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Specifications December 9, 2004 u��,,, 1 o' i I � \ CITY OF TIGARD Randy Ehrhard Northwest Fire Supperssion OREGON 10200 SW Allen Blvd, Suite F Beaverton, OR 97005 RE: FIRE ALARM SYSTEM Building Permit: BUP2004 -00526 Construction Type: 2N Tenant Name: Clean Water Services Occupancy Type: B Address: 16580 SW 85 Ave Occupant Load: 50 Area: NA Stories: NA Fire Alarm System: Replacement system Hazard: Ordinary Group The plan review was performed under the State of Oregon Structural Specialty Code (OSSC) 1998 edition; and the Tualatin Valley Fire & Rescue Ordinance 99 -01 (TVFR99 -01) 1999 edition. The submitted plans are approved subject to the following. General requirements 1. Upon completion of the installation, a satisfactory test of the entire system shall be made in the presence of the Fire Chief All functions of the system or alteration shall be tested. 1007.3.4.1 TVFR99 -01 2. The permittee shall provide written certification to the Fire Chief that the system has been installed in accordance with the approved plans and specifications. A copy of the completed form shall be maintained on the premises and made available to the Fire Chief. 1007.3.4.2 TVFR99 -01. 3. Connections to the light and power service shall be on a dedicated branch circuit. The circuit and connections shall be mechanically protected. The circuit disconnecting means shall be accessible only to authorized personnel and shall be clearly and permanently marked FIRE ALARM CIRCUIT CONTROL. Standard 10 -2, Section 1- 5.2.8.2, TVFR99 -01 Manual Fire Alarm activation devices shall be mounted in the following reach ranges: • Forward Reach - 15 inches to 48 inches above the floor. 1109.2.3.5 OSSC • Side Reach — 9 inches to 54 inches above the floor. 1109.2.3.6 OSSC Visuals (Section 1109.14 OSSC) 1. Visual signal appliances shall be provided in the building in each of the following areas: 1 13125 SW Hall Blvd., Tigard, OR 97223 (503) 639 -4171 TDD (503) 684 -2772 • Restrooms and any other general use area (e.g., meeting rooms) • Hallways • Lobbies • Common use areas. 2. Visual alarms shall be located not less than 80 inches and not more than 96 inches above the floor level. When a low ceiling exists, the visual alarm shall be mounted at least 6 inches below the ceiling. 3. Visual alarms shall have a minimum candela rating of 75 candelas. 4. No place in a room shall be more than 50 feet from a visual signal. 5. No place in a common corridors or hallways shall be more than 50 feet from a visual signal. 6. In large rooms exceeding 100 feet across and without obstructions 6 feet or more above the floor, devices may be placed around the perimeter spaced at a maximum of 100 feet apart. Approved Plans: 1 set of approved plans, bearing the City of Tigard approval stamp, shall be maintained on the jobsite. The plans shall be available to the Building Division inspectors throughout all phases of construction. 106.4.2 OSSC When submitting revised drawings or additional information, please attach a copy of the enclosed City of Tigard, Letter of Transmittal. The letter of transmittal assists the City of Tigard in tracking and processing the documents. Respectfully, Val Henzel, Senior Plans Examiner Bwco_s k) ECEI V LSD EQUIPMENT SUBMITTAL Nov J ?004 Ciry B UILDIN G p U ARD FOR ISION CLEAN WATER SERVICES DURHAM AWWTP 16580 SW 85 Ave. Tigard, OR 97224 October 21, 2004 k SYSTEM Fire Alarm System Replacement CONTENTS Manufacturers Data Sheets Battery Calculations Voltage Drop Calculations DESIGNED BY: Michael Schaenzer, NICET IV Fire Alarm Northwest Fire Suppression, Inc. 10200 SW Allen Blvd., Suite F Beaverton, OR 97005 (503) 644 -7720 Tel (503) 644 -8289 Fax L M + March 8, 2004 _ Series DN -6856 • A -30 NOTIFIER � NFS ONYX -640 Intelligent Addressable Fire Alarm System Section: Intelligent Fire Alarm Control Panels General The NFS -640 intelligent Fire Alarm Control Panel is part of M EA the ONYX'" Series of Fire Alarm Controls from NOTIFIER. 317 -01 -E As a stand -alone small -to -large system, or as a large net- APPROVED work, the ONYX Series of products meets virtually every C S118 application requirement. LISTED l oyd S (FM exceptions: Designed with modularity and for ease of system planning, S635 �e ts[er CPU -640E, PRN -5, fi ured with just a few devices for Proprietary service) the NFS -640 can be configured just California small building applications, or for a large campus or high- � State Fire TYPE rise application. Simply add additional peripheral equipment ' Marshal APPROVED to suit the application. 7165- 0028:214 02/6007 Features lei 7170- 0028:216 • One, expandable to two, isolated intelligent Signaling Line U.S. Coast Guard Circuit (SLC) Style 4, 6 or 7. 161.002/42/0 • Up to 159 detectors (any mix of ion, photo, thermal, or multi - sensor) and 159 modules (N.O. manual stations, two-wire r -7 smoke, notification, or relay) per SLC. 318 devices per loop/ City of �� 636 per FACP or network node. DENVER , • Standard 80- character display, 640 - character large display, j or display -less (a node on a network). 1 f • Network option — 103 nodes supported (NFS -640, NCA Network Annunciator, or NCS Network Control Station) us- ing wire or fiber -optic connections. k ■..� • 6.0 amp switch mode power supply with four Class NB built -in Notification Appliance Circuits (NAC). Selectable System Sensor strobe synchronization. • Built -in Alarm, Trouble, and Supervisory relays. • Up to 64 output circuits per FACP or network node; cir- cuits configurable online. • VeriFire Tools offline program option. Sort Maintenance ri'O "onetert Reports by compensation value (dirty detector), peak alarm _ value, or address. • Autoprogramming and Walk Test reports. NFS -640 shown in CAB -B4 with • Optional universal 636 -point DACT. NCA 640 - character display • 80- character remote annunciators (up to 32). • EIA -485 annunciators, including custom graphics. • Automatic time control functions, with holiday exceptions. • Printer interface (80- column and 40- column printers). • Surface Mount Technology (SMT) electronics. • History file with 800 -event capacity in nonvolatile memory, • Extensive, built -in transient protection. plus separate 200 -event alarm -only file. • Powerful Boolean logic equations. • Alarm Verification selection per point, with tally. • NCA 640- character display features: • Autoprogramming and Walk Test reports. ✓ Backlit, 640 - character display. • Positive Alarm Sequence (PAS) Presignal. ✓ Supports SCS Series smoke control system in both • Silence inhibit and Auto Silence timer options. HVAC or FSCS modes (not UL- Listed for FSCS). • March time / temporal / California two -stage coding / strobe 6/ Printer and CRT EIA -232 ports. synchronization. ✓ EIA -485 annunciator and terminal mode ports. • Field programmable on panel or on PC, with VeriFireTTM 6/ Alarm, Trouble, Supervisory, and Security relays. Tools program check, compare, simulate. Acclimate PIusT", AWACST", HARSHT", NOTI•FIRE•NETT", • Full QWERTY keypad. ONYXT", and VeriFlreT" are trademarks, and FlashScan® and • Charger for up to 90 hours of standby power. VIEW® are registered trademarks of NOTIFIER. Microsoft® and • Non -alarm points for lower priority functions. Windows® are registered trademarks of the Microsoft Corpora- • Remote ACK/Signal Silence /System Reset/Drill via moni- tion. LEXAN® is a registered trademark of GE Plastics, a subsid- tor modules. iary of General Electric Company. is Honeywell company. This document i I O 900 This document s not intended d to be used for installation purposes. We try to keep our product information up -to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. CE. R -- I F I E 1p For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 MIME= ILVIEFACIOIIM ER* Made in the U.S.A. 0 IV OT I F I E R 12 Clintonville Road, Northford, Connecticut 06472 QUALITY S T S T E M S ON • 03/08/04 — Page 1 of 9 J a I • FlashScan® intelligent features: • Acclimate Plus TN low - profile intelligent multi - sensor: ✓ Poll 318 devices in less than two seconds. ✓ Detector automatically adjusts sensitivity levels with- ./ Activate up to 159 outputs in less than five seconds. out operator intervention or programming. Sensitivity ✓ Multicolor LEDs blink device address during Walk Test. increases with heat. ✓ Fully digital, high - precision protocol (U.S. Patent ✓ Microprocessor -based technology; combination photo 5,539,389). and thermal technology. ✓ Manual sensitivity adjustment — nine levels. ✓ FlashScan® or classic mode compatible with NFS -640. ✓ Pre -alarm AWACS'" (Advanced Warning Addressable ✓ Low - temperature warning signal at 40 °F t 5 °F (4.44 °C ± Combustion Sensing) — nine levels. 2.77 °C). ✓ Day /Night automatic sensitivity adjustment. • RFX wireless interface system: ✓ Sensitivity windows: ✓ Allows protection in areas where the use of wire is un- ion – 0.5 to 2.5%/foot obscuration. economical or unpractical. Photo – 0.5 to 2.35%/foot obscuration. ✓ Allows communication with wireless smoke detectors Laser (VIEW®) – 0.02 to 2.0%/foot obscuration. and wireless monitor modules; each RFX unit and de- Acclimate Plus – 0.5 to 4.0 /foot obscuration. tector is assigned an address. HARSH'm – 0.5 to 2.35%/foot obscuration. ✓ Requires 24 VDC from SLC or system auxiliary power. ✓ Drift compensation (U.S. Patent 5,764,142). • HARSH'"' Hostile -Area Smoke Head: ✓ Degraded mode — in the unlikely event that the CPU - V Provides early warning of smoke detection in environment 640 microprocessor fails, Flash Scan® detectors revert where traditional smoke detectors are not practical. to degraded operation and can activate the CPU -640 NAC ✓ The detector's filters remove particulates down to 30 circuits and alarm relay. Each of the four built -in panel cir- microns in size. cuits includes a Disable/Enable switch for this feature. ✓ Intake fan draws air into photo chamber, while airborne ✓ Multi- detector algorithm involves nearby detectors in particles and water mist are removed. alarm decision (U.S. Patent 5,627,515). ✓ Requires auxiliary 24 VDC from system or remote power ✓ Automatic detector sensitivity testing. supply. ✓ Maintenance alert (two levels). • Releasing features: ✓ Self - optimizing pre - alarm. ✓ Ten independent hazards. • VIEW® Very Intelligent Early Warning smoke detection V Sophisticated cross -zone (three options). technology: ✓ Revolutionary spot laser design. V Delay timer and Discharge timers (adjustable). ✓ Abort (four options). ✓ Advanced AWACS^" algorithms differentiate between ✓ Low - pressure CO2 listed. smoke and non -smoke signals (U.S. Patent 5,831,524). • Voice and telephone features: ✓ Addressable operation pinpoints the fire location. V Solid state message generation. ✓ No moving parts to fail or filters to change. ✓ Hard -wired voice control module options. ✓ Early warning performance comparable to the best as- ✓Firefighter telephone option. piration systems at a fraction of the lifetime cost. SLC Intelligent Loop 1 I UP to 32 Di sp l e e DEVICES a k ' 1 1 . 1 RFX _ RFX -R x FAPT -851 Acclimate Plus � . a . -, FSL -751 one VIEW® — irff ii FlashS FSH -751 FlashScen® HARSH'. NBG -12LX FMM -1 FAM•1 XP5 Series, XPIO FSP -851 FlaahScari® photo 4 , XP6r10 VO etc `�' Mod ?rinin I = ft.■ SLC Intelligent Loop 2 IDC Relay Contact 5817CB s75F- --� aa.L. 1 LCD•80 FDU-80 LCD-80 DEVICES a o 11 j1 I, FSP-851 FSI -851 FST-851 < alL,L1 ' s ad t 4, EIA - 485 Photo Ion Thermal NBO -12LX FMM-1 FCM -1 XP5-M XP5-C XPIC _ =•.•.oe .. IDC NAC KDM-2 display OR ► ElA 485 2048 annunciator /control points L;6�JF l NCA . .r■ . ■ ■ ■ to _ c _ _ _ I ■ N_. . ■:■ IM Till 4 ■—► • OR s.s�. :.l.. -i■,� = ®�E -iJ —L— with no display NB U i$ m; i • I • , • ACM-8R ACWAEM -24AT LDM-32 if � "'"14 Relay Control LED Annunciator Custom Graphics Up to 64 fully programmable 4I Optional 636 point UDACT • Dual phone output circuits 41 lines to 1 Central • E/A -232 Terminal Station tplem rape t r Sample il l ung System NFS -640 EIA -232 _,/■r • Options s In CAB -C4 with KDM -2 4. p and voice alarm system PRN Printer CRT-2 Terminal 6856blok. verb( T Page 2 of 9 — DN -6856 • 03/08/04 I ✓ 30- to 120 -watt high - efficiency amplifiers (AA Series). Field Programming Options ✓ Backup tone generator and amplifier option. Autoprogram is a timesaving feature of the NFS -640. It ✓ Multichannel voice transponder (XPIQ). is a special software routine that allows the NFS -640 to "learn" • High - efficiency offline switching 3.0 amp power sup - what devices are physically connected and automatically load ply (6.0 A in alarm): them in the program with default values for all parameters. ✓ 120 or 220/240 VAC. Requiring less than one minute to run, this routine allows the ✓ Displays battery current/voltage on panel (with display). user to have almost immediate fire protection in a new instal- lation, even if only a portion of the detectors are installed. FlashScan® Exclusive New Keypad Program Edit (with KDM - 2). The NFS - World- Leading Detector Protocol 640, like all NOTIFIER intelligent panels, has the exclusive At the heart of the NFS-640 is a set of detection devices and feature of program creation and editing capability from the device protocol — FlashScan® (U.S. Patent 5,539,389). front panel keypad, while continuing to provide fire pro - FlashScan® is an all - digital protocol that gives superior pre- tection. The architecture of the NFS -640 software is such cision and high noise immunity. that each point entry carries its own program, including con - In addition to providing quick identification of an active input trol -by -event links to other points. This allows the program to device, this new protocol can also activate many output de- be entered with independent per -point segments, while the vices in a fraction of the time required by competitive proto NFS 640 simultaneously monitors other (already installed) cols. This high speed also allows the NFS -640 to have the points for alarm conditions. largest device per loop capacity in the industry — 318 points VeriFire Tools is an offline programming and test util- — yet every input and output device is sampled in less than ity that can greatly reduce installation programming time, and two seconds. The microprocessor -based FlashScan® detec increase confidence in the site - specific software. It is Win - tors have bicolor LEDs that can be coded to provide diag dows® based and provides technologically advanced capa- nostic information, such as device address during Walk Test. bilities to aid the installer. The installer may create the entire program for the NFS -640 in the comfort of the office, test it, AWACSTm Advanced Warning store a backup file, then bring it to the site and download Addressable Combustion Sensing from a laptop into the panel. AWACSTM is a set of software algorithms that provide the NFS -640 with industry- leading smoke detection capability. These complex algorithms require many calculations on each reading of each detector, and are made pos- � , s I RD, THEN ENTER sible by the very- high -speed microcomputer used by a =v t! .DOR it + **4+ Y? the NFS -640. CE E Drift Compensation and Smoothing. Drift compensation allows the detector to retain its original x ability to detect actual smoke, and resist false alarms, even as dirt accumulates. It reduces maintenance re- quirements by allowing the system to automatically per- .. - .��,.<9f��_�..•. , a te form the periodic sensitivity measurements required by NFPA 72. Smoothing filters are also provided by soft— Above: Keypad program editing. ware to remove transient noise signals, such as those Below: Autoprogram function. caused by electrical interference. _ Maintenance Warnings. When the drift compen- sation performed for a detector reaches a certain level, , . the performance of the detector may be compromised, .., -_ . . __ _. and special warnings are given. There are three warn- ing levels: (1) Low Chamber value, usually indicative of a hardware problem in the detector; (2) Maintenance ° ' �;� '' Alert, indicative of dust accumulation that is near but . EL below the allowed limit; (3) Maintenance Urgent, indica- tive of dust accumulation above the allowed limit. Sensitivity Adjust. Nine sensitivity levels are pro- vided for alarm detection. These levels can be set 114 aA ,E ; e,# ,sks• . r m manually, or can change automatically between day - - - .,I and night. Nine levels of pre -alarm sensitivity can also r' �' � „ ., ,� „� v be selected, based on predetermined levels of alarm. ” i ail••• s E7 y Pre -alarm operation can be latching or self- restoring, { `• M1l...wnr w. - - - - -- -. and can be used to activate special control functions. ' 1 Self- Optimizing Pre - Alarm. Each detector may g I F " it w..� 4 MUM be set for "Self- Optimizing" pre - alarm. In this special "�" , mode, the detector learns" its normal environment, , lL ' ,6, le r measuring the peak analog readings over a long pe -� nod of time, and setting the pre -alarm level just above '"' ° "'"" these normal peaks. ;' Cooperating Multi Detector Sensing. A pat g I f wog ented feature of AWACSTM is the ability of a smoke i " r sensor to consider readings from nearby sensors in ! making alarm or pre -alarm decisions. Without statisti- Lam'` cal sacrifice in the ability to resist false alarms, it al- ;f at lows a sensor to increase its sensitivity to actual smoke VeriFiren" Tools System Programming screen by a factor of almost two to one. DN -6856 • 03/08/04 — Page 3 of 9 a • j TOP, LEFT to RIGHT: J8 Zone Code Input; TB7 DC Power (24 VDC power - limited, both resettable and non - resettable available); TB8 Alarm Relay; TB9 Trouble Relay; TB10 Supervisory Relay; TB11 Security Relay; SW1, SW5 Relay Switches; JP13 General Board Earth Fault Jumper; TB12 EIA -485 Terminal Mode (supervised); TB13 EIA -485 ACS Mode (supervised); TB14 EIA -232 Printer; TB15 EIA -232 PC Termi- nal; J1 NUP (network/service connection: power - limited, supervised); TB16 SLC #1 Connections (detectors, modules; supervised); D55 Main SLC Ground Fault LED; JP7 Charger Disable Jumper JP12 200MA Jumper; JP6 Earth Fault Jumper (SLC #1). J8 TBT TN 1B9 TB10 TB11 T812 T813 T814 1815 TB18 0 .....a gam; ® Ca. , o.® noo ri.•0S C 0--00 i l cm SW5 • ' JP6 TB6 I NAC LEDs JI (TH5, 4, 3 aia , JP1 behi di splay • TB5 ® o-® JP12 JP7 behind display TIM ® .. The CPU -640 in to ® el 13 ® is a shown with TB3 Puma MI .sauW =CUM, awl. nova' MM-I, PO., AI KDM -2. Display ALARM TI M-tS MINIM paaalm — 1 Disable/Enable €I in Swifdres for NAC Circuit J7 MI M " Norm WM TM - D72 Degraded Mode behind display — a °°�� 7 p.:t t ( rl;t (fit try n rs f co ) tic a TB2 �c [ ` ©] � a ' t D D ] 11-74j TB2 It 13 Cod [o_ Cod Ii --- � ±� E Cod a n]a a�DiLa ©lt a© D82. J3 TB1 [ [ ©laa1:11 Di D 0 111=1 4 1r , *s=[LF Lai IteX 0 0 D54; Contml Swit SW2, J4, J5, J6 behind displaW J10 J11 / 61156cpu.wnd SW3, SW4; and System Status Indicator LEDs (for No-Keyboard Operation') behind display LEFT SIDE, TOP to BOTTOM: TB6 NAC #1, TB5 NAC #2, TB4 NAC #3, TB3 NAC #4 (all NAC circuits power - limited and supervised, and each NAC TB has an NAC LED to the right of it); J7 Accessory Power, Disable /Enable Switches for Degraded Mode; TB2 AC Power Connection; TB1 Battery Connection (overcurrent protected). BOTTOM, LEFT to RIGHT: D54 AC On LED; System Status Indicator LEDs for "No- Keyboard Operation "; System Switches SW2 (Acknowledge), SW3 (Silence), SW4 (Reset) for 'No- Keyboard Operation'; J4 KDM -2 Connector; J5, J6 Panel Circuits (ONYX Panel Output Modules, supervised); D72 General Board Ground Fault LED; J10 Security Tamper Switch; J11 Auxiliary Trouble Input; D82 AC Power LED; J3 LEM -320 Connector (SLC Loop #2). ,. ' Network Diagram v ml .� WF— NCS t 4 - 111 1 RPT Block Diagram 24V —> - WF NOTI •FIRE • NET'" ACS PRN �' Sample Node Configurations NFS - 640 .� J CJ NFS -640 '- CC Key: ��_ PRN - I�IIi. o0000o NFN Twisted -Pair Wire - — NFN Dual Fiber-Optic Link LCD -80 - •� .= Other Interfaces as a� � ` r - Elm ACS ...... ® . ,,::N,. ; r, y — PRN OP770NAL NCS ' 1 j 1 Co+ne�r / XPIt] XPIG� ggg PRN _.tt.k _ + ++ +++ NCA Y. speakers speakers .. 5856conl.wml phones phones ACS Page 4 of 9 - DN -6856 • 03/08/04 It The ONYXTM Series provides integrated solutions for any fire safety application. il ___ ____. _ - - N ;1 _- ____ , - r.„) rv -,--, 7 7:7 t, ,,_ .____,:„ i,.,,,, ,,,,, . L _..._....._ „ ______,..___-: - -., w. ..- E Placement of Equipment in Chassis and Cabinet ZSW The following guidelines outline the NFS -640's flexible sys- It is critical that all mounting holes of the NFS -640 are tern design. secured with a screw or standoff to ensure continuity of Rows: The first row of equipment in the cabinet mounts in Earth Ground. chassis CHS -M2. Mount the second, third, or fourth rows of Layers: The CHS -M2 accepts four layers of equipment, equipment in chassis CHS -4MB (see NFS -640 Installation including the control panel. The CPU -640 fills three positions Manual regarding panel output modules) or CHS-4L (for voice (left to right) in the first - installed layer (the back of the chas- components, see Voice Alarm System Manual). sis); its integral power supply occupies (the left) two posi- Wiring: When designing the cabinet layout, consider sepa- tions in the next two layers; the optional display occupies ration of power- limited and non - power - limited wiring as dis- (the left) two positions at the front, flush with the door. Panel cussed in the NFS -640 Installation Manual. output modules can be mounted in several layers with stand- _ Positions: A chassis offers four basic side -by -side posi- offs or an L- bracket as required. Some equipment, such as tions for components; the number of modules that can be the NCA, may be door - mounted directly in front of the control mounted in each position depends on the chassis model and panel. The NCA mounts onto the DP -DISP or ADP -4B. The the size of the individual module. There are a variety of stand- NCA can be used as a primary display for the NFS -640 by offs and hardware items available for different combinations directly connecting their network ports (required in Canadian and configurations of components. stand -alone applications). Expansion: Installing an LEM -320 Loop Expander Mod- ... CHS -M2 ule adds a second SLC loop to the control panel. The LEM - :II 320 is mounted onto the CPU -640, occupying the middle - CPU -640 right, second (back) slot on the chassis. If networking two or %I Integral more control panels, each unit requires a NCM -W (wire) or power supply NCM -F (fiber) Network Control Module. The NCM -W / -F can be installed in any panel out - Mounting location put module position (see manual); the default 1 i % ' % , ir . for LEM -320 p at b of the chassi next to the osition control is panel. the Option ack boards can be i� mounted in front of the LEM -320 or NCM mod- ° p�Om 1 . , �� ules; for ease of access, complete installation Dim m0tpm4 4 \ / l of those devices before mounting another mm�m0 \ 4 er. d 01A% ■ .0) 0 ' p TyTypical KOM-2 (shown with -0 ` location mounting dress plate), or NCA for NCM at front, flush with door 1 4' 1 Y or TM-4 Panel output module mounted on L- bracket •i�jt in front of control panel i �i - y Available mounting slots for panel output modules DN -6856 • 03/08/04 — Page 5 of 9 i + 1 Agency Listings and Approvals Configuration Guidelines See the first page of this data sheet for listing agencies and Stand -alone and network systems require a main display. On file numbers. These listings and approvals apply to the basic single -CPU systems (one CPU - 640 /-640E), display options am NFS -640 control panel. In some cases, certain modules may the KDM -2 or the NCA. On network systems (two or more CPU- not be listed by certain approval agencies, or listing may be 640 /-640Es), at least one NCA or NCS annunciation device is in process. Consult factory for latest listing status. required. Other options listed as follows: The NFS -640 complies with UL Standards 864 (Fire) and KDM - 80- character backlit LCD display with QWERTY 1076 (Burglary). It is designed to meet NFPA 72 Local, Aux- programming and control keypad. Order two BMP -1 blank iliary, Remote Station, Proprietary (not applicable for FM), modules and DP -DISP mounting plate separately. Requires and Emergency Voice /Alarm Fire System Requirements. top row of a cabinet. Required for each stand -alone 80- character display system. The KDM -2 may mount in network Specifications nodes to display local" node information as long as at least • Primary input power, CPU -640 board: 120 VAC, 50/60 Hz, one NCA or NCS network display is on the system to display 3.0 amps. CPU -640E board: 220/240 VAC, 50/60 Hz, 1.5 network information. Amps. NCA: Network Control Annunciator, 640 characters. On • Total output 24 V power: 6.0 A in alarm.' single CPU - 640/ -640E systems, the NCA is the Primary • Standard notification circuits (4): 2.5 A each. Display for the panel and connects directly to the CPU -640/- 640E. On network systems (two or more CPU - 640/- 640Es), • Four -wire detector power: 1.25 A. one network display (either NCA or NCS) is required for • Non - resettable regulated power outputs: 1.25 A each. every system. On network systems, the NCA connects (and • Battery charger range: 12 AH — 55 AH. Use separate cabi- requires) an NCM network communications module. Mounts net for batteries over 25 AH. in a row of FACP node or in two annunciator positions. l high capacity (25 — 120 AH) battery annunciator box, such as the ABS -2D. In CAB -4 top -row charger: Mounting options include the DP -DISP, ADP -4B, or in an • Optional 1 al high-capacity CHG t (25 1 0 sheet, AH) b applications, a DP -DISP and two BMP -1 blank modules are • Float rate: 27.6 V. required for mounting. See NCA data sheet DN -6858. • Temperature and humidity ranges: This system meets CPU - 640: Central processing unit with integral 3.0 amp NFPA requirements for operation at 0 °C to 49 °C (32 °F to (6.0 A in alarm) power supply for an NFS -640 system. 120 °F); and at a relative humidity (noncondensing) of 85% Includes CPU; one Signaling Line Circuit expandable to two; at 30 °C (86 °F) per NFPA, and 93% ± 2% at 32 °C ± 2 °C installation, programming and operating manuals. Order one (89.6 °F ± 1.1°F) per ULC. However, the useful life of the per system or as necessary (up to 103 network nodes) on a system's standby batteries and the electronic components network system. may be adversely affected by extreme temperature ranges CPU - 640E: Same as CPU -640 but requires 220 VAC, 1.5 and humidity. Therefore, it is recommended that this sys- amp, (3.0 A in alarm). tern and all peripherals be installed in an environment with CHS - M2: Mounting chassis for CPU -640. One required a nominal room temperature of 15 °C to 27 °C (60 °F to 80 °F). for each CPU - 640 /-640E. 