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HomeMy WebLinkAbout5781 VAN ALLEN WAY; ; FPC2019-0181; Permit4ityof PERMIT REPORT Carlsbad Print Date: 09/29/2021 Permit No: FPC2019-0181 Job Address: 5781 VAN ALLEN WAY, CARLSBAD, CA 92008-7321 Status: Closed - Finaled Permit Type: FIRE-Construction Commercial Work Class: Fire Alarm Parcel #: 2121304400 Track #: Applied: 08/05/2019 Valuation: $0.00 Lot #: Issued: 08/20/2019 Occupancy Group: Project #: Finaled Close Out: 08/19/2021 #of Dwelling Units: Plan #: Bedrooms: Construction Type: Bathrooms: Orig. Plan Check #: Inspector: Plan Check #: Final Inspection: Project Title: Description: THERMO FISHER -ADDITION TO EXISTING FIRE SYSTEM Applicant: FPContractor: JOHNSON CONTROLS SECURITY SOLUTIONS JOHNSON CONTROLS SECURITY SOLUTIONS LLC LLC - DONOTUSE MALCOLM DCOSTA 3870 MURPHY CANYON RD, # 140 3870 MURPHY CANYON RD, # 160 S SAN DIEGO, CA 92123-4403 SAN DIEGO, CA 92123-4403 (561) 226-8210 (619) 805-5300 FEE AMOUNT FIRE TI Fire Alarm System $620.00 Total Fees: $620.00 Total Payments To Date: $620.00 Balance Due: $0.00 Fire Department Page 1 of 1 1635 Faraday Avenue, Carlsbad CA 92008-7314 1 760-602-4665 1 760-602-8561 f I www.carlsbadca.gov Cut Sheets and CSFM Listing Sheets For: Thermo Fisher Scientific Corridors 2016 and 2017 Tenant Improvements 5781 Van Allen way Carlsbad, California 92008 Installer: 01(i Johnson Controls tqPci Integrated SecurIty 3870 MURPHY CANYON ROAD SUITE 140 SAN DIEGO, CA. 92123 (800) 289-2647 LIC #977249 (C-b, C-7) FPC20I9-0181 5781 VAN ALLEN WAY THERMO FISHER - ADDITION TO EXISTING FIRE SYSTEM 2121304400 8/512019 FPC20I9-0181 df-60334:A4 • Al -100 (Ms-9600Ls(E)Ms-9600uDLs(E)) (Intelligent AddressableFACP) with Optional 2nd Loop) (a FlreuTeALarms by Honeywell General Fire•Lite's MS-9600LS(E) and MS-9600UDLS(E) are compact, cost effective, intelligent addressable FACPs (Fire Alarm Con- trol Panels) with an extensive list of powerful features. The combination of Fire'Lite's newer series devices and legacy 300 Series devices, along with the MS-9600L5(E) or MS-9600UDLSE FACP, offer the latest in fire protection tech- nology. LiteSpeedTM is a patented technology that polls 10 devices at a time looking for new or different information. When new information is found at a specific address, the sys- tem polls that device several times for any new data. This improvement allows a fully loaded panel with up to 636 devices to report an incident and activate the notification cir- cuits in under 10 seconds. With this new polling scheme, devices can be wired on standard twisted, unshielded wire up to a distance of 10,000 feet per loop. Each Signaling Line Cir- cuit (SLC) loop supports up to 159 addressable detectors including photoelectric, photoelectric with heat, beam, ioniza- tion, photoelectric duct, fixed heat, fixed heat with rate-of-rise, and fixed high-heat detectors. It also supports up to 159 addressable modules including monitor (two-wire detector, normally open devices), dual-monitor functions (two monitor circuits from one module, two addresses used), multimonitor (multiple monitor circuits from one module, multiple addresses used), control (for Notification Appliance Circuits), and relay (two Form-C) modules. The FLPS-7 power supply is a separate board while all other electronics are contained on a single main circuit board. Both boards are mounted to a quick-removable chassis and housed in a metal cabinet. The backbox can be installed allowing field wiring to be pulled. When construction is completed, the chas- sis with the electronics can be quickly installed with two bolts. The MS-9600UDLS(E) includes a factory-installed DACT-UD2 Digital Alarm Communicator Transmitter. The DACT transmits system status (alarm, troubles, AC loss, etc.) to a Central Sta- tion via internet (optional IPDACT installed) or the public switched telephone network. Optional modules, which plug into the main circuit board, are available for special functions. Available accessories include LED, graphic and LCD annunciators, reverse polarity/city box transmitter, digital alarm communicator/transmitter, SLC expansion module, local and remote upload/download soft- ware and remote power expansion. FM APPROVED to UL ANSI 864. Controls And Indicators LED INDICATORS AC POWER (green) FIRE ALARM (red) SUPERVISORY (yellow) ALARM SILENCED (yellow) SYSTEM TROUBLE (yellow) MAINTENANCE/PRESIGNAL (yellow) DISABLED (yellow) BATTERY FAULT (yellow) GROUND FAULT (yellow) MEMBRANE SWITCH CONTROLS ACKNOWLEDGE/STEP ALARM SILENCE DRILL SYSTEM RESET (lamp test) 12-key pad with full alphabet 4 cursor keys ENTER Special Features Easy mount chassis. 7 amp switching power supply. Large enclosure allows 18 amp-hour batteries DACT-UD2 plug-in communicator standard with MS-9600UDLS/E. Optional IPDACT Internet Protocol Digital Alarm Communicator/Transmitter Four Style Y (Class B) or two Style Z (Class A) NAC circuits. Selectable strobe synchronization per NAC for System Sensor, Wheelock, and Gentex devices. Automated control of ACC-25/50(ZS/T) audio speaker cir- cuits ANN-BUS for connection to following optional modules Note: cannot be used if ACS annunciators are used. ANN-80(-W) Remote LCD Annunciator ANN-I/O LED Driver Module ANN-S/PG Serial/Parallel Printer Module ANN-RLY Relay Module ANN-LED Annunciator Module ANN-RLED Annunciator Module (alarms only) df-60334:A4 • 12/29/2009 - Page 1 of 6 Standard Features SLC LOOP SLC can be configured for NFPA Style 4, 6, or 7 operation. SLC supports up to 318 addressable devices per loop (159 detectors and 159 monitor, control, or relay modules). SLC loop maximum length 10,000 ft. (3,048 m) @ 12 AWG (3.1 mm2) using twisted, unshielded wire (see Wire Table on page 5). NOTIFICATION APPLIANCE CIRCUITS (NACS): Four onboard NACs with additional NAC capability using output control modules (CMF-300 or CMF-300-6). The four Class B NACs can be converted to two Class A NACs with the NACKEY (included). Silence Inhibit and Auto Silence timer options. Continuous, March Time, Temporal or California code for main circuit board NACs with two-stage capability. Selectable strobe synchronization per NAC. 3.0 amps maximum per each NAC circuit Note: Maximum 24 VDC system power output is shared among all NAC circuits and 24 VDC special application aux- iliary power outputs. Total available output is 7.0 amps. ADVANCED FIRE TECHNOLOGY: Sensitivity testing with printable results, onsite or offsite Automatic drift compensation. PROGRAMMING AND SOFTWARE: Autoprogram (learn mode) reduces installation time. Fully programmable from local keypad, local PS/2 keyboard or PC (using the standard PS-TOOLS Windows® utility). Two-level user-programmable passwords. Custom English labels (per point) may be manually entered or selected from an internal library file. Three Form-C relay outputs (two programmable). 99 software zones. USER INTERFACE: Optional plug-in DACT-UD2 communicator (standard with MS-9600UDLS(E) with USB port for local upload/download. Remote Acknowledge, Silence, Reset and Drill via address- able monitor modules, ACS Series annunciators, LCD-80F remote annunciator, or ANN-80 Series Annunciators. EIA-232 printer/PC interface (variable baud rate) on main circuit board. Integral 80-character LCD display with backlighting. Real-time clock/calendar with automatic daylight savings adjustments. History file with 1,000-event capacity. EIA-485/ANN-BUS supporting up to 8 ANN Series Annunci- ators or 32 ACS Series annunciators. EIA-485 supporting up to 32 ACS annunciators. Maintenance alert warns when smoke detector dust accu- mulation is excessive. Automatic device type-code verification. One person audible or silent walk test with walk-test log and printout. Point trouble identification. Local piezo sounder. Waterflow (nonsilenceable) selection per monitor point. System alarm verification selection per detector point. PAS (Positive Alarm Sequence) and presignal delay per point (NFPA 72 compliant). Optional 4XTMF module (conventional reverse polarity/city box transmitter). Field-programming Features Off-line Programming: Create the entire program in your office using a Windows®-based software package (order pro- gramming kit PK-CD, containing PS-TOOLS, separately). Upload/download system programming locally to the MS-9600LS/E in less than one minute. Autoprogramming: Command the MS-9600L5(E) to program itself (takes less than 30 seconds). In the Auto-Program mode, the MS-9600L5(E) scans for all possible devices at all addresses, stores the device types, and addresses found, and then loads default values for all options (General Alarm). It also checks for two or more devices set to the same address. Online Editing: While still providing fire protection, the MS-9600LS/E may be programmed from the front panel. Sim- ple menu trees displayed on the LCD allow the trained user to perform all functions without referring back to the programming manual. English Label Library: Quickly select labels from a standard library of more than 50 adjectives/nouns, such as "FLR 3 HALLWAY," or enter custom labels letter-by-letter. Use recall function to repeat previously used label. Program Check: Automatically catch common errors, such as control modules not linked to any zone or input point. Maintenance Alert The MS-9600LS(E) continuously monitors each smoke detec- tor and is capable of reporting maintenance conditions. This reduces the risk of false alarms due to dust accumulation. Refer to the control panel installation manual for more informa- tion. Automatic Test Operation The MS-9600L5(E) performs an automatic test of each detec- tor every two hours. Failure to meet the test limits causes an AUTO TEST FAIL trouble type. System Reset clears this trou- ble. Terminal Blocks AC Power - TB1: 120 VAC, 60 Hz, 3.0 amps or 240 VAC, 50 Hz, 1.5 amps. Wire size: minimum 14 AWG (2.00 mm2) with 600 V insulation. Battery (lead acid only) - TB2: Maximum charging circuit: Normal flat charge 27.6 VDC @ 1.0 amp. Maximum battery charger capacity: 26 AH. Minimum battery 12 AH. MS- 9600L5(E) cabinet holds maximum of two 18 AH batteries. For 26— 120 AH batteries, use the CHG-120F or CHG-75 Battery Charger and BB-55F Battery Box. NOTE: Jumper JP3, on the FACP main circuit board, must be cut to disable the FACP battery charger when using the CHG-120F or CHG-75. Communication Loop - (standard) TB8: 24 VDC nominal, 27.6 VDC maximum. Maximum length: 10,000 ft. (3048 m) total twisted, unshielded pair length. Maximum loop current: 400 mA (short circuit) or 100 mA (normal). Maximum loop resistance: 40 ohms. Supervised and power-limited. Notification Appliance Circuits - T134: Power-limited cir- cuitry. Nominal operating voltage: 24 VDC. Current limit: fuse- less, electronic, power-limited circuitry. Maximum signaling current per circuit: 3.0 amps. End-of-Line Resistor: 4.7K ohm, 1/2 watt (P/N 71252 UL listed) for NACs. Refer to Fire-Lite Device Compatibility Document for listed compatible devices. Page 2 of 6— df-60334:A4 • 12/29/2009 Programmable and Trouble Output Relays - TB5: Contact rating: 2.0 amps @ 30 VDC (resistive), 0.5 amps @ 30 VAC (resistive). Form-C relays. Four-Wire Resettable Smoke Detector Power (24 VDC nominal) - TB3, Terminals 1(+) & 2(—): Maximum ripple voltage: 10 rnVRMS. Up to 1.5 amps for pow- ering four-wire smoke detectors. Power-limited circuit. Refer to FireLite Device Compatibility Document for listed compatible devices. Nonresettable Power #1 (24 VDC Nominal) —TB3, Termi- nals 3 (+) & 4 (-): Maximum ripple voltage: 10 mVRMS. Up to 1.5 amps total DC current available from each output. Power- limited circuit. TB3, Terminals 5 (+) & 6 (-): non-resettable power #2. Nonresettable Special Application Power #2 (24 VDC Nom- inal) - TB3, Terminals 5 (+) & 6 (-): Maximum ripple voltage: 10mVRMS. Total DC current available from each output is up to 1.5 amps. Power-limited circuit, nonsupervised. EIA-485 (ACS/ANN) - TB6: Annunciator connector, program- mable for type ANN or ACS. Terminal 1 (+) and Terminal 2 (-). EIA-485 (TERM) - T137: Terminal mode annunciator connec- tor, Terminal 1 (Out +), 2 (In +), 3 (Out -), 4 (In -). EIA-232 - TB8: PC/printer connector, Terminal 1 (Transmit), 2 (Receive), 3 (DIR), 4 (Ground). Ordering Options MS-9600LS(E): 318-point addressable Fire Alarm Control Panel, one SLC loop. Includes 80-character LCD display, sin- gle printed circuit board, and cabinet. MS-9600UDLS(E): 318-point addressable Fire Alarm Control Panel, one SLC loop. Includes DACT-UD2, 80-character LCD display, single printed circuit board, and cabinet. DACT-UD2: Optional communicator for remote monitoring (standard with MS-9600UDLS). 4XTMF: Optional Transmitter Module provides a supervised output for local energy municipal box transmitter, alarm and trouble reverse polarity. It includes a disable switch and dis- able trouble. IPDACT-2/21.11), IPDACT Internet Monitoring Module: Mounts in bottom of enclosure with optional mounting kit (PIN: IPBRKT). Connects to primary and secondary DACT tele- phone output ports for internet communications over customer provided ethernet internet connection. Requires compatible Teldat VisorALARM Central Station Receiver. Can use DHCP or static IP. (See data sheet DF-60407 or DF-52424 for addi- tional information. IPBRKT: Optional mounting bracket kit consisting of screws and battery shield with standoffs required when mounting the IPDACT in lower enclosure section of FACP. IPSPLT: Optional Y-Adaptor which allows connection of both panel dialer outputs to one cable input to IPDACT (sold sepa- rately). ACM-8RF: Optional plug-in relay module provides 8 Form-C 5.0 amp relays. PK-CD: Contains PS-TOOLS programming software for Win- dows®-based PC computer (cable not included). SLC-2LS: Optional expander module, enables second SLC loop. DP-9692: Optional dress panel for MS-9600L5(E). TR-CE: Optional Trim Ring for semi-flush mounting. BB-55F: Battery box, required to house two 25 AH batteries and one CHG-120F battery charger. For batteries greater than 25 AH, consult factory for housing/mounting arrangements. BB-26: Battery backbox, holds up to two 25 AH batteries. CHG-120F: Remote battery charging system for lead-acid bat- teries with a rating of 25 to 120 AH. CHG-120F or CHG-75 required for charging greater than 25 AH batteries. CHG-75: Battery charger for lead-acid batteries with a rating of 25 to 75 AH. CHG-120F or CHG-75 required for charging greater than 25 AH batteries. BAT Series: Batteries, see data sheet DF-52397. PRT/PK-CABLE: Cable printer/personal computer interface cable. PRN-6F: UL listed compatible event printer which uses tractor- fed paper. Compatible Addressable Devices All feature a polling LED and rotary switches for addressing. CP355: Addressable low-profile ionization smoke detector. 5D355: Addressable low-profile photoelectric smoke detector. 