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Specifications • • PSZo f 2 - aad35 1 S 73 1 , I B °CP • SIEMENS Siemens Infrastructure & Cities 15201 NW Greenbrier Pkwy, Suite A4 Beaverton, OR 97006 Phone: (503) 207-1900 Fax: (503) 207 -1901 Siemens Infrastructure & Cities Fire Alarm System Contractor General Contractor Electrical Contractor • • • .FIRE ALARM SUBMITTAL Washington Square THE BODY SHOP Suite H -11 Siemens Job Number 440P- 105152 Siemens Project Manager Charles Hughes • Submittal Version Date Siemens Project Engineer Marc Sobottke Issued For Pcrmir/Constructron 01/18/12 Proprietary document for approval only • • Table of Contents SIEMENS 1 BILL OF MATERIAL & COMPONENT SPECIFICATIONS 2 BATTERY CALCULATIONS SIEMENS Fire Safety FP -11 FirePrintTM Detector Intelligent Fire Detector for MXL, MXL -IQ, and MXLV Control Panels ENGINEER AND ARCHITECT SPECIFICATIONS • Most Sophisticated "Detector Intelligence" available today • Multi- Criteria fire detection for the price of a photoelectric detector • FirePrintTMTechnology to discriminate between deceptive phenomena and an actual fire • Easily programmed to match specific hazard profiles from the control panel • Pre -Alarm reporting based on fire profile selected • Remote sensitivity measurement capability • System logic activation based on any of three inputs from detector (smoke, heat or neural network) • Field cleanable chamber with replaceable chamber parts available • Multi -color detector status LED w • Two-wire operation • Compatible with Model DPU or FPI -32 field programmer /tester • Supports EnviroLINK software based automatic a environmental compensation • Backward compatible with older MXL systems (Rev. 2 and above) • Optional fully programmable relay base , audible base, and duct housing • ® UL Listed, ULC Listed, CSFM, FM, NYMEA U� Approved Introduction The FP -11 Intelligent Fire Detector provides the life need for cumbersome, unreliable mechanical program - safety industry with the most highly evolved detection ming methods and reduces installation and service system available today. The FP -11 utilizes advanced costs by electronically programming and testing the detection technology that allows the detector to detector prior to installation. distinguish nonthreatening deceptive phenomena, such as cigarette smoke, from actual fire hazards, while The FP 11 fire detector is compatible with the MXL optimizing detection for the area in which it is in- family of control panels including the MXL, MXLIQ, stalled. No other detection system available today and MXLV. offers a higher level of protection or nuisance The FP -11 detector is Underwriters Laboratories and alarm immunity. The FP -11 uses state -of- the -art Underwriters Laboratories of Canada Listed. microprocessor circuitry with error check, detector self- diagnostics and supervision programs. Description The FP 11 intelligent fire detector is compatible with The FP -11 is a plug -in, two -wire, multi- sensor detector the Siemens Building Technologies, Fire Safety Divi with both photoelectric and thermal inputs and is sion, Model DPU or FPI-32 field programmer /tester, compatible with the MXL family of control panel which is a compact, portable, menu - driven accessory systems. Each detector consists of a dust resistant, for electronically programming and testing detectors, field cleanable photo chamber, a solid state easily and reliably. The DPU or FPI -32 eliminates the CATALOG NUMBER 6175 • • non- mechanical therriaT sensor, microprocessor based evaluating this information with sophisticated electronics