'Note: The power supply has a total of 6.0 Amps of available power. This is shared by all internal modules. DP -DISP: Dress panel for top row in cabinet with CPU - 640/-640E installed. System Capacity BMP - Blank module for unused module positions. • Intelligent Signaling Line Circuits 1 expandable to 2 • Intelligent detectors 159 per loop • Addressable monitor /control modules 159 per loop • Programmable internal hardware and output circuits (4 standard) 68 • Programmable software zones 99 • Special programming zones 14 • LCD annunciators per CPU - 640/ -640E and NCA (observe power) 32 • ACS annunciators per CPU - 640/ -640E 32 address x 64 points • ACS annunciators per NCA 32 address x 64 or 96' points 'Note: The NCA supports up to 96 annunciator address points per ACM - 24/48. KDM -2 Controls and Indicators Program Keypad: QWERTY type (keyboard layout). 8 LED indicators: Power; Fire Alarm; Pre - Alarm; Security; Supervisory; System Trouble; Signals Silenced; Points Dis- abled. Membrane Switch Controls: Acknowledge /Scroll Display; Signal Silence; Drill; System Reset; Lamp Test. LCD Display: 80 characters (2 x 40) with long -life LED back- light. Page 6 of 9 — ON -6856 • 03/08/04 • System Modules The NFS -640 includes the ability to communicate with up to VCC - B: Voice Control Center. Provides a variety of user - eight conventional modules each with up to eight circuits. Any selectable tones on a single channel. Up to two different - mix of notification, relay, speaker, or telephone may be used. tones or messages may be selected on a single channel. Choose any combination of up to eight output modules: ICM/ Also provides optional digital voice message capability and ICE, CRM/CRE, DCM-4 or VCMNCE. Panel modules mount on -site programmable voice messages. Includes Audio on either: the two far -right positions of the DP -DISP (next to Message Generator (AMG -1) microphone, cables, dress the primary display); or on any of the four positions on the panels, and instructions. CHS-4N chassis (CHS -4MN kit required). NOTES: 1) These VTCC - B: Voice/Telephone Control Center. Provides all modules/expanders are NOT to be used for releasing ap- that the VCC -1 provides plus two-way Fire Fighters Tele- pl /cat ions. 2) For additional information on these panel phone (FFT -7) capability. output modules and expanders, see data sheet DN -6859. TCC - B: Telephone Control Center. Provides a stand -alone CHS - 4MB: Expansion Chassis. Mounts up to four two-way Fire Fighters telephone (FFT -7S). modules. Includes CHS -4N, MP -1B (Module Dress Panel), Includes cables, dress panel and instructions. and Expander Ribbon Cable. r RM - 1 /RM - 1SA: Remote microphone assemblies, mount ICM - 4RK: Notification Appliance Circuit on ADP-4 (RM -1) dress panel or CAB- RM / -RMR (RM -1SA) Module, provides four Style Y (Class B) or Style stand -alone cabinets. See DN- 6728. iait.. Z (Class A) alarm Notification Appliance Circuits. AM6 (at right) A udio Message • o ~ Maximum signaling current is 3.0 amps per . •,, circuit or 6.0 amps per module, subject to power ;j Generator (without microphone). Order • Io i g o supply limitations (includes auxiliary power u • in addition to VCC -1 or VTCC -1 if two- • • • � � • harness, ELRs and slide -in labels). channel system is required. o � ° , °s°"""."r Includes "m it F ire Fighters 31111 'Includes ON /OFF controls and ON /OFF LEDs. ,,„,,, I ICE (at right) Notification Appliance Circuit T e l ep h one control with master handset. R ©11 Expander, expands ICM-4 to provide a total of eight L929K FTM - Firephone Control Module Style Y or Style Z alarm Notification Appliance RE connects a remote firefighter Circuits. Circuit ratings are same as ICM-4. Note: _ — — telephone to a centralized tele- maximum of one per ICM -4RK. May phone console. Reports status to ..a. ii also be used to add four Notification t „ panel. Wiring to jacks and handsets m 1 W Appliance Circuits to VCM-4. is supervised. • d IN CRM - 4RK: (at left) Control Relay -� AA - 30: (at right) Audio Amplifier, 2 ' • d Module, four Form -C relay contacts, rated at 5.0 30 watts. Switch -mode power. H� A, 120 VAC or 28 VDC (resistive) per circuit. Includes amplifier and audio input g •• • • • • Includes manual ON /OFF controls and LEDs. supervision, backup input, and automatic switchover, power 6859c m4 "V CRE (at left) Control Relay Expander, supply, cables. See AA Series data sheet, DN -3224. pm expands CRM-4 to provide a total of eight Form - AA - 120 /AA - 100: Audio Amplifier provides up to 120 watts C relay contacts. Note: maximum of one per of 25 VRMS audio power for the NFS -640. The amplifier • till* CRM -4RK. May also be connected to add four contains an integral chassis for mounting to a CAB -B4, -C4, or nu= — I relays to ICM-4, TCM -2, TCM-4, or VCM-4. -D4 backbox (consumes one row). Switch -mode power. VCM - 4RK: (at right) Voice Control_, Includes audio input and amplified output supervision, backup Module provides four Style Y (25 and 1 1 input, and automatic switchover to backup tone. Order the AA- 70 V•Ms) and Style Z (25 VRMs only) 100 for 70.7 VRMS systems and 100 watts of power. See AA • M • speaker circuits, eight manual select Series data sheet, DN -3224. 3575 w� nl switches and indicators, slide -in labels, VROM - (n): (at right) Factory-pro- and plug -in terminal blocks. Move jumper to = 0 grammed message for installation in AMG- convert to telephone circuits with remote ring ' — 1. Provides up to 24 seconds of evacua- f ff „ „ o ff f s and local call -in flash. May be expanded to , .,, tion message on nonvolatile memory chip. m, of f f f eight circuits with VCE-4, ICE-4, or CRE-4. Choose one of many standard messages I ' VCE (at right) Voice Control Expander adds pi available. Up to two of these messages may be installed in four circuits to VCM-4. Note: VCM-4/ VCE-4 �:: one AMG. Includes VROM, instructions for combination must be eight speaker or — — installation and operation, and written text of m,ovram' °°5°don4""'” eight phone circuits. � —. message. See VROM data sheet, DN -3576. D - 4RK: (at left) Dual Channel VRAM - (at right) Field- programmed f Module pro -vices four Class B (Style '= memory to be installed in AMG -1. Provides fff f f f f V. 25 8 70 VRMS) or Class A (Style Z, - i%i up to 24 seconds of field- program- ; f ff f - - 25 VRMS only) speaker circuits plus ° 29 c.4 wmf ma evacua mes on - - four channel A/B select relays. Not nonvolatile memory chip. Message is o ° expandable. programmed from microphone or gee:: ° • ° cassette tape. Up to two of these ° eo :: : ! A Other Option Modules nonvolatile memory chips may be �� ARM-4: Auxiliary Relay Module, four Form -C �� installed in one AMG. Includes VRAM - relays controlled by a relay module (CRM -4 or and instructions for installation and CRE -4). N.O. contacts rated 20 amps; N.C. ..usx1 operation. 1 hQ; contacts rated 10 amps at 125 VAC and 30 VDC. ® ® APS - 6R: (at right) Auxiliary Power oo° Note: maximum of one for each CRM -4 or CRE-4. am Supply (expander). Provides up to 6.0 -a o o ° amperes of regulated power for compat- ..°° ible Notification appliance circuits. Indudes battery input and transfer relay, and overcurrent protection. Mounts on one of four positions on a CHS -4L or CHS -4 chassis. See APS-6R data sheet, DN-5952. DN • 03/08/04 — Page 7 of 9 I ACPS - 2406: 6.0 amp addressable charger power supply. Compatible Devices, EIA -232 Ports See ACPS -2406 data sheet, DN -6834. PRN - 80- column printer. See DN -6769. FCPS - 24: The FCPS -24 is a remote six -amp (four -amp pRN - 80- column printer. continuous) repeater /power supply. See FCPS -24 data sheet, DN -5132. VS4095/S2: Printer, 40- column, 24 V. Mounted in external FCPS - 24S6/ - 2458: Remote six -amp and eight -amp backbox. See DN -3260; order from Keltron, Inc. power supplies with battery charger. See DN -6927. CRT - Video display terminal. See DN -3756. UZC - 256: Programmable Universal Zone Coder provides Compatible Devices, EIA -485 Ports positive non - interfering successive zone coding. Micropro- p cessor - controlled, field- programmable from IBM®- compat- ACS Series: Remote serial annunciator /control systems. ible PCs (requires optional programming kit). See UZC -256 See DN -0524. data sheet, DN -3404. FDU - 80: Remote LCD display, 80 characters, with LEDs. LCD - /LCD - 80TM /FDU - 80: 80- character, backlit See DN -6820. LCD display. Mounts up to 6,000 ft. (1828.8 m) from panel. LCD - 80: Remote LCD display, 80 characters. See DN -3198. Up to 32 per NFS -640. See LCD- 80 /-80TM (DN -3198) and LCD - 80TM: Remote LCD display, 80 characters, terminal FDU -80 (DN -6820) data sheets. mode. See DN -3198. ACS: Annunciator Control Modules ACM -16AT, AEM -16AT, LDM Series: Remote custom graphic driver modules. See ACM -32A, and AEM -32A. See ACS data sheet, DN -0524, ON -0551. also ACM -24AT and ACM -48A on DN -6862. AFM: Annunciator Fixed Modules AFM -16A, AFM -16AT, ACM Remote relay module. 8 Form-C relays. See and AFM -32A. See AFM data sheet, DN -0056. DN -3558. LDM: Lamp Driver Modules LDM -32, LDM -E32, and LDM- RFX: Wireless interface system. See DN -6739. R32. See LDM data sheet, DN -0551. RPT - 485 Series: Repeater, isolator and /or fiber -optic mo- ACM Remote Relay Module with eight Form -C dem. See DN -4737. contacts. Can be located up to 6,000 ft. (1828.8 m) from UDACT: Universal Digital Alarm Communicator Transmitter, panel on four wires. See ACM -8R data sheet, DN -3558. 636 channel. See DN -4867. SCS: Smoke control station; eight (expandable to 16) UZC - 256: Zone Coder. Up to 256 programmable codes. See circuits. See SCS data sheet, DN -4818. DN -3404. RPT - 485: Repeats EIA -485 over twisted pair or converts Compatible Intelligent Devices to fiber -optic medium. See RPT data sheet, DN -4737. XP5: The XP5 -M and XP5 -C provide FlashScan® tan- FSI - 851: Low - profile FlashScan® ionization detector. See sponder points. See XP5 data sheet, DN -6625. DN -6934. XP: The XP Series Transponder provides conventional FSI - 751: Low - profile FlashScan® ionization detector. See monitor and control points (CLIP mode only). See DN -0759. DN -6714. XPIQ: The XPIQ quad intelligent voice transponder for distrib FSP - 851: Low - profile FlashScan® photoelectric detector. uted multichannel voice evacuation systems, an integrated audio See DN -6935. amplification and distribution subsystem controlled by FACP. FSP - 751: Low - profile FlashScan® photoelectric detector. - Capable of playing up to four See DN -6714. simultaneous messages. FSP - 851T: Low - profile FlashScan® photoelectric detector Accepts up to four 25 watt with 135 °F (57 °C) thermal. See DN -6935. amplifiers. See XPIQ data FSP - 751T: Low - profile FlashScan® photoelectric detector sheet, DN -6823. I with 135 °F (57 °C) thermal. See DN -6714. CHS - (at right) Chassis R FST - 851: FlashScan® thermal detector 135 °F (57 °C). See for mounting up to four _ - - DN -6936. APS -6Rs. •• •• ,• • CHS - 4L: (at right) Low- FST - 751: FlashScan® thermal detector 135 °F (57 °C). See profile four - position DN -6716. Chassis. Mounts two FST - 851 R: FlashScan® thermal detector 135 °F (57 °C) with AA -30 amplifiers or one i rate -of -rise. See DN -6936. AMG -E and one AA -30. „ • . FST - 751 R: FlashScan® thermal detector 135 °F (57 °C) with DP - 1B: (at right) Blank rate -of -rise. See DN -6716. Dress panel. Provides dead - front % ; FST - 851H: FlashScan® 190 °F (88 °C) high- temperature � panel for unused tiers or to cover , - ` f 411 thermal detector. See DN -6936. AA -30, AA -120, or AMG -E. Ni ,, £ FSD - 751 P: FlashScan® photo duct detector with housing. CAB - Series: The CAB-4 Series 528201.wm1 See DN -6821. cabinets are fabricated from 16 -gauge FSD - 751 P L: Low -flow FlashScan® photo duct detector with steel with unique full -front LEXAN ®, t' reverse -silk- screened for durability. The housing. See DN -6955. cabinet assembly consists of two basic v f 1 FSD - 751 RP: FlashScan® photo duct detector with relay and parts: a Backbox (SBB -_4), and a Locking " housing. See DN -6821. Door (DR -_4) that may hinge right or left. FSD- 751RPL: Low -flow FlashScan® photo duct detector n Cabinets are available in four sizes, "A" with relay and housing. See DN -6955. through "D ", with one to four tiers (two - FAPT - 851: FlashScan® Acclimate Plus low - profile multi - tiered "B" shown at right). A trim ring option is available for sensor detector. See DN -6937. semi -flush mounting. See DN -6857. FAPT - 751: Acclimate Plus TM low - profile multisensor detector. • See DN -6833. Page 8 of 9 - DN -6856 • 03/08/04 I FSH - 751: FlashScan® HARSHTM Hostile Area Smoke Head. Other Options See DN -6875. DPI - 232: Direct Panel Interface, specialized modem for ex- FSL FlashScan® VIEW® laser photo detector. See ON- tending serial data links to remotely located FACPs and /or 6886. peripherals. See DN -6870. LPX - 751: Low - profile VIEW® laser photo detector. See DN- LEM - 320: Loop Expander Module. Expands each 640 to two 5306. Signaling Line Circuits. See DN -6881. B 224RB: Low - profile relay base. TM Transmitter Module. Includes three reverse - polarity cir- B 224B1: Isolator base for low- profile detectors. cuits and one municipal box circuit. Mounts in panel module 6710LP: Low - profile base. Standard U.S. style. position (single- address - style) or in CHS -M2 position. See DN -6860. 6501: European - style, 4" (10.16 cm) base. NCM - Network Communications Module, Wire. Order one FMM - FlashScan® monitor module. See DN -6720. NCM per network node (CPU -640 or NCA). See DN -6861. FDM - FlashScan® dual monitor module. See DN -6720. NCM - Network Communications Module, Fiber. Order one FZM - FlashScan® two -wire detector monitor module. NCM per network node (CPU -640 or NCA). See DN -6861. See DN -6720. NCS - or NCS - - ONYX: Network Control Station, Wire. FMM - 101: FlashScan® miniature monitor module. See UL- Listed graphics PC with 19" display and mouse. Order as DN -6720. necessary for network systems. Each NCS consumes one of FCM - FlashScan® NAC control module. See DN -6724. 103 network addresses. See DN -6868, ONYXTM DN -6869. FRM - FlashScan® relay module. DN -6724. NCS - or NCS - - ONYX: Network Control Station, Fiber. FSM - 101: FlashScan® pull station monitor module. UL- Listed graphics PC with 19" display and mouse. Order as necessary for network systems. Each NCS consumes one of NBG - 12LX: Manual fire alarm station, addressable. See 103 network addresses. See DN -6868, ONYXTM DN -6869. DN -6726. VeriFire - TCD: VeriFire Tools CD -ROM. Contains pro - ISO Isolator module. See DN -2243. gramming software for the NFS -640, NCA, and XPIQ. Includes XP Series: Transponder. See DN -0759. local panel connection cable. Programming PC requires a serial XP5 - FlashScan® transponder, five monitor points. See port connection. See DN -6871. DN -6625. ACM - 24AT: ONYX Series ACS annunciator - up to 96 XP5 - FlashScan® transponder, five control points or Form- points of annunciation with Alarm or Active LED, Trouble LED, C relays. See DN -6625. and switch per circuit. Active /Alarm LEDs can be programmed (by powered -up switch selection) by point to be red, green, or XP6 - FlashScan® six- circuit supervised control module. yellow; the Trouble LED is always yellow. See DN -6862. See DN -6924. AEM - 24AT: Same LED and switch capabilities as ACM - XP6 FlashScan® six -zone interface module; connects 24AT, expands the ACM -24AT to 48, 72, or 96 points. See intelligent alarm system to two -wire conventional detection DN -6862. zone. DN -6925. ACM - 48A: ONYXTM Series ACS annunciator - up to 96 XP6 - FlashScan® six -relay (Form -C) control module. See points of annunciation with Alarm or Active LED per circuit. DN -6926. Active /Alarm LEDs can be programmed (by powered -up switch XP 10 - FlashScan® ten -input monitor module. See selection) in groups of 24 to be red, green, or yellow. Expand - DN -6923. able to 96 points with one AEM -48A. See DN -6862. XPIQ: Intelligent quad transponder. See DN -6823. AEM - 48A: Same LED capabilities as ACM -48A, expands the ACM -48A to 96 points. See DN -6862. BAT Series: Batteries. NFS -640 utilizes two 12 volt, 12 to 55 AH batteries. See DN -6933. PS Series: Batteries. NFS -640 utilizes two 12 volt, 12 to 55 AH batteries. See ON -110g. NFS - LBB: Battery Box (required for batteries over 25 AH). DN -6856 • 03/08/04 - Page 9 of 9 • August 20, 2004 DN -6861 • A0 -260 ® ONYX: Series _ 8 N IOT I F I E R Network Communications Modules NCM -W, NCM -F Section: Network Systems General mir California State The Network Communications Module (NCM) provides Fire Marshal NOTIFIER's NFS -640 and NFS -3030 Fire Alarm Control Pan- ®` 0 7165- 0028:214 (NFS - 640) els and NCA Network Control Annunciator with a means to (-- '-ry 7170- 0028:216 (NFS - 640) connect to NOTI•FIRE•NETTv. Two types of NCM are avail- 7165 - 0028:224 (NFS - 3030) able: NCM -W for connecting nodes with twisted -pair wire, and LISTED 7170- 0028:223 (NFS - 3030) NCM -F for connecting nodes with fiber -optic cable. S635 NCM -W Features , ... • Supports twisted -pair wire medium. L i • NFPA Style 4 (Class B) operation or NFPA Style 7 (Class A) 0 , operation. -' . - • Two programmable data thresholds. CS118 .. • Transformer coupling provides electrical isolation between nodes. - • Pluggable terminal wiring with strain relief. z..;; iz!' • Pluggable service connector (feeds signal directly through) �` 'w in the event that power must be removed from a node. APPROVED �,. - ; - • 312.5 Kbaud transmission rate. a ee , • Data is regenerated at each node. NFS - 3030) jt • Two network ports to allow simultaneous connection to fire +: . I alarm control panel and to programming computer. - s 4 • Enables software and database upload /download over '"' MEA „ NOTI • FIRE• NET "". 317 -01 -E • Repeaters are available to increase signal. (NCM - W, NFS - 640, . • Repeaters may be utilized to switch media type. NCA) _- w � . • Up to 3,000 feet (914.4 m) between nodes in a point -to- a ' point fashion (actual distance vanes with wire quality). "` "•. ,� NCM - W Interconnections — When wiring consecu- tive NCM -W boards, wiring may enter or exit at Port A or Port NCM - ` - B. NCM -W port- to-port wiring is not polarity sensitive; use of eee'nenb.ipc Port A or Port B is arbitrary. An NCM -W may be connected to any of the following devices: MIB -W, MIB -WF, NAM -232W, NCM -W (in another panel), NCS -W network connection, • Maximum attenuation is 8 dB with 62.5/125 pm cable and RPT -W, RPT -WF. 4.2 dB with 50/125 pm cable. NCM - Switch Functions — The NCM -W provides • Wavelength (1): 820 nanometers (use standard 850 nm fiber). two sets of switches to simplify network setup. Enable ground • Connectors: ST® style. fault detection by setting "ON" switch SW103 (Channel A); • 312.5 Kbaud transmission rate. switch SW101 (Channel B). Activate on -board end -of -line re- • Data is regenerated at each node. sistors by setting "ON" switch SW100 (Channel A); switch • Two network ports to allow simultaneous connection to fire 102 (Channel B). NOTE: Correct configuration is dependent alarm control panel and to r rammin computer. on network design; refer to the NOTI•FIRE•NETTm manual. Enables software and database upload /download over For further information and diagrams, refer to the NCM Instal- NOTI• FIRE•NETTM. lotion Document, 51533. NCM - Interconnections — When wiring consecutive NCM -F Features nodes /repeaters, fiber cable must exit one board on Transmit • Supports fiber -optic medium. (TX) and enter the next node /repeater on Receive (RX). The • NFPA Style 4 (Class B) or Style 7 (Class A) operation. fiber -optic pair (RX, TX) from Port A of one node /repeater may be connected to either Port A or Port B of another node /re- • Data is immune to all environmental noise. peater. An NCM -F may be connected to any of the following • Optical isolation prevents ground loops. devices: MIB -F, MIB -WF, NAM -232F, another NCM -F, NCS -F • NOTI•FIRE•NETT'" fiber -optic medium. network connection, RPT -F, RPT -WF. • Fiber type: 62.5/125 micrometers (multimode); or 50/125 micrometers ( multimode). NOTI•FIRE•NET° is a trademark and ONYX® is a registered trademark of NOTIFER. ST® is a registered trademark of AT&T. e is is Honeywell company. i s o 9001 This his document ment s not intended d to to be used for installation purposes. We try to keep our „,,,.,,,.. product information up -to -date and accurate. We cannot cover all specific applications - or anticipate all requirements. All specifications are subject to change without notice. C E Ft 'I” 1 F I E o For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 ENGRAINING i Ml i1 ii11NC § N OTI F I E R' 12 Clintonville Road, Northford, Connecticut 06472 QUALITY SYSTEMS Made in the U.S.A. DN -6861 • 08/20/04 — Page 1 of 2 s r w Mounting EiB TUB ERA TERM f 6 2 Both NCM -W and NCM -F can be installed in any panel out - ,S put module position. Additionally, the NCM -W can be door - O ■ ■. !ARTH -CH a+ A« 0 mounted on the ADP -4B dress panel on a single -space blank plate (BMP -1) for mounting in a CAB-4 Series cabinet. Channel A 8 B Ground Fault Detection switches Connections Diagnostic LED Indicators and Network EOL Termination Resistor switches A HI (green): Illuminates to indicate the NCM -W Port A is set for high threshold (NCM -W only). LED,o, LED B HI (green): Illuminates to indicate the NCM -W Port B is ® ® Network Connection set for high threshold (NCM -W only). AHI BHI Ports (NUP) RCD A (green): Illuminates when the NCM is receiving LED J3 J2 data from NOTI•FIRE•NETTM' on Port A. LED RCDA RCDB RCD B (green): Illuminates when the NCM is receiving LEDN LED2 data from NOTI•FIRE•NETT" on Port B. a S A S STATA (yellow): Illuminates when the NCM has not re- A � LED3 LEDs ceived valid data from NOTI• FIRE• NETT"" on Port A for 11 n ® ® at least 16 seconds. J L RECON PULSE1 (yellow): Illuminates when the NCM has not re- LED' LEDB Diagnostic ceived valid data from NOTI• FIRE•NETTTM on Port B for LEDs RESET POWER at least 16 seconds. RECON (yellow): Illuminates when a reconfiguration on NOTI•FIRE•NETT*' is in ;IP' PULSEI (green): Illuminates when the NCM is transmit - e ting NOTI•FIRE•NETT" is in progress. I RESET (yellow): Illuminates when the microcon- troller fails. POWER (green): Illuminates when +5 VDC is available Lai TERM Agency Listings and Approvals A A q ! OFF See the first page of this data sheet for listing agencies and OH OFF - Not Used file numbers. These listings and approvals apply to the NCM. SW2 In some cases, certain modules or applications may not be listed by certain approval agencies, or listing may be in pro- - cess. Consult factory for latest listing status. _ 0 0 o O Product Line Information NCM -W Network Communications Module, twisted -pair - NCM -W \ / 6861ncmw.wrn1 wire interface. NCM -F Network Communications Module, fiber -optic cable interface. Common Specifications Temperature and humidity ranges: This system Channel A & B Connections meets NFPA requirements for operation at 0 °C to 49 °C (32 °F to 120 °F); and at a relative humidity O (noncondensing) of 85% at 30 °C (86 °F) per NFPA, and 93% ± 2% at 32 °C ± 2 °C (89.6 °F ± 1.1 °F) per ULC. However, the useful life of the system's standby batteries and the electronic components may be ad- ;if sew versely affected by extreme temperature ranges and 4 humidity. Therefore, it is recommended that this sys- v ;a, if - tem and all peripherals be installed in an environ- J203 .202 .201 J200 ment with a nominal room temperature of 15 °C to 27 °C (60 °F to 80 °F). L 1 Fes) Mixing Wire and Fiber Diagnostic RCDA RCDB J3 J2 LEDs Network on the Same Network N 1 LEN LED2 Connection In some networks, it may be necessary to mix twisted- "`°" " �°° STATA s STATB Ports (NUP) pair wire and fiber -optic cable. There are two solutions: I s k x • In any network, an RPT -WF may be used as an .I E, R ECO N PULSE1 interface between wire and fiber. I N LED, LEO6 < • In a network that uses an AFPI010 or AM2020, • • 2 a MIB -WF may be used as the interface between RESET POWE• wire and fiber. NCM -F (detail) 3 Page 2 of 2 — DN -6861 • 08/20/04 F July 20, 2004 DN -6857 • G -190 . 8 N T I F I E R ON YX' Series CAB-4 Cabinets Section: Peripheral Devices Tiro California General 0 Marshalre All cabinets for NOTIFIER fire alarm control panels are fab- uL ricated from 16 -gauge steel. The cabinet assembly con- i i 7165- 0028:214 (NFS -640) sists of two basic parts: a backbox and a locking door. 7170- 0028:216 (NFS - 640) Cabinets are available in either black or red, with or with- LASTED 7165 - 0028:224 (NFS - 3030) out LEXAN® windows. The LEXAN® model provides a S635 7170-0028:223 (NFS tasteful combination to accent the decor of the finest lobby setting. • • The key- locked door is provided with a pin -type hinge, two keys and the necessary hardware to mount the door to the backbox. CS 118 0 • The backbox has been engineered to provide ease -of- ° a entry for the installer. Knockouts are positioned at nu- M EA i merous points to aid the installer in bringing a conduit 317 -01 -E into the enclosure with a minimum of hardship. 345 -02 -E • Right- or left -hand hinges, selectable in the field. Door opens 180°. • Cabinets are arranged in four sizes, A (one tier) through D (four tiers). Ordering information is on page 3. APPROVED • A trim ring option is available for semi -flush mounting. (NFS - 3030) • Chassis bridge available for assembling multiple CHS-4 chassis external to the backbox. LEXAN® is a registered trademark of GE Plastics, a subsidiary "D" size cabinet of General Electric Company. with solid door. Solid door option available on all sizes in black or red. p.w.��. Dimensioned drawings of "B"; "C ", and "D" sized cabinets are provided on page 2. 4 24.0' (60.960) v TOP KNOCKOUT: Inner. 1.375" (3.493) (13.097) (5239) %4--- 24.125" (61278) (10.16); Outer. 1.750 4.445 ; 5.156' , 2.063" �4.0'w 16.0' (40.640) ( ) r 8 E - 1.625' (4.126) 8.625' 20.125' ) (21.908) _ 11.281" (51.118) L_ ,_ 0.313' dia. 0.31 3' dia. ` (28.655) r.L. (0.794) (0.794) 20.0 O ,l NA 1. (50.800) LOWER r,; MorIF•crt w 19.5' (49.530) it KNOCKOUT: Inner: - - 0.875' (2.223) _ L eas�w.. Outer. I 2.583' (cm) 2.25 (5.715) -k. 1.125' (2.858) -# � (6509) T cu is Honeywell ed be p rP try 1 S 0 9001 This document s not of intended to ended to be used for installation u oses. Wet to keep our „:„,,,:,...