5D355T: Addressable low-profile photoelectric smoke detector with thermal sensor. H355: Fast-response, low-profile heat detector. H355R: Fast-response, low-profile heat detector with rate-of- rise option. H355HT: Fast-response, low-profile heat detector that acti- vates atl9O° F (880C). AD355: Low-profile, intelligent, "Adapt' multi-sensor detector; B350LP base included. BEAM355: Intelligent beam smoke detector. BEAM355S: Intelligent beam smoke detector with integral sensitivity test. D350PL: Photoelectric low-flow duct smoke detector. D350RPL: Photoelectric low-flow duct smoke detector with relay option. MMF-300: Addressable Monitor Module for one zone of nor- mally-open dry-contact initiating devices. Mounts in standard 4.0" (10.16 cm.) box. Includes plastic cover plate and end-of- line resistor. Module may be configured for either a Style B (Class B) or Style D (Class A) IDC. MDF-300: Dual Monitor Module. Same as MMF-300 except it provides two Style B (Class B) only lDCs. MMF-301: Miniature version of MMF-300. Excludes LED and Style D option. Connects with wire pigtails. May mount in device backbox. MMF-302: Similar to MMF-300, but may monitor up to 20 con- ventional two-wire detectors. Requires resettable 24 VDC power. Consult factory for compatible smoke detectors. CMF-300: Addressable Control Module for one Style Y/Z (Class B/A) zone of supervised polarized Notification Appli- ances. Mounts directly to a 4.0k (10.16 cm.) electrical box. Notification Appliance Circuit option requires external 24 VDC to power notification appliances. CRF-300: Addressable relay module containing two isolated sets of Form-C contacts, which operate as a DPDT switch. Mounts directly to a 4.0 (10.16 cm.) box, surface mount using the SMB500. BG-12LX: Addressable manual pull station with interface mod- ule mounted inside. 1300: This module isolates the SLC loop from short circuit con- ditions (required for Style 6 or 7 operation). SMB500: Used to mount all modules except the MMF-301 and M301. df-60334:A4 • 12129/2009 - Page 3 of 6 EIA -485 24 VDC INTERFACE (4-data wires, 2-power wires) 4 I_C 000c LCD-80F Up to 6,000 ft. (1825.8 m) between each LCD-80F In the EIA485 loop, and between each LCD-80F and the FACP Audio Control for ACC-25/50(ZSIT) Audio-Command-Center I for Central Station reporting DACT-1.102 (see photo detail below) -,I I SMOKE DETECTORS S0355, 50355T, CP355 E!A-485 ACS/ANN-BUS ANNUNCIATORS (2-data wires, 2-power wires) ANN-80 EIA -232 INTERFACE PRINTER Optional REVERSE POLARITY! CITY BOX OUTPUT (4XTMF) uuI 4XTMF Reverse Polarity Module 11111111 8 FORM-C, 5-AMP RELAYS (optional, order ACM-8RF) NACs (Notification Appliance Circuits) BELLS, SIGNALS, STROBES LIM.. I-UUL IPDACT Internet Protocol DACT HEAT DETECTORS 1-1355.1-1355R [B'] DUCT DETECTORS D350PL, D35ORPL INTELLIGENT BEAM DETECTORS BEAM355, BEAM355S 00 S MONITOR MMF-300, MDF-300, MMF-302, CMF-300, CRF-300, 300 MINI MONITOR MMF-301 ADDRESSABLE MULTI-MODULES MMF-300-10, MMF-302-6, CMF-300-6, CRF-300-6 PULL STATION BG-I2LX Page 4016— dt-60334:A4 • 12/29/2009 MMF-300-10: Ten-input monitor module. Mount one or two modules in a BB-2F cabinet (optional). Mount up to six mod- ules on a CHS-6 chassis in a BB-6F. MMF-302-6: Six-zone interface module. Mount one or two modules in a BB-2F cabinet (optional). Mount up to six mod- ules on a CHS-6 chassis in a BB-6F. CMF-300-6: Six-circuit supervised control module. Mount one or two modules in a BB-2F cabinet (optional). Mount up to six modules on a CHS-6 chassis in a BB-6F. CRF-300-6: Six Form-C relay control module. Mount one or two modules in a BB-2F cabinet (optional). Mount up to six modules on a CHS-6 chassis in a BB-6F Compatible Annunciators ANN-80(-W): Remote LCD annunciator that mimics the infor- mation displayed on the FACP's LCD display. Recommended wire type is unshielded. (Basic model is red; order -W version for white; see DF-52417). ANN-LED: Annunciator Module provides three LEDs for each zone: Alarm, Trouble and Supervisory. Ships with red enclo- sure (see DF-60241). ANN-RLED: Provides alarm (red) indicators for up to 30 input zones or addressable points (see DF-60241). ANN-RLY: Relay Module, which can be mounted inside the cabinet, provides 10 programmable Form-C relays (see DF- 5243 1). ANN-S/PG: Serial/Parallel Printer Gateway module provides a connection for a Serial or Parallel printer (see DF-52429). ANN-I/O: I/O Driver Module provides connections to a user supplied graphic annunciator (see DF-52430). ACS-LED Zone Series: LED-type fire annunciators capable of providing up to 99 software zones of annunciation. Available in increments of 16 or 32 points to meet a variety of applications. ACS-LDM Graphic Series: Lamp Driver Module series for use with custom graphic annunciators. TERM MODE LCD-80F (Liquid Crystal Display) point annunciator: 80-character, backlit LCD-type fire annunciators capable of displaying English-language text. Up to 32 LCD- 80F annunciators may be connected to the EIA-485 terminal mode serial interface on the MS-9600L5(E) motherboard. NOTE: For more information on Compatible Annunciators for use with the MS-9600L5(E), see the following data sheets (docu- ment numbers) ACM-813F (DF-5 1555), ACS/ACM Series (DF- 52378), LDM Series (DF-51384), LCD-80F (DF-52185). Wiring Requirements While shielded wire is not required, it is recommended that all SLC wiring be twisted-pair to minimize the effects of electrical interference. Refer to the panel manual for wiring details. df-60334:A4 • 12/29/2009 - Page 5 of 6 SYSTEM SPECIFICATIONS System Capacity Intelligent Signalling Line Circuits.............1 expandable to 2 Intelligent detectors ..........................................159 per loop Addressable monitor/control modules ..............159 per loop Programmable software zones.........................................99 ANN-BUS devices ..............................................................8 ACS Annunciators ............................................................32 LCD Annunciators ............................................................32 Electrical Specifications Primary input power: 120 VAC, 50/60 Hz, 3.0 A. 240 VAC, 50 Hz, 1.5 A. Battery: 27.6 VDC @ 1.0 A (max). Maximum battery charger capacity: 26 AH. Minimum battery: 12 AH. MS-9600LS cabinet holds maximum of two 18 AH batteries. Communication Loop: 24 VDC nominal, supervised and power-limited. Notification Appliance Circuits: terminal block provides con- nections for four Style Y (Class B) or two Style Z (Class A) NACs. Maximum signaling current per circuit: 3.0 A. End-of-Line Resistor: 4.7 K ohms, ½ watt (P/N 71252 UL listed) for Style Y (Class B) NAC. Supervised and power-limited. Refer to panel documentation and Fire-Lite Device Compat- ibility Document for listed compatible devices. Two Programmable Form-C Relays and One Fixed Trouble Form-C Relay: Contact rating: 2.0 A © 30 VDC (resistive) 0.5 A © 30 VAC (resistive). Four-wire Resettable Special Application Power (24 VDC nominal): Up to 1.5 A for powering four-wire smoke detec- tors. Power-Limited, nonsupervised. Refer to Fire-Lite Device Compatibility Document for listed compatible devices. Nonresettable Special Application Power #1 (24VDC nomi- nal) TB3, Terminals 3 (+) & 4 (-): Maximum ripple voltage: 10 mVRMS Total DC current available from each output is up to 1.5 A. Power-limited, nonsupervised. Nonresettable Special Application Power #2 (24VDC nomi- nal) TB3, Terminals 5 (+) & 6 (-): Maximum ripple voltage: 10 mVRMS Total DC current available from each output is up to 1.5 A. Power-limited, nonsupervised. NOTE: Although each Special Application power output can deliver 1.5 A individually, the total power output from these circuits cannot exceed 1.5A in standby. The total Alarm output for all Spe- cial Application power and NAG circuits cannot exceed 7 A. Cabinet Specifications Door: 19.26" (48.92 cm.) high x 16.82" (42.73 cm.) wide x 0.67" (1.70 cm.) deep. Backbox: 19.00° (48.26 cm.) high x 16.65° (42.29 cm.) wide x 5.21° (13.23 cm.) deep. Trim Ring (TR-CE): 22.00' (55.88 cm.) high x 19.65° (49.91 cm.) wide. Shipping Specifications Dimensions: 20.00" (50.80 cm) high, 22.5" (57.15 cm) wide, 8.5" (21.59 cm) deep. Weight: 27.3 lbs (12.38 kg). Temperature and Humidity Ranges This system meets NFPA requirements for operation at 0 - 49°C/32 - 120°F and at a relative humidity 93% ± 2% RH (noncondensing) at 32°C ± 2°C (90°F ± 3°F). However, the useful life of the system's standby batteries and the electronic components may be adversely affected by extreme tempera- ture ranges and humidity. Therefore, it is recommended that this system and its peripherals be installed in an environment with a normal room temperature of 15- 27°C/60 - 80°F Agency Listings and Approvals The listings and approvals below apply to the MS-9600L5(E) and MS-9600UDLS(E) control panels. In some cases, certain modules may not be listed by certain approval agencies, or list- ing may be in process. Consult factory for latest listing status. ULC: S624 (MS-9600LSC only; see DF-60438) FM APPROVED: to UL ANSI 864 CSFM: 7170-0075:217 MEA: 87-08-E NFPA Standards The MS-9600L5(E) and MS-9600UDLS(E) control panels comply with the following NFPA 72 Fire Alarm Systems requirements: - LOCAL (Automatic, Manual, Waterflow and Sprinkler Supervisory). - AUXILIARY (Automatic, Manual and Waterflow) (requires 4XTMF). - REMOTE STATION (Automatic, Manual and Waterflow) (Requires 4XTMF where DACT-UD2 is not accepted.) - PROPRIETARY (Automatic, Manual and Waterflow). - CENTRAL STATION (Automatic, Manual and Waterflow, and Sprinkler Supervised). - OT (Other Technologies-PSDN) For use with IPDACT. LiteSpeedTM is a trademark; and FireLite® Alarms is a registered trademark of Honeywell International Inc. ©2009 by Honeywell International Inc. All rights reserved, unauthorized use of this document is strictly prohibited. iso 900 t'5 document is not intended to be used for installation purposes. e try to keep our product information up-to-date and accurate. EINffRINUMANllFAE1URIl'e cannot cover all specific applications or anticipate all requirements. QUALITY S VS T E M,11 specifications are subject to change without notice. Made in the U.S. A. For more information, contact Fire•Lite Alarms. Phone: (800) 627-3473, FAX: (877) 699-4105. Page 6 of 6- df-60334:A4 • 12129/2009 Section 5: Power Supply Calculations 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: Calculating the total amount of AC branch circuit current required to operate the system Calculating the power supply load current for non-fire and fire alarm conditions and calculating the secondary (battery) load Calculating the size of batteries required to support the system if an AC power loss occurs Selecting the proper batteries for your system 5.2 Calculating the AC Branch Circuit The control panel requires connection toa 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 continuously, without any disconnect devices, from the power source to the control panel. ()vercurrent 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 2) 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. Device Type Number of Current Draw Total Current per Devices (AC amps) Device MS-9600LS(C) 3.0 MS-9600UDLS or 1 X or = MS-9600LSE MS-960OUDLSE 1.5 CHG-120F [ ] X 2.0 = I I X ] = Sum Column for AC Branch Current Required Table 5.1 AC Branch Circuit Requirements 5.3 Calculating the System Current Draw 5.3.1 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 I in Table 5.3 on page 176. 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 Column 2 in Table 5.3 on page 176. 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 176. When calculating current draw and the battery size, note the following: 'Primary' refers to the main power source for the control panel 174 MS-9600LS Series Manual— P/N 52646:B2 2/12/2010 ('akuluting (he Svtem Current Draw Power Supply Calculations 'Secondary' refer to the control panel's backup batteries All currents are given in amperes (A). Table 5.2 shows how to convert milliamperes and microamperes to full amperes. To convert.. Multiply Example Milliamperes (mA) to mAx 0.001 3 mAx 0.001 = 0.003A amperes (A) Microamperes (pA) to pA x 0.000001 300 pA x 0.000001 = 0.0003 A amperes (A) Table 5.2 Converting to Full Amperes 5.3.2 How to Use Table 5.3 on page 176 to Calculate System Current Draw Use Table 5.3 on page 176 to calculate current draws as follows: Enter the quantity of devices in all three columns. Enter the current draw where required. Refer to the Device Compatibility Document for compatible devices and their current draw. Calculate the current draws for each in all columns. Sum the total current for each column. S. Copy the totals lrdm Column 2 and Column 3 to Table 5.4 on page 177. Following are the types of current that can be entered into Table 5.3 on page 176: / 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 Column3 - The standby current drawn from the batteries in a non-fire alarm condition during a loss of AC power. MS-9600LS Series Manual-- PIN 52646:B2 2112/2010 175 Power Supply Calculations Calculating the System Current Draw Table 5.3 contains 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 177. Calculation Column I Calculation Column 2 Calculation Column 3 Primary, Non-Fire Alarm Current (amps) Primary, Fire Alarm Current (amps) Secondary, Non-Fire Alarm Current lamps) Device Type Qty I X[current draw]= I Total Qty X[currentdraM= I Total - Qty I X[current drawj I Total Main CircuilBoard 1 XO.1501= 0.160 I XI0.283] 0.253 1 X[0.103]= 0.103 ANN-80 I J XO.0371= I I )qO.0401= [ 3 X(O.015]= ANN-(R)LED I I X10.0283= I I x0.088J= ( ) X(0.028]x ANN-RLV I J XIO.015]= I I X[e.0753x I I X[0.0I8]= ANN-i/O ( I X(0.035] I XI0.200J J X0.0353= ANN-S/PG ( I )qo.045]= ( 3 X[0.0451= ( 3 XIO.045)= ACM-aRE I I XIO.0303= I I q0.158]= 3 1 XIO.0301= ACM-16ATE [ I XIO.0401 I 1 X0.05S)2 I I XI0.0403= ACM-32AF AEM-16ATF [ 3 X[O.002] 3 3 XtO.018I= C I Xf0.0021= ACM-flAP AFM-18ATF ( 3 X(0.0401 I I X[0.056)2 ( 3 X0.040J AFM-32AF AFM-16AF 3 3 X[O.025] 3 3 XI0.065I= 3 3 X[0.025]z DACT-002 I XI0.0201 I 3 X30.0291 I 3 X0.0173= LDM-32F 3I X[0.040) 3 X{0.056]3= I I X[0.040]= LDM-E32F 1 XI0.0023 ( I X30.018= 3 3 X30.0021= LCD-aOF & LCO-80FC )qo.0643 I X30.0641= I I Xj0.0253= 4XTMF - -I xIo.00s= xo.otI'= - xlo.00s= 4-wire Detedor Heads - - Xl 3a= 3 X3 I - I - I X( 3= Power SupeMsion Relays° - X30.0251= 3 1 X[0.025J - I I X30.025= SLC-2LS Expander - - X(0.025003= XI0.026003= - I I XIO.01900? CP350 & CP353 - -1 )qo.00030)= masmum alarm draw for all desices with one (I) SLC Loop 0.400 with two (2) SLC Loops 0.800 . I = I X[0.0011=6224R8 1 1 XIO.00030I= SD350 & SD355 - - 0.000301= - -1 XIO.000301= SD35OT & S0355T - -) X[O.00030]= 1 1 X10.00030? AD350 & A0355 - - I No.000303= -I I Xl0,000301= H350 & 1-1355 - I NO.000301= - -1 XIO.00030)= H350R & H355R - NO.000303= - -I X[0.00030]= HOSBHT - - T NO.000303= - -1 x(0.000303= 0350P & 0350PL -1 XIO.000303= - - XIO.000301= 0350RP & O35ORPL - - I X[0.00030]= - - XIO.000303= 8501 B & B50-1 BHT' X0.001J_ Relay Base - I - I XIO.000503= NO.000503= - B22461 isolator Base 3 X(0.00045]= -I X10.000453= MMF400 - - X(0.000.403= 1 N0.000401= MMF-300-10 - - X[0.003503= - -1 X(0.00350J= MDF-300 - - XCC.00075I= - -1 X(o.00075). MMF-301 - - XIO.0003753= - ( - X[0.000375)= MMF-302 - N0.000273= - - Xl0.000271= MMF-302..6 - - >1(0.002003= - - X(0.002003= BG-12LX - - X(0.000301= -1 3 X(0.000301= CMF-300 - - XI0.000391= - - X[0.000393= CMF-300-6 - XIO.002251= . - 1 X[0.002251= CRF-300 - X(D.000271= - - X[0.000273= CRF-300-6 - - I X0.001453= - I X0.001453= 300 - - XI0.00040)= - I 3(10.000401= NAC#t° 3 3 N 3= NAC#2 ( 3 X NAC#3 I I XI 3= NAC#4 I 3 3(3 3= Current Draw trom T83 1= (nonalarm°) Sur each column 1° for Primary Non-Alarm = Primary Alarm Secondary Non-Alarm totals Fable 5.3 System Current Draw Calculations 1 All eight ACM-8RF relays activated on a single module. 