with a low- profile plastic cover and base. mathematical formulas, or algorithms, comparing this The FP -11 utilizes state -of- the -art ASIC and surface input to characteristics of both threatening fires and mount technology for maximum•reliability.: Every -. deceptive that would "fool "'any ordinary - • -- fire detector is shipped with a protective dust cover. detector. This technology was developed over years of research and reviewing the results of over 20 years of The FP -11 fire' detector utilizes an infrared light fire test data in one of the world's most advanced fire emitting diode ( IRLED); and light sensing photodiode. research centers. The results of this research are the Under normal conditions, light transmitted by the LED mathematical models that form the algorithms used in is directed away from the photodiode and scattered FirePrint. No other fire detector has this level of through the smoke chamber in a controlled pattern. intelligence or this amount of. research and develop - The smoke chamber is designed to manage light ment supporting it's design. dissipation and extraneous reflections from dust particles or other non -smoke airborne contaminants in The microprocessor's software can identify and such a way as to maintain stable, consistent detector disregard false input caused by radio frequency (RFI) operation. When smoke enters the detector chamber, and electromagnetic (EMI) interference, and validates light emitted from the IRLED is scattered by the all trouble conditions before annunciating or reporting smoke particles and is received by the photodiode. to the control panel. The FP -11 detector's microproces- The FP 11 also utilizes a modern, accurate, shock- address and other critical operating parameters which sor uses an integral EEPROM to store the detector's e ur resistant also stor to sense mod rn, acc ar a re changes. include the assigned program values for alarm and The "on- board" FirePrint technology allows the trouble thresholds. Communications within the detector to gather smoke and thermal data, and to detector itself and between the FP -11 and the control analyze this information in the detector's "neural panel, or with the FPI -32 field programmer /tester, are network: By comparing data ,received with the supervised and safeguarded against disruption by common characteristics of fires, or fire fingerprints, reliable, microprocessor based error checking routines. the FP -11 can compare these "Fire Prints" to those of Additionally, the microprocessor supervises all deceptive phenomena that cause other detectors to EEPROM memory locations and provides a high alarm. The advanced FirePrint technology allows the degree of EEPROM failure fault tolerance. FP -11 to accurately determine a true fire hazard from a nonthreatening deceptive phenomena WITHOUT In MXL(V) applications, the FP -11 determines its needing to use alarm delaying verification and confir- operating status to be normal, in alarm, or in trouble mation techniques, which can increase the probability depending on the difference between the alarm . of losses due to fire. threshold values stored in the detector's memory and the detector's latest analog measurement. The The FP -11 provides the highest level of detector detector then communicates changes in its status to intelligence available today with a detector /control the control panel. panel link that allows the user to program the detector for the specific hazard profile Detectors are optimized In addition, the MXL(V) control panel will sample the • by selecting one of the