___ product information up -to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. C E R - r u F I E o For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 EMCINEBIIM 1 MINIFILUMNI ° ^ Made in the U.S.A. J N OT I F I E R 12 Clintonville Road, Northford, Connecticut 06472 QUALITY S Y S T E M S ON-6857 • 07/20/04 - Page 1 of 3 I . . / / .14-- ' TOP ENOCEOLIT: kwer 1.375' (1493) I ( ( 4---- 24.125' (61.278) --wi 1( 10.16) ; 24.0 (80.980) --Pi 16 cr fa) moi 1 Outer: 1.750' (4.445) : 5.156' ( 2.063' i r . x - , -4 1 .... ______ r f - .. Zi__ 1.625' IZE (4.128) 13.625' :1 21.908) NET 19.781' (50244) - - 0 -- (----- 8.625" (72 08 ) 0.313' dla. 0.313' dia. (rage) ' -',, ,.... __ . O a i i 19.5' (49.530) 1.,4 1 // i Two LOWER / KNOCKOUTS: 225' n igner .., ‘......., i 3 (5715) ..... ... ! •• 1.125' (2.958) --z- --!-- (Cm) 225' (5.715) --Ho. I 7131. KNOCKOUT „ 24.0' 0 30900 1 ° /mar 1 375' (3493) I ( 13 . 097 ) ( 5235 ) 14- 24.125' (612/8) --4. 18 16.0 , (40.840) -1 1( 0 .): 1 Outer 1 750' (4 445) ■ 5.156' : 2.063' / ;* 4.0'1 , ' -,2 T 8 * -45--- --/- -- s, .. T . -21 •?"‘ 1 (4.128) 8.1325' - - i (21.908) - -- 8.625" . 2E1.094' (21.903) , (71.358) 0 .... 8.625' 37.125" (21.908) (94.815) , 11 0.313' dia. 0.313' dia. (0.794) (0794) o d' A - ; - 4-1,44--- 19.5' (49.530) -4+1.-1. Three LOWER i - / KNOCKOUTS: .7. 2.25' 2.25" 0.875" (2.223) i rj, MOTIFIENr (5.715) (5.715) Ourar 1.125' (29519 , _. ,- -- ..-- -. - -4-- L 2.563' (c111) -6 ! r• (6.505) .: TOP KNOCKOUT: 24.0' (80.980) - of fr,„,„, .1 . 375- (3.493) I (13.097) (5.239) ' !(10.16), r: 1.750' (4.445) : 5.156"j 2.063' )4--- 24.125' 011.278) -4 i !...4 113.0' (40540) - Outer .. ;4-44 i ... .-.. .... r f -- - c ---- Tr . 8 -4-- ---/-k--- ,... ../ i 1.625' ' D" SIZE ET (4128) 13.625' (21.9011) --0-----t- - 8.625' r---7- . (21.908) 37.031 --e-----i---- (94,059) 8.825' (21.908) -1111 - -- --- ,.. 8.625" 45.75' 45. 75' "1 908 (116.523) (116.205) 0.313' dia. 0213' dia. , . (0.794) (0.794) ; ' ,.... ; d 411■1..14 19.5' (49.530) \ . '/ Four LOWER : i 2.25' 2.25' hair KNOCKOUTS (5.715) (5.715) 0.8791(2223) i $. Outer / 3 t.139" (2.858) * -- -- ----- 2.563' (Om) -4 1 ( Page 2 of 3 - DN-6857 • 07/20/04 I Ordering Information A complete cabinet assembly consists of: a door, a backbox, an optional battery plate, and an optional semi -flush trim ring. For each cabinet required, order one "DR" door and one "SBB" backbox. The BP-4 battery plate is required for each cabinet assembly that mounts batteries and /or a power supply in the lower position of the cabinet. The optional trim ring is an attractive "picture frame " -style black metal ring. ONE TIER, "A" SIZE: DR A4: Door assembly, LEXAN® window, one tier, BLACK. --' —_� DR -A4R: Door assembly, LEXAN® window, one tier, RED. _ - - ® =_ DR -A4B: Door assembly, solid door, one tier, BLACK. DR -A4BR: Door assembly, solid door, one tier, RED. SBB -A4: Backbox assembly, one tier, BLACK. SBB -A4R: Backbox assembly, one tier, RED. TR -A4: Accessory semi - flush -mount trim ring, one tier (opening The BP-4 Battery Dress Panel covers the Main Power 24.062" [61.118 cm] W x 20.062" [50.958 cm] H), BLACK. Supply and the batteries in the cabinet Note: Black trim rings are used with red or black cabinets. Only one BP-4 is required per cabinet. BP-4: Battery panel. Used to cover battery and power supply when lower position is used in backbox. TWO TIERS, "B" SIZE: DR -B4: Door assembly, LEXAN® window, two tiers, BLACK. DR -B4R: Door assembly, LEXAN® window, two tiers, RED. DR -B4B: Door assembly, solid door, two tiers, BLACK. DR -B4BR: Door assembly, solid door, two tiers, RED. SBB -B4: Backbox assembly, two tiers, BLACK. SBB -B4R: Backbox assembly, two tiers, RED. TR -B4: Accessory semi- flush -mount trim ring, two tiers (opening 24.062" [61.118 cm] W x 28.562" [72.548 cm] H), BLACK. Note: Black trim rings are used with red or black cabinets. BP-4: Battery panel. Used to cover battery and power supply when lower position is used in backbox. THREE TIERS, "C" SIZE: DR -C4: Door assembly, LEXAN® window, three tiers, BLACK. DR -C4R: Door assembly, LEXAN® window, three tiers, RED. DR -C4B: Door assembly, solid door, three tiers, BLACK. DR -C4BR: Door assembly, solid door, three tiers, RED. SBB -C4: Backbox assembly, three tiers, BLACK. SBB -C4R: Backbox assembly, three tiers, RED. TR -C4: Accessory semi - flush -mount trim ring, three tiers (opening 24.062" [61.118 cm] W x 37.187" [94.455 cm] H), BLACK. Note: Black trim rings are used with red or black cabinets. BP-4: Battery panel. Used to cover battery and power supply when lower position is used in backbox. FOUR TIERS, "D" SIZE: DR -D4: Door assembly, LEXAN® window, four tiers, BLACK. DR -D4R: Door assembly, LEXAN® window, four tiers, RED. DR -D4B: Door assembly, solid door, four tiers, BLACK. DR -D4BR: Door assembly, solid door, four tiers, RED. SBB -D4: Backbox assembly, four tiers, BLACK. SBB -D4R: Backbox assembly, four tiers, RED. TR -D4: Accessory semi - flush -mount trim ring, four tiers (opening 24.062" [61.118 cm] W x 45.812" [116.363 cm] H), BLACK. Note: Black trim rings are used with red or black cabinets. BP-4: Battery panel. Used to cover battery and power supply when lower position is used in backbox. ACCESSORIES: WC -2: Wire channel. Provides a pair of wire trays to neatly route wiring between CHS chassis. CB -1: Chassis bridge. Provides a bridge between CHS Series chassis. DP -1B: Blank dress panel, covers one CAB-4 tier, BLACK. Agency Listings and Approvals See the first page of this data sheet for listing agencies and file numbers. These listings and approvals apply to the CAB-4 Series Cabinets. In some cases, certain modules or applications may not be listed by certain approval agencies, or listing may be in process. Consult factory for latest listing status. ON-6857 ' 07/20/04 — Page 3 of 3 A • August 19, 2004 DN -6858 • A0 -120 ONYX: Series • 8 NOTIFIER NCA Network Control Annunciator Section: Network Systems General lir. California The NOTIFIER Network Control Annunciator (NCA) is a 640- ��``'',� State Fire 1loy 's character backlit LCD display with operator keypad for the UL I�R Marshal Kegtster NOTIFIER network, NOTI•FIRE•NET'"'. As a remote node m • NFS - 640: on a network, it provides both system control and display ca- 1 7165-0028:214 pabilities for all network nodes. LISTED CS118 7170 -0028:216 APPRI ED The NCA is an optional display for the ONYX® Series NFS- S635 NFS - 3030: 3030 and NFS -640 control panels. When mounted in the con- 7165-0028:224 02/6007 trol cabinet and connected to a stand -alone NFS -640 or NFS- idi> 7170 0028:223 (NFS 640) 3030 panel, it provides system control and display capabilities M EA U.S. Coast Guard for a stand -alone panel. When connected to a networked panel as a primary display, it can provide net- APPROVED 317 -01 -E 161.002/42/1 work control and status /history display S (NFS - 640) (NFS - 640) capabilities. NOTI•FIRE•NETTM is a trademark and ONYX® is a registered trademark of NOTIFIER. _ . •A Hardware Features `. ° $ • Full supervision of all inputs and net- 1 work integrity. m • Enhanced - format 640 - character ", "- LCD display with backlighting. P Y • ACS bus for LED or graphic annun- - - .:.4 ,• ciators (EIA - 485)." • Terminal bus for mimic annunciators 3 � - --�__. (EIA -485). - , r ----"----- • Optically isolated Printer /CRT inter - '' . face (EIA -232). •• • Keyboard interface (EIA -232). • Ten LED status indicators: NCA in Power, Fire Alarm, Pre - Alarm, Secu- ABF - 2DB backbox • rity Alert, Supervisory, Trouble, Sig- nal Silence, CPU Failure, Point Disabled, Other Event. NCA as • Alphanumeric QWERTY rubber keypad with tactile and au- NFS - 640 Bible feedback. display in "B" 4.«a.,,,,,, • Four status relays: Alarm, Trouble, Supervisory, Security (Form - C). sized CAB - 4 • Nonvolatile real -time clock can be synchronized with net- cabinet with annunciators work by master node. and voice/telephone system • Optional Security Keyswitch enable to NCA. • History Buffer (200 Alarm events, 1,000 System events). • Optional Security Tamper switch. • Print NCA programming and history reports. • Supports up to 32 remote ACS annunciators and modules. • Report status of networked panels and their respective field • Requires 24 VDC, and either a network connection or a di- devices to a central station via a single UDACT (see data rect connection to the NFS -640 or NFS -3030. sheet DN- 4867). Features Include... • One Master level and nine User level passwords. The Mas- ter can assign each User access levels (programming, alter • Individual Enable /Disable or Group Enable /Disable local and status). networked NFS - 640 /NFS -3030 points and zones. • Interactive Summary Event Count display, event handling • Control ON /OFF of local (the panel in the same cabinet) package. and networked NFS - 640 /NFS -3030 control points. • Online programming and alter- status programs. • Read Status of local (the panel in the same cabinet) and • Intuitive user guidance program including interactive soft networked NFS- 640 /NFS -3030 points and zones. keys. • Network event display and optional CRT with keyboard. • Enhanced Read Status /Alter Status displays. • Network master fire phone, paging control, HVAC control. • New history filters for report displaying and printing: All • Network -wide: Acknowledge, Silence, Reset. Events, Only Alarms, Only Troubles, Only Supervisory, Only • Lamp Test (local to NCA). Security, Time Interval, Point Range. h is do e is is Honeywell by. DSO 9001 This document s not intended d to to be e used for installation purposes. We try to keep our product information up -to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. c E R T I F 11 E ob For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484- 7118 i 11A11UFACi0a6 0 NOTI Fl e R' 12 Clintonville Road, Northford, Connecticut 06472 QUALITY SYSTEMS Made In the U.S.A. DN -6858 • 08/19/04 — Page 1 of 3 • Fully programmable node - mapping subsystem. • NEXT SELECTION /PREVIOUS SELECTION — these keys are used • New Advanced /Basic Walk -Test program. when setting parameters in NCA data fields; for example, • Timer control for Auto Silence, AC Fail Delay. choosing a device type as a filter for requesting a Node His- • Meets Canadian ULC display requirements. tory. • Environmental adjustment controls to maximize LCD legibility. • RECALL LAST ENTRY — when scrolling through a list with the • Meets NFPA requirements for Firefighter Smoke Control Sta- NEXT SELECTION /PREVIOUS SELECTION keys, RECALL LAST EN- tion (FSCS) and HVAC. TRY will return to the last value programmed. • NCA Indicators and Controls INCREMENT NUMBER — for future USE. Specifications LED INDICATORS: Temperature and humidity ranges: This system meets NFPA • POWER (green) illuminates when 24 VDC power is applied; LED requirements for operation at 0 °C to 49 °C (32 °F to 120 °F); goes out if power is removed and NCA is using a battery. and at a relative humidity (noncondensing) of 85% at 30 °C • FIRE ALARM (red) illuminates when at least one fire alarm event (86 °F) per NFPA, and 93% ± 2% at 32 °C t 2 °C (89.6 °F t 1.1°F) exists; flashes when any of these events remain unacknowl- per ULC. However, the useful life of the system's standby bat - edged. teries and the electronic components may be adversely af- • PRE -ALARM (yellow) illuminates when at least one pre -alarm fected by extreme temperature ranges and humidity. There - event exists; flashes when any of these events remain unac- fore, it is recommended that this system and all peripherals be knowledged. installed in an environment with a nominal room temperature • SECURITY (blue) illuminates when at least one security event of 15 °C to 27 °C (60 °F to 80 °F). exists; flashes when any of these events remain unacknowl- ELECTRICAL REQUIREMENTS: edged. The NCA may be powered from a Main Power Supply MPS- • SUPERVISORY (yellow) illuminates when at least one super- 24A, MPS -24AE, MPS -24B, or MPS -24BE mounted in the NCA visory event exists (i.e., sprinkler valve off normal, low pres- cabinet (see specifications below); from an ACPS -2406 power sure, fire pump running, guard's tour, etc.); flashes when supply (see ACPS-2406 data sheet DN-6834); or from any UL- any of these events remain unacknowledged. Listed non - resettable 24 VDC source from a NOTIFIER fire • SYSTEM TROUBLE (yellow) illuminates when at least one panel (see panel data sheets). trouble event exists; flashes when any of these events remain The battery on the NCA motherboard is for RTC and SRAM; unacknowledged. holds the history memory through power failure. Replacements • OTHER EVENT (yellow) illuminates for any category of event are available (LITHBATT -3V). not listed above (for example, Critical Process Monitor); flashes when any of these events remain unacknowledged. Primary power: MPS -24A, MPS -24B: 120 VAC, 50/60 Hz, • SIGNALS SILENCED (yellow) illuminates if the NCA Silence 1.8 amps maximum; MPS -24AE, MPS -24BE: 220/240 VAC. key has been pressed or if any other node sent a Network 50/60 Hz, 0.9 amps maximum. Silence command; flashes if only some points on a node Secondary power, MPS -24A, MPS -24AE: 27.6 VDC, 9 to 60 are silenced. AH, supervised and power - limited. Fast charge = 2 amps, trickle • POINT DISABLED (yellow) illuminates when at least one dis- charge = 20 mA. MPS -24B, MPS -24BE: 27.6 VDC, 6.5 to 17 able exists on the network or in the system. AH, supervised and power - limited. Fast charge = 750 mA maxi- • CPU FAILURE (yellow) activated by the watchdog timer hard- mum, trickle charge = 20 mA (typical). ware, indicates an abnormal hardware or software condi- Agency Listings and Approvals tion. Contact technical support. 9 y g an pp - FIXED FUNCTION KEYS: See the first page of this data sheet for listing agencies and " file numbers. These listings and approvals apply to the NCA. • FIRE ALARM SCROLL/DISPLAY In some cases, certain modules or applications may not be • SECURITY SCROLL/DISPLAY listed by certain approval agencies, or listing may be in pro- • SUPERVISORY SCROLL/DISPLAY cess. Consult factory for latest listing status. • TROUBLE SCROLL/DISPLAY • OTHER EVENT SCROLL/DISPLAY Product Line Information The five keys above scroll through messages for the particular NCA Network Control Annunciator. Requires a NCM -W event type. For example, pressing the FIRE ALARM SCROLL/ orNCM -F network communications module for net - DISPLAY key will scroll through all fire alarm events, as details work displaying. of each are shown in the NCA's display area. NCM -W Network Communications Module *, wire. NOTE: The OTHER EVENT SCROLL/DISPLAY key also scrolls be- tween Pre - Alarm and Disabled events. NCM -F Network Communications Module *, fiber optics. • SIGNAL SILENCE — press this key to turn off all control mod- °Note: An NCM is required for every NCA unless it is connected ules, notification appliance circuits, and panel output circuits directly to the CPU - 640 /-3030 (a single, non - networked system). that have been programmed as Silenceable. ABS-4D Annunciator Backbox. Mounts one NCA; surface or • DRILL HOLD 2 SEC — press this key, holding it down for two semi -flush. Box dimensions: 19.87" (50.47 cm) wide seconds, to activate all silenceable output circuits. x 11.97" (30.404 cm) high x 3.5" (8.89 cm) deep. • SYSTEM RESET — press this key to clear all latched alarms Door dimensions:19.875" (50.483 cm) wide x 11.974" and other events and turn off event LEDs. high (30.414 cm) x 1.25" (3.175 cm) deep. SPECIAL FUNCTION KEYS: ABF -2DB Annunciator Backbox. Mounts one NCA; semi- • DISABLE /ENABLE — press this key from the Disable /Enable flush. Box dimensions: 9.188" (23.336 cm) wide x screen to perform a disable or enable of the point indicated 9.938" (25.241 cm) high x 3.75" (9.525 cm) deep. on the LCD display (lines 1 and 2). This key function is an Door dimensions: 10.375" (26.35 cm) wide x option enabled at Level 2 programming, i.e., a password is 10.713" (27.21 cm) high x 0.75" (1.9 cm) deep. required to enable the key. DP -DISP Annunciator Dress Plate. Mounts the NCA in top • PRINT SCREEN — press this key to print what is currently on row of a CAB-4 Series cabinet. the LCD screen. • LAMP TEST — press this key to test the LED indicators on the ADP-4B Annunciator Dress Plate, Black. Mounts NCA in left of the keypad and to check firmware revision numbers. two of four available annunciator module positions. • F1 — for future use. Page 2 of 3 — DN -6858 • 08/19/04 Optional Connections Network • Command Center f l � o I :=;,..e NCA o . 1 � me : : • Network Control/Display, I= a - : a l = alr: : : shown with two ONYX® �_ —: Seri A nn 't1's'iia: i'f's Annunciators LCD -80 Annunciator ,..... - 7.T. _ 51 ACS Annunciators _ = : _ - E = Speaker/Fire Telephone _ _ : _ _. — — Control; ONYX® Series ■� shown =- = e = '' =• =-_ - = MIL �■ —:. HMI ■ _ —= H— ■—C ..� CRT -2 ors =�tl= Eli Kira SCS Annunciators Video Display Unit El K m N rm rii Epps Km Fan /Damper Control w, il 44111111111.41 •.-' • • • (HVAC and FSCS) w rbe =8 =i -. VTCC -1 B PRN Series / # 11 ��` Voice/Telephone / Event Printer i i ICU - Communication Center e85lo0 .wml NCA Display with Sample Screen ri POWER FIRE ALARM - N / 8CR0.L DIRIAY ® FIRE ALARM ACKNOWLEDGE FIRE ALARM DETECTOR ADDR ID075 SECURITY MEM ZONE 03 8Qp1818F:AY a PRE -ALARM ■ 05:15 P FRI JAN 5. 2001 LO1D075 ■ gyp, sBCURrYr READ ADDRESS: L81D075 4 DISPLAY � MANUAL ACTIVE (■ ELEVATOR LOBBY EAST WING TROUBLE ME h', sUPERhaoRY1 1 FIFTH FLOOR 2083 SMOKE (PHOTO) 4 ■ ee'otLpauY SYSTEM ZONE03. 2027. Z866, onlu EVENT ® TROUBLE AI , VALUES. 011: OF ALARM, 045% OF PRE -ALARM ' 4 - euroLi.... AY 1 OTHER ALARM: 6 =1.66 %, PREALARM: 3 =8.47% SIGNAL ' EVENT ACTION /STATUS. NONE /VERY CLEAN I= SILENCE ®a10NALS AI / PEAKS: 56% VERIFY COUNT: 02 DET CO-OP: CTR , SILENCED 18 :22:34 A TUE JAN 9. 2881 1wL DRILL ma ® ISA$LED . ' BACK ' / ♦ SYSTEM _ 101 � CIPU LuRE 1 I , l `3 =i 4,1 l XI 8 7. l 11 8 9 1 0 ? 1 Esc ::= [*] 'n"^°"f l +11 Q rr , I W, E R T rill [U] 1 1 i01 P t S C A M * ': — [ " F G , [ 1 ' [ ] K . [ 1 . ♦ . j -10. n,TIa` w* lzl I I Z 1, x t c l V l l i U M SPACE Enter Fl f/ '" , ) • A l 6858nn.wml DN -6858 • 08/19/04 - Page 3 of 3 I r July 20, 2004 DN -6927 • E -30 FCPS -24S6 and FCPS -24S8 • NOTIFIER 6 -Amp and 8 -Amp 24 -Volt Remote Power Supplies Section: Power Supplies GENERAL The FCPS-24S6 (6-amp) (8-amp) and FCPS-24S8 8 -am p) are corn- California S pact, cost- effective remote power supplies with battery charger. UI. Marshal tate Fire The FCPS - 24S6/ -24S8 may be connected to any 12- or 24- -.:W 7315- 0028:225 volt Fire Alarm Control Panel (FACP) or may be used as a APPROVED i stand -alone supply. Primary applications include Notification LISTED /� /� EA Appliance (bell) Circuit (NAC) expansion (to support ADA re- S635 1 V 1 quirements and NAC synchronization) or auxiliary power to 299 -02 -E support 24 -volt system accessories. The FCPS - 24S6/ -24S8 provides regulated and filtered 24 VDC power to four notifi- cation appliance circuits configured as either four Class B (Style Y) or Class A (Style Z, with ZNAC -4 option module). Alter- nately, the four outputs may be configured as all non - resettable, all resettable, or two non - resettable and two resettable. The FCPS-24S6/-24S8 also contains a battery charger capable of charging up to 18 AH batteries. FEATURES • UL- Listed NAC synchronization using System Sensor, _ t -� Wheelock, or Gentex "Commander=" appliances. .�" • Cascadable for up to ten power supplies (four for Gentex) •jam with strobe timing maintained. �O • Operates as a "sync follower" or as a "sync generator" (de- fault). See note on page 2."� 4 • Contains two fully - isolated input/control circuits — triggered % v � from FACP NAC (NAC expander mode) or jumpered per- manently "ON" (stand -alone mode). • Four Class B (Style Y) or four Class A (Style Z, with ZNAC -4 module) NACs. • 6 -amp (FCPS -24S6) or 8 -amp (FCPS-24S8) full load output,z with 3 amps maximum/circuit, in NAC expander mode (UL 864). • 4 -amp (FCPS -24S6) or 6 -amp (FCPS -24S8) continuous out- .. put in stand -alone mode (UL 1481). • Compatible with coded inputs; signals passed through. • Battery charger may be disabled via DIP switch for applica- • Optional power- supervision relay (A77- 716B). tions requiring larger batteries. • In stand -alone mode, output power circuits may be config- • Fixed, clamp -type terminal blocks accommodate up to 12 ured as: resettable (reset line from FACP required), non- AWG (3.1 mm wire. resettable, or a mix of two and two. STANDARDS and CODES • Fully regulated and filtered power output — optimal for pow- ering four -wire smoke detectors, annunciators, and other The FCPS - 24S6/ -24S8 complies with the following standards: system peripherals requiring regulated /filtered power. • NFPA 72 National Fire Alarm Code. • Power - limiting technology meets UL power - limiting require- • UL 864 Standard for Control Units for Fire Alarm Systems ments. (NAC expander mode). • Form -C normally - closed trouble relay. • UL 1481 Power Supplies for Fire Alarm Systems (stand- • Fully supervised power supply, battery, and NACs. alone mode). • Selectable earth fault detection. SPECIFICATIONS • AC trouble report selectable for immediate or 8 -hour delay. primary (AC) power: • Works with virtually any UL 864 fire alarm control which uti- • lizes an industry- standard reverse - polarity notification cir- FCPS - 24S6/ -24S8: 120 VAC, 60 Hz, 3.2 A maximum. cuit (including unfiltered and unregulated bell power). • Wire size: minimum #14 AWG (2.0 mm with 600 V insulation. • Requires input trigger voltage of 9.0 – 32 VDC. Control input circuit: • Self- contained in compact, locking cabinet — 15" (38.1 cm) • Trigger input voltage: 9 to 32 VDC. high x 14.5" (36.83 cm) wide x 2.75" (6.985 cm) deep. • Trigger current: 2.0 mA (16 – 32 V). Per input: 1.0 mA (9 – • Includes integral battery charger capable of charging up to 18 16 V). AH batteries. Cabinet capable of housing 7.0 AH batteries. Trouble contact rating: 5 amps at 24 VDC. NOTIFIER® is a Honeywell company. 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. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice, - - F o r For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 Ehfl, IIEBIIli riMll J N OT I F I E R 12 Clintonville Road, Northford, Connecticut 06472 QUALITY SYSTEMS DN -6927 • 07/20/04 — Page 1 of 3 Auxiliary power output: specific application power 500 mA SYNC FOLLOWER/GENERATOR NOTE maximum. In some installations, it is necessary to synchronize the flash Output circuits: timing of all strobes in the system for ADA compliance. Strobes • +24 VDC filtered, regulated. accomplish this by monitoring very short timing pulses on the • 3.0 amps maximum for any one circuit. NAC power which are created by the FACP. When installed at • Total continuous current for all outputs (stand -alone mode): the end of a NAC wire run, the FCPS-24S6/-24S8 can track for FCPS -24S6: 4.0 amps maximum; for FCPS -24S8: 6.0 (i.e., "follow ") the strobe synchronization timing pulses on the amps maximum. existing NAC wire run. This maintains the overall system flash • Total short-term current for all outputs (NAC expander mode): timing of the additional strobes attached to the FCPS. for FCPS -24S6: 6.0 amps maximum; for FCPS -24S8: 8.0 When the FCPS - 24S6/ -24S8 is configured (via DIP switch set - amps maximum. tings) as a "sync follower," the FCPS's NAC outputs track the Secondary power (battery) charging circuit: strobe synchronization pulses present at the FCPS's sync in- put terminal. The pulses originate from an upstream FACP or • Supports lead -acid batteries only. other power supply. • Float- charge voltage: 27.6 VDC. When the FCPS -2456/ -2458 is configured (via DIP switch set- • Maximum charge current: 1.5 amps tings) as a "sync generator," the FCPS's sync input terminals • Maximum battery capacity: 18 AH. are not used. Rather, the FCPS is the originator of the strobe APPLICATIONS synchronization pulses on the FCPS's NAC outputs. In "sync generator" mode, the sync type (System Sensor, Wheelock, Example 1: Expand notification appliance power an addi- or Gentex) is selectable via DIP switch settings. tional 6.0 amps (FCPS -24S6) or 8.0 amps (FCPS- 24S8). Use PRODUCT LINE INFORMATION up to four Class B (Style Y) outputs or four Class A (Style Z) outputs (using ZNAC -4). For example, the FACP notification FCPS - 24S6: 6.0 amp, 120 VAC remote charger power sup - appliance circuits will activate the FCPS when reverse - polar- ply. Includes main printed circuit board, transformers, enclo- ity activation occurs. Trouble conditions on the FCPS are sure (15" [38.1 cm] high x 14.5" [36.83 cm] wide x 2.75" [6.985 sensed by the FACP through the notification appliance circuit. cm] deep), and installation instructions. Example 2: Use the FCPS to expand auxiliary regulated FCPS - 24S8: 8.0 amp, 120 VAC remote charger power sup - 24 -volt system power up to 4.0 amps (FCPS -24S6) or up to ply. Includes main printed circuit board, transformers, enclo- 6.0 amps (FCPS- 24S8). Both resettable and non - resettable sure (15" [38.1 cm] high x 14.5" [36.83 cm] wide x 2.75" [6.985 power options are available. Resettable outputs are created cm] deep), and installation instructions. by connecting the resettable output from the FACP to one or ZNAC - Class A (Style Z) NAC option module. both of the FCPS inputs. A77 - 716B: 12/24 VDC end -of -line relay for monitoring four - Example 3: Use addressable control modules to activate wire smoke detector power. the FCPS instead of activating it through the FACP notification BAT - 1270: Battery, 12 volt, 7.0 AH (two required, see BAT appliance circuits. This typically allows for mounting the FCPS Series data sheet DN- 6933). at greater distances* away from the FACP while expanding system architecture in various applications. PS - 1270: Battery, 12 volt, 7.0 AH (two required, see PS - For example, an addressable control module is used to acti- Series data sheet DN- 1109). vate the FCPS, and an addressable monitor module is used to sense FCPS trouble conditions. Local auxiliary power output from the FCPS provides power to the addressable control module. NOTE: All NAC outputs can 'Addressable FACPs are capable be converted to Style Z with of locating control and monitor Style Y NAC or ZNAC - option module. FCPS modules at distances of up to Door Holder Trouble 10,000 feet (3048 meters). Power Style Y NAC Style Y NAC Style Y NAC Contact AGENCY LISTINGS Output #4 Output #3 Output #2 Output #1 Output AND APPROVALS f f f See the first page of this data sheet for listing agencies and file 24 VDC numbers. These listings and ap- Specific provals apply to the FCPS -2456 Application and the FCPS -24S8. In some Power cases, certain modules or appli- AC cations may not be listed by car- MAC Control Power 41.111 Input #2 tarn approval agencies, or listing INPUT /OUTPUT (from FACP) may be in process. Consult fac- FUNCTIONS tory for latest listing status. are programmable by NAC Control SW1 DIP switch settings 4411■111 Input #1 (from FACP) Sync Input FCPS 6827bbk.wml SIMPLIFIED Battery Charger BLOCK DIAGRAM Page 2 of 3 — ON-6927 • 07/20/04 BOARD LAYOUT TB2: Power- imIted, NAC/Out 1 + Supervised In NAC Mode NAC /Out 1 – with Jumpers J5, JP8, NAC /Out 2 + T81 Supervised JP7, & JP8 In positions NAC /Out 2 – shown below. NAC/Out 3 + Earth NAC /Out 3 – Normaly Open AC Neutral NAC/Out 4 + Normally Closed — AC Hot NAC /Out 4 – Common TB5: Trouble Relay O O Form -C Fall-Safe '41. r (shown energized) T B2 PIa12 : 30110110/ f o 0 i3-1 �' 8 7 6 5 4 3 2 1 r`7 re �� FA 0 TB1 _. �' 3 2 1 TB5 nnnn nnnn Lana nnnn JP7: Ground Fault 111' UUQU UUQU 0 U U U UUUU JP1 (cut Detection a J2 -M- e J3 J3:ZNAG4 ® r jp2 Connector 8 0 a J p3 P3 JP2 8 JP3: Coded/Non -Coded o J1 O Input Selection a Non -Power Imlted J2: To Transformer #2 e J1: To Transformer #1 Auxiliary Output: 10 lvl – Aux. Common a mA Sp .,,,a/ , Application Power 9 + Aux. 24 VDC• 8 IN – Control Input 2 - v 7 MI + Control Input 2 6 t J – Out Common Fl 5 [ + Out/Trouble Contact 4 lel – Control Input 1 Z Battery 3 F y' + Control Input 1 Ba ttery Fuse ✓ 15A, 30 V 2 ra . – Sync Input • S JP4 SW1 a l / 6 1 + Synclnput ON O o 3 f O i zaass�e O TB4 Q © © © © 'NOTE: Auxiliary Power A O Output is power - limited - Battery LEDs (L to R): SWt: but NOT supervised. v • AC Power (green) Programming +Battery • Ground Fault (yellow) DIP Switches W JP4: Supervised, • Battery Trouble (yellow) E. Non -Power- Limited • NAC Trouble (yellow) r., 18 AH, 24 VDC • Charger Trouble/AC Loss (yellow) August 23, 2004 DN -6726 • H -240 NBG -12LX • N OT I F I E R® Addressable Manual Pull Station with FlashScan® Section: Intelligent/Addressable Devices GENERAL Patented, U.S. Patent No. D428,351; 6,380,846 The NOTIFIER NBG -12LX is a state -of- the -art, dual -ac- U.S. Patent Pending: 091686,286 tion (i.e., requires two motions to activate the station) pull station that includes an addressable interface for any Tr. California NOTIFIER intelligent control panel. Because the NBG-12LX U Fire M EA is addressable, the control panel can display the exact C ® L, us (), Marshal location of the activated manual station. This leads fire ,-, ; 7150 - 0028:199 67 -02 -E personnel quickly to the location of the alarm. LISTED � FEATURES S692 Kegister • Maintenance personnel can open station without causing U.S. Coast Guard an alarm condition. 