2 All annunciator LEDs on 3 LDM-32F with LEDs on 4 If using the Reverse Polarity Alarm output, add 0.005 amps; if using the Reverse Polarity Trouble output, add another 0.005 amps. 5 Refer to the Device Compatibility Document for standby current. 6 Must use compatible listed Power Supervision Relay. 7 Maximum alarm current for each sounder base is 0.015 amps which must be supplied by aux. 24VDC source. 8 Current limitation of Terminal T134 circuits is 3.00 amps per NAC. 9 The total standby current must include both the resettable (TB3 Terminals 1 & 2) and nonresettable (T83 Terminals 3 & 4, 5 & 6) power. Caution must be taken to ensure that current drawn from these outputs during alarm does not exceed maximum ratings specified. Current limitations of T63 circuits is 3.0 amps per output 10 Total current draw listed above cannot exceed 7.0 amps in alarm. 176 MS-9600LS Series Manual- P/N 52646:82 2/12/2010 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 All), required to support the control panel under the loss of AC power. Complete fable 5.4 aSi'ollows:. I. Enter the totals from Table 5.3 on page 176, Calculation Columns 2 and 3 where shown. Enter the NFPA Standby and Alarm times (refer to 'NFPA Requirements' below). Calculate the ampere hours for Standby and Alarm, then sum the Standby and Alarm ampere hours. Multiply the sum by the derating factor of 1.2 to calculate the proper battery size (in AH). Write the ampere hour requirements on the Protected Premises label located inside the cabinet door. Secondary Standby Load Required Standby Time (total from Table 5.3 Calculation (24 hours) Column 3) X[ I = AH Primary Alarm Load Required Alarm Time (total from Table 5.3 Calculation (for 5 mm., enter 0.084, Column 2) for 10 mm., enter 0.168) X( I = Al-I Sum of Standby and Alarm Ampere Hours = AH Multiply by the Derating Factor X 1.2 Battery Size, Total Ampere Hours Required AH Table 5.4 Total Secondary Power Requirements at 24 VDC 5.4.1 NFPA Battery Requirements NFPA 72 Local. Proprietary, Central, Auxiliary and Remote Station Fire Alarm Systems require 24 hours of standby power followed by 5 minutes in alarm NI-PA requires 24 hours of standby plus iS minutes activation for audio systems. The total ampere hours required cannot exceed 26 AH with an internal charger 5.4.2 Selecting and Locating Batteries Select sealed lead acid batteries that meet or exceed the total ampere hours calculated in Table 5.4. The control panel can charge batteries in the 12 All to 26 All range. The control panel cabinet is capable of housing batteries up to 18 AH. Batteries larger than 18 AH require the 1313-26, 1313-55F. or other UL-listed external battery cabinet. MS-9600LS Series Manual P/N 52646:132 2/12/2010 177 Notification Appliance Circuits Special Application Power Power-limited, supervised circuits NAC #1 & #2 Sylle Z (Class A) 3.0 amps max per circuit A configured for Class A using NACKEY card (Sic Style V Illustrated 2 Programmable Relays & new right edge of board) I Fixed Trouble Relay NAG 01 NAG e (nonsupervised) Contact Ratings: JL. ...L. 2.0 amps @ 30VDC (resistive) Basic System Connections 1 Special Application Power DC Power Uutputs (24VDC Power-limited, nonsupervised circuits Supervise with a power supervision relay EOLR-1 EIA-232 to printer or personal computer Power-limited for EDP-listed equipment or personal computer with FACP Uploadlbownlod Utility. 50 foot maximum within same room. Nonresettable Power 92 24 VDC 0.5 amp @ 30 VAC (resistive) filtered, power-limited, (1.5 amps ço Contacts show in normal condi- maximum) Supervision required. "t.s tion (AC power with no alarm, Suitable for powering annunciators. trouble, or supervisory activity). Nonresettabte Power #1 - 24 VDC filtered, power-limited, (1.5 amps 4 maximum) Supervision required. ' ( Suitable for powering annunciators. Resettable Power - 24 VDC filtered, - power-limited, (1.5 amps maximum){2 to smoke detectors. Supervision required. 0 Important: Removing Ground Fault Disable jumper JP2 voids UL/NFPA Style/Class identification for circuits. Remove jumper JP2 only with AI-IJ (Authority Having Jurisdiction) approval IF remove jumper/shunt from JP2. REMOVETO I Connector for Optional Onboard DACT-UD DISABLE LOCAL DISABLE Ct-iARt3ER 040 FLT J2 Auxiliary • DACT JP3Trouble Inputs OPT #1 2 r'i 9600udleslayout.wml ORc-.L. TERM 1Cm _AOC* SLC Loop (Supervised Power-limited) Refer to the SLC Wring Manual for detailed Information on wiring addressable devices for Style 4, 6, and 7 Notification Applicance Circuits Power-limited, supervised circuits —'—i NAC #1, #2, #3, & #4, Style V (Class 0) o 3.0 amps max per circuit JPB configured for Class B'.. using NACKEY card (factory default configuratiorr) NAG #11 NAG 92 NAG 03 NAG #4 sLim 4.1S. 1/2W LKeyboard Interface A fail-safe trouble relay switches \i1L) to the NO position during D09F trouble conditions and ACNIANN-BUS under loss all power. TW (EIA-485) to annunciators (power-limited, Al-' T,oublo SUPOi'lioOry NoNcC NONCC NONCC TBT (Factory default relay programming PB as shown on circuit board) JP8- Install NACKEY board in proper orientation to configure NACs 4 Ci Ps StyleY or 2 Style Z circuits JP6 \Cutthisumperjoenable 111111 4XTMF OPT BO Connectors for 4XTMF Option Module SuperVisory relay when 4XMTF is installed, Remove JP3 Jumper to disable the FACP battery charger when using external charger. Cut this jumper to supervise the 4XMTF when installed To disable -round fault detection (see J10 & Connector for Optional 2nd Signaling Line Circuit LC OPT Flash Memory Load Enable Switch circuIt nun J6 JB SWI UP is normal position for switch IIlIIIilItII1 LCD ]SPLAY DOWNposition allows loading of O ,(EYPAD wr factory software upgrades TB MEM O U Battery 24 VDC, 26 Amp Hour maximum (supervised, nonpower-limited) CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM - LISTING SERVICE LISTING No. (7165-0075:0217) Page 1 of 2 CATEGORY: (7165 -- FIRE ALARM CONTROL UNIT (COMMERCIAL)) LISTEE: (FIRE-LITE ALARMS INCJne Fire-Lite Place, Northford, CT 06410-1653 Contact: Vladimir Kireyev (203) 484-7161 Fax (203) 484-7309 Email: vladimir.kireyevHoneywell.com DESIGN: Models MS-9600LS and(MS-9600UDLS addressable fire alarm control units Suitable for local protective, remote, auxilIary, and central station signaling when used with appropriate optional modules and additional separate listed equipment. The panels provide one signaling line circuit for connection of up to 318 total addressable devices (159 detectors and 159 modules); two Class A or four Class B notification appliance circuits; three form C relays are provided that are default programmed for alarm, trouble, and supervisory relay outputs. The MS-9600UDLS come with the DACT-UD2 factory installed. Refer to listee's data sheet for detailed product description and operational considerations. System components: MS-9600LS, MS-9600UDLS Control Unit SLC-2LS Loop Card DACT-UD2 Digital Alarm Communicator Transmitter Modules 4XTMF Transmitter Module LDM-32F Lamp driver Module ACM-8RF Control Relay Module ANN-RLY Remote Relay ANN-80 , ANN-LED, LCD-80F Remote Annunciator ACM-16ATF, ACM-32AF Remote Annunciator AEM-I6ATF, AEM-32AF Remote Annunciator ACC-25/50ZST Audio Command Center (Listing No. 6911-0075:207) RATING: 120 VAC, 50/60 Hz, 3.0 amps INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical rating, and FM label. APPROVAL: Listed as fire alarm control unit for use with separately listed compatible initiating and indicating devices. Also suitable for high-rise applications for use with Model ACC-25/50ZST Audio Command Center (Listing No. 6911-0075:207). *Models MS-9600LS and MS-9600UDLS panels are also suitable for high-rise application for use with Model ECC-50/100 emergency voice evacuation panel (CSFM #6911-0075:0226). Refer to manufacturer's Installation Manual for details. These control units can generate the distinctive three-pulse Temporal Pattern Fire Alarm Evacuation Signal as required per NFPA 72, 2002 Edition and meet the requirements of *Rev. 01-20-15 gt This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other Date Issued: July 01, 2018 (June 3O,2019) Authorized By: DAVID CASTILLO, Program Coordinator Fire Engineering Division Listing No. 7165-0075:0217 Page 2 of 2 UL-864, 9th Edition Standard. NOTE: 1. For Fire Alarm Verification Feature (Delay of fire alarm), the maximum Retard/Reset/Restart period must be adjusted to 30 seconds or less. 2. Combined with 7170-0075:220 *Rev. 01-20-15 gt This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other Date Issued: July 01, 2018 (June 30, 2019) Authorized By: DAVID CASTILLO, Program Coordinator Fire Engineering Division DF-52121 :A • E-325 (MMF.300:(A) Series! MDF..300 43 FIreuTeMarflis (Addressable Monitor Modules by Honeywell Addressable Devicesr General n n Four different monitor modules are available for Fire-Lite's intelligent controls to suit a variety of applications. Monitor modules are used to supervise a circuit of dry-contact input devices, such as conventional heat detectors and pull stations, or monitor and power a circuit of two-wire smoke detectors (MMF-302). MMF-300 is a standard-sized module (typically mounts to a 4' [10.16 cm] square box) that supervises either a Class A (Style D) or Class B (Style B) circuit of dry-contact input devices. MMF-301 is a miniature monitor module (a mere 1.3' (3.302 cm) H x 2.75' (6.985 cm) W x 0.5" (1.270 cm) D) used to supervise a Class B (Style B) circuit. Its compact design allows the MMF-301 to often be mounted in a single-gang box behind the device it's monitoring. MMF-302 is a standard-sized module used to monitor and supervise compatible two-wire, 24 volt, smoke detectors on a Class A (Style D) or Class B (Style B) circuit. MDF-300 is a standard-sized dual monitor module used to monitor and supervise two independent two-wire initiating device circuits (lDCs) at two separate, consecutive addresses in intelligent, two-wire systems. LiteSpeedTM is a communication protocol developed by Fire'Lite Engineering that greatly enhances the speed of com- munication between analog intelligent devices. Intelligent devices communicate in a grouped fashion. If one of the devices within the group has new information, the panel CPU stops the group poll and concentrates on single points. The net effect is response speed greater than five times that of other designs. MMF-300 Monitor Module Built-in type identification automatically identifies this device as a monitor module to the control panel. Powered directly by two-wire SLC loop. No additional power required. High noise (EMF/RFl) immunity. SEMS screws with clamping plates for ease of wiring. Direct-dial entry of address: 01 - 159 on LiteSpeed sys- tems, 01 - 99 on CLIP systems. to LED flashes green during normal operation (this is a pro- grammable option) and latches on steady red to indicate alarm. The MMF-300 Monitor Module is intended for use in intelligent, two-wire systems, where the individual address of each mod- ule is selected using the built-in rotary switches. It provides either a two-wire or four-wire fault-tolerant Initiating Device Cir- cuit (IDC) for normally-open-contact fire alarm and supervisory devices. The module has a panel-controlled LED indicator. The MMF-300 can be used to replace M300 modules in exist- ing systems. MMF-300 APPLICATIONS Use to monitor a zone of four-wire smoke detectors, manual fire alarm pull stations, waterflow devices, or other normally- open dry-contact alarm activation devices. May also be used to monitor normally-open supervisory devices with special supervisory indication at the control panel. Monitored circuit 9 5895 o 81 7Sls,2 2 EEF300 and MMF-302 3 52 4 ONES ADDRESS 0 0 567B95 detail of MDF-300-note llII8 1 "J.ones" addresses are I17 2'o IS14 1 3 2 0, 2, 4, 6, 8 onlY ff (6 6 3 75 ONES° may be wired as an NFPA Style B (Class B) or Style D (Class A) Initiating Device Circuit. A 47K ohm End-of-Line Resistor (provided) terminates the Style B circuit. No resistor is required for supervision of the Style D circuit. Maximum lDC loop length is 2,500 ftJ762 m (20 ohms maximum). MMF-300 OPERATION Each MMF-300 uses one of 159 available module addresses on an SLC loop. It responds to regular polls from the control panel and reports its type and the status (open/normal/short) of its Initiating Device Circuit (lDC). A flashing LED indicates that the module is in communication with the control panel. The LED latches steady on alarm (subject to current limita- tions on the loop). MMF-300 SPECIFICATIONS Nominal operating voltage: 5 to 32 VDC. Maximum current draw: 5.1 mA (LED on). Average operating current: 400 pA (LED flashing). EOL resistance: 47K ohms. Temperature range: 32°F to 120°F (0°C to 490C). Humidity range: 10% to 93% noncondensing. Dimensions: 4.5° (11.43 cm) high x 4° (10.16 cm) wide x 1.25° (3.175 cm) deep. Mounts to a 4° (10.16 cm) square x 2.125° (5.398 cm) deep box. MMF-301 Mini Monitor Module Built-in type identification automatically identifies this device as a monitor module to the panel. Powered directly by two-wire FACP. No additional power required. DF-52121:A.6/11/07—Page 1of6 High noise (EMF/RFI) immunity. Tinned, stripped leads for ease of wiring. Direct-dial entry of address: 01 - 159 on LiteSpeed sys- tems, 01 - 99 on CLIP systems. 