPIRATION OF THE WARRANTY PERIOD ALL SUCH LIABILITY SHALL TERMINATE. WHEELOCK IS NOT LIABLE FOR LABOR COSTS INCURRED IN REMOVAL, REINSTALLATION OR REPAIR OF THE PRODUCT BY ANYONE OTHER THAN WHEELOCK OR FOR DAMAGE OF ANY TYPE WHATSOEVER, INCLUDING BUT NOT LIMITED TO, LOSS OF PROFIT OR INCIDENTAL OR CONSEQUENTIAL DAMAGES. THE FOREGOING SHALL CONSTITUTE THE SOLE REMEDY OF THE PURCHASER AND THE EXCLUSIVE LIABILITY OF WHEELOCK. IN NO CASE WILL WHEELOCK'S LIABILITY EXCEED THE PURCHASE PRICE PAID FOR A PRODUCT. Limitation of Liability WHEELOCK'S LIABILITY ON ANY CLAIM OF ANY KIND, INCLUDING NEGLIGENCE AND BREACH OF WARRANTY, FOR ANY LOSS OR DAMAGE RESULTING FROM, ARISING OUT OF, OR CONNECTED WITH THIS CONTRACT, OR FROM THE MANUFACTURE, SALE, DELIVERY, RESALE, REPAIR OR USE OF ANY PRODUCT COVERED BY THIS ORDER SHALL BE LIMITED TO THE PRICE APPLICABLE TO THE PRODUCT OR PART THEREOF WHICH GIVES RISE TO THE CLAIM. WHEELOCK'S LIABILITY ON ANY CLAIM OF ANY KIND SHALL CEASE IMMEDIATELY UPON THE INSTALLATION IN THE PRODUCT OF ANY PART NOT FURNISHED BY WHEELOCK. IN NO EVENT SHALL WHEELOCK BE LIABLE FOR ANY CLAIM OF ANY KIND UNLESS IT IS PROVEN THAT OUR PRODUCT WAS A DIRECT CAUSE OF SUCH CLAIM. FURTHER, IN NO EVENT, INCLUDING IN THE CASE OF A CLAIM OF NEGLIGENCE, SHALL WHEELOCK BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES. SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR CONSEQUENTIAL DAMAGES, SO THE PRECEDING LIMITATION MAY NOT APPLY TO ALL PURCHASERS. 3/04 P84135 G Sheet 6 of 6 INSTALLATION AND MAINTENANCE INSTRUCTIONS 1400 Direct Wire Ionization Smoke Detector Specifications Diameter: Height: Weight: Operating Temperature: Latching Alarm: Operating Humidity: Electrical Ratings:. System Voltage: Maximum Ripple Voltage: Start-up Capacitance: Standby Ratings: Alarm Ratings: Reset Voltage: Reset Time: Start-up Time: Before Installing Please thoroughly read the System Sensor manual A05- 1003, Applications Guide for System Smoke Detectors. This manual provides detailed information on detector spacing, placement, zoning, wiring, and special applications. Copies of this manual are available at no charge from System Sensor. (For installation in Canada, refer to CAN/ULC- S524, Standard for the Installation of Fire Alarm- Systems and CEC Part 1, Sec. 32.) 5.5 inches (140 mm) 3.12 inches (80 mm) 0.7 lb. (310 g) 0 °C to +49 °C (32 °F to 120 °F) Reset by momentary power interruption. 10% to 93% Relative Humidity, Noncondensing General Description System Sensor 1400 dual- chamber ionization smoke detec- tors utilize state -of- the -art, unipolar sensing chambers. These detectors are designed to provide open area protec- tion, and to be used with compatible UL- listed, 2 -wire con- trol panels only. The detector's operation and sensitivity can be tested in place. D400 -07 -00 1 3825 Ohio Avenue, St. Charles, Illinois 60174 1- 800- SENSOR2, FAX: 630- 377 -6495 www.systemsensor.com 12/24 VDC 4 Volts peak to peak 0.02 pA Maximum 8.5 VDC Minimum 35 VDC Maximum 100 /IA Maximum 4.2 VDC Minimum at 10 mA 6.6 VDC Minimum at 100 mA Alarm current must be limited to 100 mA maximum by the control panel. If used, the RA400Z Remote Annunciator operates within the specified detector alarm currents. 2.5 VDC Minimum 0.3 S Maximum 35 S Maximum Each detector includes an LED that provides a local visual indication of the detector's status. The LED blinks every ten seconds as an indication that power is applied to the detector and lights continuously in alarm. These detectors also have the latching alarm feature. The alarm can be reset only by a momentary power interruption. The detector also has provision for the connection of an optional Model RA400Z Remote Annunciator. The RA400Z provides a visual indication of an alarm and mounts to a single gang box. Spacing NFPA 72 defines the spacing requirements for smoke detectors. Typically, this is 30 feet when the detectors are installed on a smooth ceiling. However, ALL installations must comply with NFPA 72 and /or special requirements of the authority having jurisdiction. 