following applications: value of the FP -11's analog signal over,a period of time in order to determine if those values indicate exces- • Office /Retail sive buildup in the.photo chamber; if so, the MXL(V) • Lobby will indicate that the particular detector requires • Computer Room maintenance. • Dormitory • Healthcare The FP -11 is listed as a self- testing device. The FP -11's • Parking Garage visible light emitting diode (LED) flashes green every • Utility/Transformer Room 4 seconds to indicate-it is communicating with the • Hostile Environment control panel and that it has passed its internal self- • Precious Storage test. Should the detector sense a fault or failure within • Air Duct its systems, the LED will flash amber and the detector • Warehouse /Light Manufacturing will transmit that information to the control panel. A quick visual inspection is sufficient to indicate the The software does the rest; no guessing on detector condition of the detector at any time. If more detailed sensitivities or alarm verification; the control panel information is required, a printed report, can be • • programs the FP -11 detector for the protected area provided from the MXL panel indicating the status : • without hassle and without confirmation delays. and settings assigned to each individual detector.. Once optimized for the hazards in the protected area, the FP -11 provides the best detection you can buy. When the FP -11 moves to the alarm mode, it will flash . Should the operator or installer forget to program the amber and transmit that information to the control detector, the FP -11 will revert to a default setting that panel. When the MXL(V) confirms the detectors allows it to operate as a standard photoelectric or condition, the panel will instruct the FP -11 to flash red photothermal detector. and to continue flashing until the system is reset at the control panel. At that same time, any user defined The FP -11's FirePrint technology monitors input from • both the photo chamber and the thermal sensor, • • • system alarm functions programmed into the system All FP -11 detectors are approved for operation within are activated: Each FP -11 detector can operate one the UL specified temperature range of 32 to 100 remote alarm indicator, one auxiliary relay, or one degrees F (0 to 38 degrees C). audible base. - - -- • - - - -- • • — — Detector sensitivity, calibration, and identification are Application Data dynamically supervised by..the control panel. Detector Installation of the FP -11 series of fire detectors sensitivity and pre alarm levels are a function of the requires a two-wire circuit of 18 AWG (minimum) application chosen at the control panel and are thermoplastic fixture wire enclosed in conduit, or 18 controlled by the panel. If an alternate, non - FirePrint AWG limited energy, shielded cable without conduit, mode is selected, then the sensitivity can be changed if permitted by local codes. Field wiring should from the control panel. conform to local and National Electric Codes and the • The DPU or FPI -32 Program/Test accessory is used to control panel wiring specifications. program and verify the detector's address. The "T- tapping" is permitted only for Style 4 (Class B) technician selects the accessory's program mode to wiring. enter the desired address. The DPU or FPI -32 auto- matically sets and verifies the address and tests the FP -11 fire detectors can be applied within the maxi - detector. It also allows the user to change the device mum 30 foot center spacing (900 sq. ft. areas) as ID from that of an FP -11 to an