1415 0 1 _ ADDRESS I 0 13 II II 12)3 ii LOOP I II 1o5_H ", 8 76 8 76 TENS ONES ll 0 L ._jll l I-J w I:5 H 00 The MMF-301 Mini Monitor Module can be installed in a sin- gle-gang junction directly behind the monitored unit. Its small size and light weight allow it to be installed without rigid mount- ing. The MMF-301 is intended for use in intelligent, two-wire systems where the individual address of each module is selected using rotary switches. It provides a two-wire initiating device circuit for normally-open-contact fire alarm and security devices. The MMF-301 can be used to replace M301 module in existing systems. MMF-301 APPLICATIONS Use to monitor a single device or a zone of four-wire smoke detectors, manual fire alarm pull stations, waterflow devices, or other normally-open dry-contact devices. May also be used to monitor normally-open supervisory devices with special super- visory indication at the control panel. Monitored circuit/device is wired as an NFPA Style B (Class B) Initiating Device Circuit. A 47K ohm End-of-Line Resistor (provided) terminates the cir- cuit. MMF-301 OPERATION Each MMF-301 uses one of 159 available module addresses on an SLC loop. It responds to regular polls from the control panel and reports its type and the status (open/normal/short) of its Initiating Device Circuit (IDC). MMF-301 SPECIFICATIONS Nominal operating voltage: 15 to 32 VDC. Maximum operating current: 375 pA. EOL resistance: 47K ohms. Temperature range: 32°F to 120°F (0°C to 490C). Humidity range: 10% to 93% noncondensing. Dimensions: 13" (3.302 cm) high x 2.75° (6.985 cm) wide x 0.5° (1.270 cm) deep. Wire length: 6' (15.24 cm) minimum. MMF..302 Interface Module Supports compatible two-wire smoke detectors. Supervises IDC wiring and connection of external power source. High noise (EMF/RFI) immunity. SEMS screws with clamping plates for ease of wiring. Direct-dial entry of address: 01 - 159 on LiteSpeed sys- tems, 01 - 99 on CLIP systems. LED flashes during normal operation (this is a programma- ble option). LED latches steady to indicate alarm on command from control panel. The MMF-302 Interface Module is intended for use in intelli- gent, addressable systems, where the individual address of each module is selected using built-in rotary switches. This module allows intelligent panels to interface and monitor two- wire conventional smoke detectors. It transmits the status (nor- mal, open, or alarm) of one full zone of conventional detectors back to the control panel. All two-wire detectors being moni- tored must be UL compatible with the module. The MMF-302 has a panel-controlled LED indicator and can be used to replace M302 modules in existing systems. MMF-302 APPLICATIONS Use the MMF-302 to monitor a zone of two-wire smoke detec- tors. The monitored circuit may be wired as an NFPA Style B (Class B) or Style D (Class A) Initiating Device Circuit. A 3.9 K ohm End-of-Line Resistor (provided) terminates the end of the Style B or D (class B or A) circuit (maximum IDC loop resis- tance is 25 ohms). Install ELR across terminals 8 and 9 for Style D application. MMF-302 OPERATION Each MMF-302 uses one of 159 available module addresses on an SLC loop. It responds to regular polls from the control panel and reports its type and the status (open/normal/short) of its Initiating Device Circuit (IDC). A flashing LED indicates that the module is in communication with the control panel. The LED latches steady on alarm (subject to current limita- tions on the loop). MMF-302 SPECIFICATIONS Nominal operating voltage: 15 to 32 VDC. Maximum current draw: 5.1 mA (LED on). Average operating current: 270 pA (LED flashing). EOL resistance: 3.9K ohms. External supply voltage (between Terminals T3 and T4): DC voltage: 18 to 28 volts power limited. Ripple voltage: 0.1 Vrms maximum. Current: 90 mA per module maximum. Requires regulated, resettable 24 VDC power. Temperature range: 32°F to 120°F (0°C to 490C). Humidity range: 10% to 93% noncondensing. Dimensions: 4.5" (11.43 cm) high x 4° (10.16 cm) wide x 1.25" (3.175 cm) deep. Mounts to a 4" (10.16 cm) square x 2.125° (5.398 cm) deep box. MDF-300 Dual Monitor Module The MDF-300 Dual Monitor Module is intended for use in intel- ligent, two-wire systems. It provides two independent two-wire initiating device circuits (IDCs) at two separate, consecutive addresses. It is capable of monitoring normally open contact fire alarm and supervisory devices; or either normally open or normally closed security devices. The module has a single panel-controlled LED. NOTE: The MDF-300 provides two Class B (Style Y) IDC circuits ONLY. Class A (Style Z) IDC circuits are NOT supported in any application. MDF-300 SPECIFICATIONS Normal operating voltage range: 15 to 32 VDC. Maximum current draw: 5.1 mA (LED on). Page 2 of 6— DF-52121 :A • 6/11/07 Average operating current: 750 pA (LED flashing) EOL resistance: 47K ohms. Maximum IDC wiring resistance: 1,500 ohms. Temperature range: 320 to 120°F (00 to 490C). Humidity range: 10% to 93% (non-condensing). Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x 1.25" (3.175 cm) deep. Mounts to a 4" (10.16 cm) square x 2.125" (5.398 cm) deep box. MDF-300 AUTOMATIC ADDRESSING The MDF-300 automatically assigns itself to two addressable points, starting with the original address. For example, if the MDF-300 is set to address "56", then it will automatically assign itself to addresses '56" and "57". NOTE: "ones" addresses on the MDF-300 are 0, 2, 4, 6, or 8 only. Terminals 6 and 7 use the first address, and terminals 8 and 9 use the second address. CAUTION: Avoid duplicating addresses on the system. Installation MMF-300, MMF-302, and MDF-300 modules mount directly to a standard 4" (10.16 cm) square, 2.125" (5.398 cm) deep, electrical box. They may also be mounted to the SMB500 sur- face-mount box. Mounting hardware and installation instruc- tions are provided with each module. All wiring must conform to applicable local codes, ordinances, and regulations. These modules are intended for power-limited wiring only. The MMF-301 module is intended to be wired and mounted without rigid connections inside a standard electrical box. All wiring must conform to applicable local codes, ordinances, and regulations. Agency Listings and Approvals In some cases, certain modules may not be listed by certain approval agencies, or listing may be in process. Consult fac- tory for latest listing status. UL: S2424 ULC: CS3705 FM Approved CSFM: 7300-0075:185 MEA:72-01-E Product Line Information MMF-300: Monitor module. MMF-301: Monitor module, miniature. MMF-302: Monitor module, two-wire detectors MDF-300: Monitor module, dual, two independent Class B cir- cuits. SMB500: Optional surface-mount backbox. Architects'/Engineers' Specifications Specifications of these and all Fire'Lite products are available from Fire-Lite. 19 © © CAUTION DE-ENERGIZE UNIT PRIOR TO SERVICING Face plate for MMF-300, MMF-302, and MDF-300 Mounting Diagrams for standard-sized modules DF-52121:A. 6/11/07— Page 30f 6 Wiring Diagrams The following wiring diagrams are included: MDF-300: Typical dual two-wire Style B initiating device circuit configuration. MMF-301: Typical two-wire Style B initiating device circuit configuration. MMF-300: Typical two-wire initiating circuit configuration, NFPA Style B. MMF-300: Typical four-wire fault-tolerant initiating circuit configuration, NFPA Style D. MMF-300: Typical two-wire initiating circuit configuration for security systems (with alarm versus short capability). MMF-302: Interface two-wire conventional detectors, NFPA Style B. MMF-302: Interface two-wire conventional detectors, NFPA Style D. CRF-300: Relay control module used to disconnect a power supply. Figure 1 MDF-300 Typical dual two-wire Style B initiating device circuit configuration. Two Initiating Device Circuits (L&H) TO Next each power-limited to Device FROM Panel 230 pA max. @12 VOC max. MONITOR or Previous Device 47K EOL .-') Li MODULE Resistor U Communication Line ELR-47K 32 VOC maximum. Twisted-pair is recommended. 47K EOL shownAil wiring is supervised and power Resistor L limited. ELR.47K L Connect modules 10 listed compatible o Fire•LJle control panels only. ANY NUMBER of UL Listed contact closure devices may be used. DO NOT MIX fire alarm initiating, supervisory, or security devices on the same circuit. Install contact closure devices per manufacturer's installation Instructions. 6720m11.wml Figure 2 MMF-301 Typical two-wire Style B initiating device circuit configuration. TO NEXT DEVICE I UL LISTED Compatible BLACK lll~1 IRED I N MMF-301 Control I Panel 567890 3 G) '2 56789 I 213 101514 2w-' 10 I Y_ VIOLET via 47K EOL INCLUDED g6720wir1.wml Page 4016— DF-52121 A • 6/11/07 NOTE: Wiring Diagrams this Page: MMF-300 Connect modules to listed compatible Fire•Lite control • Any number of UL-listed contact closure devices may be panels only. used. All wiring shown is supervised and power limited. • DO NOT MIX fire alarm initiating, supervisory, or security Install contact closure devices per manufacturers installa- devices on the same circuit. tion instructions. Figure 3 MMF-300 Typical two-wire initiating circuit configuration, NFPA Style B. TO xt - FROM Panel (+) or Previous MONITOR Device k NFPA Style B, power limited:-. Communication Line 230 32 VDC maximum. In miv 47K EOL max. Twisted-pair is + recommended. Resistor ELR-47K Communication Loss (optional connection for panels which support this feature) FUTURE FEATURE 6720wir2.wnf Figure 4 MMF-300 Typical four-wire fault-tolerant initiating circuit configuration, NFPA Style D. TO Next Device - FROM Panel (+) or Previous MONITOR Device MODULE Communication Line - 32 VDC maximum. Twisted-pair is 8(51 + recommended. EOL Resistor Is internal at 60 3 terminals 8 & 9 Communication Loss *cirss (optional connection for panels o 9 which support this feature) FUTURE FEATURE 6720wh3 wmf Figure 5 MMF-300 Typical two-wire initiating circuit configuration for security systems (with alarm versus short capability). Initiating Device Circuit (IDC) NFPA Style B, power limited: 230 VA max. @12 VDC max. 14K Seties Resistor, 47K EOL Resistor ELR47K TO Next Device W C)C)<DC)C)C)N FROM Panel or Previous MONITOR Device MODULE Communication Line 32 VDC maximum. - Twisted-pair is BID I + recommended. W . ------ Communication Loss AODRESS (optional connection for panels support this feature) FUTURE FEATURE 672ir4 wf DF-52121:A • 6/11/07 - Page 5 of 6 NOTE: Wiring Diagrams this Page: MMF-302 and CRF-300 Connect modules to listed compatible Fire•Lite control panels only. Terminal wiring must be power limited. DO NOT MIX fire alarm initiating, supervisory, or security devices on the same circuit. DO NOT LOOP wire under terminals. Break wire run to provide supervision of connections. Detectors must be UL listed compatible with module. Install detectors per manufacturers' installation instruc- tions. Power to the interface module must be externally switched to reset the detectors. An CRF-300 relay control module can be used to switch power from a standard power supply; see Fig. 7 below. Figure 6 MMF-302 Interface two-wire conventional detectors, NFPA Style B. TO Next Device INTERFACE MODULE 3.9K EOL Resistor (included) A2143-1O ADDRESS 00 FROM Pane! or Previous Device Communication Line 32 VDC maximum. Twisted-pair is recommended. (_) Listed Battery Backup 4 switched DC power supply. Optional Branch Circuit TO Next Interface Module Module supervises supply voltage and detector loop. 6720w1r5.wmf Figure 7 MMF-302 Interface two-wire conventional detectors, NFPA Style D: TO Next - Device () (—) Listed Batter)' Backup switched DC power supply. Optional Branch Circuit TO Next Interface Module Module supervises supply voltage and detector loop. 6720w16.wmf Figure 8 CRF-300 Relay control module used to disconnect a power supply. TO Next FROM Panel Device or Previous Th ( pC± 9E Device II ID—S (c ,CONTRO DCPOWER I I 1 ic SUPPLY Listed for Fire 0 Communication Line Protection with 0 32 VDC ma)dmum. Battery Backup +- Twisted-pair Is recommended -P'm LOOP 672ir7.wmf LiteSpeed" is a registered trademark of Honeywell International Inc. ©2007 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. ISO 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. 71.7137111711 We cannot cover all specific applications or anticipate all requirements. ENGINFERINS & MJINUFACTUKINC All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S. A. For more information, contact Fire-Lite Alarms. Phone: (800) 627-3473, FAX: (877) 699-4105. www.firelite.com Page 6016— OF-52121:A • 6/11/07 3.91K EOL Resistor (included) required at terminals 8 & 9 A2143.1O FROM Panel or Previous Device Communication Line 32 VDC maximum. Twisted-pair is recommended. CMFand(CRF Series) (Addressable) (Control and Relay Modules) General CMF-300 Control Module: The CMF-300 Addressable Con- trol Module provides Fire-Lite intelligent control panels a circuit for Notification Appliances (horns, strobes, etc.). Addressabil- ity allows the CMF-300 to be activated through panel program- ming, on a select (zone or area of coverage) basis. CRF-300 Relay Module: The CRF-300 Addressable Relay Module provides the system with a dry-contact output for acti- vating a variety of auxiliary devices, such as fans, door hold- ers, dampers, control equipment, etc. Addressability allows the dry contact to be activated through panel programming, on a select basis. LiteSpeedTM is a communication protocol developed by Fire'Lite Engineering that greatly enhances the speed of com- munication between analog intelligent devices. Intelligent devices communicate in a grouped fashion. If one of the devices within the group has new information, the panel CPU stops the group poll and concentrates on single points. The net effect is response speed greater than five times that of other designs. Features Built-in type identification automatically identifies these devices to the control panel. Internal circuitry and relay powered directly by two-wire SLC loop. The CMF-300 module requires power (for horns, strobes, etc.). Integral LED 'blinks" green each time a communication is received from the control panel and turns on in steady red when activated. High noise immunity (EMF/RFI). The CMF-300 may be used to switch 24-volt NAC power. Wide viewing angle of LED. SEMS screws with clamping plates for wiring ease. Direct-dial entry of address 01— 159 for MS-9600, 01 - 99 on MS-9200UDLS and MS-9050UD. Applications The CMF-300 is used to switch 24 VDC audible/visual power. The CRF-300 may be programmed to operate dry contacts for door holders, Air Handling Unit shutdown, etc., and to reset four-wire smoke detector power. Construction The face plate is made of off-white Noryl®. Controls include two rotary switches for direct-dial entry of address (01-159). The CMF-300 is configured for a single Class B (Style Y) or Class A (Style Z) Notification Appliance Circuit. The CRF-300 provides two Form-C dry contacts that switch together. DF-521 30:A • E-350 Fire LITeALarn.s by Honeywell CMF-300 Module (see wiring diagram Fig. 5 for CRF-300) Operation Each CMF-300 or CRF-300 uses one of 159 possible module addresses on a SLC loop. It responds to regular polls from the control panel and reports its type and status, including the open/normal/short status of its Notification Appliance Circuit (NAC). The LED blinks with each poll received. On command, it activates its internal relay. The CMF-300 supervises Class B (Style Y) or Class A (Style Z) notification or control circuits. NOTE: Open/short supervision is suspended with the CRF-300. Upon code command from the panel, the CMF-300 will discon- nect the supervision and connect the external power supply in the proper polarity across the load device. The disconnection of the supervision provides a positive indication to the panel that the control relay actually turned ON. The external power supply is always relay isolated from the communication loop so that a trouble condition on the external power supply will never interfere with the rest of the system. Rotary switches set a unique address for each module. The address may be set before or after mounting. The built-in TYPE CODE (not settable) will identify the module to the con- trol panel, so as to differentiate between a module and a sen- sor address. Specifications for CMF.300 Normal operating voltage: 15 to 32 VDC. Maximum SLC current draw: 6.5 mA (LED on). Average operating current: 350 pA direct poll (CLIP mode), 375 pA group poll (LiteSpeed mode) with LED flashing. External supply voltage (between Terminals T3 and T4): maximum 80 volts (RMS or DC). DF-52130:A.6/11/07—Page 1 0f4 Drain on external supply: 2 mA maximum (using internal EOL relay). EOL resistance: 47K ohms. Temperature range: 32°F to 120°F (0°C to 490C). Humidity range: 10% to 93% non-condensing. Dimensions: 4.5° (114.3 mm) high x 4" (101.6 mm) wide x 1.25 (31.75 mm) deep. Mounts to a 4° (101.6 mm) square x 2.125° (53.975 mm) deep box. pecifications for CRF.300) (Normal operating voltage: 15 to 32 VDC.) IMaximum SLC current draw: 6.5 mA (LED on) Average operating current: 230 pA direct poll (CLIP mode)) (25pA group poll (LiteSpeed mode) with LED fIashing5 EOL resistance: not used. Temperature range: 32°F to 120°F (0°C to 490C). Humidity range: 10% to 93% non-condensing. Dimensions: 4.5° (114.3 mm) high x 4° (101.6 mm) wide x 1.25° (31.75 mm) deep. Mounts to a 4° (101.6 mm) square x 2.125° (53.975 mm) deep box. RELAY CONTACT RATINGS FOR BOTH CMF-300 AND CRF-300 MODELS Load Application Maximum Current Description Voltage Rating Resistive Non-Coded 30 VDC 3.0 A Resistive Coded 30 VDC 2.0 A Resistive Non-Coded 110 VDC 0.9 A Resistive Non-Coded 125 VAC 0.9 A Inductive Coded 30 VDC 0.5 A (LIR=5ms) Inductive Coded 30 VDC 1.0 A (UR=2ms) Inductive Non-Coded 125 VAC 0.5A (PF=0.35) Agency Listings and Approvals In some cases, certain modules may not be listed by certain approval agencies, or listing may be in process. Consult fac- tory for latest listing status. UL: S2424 ULC: CS3965 FM Approved CSFM: 7300-0075:185 MEA: 72-01-E PRODUCT LINE INFORMATION CMF-300: Intelligent Addressable Control Module. CRF-300: Intelligent Addressable Relay Module. SMB500: Optional Surface-Mount Backbox. CB500: Control Module Barrier - required by UL for separat- ing power-limited and non-power limited wiring in the same junction box as CMF-300. ISOLATED QUADRANT T1S Note CBSOO Module Barrier, which creates isolated quadrant. 