156- 279 -05R Figure 1. Surface mounting of Model 1400 detector on 3-1/2 and 4 inch octagonal box: 11111111111111111111 VIEW 50139 -00 Figure 2. Model 1400 detector mounting bracket: TAMPER RESISTANT TAB TO MAKE DETECTOR TAMPER RESISTANT, BREAK OFF TAB EXTENSION AT SCRIBED LINE S0140 -00 Mounting Each 1400 detector is supplied with a mounting bracket kit that permits the detector to be mounted: 1. Directly to a 3 inch or 4 inch octagonal, 1 inch deep electrical box, or 2. To a 4 inch square electrical box by using a plaster ring with the supplied mounting bracket kit. Installation Wiring Guidelines All wiring must be installed in compliance with the National Electrical Code and all applicable local codes and any special requirements of the authority having jurisdic- tion, using the proper wire size. The conductors used to connect smoke detectors to control panels and accessory devices should be color -coded to reduce the likelihood of wiring errors. Improper connections can prevent a system from responding properly in the event of a fire. For signal wiring (the wiring between interconnected detectors), it is recommended that the wire be no smaller than AWG 18. However, the screws and clamping plate can accommodate wire sizes up to AWG 12. The use of twisted pair wiring for the power (+ and -) loop is recommended to minimize the effects of electrical interference. D400 -07 -00 Smoke detectors and alarm system control panels have specifications for allowable loop resistance. Consult the control panel manufacturer's specifications for the total loop resistance allowed for the control panel being used before wiring the detector loops. Begin electrical connections by stripping about 3 /8" insula- tion from the end of the wire. Then, slide the bare end of the wire under the clamping plate and tighten the damping plate screw. A wiring diagram for a typical 2 -wire detector system is shown in Figure 3. NOTE: Break the wire at each terminal to ensure that the connections are supervised. Do NOT loop the wire under the terminals. System Sensor smoke detectors are marked with a compat- ibility identifier located as the last digit of a five digit code stamped on the back of the product. Connect detectors only to compatible control units as indicated in System Sensor's compatibility chart which contains a current list of UL- listed control units and detectors. A copy of this list is available from System Sensor upon request. Tamper- resistant Feature This detector includes a tamper- resistant feature that effec- tively prevents removal of the detector without the use of a tool. To make the detector tamper - resistant, break off the smaller tab at the scribed line on the tamper resistant tab, on the detector mounting bracket (see Figure 2), then install the detector. To remove the detector from the bracket once it has been made tamper resistant, use a small screw- driver to depress the tamper - resistant tab located in the slot on the mounting bracket and turn the detector coun- terclockwise for removal. Installation AWARNING Disconnect the power to the alarm system control unit before installing detectors. 1. Wire the detector following the installation guidelines. 2. Line up arrows on the detector with the arrows on the mounting bracket. 3. Rotate the detector clockwise until it clicks into place. 4. After all detectors have been installed, apply power to the control unit. 5. Test the detector as described under TESTING. G. Reset the detector at the system control panel. 