161.002/23/3 TYPE • Built -in bicolor LED, which is visible through the handle of (AFP - 200) APPROVED APPROVED the station, flashes in normal operation and latches steady 93/60141 (E3) red when in alarm. 02/6007 • Handle latches in down position and the word "ACTI- VATED" appears to clearly indicate the station has been operated. • Captive screw terminals wire -ready for easy connection �° -- to SLC loop (accepts up to 12 AWG /3.1 mm wire). ''. • Semi -flush, mounts to a standard single -gang (2.125" [5.3975 cm] minimum depth), double -gang, or 4" (10.16 �, cm) square electrical box. • Smooth dual- action design. 1 Pi =' i • Within ADA 5 Ib. pull force. t C PU; L 0O? � E • Highly visible. ' [ a . • Attractive shape and textured finish. ; ] • Key reset. • Includes Braille text on station handle. • Optional trim ring (BG -TR). • Meets UL 38, Standard for Manually Actuated Signaling Boxes. t t • Up to 99 NBG -12LX stations per loop on classic protocol � ms systems. 1 NOT1F1Eii ': • Up to 159 NBG -12LX stations per loop on FlashScan® protocol systems. . - • Dual -color LED blinks green to indicate normal on I FlashScan® systems. i CONSTRUCTION The NBG - 12LX Shell, door, and handle are molded of durable LEXAN® Addressable Manual Pull Station (or polycarbonate equivalent) with a textured finish. OPERATION the bottom of the station. To reset the station, simply un- lock the station with the key and pull the door open. This Pushing in, then pulling down on the handle causes it to action resets the handle; closing the door automatically latch in the down /activated position. Once latched, the resets the switch. word "ACTIVATED" (in bright yellow) appears at the top of Each manual station, on command from the control panel, the handle, while a portion of the handle protrudes from sends data to the panel representing the state of the manual FlashScan® is a registered trademark of NOTIFIER. LEXAN® switch. Two rotary decimal switches allow address set - is a registered trademark of GE Plastics, a subsidiary of General tings (1 — 159 on FlashScan® systems, 1 — 99 on CLIP Electric Company. systems). This document is Honeywell company. ISO 9001 This document t i s not intended to be used for installation purposes. We try to keep our product information up -to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. C E RT • F I E ED For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 EMCIIiEIJ1Mi i MAMIMCllltll6 0 NOTI Fl IM R' 12 Clintonville Road, Northford, Connecticut 06472 QUALITY SYSTEMS - DN -6726 • 08/23/04 — Page 1 of 2 i PRODUCT LINE INFORMATION ELECTRICAL SPECIFICATIONS NBG - 12LX Dual- action addressable pull station. Normal operating voltage: 24 VDC. Includes key locking feature. Maximum SLC loop voltage: 28.0 VDC. . SB -10 Surface backbox. Maximum SLC loop current: 375 NA. SB -I /O Indoor /outdoor surface backbox. ARCHITECTURAL! BG - TR Optional trim ring. ENGINEERING SPECIFICATIONS INSTALLATION Manual Fire Alarm Stations shall be non - coded, with a The NBG -12LX will mount semi -flush into a single -gang, key - operated reset lock in order that they may be tested, double -gang, or standard 4" (10.16 cm) square electrical and so designed that after actual Emergency Operation, outlet box, or will surface mount to the model SB -10 or they cannot be restored to normal except by use of a key. SB -I /O surface backbox. If the NBG -12LX is being semi- An operated station shall automatically condition itself so flush mounted, then the optional trim ring (BG -TR) may be as to be visually detected as activated. Manual stations used. The BG -TR is usually needed for semi -flush mount- shall be constructed of red - colored LEXAN® (or polycar- ing with 4" (10.16 cm) or double -gang boxes (not with bonate equivalent) with clearly visible operating instruc- single -gang boxes). tions provided on the cover. The word FIRE shall appear on the front of the stations in white letters, 1.00 inches (2.54 cm) or larger. Stations shall be suitable for surface mounting on matching backbox SB -10; or semi -flush mount- < ing on a standard single -gang, double -gang, or 4" (10.16 cm) square electrical box, and shall be installed within the I • • limits defined by the Americans with Disabilities Act (ADA) or per national/local requirements. Manual Stations shall 7' ' I [ be Underwriters Laboratories listed. Manual stations shall connect with two wires to one of the O R / control panel SLC loops. The manual station shall, on com- H i Te mand from the control panel, send data to the panel repre- �_ Connections senting the state of the manual switch. Manual stations shall rovide address setting by use of rotary decimal ``- 1 SLC P 9 Y ry \. ( —) switches. \ \ % C 2 SLC ( +) The loop poll LED shall be clearly visible through the front 3 ' of the station. The LED shall flash while in the normal condition, and stay steadily illuminated when in alarm. - i ,i 0 Detail of - ta �/ BREAKAWAY TAB* Back of station without door. '•! ,' , a, s 14 15 0 1 ADDRESS 0 1 13 I (1) 11 I ' S` 4 10 9 8 7 8 9 8 7 � O c ll 1 ID I I #I4 LED NI H8U9 I i NWOa J.IUq ( ROTARY DECIMAL SWITCHES II ✓ *Remove tab to select addresses 1 ______ above 99 (FlashScan® systems only). i 0= • t c=7.1161..=. ATgo C 0 — O .....w o— Cover open to show easy access to miniature • monitor module, rotary switch, and UL label. Page 2 of 2 — DN -6726 • 08/23/04 i • August 23, 2004 DN -6720 • H -220 FMM -1, FMM -101, FZM -1, FDM -1 • NOT 1 F 1 E R Monitor Modules with FlashScan® Section: Intelligent/Addressable Devices I. 05 GENERAL .��. ((�� Four different monitor modules are available for NOTIFIER in- u ..r. ____ telligent controls to suit a variety of applications. Monitor mod- s ules are used to supervise a circuit of dry- contact input de- APPROVED vices, such as conventional heat detectors and pull stations, LISTED CS669 T "PE APPROVED or monitor and power a circuit of two -wire smoke detectors S635 (FZM -1). 93/60141 (E3) FMM - — is a standard -sized module (typically mounts to it U.S. Coast Guard (FMM - 1/ - 101, FZM - 1) a 4" [10.16 cm] square box) that supervises either a Class A 94/60004/E2 FMM - 1 /- -1 (Style D) or Class B (Style B) circuit of dry contact input de ®- 1 61. M - 1/ - 1 /3 ( FZM (AFP200: 01, ZM - 1) except t FDM - 1) vices. I~ -i 161.002/42/1 02/60007 FMM - 101 — is a miniature monitor module (a mere 1.3" California (NFS - 640: FMM - 1/ - 101) (NFS - 640: FDM - 1) (3.302 cm) H x 2.75" (6.985 cm) W x 0.5" (1.270 cm) D) used State Fire to supervise a Class B (Style B) circuit. Its compact design Marshal allows the FMM -101 to often be mounted in a single -gang 7300- 0028:202 M EA box behind the device it's monitoring. n n 143-01-E (FDM - 1) FZM - — is a standard -sized module used to monitor and 317 -01 -E supervise compatible two -wire, 24 volt, smoke detectors on O O ( 345- 02 a Class A (Style D) or Class B (Style B) circuit. o (FMM -1/ -101) FDM - — is a standard -sized dual monitor module used to 0 457 -99 -E (FZM -1, monitor and supervise two independent two -wire initiating ® 9 , 789 0 FMM - 1/ - 101) device circuits (IDCs) at two separate, consecutive addresses ; 1 3 4) 2 1 447 -99 -E in intelligent, two -wire systems. 2 y 13 itg FlashScan® (U.S. Patent 5,539,389) is a new communi- ® 7 TENS 2 9 cation protocol developed by NOTIFIER Engineering that `" 0 6 frill 3 ® E greatly enhances the speed of communication between ana- 5 2 s 4 log intelligent devices. Intelligent devices communicate in a ONES - grouped fashion. If one of the devices within the group has LOOP ADDRESS FMM - 0 new information, the panel CPU stops the group poll andO O 0 and concentrates on single points. The net effect is response FZM - speed greater than five times that of other designs. U U FlashScan® is a registered trademark of NOTIFIER. l FMM -1 MONITOR MODULE • Built -in type identification automatically identifies this de- ® 9 5 a vice as a monitor module to the control panel. detail of FDM - ® 8 3 4 1 0, 12 1 • Powered directly by two -wire SLC loop. No additional power — note "ones" IT 7 2 1 0 .. " . '1 , i 3 1,i3 2 required. addresses are 6 6 8 Esi • High noise (EMF /RFI) immunity. 0, 2, 4, 6, 8 only ®6 a (7 3 ® e • SEMS screws with clamping plates for ease of wiring. 0 5 2 0 4 ® s • Direct -dial entry of address: 01 – 159 on FlashScan® sys- r LOOP ADDRESS o+es ADDRESS ) tems, 01 – 99 on CLIP systems. • LED flashes green during normal operation (this is a pro- FMM - Applications — Use to monitor a zone of four - grammable option) and latches on steady red to indicate wire smoke detectors, manual fire alarm pull stations, alarm. waterflow devices, or other normally -open dry- contact alarm The FMM -1 Monitor Module is intended for use in intelli- activation devices. May also be used to monitor normally - gent, two -wire systems, where the individual address of each open supervisory devices with special supervisory indica- module is selected using the built -in rotary switches. It pro- tion at the control panel. Monitored circuit may be wired as vides either a two -wire or four -wire fault - tolerant Initiating an NFPA Style B (Class B) or Style D (Class A) Initiating Device Circuit (IDC) for normally- open - contact fire alarm and Device Circuit. A 47K ohm End-of -Line Resistor (provided) supervisory devices. The module has a panel - controlled LED terminates the Style B circuit. No resistor is required for su- indicator. The FMM -1 can be used to replace MMX -1 mod- pervision of the Style D circuit. Maximum IDC loop length is ules in existing systems. 2,500 ft./762 m (20 ohms maximum). This document is Honeywell company. ISO 9001 This document s not ot intended to be used for installation purposes. We try to keep our product information up -to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. C E Ft T 1 F 1 E o s For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 MINIM MMAUACIIIKS 0 NOTI F I E R' 12 Clintonville Road, Northford, Connecticut 06472 QUALITY S Y S T E M S DN -6720 • 08/23/04 — Page 1 of 6 1 FMM - Operation — Each FMM -1 uses one of 159 avail- regular polls from the control panel and reports its type and able module addresses on an SLC loop. It responds to regu- the status (open /normal /short) of its Initiating Device Circuit lar polls from the control panel and reports its type and the (IDC). status (open /normal /short) of its Initiating Device Circuit (IDC). FMM - 101 Specifications - A flashing LED indicates that the module is in communica- Nominal operating voltage: 15 to 32 VDC. tion with the control panel. The LED latches steady on alarm (subject to current limitations on the loop). Maximum operating current: 375 pA. FMM - Specifications EOL resistance: 47K ohms. Nominal operating voltage: 15 to 32 VDC. Temperature range: 32 °F to 120 °F (0 °C to 49 °C). Maximum current draw: 5.1 mA (LED on). Humidity range: 10% to 93% noncondensing. Maximum operating current: 375 pA (LED flashing). Dimensions: 1.3" (3.302 cm) high x 2.75" (6.985 cm) wide x EOL resistance: 47K ohms. 0.5" (1.270 cm) deep. Temperature range: 32 °F to 120 °F (0 °C to 49 °C). Wire length: 6" (15.24 cm) minimum. Humidity range: 10% to 93% noncondensing. FZM -1 INTERFACE MODULE Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x • Supports compatible two -wire smoke detectors. 1.25" (3.175 cm) deep. Mounts to a 4" (10.16 cm) square x . Supervises IDC wiring and connection of external power 2.125" (5.398 cm) deep box. source. FNMA-101 MINI MONITOR MODULE • High noise (EMF /RFI) immunity. • SEMS screws with clamping plates for ease of wiring. • Built-in type identification automatically identifies this de- • Direct -dial entry of address: 01 – 159 on FlashScan® sys- vice as a monitor module to the panel. terns, 01 – 99 on CLIP systems. • Powered directly by two wire FACP. No additional power ▪ LED flashes during normal operation (this is a program - required. mable option). • High noise (EMF /RFI) immunity. • LED latches steady to indicate alarm on command from • Tinned, stripped leads for ease of wiring. control panel. • Direct -dial entry of address: 01 – 159 on FlashScan® sys- The FZM -1 Interface Module is intended for use in intelli- tems, 01 – 99 on CLIP systems. gent, addressable systems, where the individual address of each module is selected using built -in rotary switches. This 141 0 1 ADDRESS 0 1 module allows intelligent panels to interface and monitor two - 13 , 2 , 2 wire conventional smoke detectors. It transmits the status 11 q LOOP 4 (normal, open or alarm) of one full zone of conventional de- tectors back to the control panel. All two -wire detectors be- 10 5 5 -a ing monitored must be UL compatible with the module. The 9 6 9 6 8 7 8 7 FZM -1 has a panel - controlled LED indicator and can be used - TENS ONES & - to replace MMX -2 modules in existing systems. I n n £„ FZM - Applications — Use the FZM -1 to monitor a zone of two -wire smoke detectors. The monitored circuit may be Y wired as an NFPA Style B (Class B) or Style D (Class A) Ini- O tu O U tiating Device Circuit. A 3.9 K ohm End-of -Line Resistor (pro - J O vided) terminates the end of the Style B or D (class B or A) tu j m circuit (maximum IDC loop resistance is 25 ohms). Install ELR across terminals 8 and 9 for Style D application. FZM - Operation — Each FZM -1 uses one of 159 avail - able module addresses on an SLC loop. It responds to regu- lar polls from the control panel and reports its type and the The FMM -101 Mini Monitor Module can be installed in a status (open /normal /short) of its Initiating Device Circuit (IDC). single -gang junction directly behind the monitored unit. Its A flashing LED indicates that the module is in communica- small size and light weight allow it to be installed without rigid tion with the control panel. The LED latches steady on alarm mounting. The FMM -101 is intended for use in intelligent, (subject to current limitations on the loop). two -wire systems where the individual address of each mod - FZM - Specifications ule is selected using rotary switches. It provides a two -wire initiating device circuit for normally- open - contact fire alarm Nominal operating voltage: 15 to 32 VDC. and security devices. The FMM -101 can be used to replace Maximum current draw: 5.1 mA (LED on). MMX -101 module in existing systems. Maximum operating current: 255 pA (LED flashing). FMM - 101 Applications — Use to monitor a single de- EOL resistance: 3.9K ohms. vice or a zone of four -wire smoke detectors, manual fire alarm pull stations, waterflow devices, or other normally -open dry- External supply voltage (between Terminals T3 and T4): contact devices. May also be used to monitor normally -open DC voltage: 18 to 28 volts power limited. Ripple voltage: supervisory devices with special supervisory indication at the 0.1 WOOS maximum. Current: 90 mA per module maximum. control panel. Monitored circuit/device is wired as an NFPA Temperature range: 32 °F to 120 °F (0 °C to 49 °C). Style B (Class B) Initiating Device Circuit. A47K ohm End -of- Humidity range: 10% to 93% noncondensing. Line Resistor (provided) terminates the circuit. Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x FMM - 101 Operation Each FMM -101 uses one of 159 1.25" (3.175 cm) deep. Mounts to a 4" (10.16 cm) square x available module addresses on an SLC loop. It responds to 2.125" (5.398 cm) deep box. Page 2 of 6 — DN -6720 • 08/23/04 r FDM -1 DUAL MONITOR MODULE INSTALLATION The FDM -1 Dual Monitor Module is intended for use in in- FMM -1, FDM -1, and FZM -1 modules mount directly to a stan- telligent, two -wire systems. It provides two independent two- dard 4" (10.16 cm) square, 2.125" (5.398 cm) deep, electrical " wire initiating device circuits (IDCs) at two separate, consecu- box. They may also be mounted to the SMB500 surface -mount tive addresses. It is capable of monitoring normally open box. Mounting hardware and installation instructions are pro- contact fire alarm and supervisory devices; or either normally vided with each module. All wiring must conform to applicable open or normally closed security devices. The module has a local codes, ordinances, and regulations. These modules are single panel - controlled LED. NOTE: The FDM -1 provides two intended for power - limited wiring only. Class B (Style Y) IDC circuits ONLY. Class A (Style Z) IDC The FMM -101 module is intended to be wired and mounted circuits are NOT supported in any application. without rigid connections inside a standard electrical box. All FDM - Specifications wiring must conform to applicable local codes, ordinances, Normal operating voltage range: 15 to 32 VDC. and regulations. Maximum current draw: 5.7 mA (LED on). PRODUCT LINE INFORMATION Maximum operating current: 750 pA (LED flashing). FMM -1 Monitor module. EOL resistance: 47K ohms. FMM -101 Monitor module, miniature. Maximum IDC wiring resistance: 1,500 ohms. FZM -1 Monitor module, two -wire detectors Temperature range: 32° to 120 °F (0° to 49 °C). FDM -1 Monitor module, dual, two independent Class Humidity range: 10% to 93% (non- condensing). B circuits. Dimensions: 4.5" (11.43 cm) high x 4" (10.16 cm) wide x SMB500 Optional surface -mount backbox. 2.125" (5.398 cm) deep. ARCHITECTS' /ENGINEERS' FDM - Automatic Addressing — The FDM -1 auto- SPECIFICATIONS matically assigns itself to two addressable points, starting with the original address. For example, if the FDM -1 is set to Specifications of these and all NOTIFIER products are avail - address "56 ", then it will automatically assign itself to ad- able from NOTIFIER. dresses "56" and "57 ". NOTE: °ones " addresses on the FDM -1 are 0, 2, 4, 6, or 8 only. Terminals 6 and 7 use the first ad- dress, and terminals 8 and 9 use the second address. Avoid duplicating addresses on the system. 1' 1 ., /\ `N s4..... ® O < - ,. ,• _ .„. . rei „:, 4 i„ u I ( (7 , J) NOTIFI ER v. CD t I I CAUTION E e ,. DE- ENERGIZE UNIT PRIOR TO SERVICING H Face Plate for FMM -1, FZM-1, and FDM -1 it a " '' .► e V/ MOUNTING DIAGRAMS I ,„, : for standard -sized 4. o `tc. , -•....' g modules N t i _ . „, 4,!...s.::&. , 1: ., :7 - j0 l''' m 1 ( \ i i 4 v, w � 9 : czl o o ci ,--11 A VC 4 .. ,- 0 A j I • ON -6720 • 08/23/04 — Page 3 of 6 1 WIRING DIAGRAMS The following wiring diagrams are included: 1) FDM -1, typical dual two -wire Style B initiating device circuit configuration. 2) FMM -101, typical two -wire Style B initiating device circuit configuration. 3) FMM -1, typical two -wire initiating circuit configuration, NFPA Style B. 4) FMM -1, typical four -wire fault - tolerant initiating circuit configuration, NFPA Style D. 5) FMM -1, typical two -wire initiating circuit configuration for security systems (with alarm versus short capability). 6) FZM -1, interface two -wire conventional detectors, NFPA Style B. 7) FZM -1, interface two -wire conventional detectors, NFPA Style D. 8) FRM -1, relay control module used to disconnect a power supply. WIRING DIAGRAM: FDM -1 Fig. 1 FDM -1: Typical dual two -wire Style B initiating device circuit configuration. Two Initiating Device Circuits each power - limited to T Device e , ( +) +•44 — FROM Panel 230 pA max. @ 12 VDC max. ' • ( +) or Previous s MONITOR ■ , I Device 47K EOL MODULE Resistor Communication Line ELR -47K 1 N 1 19 0 0 $ 32 VDC maximum. itA — - Twisted -pair is 410) 1 � / ( +) • recommended. I NJ 7 TEN; 2 47K EOL r �� 6 3 Resistor • All wiring shown is supervised 4 5 ELR -47K _ LOOP o"� `' 4 tC ADDRESS and power limited. D • Connect modules to listed compatible Q O 0 2 NOTIFIER control panels only. - U U • ANY NUMBER of UL Listed contact closure devices may be used. 6822van.wmf • DO NOT MIX fire alarm initiating, supervisory, or security devices on the same circuit. • Install contact closure devices per manufacturer's installation instructions. (+) if O TO //PPP' N EXT ( — 0 DEVICE UL LISTED BLACK ■ I RED Compatible ( -) ( +) FMM -101 Control a 67899 a 6 Panel 2(.,') 3 1 0 15 2 10 (+) VIOLET ► I I YELLOW WIRING DIAGRAM: FMM -101 0 47K EOL INCLUDED Fig. 2 FMM -101: Typical two -wire Style B initiating device circuit configuration. 6720wirl.wmf Page 4 of 6 — DN -6720 • 08/23/04 WIRING DIAGRAMS THIS PAGE: FMM -1 • Connect modules to listed compatible NOTIFIER control panels only. • All wiring shown is supervised and power limited. • Install contact closure devices per manufacturers' installation instructions. • 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. ■ Fig. 3 FMM -1: Typical two -wire initiating device circuit configuration, NFPA Style B. Device , ( +) "4. 4. 4. 4.% ( –) FROM Panel MONITOR ■ ; �� ( + ) • Deviceious Initiating Device Circuit (IDC) � 6 MODULE NFPA Style B, power limited: o 1 Communication Line 230 pA max. Q 12 VDC max. 9 0 0 I 32 VDC maximum. IN Twisted -pair is 47K EOL ® 8 (4 ) 2 ®i/ + a recommended. Resistor ®6 3 -' .� �� I ._,� Communication Loss ELR -47K 5 41t•.l LOOP ONES ADDRESS (optional connection for panels O ° 0 9 FUTUR FEATURE feature) ` U 6720w4.wm■ U ■ Fig. 4 FMM -1: Typical four -wire fault- tolerant initiating circuit configuration, NFPA Style D. T Device , ( +) I.""4N ( –) FROM Panel 1 - MONITOR ■ ; I ( +) 4 Device [ ( 9 MODULE II Communication Line 0 $ 32 VDC maximum. 10119 0 n i - IF Twisted -pair is 1076 40 1 t4 �/ + • recommended. EOL Resistor ®7 TENS 2 is internal at E 6 M 3 tir terminals 8& 9 ❑ 5 4M1 — Communication Loss - LOOP ONES ADDRESS (optional connection for panels which v FUTUR FEATURE feature) U 6120. vim( U ■ Fig. 5 FMM -1: Typical two -wire initiating circuit configuration for security systems (with alarm versus short capability). TO Next 4 ( – D e vice ( + ) IP �� • • ( —) FROM Panel Initiating Device Circuit (IDC) 1 �� ( +) or Previous NFPA Style B, power limited: T MONITOR ■ , ■ Device 230 NA max. @ 12 VDC max. [ s MODULE V v 0 Communication Line 14K Series Resistor 0 0 32 VDC maximum. I0 9 011 - 0 Twisted -pair is ,_, fal s 41) 1 Cirli ( +) • recommended. 47K EOL ® 7 TENS 2tv Resistor _ IS 6 is 3 9 ELR -47K C ■1 41[11 —j��— Communication Loss COOP °"� ADDRESS (optional connection for panels 0 which support this feature) Q O O 9 FUTURE FEATURE ` U 6720wi,4 rent U DN -6720 • 08/23/04 — Page 5 of 6 I • Connect modules to listed compatible control panels only. WIRING • Terminal wiring must be power limited. • DO NOT MIX fire alarm initiating, supervisory, or security devices on the same circuit. DIAGRAMS • DO NOT LOOP wire under terminals. Break wire run to provide supervision of connections. THIS PAGE: • Detectors must be UL listed compatible with module. FZM -1 , FRM -1 • Install detectors per manufacturers' installation instructions. • Power to the interface module must be externally switched to reset the detectors. An FRM -1 relay control module can be used to switch power from a standard power supply; see Fig. 7 below. ■ Fig. 6 FZM -1: Interface two -wire conventional detectors, NFPA Style B. TO Next ■ ( — ( —) FROM Panel Device 1 ( +) """% 0 46 ' 411 " 411 ' ( +) , or Previous a INTERFACE a 1 0 Device O MODULE I I '' Communication Line 0 I 32 VDC maximum. L°•1 9 0 ON , Twisted -pair is '18 �ji) 1('e I =0) recommended. (v . 3.9K EOL U 7 TEN& 2 4 (_) Listed Battery Backup Resistor W; 6 4 " 3 0 I ( +) • switched DC (included) � � 5 OWES 41[0. i _ • power supply. A2143 -10 LOOP ADDRESS 0 O O +Q Q O 0 O 9 j Optional Branch Circuit 0 TO Next Interface Module U 6720wu5.wmf U V Module supervises supply voltage and detector loop. ■ Fig. 7 FZM -1: Interface two -wire conventional detectors, NFPA Style D. — TO Next — FROM Panel Device + 4. 4. 44. 41.