older detector ID such as referenced in NFPA 72. This applications guideline is an ILP -1, ILPT -1, ILP -2, ID -60P or ID -60PT to allow for based on ideal conditions, specifically, smooth ceiling easy replacement of older detectors without the need surfaces, minimal air movement, and no physical of reprogramming the control panel. obstructions between potential fire sources and the detector. Do.not mount detectors in close proximity The FPI -32 operates on AC power or rechargeable to ventilation or heating and air conditioning outlets. batteries, providing flexibility and convenience in Exposed joints or beamed ceilings may also affect safe programming and testing equipment almost anywhere. spacing limitations for detectors. Should questions When in the test mode, the DPU or FPI -32 will perform arise regarding detector placement, observe NFPA a series of diagnostic tests without altering the 72 guidelines. address or other stored data, allowing technicians to determine if the detector is operating properly. Good fire protection system engineering and common sense dictate how and when fire detectors are The FP -11 fire detector may be installed on the same installed and used.. Contact your local Siemens initiating circuit with•IL or ID series detectors (Photo- Building Technologies; Fire Safety Division authorized electric, thermal, or ionization), MSI series manual sales outlet whenever you need assistance applying : stations, TRI series interfaces, ICP output control FirePrint in unusual applications. Be sure to follow • • .. devices, or CZM series of addressable, conventional NFPA guidelines„ UL /ULC approved installation - zone modules. • - instructions, which are included with every detector, All FP -11 detectors can be cleaned in the field, when and -local codes as for all fire protection equipment. required, by simply removing the detector cover and • unsnapping the •photo chamber. There is also the Dimensions • option of cleaning the interior of the detector with a clean, soft cloth or brush, or replacing the labyrinth and 6° Diameter Base bug screen included in the detector maintenance kit, model DMK -11. The FP -11 uses the low profile surface mounting base, • model DB -11. This base mounts on a 4 -inch octagon, — square, or a single gang electrical box. The base 2.3° � � l' � utilizes screw clamp contacts for electrical connections Overall • '1 and self- wiping contacts for increased reliability. The Height / base can be used with the optional LK -11 detector ��-'•\` » locking kit which contains 50 detector locks and an . 1 installation tool, to prevent unauthorized removal of the detector head. The DB -11 base has integral decora- • tive plugs to cover the outer mounting screw holes. The FP -11 is electrically compatible with existing MXL detector accessories including relays, remote lamps, duct housings, and audible bases. With duct housings, • a base adapter and new detector housing cover are required (order AD -11 UK upgrade kit). To use existing DB -3S base or audible base, the FP -11 requires a DB- ADPT base adapter. Technical Specifications Current Requirements: Normal 750 pa Alarm 750 pa Operating Temperature: +32 °F (0 °C) to 100 °F (38 °C) per UL 268/268A Humidity: 0 -93% Relative Humidity Non - Condensing Ordering Information Part Model Description Number FP-11 Addressable FirePrint Fire Detector 500-095112 DB -11 Detector Mounting Base for Series 11 500- 094151 DB -11E Detector Base (Small) 500- 094151E AD2 -P Air Duct Housing for use with FP -11, HFP-11, HFPO -11, 500-649706 PE -11 AD2 -XHR Air Duct Housing