7. Notify the proper authorities that the system is in opera- tion. 2 156- 279 -05R Figure 3. Wiring diagram for 1400 smoke detector used with two-wire control panel: D400 -07 -00 UL LISTED COMPATIBLE CONTROL PANEL INITIATING LOOP REMOTE ANNUNCIATOR r ACAUTION ACAUTION I RECESSED TEST SWITCH Dust covers can be used to help limit dust entry to the detector, but they are not a substitute for removing the detector during building construction. Remove any dust covers before placing system in service. Smoke detectors are not to be used with detector guards unless the combination has been evaluated and found suitable for that purpose. Testing Before testing the detector, look for the presence of the flashing LED. If it does not flash, power has been lost to the detector (check the wiring), or it is defective (return for repair - refer to Warranty). Detectors must be tested after installation and following periodic maintenance. Notify the proper authorities that the system is undergoing testing. The 1400 may be tested as follows: TAMPER SLOT REMOTE ANNUNCIATOR Figure 4. Bottom and side views showing position of test switch: TEST MODULE SOCKET 3 CLASS A OPTIONAL WIRING NOTE: IF REMOTE ANNUNCIATOR IS NOT USED, POLARITY TO DETECTOR MAY BE REVERSED. A. Recessed Test Switch 1. A test switch is located on the detector housing (See Figure 4). 2. Push and hold the recessed test switch with a 0.1 inch maximum diameter tool. 3. The LED on the detector should light within 5 seconds. B. Test Module (System Sensor Model No. MOD400R) The MOD400R is used with an analog or digital voltme- ter to check the detector sensitivity as described in the test module manual. C. Aerosol Generator (Gemini 501) Set the generator to represent 4%/ft. to 5%/ft. obscuration as described in the Gemini 501 manual. Using the bowl shaped applicator, apply aerosol until the unit alarms. Notify the proper authorities that the system is back on line. Detectors that fail these tests should be cleaned as described under MAINTENANCE and retested. If the detectors still fail these tests, they should be returned for repair. PUSH RECESSED TEST SWITCH WITH A 0.1 ° MAX. DIAMETER TOOL. W I EOL RESISTOR 50141 -00 S0142 -00 156- 279 -05R Maintenance NOTE: Before starting, notify the proper authorities that the smoke detector system is undergoing mainte- nance and, therefore, will be temporarily out of service. Disable the zone or system undergoing maintenance to prevent unwanted alarms. The 1400 is cleaned as follows: 1. Remove the detector screen and cover assembly by depressing the three lock prongs on the top of the cover, rotating the cover clockwise, and pulling the screen cover assembly away from the detector (see Figure 5). Use of the System Sensor CRT400 cover removal tool is recommended. 2. Remove the screen from the cover. 3. Use a vacuum cleaner to remove dust from the screen, the cover, and the sensing chamber. 4. After cleaning, snap the screen into the cover, then place the cover and screen assembly on the detector turning clockwise until it is locked in place. 5. Test the detector as described in TESTING. 6. Notify the proper authorities that the system is back on line. System Sensor warrants its enclosed smoke detector to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for this smoke detector. No agent, representative, dealer, or employee of the Company has the authority to increase or alter the obligations or limitations of this Warranty. The Company's obliga- tion of this Warranty shall be limited to the repair or replacement of any part of the smoke detector which is found to be defective in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor's toll free number 800- SENSOR2 (736 -7672) for a Return Authorization number, send defective units postage prepaid to: Sys em Sensor, Repair D400 -07-00 Three -Year Limited Warranty 4 Figure 5. Removal of cover and screen for cleaning: LOCKING PRONGS REMOVABLE COVER FOR CLEANING REMOVABLE SCREEN LOCK PRONG S0143 -00 i Please refer to insert for the Limitations of Fire Alarm Systems Department, RA a , 3825 Ohio Avenue, St. Charles, IL 60174. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to repair or replace units which are found to be defective because of damage, unreasonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequential or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company's neg- ligence or fault. Some states do not allow the exclusion or limitation of incidental or consequential damages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. I56- 279 -05R 0 2004 System Sensor Heat Detectors Series 600 . The Heat Detectors Series 600 are supplied with the following standard features: • Rate -of -Rise and Fixed Temperature • One or Two - Circuit, Normally Open • Easy installation • Low Profile • Visual indication • Operation Testing The Series 600 Heat Detector is attractive, durable and features combination rate -of -rise and fixed temperature operation. Heat detectors are available in 135 °F and 200 °F temperature ratings. Rate -of -rise detects heat by quickly responding to a rapid temperature increase. Rate -of -rise units have a wide spacing allowance of 50 -foot centers. See specification table for details. Fixed temperature reacts to heat by responding to a specific temperature setting. Series 600 Detectors use the same reliable pneumatic rate -of- rise element of former models, but offer added aesthetic appeal. The pneumatic rate -of -rise element responds to a rapid rise in temperature, approximately 15 °F. (8 °C) per minute, by expansion of air within the sealed chamber faster than it can escape through a calibrated vent. The resultant increase in pressure depresses the diaphragm, causing the electrical contact to close the circuit. The fixed temperature element uses a fusible alloy. When activated, the external heat collector drops away to provide quick visual confirmation that the element has operated. The units protrude only 1 -3/8 inch from the ceiling surface with a junction box mounting. They have pleasing contours and an . all -white finish that conforms to ceiling aesthetics. Installation Each detector includes a patented reversible mounting plate. In one position, it easily attaches to 4° square junction box, 3.25° or 4° octagonal box, or plaster ring. In reverse, the plate can be used for open wiring without a junction box. A 1/4° space between detector and mounting surface allows for wire connections. All mounting screws are concealed. The detector attaches easily to the mounting plate with a push and twist motion. No tools are required. All rights reserved (10/99). Junction Box Mounting Ceiling Surface Mounting 4 9/18 • Reversible Mounting Plate 8 -32" Rbund Head Screws a/8 to 1° Cut for surface Reversible mounting Mounting Plate 8 -32° Flat Head Wood Screws Mounting plate is molded of white self - extinguishing thermo- plastic rated at 221°F (105 °C). The plate is extremely strong yet adapts to uneven mounting surfaces. Series 600 Testing Methods Models 601/621 and 602/622 can be tested by the quick application of heat from any convenient source. A portable hair dryer is recommended. However, do not apply heat that exceeds the fixed temperature rating of the detector. Models 603/623 and 604/624 cannot be tested. However, the fusible alloy element used is considered so reliable that testing is not necessary. Miami Shores Village 10050 NE 2nd Avenue Phone: 305 - 795 -2204 Printed: 4/21/2004 Applicant: JOSEPH Owner: ALBONDANTE JOB ADDRESS: 89 Parcel # 1121360040550 NE 109 Signed: (INSPECTOR) Plumbing Permit Permit Number: PL2004 -120 ALBONDANTE JOSEPH ST Contractor A -1 REACTION PLUMBING, INC. Contractor's Address: 1021 S, W, 134 AVE. Local Phone: Permit Status: APPROVED Permit Expiration: 10/16/2004 Construction Value: $2,400.00 Work: REPLACE BROKEN /LEAKING WASTE/WATER PIPING Page 1 of 1 ow' Legal Description: COLLEGE HEIGHTS PB 42 -8 LOTS 24 & 25 BLK 2 LOT SIZE 150.000 X Fees: Description Amount FEE2004 -4058 Building Fee $180.00 FEE2004 -4059 CCF $1.80 FEE2004 -4060 Notary Fee $5.00 FEE2004 -4061 Training and Education Fee $0.60 FEE2004 -4062 Technology Fee $4.50 Total Fees: $191.90 Total Fees: $191.90 Total Receipts: $0.00 In consideration of the issuance to me of this permit, I 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 