\ • 41.481.... ( +) or Previous a INTERFACE a 0 -\ Device d MODULE _ e • Communication Line ° , 32 VDC maximum. ■ Twisted -pair is 70 1 19 0 On 0 recommended. - i 3.9K EOL Resistor e' 8 (j) 1 LbJ' — F TENS AP (included) required �i 7 2 I 1' ( +) at terminals 8 & 9 (I f 1 16 ' 3 (gel' ( —) Listed Battery Backup A2143 -10 f hI] 5 €I. 41(l = \� + switched DC res AOORESS power supply. LOOP o OO OI O 9 Optional Branch Circuit Ie. TO Next Interface Module r U 6720wre.wmf U Module supervises supply voltage and detector loop. ■ Fig. 8 FRM -1: Relay control module used to disconnect a power supply. TO Next ■ ( —) ( —) i FROM Panel Device ( +) �� ( +) or Previous RELAY 0 / Device DC POWER n CONTROL n , $ 1 SUPPLY ( +) d MODULE i C I 1 Listed for Fire ( —) — � • � \ Communication Line Protection with s ® o 32 VDC maximum. Battery Backup ® 8 -*- 1 ( „'F ( + gr Twisted -pair is ® 7 — IF' 2 ® recommended. ( +) • i®5 I-4 [ 1 LOOP ADDRESS IC' o 9] . U 6726w,,7.wml U Page 6 of 6 — DN -6720 • 08/23/04 i April 5, 2004 DN -6724 • H -230 • 0 ® FCM and FRM Series NOTIFIER Control and Relay Modules with FlashScan® Section: Intelligent/Addressable Devices GENERAL _, California FCM - Control Module — The FCM -1 Addressable State Fire Control Module provides NOTIFIER intelligent control pan -, Marshal els a circuit for Notification Appliances (horns, strobes, speak- j- -1 7300- 0028:202 ers, etc.) or to monitor a telephone circuit. Addressability al- LISTED CS669 lows the FCM to be activated, either manually or through panel programming, on a select (zone or area of coverage) S3705 basis. MARYLAND /� EA State Fire Marshal FRM - Relay Module — The FRM -1 Addressable Re- 1 V 1 G/�-+� Permit #2020 • lay Module provides the system with a dry- contact output for 457 -99 -E APPROVED activating a variety of auxiliary devices, such as fans, damp- ers, control equipment, etc. Addressability allows the dry contact to be activated, either manually or through panel Cl n programming, on a select basis. ` FlashScan® (U.S. Patent 5,539,389) is a new communi- O O l ip cation protocol developed by NOTIFIER Engineering that O greatly enhances the speed of communication between ana- log intelligent devices. Intelligent devices communicate in a ■ 0 grouped fashion. If one of the devices within the group has 01 9 6 ri new information, the panel CPU stops the group poll and i _ � 5 9 ■0 concentrates on single points. The net effect is response 91 8 3 )1 I El speed g than five times that of other designs. 2 13 ,i 7 TENS 0 15 2 FEATURES 5 6 7 `9 • Built -in type identification automatically identifies these r ® 6 4 C 3 ® f devices to the control panel. I 5 2 1 4 ��- I • Internal circuitry and relay powered directly by two -wire SLC , ■ ONES c !!! ■ loop. The FCM module requires power (for horns, strobes, LOOP ADDRESS etc.), audio (for speakers), or a telephone riser (for hand- O _ • sets). Internal relay feature available on FlashScan® sys- O O / J E tems only. �� LLL/// • Integral LED "blinks" green each time a communication is II received from the control panel and turns on in steady red U FCM -1 Module 1. J when activated. (See wiring diagram Fig. 5 for FRM -1) • LED blink may be deselected globally (affects all devices). FRM may be programmed to operate dry contacts for door • High noise immunity (EMF /RFI). holders, Air Handling Unit shutdown, etc., and to reset four- • The FCM may be used to switch 24 -volt NAC power, au- wire smoke detector power. dio (up to 70.7 VRMS) or telephone. CONSTRUCTION • Wide viewing angle of LED. • • SEMS screws with clamping plates for wiring ease. The face plate is made of off -white Noryl®. • Direct dial entry of address 01— 159 for FlashScan ®, 01 — • Controls include two rotary switches for direct -dial entry of address (01 -159). 99 on traditional systems. • The FCM is configured for a single Class B (Style Y) or • Speaker, audible /visual, and telephone applications may Class A (Style Z) Notification Appliance Circuit. be wired for Class B or A (Style Y or Z). • The FRM provides two Form -C dry contacts that switch APPLICATIONS together. The FCM is used to switch 24 VDC audible /visual power, OPERATION high -level audio (speakers), or control telephone devices. The Each FCM or FRM uses one of 159 possible module ad- FlashScan® is a registered trademark of NOTIFIER. Noryl® is a dresses on a SLC loop. It responds to regular polls from the registered trademark of GE Plastics, a subsidiary of General Elec- control panel and reports its type and status, including the tric Company. open /normal /short status of its Notification Appliance Circuit N ®i Honeywell company. ISO 9001 This is document i s not intended ed to be used for installation purposes. We try to keep our product information up -to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. c E F[ T I F 11 E O For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 MORRIS I IIINUFALIIMPIE 0 N OTI FE ER 12 Clintonville Road, Northford, Connecticut 06472 Q 0 A E I T 1 SYSTEMS DN -6724 • 04/05/04 — Page 1 of 4 (NAC). The LED blinks with each poll received. On command, RELAY CONTACT RATINGS it activates its internal relay. The FCM supervises Class B for both FCM and FRM :models (Style Y) or Class A (Style Z) notification or control circuits. - Upon code command from the panel, the FCM will discon- Load Description Application Majamum Current nect the supervision and connect the external power supply Voltage Rating in the proper polarity across the load device. The disconnec- Resistive Non -Coded 30 VDC 3.0 A tion of the supervision provides a positive indication to the Resistive Coded 30 VDC 2.0 A panel that the control relay actually turned ON. The external Resistive Non Coded 110 VDC 0.9 A power supply is always relay isolated from the communica- tion loop so that a trouble condition on the external power Resistive Non -Coded 125 VAC 0.9 A supply will never interfere with the rest of the system. hductive (UR = 5 ms) Coded 30 VDC 0.5 A Rotary switches set a unique address for each module. The Inductive (UR = 2 ms) Coded 30 VDC 1.0 A address may be set before or after mounting. The built -ins (PF = 0.35) Non-Coded 125 VAC 0.5 A TYPE CODE (not settable) will identify the module to the control panel, so as to differentiate between a module and a PRODUCT LINE INFORMATION 9724rat °.tbI sensor address. FCM -1 Intelligent Addressable Control Module. SPECIFICATIONS for FCM FRM -1 Intelligent Addressable Relay Module. Normal operating voltage: 15 to 32 VDC. A2143 -20 Capacitor, required for Class A (Style Z) opera - Maximum current draw: 6.5 mA (LED on). tion of speakers. Average operating current: 350 pA direct poll (CLIP mode), SMB500 Optional Surface -Mount Backbox. 375 pA group poll (FlashScan® mode) with LED flashing. CB500 Control Module Barrier — required by UL for External supply voltage (between Terminals T3 and T4): separating power - limited and non -power limited maximum 80 volts (RMS or DC). wiring in the same junction box as FCM -1. 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 49 °C). 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. SPECIFICATIONS for MIN ` Normal operating voltage: 15 to 32 VDC. Maximum current draw: 6.5 mA (LED on). Average operating current: 230 pA direct poll (CLIP mode), 255 pA group poll ( FlashScan® mode) with LED flashing. . 11111".' 7 EOL resistance: not used. I 1,--= e Temperature range: 32 °F to 120 °F (0 °C to 49 °C). Humidity range: 10% to 93% non - condensing. Y - 1 4., - , - ::.4.x. . a Y Dimensions: 4.5" (114.3 mm) high x 4" (101.6 mm) wide x : 0 '117 1.25" (31.75 mm) deep. Mounts to a 4" (101.6 mm) square x 1 2.125" (53.975 mm) deep box. , � i CB500 —> i 1 e a 0 - MOUNTING �g a� 4-7 DIAGRAMS o t' � ® � mi l , `A Note CB500 Module Barrier, p ( l\ eq., which creates isolated quadrant. �l m Qi'a ( ` 14 ic) v I F, i 0- -----. 0 ISOLATED m 0 m C) QUADRANT Q 0 a • Page 2 of 4 — DN -6724 • 04/05/04 • 7 A The Face Plate c y WIRING DIAGRAMS The following wiring diagrams are provided: 1) FCM -1: Typical notification appliance circuit configuration, NFPA Style Y. 2) FCM -1: Typical fault - tolerant notification appliance circuit con- figuration, NFPA Style Z. (� NOTI � � �J i 3) FCM -1: Typical wiring for speaker supervision and switching, J NFPA Style Y. 4) FCM -1: Typical fault - tolerant wiring for speaker supervision and switching, NFPA Style Z. CAUTION - . 5) FRM -1: Relay module wiring diagram. DE- ENERGIZE UNIT PRIOR TO SERVICING / \ t: ■ Fig. 1 FCM -1: Typical notification appliance circuit configuration, NFPA Style Y. • Connect modules to Listed compatible NOTIFIER control panels only. • All wiring shown is supervised and power limited. Communication Line 32 VDC max. • Module polarities are shown in alarm. (_) Refer to panel documentation for TO Next +) MO �� type of cable required. — FROM Panel , r` CONTROL ■ • 0 ..�� (+) De MODULE 24 VDC Circuit 47K EOL ° V DO NOT LOOP wire Resistor NI ® On on terminals 3 & 4. ELR -47K Cpil a (jo 1 [ICI e - a / Break wire to provide O ( —) �[7. n 2[id�� + supervision of connections. \ / I 6 (iii 3rcl ( —) 5 0 .i �— (+) 24 VDC POWER L. O 0 9 SUPPLY '' ( +) ( +) U U • Isolated, ated, r UL listed power- limited EOL Relay • TO NEXT control module or EOL Relay. shown 1 • ONE RELAY REQUIRED for each circuit. 4-- per NFPA 70. • Listed for fire protection energized • Some control panels have the RELAY BUILT IN 4--- with battery backup. i 24 VDC coil and do not require external wiring. A77 -716B Refer to the NOTIFIER manual. ■ Fig. 2 FCM - 1: Typical fault - tolerant notification appliance circuit configuration, NFPA Style Z. • Connect modules to Listed compatible NOTIFIER control panels only. • All wiring shown is supervised and power limited. Communication Line 32 VDC max. • Module polarities are shown in alarm. (_) Refer to panel documentation for TO Next ' � type of cable required. Device + "4w" % (— FROM Panel ( +) or Previous • CONTROL • • 1 �� • Device EOL Resistor 0 I MOD U LE is internal at l 24 VDC Circuit terminals B & 9 ° , /// DO NOT LOOP wire ::: 0 / on terminals 3 & 4. 11 O, � — / Break wire to provide (_) \(_)/ [ 8 ,I1) 2 Ril ( +) (_) supervision of connections. •l s iii 3 [l i�_ ( +) 24 VDC n 5 0 4U_.1;� \--. POWER SUPPLY 0 \_____ �ooP ADDRESS 0 ( - 9 ( +) u U Power Supply: /4. • Isolated, regulated, UL listed power- limited EOL Relay • TO NEXT control module or EOL Relay. per NFPA 70. shown • ONE RELAY REQUIRED for each circuit. • Listed for fire protection I energized , • Some control panels have the RELAY BUILT IN with battery backup. d 24 VDC coil an do not require external wiring. A77 - 716B Refer to the NOTIFIER manual. DN - 6724 • 04/05/04 — Page 3 of 4 ■ Fig. 3 FCM -1: Typical wiring for speaker supervision and switching, NFPA Style Y. • Connect modules to Listed compatible Refer to panel documentation NOTIFIER control panels only. (_) Communication Line for t of cable require • TONext �� 32 VDC max. • All wiring shown is supervised. Device + - FROM Panel • Wires must be supervised per NFPA. le CONTROL • ; • I % 4. � � ( +) or Previous Device • Module polarities are shown in alarm. O MODULE d , Audio Circuit ° DO NOT LOOP wire 471< EOL I1019 0 0,11I1; - • on terminals 3 & 4. / Break wire to ensure Resistor `E018 45) 1 [ J j► ( +) • supervision of connections. ELR -47K ( -) ( -) I 'I%16 7 04 31.1 ( —) IN I6 01 w 4U_I - ( +) AUDIO AMPUFIER (. 70.7 VRMS max. / 1 � 1 °OP ° ADDRESS Use only models AA-30, o O 9 0 --► AA -100, or AA -120. ( +) ( +) up ul 4 Amplifier must provide TO Next wiring supervision per NFPA. Speaker Switching Circuit: NFPA STYLE W Control Module IF. ' . ''' Speakers must be listed for fire protection. Last module must return - Refer to the Relay Contact Rating table for maximum load, wires for supervision. 6724w+r3 wmr ■ Fig. 4 FCM - 1: Typical fault tolerant wiring for speaker supervision and switching, NFPA Style Z • Connect modules to Listed compatible NOTIFIER control panels only. • All wiring shown is supervised. Communication Line Refer to panel documentation • Wires must be supervised per NFPA. TO Next ( -) for type of cable required. • Module polarities are shown in alarm. Devi + • �� 32 VDC max. - FROM Panel ( +) or Previous • CONTROL ■ ; • 4 Device EOL Resistor is internal at terminals 8 & 9. ^ MODULE C \ Bypass Capacitors: A2143 -20, 100 pf, �f l J Audio Circuit 16 V. non - polarized, < 10 iA leakage. ° DO NOT LOOP wire m $ on terminals 3 & 4. Ic ,l 9 0 ■1� - 0 Break wire to ensure j1‘.1 8 (i 1 G p l , l� • supervision of connections. igH 1 11 7 7oa 2 ll' ( -) _ t 16 (i 31i- oI � ( +) AUDIO AMPLIFIER 1 °, s 70.7 VMS max. _ ADDRE _ L n ° Use only models M-30, _. AA -100, or AA -120. ( +) ( +) of . • + Amplifier must provide TO Next wiring supervision per NFPA. - Speaker Switching Circuit: NFPA STYLE X Control Module ,` SUPERVISION Speakers must be listed for fire protection. Last module must retum - 6724w,,4.wmi Refer to the Relay Contact Rating table for maximum load. wires for supervision. NOTE regarding AUDIO AMPLIFIER in Figures 3 & 4 above: 1) Audio circuit wiring must be twisted -pair as a minimum. See NOTIFIER installation manual for detailed information. TONext -) r, i ^ i i ^ i 1 r • i i .. -) FROM Panel Device ( + �� t` �� ( +) or Previous / % i % , % , Device 1- , I t , i, 0 % ' . —u_ -IL v n Lin RELAY 1., " . 1 Communication Line G MODULE 1 1 i 32 VDC maximum. ' D I o L, 0 ,) : :4 - 2 ) Refer to panel documentation I $ for type of cable required. RELAY COMMON 2 ® 9 0 a (_) NORMALLY CLOSED 2 ®8 11. 1 ® ( +) ' Fi 5 NORMALLY OPEN 2 ®7 - 1 2 ® ■ g' RELAY COMMON 1 ® 6 3 FRM -1: Relay module wiring diagram. NORMALLY CLOSED 1 ® 5 I ® I— 4 ® NORMALLY OPEN 1 . Connect modules to Listed LOOP ADDRESS compatible NOTIFIER control 0 ( � O O 9 panels only. • Module does NOT supervise + . . U U 6724w,S.wmr controlled circuits. Page 4 of 4 - DN -6724 • 04/05/04 i • August 23, 2004 DN -6935 • H -202 ® FSP -851 and FSP-851T • N OT I F I E R Intelligent Plug -in Photoelectric Smoke Detectors with FlashScan® Section: Intelligent/Addressable Devices GENERAL NOTIFIER 851 Series intelligent plug -in smoke detectors with U I EA integral communication provide features that surpass conven- tional detectors. Detector sensitivity can be programmed in the ® 225 -02 -E control panel software. Sensitivity is continuously monitored and reported to the panel. Point ID capability allows each detector's LISTED CS915 APPROVED address to be set with decade address switches, providing ex- (FSP - 851 A , California act detector locations for selective maintenance when cham- S1115 FSP - 851 TA) " State Fire ber contamination reaches an unacceptable level. The FSP- 0 Marshal 851 photoelectric detector's unique optical sensing chamber MARYLAND 7272 - 0028:206 is engineered to sense smoke produced by a wide range of State Fire Marshal combustion sources. Dual electronic thermistors add 135 °F Permit # 2122 BS MI (57 °C) fixed- temperature thermal sensing on the FSP -851T. FSP -851 and FSP -851T detectors are compatible with all U.S. Coast Guard Cl313066760036 NOTIFIER intelligent Fire Alarm Control Panels (FACPs). 161.002/23/3 (AFP - 200) FlashScan® (U.S. Patent 5,539,389) is a communication pro- 161.002/27/3 (AFP1010/AM2020) tocol developed by NOTIFIER Engineering that greatly en- 161.002/42/1 (NFS -640) IOy S hances the speed of communication between analog intelligent r egister devices and certain NOTIFIER systems. Intelligent devices com -,. municate in a grouped fashion. If one of the devices within the group has new information, t he panel's CPU stops the group TVPE 9 p P P 9 P r APPROVED poll and concentrates on single points. The net effect is response speed greater than five times that of earlier designs. 03/60011 FEATURES . • Sleek, low - profile design. • Addressable - analog communication. 6934phOi.f 9 • Stable communication technique with noise immunity. FSP - 851 with • Low standby current. • Two -wire SLC connection. B710LP base • FlashScan® (NFS -640, NFS -3030, AFC -600) and classic CLIP system (AFP -100, AF P-200, AFP -300, AFP -400, AFC -600, NFS- 6935a,°, roy • .. 640, AFP1010, AM2020, and NFS -3030) compatible. FSP - 851T with • • Rotary, decimal addressing (1 — 99 on current classic sys- B710LP base tems, 1 — 159 on FlashScan® systems). • Optional remote, single -gang LED accessory (RA400Z). Operating temperature: FSP-851: to 49 °C (32 °F to 120 °F); • Dual LED design provides 360° viewing angle. FSP -851T 0 °C to 38 °C (32 °F to 100 °F). Low - temperature sig- • Visible bicolor LEDs blink green every time the detector is nal for FSP -851T at 45 °F +1— 10 °F (7.22 °C +1— 5.54 °C). addressed, and illuminate steady red on alarm. UL- Listed velocity range: 0 — 4000 ft. /min. (1219.2 m /min.), • Remote test feature from the panel. suitable for installation in ducts. • Walk test with address display (an address of 121 will blink Relative humidity: 10% — 93% noncondensing. the detector LED: 12- (pause) -1) (FlashScan® systems only). Thermal ratings: fixed- temperature setpoint 135 °F (57 °C). • Built -in functional test switch activated by external magnet. DETECTOR SPACING and APPLICATIONS: • Built -in tamper - resistant feature. NOTIFIER recommends spacing detectors in compliance with • Sealed against back pressure. NFPA 72. In low airflow applications with smooth ceilings, space • Constructed of off -white Bayblend ®, designed to commer- detectors 30 feet (9.144 m) for ceiling heights 10 feet (3.048 m) cial standards, and offers an attractive appearance. and higher. For specific information regarding detector spacing, • 94 -5V plastic flammability rating. placement, and special applications, refer to NFPA 72. System • SEMS screws for wiring of the separate base. Smoke DetectorApplication Guide, document A05 -1003, is avail- • Optional relay, isolator, or sounder bases. able at systemsensor.com. • listed to UL 2° FSP -851 and FSP -851T are Listed for use in ducts, but they are NOT Listed for use inside duct smoke detector housings. • Backward - compatible. See Duct Application Smoke Detectors Guide, document A05- SPECIFICATIONS 1004, available at systemsensor.com, for details on pendant - mount applications. Size: 2.1" (5.3 cm) high x 4.1" (10.4 cm) diameter installed in B501 base, 6.1" (15.5 cm) diameter installed in B710LP base. FlashScan® is a registered trademark of NOTIFIER. Shipping weight: 5.2 oz. (147 g). Bayblend® is a registered trademark of Bayer Corporation. This document is to be Honeywell company. 1S0 �oo� This document s not intended to be used for installation purposes. We try to keep our product information up -to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. C E R T 1 F a E O For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 EIYIIIEEIIIi 11MIINUE CNIIIIR 0 NOTI F I R ' 12 Clintonville Road, Northford, Connecticut 06472 QUALITY SYSTEMS DN -6935 • 08/23/04 — Page 1 of 2 ELECTRICAL SPECIFICATIONS: B501A: Standard European flangeless base, ULC Listing. Voltage range: 15 - 32 volts DC peak. B501 BH(A): Sounder base, includes B501(A) base above. Standby current (max. avg.): 250 pA @ 24 VDC (with no com- 8501 BHT(A): Same as 8501 BH(A), but includes temporal munication enabled); 360 pA @ 24 VDC (one communication sounder. every 5 seconds with LED enabled). B224RB(A): Intelligent relay base. LED current (max.): 6.5 mA @ 24 VDC ( "ON "). B224BI(A): Intelligent isolator base. Isolates SLC from loop BASES AVAILABLE: shorts. B710LP: 6.1" (15.5 cm) diameter. Accessories: B501: 4.1" (10.4 cm) diameter. F110: Retrofit replacement flange for BX -501 base. Converts 8501 BH or 8501 BHT: Sounder base assembly. Includes B501 BX -501 base for use with FlashScan® detectors. base. RA400Z(A): Remote LED annunciator. 3 - 32 VDC. Fits U.S. B224RB Relay Base: Screw terminals: up to 14 AWG (2.0 single -gang electrical box. Supported by B710LP(A) and mm Relay type: Form - Rating: 2.0 A @ 30 VDC resis 8501(A) bases only. tive; 0.3 A @ 110 VDC inductive; 1.0 A @ 30 VDC inductive. SMK400: Surface mounting kit provides for entry of surface Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). wiring conduit. For use with B501(A) base only. B224BI Isolator Base: Dimensions: 6.2" (15.748 cm) x 1.2" RMK400: Recessed mounting kit. For use with 8501(A) base (3.048 cm). Maximum: 25 devices between isolator bases. only. INSTALLATION SMB600: Surface mounting kit for use with B710LP(A). FSP -851 plug -in detectors use a separate base to simplify in- BCK -200B: Black detector covers, box of 10. stallation, service, and maintenance. A special tool allows main- MO2 -04 -01: Test magnet. tenance personnel to plug in and remove detectors without us- MO2 -09 -00: Test magnet with telescope stick. ing a ladder. XR2B: Detector removal tool. Allows installation and /or removal Mount base on an electrical backbox which is at least 1.5" (3.81 of FlashScan® Series detector heads from base in high ceiling cm) deep. Suitable mounting base boxes include: installations. • 4.0" (10.16 cm) square box. T55- 127 -000: Detector removal tool without pole. • 3.5" (8.89 cm) or 4.0" (10.16 cm) octagonal box. XP-4: Extension pole for XR2B. Comes in three 5 -ft. sections. • Single -gang box (except relay or isolator base). Detector Guards: • With 85018H or B5018HT base, use a 4.0" (10.16 cm) NOTE: Some guards listed below may not be applicable foFSP models. square box. SDG - 773: Smoke detector guard; cover is 7.0" (17.78 cm) • With B224RB or 822481 base, use a 3.5" (8.89 cm) octago square x 3.0" (7.62 cm) deep. This guard is mechanically corn - nal box, or a 4.0" (10.16 cm) octagonal or square box. patible with FSP -751. If is UL- compatibility listed with the FSP - NOTES: 1) Because of the inherent supervision provided by the 851 (file UL S5515). SLC loop, end - of - line resistors are not required. Wiring "T - taps" STI 9601: Low - profile, flush - mount smoke detector guard, wire." or branches are permitted for Style 4 (Class "B") wiring. 2) When using relay or sounder bases, consult data sheet DN - 2243 STI 9602: Low - profile, surface - mount, smoke detector guard, (ISO - X) for device limitations between isolator modules and isola wire.' for bases. STI 9609: High - profile, flush - mount, smoke detector guard, wire." PRODUCT LINE INFORMATION STI 9605: High - profile, surface - mount, smoke detector guard, wire.' NOTE: "A" suffix indicates ULC Listed model. STI 9604: Flush -mount heat detector guard, wire." FSP -851: Low - profile intelligent photoelectric sensor. Must be STI 9610: Surface -mount heat detector guard, wire." mounted to one of the bases listed below. `For dimensions and additional information on STI Steel Web Stop - FSP-851A: Same as FSP -851 but with ULC Listing. pers, see data sheet DN - 4936. FSP -851T: Same as FSP -851 but includes a built -in 135 °F STI - 8200 -SS: Flush -mount stainless steel smoke detector guard (57 °C) fixed- temperature thermal device. (compatibility pending). FSP- 851TA: Same as FSP -851T but with ULC Listing. STI - 8230 -SS: Surface -mount stainless steel smoke detector Bases: guard (compatibility pending). B710LPBP: Standard U.S. low - profile base, pkg. of 10. B710LPA: Standard U.S. low - profile base, ULC Listing. B501BP: Standard European flangeless base, pkg. of 10. REMOTE ANNUNCIATOR WIRING DIAGRAM • 6833addcwml Listed c J Compatible i 1 5 9 19 g 9 CONTROL t �� 1 � 2 6 T PANEL : =Moo a 1 A A \\ vl 1♦1 i \ 2 ply 3 1 0 ‘ • �J ■ address dial on back of detector _ i OPTIONAL RETURN LOOP Page 2 of 2 - DN -6935 • 08/23/04 • August 23, 2004 DN -6936 • H -211 FST -851 Series N OT 1 F 1 E R Intelligent Thermal (Heat) Detectors with FlashScan® Section: Intelligent/Addressable Devices GENERAL NOTIFIER 851 Series intelligent plug -in smoke detectors with integral communication provide features that surpass conven- ®L 1 MEA 383 -02 -E tional detectors. Detector sensitivity can be programmed in APPROVED the control panel software. Sensitivity is continuously moni- LISTED CS630 tored and reported to the panel. Point ID capability allows each (ML255) T1 California detector's address to be set with decade address switches, S747 (FST -851A, \ State Fire providing exact detector locations for selective maintenance FST-851HA, Marshal when chamber contamination reaches an unacceptable level. FST -851RA ) FST Series thermal detectors use an innovative thermistor jag 7270- 0028:196 sensing circuit to produce 135 °F /57 °C fixed- temperature (FST- U.S. Coast Guard 851) and rate -of -rise thermal detection (FST-851R) in a low- 161.002/23/3 (AFP -200) ACV s profile package. FST -851 H provides fixed high- temperature de- 161.002/27/3 (AFP1010/AM2020) l ulst tection at 190 °F /88 °C. These thermal detectors provide cost 161.002/42/1 (NFS -640) effective, intelligent property protection in a variety of applica- BS M' tions. FST -851 Series detectors are compatible with all TYPE NOTIFIER intelligent Fire Alarm Control Panels (FACPs). 01313066760025 u" FlashScan® (U.S. Patent 5,539,389) is a communication pro- 03/60011 tocol developed by NOTIFIER Engineering that greatly en- hances the speed of communication between analog intelli -. gent devices and certain NOTIFIER systems. Intelligent de- vices communicate in a grouped fashion. If one of the devices within the group has new information, the panel's CPU stops the group poll and concentrates on single points. The net effect is ; lY30otwt.lpo response speed greater than five times that of earlier designs. ; r FEATURES • Sleek, low - profile, stylish design. FST - 851 in B701LP base • State -of- the -art thermistor technology for fast response. • Rate -of -rise model (FST-851R). 15 °F (8.3 °C) per minute. • Plugs into separate base for ease of installation and main- • Factory preset at 135 °F (57 °C); high- temperature model at tenance. Separate base allows interchange of photoelec- 190°F (88 °C). tric, ionization and thermal sensors. • Addressable by device. • SEMS screws for wiring of the separate base. • FlashScan® (NFS -640, NFS -3030, AFC -600) and classic CLIP • Constructed of off -white Bayblend ®, designed to commer- system (AFP -100, AFP -200, AFP -300, AFP -400, AFC -600, cial standards, and offers an attractive appearance. NFS -640, AFP1010, AM2020, and NFS -3030) compatible. • 94 -5V plastic flammability rating. • Rotary, decimal addressing (1 — 99 on current classic sys- • Remote LED output connection to optional RA400Z remote tems, 1 — 159 on FlashScan® systems). LED annunciator. • Two -wire SLC connection. • Optional sounder, relay, and isolator bases. • Visible LEDs "blink" every time the unit is addressed. • Optional recessed (RMK400) or surface (SMK400) base • 360 ° -field viewing angle of the visual alarm indicators (two mounting kits. bicolor LEDs). LEDs blink green in Normal condition and SPECIFICATIONS turn on steady red in Alarm. • Integral communications and built -in device -type identification. Size: 2.1" (5.3 cm) high x 4.1" (10.4 cm) diameter installed in • Remote test feature from the panel. B501 base, 6.1" (15.5 cm) diameter installed in B710LP base. • Built -in functional test switch activated by external magnet. Shipping weight: 4.8 oz. (137 g). • Walk test with address display (an address of 121 will blink Operating temperature range: FST -851, FST -851R: —20 °C the detector test h address 12-(pause)-1). s display to 38 °C (-4 °F to 100 °F); FST - 851H: —20 °C to 66 °C ( -4°F to 150 °F). • Low standby current. Detector spacing: UL approved for 50 ft. (15.24 m) center to • Listed to UL 521. center. FM approved for 25 x 25 ft. (7.62 x 7.62 m) spacing. • Backward - compatible. Relative humidity: 10% — 93% noncondensing. • Built -in tamper- resistant feature. Thermal ratings: fixed- temperature setpoint 135 °F (57 °C), • Designed for direct - surface or electrical -box mounting. rate -of -rise detection 15 °F (8.3 °C) per minute, high tempera- • Sealed against back pressure. ture heat 190 °F (88 °C). FlashScan® is a registered trademark of NOTIFIER. Bayblend® is a registered trademark of Bayer Corporation. Ten a Honeywell company. 