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Specifications FIRE ALARM RECEIVED SUBMITTAL O C T 2 0 2006 CITY OF TIGARD BUILDING DIVISION ROCK SOLID FELLOWSHIP SCHOLLS BUISNESS CENTER by SIEMENS Siemens Building Technologies, Inc. Landis Division 3025 SW Corbett Avenue Portland, Oregon 97201 Phone: 503.234.9995 Toll Free: 800.347.9995 Fax: 503.234.8030 Project 54 4) � 4 7 631 -PS -2750 /09,0 Project Manager 2066 -00YaS John Walton APPROVED PLANS IN LUDE UN- ATTACHED: SPECIFICATION BOOK Project Engineer _ STRUCTURALCALCS John Walton � GEOTECH REPORT . _ MISC DOCUMENTS October 9, 2006 Proprietary document " Table of Contents SIEMENS 1 BILL OF MATERIAL 2 COMPONENT SPECIFICATIONS 3 FUNCTIONAL MATRIX 4-- BA- T- T- E-R- Y -CAL-C U L-A -T-I O N S- -- - - 5 VOLTAGE DROPS I BILL OF MATERIALS SIEMENS ROCK SOLID FELLOWSHIP SCHOLLS BUISNESS CENTER 631 -PS -2750 Fire Alarm System Item Part # Mfg. Description 1 PS12/24 -8 WHEELOCK Power Supply 9 STB78 EST Air Sampling Tube - 78" Long 35 E70- MCW -FW WHEELOCK Multi - Candella Speaker Strobes 10 RSS- MCW -FW - WHEELOCK Multi - Candella Strobes 7 SIGA- CTI -LG EST Addressable Input Module 1 SIGA- CT2 -LG EST Dual Addressable Input Module • 5 SIGA -CR EST Control Relay Module 9 SIGA -DH EST Duct Det. Housing - needs base & 6261 1 SIGA -HTS EST Intelligent FT Heat Detector 46 SIGA -PS EST Intelligent Photoelectric Smoke Detector 47 SIGA -SB EST Detector Base - Standard 1 500- 694227 SIEMENS 100 Watt VoiceCom Panel 4 101 -SPK SIEMENS Supervised Speaker Loop Card Bill of Materials k tlEIVIENS Technical Specification Sheet Rev. 1, November, 1998 mum llllllllll�; f, 5������ ;�,�-r•,., ALS2 =' + i4 %77. 4 4- Analog Control Panel 4 * r` 11 11111111 ' 1M11i1Z:1111 41 i - '; ` .a • . , a 0 ?'M s � "� r .- +'� �; .1. _�+ ' The ALS2 Fire Alarm System is modular in design allowing ,; ▪ ., , ;;.,;.,;.,o- „, -., , � .. •_.. ,. systems to be easily configured to match installation requirements. With one Signature Data Circuit (SDC) ALS2 i• 3 Ij, �C is capable of supporting 96 detectors and 94 modules and has two built in Notification Appliance Circuits (NAC). The technology eliminates detector application guess -work. system supports the full line of Signature series detectors Identification of dirty or defective detectors is automatic and modules. ALS2's modular design means the system with ALS2. Maintenance scheduling is easy and effective, easily expands to two SDCs and four NACs by adding a ensuring that life safety protection is always maintained. In single 2 -LCX module increasing system capacity to 380 addition to Signatures inherent reduction of false alarms, points /zones with four built in Notification Appliance ALS2 allows the adjustment of detector sensitivity at Circuits. different times of the day. Make detectors more sensitive at times when transient smoke is not likely to occur (night The ALS2 provides an RS -232 port to facilitate computer, time) and less sensitive at times when transient smoke is coder and printer interfacing and an RS -485 communica- likely to occur. tion port for supporting remote annunciation. Annunciation of system events are displayed on a back lit LCD with ALS2 provides "Device Mapping.” This allows a laptop enhanced diagnostic LEDs on the front panel. There is computer to show how the Signature Data Circuits are space to add up to 48 additional points /zones of software wired. As -built drawings become very easy. controlled LED annunciation and switch control on the front panel. Both alpha- numeric LCD and annunciation LEDs are available for remote annunciation and control Features with the ALS 2 -LSRA and SAN series of annunciators. • Supports all Signature devices ALS2 features Auto Programming through the front panel • and Custom programming via PC laptop interface. The Autoprogramming of signature data circuits Auto Program mode will identify all devices on the SDC • Class B or A Signature data circuit(s), 96 detectors and and automatically assign addresses to each device. Then 94 modules per circuit • the auto programming feature automatically links the • Two integral class A or B notification appliance circuits proper response to the proper input, providing real time • Alarm, trouble and supervisory contacts savings during installation. • Prioritized status queues for alarm, supervisory, trouble Using the advanced Signature family of detectors and and monitor inputs modules provides a wide range of installation and opera- • 576 event history log tion benefits. Signature Series detectors and modules use Enhanced sensitivity reports. • Electronic Addressing — no dip switches or dials to set, speeding installation and programming. Multi- function and • Optional expander signature data circuit dual circuit modules reduce wiring costs. Multi - sensor • Designed and manufactured to ISO 9001 standards Document No. 152.459P25 Page 1 of 6 • tp _ Application The ALS2 design provides application flexibility with ALS2 has optional LED /Switch modules that mount right installation options that give site specific customization and beside the LCD and common control front panel. Annun- ' programming options that help satisfy local as well as ciation flexibility is further enhanced with a wide variety of national requirements. ALS2 provides a choice of power remote annunciation including remote LCD annunciators, supplies with 4.5 amp and 6.4 amp supplies available. remote LED annunciators and /or Graphic annunciators. Installation flexibility is provided with a choice of surface or Front panel diagnostic LEDs provide easily understood semi -flush mounting wallboxes. system status information. Standard software includes the ALS2 provides optional modules that ensure system following important features: customization and flexibility. In applications calling for TIMERS: coded signals, the optional CDR -3 module provides a Programmable timers give flexibility to Signal Silence choice of march time generator or'Positive Successive Inhibit, Reset Inhibit and Power fail trouble contact delay Non - Interfering (PSNI) outputs. CDR -3 outputs are operation. In addition the Notification Appliance Circuits selectable as a coded dry contact or supervised coded rate is selectable from steady, to Temporal, 120/20 or 1000Hz audio tone. The march time output provides a Temporal /20. continuous march -time beat at 20 or 120 beats per minute. The PSNI output provides up to four rounds of a unique DISABLE POINTS: • output code for each of up to 50 input conditions. The Specific devices on the SDC may be disable through unique output codes signal emergency response person- simple front panel controls providing protectiori from nel to the location of an alarm. unwanted alarms in areas with high concentrations of contaminates typically found when construction or For connection to a Central Monitoring Station the ALS2 renovation work is taking place. uses an optional built -in dual line dialer (DACT). The dialer . mounts right on the ALS2 main board reducing installation SENSITIVITY REPORTS: and maintenance costs. Multiple communication formats The sensitivity report provides detailed information on ensure compatibility with most Central Monitoring sta- individual devices such as threshold level in % of tions. obscuration, amount of environmental compensation remaining, device address and personality type. ALS2 provides individual status queues annunciating Alarm, Supervisory, Trouble and Monitor operations. When NO EVENT ACKNOWLEDGE. REQUIREDI The operator a device operates the appropriate queue's status LED may review events at any time from any of the event lights. Operator recognition of the active device type(s) is queues after "local Silence." When the operator has instantaneous. At the same time a programmed point or finished reviewing events, and activates the Alarm Queue zone description displays on the back lit LCD giving spe- the first alarm will return to the LCD. • • cific text information on the active device(s). Review • messages simply by selecting local silence, the queue . from the front panel and scrolling. The last 576 events can . be reviewed at any time via the enhanced History log. The . new enhanced history log contains the complete event message with LIFO protocol (last in first out) insuring the most current events are always logged. • • • • • • • • • Page 2 of 6 Siemens Building Technologies, Inc. r, . Typical AL S2 Panel Wiring 24 VDC RISER Class B Signature Data Circuit . INTEGRITY MONITOR CT HORN C•NTROL SUPERVISION - ' V _ ' V ' V ► y EOL RELAY O� CCI U 1 ►�� i ►�� • ► INF i1 • 4 1 ►r� IN J BOX �.r V 1 -I 0 Icc1I 2 Pr. — 2Pr. STROBE SUPERVISION & CONTROL 0 0 o 0 o 0 4 eiF 2 Pr.--= • FIRE DAMPER 3 FLOOR 2 Pr. 2 Pr. HORN SUPERVISION & CONTROL ICC1) a 0 0 �I, ^ 1 2 MULTIPLEXED CLASS 'B' NOTIFICATION APPLIANCE CIRCUITS l STROBE SUPERVISION • & CONTROL 0 © © © o © 0 0 0 0 MM 0 444© .© CRITICAL PROCESS © © © (3 0 4 F MONITOR F 2 FLOOR 2 Pr. 2 Pr. • Sij i ib i i ii) k() i NOTIFICATION All wiring is one pair of appropriately sized APPLIANCE conductors unless otherwise noted. 24 VDC CIRCUITS ri RISER LEGEND © MANUAL PULL STATION ON SIGNAL MODULE 0 ( CR g 0 O ° ro Cp WITH MAY MULE RELAY ®� I ELEVATOR S l © s B AS E MTh [$i INPUT MODULE CAPTURE • O SMOKE DETECTOR WITH I E9 UNIVERSAL INPUT/OUTPUT MODULE SIGNATURE WATERFLOW }} STANDARD BASE DATA CIRCUIT SWITCH CT I O JUNCTION BOX © MONITOR MIL — ®® SPRINKLER CT ® `NAT1ON E"°°P.LwE REasT°" SUPERVISORY HORMSTROBE Size conductors per application. SWITCH Refer to ALS2 Installation Manual ALS2 Panel for additional details. I Siemens Building Technologies, Inc. Page 3 of 6 4 Installation and Mounting AC Power MUST be run ONLY through the top left or upper left elde knockout. a� sa h h h h `/``!\� 11 E .. 77 - ...,.., Est \ FINISHED WALL +rNrA, I/V - M 1r 0S7en) (141, TOP VIEW 44 Surface Mounting ALL KNOCKOUTS F OR 12' & 3/4• CONDUIT raw • (1.27 & 1.9 an) 1'R61 us) -.r . h 6 FRONT VIEW 0 1 6 I p mai .; > 3� iz !i Ilt ❑ 0 0 _ SIN . • if IC 1�(.aa.4 11 Tiff Se e1B Dm cm) e : A § • 11 I Do NOT Install conduit In this area. +• a batteries Installed M cabinet 1■111111111M• AC Power MUST be run ONLY through E 7.7 U: � the knockout second from the LEFT < (7 4 +9 ,n) g GG ,. r € on the top of the enclosure n 7 E+I(4o.e4 on1 h it h h 13'(3.9 an �T • TOP VIEW „ FINISHED WALL • , k (SEMI-FLUSH MOUNT) I. R"O" � K K )I To open door greaterthan 16.474 (41.6 90 degrees, mount panel hi 1f2' (1.3cm) away from the finished wall F• 11• ( ^ e. ALL KNOCKOUTS - — — FOR 3/4' CONDUIT , — 6 FRONT VIEW 1 = F i dip (1.9 cm) , ,.......,...........4.....' 4. = Nis 7 �......._............... 8 of .. ............................... S if t.g emi -Flush Mounting i • 9: , „.. ,,, —_,.......„„.0 0 'i i P•E 1 q I _ _ Do NOT Install a `` ,�`r ,, a 1 conduit In this area t ,.. - `' ,, 1 - ; - •ao., , „) b (Battery location) .,_ir "o... r..' -_ v K 16 N I 1 V (2.5 an) • gi Ns - BOTTOM VIEW ill h 1.v �• Rs an) „ t-. (ISO an) 7.0' (17A ern) 8.75 (723 vs) 14.175 (35.9 an) Page 4 of 6 . Siemens Building Technologies, Inc. • la Related Equipment Cat Number Description Cat Number Description SIGA -IS-LG Ionization Smoke Detector 2-LSRA LCD annunciator SIGA -PS-LG Photoelectric Smoke Detector 2 -LSRA-C LCD annunciator vv/ common controls SIGA - PHS-LG 3D Multisensor Detector 2 -SMDN LCD annunciator SAN mounting SIGA - IPHS -LG 4D Multisensor Detector 2- SMDN-C LCD annunciator SAN mounting vv/ common SIGA- HFS-LG Fixed Temperature Heat Detector controls SIGA- HRS -LG ROR/Fixed Temperature Heat Detector LSRA 232 Printer /programming port for LSRA Series SIGA -DMP Duct Detector Mounting Plate • 2 Common Controls for SAN annunciator SIGA -DH Duct Smoke Detector Housing SAN-CPU CPU for SAN annunciator SIGA - LED-LG Remote Alarm LED RSA4 -COM/D Common control module for 1577 Graphics SIGA -CT1 Single Input Module 1577 Graphic annunciators SIGA -CT2 Dual Input Module RSAN -PRT Rack mount 40 column printer SIGA -CC1 Single Input Signal Module PT-1S Serial desk mount printer ' SIGA -CC2 Dual Input signal Module RSAN-6 19" Rack mount unit accepts 6 SAN modules and 1 SAN -CPU SIGA -CR Control Relay Module CDR3 Coder Module SIGA -MM1 Monitor Module 10P -3 RS-232 Isolator Module SIGA -WTM Waterflow /Supervisory Module RPM Reverse Polarity Module SIGA- 278-LG Double Action Fire Alarm Station MTM 1 March Time Module SIGA -270 series Single and Two Stage Stations SIGA-UM Universal Module BC-1. Battery Cabinet - Space for two 12V24A batteries, 24 Amp Hour 2 -SMK Smoke Power Converter Module BC-2 Battery Cabinet - Space pace for two 12V17A 2-CTM City Tie Module batteries, 17 Amp Hour Specifications Catalog Number 2 -PPS 2- PPS/6A 2- PPS -220. 2-PPS/6A-220 Agency Listings UL, ULC, CSFM UL, ULC, CSFM UL, ULC, CSFM UL, ULC, CSFM Line Power 120VAC 300 Watts Max., 50 /60Hz 220.240VAC 300 Watts Max., 50 /60Hz Auxiliary Output Power 500mA Max. N/A 500mA Max. N/A Notification Appliance 3.5Amps @ Two 3.2 Amp taps @ 3.5Amps @ Two 3.2 Amp taps @ Power 24Vdc nominal 24Vdc nominal 24Vdc nominal 24Vdc nominal Maximum Battery Size 2 of 12V10A -10 Amp Hours (See Note 1) Catalog Number 2 -MCD Signature Data Circuit One.circuit supports 96 Detectors, 94 Modules Maximum - 96 Isolator or Relay Bases (Expandable to two Circuits with 2 -LCX) Terminal Wire Gauge . Notification Circuits 18-12 AWG (0.75 - 2.5 mm All other circuits 18-14 AWG (0.75 - 1.5mm Relative Humidity 10-93% non condensing Temperature Rating 32° - 120 °F (0 ° -49 °C) Wiring Styles Class A or Class B Communication Ports One RS -232, One RS-485 Standard Auxiliary Relays' One Alarm Contact - 24Vdc 1 Amp One Trouble Contact - 24Vdc 1 Amp One Supervisory Contact - 24Vdc 1 Amp Note 1: Surface mount ALS2 Wall Boxes support up to two 12V17A batteries. For larger batteries use BC -1 or BC -2 battery cabinets. • Siemens Building Technologies. Inc. Page 5 of 6 r• Ordering Information Catalog Number Description Shipping Wt lb (kg) Fire Alarm Control and Power Supplies 2-MCD Main Control and Display 1.5 (.7) 2-LCX Expander Signature Data Circuit with two Notification Appliance Circuits 1 (.45) 2 -DL2 Two Line Dialer 1 (.45) 2 -PPS 4.5 Amp power supply 120Vac 2.5 (1.1) 2- PPS/6A 6.4 Amp power supply 220Vac • 2.5 (1.1) 2- PPS/220 4.5 Amp power supply 220Vac 2.5 (1.1) 2- PPS/6A-220A 6.4 Amp power supply 220Vac 2.5 (1.1) • Panel Mounted Annunicator Modules 2 -16R 16 Red LEDs 1 (.45) 2 -16Y 16 Yellow LEDs 1 (.45) 2 -16G 16 Green LEDs 1 (.45) 2 -8RY 8 Red and 8 Yellow LEDs 1 (.45) 2 -12R4Y 12 Red LEDs and 4 Yellow LEDs 1 (.45) 2 -16R8S 16 Red LEDs and 8 Two Position Switches 1 (.45) 2 -16Y8S 16 Yellow LEDs and 8Two Position Switches 1 (.45) 2-8RYS 8 Red LEDs, 8 Yellow LEDs and 8 two Position Switches 1 (.45) Wall Boxes 2 -WB Semi -Flush Wall Box - Gray finish 8 (3.6) 2 -WBR .. Semi -Flush Wall Box - Red finish 8 (3.6) 2 -WBS Surface Wall Box - Gray finish 8 (3.6) . 