for use with FP-11, HFP -11, HFPO -11 500- 649708 - • with relay ADBX -11 Audible Base 500- 096181 DB -X11RS Relay Base for Series 11 Intelligent Detectors 500-096125 RU -1 Remote (red) alarm indicator- 4' octagon box mount 500- 390673 RU -2 Remote (red) alarm indicator- single gang box mount 500- 390674 LK -11 Base Locking Kit for Series 11 detectors 500 - 695350 DMK -11 Series 11 Maint Kit (replacement labyrinth and bug 500- 695338 bug screen) DB -ADPT Base Adapter to DB-3S Base 500 - 094187 In Canada Order: FP -11 C Addressable FirePrint Fire Detector (ULC) 500- 095112C DB -11C Detector Mounting Base for Series 11 (ULC) 500- 095687 AD -11PC Air Duct Housing (ULC) 500- 095984 DB-X11RSC Relay Base for Series 11 Intelligent Detectors (ULC) 500- 096125C ADBX -11C Audible Base for Series 11 Intelligent Detector (ULC) 500- 096181C Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 5/06 Brampton. Ontario Siemens Building Technologies Tel: (9731 593 -2600 10M Canada L6T 5E4 g g 12S FAX: (9731 593 -6670 SFS-G Tel: (905) 799-9937 May 2006 Fire Safety Website: www.sbt.siemens.com /f is Printed in U.S.A. FAX: (905) 799 -9858 Supersedes sheer dated 6r03 • • . SIEMENS Fire Safety Installation/Wiring Instructions MODEL DB- 11/ -11E DETECTOR BASE END OF LINE DEVICE (NOTE POLARITY • DB- 11/ -11 E (NO REMOTE DEVICE) DB -HR (REMOTE RELAY BASE) WHEN APPLICABLE) + lb 1b TO INITIATING • • / SEE REMOTE DEVICE INSTRUCTIONS FOR WIRING DETAILS: + CIRCUIT OF 1 a 1 b INSTALLATION SBT, INC. DEVICE INSTRUCTIONS COMPATIBLE 5 6 RR -11 P/N 315 - 094924 CONTROL UNIT A t • 6 RLC -11, RLW -11 P/N 315-094925 — SEE CAUTION 1 5 RSAC -11, RSAW -11 P/N 315- 094926 / MULTIPLE REMOTE DEVICES CAUTION: If remote devices are supported by the initiating circuit, each detector/base may . 1. Do not use looped wire under base terminal 5. Break wire have up to 2 remote devices with the following configurations and restrictions only: run to provide supervision of connection. Remote Remote Device 1 Pevlce 2 Restrictions • 2. When a'remote relay is used to control a critical system RR -11 RLC -11, RLW -11 See Caution 2 - function, the relay and its associated detector and optional . RR-11 RSAC -11, RSAW -11 See Caution 2 y p RLC -11, RLW -11 RSAC -11, RSAW -11 Wire from base to module(s) must be the ONLY devices On the initiating circuit. RLC -11, RLW -11 RLC -11, RLW -11 RSAC -11 /RSAW -11 to RL -11 Figure 1 Wiri Diagram for DB -1.1 / -11 E using PE -11, PE -11 T, and DT -11 Detectors '+ DB- 11/ -11E (NO REMOTE DEVICE) + + DB -11XRS (REMOTE RELAY BASE) + + + TO NEXT BASE DO NOT / END OF LINE . A°6Ik • :1. DEVICE TO INITIATING 5a OPTIONAL — • 1 5+ • l5+ • CIRCUIT OF REMOT • 1 RELAY' • 11 - SBT, INC. ALARM 11 I ( NO C CONTACTS • • I( ; COMPATIBLE . 6 1 b INDICATOR 10 01 M • • J (NE • ■ }3A, 120 VAC . �F' ( NO :4- CONTROL UNIT �fr O MODELS 6 la 3A, 30 VDC 4 DO NOT RLI -1 / RLI-2 USE AN ell _ / — — — — / END OF. — , LINE TO NEXT BASE DEVICE The relay contacts are shown in the Non -Alarm /System Reset condition. Figure 2 Wiring Diagram for DB -11 / -11 E using FP -11, FPT -11, FS -DP, FS -DPT, and FS -DT Detectors DB -11 (NO REMOTE DEVICE) DB -HR (REMOTE RELAY BASE) TO NEXT BASE DO NOT LINE 1" eiI / /..