111 SO 101 CAUTION DE-ENERGIZE UNIT PRIOR TO SERVICING Page 2 of 4— DF-52130:A • 6/11/07 Wiring Diagrams The following wiring diagrams are provided: CMF-300: Typical notification appliance circuit configuration, NFPA Style Y. CMF-300: Typical fault-tolerant notification appliance circuit configuration, NFPA Style Z. CRF-300: Relay module wiring diagram. Figure 1 CMF-300 Typical notification appliance circuit configuration, NFPA Style Y. Connect modules to Listed Communication Line 32 VDC max. compatible Fire•Lite control Refer to panel documentation for panels only. TO Next Devi ce cabletype of required. FROM Panel orPrevious All wiring shown is CONTROL Device supervised and power MODULE 24 VDC Circuit limited. 4 DO NOTLOOP wire / Module polarities are ELR-47K on terminals 3 & 4. j Break wire to provide shown in alarm. 63 supervision of connections. I ,a unr Lq VLJ POWER SUPPLY Power Supply: Isolated, regulated, power-limited per NFPA 70. Listed for fire protection with battery backup. v4 ONES -- UL listed EOL Relay TO NEXT control module or EOL Relay. shown ONE RELAY REQUIRED for each circuit energized Some control panels have the RELAY BUILT IN 24 VDC coil and do not require external wiring. 6724wir1.wmf EOLR-1 Refer to the manual. CMF-300 Typical fault-tolerant notification appliance circuit configuration, NFPA Style Z. Connect modules to Listed Communication Line 32 VDC max. compatible Fire•Lite control TO Next ype Refer to panel documentation for 0,ca ble required. panels only. Device FROM Panel or Previous All wiring shown is Device supervised and power EOL Resistor is internal terminals 9 limited, / DO NOTLOOP wire shown in alarm. on terminals 3 &4. Break wire to provide supervision of connections. UL listed EOL Relay shown energized 24 VDC coil 6724wir2.wmi EOLR-1 ADDR TO NEXTcontrol module or EOL Relay. ONE RELAY REQUIRED for each circuit Some control panels have the RELAY BUILT IN and do not require external wiring. Refer to the manual. 24 VDC POWER SUPPLY Power Supply: Isolated, regulated, power-limited per NFPA 70. Listed for fire protection with battery backup. CRF-300 Relay module wiring diagram. Connect modules to Listed ,EL. TO Next '' '' '' - I FROM Penal compatible Fire•Lite control Device (+) or Previous only. panels *--------------i..' I % ---- Device ö 1_o_.__ RELAY 4-1 Module does NOT MODULE ation Line supervise controlled Icr? ximum. FL'_32 eldocumentatlon circuits. able requIred RELAY COMMON 2 —9 o NORMAII.YOPEN2 NORMALLY 7-1I- 2 RELAYCOMMON1 6— 3 NORMALLY CLOSED 1 5 -*41-I 1-4 NORMALLY OPEN I LOOP AOOR000 6724wi.wmf DF-52130:A • 6/11/07 - Page 3 of 4 LiteSpeed is a registered trademark of Honeywell International Inc. Noryl® is a registered trademark of GE Plastics, a subsidiary of General Electric Company. ©2007 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. This document is not intended to be used for installation purposes. ISO 9001 We try to keep our product information up-to-date and accurate. Ka~i We cannot cover all specific applications or anticipate all requirements. ENGIRMINS & MNOFIICT1JRINB All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S.A. For more information, contact Fire-Lite Alarms. Phone: (800) 627-3473, FAX: (877) 699-4105. www.firelite.com Page 4 of 4— DF-52130:A • 6/11/07 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL - FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. (7300-0075:01) Page 1 of 1 CATEGORY: (7300 -- FIRE ALARM CONTROL UNIT ACCESSORIES/MISC. DEVICES) LISTEE: (FIRE-LITE ALARMS INC.Dne Fire-Lite Place, Northford, CT 06410-1653 Contact: Vladimir Kireyev (203) 484-7161 Fax (203) 484-7309 Email: vladimir.kireyev@Honeywell.com DESIGN: Models MDF-300, MMF-301, MMF-300, MMF-302, MCF-300 monitor modules; Models CRF-300 and CMF-300 control modules; and MMF-302-6 six zone interface signaling device module. Refer to listee's data sheet for additional detailed product description and operational considerations. RATING: 15-32 VDC INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model designation, electrical rating, and UL label. APPROVAL: Listed as control unit accessories for use with listee's separately listed electrically compatible fire alarm control units. NOTE: *Rev. 05-06-05 JW Tf This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other Date Issued: July 01, 2018 (Listing Expires) (June 3O,2019) Authorized By: DAVID CASTILLO, Program Coordinator Fire Engineering Division (SD355(A ) Series (Addressable Photoelectric) (Smoke Detectors) General The SD355(A), SD355T(A), and SD355R(A) addressable, low-profile plug-in photoelectric detectors use a state-of-the- art photoelectric sensing chamber with communications to provide open area protection and are used exclusively with Fire'Lite's Addressable Fire Alarm Control Panels (FACP5). The SD355T(A) adds thermal sensors that will alarm at a fixed temperature of 135°F (570C). Since these detectors are addressable, they will help emergency personnel quickly locate a fire during its early stages, potentially saving precious rescue time while also reducing property damage. Two LEDs on each sensor light to provide a local, visible sensor indica- tion. Remote LED annunciator capability is available as an optional accessory, PN RA100Z(A). The SD355R(A) is a remote test capable detector for use with D355PL(A) or DNR(A)/DNRW duct smoke detector housings. Features SW LOOP Two-wire loop connection. Unit uses base for wiring. ADDRESSING Addressable by device. Rotary, decimal addressing: 01 - 99 with MS-9200UD(LS), and 01 - 159 with MS-9600UD(LS). ARCHITECTURE Unique single-source, dual-chamber design to respond quickly and dependably to a broad range of fires. Sleek, low-profile design. Integral communications and built-in type identification. Built-in tamper-resistant feature. Removable cover and insect-resistant screen for simple field cleaning. OPERATION Withstands air velocities up to 4,000 feet-per-minute (20 m/ sec.) without triggering a false alarm. Factory preset at 1.5% nominal sensitivity for panel alarm threshold level. Visible LED 'blinks" when the unit is addressed (communi- cating with the fire panel) and latches on in alarm. MECHANICALS Sealed against back pressure. Direct surface mounting or electrical box mounting. Mounts to: single-gang box, 3.5" (8.89 cm) or 4.0" (10.16 cm) octagonal box, or 4.0" (10.16 cm) square electrical box (using a plaster ring - included). OTHER SYSTEM FEATURES Fully coated circuit boards and superior RF/transient pro- tection. 94-VO plastic flammability rating. Low standby current. DF-52384:D • E-160 (a FlreuTe°ALarms by Honeywell SD355(A) in B2IOLP(A) Base OPTIONS Remote LED output connection, PN RA100Z(A). Applications Use photoelectric detectors in life-safety applications to pro- vide a broad range of tire-sensing capability, especially where smoldering fires are anticipated. Ionization detectors are often better than photoelectric detectors at sensing fast, flaming fires. Construction These detectors are constructed of off-white fire resistant plas- tic. SD355(A) series plug-in, low-profile smoke detectors are designed to commercial standards and offer an attractive appearance. Installation 5D355(A) series plug-in detectors use a detachable mounting base to simplify installation, service and maintenance. Mount base (all base types) on an electrical backbox which is at least 1.5" (3.81 cm) deep. For a chart of compatible junction boxes, see DF-60059. NOTE: Because of the inherent supervision provided by the SLC loop, end-of-line resistors are not required. Wiring 'T-taps" or branches are permitted for Style 4 (Class B) wiring. SD355R(A) mounts in a D355PL(A) or DNR(A)/DNRW duct detector housing. Operation Each SD355(A) series detector uses one of 99 possible addresses on the MS-9200UD(LS) and up to 318 (159 on each loop) on the MS-9600UD(LS) Signaling Line Circuit (SLC). It responds to regular polls from the system and reports its type and status. The addressable photoelectric sensor in the SD355(A) series has a unique unipolar chamber that responds quickly and uni- formly to a broad range of smoke conditions. It can withstand wind gusts up to 4,000 feet-per-minute (20 rn/sec.) without sending an alarm level signal. Because of its unipolar cham- ber, the 5D355(A) series is approximately two times more responsive than most photoelectric sensors. This makes it a more stable detector. DF-52384:D.2/11/2015—Page 1 of 2 Detector Sensitivity Test Each detector can have its sensitivity tested (required per NFPA 72, Chapter 14 on Inspection, Testing and Maintenance) when installed/connected to a MS-9200UD(LS) or MS- 9600UD(LS) addressable fire alarm control panel. The results of the sensitivity test can be printed off the MS-9200UD(LS) or MS-9600UD(LS) for record keeping. Specification ge range: 15-32 VDCJjiJJ (Stiii1by current: 300 jA@Vl (!ED current: 6.5 mA@ 24VDlatched "ON') (Air velocity: 4,000 ftimin. (0 rn/sec.) xifrii3i) (Size: 2.1" (5.33-c ) high;,base determines diametii - B21OLP(A): 6.1" (15.5 cm) diameter. - B501(A): 4.1(10.4cm) diameter. - B200SR(A): 6.875" (17.46 cm) diameter. - B224RB(A): 6.2" (15.748 cm) diameter. Weight: 3.6 oz. (102 g). Operating temperature range: for SD355(A): 0°C to 49°C (32°F to 1201F); for SD355T(A): 0°C 1038°C (32°F to 100°F). S0355R(A): installed in a DNR(A)/DNRW -20°C to 70°C (-4°F to 158°F). Temperature: 0°C - 49°C (32°F - 1200F). Relative humidity: 10%-93%, non-condensing. Listings Listings and approvals below apply to the SD355(A), SD355T(A), and SD355RT(A) detectors. In some cases, cer- tain modules may not be listed by certain approval agencies, or listing may be in process. Consult factory for latest listing status. UL Listed: S1059. ULC Listed: S1059. CSFM: 7272-0075:0194. MEA: 243-02-E. FM approved. Product Line Information NOTE: "A" suffix indicates ULC Listed model. SD355: Addressable photoelectric detector; B21OLP base included. SD355A: Sames as SD355 with ULC Listing; B21OLPA base included. SD355T: Same as SD355 but with thermal element; B21OLP base included. SD355TA: Same as SD3551 with ULC Listing; B21OLPA base included. SD355R: Remote test capable addressable photoelectric detector for use with a D355PL(A) or DNRA/DNRW duct detector housing; B21OLP base included. SD355RA: Same as SD355R with ULC Listing for use with a D355PLA or DNRA duct detector housing; B21OLPA base included. INTELLIGENT BASES NOTE: "A" suffix indicates ULC Listed model. NOTE: The detector's plug-in base can be changed off for special applications. For details about intelligent bases and their mount- ing, see DF-60059. B21OLP(A): Plug-in detector base (included); standard U.S. flanged low-profile mounting base. B21OLPBP: Bulk pack of B21OLP; package contains 10. B501(A): Standard European flangeless mounting base. B501BP: Bulk pack of B501; package contains 10. B200SR(A): Intelligent sounder base capable of producing sound output with ANSI Temporal 3 or continuous tone. Replaces B501 BH series bases in retrofit applications. B224RB(A): Plug-in System Sensor relay base. Screw termi- nals: up to 14 AWG (2.0 mm2). Relay type: Form-C. Rating: 2.0 A @ 30 VDC resistive; 0.3 A @ 110 VDC inductive; 1.0 A @ 30 VDC inductive. B224B1(A): Plug-in System Sensor isolator detector base. Maximum 25 devices between isolator bases (see DF-52389). ACCESSORIES F110: Retrofit flange to convert B21OLP(A) to match the B35OLP(A) profile, or to convert older high-profile bases to low-profile. F110BP: Bulk pack of F110; package contains 15. F210: Replacement flange for B21OLP(A) base. RA100Z(A): Remote LED annunciator. 3-32 VDC. Mounts to a U.S. single-gang electrical box. For use with B501(A) and B21OLP(A) bases only. SMB600: Surface mounting kit M02-04-00:Test magnet. M02-09-00: Test magnet with telescoping handle. XR2B: Detector removal tool. Allows installation and/or removal of detector heads from bases in high ceiling applica- tions. XP-4: Extension pole for XR2B. Comes in three 5-foot (1.524 m) sections. T55-127-010: Detector removal tool without pole. BCK-200B: Black detector covers for use with 5D355(A) only; box of 10. WCK-200B: White detector covers for use with 5D355(A) only; box of 10. FireLite® Alarms is a registered trademark of Honeywell International Inc. ©2015 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited. ISO 9001 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. IMT =1 -b 2 r3rrTm. We cannot cover all specific applications or anticipate all requirements. ENCINEERING & MANUFACTUMNS All specifications are subject to change without notice. QUALITY SYSTEMS For more information, contact Fire-Lite Alarms. Phone: (800) 627-3473, FAX: (877) 699-4105. www.firelite.com Page 2 of 2- DF-52384:1) • 2/11/2015 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM - LISTING SERVICE LISTING No. (7272-0075:0194) Page 1 of 1 CATEGORY: (272 -- SMOKE DETECTOR-SYSTEM TYPE-PHOTOELECTR© LISTEE: (FIRE-LITE ALARMS INOne Fire-Lite Place, Northford, CT 06410-1653 Contact: Vladimir Kireyev (203) 484-7161 Fax (203) 484-7309 Email: vladimir.kireyevHoneywell.com DESIGN: Models 5D350, SD350T, 5D355, 5D355R*, SD355T and AD355 photoelectric type smoke detectors. Model SD350T and SD355T has a 135°F supplement integral heat sensor which only assists in a fire situation. The purpose of this thermal circuitry is to increase the sensitivity of the detector. This thermal circuitry is NOT approved for use as a heat detector. Refer to listee's printed data sheet for additional detailed product description and operational considerations. RATING: 24VDC INSTALLATION: In accordance with listee's printed installation instructions, applicable codes & ordinances and a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical rating and UL label. APPROVAL: Listed as photoelectric smoke detectors for use with separately listed compatible fire alarm control units. All units are suitable for open areas and inside duct installations with air velocities between 0-4,000 FPM. Models 5D355 and 5D355R* are also approved for installations inside Fire-Lite Duct Housing D355PL (CSFM Listing No. 3242-0075:221) and System Sensor Duct Housing DNRW (CSFM Listing No. 3242-1653:210). NOTE: The photoelectric type detectors are generally more effective at detecting slow, smoldering fires which smolder for hours before bursting into flame. Sources of these fires may include cigarettes burning in couches or bedding. The ionization type detectors are generally more effective at