2 -WBSR Surface Wall Box - Red finish 8 (3.6) Wall Box Doors 2 -WBD Inner and Outer door for 2 -WB wall box 8 (3.6) 2 -WBDR • • Inner and Outer door for 2 -WBR wall box 8 (3.6) 2 -WBDS Inner and Outer door for 2 -WBS wall box 8 (3.6) 2 -WBDSR . Inner and Outer door for 2 -WBSR wall box • 8 (3.6) • • • • • • • • Information in this document is based on specifications believed correct at the time of publication. The right is reserved to make changes as design Improvements are introduced. APOGEE is a trademark of Siemens Building Technologies, Inc. ® 1998 Siemens Building Technologies, Inc. • Siemens Building Technologies, Inc. Printed in the U.S.A. (origin) Landis Division Page 6 of 6 1000 Deerfield Parkway Buffalo Grove, IL 60089-4513 • r � SIEMENS Fire Safety VoiceCom Emergency Voice Alarm Communication System ENGINEER AND ARCHITECT SPECIFICATIONS • ® Listed 864 • CSFM, NYMEA Approved • StyleY (Class B) and Style Z (Class A) speaker and strobe circuits • Power Supply and Battery Charger with output over - voltage protection • Dry contact or polarity reversal activation • Activation inputs are fully supervised • High efficiency digital amplifier • True 100 Watts RMS output capacity • 25 or 70.7 VRMS audio (field selected) • Up to 11 optional Speaker and ry Strobe supervision modules in one cabinet • All outputs are power limited Vernon • Stand -alone or for use with any Fire Alarm/ Suppression Control panel • Optional digital MessageMaker is field SIEMENS programmable • Coded tone option • Backup evacuation tone option Description TheVoiceCom is a PRE -BUILT emergency voice and tone optional digital message unit called the MM -1 alarm communication system. TheVoiceCom can be (MessageMaker) can be added in the place of two used as a stand alone system or in conjunction with any speaker or strobe zone modules (three zone spaces in listed /approved fire alarm control panel. TheVoiceCom is the large cabinet option). The MM -1 comes pre - installed completely self- contained and has its own power supply, in theVoiceCom -MM system package. The MM -1 comes battery charger, brown -out supervision and transfer, earth- with 20 seconds of field programmable digital voice ground detection, trouble and trouble ring -back circuitry. message capacity and 18 seconds of capacity for virtually It also incorporates an emergency paging microphone, any evacuation tone(s) required. Through the use of up to tone generator, 50 Watt RMS audio amplifier and a two optional 20 second "VOICE- CHIP" expansion de- speaker supervisory circuit. The power supply is capable vices, up to 60 seconds of a digital message can be of a full 3.5 Amps DC at 24 volts. A set of dry form "C" recorded. The digital message can be recorded through trouble contacts is provided for external connection to a audio coupling using the microphone on the MM -1 or fire alarm control panel or fire suppression system. electrically (with a tape recorder) using the headphone Speaker and strobe circuits are supervised by the jack on the MM -1. The MM -1 MessageMaker comes VoiceCom panel. The power supply is capable of charging with a standard test message, alert tone, alarm tone and up to 24 AH batteries although only 6 AH batteries are a standard evacuation message which can be overwritten required for 24 hours of standby and 15 minutes of if a specific message and tone are required. The MM -1 maximum alarm load operation. MessageMaker has a built -in sequencer which provides Optional expansion of theVoiceCom system can be an ALERT tone followed by the emergency message, and achieved expansion the use th of speaker ( syst c strobe in turn followed by the ALARM tone. The ALARM tone can be coded to conform to any local and national codes. (101 -STRB) supervisory modules. Up to five speaker and /or strobe supervisory modules will mount in the The emergency message can be set to repeat up to same VoiceCom enclosure in any combination. An CATALOG NUMBER 3700 e hi seven times with the setting of DIP switches. The digital control module. Because of its full speaker zone isolation message can also be programmed to repeat until the capabilities the VoiceCom meets the requirements system is reset. The MM -1 MessageMaker uses non- specified by NFPA 72 for survivability. volatile memory thus retaining its messages indefinitely. As a further safeguard the 101 -AMP amplifier module will For compatible notification appliances, see Siemens Fire activate an evacuation tone backup in the event of a Safety P/N 315-096363. MessageMaker failure. Another optional digital message unit called theT GEN can Engineer And Architect Specification be added to the VoiceCome system. TheT GEN mounts The emergency voice and tone communication system - directly onto the amplifier and requires no expansion shall be the Siemens Fire Safety model VoiceCom. The module space. The tone and message repeats continu- VoiceCom shall be a pre -built system and shall only ously when activated. TheT -GEN comes with a standard require two wires from a polarity reversal circuit or a dry alert tone, evacuation message, and whoop tone. This contact for activation. It shall supervise the "NO" dry standard tones and message can be overwritten if contact (if used) and provide a form "C " trouble relay another tone or message is required. The tone and activation in the event of a system fault. TheVoiceCom message can be recorded using the built -in microphone shall incorporate 50 Watts true RMS amplifiers for both or pre - recorded and downloaded using the telephone jack. tone and speech amplification. The system shall have a Up to 60 seconds of alert tone, digital message, and load capacity of up to 100 watts. Optional, theVoiceCom a larm tone can be recorded on theT -Gen. system shall be capable of providing 50 watts of audio with full backup. The VoiceCom shall be capable of The auxiliary audio input can be used for connection to a remote paging microphone RMT -PG, telephone paging, or operating as a stand alone system or follow the activation of the fire alarm /suppression system. The VoiceCom other required audio signal. The auxiliary audio input can shall include a regulated power supply and shall be . be set to the lowest priority so that it will be disabled in capable of charging and housing its own batteries. There the event of an alarm condition or when the system shall be no need to calculate the load requirements or microphone button is pressed. The auxiliary audio input draw any energy from the fire alarm /suppression system. can also be set to the highest priority ensuring that the TheVoiceCom shall come with one speaker supervisory remote microphone RMT PG has precedence over the zone as a standard and shall be capable of supervising VoiceCom microphone. any combination of up to eleven speaker (101 -SPK) and /or All theVoiceCom modules /options are centrally moni- strobe (101 -STRB) monitoring modules. tored for ground faults and supervision troubles. Troubles A full set of control switches including an "all call "tone are annunciated on the panel via a LED and an audible interrupt silence" and "reset" shall be available trouble signal. A form "C" system trouble relay is used at theVoiceCom. TheVoiceCom control panel shall also to create a trouble at the fire alarm control panel. The have a green "Power On" LED, a red 'Alarm" LED, a audible trouble signal may be silenced by activating the yellow "Brown Out" LED and a yellow "System Trouble" trouble silence button. Full annunciation of troubles is LED. provided at both the control panel and the individual modules. LEDs are provided for short circuit and open TheVoiceCom shall be able to detect a short on any circuit trouble annunciation at every module. The system speaker or strobe zone during the normal and alarm can be configured to give a reminder audible signal after mode. The shorted zone shall be isolated from the the trouble has been acknowledged. system and a dedicated LED on the supervised zone The basic VoiceCom provides 50 Watts RMS of voice and shall indicate the short circuit condition. The system shall Produce an audible and visual signal indicating that a tone audio power per amplifier. Up to two amplifiers can be housed in VoiceCom's larger enclosure.The system trouble condition has occurred. Similarly an open circuit can be configured in the field for 25 or 70.7 VRMS shall create a trouble condition and corresponding LED annunciation at the affected zone and at the main control operation. It will meet the requirements of an 'Assembly module. Zones that are not shorted or opened shall Occupancy" and other locations where voice and tone remain operational. broadcasting is required.TheVoiceCom incorporates a high efficiency amplifier that requires minimal energy for TheVoiceCom shall be able to detect a Brown -Out its operation. Up to 100 Watts RMS can be split in any condition on the AC supply. In the Brown -Out condition ratio by up to twelve speaker circuits. Up to eleven theVoiceCom shall activate a dedicated LED and an strobe circuits can be housed in theVoiceCom cabinet to audible trouble signal. Ground faults shall activate the comply with requirements such as ADA. A remote reset system trouble LED and the audible trouble signal, as input is available to reset VoiceCom from a distant control well as specific LEDs indicating negative and positive panel. TheVoiceCom can be made latching or non- ground faults. latching thus requiring only two wires from the control panel for both alarm and reset functions. TheVoiceCom shall be field configurable for 25 or 70.7 volt RMS audio output via program jumpers. TheVoiceCom is capable of recognizing a short on a zone TheVoiceCom shall have a digital message player/ zona es. . Short circuited zones are isolated from the while the speech, tone, strobe is active other recorder option (MM -1). The digital message player/ d system and cause a zone trouble. The type of zone fault recorder shall be capable of storing alert and evacuation is annunciated at the zone card and a general system tones as well as an emergency voice message.. It shall trouble audible signal and LED are activated at the main be possible to modify the digital message and tones in the field using a built -in acoustic microphone or a head- configurable by the setting of DIP switches on the digital phone jack connected to a tape recorder. There shall be message player /recorder. AVoiceCom without a digital no need for the burning of eproms in order to program the message player /recorder shall produce an evacuation digital message player /recorder. The digital message "whoop" tone in the event of an alarm. player /recorder shall be supervised by the VoiceCom. The The sheet metal enclosure shall include a hinged VoiceCom shall provide a backup evacuation tone in the deadfront allowing easy access to all theVoiceCom event of a digital message player /recorder failure. components for the purposes of wiring, setting the An alarm condition shall cause an audible signal and a red system configuration and servicing. A flush trim (CAB- LED to activate. AVoiceCom with a digital message TRIM) shall be available. A door with a key lock shall be player /recorder shall produce an ALERT tone followed by part of theVoiceCom enclosure. an emergency voice message, and in turn followed by an ALARM tone. The number of tone repetitions shall be Chart 1. Ordering Information Model Number Description Part Number VoiceCom Pre -built system comes with: 500 - 693713 3.5 Amp power supply and battery charger 50 Watt high efficiency amplifier (25/70.7 VRMS) Battery cables Main control board with one speaker circuit Paging microphone Black enclosure with deadfront (space for 5 zone module). VoiceCom -R Same as VoiceCom with red cabinet 500 - 694226 VoiceCom -L VoiceCom system components in large enclosure with: 500- 694227 Auxiliary power supply (PS -AUX). extra 50 Watt amplifier (AMP-25 -50) Space for 11 zone modules 4 PS -AUX Strobe Zone Cables 1 AMP-25-50 Speaker Zone Cable (SYSTEM HAS A TOTAL OF 100 WATTS AMPLIFICATION) VoiceCom -LS VoiceCom -L System components with the 50 Watt amplifier configured for standby only. 500 - 694228 (SYSTEM HAS ATOTAL OF 50 WATTS AMPLIFICATION) VoiceCom -LR VoiceCom -L system in red enclosure 500 - 694229 VoiceCom -LSR Same as the VoiceCom -LS in red enclosure 500- 694230 VoiceCom -MM Pre -built system comes with: 500- 693714 VoiceCom components plus the MM -1 digital MessageMaker (Pre - installed). System has space for 3 zone modules VoiceCom -MMR Same as VoiceCom -MM in red enclosure 500 - 694231 VoiceCom -MML Same as VoiceCom -MM components in large black enclosure. 500- 694232 Comes with auxiliary power supply (PS -AUX), additional 50 Watt amplifier (AMP-25-50) 4 PS -AUX Strobe Zone Cables System has space for 8 zone modules (SYSTEM HAS ATOTAL OF 100 WATTS AMPLIFICATION) VoiceCom -MMLS Same as VoiceCom -MML with the 50 Watt amplifier configured for standby only. 500 - 694233 (SYSTEM HAS ATOTAL OF 50 WATTS AMPLIFICATION) VoiceCom -MMLR Same as VoiceCom -MML in a red enclosure 500 - 694234 VoiceCom -MMLSR Same as VoiceCom -MMLS in a red enclosure 500- 694235 Flush Trim for VoiceCom and VoiceCom -MM CAB -TRIM Small cabinet semi -flush trim 500 - 693720 CAB -TRIM2 Large cabinet semi -flush trim 500 - 694240 Speaker and Strobe Expansion Modules 101 -SPK One supervised speaker zone 500 - 693715 101 -STRB One supervised strobe zone 500. 