___0, USE AN END OF LINE �� DEVICE TO INITIATING 5 1 a OPTIONAL • 5+ 5 la 5+ ■ CIRCUIT OF REMOTE � RELAY' • SBT, INC. ALARM 1 TB1 ill • 11 (Na O • CONTACTS 6 1 b II • NO • MI COMPATIBLE 6 1b INDICATOR TB20— 1 • ) ( • W }3A, 120 VAC . )6 — lNC •�� CONTROL UNIT • 0 MODELS 3A, 30 VDC ' DO NOT RL -HW / RL-I 0TB3 USE AN gill — /____,, END OF LINE 2" / LINE The relay contacts are shown in the Non - Alarm /System Reset condition. TO NEXT BASE DEVICE "HFP -11/ HFPT- 11/HFPO -11 SFP -11 /SFPT- 11/SFPO -11 is a polarity insensitive detector. Line 1:and Line 2 can be either line of the loop. NOTE: SFP -11 Series detectors are approved for use in Canada only. . Figure 3 Wiring Diagram for DB -11 / -11 E using HFP -11 Series and SFP -11 Series Detectors _ . • Siemens Building Technologies, Inc. Siemens Building Technologies, Ltd. Model DB -11 / -11 E 8 Fernwood Road 2 Kenview Boulevard Florham Park, New Jersey 07932 Brampton, Ontario, Canada L6T 5E4 ( /N 500 - 0941511500 - 094151 E) • • • • • • Siemens Building Technologies, Inc. Siemens Building Technologies, Ltd. Model DB -11 / -11 E 8 Fernwood Road 2 Kenview- Boulevard - Florham Park, New Jersey 07932 Brampton, Ontario, Canada L6T 5E4 (P /N 500 • DETECTOR AND BASE PLACEMENT ALARM LED USB111JUMPER LOCATION WITH KIT, ED P 500{99107 Detector and base locations shall follow the drawings DETECTOR IN O FORCONTINUITY STALLED CHECK WITH PE•11, provided or approved by Siemens Building Technologies, Inc. IN BASE � , , PE•11TDT1 DETEC or its authorized distributors. This is extremely important! The detector placements shown on these drawings were chosen¢° p ,,\��- , after a careful evaluation of all facets of the protected area. ), II, �� When drawings are not available, refer to Detector Placement �,, r nu' q ; section of detector Installation/Wiring Instructions and to�� o� / � a ~� NFPA Standard 72 and CAN /ULC -S524. BASE WIRING MouNTING 0 MOUNTING Siemens Building Technologies, Inc.'s detectors should be HOLE COVERS HOLES interconnected as shown in Figures 1, 2 or 3 and wired Figure 4 . to the panel following the wiring connection drawing Mounting.The DB -11 Base installed on the inside face of each control panel cover. NOTE: H Series devices are wired to the DLC or FS -DLC; S Series devices are wired to the FDLC. Note any limitations on the ALARM LEC LOCATION WITFACTORY number of detectors and restrictions on the use of DETECTOINSTALLED INSTALLE\ UMPER remote devices permitted for each circuit. ' "SSY6 d � ,, �� DETECTOR MOUNTING USING THE DB - 11/ - 11E BASE ' lb The detector is rovidd with a se arae base which aaches , • to a standard 4 inch square, 4 inch octagonal, or single gang 'lasr% electrical box, with the box size and depth required by the NEC for the number and size of conductors used. Wire size:.. - max - 14 AWG, mi- 18 AWG - Mo NTING HOLE Figure 5 Refer to Figures 4 and 5, as applicable. Mounting The DB-11E Base 1. Route all wires outward from outlet box. 2. When ALARM LED viewing is critical, position the LED mark in the base in the intended direction. 3. Route wires through the hole in the center of the base and mount base to outlet box. Make connections directly to the base terminals. Refer to Figures 1, 2 and 3 for details. 4. After all bases are installed, check loop continuity. Refer to the System Manual for the loop continuity check procedure.To allow for the continuity check with PE -11, PE -11T or DT -11 detectors, use DBJ -11 Jumper Kit, P/N 500 - 699167 (between terminals la and 1b) to complete the loop. Do not use a jumper for FP- 11 /HFP- 11 /FS/ SFP -11 family devices. 5. Continuity jumper must be removed from each base prior to installing detector. 