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. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. C E R - I F I E El For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 EKREN M I MANUFACEINNS 0 N OT I F I ER' 12 Clintonville Road, Northford, Connecticut 06472 QUALITY SYSTEMS DN -6936 • 08/23/04 — Page 1 of 2 ELECTRICAL SPECIFICATIONS: FST -851 H: Intelligent high - temperature thermal detector. Voltage range: 15 - 32 volts DC peak. FST -851 HA: Same as FST -851 H but with ULC Listing. Standby current (max. avg.): 200 pA @ 24 VDC (without com- Bases: munication); 300 pA @ 24 VDC (one communication every 5 B710LPBP: Standard U.S. low - profile base, pkg. of 10. seconds with LED enabled). B710LPA: Standard U.S. low - profile base, ULC Listing. LED current (max.): 6.5 mA @ 24 VDC ( "ON "). BASES AVAILABLE: B501BP: Standard European flangeless base, pkg. of 10. B710LP: 6.1" (15.5 cm) diameter. B501A: Standard European flangeless base, ULC Listing. B501: 4.1" (10.4 cm) diameter. B501 BH(A): Sounder base, includes B501(A) base above. B501 BH or 8501 BHT: Sounder base assembly. Includes B501 8501 BHT(A): Same as 8501 BH(A), but includes temporal base. sounder. B224RB Relay Base: Screw terminals: up to 14 AWG (2.0 B224RB(A): Intelligent relay base. mm Relay type: Form -C. Rating: 2.0 A @ 30 VDC resis- B224BI(A): Intelligent isolator base. Isolates SLC from loop tive; 0.3 A @ 110 VDC inductive; 1.0 A @ 30 VDC inductive. shorts. Dimensions: 6.2" (15.748 cm) x 1.2" (3.048 cm). Accessories: 822481 Isolator Base: Dimensions: 6.2" (15.748 cm) x 1.2" F110: Retrofit replacement flange for BX -501 base. Converts (15.748 cm). Maximum: 25 devices between isolator bases. BX -501 base for use with FlashScan® detectors. See Note 2 under Installation. RA400Z(A): Remote LED annunciator. 3 - 32 VDC. Fits U.S. APPLICATIONS single -gang electrical box. Supported by 8710LP(A) and Use thermal detectors for protection of property. For further 8501(A) bases only. information, go to systemsensor.com for manual 156- 407 -00, SMK400: Surface mounting kit provides for entry of surface Applications Manual for System Smoke Detectors, which pro wiring conduit. For use with B501(A) base only. vides detailed information on detector spacing, placement, RMK400: Recessed mounting kit. For use with 8501(A) base zoning, wiring, and special applications. only. INSTALLATION SMB600: Surface mounting kit for use with B710LP(A). The FST Series plug -in intelligent thermal detector uses a sepa- BCK-200B: Black detector covers, box of 10. rate base to simplify installation, service, and maintenance. MO2- 04 -01: Test magnet. Installation instructions are shipped with each detector. MO2- 09 -00: Test magnet with telescope stick. Mount base (all base types) on an electrical backbox which is XR2B: Detector removal tool. Allows installation and /or removal at least 1.5" (3.81 cm) deep. Suitable boxes include: of FlashScan® Series detector heads from base in high ceil- • 4.0" (10.16 cm) square box. ing installations. • 3.5" (8.89 cm) or 4.0" (10.16 cm) octagonal box. T55- 127 -000: Detector removal tool without pole. • Single -gang box (except relay or isolator base). XP-4: Extension pole for XR2B. Comes in three 5-ft. sections. • With B501BH or B501BHT base, use a 4.0" (10.16 cm) Detector Guards: - square box. NOTE: Some guards listed below may not be applicable to FST Series. • With B224RB or B224B1 base, use a 3.5" (8.89 cm) or 4.0" STI 9601: Low - profile, flush -mount smoke detector guard, wire.* (10.16 cm) octagonal box, or a 4.0" (10.16 cm) square box. STI 9602: Low - profile, surface - mount, smoke detector guard, - NOTES: 1) Because of the inherent supervision provided by the wire." SLC loop, end - of - line resistors are not required. Wring "T - taps" STI 9609: High - profile, flush - mount, smoke detector guard, wire." or branches are permitted for Style 4 (Class "B") wiring. 2) When using relay or sounder bases, consult data sheet DN - 2243 STI 9605: High - profile, surface - mount, smoke detector guard, (ISO - X) for device limitations between isolator modules and isola wire.' for bases. STI 9604: Flush -mount heat detector guard, wire.* PRODUCT LINE INFORMATION STI 9610: Surface -mount heat detector guard, wire.* 'For dimensions and additional information on STI Steel Web Stop - NOTE: "A" suffix indicates ULC Listed model. pers, see data sheet DN -4936. FST -851: Intelligent thermal detector. Must be mounted to one STI- 8200 -SS: Flush -mount stainless steel smoke detector of the bases listed below. guard (compatibility pending). FST -851A: Same as FST -851 but with ULC Listing. STI-8230-SS: Surface -mount stainless steel smoke detector FST -851 R: Intelligent thermal detector with rate -of -rise feature. guard (compatibility pending). FST -851 RA: Same as FST -851 R but with ULC Listing. REMOTE ANNUNCIATOR WIRING DIAGRAM + 1.1 - 6833addr.wml + / I I �6 g9 r 5 135 C pkvilt ti, - ..01' 6 1) N7. ti, 3 ,O , ' 5 A A 3 �� Panel � ~ � � � �� • ■ address dial on - / � back of detector + sr §1 opr14NBLWIRINO_ _ _ _ _ - 4 v�� 6714w,,2.til Page 2 of 2 - DN -6936 • 08/23/04 t • Y June 5, 2001 DN -6821 • H -215 N OT I F , E R® FSD -751 P and FSD -751 RP . ® Intelligent Photoelectric Duct Smoke Detectors with FlashScan® Section: Intelligent Addressable Devices GENERAL M EA An HVAC system supplies conditioned air to virtually every area U. 143 -00 -E of a building. Smoke introduced Into this air duct system is thus L (FSD 751 P) distributed to the entire building. Smoke detectors for use in air duct systems sense the presence of smoke in the duct. 389 -00 -E Approved The FSD -751 P air duct smoke detector is a photoelectric detector, LISTED CS308 (FSD- 751RP) FSD -751 PA, combining this detection technology with an efficient housing S1115 FSD- 751RPA) MARYLAND design that samples air passing through the duct, allowing deter- State Fire Marshal tion of a developing hazardous condition. When sufficient smoke California is sensed, an alarm signal is initiated at the fire control panel State Fire Permit #2036 (FSD -751P) monitoring the detector, and appropriate action can be taken to 0 Marshal Permit #2060 (FSD-751RP) shut off fans and blowers and change over air handling sys- t i 3240 - 0028:205 tems, etc. This can isolate toxic smoke and fire gases or prevent 4\ `� their distribution throughout the areas served by the duct system. � Two LEDs on each detector can be programmed by the system .\ ro: control panel to provide a local alarm indication. A remote alarm output is provided for use with auxiliary devices. The FSD -751 P Q>♦ has remote test capability with the RTS451 /RTS451 KEY Remote Test Station. 8821oov.wmf Traditional panels support addresses of 0 —99. The FlashScan® J-----------A"\-1 protocol supports addresses of 0 —159. Patented FlashScan® local visible indication. Remote LED annunciator capability is avail - is a new communication protocol developed by NOTIFIER Engi- able as an option. Each duct smoke detector can only be wired to neering that greatly enhances the speed of communication be- one remote accessory. tween analog intelligent devices. Intelligent devices communi- NOTIFIER panels offer different feature sets across different cafe in a grouped fashion. If one of the devices within the group panel models. As a result, certain features of the FSD -751 P/ has new information, the panel stops the group poll and cancan- FSD -751 RP may be available on some control panels, but not on crates on single points. The net effect is response speed greater others. Possible features, if supported by the control panel are: than five times that of earlier designs. • Panel controls the LED operation on sensor. Operational modes APPLICATIONS are: RED blink, RED continuous, GREEN blink, GREEN continu- Duct smoke detectors have specific limitations. ous, and OFF. Duct smoke detectors are: SPECIFICATIONS • NOT a substitute for open area smoke detectors. FSD - 751 P • NOT a substitute for early warning detection. Operating voltage range: 15 to 32 VDC. • NOT a replacement for a building's regular fire detection sys- Standby current: 300 pA © 24 VDC (one communication tem. 5 seconds with LED blink enabled). Call NOTIFIER for a copy of System Sensor's application guide, Operating temperature range: 32° to 131°F (0° to 55 °C). Proper Use of Smoke Detectors in Duct Applications, (A05- Humidity range: 10% to 93% (non - condensing). 1004-00). Duct air velocity: 500 to 4,000 feet/min. (152.4 to 1219.2 meters/ INSTALLATION min.). Wiring: For signal wiring (the wiring between detectors or Dimensions: 14.375" (365.125 mm) wide x 5.500" (13.970 mm) from detectors to auxiliary devices), it is recommended that single high x 2.750" (69.850 mm) deep. conductor wire be no smaller than 18 AWG (0.75 mm The duct Options: RTS-451, RTS-451 KEY, RA400Z. Separate auxiliary smoke detector terminals accommodate wire sizes up to 12 AWG power not required. (3.25 mm Flexible conduit is recommended for the last foot FSD-751RP (30.48 cm) of conduit; solid conduit connections may be used if Operating voltage range: 15 to 32 VDC (comm. line voltage) desired. and 24 VACNDC or 120/240 VAC auxiliary power' (separate Smoke detectors and alarm system control panels have specifi- source). 'NOTE: The FSD-751RP requires a separate auxil- cations for Signaling Line Circuit (SLC) wiring. Consult the con- iary source. trol panel specifications for wiring requirements before wiring Standby current: 300 pA @ 24 VDC (one communication every the detector loop. The FSD -751 P /FSD -751 RP detector is de- 5 seconds with LED blink enabled). signed for ease of wiring; the housing provides a terminal strip Auxiliary power current draw (Cg 24 VDC): 26 mA (standby), with clamping plates. 87 mA (alarm). LED Features: If programmed with the system control Options: RTS-451, RTS- 451KEY, RA400Z,APA451. panel, two LEDs on each duct smoke detector light to provide FlashScan® is a registered trademark of NOTIFIER. This document is not Intended to be used for installation purposes. We try to keep our ISO 9001 product Information up-to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484-7118 C E R T o w I E 0 N OTI Fl E re 12 Clintonville Road, Northford, Connecticut 06472 SGNEBINi a MINIFACTIIINi DN -6821 • 06/05/01 — Page 1 of 2 - Operating temperature range: 32° to 131 °F (0° to 55 °C). PRODUCT LINE INFORMATION Humidity range: 10% to 93% (non - condensing). Model Description Duct air velocity: 500 to 4,000 feet/min. (152.4 to 1219.2 meters/ FSD -751 P Duct detector housing with FlashScan® photoelea min.). tric smoke detector. Dimensions: 14.375" (365.125 mm) wide x 5.500" (13.970 mm) FSD -751RP Duct detector housing with FlashScan® photoelea high x 2.750" (69.850 mm) deep. tic smoke detector, DPDT relay. Relay contact ratings: 2 Form -C, DPDT, 10 A @ 250 VAC, 10 A @ 30 VDC (resistive). Minimum switching current of 100 mA @ ST -1.5 Metal sampling tube, duct widths 1' to 2' (see table 5 VDC. at left for metric lengths). Programming specifications /requirements ST-3 Metal sampling tube, duct widths 2' to 4'. for intelligent system control panels: ST-0 Metal sampling tube, duct widths 4' to 8'. The number of devices that can have their LEDs programmed to ST -10 Metal sampling tube, duct widths 8' to 12'. illuminate is limited by the features of the panel and the individual RA400Z Remote annunciator alarm LED. devices. The actual number of devices is determined by the control panel and its ability to supply LED current. Refer to the RTS451 Remote test station. Mounts in single -gang box. control panel installation manual for details. Includes red alarm LED and magnet test switch. INLET TUBE SELECTION RTS451KEY Key - activated remote test station. e8211ni,.,bi F36 -09 -00 Replacement filters. Outside Duct Width Inlet Tube* MO2 -04 -00 Replacement test magnet. S08 -39 -01 Replacement photo insect screen. Up to 2 feet (0.6096 m) ST -1.5 P48-55 -00 Replacement end cap for plastic sampling tube. 2 to 4 feet (0.6096 to 1.2192 m) ST -3 P48 -21 -00 Replacement end cap for metal sampling tube. 4 to 8 feet (1.2192 to 2.4384 m) ST -5 A5053FS Replacement photoelectric sensor board. 8 to 12 feet (2.4384 to 3.6576 m) ST-10 A5067 Replacement power board (without relay). 'NOTE: Inlet tube is required and must be purchased separately. A5060 Replacement power board (with relay). Order one inlet tube for each duct smoke detector ordered. SAMPLE WIRING DIAGRAMS See product Installationlntructlons for wiring diagrams for the FSD -751 RP. :0 COMMUNICATION 8 8 z 2 ' LINE 0 c '4 ‘1 , �+ C aC C� :) Ca ll l c�mgININr , i _ I� _ � .,� - -- 1 st Detector 2nd Detector X • - in Loop in Loop i UL Listed Control Panel �/ 88 21w1r1.wm1 _ ........._._._._........_. __.._...__ The RA400Z Z ■ FSD -751 P Duct Smoke Detector o using a UL Listed control panel Q . 8 ee21wir2.wmf reisotT FSD -751 N O: 'i IF RA400Z Detector ., A FSD -751P Duct • Smoke Detector l Terminals / I with optional / 1 RA400Z " 1 w The RTS451 Z w 4 M a o Q 8821wU3 A FSD-751P Duct ® 12 °C V 8 V • Smoke Detector •r . ' • COMMON TEST with RTS451/ • FSD -751P � fi NF 110 4 * RTS451KEY Detector Terminals RI /— Field- Installed NOTE: For RTS451, 111 JUMPER Terminal 3 is not used. RTS451 does not have ® T / \ 2 r a Terminal 6. 8 LED 1 RESET For RTS451KEY, Ter- r / minals 3 and 6 are not m ` 1 RTS451 /RTS451KEY used The RTS451KEY Page 2 of 2 — DN -6821 • 06/05/01 June 15, 2004 DN -6941 • J -80 ® SpectrAlert® • N OT I F I E 1� Selectable Output Strobes and Horn /Strobes Section: Audio/Visual Devices GENERAL ,- California The System Sensor SpectrAlert® Selectable Output State Fire Strobes and Horn/Strobes offer enhanced features that ` 'Marshal include the widest range of candela options available and ` rw•., '' 7125- 1209:223 the ability to recognize and self adjust for either 12- or 24- C5549 4` t 7125- 1209:222 volt operation. LISTED C5548 Performance. SpectrAlert® selectable - candela wall- S4011 mount strobes and horn /strobes offer key performance fea- S5512 M EA tures associated with the SpectrAlert® name. The select- able- candela strobes and horn /strobes offer average cur- 126 -02 -E rent draws that are not only lower than conventional fixed- 122 -02 -E APPROVED candela SpectrAlert products, but also lower than similar selectable - candela products. By consuming less current, ■ F r E it is possible to connect even more devices per loop, re- [� suiting in a lower installed cost. _ Installation. SpectrAlert® selectable - candela strobes . , f j and horn /strobes offer the installation - friendly features of s __r ` the line, such as the option of 2- and 4 -wire operation; the ......... ability to use standard -sized backboxes with no encroach- `__ ` ment into the box; and universal mounting incorporating r the labor- saving QuickClickTM' feature. Such labor - saving r features make wire connections simple and fast, further / VIEWIN t y WINDOW e341daiwn reducing installed cost. Flexibility. SpectrAlert® multi - candela strobes and horn/ F For strobe candela se- � '' lection, adjust slide strobes offer the broadest range of candela options. In ad- 1 switch located on the dition, the selectable - candela strobes and horn /strobes \,'.. °,� can operate on either 12 or 24 volts with no adjustment � � required — the device recognizes and self- adjusts to the correct operating voltage automatically. Temporal 3 or con- S1224MC tinuous tone options continue to be available, in either an w/5mall Footprint electromechanical or 3 kHz pattern. Mounting Plata (s -MP) Aesthetics. SpectrAlert® selectable - candela strobes and horn /strobes incorporate the same stylish, low profile de- ;,„ sign of the conventional SpectrAlert® products, for a con- ;3 sistent and aesthetically pleasing appearance across the F 1 RE entire product line. ,. FEATURES 5 — ` • Widest range of candela options: 12 V: 15 and 15/75 candela. 24 V: 15, 15/75, 30, 75, 110 candela. H12/24 _ ""r. t,, w /U Mounting • Operates on either 12 V or 24 V. Plata (0-MP) • Easy candela selection with side viewing window. , , . • Lower current draw. ; j • Field- selectable horn tones (horn only offered): — Electromechanical / 3 kHz. — Temporal 3 / Non - Temporal 3. P1224MC — High /Low dBA output. w/Univeraal Mounting • Easy DIP switch selection for horn options. Plate (D-MP) • Easy mounting with QuickClickt*t. • Synchronizable with MDL Sync•CircuitTM module or SpectrAlert®, Sync•Clrcuitna, and QuickCllckTM equipment with SpectrAlert® Sync Protocol. are trademarks of System Sensor. • Meets UL 1971, NFPA 72, and ADA signaling require - This NOTIFIER® document i is Honeywell company. '�O 9001 This document s not intended to be used for installation purposes. We try to keep our product information up -to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. C E R T I F 1 E Co For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 i MAtiIMCTMI111 0 N OT I Fl E R' 12 Clintonville Road, Northford, Connecticut 06472 QUALITY S Y S T E M S DN -6941 • 06/15/04 — Page 1 of 3 ments. • Indoor models: UL, ULC, FM, CSFM, MEA. ate on 12 or 24 volts. 12 -volt rated devices shall have an Outdoor models: UL, CSFM (strobe only), MEA, ULC. operating voltage range of 9 - 17.5 volts. 24 -volt rated de- SPECIFICATIONS vices shall have an operating voltage range of 17 -33 volts. SpectrAlert® products shall have an indoor operating tem- Walk test: SpectrAlert® hom /strobe and horn only work perature range of 32 °F to 120 °F (0 °C to 49 °C) and operate on "walk tests" with time durations of 4 seconds or from a regulated DC or full -wave rectified, unfiltered power greater. supply. Input terminals: 12 to 18 AWG (3.25 mm to 0.51 mm=). Strobe - Strobe shall be a System Sensor SpectrAlert® Dimensions, strobe and horn /strobe with universal plate: model Listed to UL 1971 and be approved for 5" (12.7 cm) wide x 5.625" (14.288 cm) high x 2.938" (7.461 fire protective service. The strobe shall be wired as a pri- cm) deep; with small footprint plate: 3.375" (8.573 cm) mary signaling notification appliance and comply with the wide x 5.625" (14.288 cm) high x 2.938" (7.461 cm) deep. Americans with Disabilities Act requirements for visible signaling appliances, flashing at 1 Hz over the strobe's Weight, strobe and horn /strobe: 8.8 oz. (250 g). entire operating voltage range. The strobe light shall con - Mounting: standard boxes 4" x 4" x 1.5" deep (10.16 x 10.16 sist of a xenon flash tube and associated lens /reflector sys- x 3.81 cm) or 2" x 4" x 1.875" deep (5.08 x 10.16 x 4.763 tem. cm). Horn /Strobe Combination - Horn /strobe shall be a Sys - Operating temperature, indoor: 32 °F to 120 °F (0 ° C to tem Sensor SpectrAlert® model Listed to UL 49 °C), outdoor: Weatherproof Horn /Strobe 32 °F to 150 °F 1971 and UL 464 and shall be approved for fire protective (0 °C to 66 °C), Strobe -40 °F to 158 °F (-40 °C to 70 °C), ULC service. Horn /strobe shall be wired as a primary signaling Canadian strobe model -40 °C to 66 °C. notification appliance and comply with the Americans with Maximum humidity: 95% as tested per UL 464. Disabilities Act requirements for visible signaling appli- Voltages: 12 or 24 VDC and FWR unfiltered. ances, flashing at 1 Hz over the strobe's entire operating voltage range. The strobe light shall consist of a xenon Operating voltage range':12V 8 - 17.5 V. flash tube and associated lens /reflector system. The horn 24V: 16 - 33 V. With Sync- CircuitTM module MDL * :12V: 9 shall have two tone options, two audibility options (at 24 - 17.5 V. 24V:17 - 33 V. See current draw tables on pages volts) and the option to switch between a temporal 3 pat - 3 and 4. tern and a non - temporal continuous pattern. Strobes shall *Note for Strobe: Do not exceed; 1)16 -33 or 8 -17.5 voltage be powered independently of the sounder with the removal range limit; 2) maximum number of 70 strobe lights when of factory- installed jumper wires. The horn on horn /strobe connecting the MDL Sync Module with a maximum line models shall operate on a coded or non -coded power impedance of 4 ohms per loop and; 3) maximum line im- supply (the strobe must be powered continuously). pedance as reqired by the fire alarm control manufacturer. Synchronization Module - Module shall be a System U.S. Patent Numbers: 5,593,569. 5,914,665. 6,049,446. Sensor Sync•CircuitT" model Listed to UL 464 and shall be approved for fire protective service. The mod- - ENGINEERING SPECIFICATIONS ule shall synchronize SpectrAlert® strobes at 1 Hz and General - SpectrAlert® horns, strobes and horn /strobes horns at temporal 3. Also, the module shall silence the • shall be capable of mounting to a standard 4" x 4" x 1.5" horns on horn /strobe models, while operating the strobes, (10.16 x 10.16 x 3.81 cm) backbox or a single -gang 2" x 4" over a single pair of wires. The module shall be capable x 1.875" (5.08 x 10.16 x 4.763 cm) backbox using the uni- of mounting to a 4.688" (11.906 cm) square x 2.125" (5.398 versa) mounting plate included with each SpectrAlert® prod- cm) deep backbox and shall control two Style Y (Class B) uct. Also, SpectrAlert® products, when used in conjunc- or one Style Z (Class A) circuit. Module shall be capable of tion with the accessory Sync•Circuitn Module, shall be multiple zone synchronization by daisy- chaining multiple powered from a non -coded power supply and shall oper- modules together and resynchronizing each other along the chain. The module shall NOT operate on a coded power supply. SpectrAlert Current Draw FWR Operating DC Operating FWR Operating DC Operating Horn Candela Audibility 12V 24V 12V 24V 12V 24V 12V 24V Series Setting (dBA) S1224MC 15 112 64 127 59 Strobes 15/75 135 74 127 69 30 riT 93 t z„_ . 90 75 r 158 t 160 110 „�ti 208 209 P1224MC 15 112 64 127 59 45.7 57.5 44.4 57 75 Horn /Strobes 15/75 135 74 127 69 45.7 57.5 44.4 57 75 30 4,1,,/ 93 :. 90 L 57 5 y 57 75 75 d :;" - .77 11 158 w 160 57 5 57 75 110 ,;y 208 , 209 L L , ;, 57 5 ': 57 75 'Jr H12/24 Horns 7 � d 45.7 57.5 44.4 57 75 a Page 2 of 3 - DN -6941 • 06/15/04 • SpectrAlert Ordering Information Horn/Strobes, Strobes and Horns Accessories Model Description Model Description P1224MC Selectable Output Horn/Strobe, 12/24 volt, red MDL Sync•Circuit Module, red P1224MCW Selectable Output Horn/Strobe, 12/24 volt, white MDLW Sync•Circuit Module, white Selectable Output Horn/Strobe, 12/24 wit, red, P1224MCP plain housing MDLA Sync•Circuit Module, red, Canadian model Selectable Output Horn/Strobe, 12/24 volt, white, Sync•Circuit Module, white, Canadian P1224MCPW plain housing MDLWA model Selectable Output Horn/Strobe, 12/24 volt, red, Small Footprint Mounting Plate, red, for P1224MCK weatherproof S -MP single -gang back box Selectable Output Horn/Strobe, 12/24 volt, red, Small Footprint Mounting Plate, white, for P1224MCSP "FUEGO" housing S -MPW singiegang back box S1224MC Selectable Output Strobe, 12/24 volt, red BBS Surface Mount Back Box Skirt, red S1224MCW Selectable Output Strobe, 12/24 volt, white BBSW Surface Mount Back Box Skirt, white Selectable Output Strobe, 12/24 volt, red, plain S1224MCP housing D-MP Universal Mounting Plate (replacement), red Selectable Output Strobe, 12/24 volt, white, plain Universal Mounting Plate (replacement), S1224MCPW housing D -MPW white Selectable Output Strobe, 12/24 wit, red, S1224MCK weatherproof WBB Weatherproof Back Box Selectable Output Strobe, 12/24 vo lt, red, , � S1224MCSP "FUEGO "housing � t Rt a 2 H12/24 Horn, 12/24 volt, red , � A '' H12/24W Horn, 12/24 wit, white i ^"` ... 4 Notes Agency Listings - Indoor models: UL, ULC, FM, CSFM, MEA. Weatherproof models: UL, CSFM (strobe only), MEA, ULC. All of these SpectrAlert products are designed for wall mount only. All weatherproof models must use weatherproof back box model WBB. Installation of less than 75 candela strobes may be permissible under the equivalent facilitation clause of the ADAAG (Sec. 2.2). However, it is the responsibility of the person or entity designing the fire alarm system to determine the acceptability of less than 75 candela strobes. All 15/75 candela strobes or horn/ strobes are recommended for 20' x 20' rooms or less. TOWS! rvsalher.toef tr►wiMhtt with uri w al plftr BytstaUW $ w Tors rottowat to. to•nr• cc°avtn'►n"vAfstt I . Wee r aeb tA•Z r VT f' M .d Iwo Mt 1 »Mti1¢t�� l SOW* b tr3stt w,00 Pr+ttnrnr.nxnra• MM ►. i� . t _ Mr worm/n s 11 1 •^ a �'� Mrrt. 7sat*.rN ta" %man'. , ekrtrntwtianwar ._. St t.ttsnyt3♦t V 17...... J. win b�yrr r [rMnwa+�ar e • I m tstt•nu*.s tseety 01► swum aprataw ._.- r *1 awt swa r --. 7 ---- ( � 1140464 � -' t �CrrtclUt � � '.`• . L aw l� 49t a ` .-g„ tt , Etr .i ut� `OSprf . . LorU qt rttw« Na.Ts��puwt 0 i Castst 1 0N -6941 • 06/15/04 - Page 3 of 3 June 15, 2004 DN -6798 • J -90 ® SpectrAlert® N OT I F I E R Ceiling Mount Series SC Strobes and PC Horn /Strobes Section: Audio/Visual Devices GENERAL System Sensor's SpectrAlert® Ceiling Mount Series 411 Strobes and Horn /Strobes offer a fresh approach to the unique needs of ceiling -mount applications. APPR Technology — Like the original SpectrAlert® line, the LISTED CS549 SpectrAlert® Ceiling Mount Series offers significant cur- LIS 1 ED rent draw reductions over other ceiling -mount strobes and 54011 California -' i� % horn /strobes. S5512 M ,, State Fire Flexibility — SpectrAlert® Ceiling Mount strobes and 144 -00 -E I ' " 1Marshal 61 -00 -E horn /strobes are available in seven different candelas, 7135 - 1209:204 including 177 candela for sleeping areas. The horn/ i 7125 - 1209:201 strobe's tones are field- selectable with a three - position switch on the back of the unit. Selections include: electro- mechanical and 3 KHz tones; temporal 3 and non - tempo- . - ral 3 patterns; and high and low volume. Aesthetics — SpectrAlert® Ceiling Mount strobes and :•r; �ft horn /strobes offer a design that is sensitive to the aes- = thetic demands of ceiling -mount applications. The round 1' ` shape maintains a low - profile appearance, similar to that of a smoke detector. Its stylish curves and design further ! k'r �9� refine the aesthetics over other generic wall /ceiling -mount rr: 1 r designs. Yet SpectrAlert®'s round shape provides clearly visible "FIRE" identification from all angles. ' Installation — SpectrAlert®'s compact design also of- r..