693716 MessageMaker with 20 Second Message (Takes 2 Module Spaces in small cabinet, 3 in large cabinet) MM -1 I Digital MessageMaker 500 - 693719 Voice Message Expansion Chip (2 Maximum per MessageMaker) VOICE -CHIP I 20 sec message expansion 500 - 693767 AutomaticTone/Voice Message Module T -GEN I T-Gen Tone/Message Unit 500 - 694238 Remote Paging Microphone RMT -PG I Remote paging mike ' 500 - 693721 Batteries BT -33 I 6 AH Battery Set 175 - 387141 BT-34 10 AH Battery Set I 175- 387140 • lb Ordering Information VoiceCom Family of Pre -built Kits Ordering Information VoiceCom, VoiceCom -R VoiceCom -MM, VoiceCom -MMR r - ---- --- ---- ------- - - - - -- -• r r- -- __ —_- -, r - - - --- , ;r 101 -SPK it l 101 -SPK ir; 101 -SPK in 101 -SPK III OR 111 OR '1 1 OR 11 ; OR :Li 101 -STRB i 101 -STRB! 101 -STRB i- 101 -STRB OR - MM -1 r ------ - - - - - , In 101 -SPK In 101 -SPK r 11 1 OR li ' OR 101 -STRB = 101 -STRB - ' - - - -- J i J ■ MM - 1 i 1 __ ----e `' I r _ In 101 -SPK 101 -SPK OR 1= 1 OR O ILI 101 -STRB 101 -CE r-, iL 101 -STRB 101 -AMP= J 101 - CE ,--, 101 -PS o 101 -AMP = o 101 -PS = 0 r 10 AHr 10 AHr OR OR `— 6AHr - ` 6AHr ( Dimensions in inches: 20Hx15Wx5.4D ) VoiceCom -L, VoiceCom -LS VoiceCom -MML, VoiceCom -MMLS VoiceCom -LR, VoiceCom -LSR VoiceCom -MMLR, VoiceCom -MMLSR r , r , r ------ —_ —_, r____— _ ----- 1 r 1 r_ ----- —____ r —___ r , ir 101 -SPK in 101 -SPK i; ,, 101 -SPK in 101 -SPK in 101 -SPK In 101 -SPK in 101 -SPK it 101 -SPK 1 1 OR 1! 1 OR 0 I OR 1 101 - 101 -STRB 101 -STRB 1 I OR 11 1 OR III OR III OR I i = ' I- 1== I - -= 101 -STRB I -= 101 -STRB = 1 01 -STRB 101-STRB i 1011 -STRB I J ' --- - — - - - - - - J I ___J 1 J J, I , , - - --- -J J I� 1 1 -SPK irj 101 -SPK ; - I, 101 -SPK I i, - 101 -SPK PS -AUX i i 1 OR 11; OR 1 PS -AUX it ; OR i 11 OR I 101 -STRB i 101 -STRB1 -= 101 -STRB1 i 101 -STRB '— _-- - - - - -J i J & J . J AMP -25 -50 r AMP -25 -50 r in 101 -SPK i r 101 -SPK Ili OR ' 1J OR i 101 -STRB! 101 -STRB — — J J MINI III r - -_- r -1 101 - CE r — i 10 OR P K 1 -CE ,—, i ; 101- R PK 101 -AMP L 101 -STRB 101 -AMP 1011 -STRB 101 -PS I= 101 -PS o Q , r , Q 1 11 101 -SPK i -; 101 -SPK OR li 1 OR I 101 -STRB N 101 -STRB MM - i in 101 -SPK i' ii OR 1 0 AH r . 10 AH r 1 101 -STR - - -J I ( Dimensions in inches: 32Hx18Wx5.56D ) * Items In dashed lines are optional and indicate possible expansion capacity . t . VoiceCom System Wiring Diagram Figure 1 LOADING CHART 1 . SYSTEM LOADING Speaker Load Str L / FROM GREEN 'EARTH GROUND mp (Watts) (Argon's) / SPEAK CLASS WIRE FROM CHASSIS . I 5 3.2 REFER TO SYSTEM 10 2.8 LOADING CHART 0 1 15 20 • 2.0 SPEAKER CIRCUIT Nlir 25 1.6 STYLE 'Y' (CLASS 'B') SHOWN FOR STYLE'". 30 12 SHOWN. ALL CIRCUITS SUPERVISED, 40 0.8 SUPERVISED, POWER LIMITED. 50 0.4 POWER SUPERVISING VOLTAGE- ty per Power LIMITED OUTPUT ACROSS NAC is 7 V TO 9 V DC. StB Amplifier Pair MAX: 50 W MAX RIPPLE CURRENT < 300 mV REFER TO SYSTEMS LOADING EOL 99 KII 1 k0 , 1 W 1R W CHART s1 FOR SYSTEM LOADING ECL _ I — Mir - e I b I SUPERVISED POWER LIMITED , v T 1 _\ I INITIATING CIRCUIT. MAX 50 CIRCUIT. L 1 R L1 L2 L2R I I RIPPLE < 300 mV. Style '8'. I� • • EOL I I MAX IMPEDANCE: 30 OHMS 11141 39 KA 1 I S l CONNECTION to 16 DC, � EOL 39 Ka, 1/2 W� 1/2 W OPTIONAL V TO FACP V , Interconnect fin • + r Cable Uln e e e E G ' - - -J NC I NC NC . NC . r_._.• l A RI • S R LI 12 R EGr — — — I • • NC • 1I EG a + e e -` 101-SPX m B+ VP Al A2 S L1R L1 L2 L2R' J3 25 V 70 V • 25V 70 V • T H Note 1 101 -CE • ST I N Note t Iq : U STROBES: MAX 2 AMPS NO 4o VPS REFER TO SYSTEMS TROUBLE CONTACT COM: • C LOADING CHART s t NORM D R ENERGIZEp A ALRM Rp I q O c 9 101-PS • ? il R L 4 we p • C SU PLY 24 V DC K3 K4 c K V G G T T1 T3 10 3 4 5 6: • J8 I £01 39 Ka • ?? ?? = = e? = _ —� �� �� ! —( I • 1/2 W ER BATTY, CABLE • I n J • To 2 V BATTE . NC Nc NC NC ""U e G 0 00. G' MAX CHARGING S L1 L1 L2 L2 1 CURRENT : 1.5 A• . EOL MM•1 R R i • Max 10 AH in Cabinet RESISTOR NAC) ( MessageMaker I r " —J (24AHExtemel) 101 -STR.B Note 4 VoiceCom TROUBLE WILL CAUSE SUPERVISORY • TO 120 V AC. 50/60 HZ . TROUBLE VIA UNE Note. 2 re 2 Amp SEPARATELY REVERSAL WIRING•TO CONNECTED TO • FUSEDaH � DEDICATED THE FIRE CONTROL. • TERMINAL 'AV • V SPEAKER: MAX 50 W. REFER TERMINATE EARTH CONNECTED TO �; TO LOADING CHART a 1 GROUND WIRE STUD MARKED 'G' U TERMINAL 'A2' C E . ----. j-W BLACK 3 WHITE FLYING LEADS I a• FROM POWER SUPPLY. Note 2:. POLARITY SHOWN IN - I c . ' SUPER VISORY MODE• 1EOL /2 REVERSE POLARITY INPUT TO ACTUATE VoiceCom FROM ANY UL ' I LISTED FIRE CONTROL • Notes: L 1 e e e e e EG t_ _— J I. VoiceCom maybe programmed for. 25 V or 70 V tats via these jumpers. Jt ' I S L1 LI 1.2 1.2 EG I 2 VolceCom comes pre-wired and tested for reverse polarity. activation. _ _ R R The 1 KG resistor must beleft across temtinais 8 Al , 8A2. I____ 3. If Reverse Polarity is NOT used, remove wrung between terminals 8 5.5 6 and I 101 - S P K 8 A1,1A2. Move jumpers of Headers I H4, 8H to Position A': The 1kf resistor I must be placed at the End of Line for Initiation is via dry contact • . dosu a across supervised input tenni It Al, #A2 as shown. • I 4. VoiceCom -MM package comes with the MM-1 MessageMaker pre installed. I 5. All contacts are 30 volts DC, 1 Ampere resistive load. Place Supervisory Jumper • 6. Minimum wire sizes 18 AWG. Maximum wire size 8 12 AWG. • � across pins s 3 a s 4 or last 7. Refer to Chart 81 Loading' for available power. module B. For Compatible Notification App5ances please refer to Chart 2. • 6 100 Watt VoiceCom System Wiring Diagram Figure 2 STROBES: MAX 2 AMPS REFER TO SYSTEMS r LOADING CHART # I I 1 SHOWN FOR STYLE - r. ALL CIRCUITS SUPERVISED, Itahieto rioi I I SUPERVISING nockde. 1 ACROSS NAC a T V TO 9 V DC. must Reader rst I I MAX RIPPLE CURRENT < 300 mV EOL I REFER TO SYSTEMS LOADING Jumper Have ter across 99 9 K K !, 39 Ka CHART #1 FOR SYSTEM LOADING pins *38,4 112W j 1/2W I I . 01 eeeee EGD - OF eases EG J Jt f2 1 S L1:1 L2 EGI -- - a J2 S Lt LI L2 1.2 EG1 - - - - - -- - - -- - - -- - - 1 J3 1 R R R R 2 I �c -STRB 10 1 -S 1k 1 I i To EG tab on i next module -4— - i EOL I Red a Black Strobe Cable I 1112 W C EACH 101STRB module connected to I 1 the AUX-PS requires a cable. Refer to I ed lMe Jt J2 + I the 1o1STABsheet L cabrcons - - - p EG , eeeee I -- - - Red 1 S Li Li L2 a EGO - - - -, Add-On Auxiliary Power * , I Black Supply 5- 50 W Ampler III 101 - S P K Speaker Cable I I Fused f� I PS - AUX I replaces Battery Cable Interconnect cable, + —O SI B+ and powers all I STROBES: MAX 2 AMPS g _ following 101 -SPK I LOA SYSTEMS TO i modules I I I Conned to VPS 24 V Battery ®___ MI —i J I III I _ I I EOL 1 G ' a. n I 12o V AC to BLACK Wire WHITE FLYING LEADS FROM POWER SUPPLY. J12 f ;-0,02 E eeeee J FACTORY WIRING: AMP -25 -50 = S L Lt L2 R ES - - --I PS AUX "B - to "G" OF 101-CE. Red & Black P A "JR J HEADER TO 101- Strobe Cable *1 S J 3 f 101 -STRB AMP -25-50 Terminal S 10 to 101 - AMP Quick Connect Temdnal "E 1" 1 I— I The AMP -25-50 Amplifier and ; - - - - —� I SPEAKER: MAX 50 W. REFER ID_ PS-AUX are assembled in the I I T O LOADING CHART S t following VoiceCom Systems I I 1=1 El I 0 U I • and provides additional capacity o. U 1 1..pp as shown in 1, Chart 1. en 101 T ( Max System Capacity 100 W) c a. v 8 I EOL VoiceCom-L a c II ` m I 39 KO VolceCom -LA J11 0 - I 1/2 W VoiceCom -MML I. 1 • 1 $ VoioeCom -MMLR L - O ll eeeee EG -J Jt Jz S L1 Lt L2 L2 EGI - - - 1 * 101 -STRB modules powered from the PS -AUX : 2 R R , Program Header H2 and H4 to the 'A' Position. * 101' -SPK REFER to Section # 2 of Manual for details. 1 * 101 -SPK modules MUST ALL have Program Headers FROM GREEN EARTH GROUND' _ _ _ J H2 and H4 in the "S" Position. WIRE FROM CHASSIS a 50 Watt VoiceCom System with Standby Wiring Diagram Figure 3 CONNECTING Strobe Supervisory Modules (101 -STRB ) to the PS -AUX The AMP -25-50 Amplifier and PS-AUX are assembled In the following VoiceCom Systems: The System provides 50 watts Standby Audio Power. VoiceCom -LS VoiceCom -LSR VoiceCom -MMLS VoiceCom -MMLSR 120 V AC to ACK & To Previous WHITE FLYING BL ADS Interconnect FROM POWER SUPPLY. CableTo J 2 of Module --.......0 Previous MOWN FOR STYLE "r. ALL CIRCUITS SUPERVISED, Module POWER LIMITED. I SUPERVISING VOLTAGE ACROSS LI- L2is7VTO9VDC. MAX RIPPLE CURRENT < 300 mV REFER TO SYSTEMS LOADING CHART st FOR SYSTEM LOADING O B+ O B — m Shown in the supervisory mode. Polarity reverses in Alarm. as �—Q Strobes: Max 2 Amps. Fused T S R � ti Chart e m 1 m (6Amry Q 9 G BLK C 1 CIE able E o K0 PS-AUX II nn 1/2 W AMP -25-50 ` 42 a ee e e t - -- J S L Lt L2 R EGr - - -- , o 1 101 -STRB Red & Black * 1 1 J 3 Strobe Cable I Shown in the supervisory mode. EACH 101 I Polarity reverses in Alarm. + um STRB module I a Refer t Strobes: o tax 2 Amps. y s Conned to connected to I U Loading C har t R 1 24 V Battery the AUX-PS I requires a I ` CID] cable. Refer I c to the 101- § STRB data KO I sheet I - L -- -001- -1 a eee a EGi —_- Jt .12 1 S Li Li L2 U EG1 .*1 -- R R I ' 101 -STRB * 1 101 -STRB modules powered from the PS -AUX modules I J 3 MUST have headers H2 and H4 programmed to the "A" I Place Supervisory • position. I Jumper across pins # 3 REFER to Section # 2 of Manual for details. &# 4 of last module • 1 . • • • • • Fire Safety Fire Safety • 8 Femwood Road 2 Kenview Boulevard Florham Park, NJ 07932 5/06 Brampton, Ontario • Siemens Building Technol les Tel: (973) 593.2600 3J{ Canada L6T 5E4 9 FAX: (973) 593 -6670 SFSIG Tel: (905) 799 -9937 May2002 Fire Safety Website: www.sbt.siemens.com/fis Printed in U.S.A. FAX: (905) 799 -9858 supenedea sheet dated noo . . COOPER Wheelock POWERPATHTm NAC POWER SUPPLIES III ii`. 7 (� ter, iii PS- 24-8MC Description Features POWERPATH Series PS- 24-8MC is an 8 Amp, 24VDC, filtered and regulated, supervised remote power supply /charger used for Approvals supervision and expanded power driving capability for Fire Alarm • Approvals Include: UL Standard 864 California Notification Appliance Circuits. The PS -24 -8MC may be connected State Fire Marshal (CSFM), New York City (MEA), to any 12V or 24V (FWR or DC) Fire Alarm Control Panel (FACP) by Factory Mutual (FM), Chicago (BFP) See using a Notification Appliance Circuit (NAC) or a "Dry Contact". Primary Approvals by model in Specification and Ordering applications include NAC expansion (supports ADA requirements) and Information auxiliary power to support system accessories. This unit provides • Compliant with NFPA 72 filtered and regulated 24VDC, 8 Amp up to four (4) Class "B ", two (2) Class °A ", or two (2) Class "B" and one (1) Class °A" Notification Inputs Appliance Circuits. With the optional plug -in PS -4CA module the unit • 120VAC, 50 /60Hz, 5.0 Amps Operating Power in supports (4) Class "A" Notification Appliance Circuits. Additionally, Alarm an auxiliary power output of 3.5 Amps (disconnected upon AC power • 24VDC Battery Backup Connection loss or an alarm condition) or 200 mAmps (constant) is provided, which can be manually reset. The PS- 24-8MC also contains a battery • Two (2), 12V or 24V NAC Initiating Circuits (8 -33V charger capable of charging either 7 or 12 Amp/Hour (AH) of battery at 5mA) FWR or DC backup. • Two (2) "Dry" Contact initiating Circuits Two FACP NAC circuits or two "Dry" contact initiating circuits can be • Accepts two (2) Class "A" or two (2) Class "B" connected to the POWERPATH inputs. These inputs can then be circuit inputs directed to control supervision and power delivery to any combination • Built in battery charger for sealed lead acid or gel of the four (4) outputs. type batteries Each output is rated at 3.0 Amps (Class °B ") or (Class °A ") and can be programmed to generate a steady or Code 3 Temporal Horn sound and a strobe output under alarm condition. Total load for the PS -24- 8MC NAC circuits must not exceed 8.0 Amps. The PS -24 -8MC under non -alarm condition provides independent supervision for Class "A" and Class "B" FACP NAC circuits. In the event of circuit trouble, the FACP will be notified via the POWERPATH steered input (IN1 or IN2). In addition there are two sets of trouble reporting terminals, one used forAC power loss reporting and the other for all troubles. The AC power loss reporting, on the common trouble terminals and on IN1 or IN2, can be delayed for either 30 seconds or 170 minutes. The AC power loss terminals will always report the trouble 30 seconds after loss of AC power. The PS- 24-8MC POWERPATH is UL Listed under UL Standard 864, 9th Edition to be used with any 24 volt Listed Regulated notification appliances. It includes the capability to synchronize Wheelock strobes and horns and to silence the horn signal when hom/strobes are operating on two wires. MGlI6 - 420 (0)) 11 > MEA 1 114 1 APPROVED 151.92 -E ...Features continued on next page ' Outputs • NAC outputs are 24VDC, 3.0 Amps each, power limited • 8 Amps total alarm current • Capable of four (4), Class "B" circuits • Capable of two (2) Class "A" circuits • Capable of four (4) Class "A° circuits with optional PS-4CA module • Capable of one (1) Class "A° circuit and two (2) Class "B" circuits • Temporal (Code 3) or constant voltage output • Built -in Wheelock synchronization mode that can be fed to any or all of the output circuits • Input and output can be synchronized with "IN >OUT SYNC° mode (SM, DSM or 2nd PS- 24 -8MC is required) • Audible silence capability • Filtered and electronically regulated output • 3.5 Amp auxiliary power limited output with reset capability. (Removed upon AC loss or alarm. Automatic reset 30 seconds after AC power returns or the alarm condition is over) or 200 mAmps auxiliary power limited output which remains on during AC loss or an alarm condition Supervision • Compatible with 12V or 24V (FWR or DC) FACP • Signaling appliance circuits are supervised and steered to either IN1 or IN2 • 2.2K Ohm, 1 Watt (Wheelock Model #MPEOL) End of Line Resistor (EOLR) for supervision of all outputs • AC loss trouble reported over a separate set of contacts (delay of 30 seconds) • All troubles are reported over the common trouble contacts (AC loss can have a delay of 30 seconds or 170 minutes) • Automatic switchover to standby battery when AC fails • Thermal and short circuit protection with auto reset • Input and output status LED indicators • AC fail supervision • Battery presence and low battery supervision • Ground