6. To insure proper installation of the detector head into the base: a. Route wires away from connector terminals. • b. Take up all slack in the outlet box. c. Properly dress and position all wires flat against the base. - d. Check that screw terminals are tight. - • 7 (DB -11 only) Break off the two mounting hole covers, and insert in two outer base mounting holes. Installation Instructions P/N 315 - 094193 -8 • • PANEL BATTERY CALCULATIONS SIEMENS • • Washington Square . MAIN FIRE ALARM PANEL MXLV Requirement for standby current: 24 Hours Design Supervison Current = 31.13 Amp -Hr E Requirement for alarm current: 15 Minutes Design Alarm Current= 1.31 Amp-Hr E Spare Battery Capacity: 20 % Additional Capacity Current = 6.49 Amp -Hr Initiating Devices Assumed In Alarm: 10 % Battery AH requirement = 38.93 Amp -Hr CO . Battery Size' 55.00 Amp-Hr J Module Part Number 8 Description Quantity Module Current EOL Current Device Current Total Standby 24 VDC Module Current Main Control Panel 1 175mA 0.175 Amps MMB -1213 NAC Circuits 0 - 12mA per NAC . 0.000 Amps IAC Devices 0 1.1mA per device 0.000 Amps PSR -1 Remote Power Supply 0 70mA 0 0 0.000 Amps MKB-2. Main Keyboard 1 5mA 0 0 0.005 Amps RCC -1/1F Remote Command Center 0 • . 75mA 0 0 0.000 Amps Remote Command Center 0 75mA 0 0 0.000 Amps RCC -2 Remote Command Center w/ PIM -1 0 95mA 0 0 0.000 Amps . TSP -40 Printer 0 70mA 0 0 0.000 Amps O 10mA 0 0.000 Amps CSM -4 Controllable Signal Module 0 O 12mA 0.000 Amps CRM-4 Controllable Relay Module 0 15mA 0.000 Amps Active Relay 0 15mA per active relay 0.000 Amps CZM -4 Remote Conventional Zone Module 0 55mA c 0 0.000 Amps 0 • 3mA 0.000 Amps ALD -21 Analog Loop Driver 0 105mA 0 0.000 Amps • IAC Devices • 0 .1.1 mA per Device 0.000 Amps XLD -1 Analog Loop Driver 0 215mA 0 0.000 Amps IAC Devices 0 1.1 mA per Device 0.000 Amps }r CMI -300 CXL Interface Module 0 30mA 0 0 0.000 Amps C NET -4 Style 4 Network Interface Card 1 • 5mA 0 0 _ 0.005 Amps • V NET -7/7M Style 7 Network Interface Card 0 • 30mA 0 0 0.000 Amps NIM-1W Network Interface Module 0 - 70mA . 0 NA 0.000 Amps U REP -1 Netoork Repeater Module 0 40mA 0 0 0.000 Amps PS -5A Power Supply 0 1/4 of 5V Load 0 0 0.000 Amps PS-5N7 Network Interface/5V Poewr Supply 0 150mA . 1/4 of 5V Load 0 0 0.000 Amps . O MOI -7 Voice and Annunciator Driver 0 120mA 0 0 0.000 Amps • N MOD -16 Output Driver 0 2mA 0 0 0.000 Amps MID -16 Input Driver 0 2mA 0 0 0.000 Amps I0 8mA 0 0.000 Amps 0. CZM -1B0 Conventional Zone Module 0 5mA 0.000 Amps 3 NA 0.000 Amps Cr ICP -B6 Intelligent Control Point 0 18mA 2.5mA ' NA 0.000 . Amps PIM -1 Printer Interface Module 1 10mA 0 NA 0.010 Amps D2300CP Fiber Interface Module 0 50mA 0 0 0.000 Amps SK- 5128/51e Digital Communicator 0 60mA 0 0 0.000 Amps ACM -1 Audio Control Module 1 85mA 0 0 0.085 Amps DMC -1 Digital Message Card 1 50mA 0 0 0.050 Amps TMM -1 Telephone Master Module 0 . 71mA 0 0 0.000 Amps ASC -1 Audio Supervision Module 1 22mA 0 0 0.022 Amps ASC -2 Audio Supervision Module 0 39mA 0 0 0.000 Amps BTC -1 Backup Tone Card 0 • 44mA • 0 0 0.000 Amps EL -410D Amplifier Unit . . • 3 200mA 0 0 - 0.600 Amps OCC -1 Output Control Card 1 17mA 0 0 0.017 Amps RCM -1 Audio Riser Control Module 1 150mA 0 0 0.150 Amps VFM -1 Fan Control Module 0 17mA 0 0 • 0.000 - Amps Vt.M -1 LED Annunciator Module 0 17mA • 0 0 0.000 Amps VSM -1 Switching Module 6 17mA 0 0 0.102 Amps ZAC -30 Zone Amplification Card 0 160mA 0 0 0.000 Amps ZC1-8B Zone Control Card 4 19mA 0 0 • 0.076 Amps • ZC2 -4AB Zone Control Card 0 19mA 0 0 0.000 Amps 2C2-8B Zone Control Card 0 19mA 0 0 0.000 Amps ZC3 -4AB Zone Control Card 0 18mA 0 0 0.000 Amps ZCT -8B Zone Control Card 0 • 34mA 0 0 0.000 Amps Total Supervisory Current 1.297 Amps Proprietary document for approval only MAIN FIRE ALARM PANEL MXLV (Cont.) • 24 VDC Current 5 VDC Current Module Part Number 8 Description Quantity - . . - -- • - • • - - - • • • - Active! Module• • Total - Active I Module • Total" • - - MMB -1/2/3 Main Control Panel 1 0.175 500mA Provided PSR -1 Remote Power Supply - 0 70mA 800mA Provided PS-5A . Power Supply 0 0.000 1 Amp Provided' PS-5N7 Network Interface/5V Poewr Supply 0 0.000 . 