• ..,.' fers installation savings. The strobe and horn /strobe mod - els mount to a 4" x 4" x 1 -1/2" (101.6 x 101.6 x 38.1 mm) backbox, and take up little room in the backbox, making connections easier. With SpectrAlert ®'s round shape, aligning the backbox with the room's walls is not neces - '. sary — SpectrAlert® always lines up. FEATURES x • Lower current draw. , • Available in 15, 15/75, 30, 75, 95, 115, and 177 candela strobes. • Horn /strobe models include a three - position switch for field- ' selecting horn tones: electromechanical /3KHz; temporal 3 /non- temporal 3; high /low dBA output. • Synchronizable with MDL Sync•Circuitru module. • Ceiling- specific shape, profile, and aesthetics. SC Strobe (top) and PC Horn /Strobe (bottom) • Mounts to a 4" x 4" x 1 -1/2" (101.6 x 101.6 x 38.1 mm) Weight: 5.3 oz. (150 grams). backbox. • Round shape offers greater placement flexibility. Operating voltage: 24 VDC and FWR unfiltered. Input terminals: 12 to 18 AWG (3.25 to 0.75 mm Operating voltage range: 24 volts, 16 - 33 volts. NOTE: SPECIFICATIONS 177 cd models tested at 20 - 33 V FWR and 16 - 33 VDC Dimensions: 6.8" (172.72 mm) diameter. Operating voltage range with Sync•CircuitTM module: 24 volts, 17 - 33 volts. NOTE: 177 cd models tested at 21 - 33 Mounting: 4" x 4" x 1 -1/2" (101.6 x 101.6 x 38.1 mm) V FWR and 17 33 VDC. backbox. Indoor operating temperature: 32 °F to 120 °F (0 °C to U.S. Patent Numbers: 6,049,446. 6,057,778. D424,465. 49 °C) SpectrAlert® is a registered trademark and Sync•CirculV" is a Maximum humidity: 95% as tested per UL 464. trademark of System Sensor. This document a Honeywell company. ISO 9001 This docume t is not intended to be used for installation purposes. We try to keep our prod- uct information up -to -date and accurate. We cannot cover all specific applications or antici- pate all requirements. All specifications are subject to change without notice. C E R T 1 tF tt E o y For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484 -7118 INCIrE9111A i MMI<AMY1 0 NOTI F1ER' 12 Clintonville Road, Northford, Connecticut 06472 QUALITY SYSTEMS 0N -6798 • 06/15/04 — Page 1 of 4 . , SPECTRALERT CURRENT DRAW FWR Max. DC Max. FWR Max. FWR Max. . Model No. Operating Operating Operating Operating Current - Current - Current - Current - Horn Strobe Strobe Horn Horn Audibility Red White Voltage Candela (mA RMS) (mA RMS) (mA RMS) (mA RMS) (dBA) SC2415 SC2415W 15/75 15 68 64 SC241575 SC241575W 24 15/75 77 78 SC2430 SC2430W 24 30 107 113 Ceiling Mount SC2475 SC2475W 24 75 197 205 Strobes SC2495 SC2495W 24 95 239 274 SC24115 SC24115W 24 115 298 325 SC24177 SC24177W 24 177 399 489 PC2415 PC2415W 24 15 68 64 57.5 57 75 PC241575 PC241575W 24 15/75 77 78 57.5 57 75 PC2430 PC2430W 24 30 107 113 57.5 57 75 Ceiling -mount PC2475 PC2475W 24 75 197 205 57.5 57 75 Horn /Strobes` PC2495 PC2495W 24 95 239 274 57.5 57 75 PC24115 PC24115W 24 115 298 325 57.5 57 75 PC24177 PC24177W 24 177 399 489 57.5 57 75 MDL MDLW Average Current (mA) Peak Current (mA) In -rush Current (mA) Sync- Circuit DC FWR DC FWR DC FWR 12 10 12 30 31 87 122 24 11 15 35 37 198 262 General Notes: 1. All SC and PC strobes were only tested at the 16 -33 Volt - FWR/DC Limits. This does not include the 80% low end and the 110% high end wltage limits. 2. Hom /Strobe current draws assume hom is set at Temporal 3, electromechanical tone, and high audihbility. - Selectable Horn Tones _ , Temporal Low Volume Electromechnical »rtltnum tat } ltd5 /. �� 300 Hz Interrupted unit um be outlaw xita � High Volume Electromechnical ltbh s1P,ki at *own, t r 300 Hz Interrupted } 1 71 Interrupted ' , Non - Temporal Low Volume Electromechnical , 300 Hz Interrupted `,\ High Volume Electromechnical 300 Hz Interrupted UL Ro»rbsrant USA *I0 ft./+tons DC Assdtola dlIA aY O LAbtts DC t'rtnpora1 Low %blume LleettamodusRal 75 75 74 83 87 S9 WO Hz Intimpoo+1 /S * /a 1t2 Rer !to ItUyJ'Altustr Ckruunfettus .J1 79 82 82 $ 90 9t 10130 Hz tntmuriad "! $2 r2 So 42. 71 Sots Low vItarno Atrmeinh tthurd1 /'1 82 82 EL' 35 37 Effiw r41 WO 112 ltsntwend :9 12 SS 54 07 Nu Fttlgtt'rolusw 1]icwam chiival $2 85 SS V It 43 31100 H2 Trioiwoh1 8, RS SS PA 41 0: t Page 2 of 4 — DN -6798 • 06/15/04 . Spec ttAfart Dimensions I r""*....N\ 6-2:; .-4r, -.- •-2.4' — 4 4ii 1 0 (] 1 1 4 II` I I . 1 1 . , 4' li; _ i__ i \.,....... ...._ 1 \,.. _ SpecttAtett t.e>Map Mown Strobe Spuut,1..t 4-- r' - Mount NwarStrobe nC)Q , OOc, Mounting j 111W � Strobe or / O o 1 Horn /Strobe N e / with accessory Backbox Skirt � � i �� el e i / ,; ., ,' ;)�)) Strobe or Horn /Strobe with Mounting f ; Plate Iq p ,,.. 0 ' BBSCW Surface -Mount Backbox Skirt DN -6798 • 06/15/04 — Page 3 of 4 0 ARCHITECTURAL/ENGINEERING SPECIFICATIONS Strobe shall be a System Sensor SpectrAlert® Model consist of a xenon flash tube and associated lens /reflec- Listed to UL 1971 and be approved for fire protec- for system. The horn shall have two tone options, two au- tive service where ceiling -mount strobes are permitted. dibility options, and the option to switch between a tempo - The strobe shall be wired as a primary signaling notifica- ral 3 pattern and a non - temporal continuous pattern. tion appliance and shall flash at 1 Hz over the strobe's These options shall be selected by a multi - position switch. entire operating range. The strobe light shall consist of a Strobes shall be powered independently of the sounder xenon flash tube and associated lens /reflector system. with the removal of factory- installed jumper wires. The horn Horn /Strobe shall be a System Sensor SpectrAlert® Model on horn /strobe models shall operate on a coded or non - Listed to UL 1971 and UL 464 and be approved coded power supply. for fire protective service where ceiling -mount horn /strobes NOTE: The strobes must be powered continuously for the are permitted. The horn /strobe shall be wired as a pri- horn to operate. mary signaling notification appliance and shall flash at 1 Hz over its entire operating range. The strobe light shall Ordering Information Model Number Description SC2415 Ceiling -mount strobe, 24 volt, 15 candela, red SC2415W Ceiling -mount strobe, 24 volt, 15 candela, white SC241575 Ceiling -mount strobe, 24 volt, 1575 candela, red SC241575W Ceiling -mount strobe, 24 volt, 1575 candela, white SC2430 Ceiling -mount strobe, 24 volt, 30 candela, red SC2430W Ceiling -mount strobe, 24 volt, 30 candela, white SC2475 Ceiling -mount strobe, 24 volt, 75 candela, red SC2475W Ceiling -mount strobe, 24 volt, 75 candela, white SC2495 Ceiling -mount strobe, 24 volt, 95 candela, red SC2495W Ceiling -mount strobe, 24 volt, 95 candela, white SC24115 Ceiling -mount strobe, 24 volt, 115 candela, red SC24115W Ceiling -mount strobe, 24 volt, 115 candela, white SC24177 Ceiling -mount strobe, 24 volt, 177 candela, red SC24177W Ceiling -mount strobe, 24 volt, 177 candela, white PC2415 Ceiling -mount hom /strobe, 24 volt, 15 candela, red PC2415W Ceiling -mount hom /strobe, 24 volt, 15 candela, white PC241575 Ceiling -mount horn /strobe, 24 volt, 1575 candela, red PC241575W Ceiling -mount hom /strobe, 24 volt, 1575 candela, white PC2430 Ceiling -mount horn /strobe, 24 volt, 30 candela, red PC2430W Ceiling -mount hom /strobe, 24 volt, 30 candela, white PC2475 Ceiling -mount hom /strobe, 24 volt, 75 candela, red PC2475W Ceiling -mount hom /strobe, 24 volt, 75 candela, white PC2495 Ceiling -mount horn /strobe, 24 volt, 95 candela, red PC2495W Ceiling -mount horn /strobe, 24 volt, 95 candela, white PC24115 Ceiling -mount hom /strobe, 24 volt, 115 candela, red PC24115W Ceiling -mount hom /strobe, 24 volt, 115 candela, white PC24177 Ceiling -mount horn /strobe, 24 volt, 177 candela, red PC24177W Ceiling -mount hom /strobe, 24 volt, 177 candela, white Accessories MDL Sync•CircuitTM' module, red MDLW Sync•Circuitim module, white BBSC Surface -mount back box skirt, red BBSCW Surface -mount back box skirt, white Page 4 of 4 — DN -6798 • 06/15/04 a May 1, 2004 DN- 6975.1 -405 BEAM1224 and BEAM1224S • N OT I F I E R Conventional Reflective Beam Detectors Section: Conventional Initiating Devices GENERAL The System Sensor BEAM1224 and BEAM1224S are 14112° 12°°' 4 -wire conventional projected beam smoke detectors. They are uniquely suited for protecting open areas with high ceilings where intelligent spot type smoke detec- LISTED APPROVED tors are difficult to install and maintain. It is to be used S911 with UL Listed compatible fire alarm control panels only. Installation of the single -ended reflective design is much easier. Alignment is quickly accomplished via an opti- cal sight and a 2 -digit signal strength meter incorpo- rated into the product. Listed for operation from —22 °F to 131°F, the BEAM1224 and BEAM1224S can be used in garage or warehouse applications to provide early warning in environments where temperature extremes exceed the capability of spot -type smoke detectors. The BEAM1224 and BEAM1224S consists of a trans- mitter /receiver unit and a reflector. When smoke en- ters the area between the unit and the reflector it causes BEAM1224 a reduction in the signal and, when the smoke level w /Reflective Plate reaches the predetermined threshold, an alarm is acti- vated. They have four standard sensitivity selections along with two Acclimate settings. When either of the a " two Acclimate settings are selected the detector will automatically adjust its sensitivity using advanced soft- ware algorithms to select the optimum sensitivity for the specific environment. The BEAM1224S is equipped with an integral sensitiv- g. a ity test feature that consists of a test filter attached to a servo motor inside the detector optics. Using the re- 3 •- mote test station RTS451, the motor is activated and BEAM1224 moves the filter in the pathway of the light beam, thereby wBEAMMMK testing detector sensitivity. This integral sensitivity test feature allows the user to quickly and easily meet the annual maintenance /test requirements of NFPA 72. • Removable plug -in terminal blocks • Digital display - no special tools required FEATURES • Built -in automatic gain control compensates for • Transmitter /Receiver built into same unit signal deterioration from dust build -up • • Single- ended, reflective design Optional remote test station • Six user selectable sensitivity levels • Optional Long Range Kit (BEAMLRK) for • 16' to 328' (use BEAMLRK beyond 230') applications in excess of 230' protection range • Optional multi -mount kit (BEAMMMK) providing ceiling or wall mount capability with increased angular adjustment T cn a Honeywell company. ISO 9001 Thhis s document is not intended to be used for installation purposes. We try to keep our product information up -to -date and accurate. We cannot cover all specific applications or anticipate all requirements. All specifications are subject to change without notice. c E R T ti F s E o For more information, contact NOTIFIER.Phone: (203) 484 -7161 FAX: (203) 484- 7118 IMINCIUMIC N OTI Fl E R' 12 Clintonville Road, Northford, Connecticut 06472 QUALITY SYSTEM S ON -6975 • 05/01/04 — Page 1 of 2 1 • OPERATIONAL SPECIFICATIONS Protection Range: 16 ft. to 328 ft. (5m to 100m) Electrical Specifications: Voltage:10.2 to 32 VDC (BEAM1224) Adjustment Angle: +/ -10 Degrees horizontal & 15 to 32 VDC (BEAM1224S) vertical AVG. Standby Current (24 VDC): 17mA Max AVG. Alarm Current (24 VDC): 38.5mA Max Sensitivity (6 Levels): Level 1 — 25% AVG. Fault Current (24 VDC): 8.5mA Max Level 2 — 30% AVG. Alignment Mode Current (24 VDC): 28mA Max Level 3 — 40% Level 4 — 50% Mechanical Specifications: Acclimate Level 1 — 30 -50% Detector Dimensions:10.H x 7.5.W x 3.3.D Acclimate Level 2 — 40 -50% (254mmH x 191 mmW x 84mmD) Reflector Dimensions (for 16' to 230' applications): Fault Condition (Trouble): 7.9. x 9.1. (200 x 230mm) • 96% or more obscuration blockage Reflector Dimensions for (for applications • In alignment mode beyond 230'): 15.7. x 18.1. (400 x 460mm) • Improper initial alignment • Self- compensation limit reached PRODUCT LINE INFORMATION AlignmentAid: Model Description Optical gunsight BEAM1224 4 -Wire Conventional Beam Smoke Integral signal strength indication Detector 2 -digit display BEAM1224S 4 -Wire Conventional Beam Smoke Detector with Integral Sensitivity Test Indicators: Feature Alarm - Local red LED and remote alarm BEAMLRK Long Range Accessory Kit Trouble - Local yellow LED and remote trouble (Required for applications in excess Normal - Local fl ashing green LED of 230 ft. [70mJ) BEAMMMK Multi -mount kit (Provides ceiling or Test/Reset Features: wall mount capability with increased • Integral Sensitivity Test Filter (BEAM angular adjustment) 1224S only) BEAMSMK Surface mount kit • Sensitivity filter (Incremental scale on RTS451 Remote test station reflector) RTS451 KEY Remote test station with key lock • Local alarm test switch • Local alarm reset switch BEAMMMK - Ceiling or Wall • Remote test and reset switch Mount Kit, Sold Separately (Compatible with RTS451 & RTS451 KEY test station) Smoke Detector Spacing: On smooth ceilings, 30 -60 feet between projected beams and not more than one -half that spacing between a projected beam and a sidewall. Other spacing may be used depending on ceiling height, airfl ow characteristics, and response requirements. See NFPA 72. Environmental Specifications: Temperature: —22 °F to 131°F ( -30 °C to 55 °C) RTS451 Humidity: 10 -93% RH Noncondensing • l t TS451 KEY Page 2 of 2 — DN -6975 • 05/01/04 September 3, 1997 DN -6091 • D -105 N OT I F I E R RA400Z & RA400ZA (Canada) FIRE SYSTEMS Remote Annunciators Section: Annunciator Control Systems GENERAL F California The System Sensor RA400Z and RA400ZA (Canadian) Marshalre Remote Annunciators are polarized devices designed for _`mod'_ •.._ 7300 - 1209:130 both conventional and intelligent applications. They have been designed using an active current regulator so that S2522 CS308 the maximum current required from the system is 7 mA when the input voltage is within the specified voltage range. M EA SPECIFICATIONS 427 -91 -E Vol. II OV8A5.AY Voltage range, CONVENTIONAL system: 3.1 to 32 VDC — DO NOT break tab. 1 Voltage range, INTELLIGENT system: 18 to 32 VDC — Break tab (see caution note). QCAUT/ONI DO NOT break tab when using RA400Z or RA400ZA with IIIIIIIIIiIII VIII IIIIIII I l!! an intelligent four -wire duct detector (such as System Sensor's DHSO0ACDC or NOTIFIER's DHX -501). Current drain: 7 mA maximum. Temperature range: -10 °C to 60 °C (14 °F to 140 °F). PLEASE NOTE: For indoor applications only. 4 INSTALLATION The RA400Z/RA400ZA is intended to be mounted to a single -gang electrical outlet box. The device must be op- erated within its published specifications. Wire the remote Illlllllllllllllllllllllllllllllllllllllll annunciator according to the instructions supplied with the device being monitored and in compliance with all codes. Polarity of the incoming wires must be observed and con- nected to the proper terminals " +" and "- (see figure). The tab on the back of the remote annunciator must be broken off for use with most System Sensor intelligent sys- tems (see figure and caution under Specifications). After the tab is broken, the input voltage for the RA400Z and BEND TAB DOWN TO RA400ZA is limited to 18 volts minimum. BREAK FOR USE WITH See the following page for further information on the limi- MOST INTELLIGENT tations of remote annunciators. SYSTEMS FROM MONITORED , 4 0 , �I DEVICE This is not Intended be used for installation purposes. We try keep our '�O 9001 product uct ct information up-to --to -date te and accurate. accurate. We cannot nnot cover er all all specific applications cations or anticipate all requirements. All specifications are subject to change without notice. For more information, contact NOTIFIER. Phone: (203) 484 -7161 FAX: (203) 484-7118 C E R T i F g E [ • 1''J N OTI Fl E R 12 Clintonville Road, Northford, Connecticut 06472 ' iMI 11lIK ON-6091 • 09/03/97 — Page 1 of 2 • R /WA RNING/ The Limitations of Remote Annunciators • The remote annunciator will not work If the device It is connected to Is not powered. The remote annuncia- tor gets its power from the device to which it is connected. If for any reason, the device being monitored loses power, the remote annunciator will not provide the intended vis- ible signal. The RA400Z is suitable for indoor applica- tions only. • The remote annunciator may not be seen. The model RA400Z is suitable for direct viewing and is in compliance with existing Underwriters' Laboratories standards. The device must be sited in a location where it can be seen by the intended parties. The device must not be installed in direct sunlight, or areas of high light intensity where the visible signal might be disregarded or not seen. • This device is designed to work specifically with cer- tain NOTIFIER or System Sensor products. Intercon- nection with devices other than those specified may re- sult in unsatisfactory operation. Consult device manu- facturer for compatibility. • The remote annunciator is not intended to be a visible warning signal. Page 2 of 2 — DN -6091 • 09/03/97 } tuheelock r ,j �� L,• o ,ki) V� F:i SYSTEMe nil EA L Helping People Take Action SERIES MB MOTOR BELLS Description Wheelock's Series MB Motor Bells provide a better engineered motor bell for fire and life safety alarm systems. The Wheelock Series MB Bells include higher dBA, low current draw, built -in trimplate for semi -flush mounting, low frequency aluminum shells, and low RFI noise. The motor for Series MB Bells is a durable, high torque permanent magnet motor selected for its high performance and long life. These DC vibrating Series MB Motor Bells are offered in 6" and 10" SERIES MB shell sizes in both 12 and 24 VDC models. Series RSSP Sync/Non -Sync retrofit plates are used in conjunction with the Series MB Motor Bell when combination appliances are required. The Series RSSP retrofit plates are available with either Multi - Candela or single candela strobes and easily mount to a 4" ,.: —• square or Wheelock SBL -2 backbox. All Series RSSP strobe • • appliances meet or exceed the requirements of NFPA 72 (National Fire Alarm Code), ANSI 117.1 (American National Standard for , r * Accessible and Usable Buildings and Facilities), ADA (Americans with Disabilities Act) and UL Standard 1971 (Signaling Devices for the Hearing Impaired). The Series RSSP retrofit plates may be synchronized when installed with the Wheelock Series SM, DSM, Sync Modules or the PS- 12/24 -8 F {RE Power Supply with Wheelock's patented sync protocol. Wheelock's synchronized strobes offer an easy way to comply with ADA , requirements concerning photo- sensitive epilepsy. REMOTE PLATE with SBL -2 Features RSSP REMOTE PLATE • Approvals include: UL Standard 464, Factory Mutual (FM), • Built -in trimplate makes semi -flush mounting California State Fire Marshal (CSFM), New York (MEA) and simpler and less expensive. Chicago (BFP). • Screw terminals permit fast in- out field wiring of • Meets OSHA 29 Part 1910.165. #12 to 18 AWG wire. • High sound output with low current draw. • Polarized for DC supervision of NAC circuits. • Low frequency aluminum shells for better audibility • Operates on filtered or unfiltered DC. through walls, doors and other structures. • For combined audible (bell) and visual signaling, • 6" and 10" shell sizes in 12 or 24 VDC models. convenient retrofit plate assemblies are available • Integral RFI suppression to minimize included noise on with Multi - Candela or Single candela strobes the NAC circuit. (Refer to Fire Alarm Products Catalog for Series • Mounting options for surface, semi - flush, outdoor, and RSSP Sync/Non -Sync Strobes specifications and concealed conduit installation. technical information). Ordering Information Model Number Order Code Shell Size input Voltage input Current dBA © 10 Ft Mounting NOTES: (VDC) Options 1. Typical dBA at 10 feet is measured in an MB G6 - 12 - R 3942 6" 12 0.060 anechoic chamber. 2. For bells all VDC MB G6 - 24 - R 3941 6" 24 0 are e rated m 92 D,E,J,K,N,R,S,Z models tedfor MB- G10 -12 -R 3944 10" 12 0.060 9.0 to 15.6 VDC and all 24 VDC models for 18.0 to MB- G10 -24 -R 3943 10" 24 0.030 31.0VDC. Copyright 2002 Wheelock, Inc. All rights reserved. Architects and Engineers Specifications The alarm appliances shall be Wheelock Series MB vibrating Motor Bells or approved equal. They shall be UL Standard 464 Listed for Fire Protective Service. Shells shall be aluminum in 6" or 10" diameter. Sound output at 10 feet shall be 92 dBA. The bells shall incorporate a permanent magnet motor and suppression circuitry to minimize RFI. They shall include a built -in trimplate for semi -flush mounting to a standard 4" square backbox, or surface mounting to Wheelock's indoor BB backbox or outdoor WBB backbox. For bell strobe applications, retrofit plates Wheelock Series RSSP with Multi - Candela or Single Candela strobes shall be used. All bell models shall be polarized for line supervision and shall have screw terminals for in- out field wiring of #12 to #18 AWG wire. Operating voltage shall be nominal 24 VDC or 12 VDC. Finish on all models shall be red enamel. - Model Number Order Code Nominal Voltage Strobe Candela *Average Current f * *Mounting (VDC) (AMPS) at listed VDC Options RSSP- 24MCW -FR 9402 24 15/30/75/110 .050/.081/.133/.161 D,E,Z RSSP- 241575W -FR 7793 24 15 (75 on -axis) .065 D,E,Z RSSP- 121575W -FR 7798 12 15 (75 on -axis) .170 D,E,Z • Average Current per actual Wheelock Production Testing at listed VDC. For SYNC MODULES I POWER SUPPLY Rated Average and Peak current across UL regulated voltage range for both Model Number Order Input Voltage Average Current Mounting Filtered DC and Unfiltered VRMS, see Installation Instructions Code (VDC) (AMPS) 24 VDC Options" " Refer to Data Sheet S7000 for Mounting Options #SM Sync Module is rated for 3.0 amperes © 24 VDC. SM- 12/24 -R+ 6369 24 .028 W ##DSM Sync Module is rated for 3.0 amperes per circuit. The maximum DSM-12/24-R" 6374 24 .035 yy number of interconnected DSM modules is twenty (20). Refer to Data Sheet S3000 or Installation Instructions P83123 for SM and P83177 for DSM. PS- 12/24 -8'" 8114 120 VAC - ## #Refer to Data Sheet S9001 or Installation Instructions P83862 for PS- 12/24 -8 Power Supply. Wiring Fig. 1 Bell Models Fig. 2 Retrofit Strobe AUDIBLE STROBE Plate Models (RSSP) 171.—_ ' PR0 LIU FROG PRECEDING TONE %T TO NEXT APPLIANCE APPLIANCE OR APPLIANCE FROM FACP II OR EOLR PRECEDING J APPLIANCE l } OR END-OF-LINE OR FRCP RESISTOR (EOLR) FROM TO NEXT PRECEDING STROBE OR STROBE OR + + EOLR FACP Wheelock products must be used within their published specifications and must be PROPERLY specified, applied, installed, operated, maintained and operationally tested in accordance with their installation instructions at the time of installation and at least twice a year or more often and in accordance with local, state and federal codes, regulations and laws. Specification, application, installation, operation, maintenance and testing must be performed by qualified personnel for proper operation in accordance with all of the latest National Fire Protection Association (NFPA), Underwriters' Laboratories (UL), National Electrical Code (NEC), Occupational Safety and Health Administration (OSHA), local, state, county, province, district, federal and other applicable building and fire standards, guidelines, regulations, laws and codes including, but not limited to, all appendices and amendments and the requirements of the local authority having jurisdiction (AHJ). A WARNING: PLEASE READ THESE SPECIFICATIONS AND ASSOCIATED INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING OR APPLYING THIS PRODUCT. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS OR WARNINGS COULD RESULT IN IMPROPER APPUCATION, INSTALLATION AND/OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE, AND SERIOUS INJURY OR DEATH TO YOU AND/OR OTHERS. NOTE: Due to continuous development of our products, specifications and offerings are subject to change without notice In accordance with Wheelock Inc. standard terms and conditions. WE SUPPORT AND ENCOURAGE NICET CERTIFICATION MADE IN THE USA Distributed By: NATIONAL SALES OFFICE 3 YEAR WARRANTY 800 -631 -2148 Canada 800 - 397 -5777 /E= E -Mail: Info @wheelockinc.com http: / /www.wheelockinc.com pember 273 BRANCHPORT AVENUE • LONG BRANCH, NJ 07740 • TEL: 732 - 222 -6880 • FAX: 732 - 222 -2588 S1500 Rev. 06/02 AFP -200 FACP NFS -640 • Clean Water Services- Durham Battery Calculations Device Load Qty. Standby (A) Alarm (A) Total CPU -640 0.230000 1 0.230000 0.230000 0.460000 KDM -2 1 0.040000 0.094000 0.134000 SLC Loop * 1 0.046800 0.046400 0.093200 NCM -F 1 0.110000 0.110000 0.220000 BEAM1224 (Sup 0.017)(Alm 0.039) 7 0.119000 0.273000 0.392000 HVAC Relays 0.100000 7 0.700000 0.000000 0.700000 Power Supervision Relays 0.040000 2 0.080000 0.080000 0.160000 Notification Appliances ** 1 0.000000 2.151000 2.151000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 Total 1.325800 2.984400 4.310200 Batteries Required 24 Hr Standby 5 min Alarm Amp -Hrs 31.819200 0.247705 32.066905 Safety Factor 1.2 38.480286 Batteries Supplied 2 55.0 AH *SLC Loop Power * *NAC Outputs NBG -12LX (31 x 0.0003) 0.009300 NAC1 0.002000 FSP -851 (82 x 0.00027) 0.022100 NAC2 0.700000 FST -851 (27 x 0.00027) 0.007300 NAC3 0.700000 FSD -751 RP (2 x 0.0003) 0.000600 NAC4 0.749000 FRM -1 (5 x 0.0003) 0.001500 2.151000 FMM -1 (10 x 0.0003) 0.003000 FDM -1 (4 x 0.00075) 0.003000 Total SLC Current Draw 0.046800 A Page 1 General FCPS1 BATTERY CALCULATION COMPONENT QTY. Normal (A) Alarm (A) Normal Total Alarm Total Panel 1 0.06500 0.09100 0.06500 0.09100 Circuit 1 1 0.74700 0.00000 0.74700 Circuit 2 1 0.99200 0.00000 0.99200 Circuit 3 1 1.01100 0.00000 1.01100 Circuit 4 1 1.03800 0.00000 1.03800 Totals 0.06500 3.87900 Battery Calculation Hrs Current AH Safety Batt Req (AH) Normal 24 0.06500 1.56000 Alarm 10 min. 0.0833 3.87900 0.32312 Total Required 1.88312 1.2001 2.25974 Battery Supplied 2 7.00 Notes: Currents at 24 VDC. Two 12 Volt batteries of specified capacity are supplied. A Page 1 General FCPS2 • BATTERY CALCULATION COMPONENT QTY. Normal (A) Alarm (A) Normal Total Alarm Total Panel 1 0.06500 0.09100 0.06500 0.09100 Circuit 1 1 0.51100 0.51100 0.51100 0.51100 Circuit 2 * 1 0.00000 0.00000 0.00000 0.00000 Circuit 3 1 0.05200 0.17400 0.05200 0.17400 Circuit 4 1 0.00000 0.00000 0.00000 0.00000 Totals 0.62800 0.77600 Battery Calculation Hrs Current AH Safety Batt Req (AH) Normal 24 0.62800 15.07200 Alarm 5 min. 0.0833 0.77600 0.06464 Total Required 15.13664 1.1875 17.97476 Battery Supplied 2 1 18.00 Notes: Currents at 24 VDC. Two 12 Volt batteries of specified capacity are supplied. * Door Holder Power on Circuit 2 will be dropped on loss of 120 VAC Main Power A Page 1 This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the resu d o n ot exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name .f i''' ' '- y �' CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date ;,' j Circuit Number m � x, "° End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered ,_ "`` "' Nominal System Voltage .,:%:.= Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.002 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Ga . e Per 1000 Notes: Distance from source to 1st device = 1 4 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit 14 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering M ethod Number Current device Device source Drop Totals Voltage Totals Voltage Device 1 0.002 5 24.00 0.000 0.00% Current Distance Drop Current Distance Drop END 24.00 0.000 0.00% 0.002 5 0.000 0.002 5 0.000 END 24.00 0.000 0.00% End of Line Voltage 24.00 End of Line Voltage 24.00 END ,, 24.00 0.000 0.00% Percent Drop 0.00 %j Percent Drop 0.00% END , , , c- 24.00 0.000 0.00% END '-ii ±, 24.00 0.000 0.00% Device Manufacturer (Ngtlf'i ,. END 24.00 0.000 0.00% Current Current END . -.0 , 4 24.00 0.000 0.00% @Rated @Rated END �.-, 24.00 0.000 0.00% Model # Candela Voltage Model # Candela Volta. e END ;) : 24.00 0.000 0.00% FCP 'fI " hput 0.002 END ' I '� � 24.00 0.000 0.00% " , '�, END °< 24.00 0.000 0.00% . ; END � . Y� � , , , a .. 24.00 0.000 0.0 AGl? ii.,. „ no t END 24.00 0.000 0.00% L, END '" __._, ;° :�.i ;v" ` 24.00 0.000 0.00% i .A.- �c d am END ,- ` 24.00 0.000 0.00% x. . . . �e e, END 24.00 0.000 0.00% • END .•° , ,; 24.00 0.000 0.00% END 24.00 0.000 0.00% re ;'' v u. i. _ 1i 3. " ... w END 24.00 0.000 0.00% s i. `' ' , Totals 0.002 5 End of Line Voltage 24.00 This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name e , "/"=7- , °"= `4f3 P Y 1 s CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date - ! � � � � End of Line and Load Centering Methods use only the wire guage Number � , ��,�� 9 Y a for the first device to source 9 9 Area Covered Nominal System Voltage Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage r 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.700 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gause Per 1000 Notes: Distance from source to 1st device • 17 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering Method Number Current device Device source Dro. Totals Voltage Totals Voltage Device 1 s c 23.38 0.623 2.60% Current Distance Drop Current Distance Drop END _) �' 23.38 0.623 2.60% 0.700 145 0.623 0.700 _ 145 0.312 END � 23.38 0.623 2.60% End of Line Voltage 23.38 End of Line Voltage 23.69 END g 7 23.38 0.623 2.60% Percent Drop 2.60% Percent Drop 1.30% END L '' 23.38 0.623 2.60% END _�� 23.38 0.623 2.60% Device Manufacturer END r _ 23.38 _ 0.623 2.60% Current Current END j 23.38 0.623 2.60% @Rated @Rated END 23.38 0.623 2.60% Model # Candela Volta•e Model # Candela Voltage END r . ' .. I 23.38 0.623 2.60% + '_ :-',' . :,_ .' r END 23.38 0.623 2.60% �1 flglf`�< >� END 23.38 0.623 2.60% ��Gs� �� ............ : ..e., END .. 23.38 0.623 2.60% E ,I i � ' � END " °' 23.38 0.623 2.60% 1 t t END f I 23.38 0.623 2.60% L, r � , F O dF'�a n t END ��., �," � 23.38 0.623 2.60% � �� ,.��,.��,y END [ F 23.38 0.623 _ 2.60 %� �°� ,.F '�,.. , °i' "� %, `€ END Via..._. 23.38 0.623 2.60 % Y .E. € g s :.A2 -ti �x : "A . . END `' .... a .._ 23.38 0.623 _ 2.60% ,. 1,. `- - END ._. k v.,� 23.38 0.623 2 % �a> a .y, _.. ", ,a. Totals 0.700 145 End of Line Voltage 23.38 i M • • This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name Qlea .':_,_ $1 , .t`r= i'o' '.. ,',A4:,{ CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date i ' J, Circuit Number PAOF�N1 C . '.' I `" ' End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered Solenoid Valve Room 126' Nominal System Voltage A44,1„,, 24 Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage 4"20.4 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.700 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gauge Per 1000 Notes: Distance from source to 1st device ; 1J30 .� 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit -,. 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering Method Number Current device Device source Dro• Totals Voltage Totals Voltage Device 1 ,.. r. 130 23.44 0.559 2.33% Current Distance Drop Current I Distance Drop END ' r, 23.44 0.559 2.33% 0.700 130 0.559 0.700 I 130 0.279 END : - , ; 23.44 0.559 2.33% End of Line Voltage 23.44 End of Line Voltage 23.72 END ` � 23.44 0.559 2.33% Percent Drop 2.33% Percent Drop 1.16% END 23.44 0.559 2.33% END • ` " 23.44 0.559 2.33% Device Manufacturer & ��: END a' 23.44 0.559 2.33% Current Current END f I 23.44 0.559 2.33% @Rated @Rated END € `` 23.44 0.559 2.33% Model # Candela Voltage Model # Candela Volta •e END :, 23.44 0.559 2.33% ' . k g s -_,',711 1' - " END 23.44 0.559 2.33% : = . .._, : ; .„ : 1 E.-- 2..- . , ,`(... _,. END E ., : 23.44 0.559 2.33% l , 7 . :e _ I i . _ .t %` ..a. - e ,. . END L . » ..W... _.'.r .e. . .. . . 23.44 0.559 2.33% F'..,.: 1" " 21t'. t .: t Fs.:;i:'' ..., , . , r .. ..k ,e ' EN D j, 23.44 0.559 2.33% ,„":,::: , . .. 3 �a, T , �.. .., .e END , : :. m ,1� , ' 1, � A 23.44 0. 2.33% � � � � 2 END 23.44 0.559 2.33% : � . .. -.A . £ " .. _ 1� , a �, END `� o > f �, ; ,., �€ ,�.....�� 23.44 0.559 2.33 /o �� ,��-�:* �� :' � y i ' , END T may:. 23.44 0.559 2.33% - 7 ' f _ u� END ; . 23.44 0.559 2.33% ., t' t 1 t �,. - " � ] j END a " _J ,..,,. 23.44 y 0.559 2.33% 1 :a1, (; � j . . : Totals 0.700 130 End of Line Voltage 23.44 . • This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the l se by the respecti jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name r' "rk< leifeeektto , & -' - a: - - , CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date tf ,rep;- Circuit Number r'.. 7 .. - End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered " n - T T • ,..�, �U-- � ", Nominal System Voltage Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage ` :1420 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.749 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gaul Per 1000 Notes: Distance from source to 1st device + _> 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit " , t"� 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering Method Number Current device Device source Dro• Totals Voltage Totals Voltage Device 1 + + :' 140 23.36 0.644 2.68% Current Distance Drop Current Distance Drop + + _ Device 2 '7 • ' 0 23.27 0.726 3.03% 0.749 400 1.840 0.749 400 0.920 Device 3 + ' r .' � 23.20 0.800 3.33% End of Line Voltage 22.16 End of Line Voltage 23.08 Device 4 ap + r, 3: 23.15 0.849 3.54% Percent Drop 7.66% Percent Drop 3.83% Device 5 •,,. - 23.05 0.947 3.95% Device 6 , ro m i { - 22.95 1.051 4.38% Device Manufacturer ° " f ° Device 7 `` 22.85 1.151 4.80% Current Current Device 8 a , , , 11 22.80 1.200 5.00% @Rated @Rated `` f ,,� Device 9 � � 22.77 1.233 5.14% Model # Candela Volta • e Model # Candela Volta e e END . 22 1.233 5.14% r .:' :. + y.. - - F114 7 - 7. T END 22.77 1.233 5.14% '.,��'�}.. 1 . � . � .� " J! . .. :'+ � e`"f3t�� =b � � ,,�� 4 4 • . END . ' . 22.77 1.233 5.14% A _ '+ , a + . . .. E (i , , _ END .: € 22.77 1.233 _ 5.14% f f r l', '' - t - r END 22.77 1 233 5.14% * � �� END .�.___. >� ... �.,m 22.77 1.233 5.14% �'� �"k_,. . ," � � ,--� € /0 P ; . _ %. _, ,r a ..... r € .. a END 22.77 1.233 5.14 o . END _ 'I 22.77 1.233 5.14% 1[: [: ( 4 END . 22.77 1.233 5.14% ? y � `, 1:: .s. w.. +. END " ' ....,". ",..� $ 22.77 1.233 5.14% .. . _ � __ ; ��6 i__ END 22.77 1.233 5.14% .F- ... 4 a _ , � . _." ' �' A : 4 s` -W A r Totals 0.749 400 End of Line Voltage 22.77 ,. R ■ This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name ;t, a :roSerVF ' "; :' , 1 , . , ?, : CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date , Circuit Number c' " - ".�. ''-` F` '-‘- End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered 6 i °N i i , � =gym,,. I° '� nsG'� �qv� Nominal System Voltage Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage 20:4 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.747 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gaul a Per 1000 Notes: Distance from source to 1st device 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit r - 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering Method Number Current device Device source Dro. Totals Voltage Totals Voltage Device 1 x � '10 23.93 0.069 0.29% Current Distance Drop Current I Distance Drop Device 2 1.m ' I 23.81 0.192 0.80% 0.747 325 1.491 0.747 325 0.745 Device 3 . , t 23.68 0.318 1.33% End of Line Voltage 22.51 End of Line Voltage 23.25 la mak Device 4 r ` ' 23.60 0.397 1.65% Percent Drop 6.21% Percent Drop 3.11% Device 5 t! T ` 'Ta 23.38 0.616 2.57% Device 6 L . , s . i: _ i4 23.26 0.736 3.07% Device Manufacturer fi_sr , „" _6 END [ . ' w 23.26 0.736 3.07% Current Current END 23.26 0.736 3.07% @Rated @Rated END "_ E 1 23.26 0.736 3.07% Model # Candela Volta.e Model # Candela Voltage END L 23.26 0.736 3.07% i e Ir ` END 23.26 0.736 3.07% `°tiL» wjt (f Q l r � �"I i ` t P �. om) END 23.26 0.736 3.07% ' [ t sip €rte j ° � � END 23.26 0.736 3.07% , c t t=, r::. . .. '. _ '_ END ° 23.26 0.736 3.07% '� �� ..:AIL `!' bz, r . ,,., „�, ! [ � w END L __ . I _ 3 23.26 0.736 3.07% E��`'. j!_' . � °. . _ '' x` �`: .JJ v..., ..., .. I ill. .. =.. J END L " [ 23.26 0.736 3.07% `` : . .,[ r ':t is '. w 1 e 4 END r_ ` . . -[ 23.26 0.736 3.07% x " F xr 1! µ r .' 1r ,-yl i i , END #w ? i` ._., - 23.26 0.736 3.07% : ' Vie.:, f P . !d` __:` __W. 1 .m . 71 t END l 23.26 0.736 3.07% ; � > _„ •• .. '; � ¢ � i ..---3E END L. ..' :_f a 23.26 0.736 3.07% ' , - ._‘.. Ai; ' - .. _ = it _ . R ' i 1 Totals 0.747 325 End of Line Voltage 23.26 w f . This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name Cleo W ' 0 '' ; - CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date a+ Circuit Number -, End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered EL, ',.. t Y z,,as2 : :21,14 a , Nominal System Voltage Voltage fl: „:".' :121 Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage °" 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.992 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gau' a Per 1000 Notes: Distance from source to 1st device '' `F 15. 14 •T '' 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit t 14 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering M ethod Number Current device Device source Drop Totals Voltage Totals Voltage Device 1 Q 15 23.91 0.091 0.38% Current Distance Drop Current Distance Drop Device 2 Q;$ • '25 23.78 0.223 0.93% 0.992 310 1.888 0.992 _ 310 0.944 Device 3 ; - i.44. x < °- . -. x 23.54 0.465 1.94% End of Line Voltage 22.11 End of Line Voltage 23.06 Device 4 ' ° 1; 713 t .. a`, 55 23.32 0.684 2.85% Percent Drop 7.87% Percent Drop 3.93% Device 5 x,0.091 > Y _ =.35 23.21 0.786 3,28% Device 6 L,, 1.091 ,: -. . - -30 23.14 0.857 ' 3.57% Device Manufacturer !System; Sensor Device 7 a + „:45 23.06 0.938 3.91% Current Current Device 8 +5 22.99 1.010 4.21% @Rated @Rated END ' ar : 22.99 1.010 4.21% Model# Candela Voltage Model# Candela Voltage END ,, , _ _ 22.99 1.010 4.21% S1224MC -: 15 0.047 , ' �� X END a , . . 4.21% . r. 0. 067 �.,1 �° �;� �,,��_;�;� 22.99 1.010 4.21 /o (Multi-candela) � -� 9n ., .15 , :.:0.05a ��ta_ -�� END L ,.IL. _ ' T 22.99 1.010 4.21% 30 1.' -: 0.067 0 .117 END � �° � � 22.99 1.010 4.21% ar � END V *„ - = h �i 22.99 1.010 4.21 110. :' , 0.15 G.. ry= END =v 22.99 1.010 4.21% SC2430 , 30 0.068 .,„ _ : L,. ,� . ��x ;� + ,, 299 1010 421 /a ai a END � 2. . . - _ o - � �'�� r =� j END , a , .."W. o -, 22.99 1.010 4.21 % s :. ., _.., __ - s.,' .... . END �-° �. 22.99 1.010 4.21% L _ '_ ,�'~� ' '" i ".i END z 22.99 1.010 4.21% ,T. '� ,, J�t r1I END " ."*.'7 22.99 1.010 4.21% . .., ,, , '', � .. _ 11:j `o (. ; Totals 0.992 310 End of Line Voltage 22.99 This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jur Point to Point Method End of Line Method Load Centering Method Project Name =..' . ,t ti -= " . ., " CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date ! °tj Circuit Number a ` End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered C : 2 . .� am . ° Nominal System Voltage 72 Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage a_, + 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 1.011 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gauge Per 1000 Notes: Distance from source to 1st device 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit , ,, 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering Method Number Current device Device source Drop Totals Voltage Totals Voltage Device 1 r a ° - 23.72 0.279 1.16% Current Distance Drop Current Distance Drop Device 2 „,,,,,,44,;‘"' r ,t r " + 23.55 0.451 1.88% 1.011 320 1.986 1.011 320 0.993 Device 3 + 1...,'.4 23.38 0.622 2.59% End of Line Voltage 22.01 End of Line Voltage 23.01 Device 4 ' I . ;� 23.25 0.754 3.14% Percent Drop 8.28% Percent Drop 4.14 Device 5 �� °' 23.19 0.812 3.39% Device 6 w " �,i 23.13 0.867 3.61% Device Manufacturer ' , . -.2 „s Device 7 ., _ 1" j ',"ii 23.07 0.933 3.89% Current Current Device 8 a € { f 22.91 1.090 4.54% @Rated @Rated I i C r o Volta Device 9 + " ® 22 1 .127 4.69 /o Model # Candela • Model # Candela Volta e Device 10 s a . 22.85 1.146 4.78% �j ? _ . r i 4 a �� , 'i a . Device 11 [ b 1 22.82 1.177 4.90% e 1. i. i. �.. � a q � 1� 1 : ' j ' . Device 12 [ .. 22.79 1.20 5.04% C r � ' € .a` a 3 . �� END Ewe.. .. .. . .... � . 22.79 1.209 5.04% __..., .._ j i ..... .... t , .._.; f , , , -` ` a w _ i 4 . i . y p END ?E .. J 22.79 1.209 5.04% .._ 1r. vm L . - l' '' ' f END [ 22.79 1.209 5.04% r : '_ g , 4 .. pc. .. It 41. ' m , END ',,. ... =z 22.79 1.209 5.04% . - E. "' f ��,]t tL .Ji.M �,u END ,. 22. 1.209 5.04 t o _ , s. END v 7 22.79 1.209 5.04 % _.W...� : , " .,}° ' > 7 END d 22.79 1.209 5.04% ,.., j : .. F. - P ,. st F � END : 22.79 1.209 5.04% x . - e t " .: '- -: ' 1:.:.1t * ::I. � -�t ? Totals 1.011 320 End of Line Voltage 22.79 This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not ex ceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name i r i e ..'k` ; t..aF+ ' °° CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 3 Circuit Number :3 7 �.,_ �.�, � ,•_ �.� , End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered g� i "i i.IL.A-',.: - ' Nominal System Voltage f Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage ; '.Tii 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 1.038 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gau • e Per 1000 Notes: Distance from source to 1st device , + '1"°''''14, ::. 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit 14 ., 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering Method Number Current device Device source Dro• Totals Voltage Totals Voltage Device 1 + 100 23.36 0.637 2.66% Current Distance Drop Current Distance Drop Device 2 +I 1c - 22.96 1.037 4.32% 1.038 465 2.964 1.038 465 1.482 Device 3 +i r ;+ 22.65 1.351 5.63% End of Line Voltage 21.04 End of Line Voltage 22.52 Device 4 ' + 22.58 1.420 5.92% Percent Drop 12.35% Percent Drop 6.17% Device 5 ' r ■ ' %W 22.50 1.495 6.23% l _' " ., 22 .47 1.533 6.39% Device Manufacturer Device 6 yh � • -sor . . Device 7 „, 22.33 1.668 6.95% Current Current Device 8 L " , . ' 22.26 1.735 7.23% @Rated @Rated END ., " ',,.;-.4) 22.26 1.735 7.23% Model # Candela Voltage Model # Candela Voltage n : END , f 22.26 1.735 7.23% ° c -F' [ , + + ' : � o END ' 22.26 1.735 7.23% t 1 L : l T ' i ,. �; 'r' a k ' - f ',...ii END j 22.26 1.735 7.23 %7.23% 7.23% . i �':_. �.„��' n � �_ & s .. � END j....__. � ,e w END : _ 3 22.26 22.26 1.735 1.735 . . .... ..H ..n _ i T.. END ...�.�. ,._ 1 ..n 22.26 1.735 7.23% � � u2 ..... `[. _ ... r i ;'r : v v f id: END L. __. _ ,, 22.26 1.73 7.23% [_ „ . '' ._..,. :.' sue' l ; 1 END I.; 36 ... < 22.26 1.735 7.23% .. _ ' ;f `.. ' '�� END r -9 22.26 1.735 7.23% v ,� , ^ 3 .,..�: -+ END < 22.26 1.735 7.23% . 7i1. _ i`_ END ., s` J 22.26 1.735 7.23% a 'max __.... t .... _.... , ,z" .., ., + °_ Totals 1.038 465 End of Line Voltage 22.26 • . This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name : .t ,i1.",1-, :1.‘i,! ' . t V.i CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date ',( i Circuit Number A�_ ,_ � � r e �,„ _ ___� - . End of Line and Load Centering Methods use only the wire guage for the first device to source ,;� . � � �, Area Covered N ', , ', ' - , Y , r . g - = p ciator'Po*er Nominal System Voltage Z ., Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage ` : ' M • 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.511 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gauge Per 1000 Notes: Distance from source to 1 st deviceL .';220 's'� 1 4- 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit I 14 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering M ethod Number Current device Device source Dro• Totals Voltage Totals Voltage Device 1 1s 220 23.31 0.690 2.88% Current Distance Drop Current I Distance Drop END,.' 23.31 0.690 2.88% 0.511 220 0.690 0.511 220 0.345 END ,:o 23.31 0.690 2.88% End of Line Voltage 23.31 End of Line Voltage 23.65 END ";.,.....-e _s 23.31 0.690 2.88% Percent Drop 2.88% Percent Drop 1.44% END _ 07.00? 23.31 0.690 2.88% END 7.. 23.31 0.690 2.88% Device Manufacturer Notifier END 7 23.31 0.690 2.88% Current Current END i , , a ,, . t ;'" 23.31 0.690 2.88% @Rated @Rated END C �'1 ,. 23.31 0.690 2.88% Model # Candela Voltage Model # Candela Volta •e END r:.j; 23.31 0.690 2 .88% if t C END r 23.31 0.690 2.88 % � s s a END i I. TA 23.31 0.690 2.88% . L tr..11., -,,, L A L , ' ''., t i - END � s: , „ 23.31 0.690 2.88% ,' a � END - '.$= . 23.31 0.690 2.88% END . e -' 23.31 0.690 2.88% , END r 23.31 ° w �> ,,t : ak <r�. ��. >" 0. 690 2.88 /o �;.. � E � �._ ; , END 23.31 0.690 2.88% 1 ..., v,.. „, , .,; END 23.31 0.690 2.88 /0 r - ° s END 3- ,' "`, 23.31 0.690 2.88% .. ,, : t '..1..„j;.;” jim END ,, 23.31 0.690 2.88% ., c.w.,; ...._,w . _, .... -, u W 2 I .W; m. 4f ' z Totals 0.511 220 End of Line Voltage 23.31 U. • . , This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name i. I r -',1L' • : .4 . r . . " °: CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date ' ` 42 + . Circuit Number,„ ��X j End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered E a a t . La;'. age A.A Nominal System Voltage r2'xE,7 Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage w :7,`,,, + 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.800 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gau• a Per 1000 Notes: Distance from source to 1st device ; • :. 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit ,_ .. ` 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering Method Number Current device Device source Dro• Totals Voltage Totals Voltage Device 1 F + $ +'+ 85 23.58 0.418 1.74% Current Distance Drop Current Distance Drop Device 2 ' . +1 ' ; 30 23.47 0.528 2.20% 0.800 190 0.933 0.800 I 190 0.467 Device 3 + + "+ '` 5 23.41 0.589 2.46% End of Line Voltage 23.07 End of Line Voltage 23.53 Device 4 �,� 1 ..,t 'v+1 23.35 0.651 2.71% Percent Drop 3.89% Percent Drop 1.94% END . . " 23.35 0.651 2.71% END =a . " -, 23.35 0.651 2.71% Device Manufacturer Existi t.Device, END i .. ,,.;;_ i 23.35 0.651 2.71% Current Current END '' 1 , 23.35 0.651 2.71% @Rated @Rated END !,, ' 23.35 0.651 2.71% Model # Candela Volta • e Model # Candela Volta • e END [ ; [ :.. ] 23.35 0.651 2.71% • � - r ��I Y+:.. i� i� � � � .,sz. �y��,02 E .s �,.: �' �1 [ :, END € '3 23.35 0.651 2.71% f r t END _ . 23.35 0.651 2.71% E �• • •.. 9 , j 1 [ i t END [ ' I _ .. .1 23.35 0.651 2.71% • • ;'xwemA. d'f`� at+ '" I k : ryy 9 END r ; 23.35 0.651 271% o s jr_ _ 1. END 1 �J 23.35 0.651 2.71% : .< ? - __r__ _. j 1 �. ,m END [ tI _j 23.35 0.651 271% t i.1 , : L. -:::;,� .. 7 ��..%.., : �. _ �t � END [ [ 71 23.35 0.651 2.71% , �� 7 � � r 7 7 1 w END '1 .t. 23.35 0.651 2.71% r ; _' -- .. ' jf � ' h � �7 END aI 23.35 0.651 2.71% t. : ; ,: 2 y J �� 1, END I' 23.35 0.651 2.71% ., s l ; 1 A : s Totals 0.800 190 End of Line Voltage 23.35 P- e This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name �� +ice -y. '9 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date Circuit Number s' =� �> Tom. End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered ��- Nominal System Voltage ma ',di' 4 Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage 4: 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.087 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gauge Per 1000 Notes: Distance from source to 1st device =1 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit g- 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering M ethod Number Current device Device source Dro• Totals Voltage Totals Voltage Device 1 23.92 0.083 0.34% Current Distance Drop Current Distance Drop END 23.92 0.083 0.34% 0.087 155 0.083 0.087 155 0.041 END 23.92 0.083 0.34% End of Line Voltage 23.92 End of Line Voltage 23.96 END ;. 23.92 0.083 0.34% Percent Drop 0.34% Percent Drop 0.17% END 1 23.92 0.083 0.34% END 1 23.92 0.083 0.34% Device Manufacturer Notifier END L. taW 23.92 0.083 0.34% Current Current END l 23.92 0.083 0.34% @Rated @Rated END ; 23.92 0.083 0.34% Model # Candela Voltage Model # Candela Voltage END d � �, t . �� , 23.92 0.083 0.34% e END 23.92 0.083 0.34% r « °. END ; 23.92 0.083 0.34 % > dl6 - ...�... .., . A END j 23.92 0.083 0.34% 1.: i. h END 3 23.92 0.083 0.34% END f 23.92 0.083 0.34% $[ if END 1 � .� 23.92 0.083 0.34% _ ., ., END � 23.92 0.083 0.34% V17 � ”., ? r ' END 23.92 0.083 0.34 % �$ END_.._ :.( 23.92 0.083 0.34% ; � i .- .. -. ° -e END x 23.92 0.083 0.34 % , ` Totals 0.087 155 End of Line Voltage 23.92 • • • I • 4 . This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name c, - r. : -c $ - .. CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date Circuit Number -: r,,, a ��::::, ., ,'.. _. `_ End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered Cili ��t q Li.:lil. l ! Nominal System Voltage >.. Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.087 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gau • e Per 1000 Notes: Distance from source to 1st device _- • M ' 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit t 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering Method Number Current device Device source Dro. Totals Voltage Totals Voltage Device 1 + M 40 23.98 0.021 0.09% Current Distance Drop Current ' Distance Drop END ° _ °,. 23.98 0.021 0.09% 0.087 40 0.021 0.087 40 0.011 END `'� 23.98 0.021 0.09% End of Line Voltage 23.98 End of Line Voltage 23.99 END 23.98 0.021 0.09% Percent Drop 0.09% Percent Drop 0.04% END ,a ,:_ 23.98 0.021 0.09% END 23.98 _ 0.021 0.09% Device Manufacturer r!=i "_ °.z END " ' 23.98 0.021 _ 0.09% Current Current END 23.98 0.021 0.09% @Rated @Rated END 23.98 0.021 0.09% Model # Candela Volta • e Model # Candela Volta • e o ffi T� , , ,. END 23.98 0.021 0.09 /° 1, , n i END e ° o ; 3 :....__. . u: ,.i 23.98 0.021 0.09 /° � i ._ . ,_��..- .. �..�..•° -. END [ ' 23.98 0.021 0.09% .t ;I o€ END . 23.98 0.021 0.09% l r, u J 3 END r, 23.98 0.021 0.09% '° _ i LI' END .... ... t a ,_..__v � 23.98 0.021 0.09% e;H �. :. n . ,� ... _ . -.j _ .__.. �. ... � , �. i � �. , ,,� : � 1 END _ � 23.98 0.021 0.09% 1, T n ,f�;fi , . ��' '� r ‘ , < ^{ ,: END e 23.98 0.021 0.09% " " F r , , « - f , 1l . 23.98 0 .021 0.09°/,_ <t END �.a_�� ° `� M d� �` � � �� r: €� ,i...7-7,""'.1.777.1 END [ � 23.98 0.021 _ 0.09% '....:2-.:11 1 � ' END ' c o a s , n , N ,:i r11:47,77,1 b �z __.. 23.98 0.021 o.os /° � �L _ . b , � � � � ��r Totals 0.087 40 End of Line Voltage 23.98 r l s This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jur Point to Point Method End of Line Method Load Centering Method Project Name , -„ Ii °4t ,.�1,, . _ ., , = CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS voil- ro,„*7 Date 1, q M gr Circuit Number ,,, , ` � s , . i:= End of Line and Load Centering Methods use only the wire guage for the first device to source Area Covered 'sue ,� � ��'��,;; � '`� Nominal System Voltage - •x. ,o Standard Wire Resistance in Ohms per 1000 feet. Minimum Device Voltage ` ° 20:4 18 =7.77 16 =4.89 14 =3.07 12 =1.98 10 =1.24 Total Circuit Current 0.000 Wire Ohm's 18 -14 Awg = Solid Conductors 12 -10 Awg = Stranded Conductors Gau. a Per 1000 Notes: Distance from source to 1st device �^ „r1:31 z -:. 3.07 Wire resistance is doubled in the calculations for two wires (Positive and Negative) Wire Gauge for balance of circuit 4 --4 3.07 The voltage calculated to the last device in any method must not be lower then Enter current in amps. Distance the manufactures listed minimum operating voltage (IE: rated operating voltage 20 -32 VDC). .150 = 150 ma from Voltage Alternate Calculations Device Device previous At Drop from Percent End of Line Method Load Centering Method Number Current device Device source Dro. Totals Voltage Totals Voltage Device 1 0 24.00 0.000 0.00% Current Distance Drop Current Distance Drop END p"% 143 �` ' 24.00 0.000 0.00% 0.000 0 0.000 0.000 0 0.000 END r . 24.00 0.000 0.00% End of Line Voltage 24.00 End of Line Voltage 24.00 END '! 24.00 0.000 0.00% Percent Drop 0.00 %l Percent Drop 0.00% END ,, 24.00 0.000 0.00% END -, -. g' 24.00 0.000 0.00% Device Manufacturer ;”: END ` i 24.00 0.000 0.00% Current Current END tiL, 24.00 0.000 0.00% @Rated @Rated END , 24.00 0.000 0.00% Model # Candela Volta. a Model # Candela Volta. e END ... , 24.00 0.000 0.00% : > ... END 24.00 0.000 0.00% ,, « END 24.00 0.000 0.00% .° �. s END 24.00 0.000 0.00 % �.a.: ..1 � _ I ,..._ ; .. _ „ x : ' r � i . ,. m � .. :L � C f Y ..o- . END [ , .�;� . ', 24.00 0.000 0.00% �:..,_... .�,_.,. � .., � . H , • � �.�,.. .. � , END L_ . 24.00 0.000 0.00% , tl ; ,I m A [„ i. , j � . s� ... F .. mom. e, , ., m . . ...� .. i a e v a . e,,,,, END ' �` 24.00 0.000 0.00% n F END .0 1 24.00 0.000 0.00% @ 1: i r _ s o : .. ^ "" r ,;. � Ti' �..� END ? : 24.00 0.000 0.00% _____11._,, � � _ �� - �a��a '� �,� ..� ' :" END ...W.. 4 24.00 0.000 0.00% L. <.. , : " , x....; ‘ �° :.: ;r' ...„ z M END , % n `;: 24.00 0.000 0.00% , ' ma ' ; _- ::,S Totals 0.000 0 End of Line Voltage 24.00