Fault Detection (60K ohms) • 4 latching LED's for NAC trouble annunciation Power • Not Battery Dependent - Full 8A even if battery is degraded • Automatic switch over to standby batteries when AC fails • Supports sealed lead acid or gel type batteries • Fused battery protection • Thermal and short circuit protection with auto reset • Supports both 7AH or 12AH batteries in the same cabinet (Cabinet Size: 16.70" H x 12.83° W x 5" D) Normal Mode (Class B) AUTIJ TC,NEXT APPLIANCE )rEldPORAL mT SMUT SELECT (2.2K owe) TO: NEXT 'APPLIANCE A lo:Nuc ; APPMACk Aut_ � ®�■ OR` EOLR AR EOL RE71 (2.2K OMNI C .POINERPATH * - .TO NEXT-APPLIANCEI JOT � ® 4 QR2EO P ¢:21K OHMS) MS) a TO NEXT APPLIANCE our Mrilarli i okEOLR, ,e? .4K OHMS) . . Normal Mode (Class A) D UT /J IA O UT7 - $bOUf STNC ;11 ° WHEELOCN SYNC ° TEMPORAL TO NEXT APPLMNCE P.M. . ISPUTSELECT F DR EOLR n ETt OR REHR A TO FACP OUT2 0 C .POWERPATH .P DuT� } MS N DOT, 1 7 1 1 POWERPATHTm Operating Modes (refer to Installation Manual): Normal Mode: Provides constant 24 VDC output upon initiation by a voltage to input IN1 or IN2 or by a contact opening on DRY1 or DRY2. The unit returns to standby mode when the input is deactivated. Wheelock Sync Mode: Provides signals for synchronization of patented Wheelock audible and strobe notification appliances. Audibles can also be silenced in this mode while the strobes continue to flash. In >Out Sync Mode: Accepts a coded signal or synchronization signal on the input to provide a coded output or synchronized output. This signal may come from a FACP, another POWERPATH or a Wheelock SM or DSM synchronization module. Caution: Do not use strobes on coded output circuits. Temporal Mode: Codes the output voltage in a code -3 temporal pattern to drive audible appliances such as horns, bells or chimes. Caution: Do not use strobes on coded output circuits. Specifications and Ordering Information Order Approvals Model Number Code Input Voltage /Current UL MEA CSFM FM BFP PS -24 -8MC 0237 120/220 VAC @ 50/60 Hz; 5.0 amps max. X X X X ` PS-4CA 1648 Four lass °A° plug -in module for PS- 24-8MC X X X X Output NAC Circuit Output Voltage /Current Four (4) Class "B" or 24 VDC @ 3 amps per Circuit X= Approved Two (2) Class °A° or 24 VDC @ 3 amps per Circuit Pending One (1) Class °A" and Two (2) Class °B° or 24 VDC @ 3 amps per Circuit (Class °A ") Four (4) Class °A" (optional PS -4CA module) 24 VDC @ 3 amps per Circuit (Class °A ") Standby Current 0.080 Amps Alarm Current 0.240 Amps Total NAC Current 8 Amps Max. Standby Batteries Standby Alarm Output Aux Output Time Total Amps/Minutes CP Mode MP Mode 24 VDC /12 AH 24 Hours 8 Amps/15 Minutes 200 mA 3.5A during (uses two (2) 12 VDC batteries in series) 60 Hours 8 Amps/15 Minutes 60 MA nonalarm Architects and Engineers Specifications The power supply shall be Wheelock POWERPATH Series PS- 24 -8MC, or equivalent. The unit shall be stand alone power supply intended for powering fire alarm notification appliances via its own Notification Appliance Circuit(s) (NAC). The unit shall be UL 864 Listed for power limited operation of outputs and comply with NFPA 70 (NEC), article 760. The power suppliy shall support a full 8A of notification power even if the battery is in a degraded mode and only AC power is con- nected. The power supply shall be activated by a standard Notification Appliance Circuit (NAC) from any Fire Alarm Control Panel (FACP) or a "Dry contact° opening. The units shall be 8 ampere, 24 VDC, regulated and filtered, supervised remote power supply /charger. It shall operate over the voltage range of 8 to 33 VDC or FWR. The primary application of the unit shall be able to expand fire alarm system capabilities for additional NAC circuits to support ADA requirements and to provide auxiliary power to support system accessories or functions. The power supply shall provide four Class "B ", two Class "A ", or two Class "B° and one Class "A° NAC circuit(s). Four Class "A° circuits shall be available with an optional PS-4CA module. The PS- 24-8MC unit shall supply up to 200 mA of auxiliary power that is available during both nonalarm and alarm or auxiliary power of not less than 3.5A at 24 VDC during nonalarm. The power supply shall be capable of charging batteries of up to 12 ampere hours per NFPA 72. Input activation options shall be from not less than two NAC circuits or Dry Contact closures. These inputs shall have the capability of being directed to any combination of the four NAC circuit outputs. Each NAC circuit output shall be rated at 3 amperes for Class "B° applications or 3 amperes each for Class "A °. The outputs shall be programmable to generate a steady or Temporal (Code 3) output and or a synchronized strobe or horn output. The power supply shall provide independent loop supervision for either Class "A° or Class "B° FACP NAC circuits and shall have the capability to "steer" all alarm or trouble conditions to either incoming NAC circuit. The units shall have common trouble terminals. The power supply shall be powered from a 120 VAC source with a current consumption of 5 amperes max. The unit shall incorporate short circuit protection with auto reset. The power supply shall incorporate a built in battery charger for lead acid or gel type batteries with automatic switchover to battery back up in the event of AC power failure. The charger shall incorporate fused protection for the batteries and have the ability to report low battery and /or no battery condition(s). Standby current for battery back up shall be 80 mA max. The power supply shall have the ability to latch trouble LED's so the circuit in trouble can be identified. The cabinet dimensions shall be 16.70° H x 12.83° W x 5° D. A WARNING: PLEASE READ THESE SPECIFICATIONS AND INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING OR APPLYING THIS PRODUCT. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS AND WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLA- TION 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 accor- dance with Wheelock Inc. standard terms and conditions. v COOPER Wheelock . 273 Branchport Avenue Long Branch, NJ 07740 Phone: (800) 631 -2148 WE ENCOURAGE AND SUPPORT NICET CERTIFICATION Fax: (732) 222 -2588 3 YEAR WARRANTY www.cooperwheelock.com Made in USA S8900 PS -24-8MC 07/06 / COOPER Wheelock Series ET Speakers and Speaker Strobes \ I ::::'• : �" :). I F ! it t rt ...11 - -sit, ,_ ; I , FIRE _ , y SERIES ET70 SERIES ET90 Description Features The Wheelock high performance Series ET Speakers and Series • Approvals include: UL Standard 1971, UL Standard 1480, ET Speaker Strobes provide high audio output, dear audibility, dual New York City (MEA), California State Fire Marshall (CSFM), voltage (25/70 VRMS) capability and field selectable taps from 1/8 Factory Mutual (FM), and Chicago (BFP) See approvals by to 8 watts. They are designed to meet the critical needs of the life model in Specifications and Ordering Information safety industry for effective emergency voice communications, tone ADA/NFPA/UFC /ANSI compliant • signaling and visible signaling to alert the hearing impaired. • The low profile design incorporates a speaker mounting plate Meets OSHA 29 Part 1910.165 for faster and easier installation. Each model has a built -in level • Wall mount models are available with Field Selectable Candela adjustment feature and an aesthetic two (2) screw grille cover. Settings of 15/30/75/110cd or 135/185cd (Multi - Candela The Series ET Speaker Strobe models incorporate Low Current models) or 1575cd (Single Candela model) draw Series RSS Strobes. • Ceiling mount models are available with field selectable Strobe options for wall mount models include 1575 cd or Wheelocks candela settings of 15/30/75/95od or 115/177cd (multi-candela patented MCW multi-candela strobe with field selectable candela models) settings of 15/30/75/110cd or the high intensity MCWH strobe with • Strobes produce 1 flash per second over the regulated voltage field selectable 135 /185cd. range Ceiling mount models are available in Wheelock's patented • 24 VDC with wide UL "Regulated Voltage" using filtered DC MCC multi - candela ceiling strobe with field selectable intensities or unfiltered VRMS input voltage of 15/30/75/95cd or the high intensity MCCH strobe with field • Synchronize with sync modules or power supplies with built -in selectable 115/177cd. sync protocol The strobe portion of all Series ET Strobes may be synchronized • Field selectable taps for 25 or 70 VRMS operation from 1/8 when used in conjunction with the Wheelock SM, DSM sync watt to 8 watts modules or the Wheelock PS- 24 -8MC Power Supplies with patented Sync Protocol. Wheelock synchronized strobes offer • High efficiency design for maximum output at minimum an easy way to comply with ADA recommendations concerning wattage across a frequency range of 400 to 4000 HZ photosensitive epilepsy. • Fast installation with IN /OUT screw terminals using #12 to Series ET70 and ET90 Speaker Strobes are UL Listed for indoor #18 AWG wires use under Standard 1971 (Signaling Devices for the Hearing Impaired) and Standard 1480 (Speaker Appliances), and use a Xenon flashtube with solid state circuitry enclosed in a rugged Lexan® lens to provide maximum reliability for effective visual signaling. All inputs are supervised and employ IN /OUT wiring terminals for fast installation using #12 to #18 AWG wiring. Color options for Series ET speakers and speaker strobes are red, white, or nickel plated. MOM e 11 �a M EA i°1l APPROVED S5391 151 -92-E 7125-0785:152 (ET70/90 MC) S2652 7125-0785:148 (ET7OWP) • NOTE: All CAUTIONS and WARNINGS are identified by the symbol A. All warnings are printed in bold capital letters. A WARNING: PLEASE READ THESE SPECIFICATIONS AND ASSOCIATED INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING OR APPLYING THIS PRODUCT. VISIT W W W.000PERWHEELOCK.COM OR CONTACT COOPER WHEELOCK FOR THE CURRENT INSTALLATION INSTRUCTIONS. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS OR WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLATION AND/OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE, AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. General Notes: • Strobes are designed to flash at 1 flash per second minimum over their "Regulated Voltage Range °. Note that NFPA -72 specifies a flash rate of 1 to 2 flashes per second and ADA Guidelines specify a flash rate of 1 to 3 flashes per second. • All candela ratings represent minimum effective Strobe intensity based on UL Standard 1971. • Series NS Strobe products are listed under UL Standard 1971 for indoor use with a temperature range of 32 °F to 120 °F (0 °C to 49 °C) and maximum humidity of 93% (± 2 %). • Series NH horns are listed under UL Standard 464 for audible signal appliances (Indoor use only). • "Regulated Voltage Range" Is the newest terminology used by UL to identify the voltage range. Prior to this change UL used the terminology "Listed Voltage Range ". Table 1: Average RMS Current* ET70/ET90 ET70 Strobe current - Wall Mount ET90 Strobe current - Ceiling Mount Speaker 241576W 24MCW 24MCWH 24MCC 24MCCH • Strobes - - - - 1575cd 15cd 30cd 75cd 110cd 135cd 185cd 15cd 30cd 75cd 95cd 115cd 177cd 24 vdc 0.060 0.041 0.063 0.109 0.140 0.195 0.270 0.045 0.070 0.119 0.159 0.195 0.270 UL max* 0.090 0.060 0.092 0.165 0.220 0.300 0.420 0.065 0.105 0.189 0.249 0.300 0.420 Table 2: ET70 /ET90 UL Reverberant dBA @ 10 Feet" " RMS current ratings are per UL average RMS method. UL max current rating is the maximum RMS watts 1/8 1/4 1/2 1 2 4 8 current within the listed voltage range (16 -33v for24v units). For strobes the UL max current is usually at ET Speaker 78.3 81.5 84.4 87.2 90.1 92.8 94.9 the minimum listed voltage (16v for 24v units). For ET Speaker Strobe 78.3 81.5 84.4 87.2 90.1 92.8 94.9 audibles the max current is usually at the maximum listed voltage (33v for 24v units). For unfiltered FWR **ABA ratings are based on UL testing under UL Standard 1480 ratings, see installation instructions. • Wiring Diagrams# SERIES ET SPEAKER & STROBE OPERATE SERIES ET SPEAKER STROBES SYNCHRONIZED INDEPENDENTLY (NON -SYNC OR SYNC) WITH MULTIPLE DSM MODULES FROM DSM # I TO NEXT PRECEDING P t APPLIANCE Strobe NAC Cir. ++ OR VOICE - OR F.OIR ■ 0 . DMZ Note: Figure EVACUATION shows intercon- PANEL A DSM #2 t'l � Strobe N AC C � : + ©/ Dar to c FROM -F - — FX — — — — — — � TO NI / thr throu h sync PRECEDING STRORF.OR SOMME. - - — n 1 r — — — - MAIL I DSM #3 module. Speaker SYNC MODULE. portion requires 2 POWER PLY ; ; ; ! P Strobe NAC CI IC ir `© © separate conduc- 0 tors to FACP. STROBE SPEAKER DSM Interconnecting wiring shown. Maximum of twenty (20) SERIES ET SPEAKER STROBE APPLIANCES SERIES ET SPEAKER STROBE APPLIANCES & RSS SYNCHRONIZED WITH DSM MODULE SINGLE STROBES SYNCHRONIZED WITH PS- 12/24 -8CP and CLASS "A,' DSM PS- 12/24 -8MP Series P5- 12/24 -8MP STROBE 0 NAC SYNC * 0 CIRCUIT , '' r OUTPUTS ©1© EOLR '' IN1 © ' F 1.4 0 I i ' 4 -CLASS �i __' MINUS 1 A OR rd �+ io AUDIBL: !