responisibility for all work done by either myself, my agent, servants or employes. Signed: (Contractor or Builder) BY: BUILDING PERMIT APPLICATION FBC 2001 City Tenant/Lessee Name City --()Ali Qualifier j a i{• Total Fee Now Due $ (Continued on opposite side) 1%Q - 14- CL • Miami Shores Village Building Department 10050 N.E.2nd Avenue, Miami Shores, Florida 33138 Tel: (305) 795.2204 Fag: (305) 756.8972 Permit Type (circle): Building Electrical Owner's Name (Fee Simple Titleholder) ad/4 Phone # 3 o 5 ?S F`1,5 Owner's Address Permit No. PI cloo A _ Master Permit No. Mechanical Roofing State Zip 3313 Phone # ECEDVED APR t 9 2004 Job Address (where the work is being done) 1 Al 5_ ( 0 9 S City Miami Shores Village County Miami -Dade Zip Is Building Historically Designated YES NO Contractor's Company Name 2 *ch€.J piu. T..ac... Phone # ciT - 2 7 s 3 3 Contractor's Address fO2. t St,) 13 414 Ave_ State FL_ Zip 3351 S Architect/Engineer's Name (if applicable) Phone # $ Value of Work For this Permit Z- 4147° ` Square Footage Of Work: Type of Work: ['Addition ['Alteration ONew ;Repair/Replace ❑ Demolition Describe Work: 2# .pli . N / C✓ 4-14-i ,D Ary * * * *** * * * * * *, * * ** * * * * * **** *F * * * * * * * *** * *** * * * * * * * * * * ** Submittal Fee $ Permit Fee $ i ire, CCF $ CO /CC Notary 0 a Training/Education Fee $ -. kg 0 Technology Fee $ L) r S 2) Scanning $ Radon $ Zoning Bond $ Code Enforcement $ Structural Plan Review. $ 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, SIGNS, WELLS, POOLS, FURNACES, BOILERS, HEATERS, TANKS and 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. "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 b ' posted at the job site for the first inspection which occurs seven (7) days after the building permit is is ed In the absence o y, ch posted notice, the inspection will not be approved d a reinspection fee will be charged. Signature d Owner or Agent The f oing instrument was acknowledged before me this 1 b The foregoing instrument was acknowledged before me this /? A day : 20 0 I b� ,, _! • • r„ day of 0 ��1' 4-- �- , 20 0 by ''" r.-e-4 - . personally known to me or who as produced who is personally known to me or who has produced Phan (41 11 � KnOt r1 as identification and who did take an oath. NOTARY PUBLIC• identification and who did take an oath. NOT Sign Print: a 0*'? t. Angela M :'eclae, G 'j Commission DD 1 sujLir My Commission Expires: o,,,,# Expires November is ;100 (Certificate of Competency Holder) Chc 12/15/03 State Certificate or Registration No. C, PC j e.(Z S � $ Certificate of Competency No. * ** ** *** *** * * * * * ** * * * * * * * * ** * . * ** * *`. **** * * * * * * * * * * * * * * * * * * * * * * * * * * ** * ** ** ** * * * * * * ** * * * * * * * * * * * ** APPLICATION APPROVED BY: ,07 e7 Plans Examiner Engineer Zoning I'rvrV O .-.....-c- ITEM / BATH TUB v_ UNIT iL. FEE —ft-7 v v 1 ra - v ITEM SWITCH OUTLETS UNIT FEE ITEM SPACE HEATERS UNIT FEE BIDET LIGHT OUTLETS CENTRAL HEATING DISHWASHER RECEPTACLES A/C (WIND) DISPOSAL SERVICE TEMPORARY A/C (CENTRAL) DRINKING FOUNTAIN SERVICE SIZE IN AMPS DUCT WORK FLOOR DRAIN SERVICE REPAIR/METER CHANGE REFRIGERATION GREASE TRAP APPLIANCE OUTLETS PROCESS AND PRESS PIPING INTERCEPTOR RANGE TOP UNDERGROUND TANKS LAVATORY 5 OVEN ABOVE GROUND TANKS LAUNDRY TRAY WATER HEATER U.F. PRESSURE VESSELS CLOTHES WASHER MOTORS 0— 1 HP STEAM BOILERS SHOWER 1 MOTORS OVER 1— 3 HP HOT WATER BOILERS SINK, POT /3 COMP. MOTORS OVER 3— 5 HP MECHANICAL VENTILATION SINK, RESIDENCE I MOTORS OVER 5— 8 HP TRANSPORTING ASSEMBLIES SINK, SLOP MOTORS OVER 8— 10 HP ELEVATORS/ESCALATORS TEMPORARY WATER CLOSET MOTORS OVER 10— 25 HP FIRE SPRINKLER SYSTEMS URINAL MOTORS OVER 25-100 HP COOLING TOWERS WATER CLOSET el MOTORS OVER 100 HP VIOLATION INDIRECT WASTES - A/C WINDOW REINSPECTION WATER SUPPLY TO: AIR CONDITIONERS • A/C UNIT STRIP HEATER FIRE SPRINKLER GENERATORS TRANSFORMERS HEATER —NEW INST. GENERATORS TRANSFORMERS i HEATER— REPLACE GENERATORS