500mA Provided MKB-2 Main Keyboard 1 0 . 0.000 15mA ' 0.015 • RCC -1/1F Remote Command Center 0 75mA 0.000 0 0.000 Remote Command Center 0 75mA 0.000 0 0.000 RCC -2 Remote Command Center w/ PIM -1 0 95mA 0.000 0 0.000 • TSP-40 Printer 0 70mA 0.000 0 0.000 • i.+ CSM-4 Controllable Signal Module 0 34mA • 1.5A / circuit 0.000 30mA. 0.000 C CRM-4 Controllable Relay Module 0 75mA 0.000 30mA 0.000 L CZM-4 Remote Conventional Zone Module 0 - 720mA 0.000 24mA 0.000 L ALD-21 Analog Loop Driver 0 1O5mA i 1.1mA / device 0.000 0 0.000 U XLD-1 Analog Loop Driver 0 215mA • 1.1mA / device 0.000 0 0.000 CMI -300 CXL Interface Module 0 • 0 0.000 • 98mA 0.000 E NET -4 Style 4 Network Interface Card 1 0. 0.000 20mA 0.020 L NET -7/7M Style 7 Network Interface Card 0 . 0 0.000 120mA 0.000 NIM-1W . Network Interface Module 0. 0 0.000 160mA 0.000 Q REP -1 Netowrk Repeater Module 0 40mA 0.000: 0 0.000 . MOI -7 Voice and Annunciator Driver 0 120mA 0.000 • 175mA 0.000 13 MOD-16 - Output Driver 0 850mA 0.000 2mA 0.000 CO MID -16 Input Driver 0 32mA 0.000 2mA 0.000 • ...) CZM -1B6 Conventional Zone Module 0 50mA 0.000 0 0.000 ICP -B8 Intelligent Control Point 0 1.5A 0.000 ' • 0 0.000 ▪ PIM -1 Printer Interface Module 1 0 0.000 25mA 0.025 CL D2300CP Fiber Interface Module • 0 • 0 • 0.000 200mA 0.000 = SK- 5128/51; Digital Communicator 0 130mA 0.000 0 ' 0.000 • N ACM -1 Audio Control Module 1 85mA. 0.085 176mA ' 0.176 • TMM -1 Telephone Master Module 0 71mA 0.000 0 0.000 fly ASC -1 Audio Supervision Module 1 41mA • 0.041 29mA 0.029 ASC -2 Audio Supervision Module 0 61mA 0.000 29mA 0.000 a BTC -1 • Backup Tone Card 0 44mA 0.000 0 0.000 OCC -1 Output Control Card 1 17mA 0.017 . 22mA 0.022 ' • RCM -1 Audio Riser Control Module • 1 130mA 0.130 80mA . . 0.080 VFM•1 Fan Control Module 0 90mA • • 0.000 0 0.000 • VLM -1 LED Annunciator Module 0 160mA 0.000 0 0.000 VSM•1 • Switching Module 6 • . 160mA 0.960 0 0.000 • • ZAC -30 Zone Amplification Card 0 =: • • 3A @ 30 Watts . 0.000 0 • 0.000 • ZC1 -813 Zone Control Card 4 . 170mA . 0.680 • . 31mA 0.124 ZC2 -4AB Zone Control Card 0 167mA 0.000 . 30mA • 0.000 ZC2 -8B Zone Control Card 0 342mA 0.000 31mA 0.000 • ZC3 -4A0 Zone Control Card 0 168mA 0.000 28mA . 0.000 ZCT -8B Zone Control Card . 0 78mA 0.000 33mA 0.000 24 VDC Power Supply Needed MPS -6 24VDC Total 1.913 Amps 5VDC Total 0.491 Amps 24 VDC 8 5 VDC Total Panel Alarm Current{ 2.404 Amps 4-r Description Model Number Device Quantity Device Current Total Alarm 24 VDC CD Module Current 1 L • Photoeletric Smoke Detector I Thermal Detector FP -11 / FPT -11 0 0.00075 Amps 0.000 Amps U Digital Communicator SK- 512815129 0 0.154 Amps 0.000 Amps 30 Watt Amplifier ZAC -30 0 3.000 Amps 0.000 Amps 100 Wan Amplifier EL-410D 3 9.500 Amps 28.500 Amps O NAC•N1 0 0 Amps 0.000 Amps Q NAC -N2 0 Amps 0.000 Amps • . Total Field Device Alarm Current 28.500 Amps Current Footage Voltage of O Field Wiring Circuits Notes Draw of wire Drop Voltage Wire Guage • Drop Notification Circuit N1 0.000 0.00 0.0% 14 O Notification Circuit N2 0.000 0.00 0.0% ' 14 0) 0.00 0.0% 14 CO 0.00 0.0% 14 • O Note: All figures are approximate until actual conduit routing is obtained. FOR SAMPLE OF CALCULATIONS SEE VOLTAGE DROP CALCULATION SHEET Proprietary document for approval only [Page Too Large for OCR Processing] [Page Too Large for OCR Processing]