� 2 -CLASS MINUS 2 ,, , • IN 2 Ir©3©i©_i STROBE i, o I_ 2 NAC effe CIRCUIT RETURN Series PS- 12/24 -8M For wiring information on the PS- 24-8MC Power Supply, please refer to Data Sheet #8900. Specifications and Ordering Information Order Wall Ceiling Non- Strobe Sync w/ Strobe Can- Model Model Model Mounting Agency Approvals Model Code Mount Mount Sync SM, DSM or y dela Color RED Color Wh Ni P Color Options PS- 12/24- 8CP/MP UL MEA CSFM FM BFP ET70- 24MCW -FR 9020 X - X X 15/30/75/110 X - L,O,P,Q,U,Y X X X X X ET70- 24MCW -FW 9021 X - X X 15/30/75/110 - X L,O,P,Q,U,Y X X X X X E170- 24MCW -FN 3091 X - X X 15/30/75/110 • - X L,O,P,Q,U,Y X. X X X X ET70- 241575W -FR 7848 X - X X 15 (75 on Aids) X - L,O,P,Q,U,Y X X X X X ET70- 241575W -FW 7853 X - X X 15 (75 on Ards) - X - L,O,P,Q,U,Y X X X X X ET70- 241575W -FN 3092 X - X X 15 (75 on Axis) - - X L,O,P,Q,U,Y X X X X X ET70- 24MCWH -FR 3472 X - X X 135/185 X - - L,O,P,Q,U,Y X X X X • ET70- 24MCWH -FW 3475 X - X X 135/185 - X - L,O,P,Q,U,Y X X X X • ET70- 24MCWH -FN 0061 X - X X 135/185 - - X L,O,P,Q,U,Y X X X X • ET7OWP- 2475 -FR 9077 X - X X 180 X - - M (Outdoor) X X X • • ET90- 24MCC -FW 3164 - X X X 15/30/75/95 - X - L,Q,U,V,Y X X X X • ET90-24MCC-FR 3163 - X X X 15/30/75/95 X - - L,Q,U,V,Y X X X X • ET90- 24MCC -FN 3186 - X X X 15/30/75/95 - - X L,Q,U,V,Y X X X X • ET90- 24MCCH -FW 3473 - X X X 115/177 - X - L,Q,U,V,Y X X X X • ET90- 24MCCH -FR 0139 - X X X 115/177 X - - L,Q,U,V,Y X X X X • ET90- 24MCCH -FN 0062 - X X X 115/177 - - X L,Q,U,V,Y X X X X • ET7O-R 7840 X X - - - X - L,O,P,Q,U,Y X X X X X ET70 -W 7844 X X - - - - X - L,O,P,Q,U,Y X X X X X E170 -N 3097 X X - - - - - X L,O,P,Q,U,Y X X X X X ET9O-R 7842 X X - - - X - - L,Q,U,V,Y X X X X X ET90 -W 7846 X X - - - - X - L,Q,U,V,Y X X X X X ET9O-N 3098 X X - - - - - X L,Q,U,V,Y X X X X X # Models are available in either Red or White. Call Customer Service for Order Code & Delivery. *PENDING 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. Architects and Engineers Specifications The speaker appliances shall be Wheelock Series ET Speakers and speaker strobe appliances shall be Wheelock Series ET Speaker Strobes or approved equals. The speakers shall be UL Listed under Standard 1480 for Fire Protective Service and speakers equipped with strobes shall be listed under UL Standard 1971 for Signaling Devices for the Hearing- Impaired. In addition, the strobes shall be certified to meet the requirements of FCC Part 15, Class B. All speakers shall be designed for a field selectable input of either 25 or 70 VRMS, with selectable power taps from 1/8 watt to 8 watts. All models shall have listed sound output of up to 93 dB at 10 feet and a listed frequency response of 400 to 4000 Hz. The speaker shall also incorporate a sealed back construction. All inputs shall employ terminals that accept #12 to #18 AWG wire sizes. The strobe portion of the appliance shall produce a flash rate of one (1) flash per second over the Regulated Voltage Range and shall incorporate a Xenon flashtube enclosed in a rugged Lexan® lens. The strobe shall be of low current design. Where, Multi - Candela Speaker Strobes are specified, the strobe intensity shall have field selectable settings and shall be rated per UL Standard 1971 at 15/30/75/110cd or 135/185cd for wall mount and 15/30/75/95 cd or 115/177cd for ceiling mount. The selector switch for selecting the candela shall be tamper resistant. The 1575 strobe shall be specified when 15 candela UL Standard 1971 listing with 75 candela on- axis is required (e.g. ADA compliance). When synchronization is required, the strobe portion of the appliance shall be compatible with the Wheelock SM, DSM sync modules or Wheelock PS- 24-8MC Power Supplies with built -in Patented Sync Protocol. The strobes shall not drift out of synchronization at any time during operation. If the sync module or Power Supply fails to operate, (i.e., contacts remain closed), the strobe shall revert to a non - synchronized flash rate. The speaker and speaker strobe appliances shall be designed for indoor surface or flush mounting. The speaker and speaker strobe shall incorporate a speaker mounting plate with a grille cover which is secured with two screws for a level, aesthetic finish and shall mount to standard electrical hardware requiring no additional trimplate or adapter. The finish of the Series ET speakers and speaker strobes shall be white, red or nickel plate. All speakers and speaker strobes shall be backward compatible. COOPER Wheelock 273 Branchport Avenue M - 6cr Long Branch, NJ 07740 Phone: (800) 631 -2148 WE ENCOURAGE AND SUPPORT NICET CERTIFICATION Fax: (732) 222 -2588 3 YEAR WARRANTY www.cooperwheelock.com Made in USA S0310 ET 06/06 • Wheelock INC. 273 Branchport Ave. Long Branch, N.J. 07740 (800) 631 -2148 (US) Thank you for using our products. (800) 397 -5777 (CANADA) INSTALLATION INSTRUCTIONS www.wheelockinc.com SERIES RSS AND RSSP MULTI - CANDELA STROBE APPLIANCES (WALL MOUNT VERSIONS) Use this product according to this instruction manual Please keep this instruction manual for future reference GENERAL: Wheelock's Series RSS and RSSP Multi - Candela Strobes can provide a non - synchronized strobe appliance when connected directly to a Fire Alarm Control Panel (FACP), or provide a synchronized strobe appliance when used in conjunction with a Sync Module (SM), Dual Sync Module (DSM) or Wheelock's Power Supplies utilizing Wheelock sync protocol. The Series RSS and RSSP Multi - Candela Strobe Appliances are UL Listed under Standard 1971 (Signaling Devices for the Hearing Impaired) for indoor Fire Protection Service and ULC Listed under Standard CAN/ULC- S526 -02 for indoor Fire Protective Service. The Multi - Candela strobe provides four selectable light output intensities in one unit. These Strobes are listed for wall mount only, with the backboxes specified in these instructions (See Mounting Options). RSS models have an integrated Strobe Mounting Plate (SMP) that can be mounted to a single -gang, double -gang, 4" backbox, 100mm European backbox or SHBB surface backbox. The strobes use a Xenon flashtube with solid state circuitry enclosed in a rugged Lexan® lens to provide maximum visibility and reliability for effective visible signaling. All inputs are polarized for compatibility with standard reverse polarity supervision of circuit wiring by the FACP. NOTE: "Lexan" is a registered trademark of General Electric Corporation. N OTE: All CAUTIONS and WARNINGS are identified by the symbol /' \. All warnings are printed in bold capital letters. /' \ WARNING: THE RSS STROBE APPLIANCE IS A "FIRE ALARM DEVICE - DO NOT PAINT." NOTE: All Canadian Installations should be in accordance with the Canadian Standard for the Installation of Fire Alarm Systems - CAN/ULC- S524 -01 and Canadian Electrical Code, Part 1. Final acceptance is subject to Authorities Having Jurisdiction. WARNING: READ THESE INSTRUCTIONS CAREFULLY. FAILURE TO COMPLY WITH ANY OF THE FOLLOWING INSTRUCTIONS, CAUTIONS AND WARNINGS COULD RESULT IN IMPROPER APPLICATION, CANDELA SETTING, . INSTALLATION AND /OR OPERATION. OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. SPECIFICATIONS: Table I: UL/ULC Ratings Regulated Voltage Range Voltage Range Per Strobe Mounting Model Voltage Limit Per UL 1971 CAN/ULC- 5526 -02 Candela Options (VDC/VRMS) (VDC/VRMS) (VDCNRMS) (cd) RSS -24MCW 24 16.0 -33.0 20.0 -31.0 15/30/75/110 A,B,C,D RSSP -24MCW 24 16.0 -33.0 20.0 -31.0 15/30/75/110 E,F Table IA: Audibles/Speakers for RSSP Strobe/Plate Product Series Multitone Appliances AMT, MT, MT4 Horns AH, NH Motor Bells MB- 06 /G10 Speakers ET- 1010/1070/1080, ET70, E7025/7070, E70 Chimes CH70 NOTE: THE MAXIMUM WIRE IMPEDANCE BETWEEN STROBES SHALL NOT EXCEED 35 OHMS. THE MAXIMUM NUMBER OR STROBES ON A SINGLE NOTIFICATION APPLIANCE CIRCUIT SHALL NOT EXCEED 47. NOTES: 1. Strobes will produce 1 flash per second over the "Regulated Voltage" range. 2. , All models are UL Listed for indoor use with a temperature range of +32 °F to +120 °F (0 °C to +49 °C) and maximum humidity of 93% RH, ± 2 %. Copyright 2003 Wheelock, Inc. All -rights reserved. • P83911 N Sheet 1 of 7 • A WARNING: CHECK THE MINIMUM AND MAXIMUM OUTPUT OF THE POWER SUPPLY AND STANDBY BATTERY AND SUBTRACT THE VOLTAGE DROP FROM THE CIRCUIT WIRING RESISTANCE TO DETERMINE THE APPPLIED VOLTAGE TO THE STROBES. A WARNING: FOR UL APPLICATIONS THESE APPLIANCES WERE TESTED TO THE OPERATING VOLTAGE LIMITS OF 16-33 VOLTS USING FILTERED (DC) OR UNFILTERED FULL - WAVE - RECTIFIED (FWR). DO NOT APPLY 80% AND 110% OF THESE VOLTAGE VALUES FOR SYSTEM OPERATION. / ! \ WARNING: FOR ULC APPLICATIONS THESE APPLIANCES WERE TESTED TO THE OPERATING VOLTAGE LIMITS OF 20 -31 VOLTS USING FILTERED (DC) OR UNFILTERED FULL - WAVE - RECTIFIED (FWR). APPLY 80% AND 110% OF THESE VOLTAGE VALUES FOR SYSTEM OPERATION. A WARNING: CANDELA SETTING WILL DETERMINE THE CURRENT DRAW OF THE PRODUCT. UL range rating limits are 16.0- 33.0VDC; ULC ratings are 20.0- 31.0VDC (tested range -20% below 10% above rated voltage range). Table 2: UL/ULC Current Ratings Rated Average Current (RMS) UL Voltage ULC Voltage 15cd 30cd 75cd 110cd 16.0VDC 20.0VDC 0.062 0.102 0.192 0.265 24.0VDC 24.0VDC 0.041 0.065 0.116 0.155 33.0VDC 31.0VDC 0.032 0.047 0.081 0.107 16.0VRMS 20.0VRMS 0.102 0.162 0.282 0.364 24.0VRMS 24.0VRMS 0.073 0.114 0.186 0.239 33.0VRMS 31.0VRMS 0.063 0.090 0.148 0.198 R ated Peak/Inrush Current * UL Voltage ULC Voltage 15cd 30cd 75cd 110cd 16.0- 33.0VDC 20.0- 31.0VDC 0.280 0.280 0.335 0.420 16.0- 33.0VRMS 20.0- 31.0VRMS 0.350 0.460 0.850 1.100 * The maximum time duration for the peak/inrush current is 10 milliseconds. /: \ WARNING: MAKE SURE THAT THE TOTAL AVERAGE CURRENT AND TOTAL PEAK CURRENT REQUIRED BY ALL APPLIANCES THAT ARE CONNECTED TO THE SYSTEM'S PRIMARY AND SECONDARY POWER SOURCES, NAC CIRCUITS, SM, DSM SYNC MODULES AND WHEELOCK'S POWER SUPPLIES DO NOT EXCEED THE POWER SOURCES' RATED CAPACITY OR THE CURRENT RATINGS OF ANY FUSES ON THE CIRCUITS TO WHICH THESE APPLIANCES ARE WIRED. OVERLOADING POWER SOURCES OR EXCEEDING FUSE RATINGS COULD RESULT IN LOSS OF POWER AND FAILURE TO ALERT OCCUPANTS DURING AN EMERGENCY, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. When calculating the total average or peak currents: Use Table 2 to determine the highest value of "Rated Average Current" for an individual strobe (across the expected operating voltage range of the strobe) or use Table 2 to determine the highest value of "Rated • Peak Current" of an individual strobe (across the expected voltage range of the strobe) then multiply the value by the total number of strobes; be sure to add the currents for any other appliances, including audible signaling appliances, powered by the same source and include any required safety factors. If the peak current exceeds the power supplies' inrush capacity, the output, voltage provided by the power supplies may drop below the listed voltage range of the appliances connected to the supply and the voltage may not recover in some types of power supplies. For example, an auxiliary power supply that lacks filtering at its output stage (either via lack of capacitance and/or lack of battery b ackup across the output) may exhibit this characteristic. /N \ CAUTION: Strobes are not designed to be used on coded systems in which the applied voltage is cycled on and off. P83911 N Sheet 2 of 7 LIGHT DISTRIBUTION PER UL 1971 AND CAN/ULC- S526 -02: Table 3A: UL Light Output - Horizontal Plane Horizontal 15cd 30cd 75cd 110cd Angle, (in deg.) UL Min. Typ. 15cd UL Min. Typ. 30cd UL Min. Typ. 75cd UL Min. Typ. 110cd 0 15.0 22 30.0 44 75.0 110 110.0 158 5 13.5 22 27.0 42 67.5 114 99.0 162 10 13.5 23 27.0 42 67.5 110 99.0 156 15 13.5 22 27.0 41 67.5 110 99.0 153 20 ' 13.5 21 27.0 40 67.5 108 99.0 153 25 13.5 20 27.0 38 67.5 102 99.0 139 30 11.3 20 22.5 38 56.3 • 103 82.5 142 35 11.3 18 22.5 36 56.3 97 82.5 135 40 11.3 18 22.5 35 56.3 93 82.5 130 45 11.3 20 22.5 39 56.3 103 82.5 143 50 8.3 19 16.5 37 41.3 93 60.5 133 55 6.8 14 13.5 27 33.8 71 49.5 98 60 6.0 15 12.0 30 30.0 73 44.0 102 65 5.3 15 10.5 28 26.3 71 38.5 97 70 5.3 14 10.5 25 26.3 64 38.5 88 75 4.5 12 9.0 23 22.5 54 33.0 76 80 4.5 10 9.0 17 22.5 47 33.0 64 85 3.8 5 7.5 10 18.8 25 27.5 33 ' 90 3.8 7 7.5 15 18.8 39 27.5 52 I Table 3B: UL Light Output - Vertical Plane Vertical 15cd 30cd 75cd 110cd Angle (in deg.) UL Min. Typ. 15cd UL Min. Typ. 30cd UL Min. Typ. 75cd UL Min. Typ. 110cd 0 15.0 23 30.0 45 75.0 113 110.0 160 5 13.5 24 27.0 48 67.5 119 99.0 166 10 13.5 21 27.0 39 67.5 101 99.0 143 15 13.5 19 27.0 39 - 67.5 102 99.0 136 20 13.5 19 27.0 37 67.5 98 99.0 122 25 13.5 18 27.0 35 67.5 88 99.0 122 30 13.5 15 27.0 ' 31 67.5 80 99.0 106 35 9.8 17 19.5 31 48.8 84 . 71.5 112 40 6.9 13 . 13.8 : 24 34.5 62 50.6 86 45 5.1 7 10.2 12 25.5 33 37.4 44 50 4.1 6 8.1 11 20.3 29 29.7 41 55 3.3 6 6.6 11 16.5 28 24.2 38 60 2.7 5 5.4 10 13.5 27 19.8 37 65 2.4 5 4.8 10 12.0 27 17.6 37 70 2.3 6 4.5 10 11.3 27 16.5 37 75 2.0 5 3.9 10 9.8 26 14.3 36 80 1.8 5 3.6 9 9.0 25 13.2 33 85 1.8 5 3.6 9 9.0 24 13.2 33 90 1.8 2 3.6 5 9.0 12 13.2 17 I Table 3C: ULC Light Output on Axis Rating CAN/ULC- 15cd Setting 30cd S etting 75cd Setting 110cd Setting S526 -02 Min. Typ. Min Typ. Min. Typ. . Min. Typ. Min.2cd 15.0 22 . 30.0 44 75.0 110 110.0 158 P83911 N Sheet 3 of 7 • WIRING INFORMATION: Figure 1: Wiring Diagrams Figure 2. • ■ TO + , I 81140MMAIS - 1 „ 1) All Strobe Appliances have in -out wiring terminals that accepts two MCP °' P a ATITUMOM o. o,,a #12 to #18 American Wire Gauge (AWG) wires at each screw a, terminal. Strip leads 3/8 inches and connect to screw terminals. MUSS 2) Break all in -out wire runs on supervised circuits to assure integrity of 1+ m RIR � , ,�,,,,®,,, - 6 circuit supervision as shown in Figure 2. Strobe/Plate assembly has UM I TO MEW .� "°"'"'® """®'__ �'�' two red leads and two black leads for in-out wiring. The polarity � .�,.� FRCM wECOmo .' SLR ro r s xr a, „ shown in the wiring diagrams is for the operation of the appliances. WO< The polarity is reversed by the FACP during supervision. Refer to Sync Module instruction sheets SM (P83123), DSM (P83177) or Wheelock's Power Supplies for additional information. M OUNTING PROCEDURES: A\ CAUTION: Check that the installed product will have sufficient clearance and wiring room prior to installing backboxes and conduit, especially if sheathed multiconductor cable or 3/4" conduit fittings are used. 1. This RSS model has an integrated Strobe Mounting Plate (SMP). 2. The Strobe Mounting Plate (SMP) must be oriented correctly when it is mounted to the backbox. Turn the SMP so that the arrow above the words "Horizontal Strobe" points to the top side of the SMP. 3. This RSS model can be flush mounted to a standard single -gang backbox (Figure A), 4" or 100mm backbox (Figure B) or double -gang backbox (Figure C). It can also be surface mounted to a 4" or 100mm backbox (Figure B), double -gang backbox (Figure C) or the SHBB (Figure D). The RSSP model can be flush mounted to a 4" backbox (Figure E) or surface mounted to a SBL -2 backbox (Figure F). 4. . Move the selector switch to the desired candela setting. The setting is indicated by a pointer and can be seen on the bottom side of the lens. See Figures 3 and 4 below. 