TRANSFORMERS LAWN SPRINKLER —WELL SPECIAL Pt POSE SWIMMING POOL OUTLETS COMMERCIAL WATER SERVICE SIGN TUBES SEWER CONNECTIONS SIGN TRANSFORMERS UTILITY —SEWER _ SIGN TIME CLOCK UTILITY —WATER FIXTURES SEPTIC TANK ANTENNA RELAY TELEVISION OUTLETS DRAINFIELD, 4' TILE/RES. VIOLATION PUMP & ABANDON SEPTIC TANK RE INSPECTION SOAKAGE PIT CU. FT. CATCH BASIN DISCHARGE WELL DOMESTIC WELL AREA DRAIN ROOF INLET SOLAR WATER HEATER FIRE STANDPIPE POOL PIPING LAWN SPRINKLER SYSTEM GAS RANGE METER.SET (GAS) GAS PIPING ADDENDUM TO BUILDING PERMIT APPLICATION (AN APPLICATI0k FOR BUILDING PERMIT MUST ACCOMPANY THIS ADDENDUM. IF A MASTER PERMIT HAS B. OBTAINED, THE OWNER'S NOTARIZED SIGNATURE NEED NOT BE PRESENT ON SUBSEQUENT APPLICATIONS.) PLUMBING ELECTRICAL MECHANICAL Model 601 and 621 No Marking Model 601 (1 circuit) Model 621 (dua circuit) Rate -of -Rise and Fixed Temperature, 135 °F (57 °C) Applications: Normal temperature fluctuations and ceiling temperatures not exceeding 100 °F (38 °C) Maximum Spacing Allowance* - 50x50 ft. -UL 30x30 ft. - FM Screw Terminals Wire from alarm panel or previous detector. — • - Wire connected to next - detector -- - or-end of line - resistor. _ - NOTE: All single circuit modets_come with one (1) nonnelly open dry -' - contact. — AU rights reserved (10/99). Model 602 and 622 Gray Ring Model 602 (1 circuit) Model 622 (dual circuit) Rate -of -Rise and Fixed Temperature, 200 °F (94 °C) Applications: Normal tempe- rature fluctuations and ceiling temperatures exceeding 100 °F (38 °C) but not 150 °F (66 °C) Maximum Spacing Allowance* - 50x50 ft. -UL 30x30 ft. - FM •Refer to National Are Alarm Code Standard NFPA 72 for application requirements Standard Single — DuelClrcult-Detector — Clrcult Detector Used to send two independent Wire connected to next detector or end of line resistor. Wire from alarm panel or previous detector. "' Wire connected to next detector dr end of Brie resistor. Chemetronics 400 Main Street Ashland, MA 01721 USA Phone: (800) 496 -8383 Fax: (800) 496 -7272 Website: wwwCdhemetronicst om NOTE: Al! dual circuit models come with one (2) normally open dry contacts: '- — Model 603 and 623 Gray Spot Model 603 (1 circuit) Model 623 (dual cirbuit) Fixed Temperature only, 135 °F (57 °C) Applications: Unusually violent temperature fluctuations and ceiling temperatures not exceeding 100 °F (38 °C) Maximum Spacing Allowance* - 25x25 ft. -UL 20 x20 ft - FM Electrical Ratings 6 -125 Volts A.C., 3.0 Amps. 6 -28 Volts D.C., 1.0 Amps. 125 Volts D.C., 0.3 Amps. 250 Volts D.C., 0.1 Amps. Model 604 and 624 Gray Ring and Dot �"\ Model 604 (1 circuit) (/ Model 624 (dual circuit) Fixed Temperature only, 200 °F (94 °C) Applications: Unusually violent temperature fluctuations and ceiling temperatures exceeding 100 °F (38 °C) but not 150 °F (66 °C) Maximum Spacing Allowance* - 15x15 ft. -UL Important Special Notes Application: Heat detectors should be used for property protection. Reliance should not be placed on heat detectors for Life Safety. CAUTION: When life safety is Involved, smoke detectors MUST, also be usedEDetectors must not be painted❑ Battery Back - Up: Heat detectors should be electronically supervised with battery back -up at the panel. The rate -of -rise mechanism may be subject to reduced sensitivity over time. Annual testing of the rate -of -rise mecha- nism is recommended. Listings/Approvals • Listed by Underwriters Laboratories (UL) • Factory Mutual Approved (FM) • California State Fire Marshal Approval (CSFM) • City of New York (MEA) Listing No. 188 -94 -E • Listed by Underwriters' Laboratories of Canada (ULC) This literature is provided for informational purposes only. CHEMETRONICS assumes no responsibility for the product's suitability for a particular application. The product must be properly applied to work correctly. If you need more information on this product, or if you have a particular problem or question, contact CHEMETRONICS, Ashland, MA; Telephone (800) 496 -8383.