detecting fast, flaming fires which consume combustible materials rapidly and spread quickly. Sources of these fires may include paper burning in a waste container or a grease fire in the kitchen. *Rev. 01-11-2010 fm This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other Date Issued: July 01, 2018 (Listing Expires) (June 30, 2019) Authorized By: DAVID CASTIL.LO, Program Coordinator Fire Engineering Division (Ccpentional and Addressable Accessories Door Holders 1500 Series The Edwards 1500 Series electromagnetic door holders feature housings finished with durable baked polyester powder paint. The floor or wall section houses the electromagnet while the contact plate attaches to the door. The contact plate has a shock absorbing nylon (swivel) ball that allows the plate to adjust to any door angle. Floor units are available in single-door or double- door (back to back) versions. Wall units are available in flush or surface mounted versions. If power fails, doors are released automatically but may be opened or closed manually at any time. All units are free of moving parts, are self-contained and require no maintenance. The device holders hold a door open while energized. When de-energized by a relay controlled by the fire alarm system or other switch, the door is released to a closed position. Features and Specifications Floor and wall mounted styles Baked polyester powder paint finish Low power consumption Silent operation 25 Lbf (111N) nominal holding force Adjustable, swivel contact plate Single-door or double-door (back to back) versions - floor mounted Flush or surface mounted versions - wall mounted Operating temperature range: 32°F to 120°F (0°C to 49°C) Description Cat. No. Operating Voltage' Current Floor Mounted (Single Door) 1501-AQN5 24VAC/DC; 120VAC 0.015A Floor Mounted (Double Door) 1502-AQNS 24VAC/DC; 120VAC 0.015 A2 Flush Wall Mounted (Long Catch Plate) 1504-AQN5 24VAC/DC; 120VAC 0.015A Flush Wall Mounted (Short Catch Plate) 1505-AQN5 24VAC/DC; 120VAC 0.015A (Suftac&yváll Màunted) D5 8-AQN5 (VC/DC; 120VAC) 0.O15A) Completely Flush Wall Mounted 1509-AQN5 24VAC/DC; 120V AC 0.015 A 'AC voltage frequency is 60 Hz 2Draws 0.015 A per side Description Cat. No. Catch plate extension assembly, 1.5" 1500-1 Catch plate extension assembly, 2.5" 1500-2 Catch plate extension assembly 1500-7 (5.25 to 7.5 inches) Catch plate extension assembly 1500-12 (7.5 to 12 inches) Replacement armature - short (for use with 1501, 1502, 1505, CS2595-5 1508 and 1509 door holders) Replacement armature - long (for use CS25985 with 1504 door holder) L I120°F .1-_l:le•_l ®c®jMEA LISTED APPROVED www.edwardssignaling.com 'bWARDS 12-85 Conventional and Addressable Accessories Door Holders 1500 Series Approx. Shipping I Cat. No. Weight (lb.) 13/16' 23/4' 2 5/8" 1501 -AQN5 5.40 /7/7/7 p1mm) ri7omm fI67mmi I 1502-AQN5 5.00 1504-AQN5 2.00 1505-AQN5 2.00 I 1508-AQN5 3.00 1509-AQN5 2.00 11500-1 0.25 1500-2 0.25 1500-7 1 0.50 1500-12 1.00 CS2595-5 I 0.25 CS2598-5 j 0.25 Catch Plate Extensions NOTE: Only the extension rods are included. The end pieces are included with the doorholders or can be ordered separately. O 41/2" 1 3/4" 0 \ 1 [1 0 g(ll4mm) I 44mm) 2) 1504-AQN5 Flush Wall Mounted (Long Catch Plate) 13/16" 2 3/4" 1 5/8" T21mm)fl70mmT 1 p41mm) 0 ' 4 1/2"I\ 1 3/4" 0' (114mm), 1 j44mm) I 1 0 0/ 1505-AQN5 Flush Wall Mounted (Short Catch Plate) 8 I 6.37" mm. 203 2mm max / 161 8mm min 500-7 12" max. / 8.37" mm. 8mm max. /212 6 1500-12 2 7116" 2 3/4" . 1 518" 70mmF 41mm) I o 4 1/2" (ll4mm)I I L°HJ ,(44mm) 1508-AQN5 Surface Wall Mounted 2.342" T15.. (59.5mm) 1.68" 8mm) 508mm) 11- 1(47.7mm) 1500-1 1500-2 3.12TW O 4.125" 4.625" 17.5m 3.621: L (92mm ______ (79.4mm) 1O4.8rnm M I L 1500-1 1500.2 1500-1 1500.2 7/32" 2 3/4" 1518" mm ti70mmT1 41/2 L (114mm) 13/4" _L. Lo j 1509-AQN5 Completely Flush Wall Mounted 41/2" 413/16" (41mm) 1114mmJ ri1 22mmrl - 13/4" 31/4" I (83mm) r' © 1j 1 1] [IImm) 1501-AQN5 Floor Mounted (Single Door) 15/81, 1 5/8" (41mm) 47/8" (41mm) (124 m)1 1 3/4" 13/4" (44mm)J Li_J fi4ymmt 1502-AQN5 Floor Mounted (Double Door) 12-86 WARDS' www.edwardssignaling.com CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL _____ FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM - LISTING SERVICE LISTING No. (3550-1501:0137) Page 1 of 1 CATEGORY: (3550 -- DOOR CLOSER/HOLDERS/RELEASING DEVICES) LISTEE: (EDWARD SIGNAL8985)Town Center Parkway, Bradenton, FL 34202 Contact: Jewell Conover (941) 739-4358 Fax (941) 308-8123 Email: rhonda.conover@fs.utc.com DESIGN: Models 1501, A1501, 1502, 1504, 1505,(To and 1509, door holders with or without suffixes AQ, N5, El, GI, E5, GT, D-GT or(AQN)Refer to listee's data sheet for detailed product description and operational considerations. INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, rating, and UL label. APPROVAL: Listed as fire-rated door holders. When used on fire-rated doors an approved closer shall be used. Refer to listee's Installation Instruction Manual for details. NOTE: Formerly: 3550-1388:100, 3550-0073:040, 3550-0789:118, and 3550-0999:101 *Rev. 06-24-04 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other Date Issued: July 01, 2018 (June 30, 2019) Authorized By: DAVID CASTILLO, Program Coordinator Fire Engineering Division (a Fire uTe®arms PN: 51883:D ECN 05-384 by Honeywell FCPSm24FS6 (FCPSm24FS8) Document #51883 9/14/05 Revision: 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 panel with remote notifi- cation 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 de- tectors 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 government) 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 not 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.). 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 prede- termined rate or reaches a predetermined level. Rate-of-rise heat detectors 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 pro- tection 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, com- munications, signaling, and/or power. If detectors are not so located, a developing 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 medi- cation. 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 meaning of the signal. It is the property owner's responsi- bility 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 NFPA 72 shall be followed. Environments with large amounts of dust, dirt or high air velocity require more frequent maintenance. A main- tenance 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 profes- sional fire alarm installers only. Adequate written records of all inspections should be kept. PrecauLarge.PMD 01/1012005 Installation Precautions WARNING - Several different sources of power can be con- nected to the fire alarm control pane!. 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 after any pro- gramming operation or change in site-specific software. Re- acceptance testing is required after any change, addition or deletion of system components, or after any modification, 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 not 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 indoor dry opera- tion at 0-49° C/32-120° F and at a relative humidity of 93 ±2% RH (non-condensing) at 32 ±2° C/90 ±3° F. However, the useful life of the system's standby batteries and the elec- tronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recom- mended that this system and all peripherals be installed in an environment with a nominal room temperature of 15-27° C160-80° F. Verify that wire sizes are adequate for all initiating and indicating device loops. Refer to manual Specifications sec- tion for maximum allowable I.R. drop from the specified de- vice voltage. FCC Warning WARNING: This equipment generates, uses, and can ra- diate radio frequency energy and if not installed and used in accordance with the instruction manual, may cause in- terference 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 environ- ment. 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 their own expense. 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 lightning-induced transients. Although no system is com- pletely immune from lightning transients and interferences, proper grounding will reduce susceptibility. Overhead or out- side aerial wiring is not recommended, due to an increased susceptibility to nearby lightning strikes. Consult with the Technical Services Department if any problems are antici- pated 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. This system contains static-sensitive components. Always ground yourself with a proper wrist strap before han- dling any circuits so that static charges are removed 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. 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. PrecauLa,ge.PMD 01/1012005 System Overview General SECTION 1 System Overview The FCPS-24FS6 is a 6 amp power supply and the FCPS-24FS8 is an 8 amp power supply. Each FCPS-24F5 power supply is a compact, cost-effective, remote power supply and battery charger which provides ADA compatible strobe synchronization. The remote power supplies consist of a filtered 24 VDC output that can be configured to drive four Style Y (Class B) NACs (Notification Appliance Circuits). The four circuits can be configured for Style Z (Class A) with the optional ZNAC-4 Class A converter module. Alternatively, the four output circuits may be configured as 24 VDC resettable or nonresettable power outputs. The input circuits, which control the power supply operation, are triggered by the reverse polarity of an NAC or by a 12 VDC or 24 VDC power source. The power supplies are compatible with 12 VDC and 24 VDC control panels. 1.1 General The FCPS-24F5 power supplies can be used as remotely mounted power supplies and battery chargers to power four noncoded or coded NACs. The Main FACP (Fire Alarm Control Panel) NAC(s) is connected to the remote power supply input circuit(s). When the control input circuit activates due to reverse polarity of the NAC from the FACP, the power supply will activate its Notification Appliance Circuits. During the inactive or nonalarm state, the power supply supervises its NAC field wiring for short and open conditions. AC fail, battery, charger and ground fault troubles will also be monitored by the power supply. If an NAC or power supply fault is detected, the power supply Normally-Closed Trouble contact will open. If an alarm condition occurs and the NAC is activated, the supervision is disabled and the Notification Appliance Circuit is no longer supervised (except for shorts). Supervision of other power supply faults such as low battery, AC loss, ground fault and battery charger trouble will continue and may be monitored via the Trouble relay contacts. 1.2 Features Self-contained in a lockable cabinet 24 VDC remote power supply Outputs are completely power-limited Two optically-isolated input/control circuits, compatible with 12 VDC and 24 VDC control panel NACs Four output circuits: / Fully filtered power / Four 24 VDC Style Y (Class B) NACs (special application) / Optional ZNAC-4 Class A converter module for conversion to Style Z NACs / Alternatively, all four circuits may be configured as 24 VDC special application power outputs / Output circuits may be configured as resettable or nonresettable NAC Trouble LED - blinks to indicate the number of the circuit in trouble Maximum current available for any one output circuit: 3.0 amps Maximum total continuous current available: / 4.0 amps for FCPS-24F56 / 6.0 amps for FCPS-24F58 FCPS-24F5 Power Supplies PN 51883:D 9/14/05 Start-up Procedure System Overview Maximum total short term current (one hour maximum): / 6.0 amps for FCPS-24FS6 / 8.0 amps for FCPS-24FS8 Integral supervised battery charger for lead acid batteries only Capable of charging 7.0 AH to 18.0 AH (Amp Hour) batteries Fully supervised power supply, battery and NACs Selectable Strobe Synchronization for NACs [System Sensor, Gentex (Commander II) and Wheelock] Coded signal synchronization Fixed terminal blocks for field wiring capable of accepting 12 -22 AWG wire Selectable Ground Fault detection by jumper WI Power supply trouble Form-C relay contacts (fail-safe) Optional delay of AC loss reporting for 2 hours Auxiliary Special Application Power Output for SLC modules (500 mA maximum) with optional reset for 4-wire smoke detectors Mounting location for optional addressable control module 1.3 Start-up Procedure Configure the power supply jumpers as described in "Jumpers" on page 8 Install the power supply as described in "Installation" on page 12 Program the power supply as described in "Programming Options" on page 17 Wire the power supply circuits, referring to the options described in "Trouble Supervision" on page 22 and the application examples in "Applications" on page 24 5. Connect primary power source wiring while observing the following: / Make certain that the AC mains circuit breaker is off before making any wiring connections between the mains and the power supply / Make certain primary power source is 120 VAC, 60 Hz, 3.2 amps / Run a pair of wires (with ground conductor) from the protected premises main breaker box to TB of the power supply main circuit board / Use 14 AWG (1.6 mm O.D.) or heavier gauge wire with 600V insulation Apply power to the power supply using the following procedure: / apply AC power by turning on the AC mains circuit breaker connected to the power supply / connect a properly charged battery to connector JP4 on the power supply main circuit board FCPS-24FS Power Supplies PN 51883:D 9/14/05 7 System Overview Jumpers 1.4 Jumpers CAUTION! Remove all power (AC & DC) before cuttin 2L g or moving any jumpers. 1.4.1 Jumper JPI - Ground Fault Detection The Ground Detection circuit monitors for zero impedance between the power supply and ground. Jumper JP is located in the top right section of the power supply circuit board. Cutting JP will disable ground fault detection by the power supply. This should only be done if ground faults are being monitored by a panel connected to the FCPS power supply. 1.4.2 Jumpers JP2 and JP3: Coded/Noncoded Input Selection JP3 JP2 Jumpers JP2 and JP3 are located in the top right section of the power supply circuit board. JP2 is used for Control Input Circuit #1 and JP3 is used for Control Input Circuit #2. The position of these jumpers will depend on the type of signal being fed to the input circuits: If the source voltage to the input circuit is a noncoded (steady voltage) input signal, the jumper for the corresponding input circuit should be in the default position which jumpers jumpers ' the bottom two pins (as illustrated in drawing at left). Jumper positions shown • If the source voltage to the input circuit is coded (variable voltage), the jumper for the for noncoded (steady) corresponding input circuit should be moved to jumper the top two pins. source voltage 1.5 LED Indicators AC Power on (green) LED - indicates AC power is present Ground Fault (yellow) LED - indicates a ground fault condition (zero impedance to ground) Battery Trouble (yellow) LED - indicates low or no battery NAC Trouble (yellow) LED - indicates a Notification Appliance Circuit trouble (blinks once for Circuit 1 trouble, twice for Circuit 2 trouble, three times for Circuit 3 trouble and four times for Circuit 4 trouble. Note that multiple circuits in trouble will cause the LED to blink the number of the circuit with the highest number) ChargerTrouble/AC Loss (yellow) LED - indicates a charger fault or loss of AC power Note: IfAC is applied to the power supply without a battery connected or if the battery voltage drops too low, both the Charger Trouble/AC Loss LED and Battery Trouble LED will turn on simultaneously, indicating a battery problem. Install afully charged battery to see if both LEDs extinguish. FCPS-24FS Power Supplies PN 51883:D 9/14/05 Programming Options DIP Switch Settings 3.1 DIP Switch Settings The following table lists the FCPS programmable features and the switch settings required to select a particular feature. A detailed description of each feature is presented in the following pages. Table 3.1 DIP Switch Settings SW1 DIP Switch ON OFF I This switch works in conjunction with switch 2 to determine the Strobe Synchronization Type'. 