5. Mount the SMP first to the backbox. Next slide the Beauty Plate over the SMP until the 2 snaps of the Beauty Plate engage with the SMP. 6. The Beauty Plate can be removed from the strobe assembly once engaged. First, gently insert a screwdriver into one of the slots located on the top and bottom edges of the Beauty Plate. Second, gently pull away from the wall with the inserted screwdriver to disengage the snap. Third, repeat the first and second steps for the second slot. Finally, gently lift the Beauty Plate away from the SMP. 7. Mounting hardware for each mounting option is supplied. 8. Conduit entrances to the backbox should be selected to provide sufficient wiring clearance for the installed product. 9. When terminating field wires, do not use more lead length than required. Excess lead length could result in insufficient wiring space for the signaling appliance. 10. Use care and proper techniques to position the field wires in the backbox so that they use minimum space and produce minimum stress on the product. This is especially important for stiff, heavy gauge wires and wires with thick insulation or sheathing. 11. Do not pass additional wires (used for other than the signaling appliance) through the backbox. Such additional wires could result in insufficient wiring space for the signaling appliance. 12. The effect of shipping and storage temperatures shall not adversely affect the performance of the appliance when stored in the original cartons and are not subjected to misuse or abuse. RSS -24MCW Strobes are listed for indoor use. Figure 3. Figure 4. • �j' rf C BOTTCM VIEW -L = -- BACK VIEW NOTE: The RSS/RSSP Multi- Candela come pre -set at 15cd. • P83911 N Sheet 4 of 7 / • \ WARNING: THE CANDELA SELECT SWITCH MUST BE FIELD SET TO THE REQUIRED CANDELA INTENSITY BEFORE INSTALLATION. WHEN CHANGING THE SETTING OF THE CANDELA SELECT SWITCH, MAKE CERTAIN THAT IT "CLICKS" IN PLACE. AFTER CHANGING THE CANDELA SETTING, THE APPLIANCE MUST BE RETESTED TO VERIFY PROPER OPERATION (FLASH RATE MUST BE BETWEEN 60-64 FLASHES PER MINUTE). IMPROPER SETTING OF THE CANDELA SELECT SWITCH, WHETHER IT IS ON AN INCORRECT SETTING OR IN BETWEEN TWO CANDELA POSITIONS, MAY RESULT IN DEGRADED OPERATION OR DAMAGE TO THE PRODUCT, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. MOUNTING OPTIONS: 1 WARNING: REMOVAL OF THE COVER AT THE BACK OF THE MOUNTING PLATE COULD RESULT IN SEVERE ELECTRIC SHOCK. /N CAUTION: The following figures show the maximum number of field wires (conductors) that can enter the backbox used with each mounting option. If these limits are exceeded, there may be insufficient space in the backbox to accommodate the field wires and stresses from the wires could damage the product. Although the limits shown for each mounting option comply with the National Electrical Code (NEC), Wheelock recommends use of the largest backbox option shown and the use of approved stranded field wires, whenever possible, to provide additional wiring room for easy installation and minimum stress on the product from wiring. A FLUSH MOUNTING B FLUSH OR SURFACE MOUNT C FLUSH OR SURFACE MOUNT SID. SINGLE -GANG 4° SQ. X 1 -1/2° DEEP BACIBOX DOUBLE -GANG X 2 -1/4" �t BACKBOX 2" DEEP OR 100m X 37.Srtrn DEEP BACTBOX EUROPEAN BACFBOX STROBE MOUNTING ♦ , / 1/632 X 8" ( ) ' / #6-32 X SAS° R ' �� / SCREWS #832X3/4" ; �/ SCREWS �/ 1 001 1 t/ \SCREWS J ki lle00° P . STROBE MOUNIING PLATE (SMP) \ STROBE MOUNTING l ®, PLATE (SMP) BEAUTY PLATE (SUPPLIED)--/ SUPPLIED) BEAUTY PLATE (SUPPLIED) J BEAUTY PLATE (SUPPUED)- MAXIMUM NUMBER OF CONDUCTORS AWG #18 AWG #14 AWG #12 MAXIMUM NUMBER OF CONDUCTORS MAXIMUM NUMBER OF CONDUCTORS 4 4 4 4 Al .t#18 AV #1s AWy #14 AwG #1Z AIU.#18 A1AG #16 AWG #14 &D AV 4 4 4 4 4 4 4 4 D SURFACE MOUNTING E FLUSH MOUNTING F :. s._._ .,..1.11 . SHALLOW SURFACE IB STANDARD 4° X 2 -1/8" BAClBOX (SBL -2) , - •COX(` r -: �- :.•,r� 1 #8-32 X S APPLIANCE _ . -OX � SCREWS faille, APPLIANCE lrrp' ).. t,---,,ihikil 4, N 4 '''''' STROBE MOUNTING PLATE (SMP) 1 446: BEAUTY PLATE (SUPPLIED) MAXIMUM NUMBER OF CONDUCTORS MAXIMUM NUMBER OF CONDUCTORS MAXIMUM NUMBER OF CONDUCTORS . AWG #18 mama AWG #14 ma= &Dile AIO�Z.#16 &M AU MUM #12 AAG #18 AAG #1S &M#14 Al f12 4 4 a 4 0 8 8 0 - -8 8 8-- 8 F Figures E and are shown with optional 6" bell. See Table IA for other possible appliance combinations. P83911 N Sheet 5 of 7 L 1 WARNING: WHEN INSTALLING STROBES IN AN OPEN OFFICE OR OTHER AREAS CONTAINING PARTITIONS OR OTHER VIEWING OBSTRUCTIONS, SPECIAL ATTENTION SHOULD BE GIVEN TO THE LOCATION OF THE STROBES SO THAT THEIR OPERATING EFFECT CAN BE SEEN BY ALL INTENDED VIEWERS, WITH THE INTENSITY, NUMBER, AND TYPE OF STROBES BEING SUFFICIENT TO MAKE SURE THAT THE. INTENDED VIEWER IS ALERTED BY PROPER ILLUMINATION, REGARDLESS OF THE VIEWER'S ORIENTATION. FAILURE TO DO SO COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. The RSS- 24MCW's and RSSP- 24MCW's 110cd setting is Listed for use in sleeping or non - sleeping areas when installed in accordance with appropriate NFPA Standards and the Authority Having Jurisdiction. 1 WARNING:. INSTALLATION OF WHEELOCK 110 CANDELA STROBE PRODUCTS IN SLEEPING AREAS SHOULD BE WALL MOUNTED AT LEAST 24" BELOW THE CEILING AS FOLLOWS: (1) THE ON -AXIS (DIRECTLY IN FRONT OF LENS) LIGHT OUTPUT SHOULD BE DIRECTED AT THE EYE -LIDS OF THE SLEEPING PERSON, E.G. PILLOW END OF BED, BED HEAD; (2) NO PART OF THE BED SHALL BE MORE THAN SIXTEEN (16) FEET FROM THE STROBE NOTIFICATION APPLIANCE. INSTALLERS MUST ADVISE OWNERS AND OPERATORS OF BUILDINGS WITH SLEEPING OCCUPANTS, E.G. HOTELS AND MOTELS, TO WARN GUESTS, RESIDENTS AND EMPLOYEES TO NOT MOVE THE BED LOCATION TO A POSITION VIOLATING POINTS (1) AND (2) ABOVE OR SERIOUS INJURY AND /OR LOSS OF LIFE MAY OCCUR DURING A FIRE EMERGENCY. 1 WARNING: A SMALL POSSIBILITY EXISTS THAT THE USE OF MULTIPLE STROBES WITHIN A PERSON'S FIELD OF VIEW, UNDER CERTAIN CIRCUMSTANCES, MIGHT INDUCE A PHOTO - SENSITIVE RESPONSE IN PERSONS WITH EPILEPSY. STROBE REFLECTIONS IN A GLASS OR MIRRORED SURFACE MIGHT ALSO INDUCE SUCH A RESPONSE. TO MINIMIZE THIS POSSIBLE HAZARD, WHEELOCK STRONGLY RECOMMENDS THAT THE STROBES INSTALLED SHOULD NOT PRESENT A COMPOSITE FLASH RATE IN THE FIELD OF VIEW WHICH EXCEEDS FIVE (5) Hz AT THE OPERATING VOLTAGE OF THE STROBES. WHEELOCK ALSO STRONGLY RECOMMENDS THAT THE INTENSITY AND COMPOSITE FLASH RATE OF INSTALLED STROBES COMPLY WITH LEVELS ESTABLISHED BY APPLICABLE LAWS, STANDARDS, REGULATIONS, CODES AND GUIDELINES. NOTE: NFPA 72 /ANSI 117.1 conform to ADAAG Equivalent Facilitation Guidelines in using fewer, higher intensity strobes within i the same protected area. These appliances can produce a distinctive three pulse Temporal Pattern Fire Alarm Evacuation Signal (for total evacuation) in a ccordance with NFPA 72, 1999 Edition. /' \ CAUTION: Check the installation instructions of the manufacturers of other equipment used in the system for any guidelines or restrictions on wiring and/or locating Notification Appliance Circuits (NAC) and notification appliances. Some system communication circuits and/or audio circuits, for example, may require special precautions to assure immunity from electrical noise (e.g. audio crosstalk). NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in residential installation. This equipment generates, uses and can radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: 1) Reorient or relocate the receiving antenna, 2) Increase the separation between the equipment and receiver, 3) Connect the equipment into an outlet on a circuit different from that to which the receiver is connected, and 4) Consult the dealer or an experienced radio/TV technician for help. ANY MATERIAL EXTRAPOLATED FROM THIS DOCUMENT OR FROM WHEELOCK MANUALS OR OTHER DOCUMENTS DESCRIBING THE PRODUCT FOR USE IN PROMOTIONAL OR ADVERTISING CLAIMS, OR FOR ANY OTHER USE, INCLUDING DESCRIPTION OF THE PRODUCT'S APPLICATION, OPERATION, INSTALLATION AND TESTING IS USED AT THE SOLE RISK OF THE USER AND WHEELOCK WILL NOT HAVE ANY LIABILITY FOR SUCH USE. IMPORTANT: READ SEPARATE "GENERAL INFORMATION" SHEET FOR INFORMATION ON THE PLACEMENT, LIMITATIONS, INSTALLATION, FINAL CHECKOUT, AND PERIODIC TESTING OF NOTIFICATION • APPLIANCES. P83911 N Sheet 6 of 7 1� Limited Warranty Wheelock products must be used within their published specifications and must be PROPERLY specified, applied, installed, operated, maintained and operationally tested in accordance with these instructions at the time of installation and at least twice a year or more often and in accordance with local, state and federal codes, regulations and laws. Specification, application, installation, operation, maintenance and testing must be performed by qualified personnel for proper operation in accordance with all of the latest National - Fire Protection Association (NFPA), Underwriters' Laboratories (UL), Underwriters' Laboratories of Canada (ULC), National Electrical Code (NEC), Occupational Safety and Health Administration (OSHA), local, state, county, province, district, federal and other applicable building and fire standards, guidelines, regulations, laws and codes including, but not limited to, all appendices and amendments and the requirements of the local authority having jurisdiction (AHJ). Wheelock products when properly specified, applied, installed, operated, maintained and operationally tested as provided above are warranted against mechanical and electrical defects for a period of three years from date of manufacture (as determined by date code). Correction of defects by repair or replacement shall be at Wheelock's sole discretion and shall constitute fulfillment of all obligations under this warranty. THE FOREGOING LIMITED WARRANTY SHALL IMMEDIATELY TERMINATE IN THE EVENT ANY PART NOT FURNISHED BY WHEELOCK IS INSTALLED IN THE PRODUCT. THE FOREGOING LIMITED WARRANTY SPECIFICALLY EXCLUDES ANY SOFTWARE REQUIRED FOR THE OPERATION OF OR INCLUDED IN A PRODUCT. WHEELOCK MAKES NO REPRESENTATION OR WARRANTY OF ANY OTHER KIND, EXPRESS, IMPLIED OR STATUTORY WHETHER AS TO MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR ANY OTHER MATTER USERS ARE SOLELY RESPONSIBLE FOR DETERMINING WHETHER A PRODUCT IS SUITABLE FOR THE USER'S PURPOSES, OR WHETHER IT WILL ACHIEVE THE USER'S INTENDED RESULTS. THERE IS NO WARRANTY AGAINST DAMAGE RESULTING FROM MISAPPLICATION, IMPROPER SPECIFICATION, ABUSE, ACCIDENT OR OTHER OPERATING CONDITIONS BEYOND WHEELOCK'S CONTROL. SOME WHEELOCK PRODUCTS CONTAIN SOFTWARE. WITH RESPECT TO THOSE PRODUCTS, WHEELOCK DOES NOT WARRANTY THAT THE OPERATION OF THE SOFTWARE WILL BE UNINTERRUPTED OR ERROR -FREE OR THAT THE SOFTWARE WILL MEET ANY OTHER STANDARD OF PERFORMANCE, OR THAT THE FUNCTIONS OR PERFORMANCE OF THE SOFTWARE WILL MEET THE USER'S REQUIREMENTS. WHEELOCK SHALL NOT BE LIABLE FOR ANY DELAYS, BREAKDOWNS, INTERRUPTIONS,- LOSS, DESTRUCTION, ALTERATION, OR OTHER PROBLEMS IN THE USE OF A PRODUCT ARISING OUT OF OR CAUSED BY THE SOFTWARE. THE LIABILITY OF WHEELOCK ARISING OUT OF THE SUPPLYING OF A PRODUCT, OR ITS USE, WHETHER ON ' WARRANTIES, NEGLIGENCE, OR OTHERWISE, SHALL NOT IN ANY CASE EXCEED THE COST OF CORRECTING DEFECTS AS STATED IN THE LIMITED WARRANTY. AND UPON EXPIRATION OF THE WARRANTY PERIOD ALL SUCH LIABILITY SHALL TERMINATE. WHEELOCK IS NOT LIABLE FOR LABOR COSTS INCURRED IN REMOVAL, REINSTALLATION OR REPAIR OF THE PRODUCT BY ANYONE OTHER THAN WHEELOCK OR FOR DAMAGE OF ANY TYPE WHATSOEVER, INCLUDING BUT NOT LIMITED TO, LOSS OF PROFIT OR INCIDENTAL OR CONSEQUENTIAL DAMAGES. THE FOREGOING SHALL CONSTITUTE THE SOLE REMEDY OF THE PURCHASER AND THE EXCLUSIVE - LIABILITY OF WHEELOCK. IN NO CASE WILL WHEELOCK'S LIABILITY EXCEED THE PURCHASE PRICE PAID FOR A PRODUCT. Limitation of Liability WHEELOCK'S LIABILITY ON ANY CLAIM OF ANY KIND, INCLUDING NEGLIGENCE AND BREACH OF WARRANTY, FOR ANY LOSS OR DAMAGE RESULTING FROM, ARISING OUT OF, OR CONNECTED WITH THIS CONTRACT, OR FROM THE MANUFACTURE, SALE, DELIVERY, RESALE, REPAIR OR USE OF ANY PRODUCT COVERED BY THIS ORDER SHALL BE LIMITED TO THE PRICE APPLICABLE TO THE PRODUCT OR PART THEREOF WHICH GIVES RISE TO THE CLAIM. WHEELOCK'S LIABILITY ON ANY CLAIM OF ANY KIND SHALL CEASE IMMEDIATELY UPON THE INSTALLATION IN THE PRODUCT OF ANY PART NOT FURNISHED BY WHEELOCK. IN NO EVENT SHALL WHEELOCK BE LIABLE FOR ANY CLAIM OF ANY KIND UNLESS IT IS PROVEN THAT OUR PRODUCT WAS A DIRECT CAUSE OF SUCH CLAIM. FURTHER, IN NO EVENT, INCLUDING IN THE CASE OF A CLAIM OF NEGLIGENCE, SHALL WHEELOCK BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES. SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR CONSEQUENTIAL DAMAGES, SO THE PRECEDING LIMITATION MAY NOT APPLY TO ALL PURCHASERS. 2/03 P83911 N Sheet 7 of 7 SIEMENS Technical Specification Sheet Rev. 5, January, 2000 • , •" -T Vt.TE ' Intelligent Heat Detectorsuw =� `� ,, 1 ____, Models SIGA - HFS -LG & SIGA - HRS -LG ( ) M EA a `` Signature Series Model SIGA - HFS -LG and SIGA - HRS -LG Intelli- SIGA- HFS -LG ;r , gent Heat Detectors gather analog information from their fixed temperature and /or rate -of -rise heat sensing elements and converts it into digital signals. The detector's on -board micro- processor measures and analyzes these signals. It compares the Compatibility information to historical readings and time patterns to make an alarm decision. Digital filters remove signal patterns that are not The SIGA - HFS -LG and SIGA - HRS -LG detectors are compatible typical of fires. only with Signature Loop Controllers. Features Installation Note: Some features described here may not be supported by all Signature Series detectors mount to North American 1 -gang control systems. Check your control panel's Installation and boxes, 3 -1/2" or 4" octagon boxes, and to 4" square electrical Operation Guide for details. boxes 1 -1/2" (38 mm) deep. They mount to European BESA and 1- • 70 foot (21.3 meter) spacing gang boxes with 60.3 mm fixing centers. • 15 °F (9°C) /min rate -of -rise and 135 °F (57°C) fixed temperature type • Intelligent detector C/W integral microprocessor 10.8" (20 mm) • Non - volatile memory • Automatic device mapping • Electronic addressing 2.0' (51 mm) • Identification of defective detectors ' 1L�/ • Twin red /green status LEDs '1® • Standard, relay, fault isolator and audible mounting bases M w • Designed and manufactured to ISO 9001 standards 4.4' (112 mm) Testing & Maintenance Tamper-Resist Lever Arm � 0111111_, • a (!tl `:u 1�i�< -` `� '�' p 1 - Break off to disable - i 1 �, Each detector automatically identifies when it is defective and (Located on Base) ` \ O the user - friendly maintenance program shows the current state of each detector and other pertinent messages. Single detec- tors may be turned off temporarily, from the control panel. Availability of maintenance features is dependent on the fire Access Slot for alarm system used. Scheduled maintenance (Regular or Tamper - Resist Mechanism - i Selected) for proper detector operation should be planned to meet the requirements of the Authority Having Jurisdiction — , is ( lag AHJ). Refer to current NFPA 72 and ULC CAN /ULC 536 `' -, standards. Document No. 152- 371P25 Page 1 of 4 Typical Wiring The detector mounting bases will accept #18 AWG (0.75mm #16 (1.0mm #14 AWG (1.5mml, and #12 AWG (2.5mm wire sizes. Note: Sizes #16 AWG (1.0mm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Standard Detector Base, SIGA -SB, SIGA -SB4 Relay Detector Base, SIGA -RB, SIGA -RB4 Remote LED Term Description Normally- Normally- Term Description (SIGA -LED) 1 Not Used Common Closed Open 1 Normally -Open 2 DATA IN/OUT ( +) 2 DATA IN/OUT ( +) Max. Resistance 3 Not Used 4 DATA Common ( -) • NI o per Wire 4 DATA IN ( -) + Must NOT Exceed 10(1 4 Remote LED ( -) 5 Not Used 5 Remote LED ( +) 6 Normally-Closed 6 Not Used 7 DATA OUT ( -) C 7 DATA OUT ( -) / . /' _ \� CONTACT RATING I / C�" . (-�11' ! i 1.0Amp@30VDC a . • 1 (Pilot Duty) DATA IN ( -) 0 c1 z . / DATA OUT ( -) DATA IN ( -) z i DATA OUT ( -) I DATA IN ( +) DATA OUT ( +) DATA IN ( +) DATA OUT ( +) From Signature Controller To Next Device From Signature Controller To Next Device or Previous Device or Previous Device Isolator Detector Base, SIGA -IB, SIGA -IB4 Audible Detector Base, SIGA -AB4 Term Description SIGA -AB4 Wiring & Jumper Settings 1 Not Used Jumper JW2 6 , 0 2 DATA IN/OUT ( +) OUT = Low Volume : Steady Tone 6 t .. 7� 3 DATA IN IN = High Volume = T Tone O 0� O 4 Not Used g M 7 -4 5 Not Used = 6 DATA OUT ( -) Ogg! 7 Not Used \ / From Power Suppry I I I I To Next Sounder Base or DATA IN 0 z DATA OUT () or Previous Sounder Base I "I I E-O-L Relay I 24 VDC IN (+) Iil1 24 VDC OUT (+) ( 24 VDC IN ( -) 24 VDC OUT ( -) DATA IN ( +) DATA OUT ( +) 1 11 DATA OUT ( - From Signature Controller To Next Device DATA IN ( -) To Next Signature Device or Previous Device DATA IN ( +) DATA OUT ( +) From Signature Controller - or Previous Device Application The table below shows six standard test fires used to rate the sensitivity of smoke and heat detectors. The table indicates that no single sensing element is suited for all test fires. Siemens recommends that this detector be installed according to latest recognized edition of national and local fire alarm codes. Test Fire Type of Detector SIGA -IS -LG SIGA -PS -LG SIGA- HRS -LG and SIGA- HFS -LG SIGA- PHS -LG SIGA - IPHS -LG Ion Photo Rate -of- Rise /Fixed Temp. Photo /Heat 3D Ion/Photo /Heat 4D Open Wood optimum unsuitable optimum very suitable optimum Wood Pyrolysis suitable optimum unsuitable optimum optimum Smouldering Cotton very suitable optimum unsuitable optimum optimum Poly Urethane Foam very suitable very suitable suitable very suitable optimum n - Heptane optimum very suitable very suitable optimum optimum Liquid Fire without Smoke unsuitable unsuitable optimum very suitable very suitable Page 2 of 4 Siemens Building Technologies, Inc. Accessories All detector mounting bases have wiring terminals that are red alarm LED. accessible from the "room- side" after mounting the base to Trim Skirt SIGA -TS4 - Supplied with 4' bases, it can also be the electrical box. The bases mount to North American 1 -gang ordered separately to use with the other bases to help hide boxes and to 3 -1/2" or 4" octagon boxes, 1 -1/2° (38 mm) deep. surface imperfections not covered by the smaller bases. Use They also mount to European BESA and 1 -gang boxes with black model with SIGA - IPHSB. 60.3 mm fixing centers. The SIGA -SB4, SIGA -RB4, and SIGA - IB4 mount to North American 4" sq. electrical boxes in addition to the above boxes. They include the SIGA -TS4 Trim Skirt Ordering Information which is used to cover the "mounting ears" on the base. Removing a detector from its base (except isolator base) does Catalog Description Ship Wt. not affect other devices operating on the same circuit. Number lbs (kg) %- SIGA- HFS -LG Intelligent Fixed Temperature ,—,� (' s r- ti Heat Detector UUULC Listed 11ti � `i ►�' ' r+' . ,. 1� i 1 Intelligent Fixed Temperature/Rate-of- 5 (.23) 1)f f� / � ( 1 SIGA- HRS-LG Rise Heat Detector - UUULC Listed • • % ti :Y V Accessories A SIGA -AB4 SIGASB SIGA4B SIGA -RB S1GA.LED SIGA -SB Detector Mounting Base Audible Base Standard Base Isolator Base Relay Base Remote LED SIGA -SB4 4-inch Detector Mounting Base c/w SIGA -TS Trim Skirt Standard Base SIGA - SB, SIGA - SB4 - This is the basic mount SIGA RB Detector Mounting Base w /Relay ing base for Siemens Signature Series detectors. The SIGA -LED Remote LED is supported by the Standard Base. SIGA -RB4 4-inch Detector Mounting Base .2 (.09) /w Relay Gw SIGA -TS Trim Skirt Relay Base SIGA - RB, SIGA - RB4 - This base includes a relay. SIGA -IB Detector Mounting Base w/Fault Isolator Normally open or closed operation is selected during installation. 4-inch Detector Mounting Base w/ The dry contact is rated for 1 amp @ 30 Vdc (pilot duty). The SIGA -1B4 Fault Isolator clw SIGA -TS Trim Skirt relay's position is supervised to avoid accidentally jarring it out of SIGA -LED Remote Alarm LED position. The SIGA -RB can be operated as a control relay if SIGA-AB4 Audible (Sounder) Base 3 (0.15) programmed to do so at the control panel (ALS3 V. 2 only). The relay base does not support the SIGA -LED Remote LED. SIGA -TS4 Trim Skirt (supplied with 4-inch bases) .1 (.04) Audible Base SIGA - AB4 - This base is designed for use where localized or group alarm signaling is required. When the detector senses an alarm condition, the audible base emits a local alarm Specifications signal. The optional SIGA -CRR Polarity Reversal Relay can be used for sounding to other audible bases on the same 24Vdc circuit. Catalog Number SIGA- HFS -LG SIGA- HRS -LG Heat Sensing Fixed Fixed & Temperature/ Relay and Audible Bases operate as follows: Element Temperature Rate-of-Rise • at system power -up or reset, the relay is de- energized. Alarms at 135 °F (57 °C) • when a detector is installed in the base with the power on, Alarm Point Alarms at 135 °F Temp. increase Ambient or Te (57°C) Ambient ° ° the relay energizes for 4 seconds, then de- energizes. above 15°F (9°C) per min. • when a detector is removed from a base with the power on, UL Listed 70 feet (21.3 meters) center to center spacing the relay is de- energized. Detector Spacing • when the detector enters the alarm state, the relay is Operating and Operating Temp: 32 °F to 100 °F (0 °C to 38°C) energized. Storage Storage Temp: -4°F to 140 °F ( -20 °C to 60 °C) Isolator Base SIGA - IB, SIGA - IB4 - This base includes a built -in Environment Humidity: 0 to 93% RH, Non Condensing line fault isolator for use on Class A circuits. A detector must be Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) installed for it to operate. The isolator base does not support the Quiescent: 45pA @ 19 V SIGA -LED Remote LED. Operating Alarm: 45pA @ 19V Current Emergency Stand -alone Alarm Mode: 18mA The isolator operates as follows: Pulse Current: 100 itA (100 msec) • a short on the line causes all isolators too n within 23 msec. Construction & Pe Finish High Impact Engineering Polymer - White • at 10 msec intervals, beginning on one side of the Class A Compatible SIGA -SB Standard Base, SIGA -RB Relay Base, circuit nearest the loop controller, the isolators close to Mounting Bases SIGA -IB Isolator Base, SIGA -AB Audible Base provide the next isolator down the line with power. On -board Green LED - Flashes when polled • when the isolator next to the short closes, it reopens within On -board Red LED - Flashes when in alarm; Both 10 msec. LED Operation LEDs - Glow steady when in alarm (stand-alone) Compatible Remote Red LED (model SIGA -LED) The process repeats beginning on the other side of the loop Flashes when in alarm controller. Compatibility Use With: SIGNATURE Loop Controller Remote LED SIGA - LED - The remote LED connects to the Address SIGA -SB or SIGA -SB4 Standard Base only. It features a North Requirements Uses one device address American size 1 -gang plastic faceplate with a white finish and Agency Listings UL, ULC, MEA, CSFM Siemens Building Technologies, Inc. Page 3 of 4 S I E E lJ S Technical Specification Sheet Rev. 5, January, 2000 s Input Modules K t yyJ p75 jar -% Models SIGA- CT1 -LG, SIGA - CT2 -LG ,: - & SIGA - MCT2 -LG . +, r} ; F;* �x MEC I in. • • The SIGA- CT1 -LG Single Input Module and SIGA - CT2 /SIGA -MCT2- I. LG Dual Input Modules are intelligent analog addressable devices used to connect one or two Class B normally -open Alarm, Super- visory, or Monitor type dry contact Initiating Device Circuits (IDC). The actual function of these modules is determined by the "personality code" selected by the installer. This code is �L� ��� MEA ©� y ' -J downloaded to the module from the Signature loop controller during system configuration. • Automatic device mapping The input modules gather analog information from the initiating Signature modules transmit information to the loop controller devices connected to them and convert it into digital signals. regarding their circuit locations with respect to other The module's on -board microprocessor analyzes the signal and Signature devices on the wire loop. decides whether or not to input an alarm. • Electronic addressing The SIGA- CT1 -LG and SIGA - CT2 -LG mount to standard North Programmable addresses are downloaded from the loop American 1 -gang electrical boxes, making them ideal for loca- controller, a PC, or the SIGA -PRO Signature program /service tions where only one module is required. Separate I/O and data tool. There are no switches or dials to set. loop connections are made to each module. • Intelligent device with microprocessor The SIGA - MCT2 -LG is part of the U1O family of plug -in Signature All decisions are made at the module to allow lower commu- Series modules. It functions identically to the SIGA - CT2 -LG, but nication speed with substantially improved control panel takes advantage of the modular flexibility and easy installation response time and less sensitivity to line noise and loop that characterizes all UIO modules. Two- and six - module U1O wiring properties; twisted or shielded wire is not required. motherboards are available. All wiring connections are made to • Non - volatile memory terminal blocks on the motherboard. UIO assemblies may be Permanently stores serial number, type of device, and job mounted in Siemens enclosures. number. Automatically updates historic information including hours of operation, last maintenance date, number of alarms and troubles, and time and date of last alarm. Features • Stand -alone operation The module makes decisions and inputs an alarm from • Multiple applications initiating devices connected to it even if the loop controller's Including alarm, alarm with delayed latching (retard) for polling interrogation stops. (Function availability dependent waterflow applications. supervisory, and monitor. The installer upon control panel.) selects one of four (4) "personality codes" to be downloaded • Diagnostic LEDs to the module through the loop controler. Flashing green shows normal polling; flashing red shows • Plug -in (U1O) or standard 1-gang mount alarm/active state. U1O versions allow quick installation where multiple modules • Designed to ISO 9001 standards are required. The 1 -gang mount version is ideal for remote All signature products are manufactured to strict international locations that require a single module. quality standards to ensure highest reliability. • High ambient temperature operation • Ground fault detection by address Install in ambient temperatures up to 120 °F (49 °C). Detects ground faults right down to the device level. Document No. 152- 370P25 Page 1 of 4 Installation The code is selected by the installer depending upon the desired application and is downloaded from the loop controller. SIGA - CTI -LG and SIGA - CT2 -LG: modules mount to North American 2W (64 mm) deep 1-gang boxes and 1112' (38 mm) One (1) personality code can be assigned to the SIGA-CT1-LG. deep 4" square boxes with 1 -gang covers. The terminals are Two (2) personality codes can be assigned to the SIGA -CT2/ suited for #12 to #18 AWG (2.5 mm to 0.75 mm wire size. MCT2-LG. Codes 1, 2, 3 and 4 can be mixed on SIGA -CT2/ MCT2 -LG modules only. For example, personality code 1 can li ..........