2 1 OFF, 2 OFF = no sync (steady +24V) - default I OFF, 2 ON = System Sensor 1 ON, 2 OFF = Gentex (Commander Series) 1 ON, 2 ON = Wheelock 3 FCPS configured for Slave Synchronization FCPS configured for Master Synchronization - default 4 Delay AC Fail Reporting for 2 Hours - default No Delay in AC Fail Reporting Aux. Trouble Relay responds to all troubles Aux. Trouble Relay responds only to AC Fail/Brownout 5 This switch works in conjunction with switch 6 to determine Input to Output functions 6 5 OFF, 6 OFF = General Alarm - default FCPS configured as Master (switch 3 OFF), NAC Outputs 1 through 42 are controlled by Control Input #1; Sync Input is ignored. FCPS configured as Slave (switch 3 ON), NAC Outputs I through 42 are controlled by Control Input #1; Sync Input is monitored3. Resettable or nonresettable Auxiliary Power Output is available from T134 Terminals 9 & 10. Control Input #2 determines if reset will occur (must go from On to Off for a 6 second reset to occur). Output #4 function follows DIP switch 8 setting. 50FF, 6 ON = Split Alarm FCPS configured as Master (switch 3 OFF), NAC Outputs 1 & 2 are controlled by Control Input #1 and Outputs 3 & 42 are controlled by Control Input #2; Sync Input is ignored. FCPS configured as Slave5 (switch 3 ON), NAC Outputs I & 2 are controlled by Control Input #1 and Outputs 3 & 42 are controlled by Control Input #2; Sync Input is monitored3. Only nonresettable Auxiliary Power is available from T134 Terminals 9 & 10. Output #4 function follows DIP switch 8 setting. 5 ON, 6 OFF = Split Temporal FCPS configured as Master (switch 3 OFF), Control Input #1 controls NAC Outputs 1 & 2 and Control Input #2 controls Outputs 3 & 42 which will generate a Temporal code signal without sync; Sync Input is ignored. FCPS configured as Slave (switch 3 ON), Control Input #1 controls NAC Outputs 1 & 2 and Control Input #2 controls Outputs 3 & 42 which will generate a Temporal code signal without sync; Sync Input is monitored for Outputs 1 & 2. Only nonresettable Auxiliary Power is available from T134 Terminals 9 & 10. Output #4 function follows DIP switch 8 setting. 5 ON, 6 ON = Selective Silence FCPS configured as Master (switch 3 OFF), NAC Outputs I through 42 are controlled by Control Input #1; Sync Input is ignored. FCPS configured as Slave (switch 3 ON), NAC Outputs 1 through 42 are controlled by Control Input #1; Sync Input is monitored3. Control Input #2 determines when Selective Silence for all outputs will occur, Only nonresettable Auxiliary Power is available from T134 Terminals 9 & 10. Output #4 function follows DIP switch 8 setting. 7 Disable Charger Enable Charger - default 8 Output Circuit #4 = Door Holder Output Circuit #4 = NAC - default Strobe Synchronization only works with non-coded NACs. 2 If Door Closer function is selected (switch 8 ON), Output 4 does not function as an NAC, therefore sync input is ignored for it. If no synchronization is selected by switches 1 & 2, the Sync Input is ignored. 'Selective Silence allows the silencing of the sounder portion of a horn/strobe combination device without turning off the strobe. When using Split Alarm with power supply configured for Slave Mode, System Sensor can not be used (use System Sensor with Master Mode only) FCPS-24FS Power Supplies PN 51883:1) 9/14/05 Programmable Features Description Programming Options 3.2 Programmable Features Description 3.2.1 Synchronization Type Selection Synchronization is a feature that 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 FCPS can be programmed to operate with a variety of manufacturer's devices. Note that strobe synchronization works only with non-coded NACs. DIP switches 1 and 2 are used to select the type of synchronization as listed below: Table 3.2 Sync Type Settings DIP Switch 1 DIP Switch 2 Synchronization Type OFF OFF no synchronization (steady 24V) OFF ON System Sensor ON OFF Gentex (Commander Series) ON ON Wheelock 3.2.1.1 Maximum Number of Strobes for Synchronization The total current draw for each Notification Appliance Circuit cannot exceed 3.0 amps. Refer to the manufacturer's documentation supplied with the strobes to determine the maximum current draw for each strobe and ensure that the circuit maximum is not exceeded. To ensure proper strobe and circuit operation, there is also a limit to the number of strobes that can be attached to each circuit. Following is a table of the strobes that have been tested with the power supply and the maximum number that can be connected to each NAC. Make sure that the NAC maximum current is not exceeded: Strobe Manufacturer FCPS-24F56 (max. strobes) FCPS-24F58 (max. strobes) System Sensor 51 51 Wheelock 30 40 Gentex 39 39 3.2.2 Synchronization Mode - Master/Slave The FCPS power supply can be configured for Master or Slave Synchronization by setting DIP switch 3 ON for Slave or OFF for Master mode. In some installations, it is necessary to synchronize the flash timing of all strobes in the system for ADA compliance. Strobes accomplish this by monitoring very short timing pulses on the NAC power which are created by an FACP such as the MS-9600. When installed at the end of an MS- 9600 NAC wire run, this power supply can track (that is follow) the strobe synchronization timing pulses on the existing NAC wire run. This maintains the overall system flash timing of the additional strobes attached to this power supply. When this power supply is configured as a sync generator (Master Synchronization mode), the Sync Input terminals are not used. The power supply is the originator of the strobe synchronization pulses on its NAC outputs. In sync generator mode, the sync type [System Sensor, Wheelock, or Gentex (Commander II)] is selectable via DIP switches 1 and 2. When this power supply is configured as a sync follower (Slave Synchronization mode), the power supply's NAC outputs track the strobe synchronization pulses present at the supply's Sync Input terminals. The pulses originate from an upstream FACP or other power supply. Note that the Synchronization Type configured by DIP switches I and 2 must be set to the same type as the signal being fed to the Sync Input circuit in the event that Selective Silence is employed. Important! In Slave Mode, if the Input is active, but no signal is present on the Sync Input circuit, the power supply will turn the NACs on steady until a sync signal appears. The NACs will turn off when the Input becomes inactive. FCPS-24FS Power Supplies PN 51883:1) 9/14/05 19 Programmable Features Description Programming Options Table 3.3 Input/Output Configurations If Door Closer function is selected (switch 8 ON), Output 4 does not function as an NAC, therefore sync input is ignored for Output 4. If no synchronization is selected by switches I & 2, the Sync Input is ignored. Selective Silence allows the silencing of the sounder portion of a horn/strobe combination device without turning off the strobe. When using Split Alarm with power supply configured for Slave Mode, System Sensor can not be used (use System Sensor with Master Mode only) 3.2.4.1 Auxiliary Power Control The 24 VDC Auxiliary power from TB4 Terminals 9(+) & 10(-) can be resettable or nonresettable power only when the power supply is configured for General Alarm operation. For all other configurations, the auxiliary power output is only nonresettable. In the General Alarm configuration, the Auxiliary power output can be made resettable by applying a steady signal to Control Input 2 (positive 12 to 24 VDC on TB4 Terminal 7 and common on Terminal 8). Temporarily removing the voltage or reversing the polarity will cause the Auxiliary power output to reset for 6 seconds. 3.2.5 Charger Enable/Disable The FCPS-24FS battery charger can be disabled to accommodate an external battery charger. Setting DIP switch 7 to the default setting of OFF will enable the battery charger. Setting DIP switch 7 to the ON position will disable the charger. It should only be disabled if an external battery charger is being used for the FCPS-24FS. 3.2.6 Door Closers Output Circuit #4 can be configured as an NAC or door closer circuit. Setting DIP switch 8 to the OFF position will configure Output Circuit #4 as an NAC. Setting DIP switch 8 to the ON position will configure pal Output Circuit #4 as a door closer circuit which will provide a steady 24 VDC to door holders until an alarm or AC fail condition removes the power following a 60 second delay. FCPS-24FS Power Supplies PN 51883:D 9/14/05 21 Trouble Supervision Supervision via FACP Notification Appliance Circuit SECTION 4 Trouble Supervision 4.1 Supervision via FACP Notification Appliance Circuit 4.1.1 Supervision of FACP to FCPS wiring The FACP (Fire Alarm Control Panel) supervises the connection between itself and the FCPS-24FS via the control panels NAC End-of-Line Resistor (ELR). The ELR must be installed at the FCPS end of the circuit, after the last notification appliance on the circuit. If no additional devices are connected from the FCPS Control Input terminals, the ELR must be connected across terminals 5 & 6 for Control Input Circuit #1 and across terminals 7 & 8 for Control Input Circuit #2. An open or short anywhere on the control panel's NAC or power supply NAC will be detected at the FACP as an NAC trouble. IMPORTANT: If additional notification appliances are connected to the Out terminals 5 & 6 of Control Input Circuit #1 or extendedfrom Control Input Circuit #2 Terminals 7 & 8, the ELR must be installed after the last device on the circuit. 4.1.2 Supervision of FCPS-24F5 Faults The FACP will detect FCPS power supply faults as an open circuit condition on its NAC. An internal trouble contact is located between TB4 Terminal 3 (In+) and TB4 Terminal S (Out+). Any of the following conditions will cause the trouble contact to open, provided the FACP Notification Appliance Circuit is not in alarm. The following trouble conditions will cause a general NAC trouble: A field wiring fault on the NAC output of the power supply An AC fail condition at the power supply (only if SW1 switch 4 is ON) A battery fail condition at the power supply A battery charger fail on the power supply A ground fault condition on the power supply (zero impedance between power supply and ground) Any power supply trouble will break the connection between the FACP and the ELR connected to Control Input #1 provided the FACP's NAC is not in alarm. The FACP's ELR must be placed after the last notification appliance connected to FCPS terminals 5 & 6 on TB4 or, if no devices are connected to these terminals, the ELR must be connected directly across terminals 5 & 6. If trouble monitoring is required when the power supply is in alarm, the Trouble Relay at TBS can be used for this purpose. An addressable monitor module may be used to monitor these contacts. Refer to "Aux. Trouble Relay/AC Fail Relay" on page 23 in the following section. Note: Control Input #2 (terminals 7 & 8) cannot be used to supervise the power supply for internal troubles, but an ELR is still requiredfor FACP wiring supervision. 22 FCPS-24FS Power Supplies PN 51883:D 9/14/05 AC Loss Reporting Delay Trouble Supervision 4.1.3 Aux. Trouble Relay/AC Fail Relay The FCPS-24FS power supply has one fail-safe Form-C aux. trouble relay located at T135. The contacts can be monitored by an FACP input circuit or an addressable monitor module as illustrated below. The Aux. Trouble Relay responds to FCPS-24F power supply troubles depending on the setting of SW1 switch 4. With SWl switch 4 set to the ON position, AC Fail/brownout reporting will be delayed 2 hours and the following trouble conditions will cause the normally energized Aux. Trouble Relay to change states regardless of whether the panel is in alarm or standby: / An AC fail condition at the power supply / A battery fail condition at the power supply / A battery charger fail on the power supply / A ground fault condition on the power supply (zero impedance between the power supply and ground / A field wiring fault on the NAC output of the power supply. (If the panel is in alarm, only a short circuit on the NAC will be detected as a trouble) Note: the NAC Trouble LED will indicate which NAC circuit is in trouble by blinking once for Circuit 1, twice for Circuit 2, three times for Circuit 3 andfour times for Circuit 4. If more than one circuit is in trouble, the LED will blink the highest circuit number in trouble. With SW1 switch 4 set to the OFF position, AC Fail/brownout reporting will occur immediately and the Aux. Trouble Relay will change state only for AC Fail/brownout conditions. A monitor module can be used to monitor the relay for AC fail. SLC ja 4 Monitor Module ELR 3 4 5 6 L_L ~_j 1 M !64 61.03 4090 0 FCPS-24FS6/8 Au Trouble Relay Monitor Module 4.2 AC Loss Reporting Delay The reporting of AC loss to a central station is usually delayed in order to prevent multiple transmissions of AC loss and restoral, thus allowing AC power to stabilize. When a host FACP is programmed to delay AC loss reporting, the FCPS-24FS must be configured to delay the reporting of AC fail. This is accomplished by setting SWI DIP switch 4 to the ON position. This will prevent AC loss from being reported as a trouble condition for two hours. Changing the AC Loss Reporting setting will also affect the functioning of the Trouble Relay. Refer to "Aux. Trouble Relay/AC Fail Relay" on page 23. Note that the FCPS-24FS power supply will immediately indicate loss ofAC power by turning off the AC Power LED and turning on the Charger Trouble/AC Loss LED, regardless of the setting of SW] DIP switch 4. FCPS-24FS Power Supplies PN 51883:1) 9/14/05 23 Applications Master FCPS-24FS Power Supply Connected to FACP 5.7 Master FCPS-24FS Power Supply Connected to FACP In this application, a master FCPS-24FS power supply, set for synchronization, is connected to an FACP NAC with nonsynchronized output. Standby Polarity Shown Internal Trouble Contact )1/'•"tjj F-11 cnuJ 0 E] 87 65 FACP 21 b FCPS-24FS 2 3 4 5 6 7 8 9 10 I 1 I a,o M 2 NAC O o with no synchronization I ELR for FACP SWI Switch Settings 1 NAC NAC I & 2 = sync (any setting + _______ _______ ______________ but OFF/OFF) Horn/Strobes 3 = OFF (master) (no synchronization) 4 = OFF (no AC Fail reporting delay) 5 = OFF general alarm 6= OFF 7 = OFF (charger enabled) - 8 = OFF (circuit 4 NAC) Figure 5.7 Supervised FACP to Master Connections (nonsynchronized source) Note: The following notes apply to this illustration Refer to NFPA 72, Chapter 4-4, Visible Characteristics, Public Mode. Use only devices from the same manufacturer in each system. 34 FCPS-24FS Power Supplies PN 51883:13 9/14/05 Programming Options Programmable Features Description Also in Slave Mode, if the Input is active and the Sync Input is suddenly lost (FCPS or wiring failure), there will be a three second period in which the NAC outputs are indeterminate. After this three second period, the power supply will turn the NACs on steady until the Input becomes inactive. 3.2.3 AC Fail Delay/Aux. Trouble Relay Function The AC Fail Delay feature provides the option to delay generation of a trouble signal upon the loss of AC power. In addition, the operation of the Aux. Trouble Relay is altered. DIP switch 4 set to the ON position will delay the generation of an AC Loss/brownout trouble signal for 2 hours. In addition, the Aux. Trouble Relay will immediately respond to all trouble conditions on the power supply. DIP switch 4 set to the OFF position will allow the FCPS to generate a trouble signal immediately on the loss of AC power. In addition, the Aux. Trouble Relay will respond only to AC power faillbrownout conditions. 3.2.4 Input/Output Function DIP switches 5 and 6 are used to determine the Input Control circuits that will activate the four output circuits and the function of the output circuits. For example, to configure a General Alarm operation in which Input Control Circuit #1 activates all four output NACs, DIP switches 5 and 6 are both set to the OFF position. In this configuration, the Sync Input circuit is ignored if the power supply is set as a Master but will be monitored if the supply is set as a Slave. In addition, if the Auxiliary Power output is set as a resettable output, the circuit connected to Control Input Circuit #2 will control the auxiliary power reset function. The following table details the four possible input/output configurations: Table 3.3 Input/Output Configurations DIP Switch 5 DIP Switch 6 Input/Output Function General Alarm FCPS configured as Master (switch 3 OFF), NAC Outputs I through 4' are controlled by Control Input #1; Sync Input is ignored. OFF OFF FCPS configured as Slave (switch 3 ON), NAC Outputs I through 42 are controlled by Control Input #1; Sync Input is monitored'. Resettable or nonresettable Auxiliary Power Output is available from TB4 Terminals 9 & 10. Control Input #2 determines if reset will occur (must go from Onto Off for a 6 second reset to occur). Split Alarm FCPS configured as Master (switch 3 OFF), NAC Outputs 1 & 2 are controlled by Control Input #1 and Outputs 3 & 4' are controlled by Control Input #2; Sync Input is OFF ON ignored. FCPS configured as Slave (switch 3 ON), NAC Outputs 1 & 2 are controlled by Control Input #1 and Outputs 3 & 4' are controlled by Control Input #2; Sync Input is monitored 2. Only nonresettable Auxiliary Power is available from T134 Terminals 9 & 10 Split Temporal FCPS configured as Master (switch 3 OFF), Control Input #1 controls NAC Outputs 1 & 2 and Control Input #2 controls Outputs 3 & 4' which will generate a Temporal code ON OFF signal without sync; Sync Input is ignored. FCPS configured as Slave (switch 3 ON), Control Input #1 controls NAC Outputs 1 & 2 and Control Input #2 controls Outputs 3 & 4' which will generate a Temporal code signal without sync; Sync Input is monitored for Outputs I & 22. Only nonresettable Auxiliary Power is available from TB4 Terminals 9 & 10 Selective Silence FCPS configured as Master (switch 3 OFF), NAC Outputs 1 through 4' are controlled by ON ON Control Input #1; Sync Input is ignored. Control Input #2 determines when Selective Silence for all outputs will occur Only nonresettable Auxiliary Power is available from TB4 Terminals 9 & 10 20 FCPS-24FS Power Supplies PN 51883:D 9/14/05 Overview Power Supply Requirements SECTION 6 Power Supply Requirements 6.1 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: Calculating the total amount of AC branch circuit current required to operate the system Calculating the power supply load current for non-fire and fire alarm conditions and calculating the secondary (battery) load Calculating the size of batteries required to support the system if an AC power loss occurs Selecting the proper batteries for your system 6.2 Calculating the AC Branch Circuit The power supply 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 continuously, without any disconnect devices, from the power source to the power supply. 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 mm2) wire with 600 volt insulation for this branch circuit. Use Table 6.1 to determine the total amount of current, in AC amperes, that must be supplied to the system Table 6.1 120 VAC Branch Circuit Requirements Device Type Number of Current Draw Devices (AC amps) Total Current per Device FCPS-24S I X 3.2 = 3.2 X [ ] = [ ] [ J X [ ] = Sum Column for AC Branch Current Required = FCPS-24FS Power Supplies PN 51883:13 9/14/05 35 Power Supply Requirements Calculating the System Current Draw 6.3 Calculating the System Current Draw 6.3.1 Overview The power supply 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 power supply when primary power is applied, use Calculation Column I in Table 6.3 on page 37. The power supply must support a larger load current during a fire alarm condition. To calculate the fire alarm load on the power supply, use Calculation Column 2 in Table 6.3 on page 37. 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 6.3 on page 37. When calculating current draw and the battery size, note the following: Primary refers to the main power source for the power supply Secondary refers to the power supply's backup batteries All currents are given in amperes (A). Table 6.2 shows how to convert milliamperes and microamperes to full amperes Table 6.2 Converting to Full Amperes To convert... Multiply Example Milliamperes (mA) to mA x 0.001 3 mA x 0.001 - 0.003 A amperes (A) Microamperes (VA) to ltA x 0.000001 300 tA x 0.000001 = 0.0003 A amperes (A) 6.3.2 How to Calculate System Current Draw Use Table 6.3 on page 37 to calculate current draws as follows: Enter the quantity of devices in all three columns Enter the current draw where required. Refer to the Fire-Lite Device Compatibility Document for compatible devices and their current draw Calculate the current draws for each in all columns Sum the total current for each column Copy the totals from Column 2 and Column 3 to Table 6.3 on page 37 Following are the types of current that can be entered into Table 6.3 on page 37 / Calculation Column 1 - The primary supply current load that the power supply must support during a non-fire alarm condition, with AC power applied / Calculation Column 2 - The primary supply current load the power supply 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 36 FCPS-24FS Power Supplies PN 51883:D 9/14/05 Calculating the System Current Draw Power Supply Requirements Table 6.3 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 6.4 on page 38. (Table 6.3 System Current Draw Calculations) Device Type Calculate Column 1 Calculate Column 2 Calculation Column 3 Primary, Non-Fire Alarm Current Primary, Fire Alarm Current Secondary, Non-Fire Alarm Current (amps) (amps) (amps) Qty X (current draw) = Total Qty X (current draw) = Total Qty X (current draw) = Total tMain Circuit Board) LQQiJ3 0 [.2J.~l 0 CXL Power Supervision [ I X [0.025] = [ I X [0.025 ] = [ ] X [0.025] = Relay I NAC/Output 41 [ I X [ I = NAC/Output #2 [ ] X [ ] = NAC/Output 93 [ ] X [ 1 = NAC/Output #4 [ ] X[ I = Current Draw from [ ] = [ I [ I = TB4 Terminals 9 & 10 Sum each column Primary Non-Alarm = Primary Alarm = Secondary Alarm = for totals FCPS-24F5 Power Supplies PN 51883:D 9/14/05 37 Power Supply Requirements Calculating the Battery Size 6.4 Calculating the Battery Size Use Table 6.4 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 power supply under the loss of AC power. Complete Table 6.4 as follows: Enter the totals from Table 6.3 on page 37, Calculation Columns 2 and 3 where shown Enter the NFPA Standby and Alarm times. Refer to "NFPA Battery Requirements" Calculate the ampere hours for Standby and Alarm, then sum the Standby and Alarm ampere hours Multiply the sum by the derating factor of 1.2 to calculate the proper battery size (in AH) Write the ampere hour requirements on the Protected Premises label located inside the cabinet door Table 6.4 Total Secondary Power Requirements at 24 VDC Secondary Standby Load Required Standby Time (total from Table 6.3 (24 or 60 hours) Calculation Column 3) ] X[ ] = AH Primary Alarm Load Required Alarm Time (total from Table 6.3 (for 5 mm., enter 0.084, Calculation Column 2) for 10 mm., 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 = AH 6.4.1 NFPA Battery Requirements NFPA 72 Local and Proprietary Fire Alarm Systems require 24 hours of standby power followed by 5 minutes in alarm NFPA 72 Central, Auxiliary and Remote Station Fire Alarm Systems 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 6.4.2 Selecting and Locating Batteries Select batteries that meet or exceed the total ampere hours calculated in Table 6.4. The power supply can charge batteries in the 7 AH to 18 AH range. The power supply cabinet is capable of housing batteries up to 7 AH. Batteries larger than 7 AH require the BB-17F or other 1.JL listed external battery cabinet. 38 FCPS-24FS Power Supplies PN 51883:D 9/14/05 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL - FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. (7315-0075:0206) Page 1 of I CATEGORY: (j -- POWER UNlT) LISTEE: (FIRE-LITE ALARMS INC.O}ie Fire-Lite Place, Northford, CT 06410-1653 Contact: Vladimir Kireyev (203) 484-7161 Fax (203) 484-7309 Email: vladimir.kireyev©Honeywell.com DESIGN: Models FCPS-24FS6 andf1FCPS-24FS8 are power limited power supply/battery charger used for supervision and expanded power driving capability of up to four Notification Appliance Circuits (FACP Fire Circuits, Signaling Devices) or resettable/non resettable outputs. Model ZNAC-4 Class A converter. Refer to listee's data sheet for additional detailed product description and operational considerations. RATING: 120 VAC, 24 VDC INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, product designation, electrical rating and UL label. APPROVAL: Listed as a Power Supply/Battery Charger for use with separately listed compatible fire alarm control units. NOTE: *Rev. 05-06-05JW This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other Date Issued: July 01, 2018 (Listing Expires) (June 30, 2019) Authorized By: DAVID CASTILLO, Program Coordinator Fire Engineering Division Specifications Nominal Voltage 12V Rated Capacity 7Ah Dimensions Total Height 3.98 inches (101mm) Height 3.74 inches (95mm) Length 5.94 inches (151mm) Width 2.56 inches (65mm) Approximate Weight 4.52 lbs. (2.05kg) 4.8 os. Ci 108 J DISCHARGE CHARACTERISTICS AT 25 C(77° F) 01 I I I I I I. i POER __ KINGDOM (Sealed Lead-Acid Batteries) PS712 (12V7Ah) Characteristic Capacity 770F(25°C) 20h rate 7.00Ah 10h rate 6.50Ah 5h rate 5.95Ah I rate 4.20Ah 15 min rate 3.15Ah Internal Resistance Full Charged Battery 77°F(250C) 25m Capacity Affected by Temperature (20h rate) 1040F(400C) 102% 77°F(25°C) 100% 320F(0°C) 85% 5°F(-150C) 65% Self-Discharge 680F(200C) (Capacity after) 3 month storage 90% 6 month storage 80% 12 month storage 60% Max. Discharge Current_77°F(25°C) 105A(5s) Terminal T1,T2 Charge (Constant Voltage,250C) Cycle 14.5-14.9V(-24mVflC) max. current: 2.1 A Float ( 13.6-13.8V(-18mV/°C) Constant Current Diachare Characteristics (A.25C I 2 3 5 00 20 30 60 2 3 5 00 20 30 min h Discharge Time 20 CHARGED 02 coo VOLUME CHARGED cc VOLTAGE oe COO ace 004 05 20 002 O 0 CHARGING CURRENT Chargeing Time (h) Cycle service life 0TOOI.L 0)0 400 600 800 1000 0200 Life (cycle) F.V/TIIvIE 5min 10min 15min 30min 60min 3h 5h 10h 20h 9.60V 27.0 18.0 14.0 8.40 4.70 1.73 1.15 0.71 0.37 10.2V 25.7 17.1 13.4 8.06 4.55 1.70 1.13 0.70 0.36 10.5V 24.2 16.1 12.7 7.66 4.35 1.65 1.10 0.68 0.35 Constant Current Diachare Characteristics (Watt.25C' F.V/TIMiE 5min 10min 15min 30min 60min 3h 5h l0h 20h 9.60V 301 203 160 94.2 54.4 20.6 13.8 8.52 4.43 10.2V 287 191 153 90.4 52.7 20.2 13.6 8.40 4.33 10.5V 270 180 145 86.0 50.4 19.6 13.2 8.17 4.21 SECTION2 FIRE ALARM CABLE PART NUMBER AWG I CONDUCTOR SHIELDED! I I OVERALL I UNSHIELDED DIAMETER LCONDUCTOR COLOR I llCllT COLOR I VOLTAGE RATING I WEIGHT (Ibs)IUnit I MARKINGS I TEMP I PUT L UPS - WHITE, I WHITE 7300v I I BLACK, ADT 4 7FPLP/ 18.0 TC RED. GREEN, LBS 12/C BROWN, BLUE, TV P E ORANGE, YELLOW, cmP VIOLET, GRAY, PINK, TAN - - - - BLACK, RED RED 16.0 ADT 493490 75°C 1000 LBS 2/C 18AWG BOX TYPE FPLP/ ,-.. CMP () - (UL) - 8.0 ADT 493490 500 LBS 2/C 18AWG BOX PIPE FPIP/ CMP (I) ,-.., - (UL) - - LIGHT BLUE, 16.0 ADT 493493 60°C 1000 YELLOW LBS 2/C 18 AWG BOX TYPE FPIP/ ,-... CMP (Is) - (UL) - 8.0 ADT 493493 500 LBS 2/C 18AWG BOX PIPE FPLPI ,- CMP (LJ) (UL) I 2.20 DON'T SEE IT? CALL 1-888-423-8947 ORDERS: PHONE 1-888-423-8947, FAX 847-797-3853 r\I 2.2 14 AWG I RED I 300v I 50.0 I ADT 494472 2/C I 750c I 500 BLACK! RED, LBS 14 AWG 2/C 18 AWG REEL 18 AWG TYPE FPLPI LIGHT BLUE/ CL3P (UL) YELLOW BLACK, RED 38.0 AOl 493491 1000 LBS 2/C 14 AWG REEL TYPE FPLP! CLIP lJL 19.0 ACT 493491 500 LBS 2/C 14 AWG REEL TYPE FPLP /CL3P (YL ) (UL) BLACK, RED 72.0 FPLP/CL3P BROWN, BLUE LBS 14AWG (UL) - - - - - ADTSCN# 2#14 4 UNSHIELDED .265' 494472•L + CONDUCTOR 2#18 PAIGE PN# AWG 740035L SOLID ATSCN# 14 AWG 2 .210" 493491 PAIGE PN# SOLID CONDUCTOR 740133 I ADTSCN# I 493491-L I PAIGE I ADTSCN# 740212-L I I PAIGE I 454743ARE ' I .213" I CONDUCTOR I SECTION2 FIRE ALARM CABLE F~ PART NUMBER 1 AWG I0NDUJdb0RI SHIELDED! 1 OVERALL I UNSHIELDED DIAMETER I CONDUCTOR COLOR - I JACKET COLOR I VOLTAGE RATING I WEIGHT (Ibs)/IJniI MARKINGS - TEMP - PUT UPS 2.26 DON'T SEE IT? CALL 1-888-423-8947 ORDERS: PHONE 1-888-423-8947, FAX 847-797-3853 T1\iJI 2.2 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM - LISTING SERVICE LISTING No. (7161-2075:0100) Page 1 of I CATEGORY: 17161 -- CABLES-FIRE PROTECTIVE SIGNALING) LISTEE: (Paige Electric Companyj)SpringfieId Road, Union, NJ 07083 Contact: Cindy Regner (908) 687-7810 Fax (908) 687-8860 Email: cregner@paigeelectric.com DESIGN: Types FPL,(FPLP_and)FPLR power limited fire protective signaling cables. Insulation - PVC compound AiphaGary Smokeguard 4010, Synergistics 1349-1028 FRD, 1360-1021-PlD, PP, HDPE or LDPE. Shields - (Optional) All metal or Aluminum Polyester tape. Braid - (Optional) All metal. Jacket - PVC compound AlphaGary Smokeguard 11 6920, Gitto Global GA-8705-03, AiphaGary GW2038, Synergistics 1690-1060, 1604-1007 FR, 1100-1092 FRD, JAP61A or 1410-1011 FRD, Solef 31008-0003. Refer to listee's data sheet for additional detailed product description and operational considerations. INSTALLATION: In accordance with listee's printed installation instructions, NEC Article 760, applicable codes and ordinances, and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, Type FPL, FPLP or FPLR, rating and UL label. APPROVAL: Listed as power-limited fire protective signaling cables. NOTE: Formally 7161-1677:100 XLF: 7161-1509:0100 mt09-09-11 mt This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct V1 operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other Date Issued: July 01, 2018 (Tune3O,2019) Authorized By: DAVID CASTILLO, Program Coordinator Fire Engineering Division