„ be assigned to the first address (circuit A) and code 4 can be Compatible Electrical Box assigned to the second address (circuit B). n• © NORMALLY -OPEN ALARM - LATCHING (Personality Code 1) - ,, ,I' (('1:r , Assign to one or both circuits. Configures either circuit A or B Iz,� ` �1 , ,� ° or both for Class B normally open dry contact initiating devices ry %I V, ,. y P en � such as Pull Stations, Heat Detectors, etc. An ALARM signal is iN i ®� Wo k �� a sent to the loop controller when the input contact is closed. The alarm condition is latched at the module. tOg NORMALLY -OPEN ALARM - DELAYED LATCHING (Personality Code 2) - Assign to one or both circuits. Configures avarem either circuit A or B or both for Class B normally -open dry contact initiating devices such as Waterflow Alarm Switches. An ALARM signal is sent to the loop controller when the input contact is closed for approximately 16 seconds. The alarm condition is latched at the module. SIGA- MCT2 -LG: mount the U10 motherboard inside a suitable NORMALLY -OPEN ACTIVE - NON - LATCHING (Personality enclosure with screws and washers provided. Plug the SIGA- Code 3) - Assign to one or both circuits. Configures either MCT2 -LG into any available position on the motherboard and circuit A or B or both for Class B normally -open dry contact secure the module to the motherboard with the captive monitoring input such as from Fans, Dampers, Doors, etc. An screws. Wiring connections are made to the terminals on the ACTIVE signal is sent to the loop controller when the input contact motherboard (see wiring diagram). U10 motherboard terminals is closed. The active condition is not latched at the module. are suited for #12 to #18 AWG (2.5 mm to 0.75 mm wire size. NORMALLY -OPEN ACTIVE - LATCHING (Personality Code 4) - ` � O "'° i 1eibo � d Assign to one or both circuits. Configures either circuit A or B 6-32 �re or both for Class B normally open dry contact monitoring input _ _ such as from Supervisory and Tamper Switches. An ACTIVE - — signal is sent to the loop controller when the input contact is -{1----141 ' closed. The active condition is latched at the module. PlUchin (up) � captive 140:: eases '6 Flat washers Ordering Information _ —Cabinet or electrical enclosure Catalog Description Ship Wt. Electronic Addressing - The loop controller electronically Number lbs (kg) addresses each module, saving valuable time during system SIGA- CT1 -LG Single Input Module - UL/ULC Listed 0.4 (0.15) commissioning. Setting complicated switches or dials is not SIGA- CT2-LG Dual Input Module - UL/ULC Listed 0.4 (0.15) required. Each module has its own unique serial number stored Dual Input Plug -in (UIO) Module in its on -board memory. The loop controller identifies each SIGA MCT2 LG - ULNLC Listed 0.1 (0.05) device on the loop and assigns a 'soft" address to each serial Related Equipment number. If desired, the modules can be addressed using the 27193 -11 Surface Mount Box - Red, 1-gang 1.0 (0.6) SIGA -PRO Signature Program /Service Tool. 27193 -16 Surface Mount Box - White, 1 -gang 1.0 (0.6) Siemens recommends that this module be installed according to Module Mounting Bracket for installing latest recognized edition of national and local fire alarm codes. SIGA -MB4 two 1 -gang modules in a single North 0.5 (0.3) American 4-inch square box. SIGA U102R LG Universal Input -Output Module Board 0.32 (0.15) w/Riser Inputs - 2 Module Positions Application SIGA UI06R LG Universal Input - Output Module Board 0.62 (0.28) w/Riser Inputs -6 Module Positions The duty performed by the SIGA- CT1 -LG and SIGA -CT2 /MCT2- Universal Input -Output Module Board LG is determined by their sub -type code or "Personality Code:" SIGA- U106 -LG _ Module Positions 0.56 (0.25) Page 2 of 4 - Siemens Building Technologies. Inc. • Typical Wiring Modules will accept #18 AWG (0.75mm #16 AWG (1.0mm #14 AWG (1.50mm and #12 AWG (2.5mm wire sizes. Note: Sizes #16 AWG (1.0mm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Initiating (Slave) Device Circuit Wire Specifications Maximum Allowable Wire Resistance 50 ohms (25 ohms per wire) per Circuit Maximum Allowable Wire Capacitance 0.11iF per Circuit For Design Reference: . Wire Size Maximum Distance to EOLR #18 AWG (0.75 mm #16 AWG (1.00 mm2) 4,000ft #14 AWG (1.50 mm #12 AWG (2.50 mm Typical N.O. Initiating Device Typical N.O. N Hating Device 1 1 INPUT 1 INPUT 2 . HH HH II With I AAA Style B (Class B> 4 1 111 MP 1 II ,� I 1 IN oi Et S 7 - i UL/ULC Listed • • • 47K0 EOL UL/ULC ll I l u Sd�i ® 't ' listed Siyie B (C a) e . 7 6.6 I' 47K0 Ea. AAA L22 A `• '• • I UWLC Listed Red LED - Green LED rrn . 471(D EOL (Ala/Aeltve) 0 . - i, (Normal) Red LEO . . Green LED I_ 0 1 (Alotm /Ac1Ne) I : 0 ' T (Narmm) TV l l II • TB1 v0I rr n' {( DATA W ( +) :� , DATA OUT ( +)'( DATA W ( +) £ 1 DATA OUT ( +) l DAIA IN (-) DAT O UT (-) J { DATA W (-) DATA OW ( -) J From Signature Controller To Next Device From signature Controler To Next Device or Previous Device Q or Previous Device Q SIGA- CT1 -LG SIGA- CT2 -LG NOTES Maximum 25 Ohm resistance per wire. i i I i T Done 1 + f i Maximum #12 AWG (2.5 mm2) wire: rn�uLa ua.e s 30 Minimum #18 AWG(0.75 mm2 ). s7xOEOL Ill kW" `a' 171.23 EOL © Refer to Signature controller installation sheet for wiring specifications. - -- A A e Maximum 10 Vdc @ 350 p © The SIGA- UIO6R -LG and the SIGA- U102R -LG do not come with TB14. 610.44/C72 All wiring is supervised and power - limited. 7 Q , , mowltalll) series motherboard These modules will not support 2 -wire smoke detectors. t a a Date m± d j : iii ;w z Date ; Y` ® '� n indb Warnings & Cautions °� Other modules may more Date d + This module will not operate without electrical power. As fires ;..Z22 frequently cause power interruption, we suggest you discuss enenLED Mon•Q � i ' Rid LED (Aden/ further safeguards with your local fire protection specialist. "T et arawe Compatibility SIGA- MCT2 -LG The Signature Series modules are compatible only with the Signature Loop Controller. Siemens Building Technologies, Inc. Page 3 of 4 Specifications Catalog Number SIGA- CTI -LG SIGA- CT2 -LG SIGA- MCT2 -LG Description Single Input Module Dual Input Module Type Code 48 (factory set) 49 (factory set) 4 sub -types (personality codes) are available 4 sub -types (personality codes) are available Address Requirements Uses 1 Module Address Uses 2 Module Addresses Operating Current Standby = 250pA; Activated = 400pA Standby = 396µA; Activated = 680µA Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Construction High Impact Engineering Polymer Mounting North American 2W (64 mm) deep 1 -gang boxes U102R/6R/6 and 1W (38 mm) deep 4" square boxes with 1-gang covers Motherboard Storage and Operating Environment Operating Temperature: 32 °F to 120 °F (0 °C to 49 °C) Storage Temperature: -4 °F to 140 °F ( -20 °C to 60 °C) Humidity: 0 to 93% RH LED Operation On -board Green LED - Flashes when polled On -board Red LED - Flashes when in alarm/active Both LEDs - Glow steady when in alarm (stand-alone) • Compatibility Use with Signature Loop Controller Agency Listings UL, ULC (See Ordering Table), MEA, CSFM • Descript (S Overview) The Signature Series intelligent analog - addressable system is an entire family of Standalone Operation - A decentralized alarm decision by the device is guaranteed. multi - sensor detectors and mounting bases, multiple- function input and output Onboard intelligence permits the device to operate in standalone (degrade) mode. If modules, network and non - network control panels. and user - friendly maintenance Signature loop controller CPU communications fail for more than 4 seconds, all and service tools. Analog Information from equipment connected to Signature devices on that circuit go into standalone mode. The circuit acts like a conven- devices is gathered and converted into digital signals. An onboard microprocessor tional alarm receiving circuit. Each Signature device on the circuit continues to in each Signature device measures and analyzes the signal and decides whether collect and analyze information from its slave devices. When connected to a panel or not to input an alarm. The microprocessor in each Signature device provides utilizing standalone operation, modules with their 'personality' set as alarm four additional benefits - Self - diagnostics and History Log, Automatic Device devices (IOC) will alarm should their slave alarm- initiating device activate. Mapping, Stand - alone Operation and Fast, Stable Communication. Fast Stable Communication - Built - in intelligence means less information needs Self diagnostics and History Log - Each Signature Series device constantly runs to be sent between the device and the Signature Data Controller (SDC). Other self- checks to provide important maintenance information. The results of the self- than regular supervisory polling response, Signature devices only need to check are automatically updated and permanently stored in its non - volatile communicate with the SDC when they have something new to report. This memory. This information is accessible for review any time at the control panel, provides very fast control panel response and allows a lower baud rate (speed) to PC, or using the SIGA -PRO Signature Program /Service Tool. The information be used for communication on the circuit. The lower baud rate offers several stored in device memory includes: advantages including: • Device serial number, address, and type. • Less sensitivity to circuit wire characteristics. • Date of manufacture, hours of operation, and last maintenance date'. • Less sensitivity to noise glitches on the cable. • Number of recorded alarms and troubles'. • Less emitted noise from the data wiring. • Time and date of last alarm'. - • Twisted or shielded wiring is not required. • Most recent trouble code logged by the detector - 32 possible trouble codes Diagnostic LEDs - Twin LEDs on most Signature devices provide visual may be used to diagnose faults. indication of normal and alarm- active conditions. A flashing green LED shows Automatic Device Mapping -The Signature Data Controller (SDC) learns where each normal system polling. A flashing red LED means the module is in alarm- active device's serial number address is installed relative to other devices on the circuit. The state. Both LEDs on steady indicates alarm -active state - standalone mode. SDC keeps a "map" of all Signature Series devices connected to it. The Signature Testing & Maintenance - Automatic self- diagnosis identifies when a Signature Series Data Entry Program also uses the mapping feature. With interactive menus device is defective and causes a trouble message. The user - friendly maintenance and graphic support the wired circuits between each device can be examined. program shows the current state of each device and other pertinent information. Layout or - As -Built" drawing information showing branch wiring (T- taps), device types Single devices may be turned off temporarily, from the control panel. Scheduled and the address are stored on disk for printing hard copy. This takes the 'mystery' maintenance (Regular or Selected) for proper system operation should be out of the installation. The preparation of °As -Built" drawings Is fast and efficient. planned to meet the requirements of the Authority Having Jurisdiction Device mapping allows the Signature Data Controller to discover: (AHJ). Refer to current NFPA 72 and ULC CAN/ULC 536 standards. • Unexpected additional device addresses. Quality and Reliability - Signature devices are manufactured in North America • Missing device addresses. to strict international ISO 9001 standards. All electronics utilize surface mount • Changes to the wiring in the circuit. technology (SMT) for smaller size and greater immunity to RF noise. A conformal coating is used for humidity and corrosion resistance. Most Signature modules use a 'personality code' selected by the installer to determine their actual function. Personality codes are downloaded from the SDC ' ALS3 V.2 only. during system configuration and are indicated during device mapping. ' Retrievable with SIGA -PRO programming tool. Information in this document is based on specifications believed correct at the time of publication. The right is reserved to make changes as design improvements are introduced. APOGEE is a trademark of Siemens Building Technologies, Inc. ® 2000 Siemens Building Technologies, Inc. • Siemens Building Technologies, Inc. Printed in the U.S.A. (origin) Landis Division Page 4 of 4 1000 Deerfield Parkway Buffalo Grove, IL 60089 -4513 SIEMENS Technical Specification Sheet Rev. 5, January, 2000 r d" SAS" Y b. I M ,.:.v.2; ' r pY _:t_ .' �'y • 5- �..m-' m a r Control Relay Modules � .„, ,..,„, � a , ' >., ` „ E ,i: Model SIGA-CR-LG, SIGA-MCR-LG, . f . ` - ' ' : - �''' = l `` I d SIGA - CRR -LG, SIGA - MCRR -LG I . ' _. •• _ x MEA The Control Relay Module and the Polarity Reversal Relay IN � � . � k �'`, i —s Module are part of the Signature Series system. They are ._ ,rir r~ SIGH- MCR-LC :. .. 1 - SIGA•ca - - © g intelligent analog addressable devices available in either plug -in (UIO) versions, or standard 1 -gang mount versions. Allows group operation of sounder bases • The SIGA - CR/MCR -LG Control Relay Module provides a Form The SIGA - CRR/MCRR -LG reverses the polarity of its 24 Vdc "C" dry relay contact to control external appliances such as door output, thus activating all sounder bases on the data loop. closers, fans, dampers etc. This device does not provide supervi- • Plug -in (UIO) or standard 1 -gang mount sion of the state of the relay contact. Instead, the on -board UIO versions allow quick installation where multiple modules microprocessor ensures that the relay is in the proper ON /OFF are required. The 1 -gang mount version is ideal for remote state. Upon command from the loop controller, the SIGA -CR/ locations that require a single module. MCR -LG relay activates the normally open or normally- closed contact. • Automatic device mapping Signature modules transmit information to the loop controller The SIGA - CRR/MCRR -LG Polarity Reversal Relay Module regarding their circuit locations with respect to other signa- provides a Form "C" dry relay contact to power and activate a ture devices on the wire loop. series of SIGA -AB4 Audible Sounder Bases. Upon command • Electronic addressing from the Signature loop controller, the SIGA - CRR -LG reverses Programmable addresses are downloaded from the loop the polarity of its 24 Vdc output, thus activating all Sounder controller, a PC, or the SIGA -PRO signature program /service Bases on the data loop. tool. There are no switches or dials to set. Standard -mount versions (SIGA -CR -LG and SIGA - CRR -LG) are • Intelligent device with microprocessor installed to standard North American 1 -gang electrical boxes, All decisions are made at the module to allow lower commu- making them ideal for locations where only one module is nication speed with substantially improved control panel required. Separate I/O and data loop connections are made to response time and less sensitivity to line noise and loop each module. wiring properties; twisted or shielded wire Is not required. Plug - in UIO versions (SIGA - MCR and SIGA - MCRR) are part of the • Non - volatile memory UIO family of plug -In Signature Series modules. They function Permanently stores serial number, type of device, and Job identically to the standard mount versions, but take advantage of number. Automatically updates historic information including the modular flexibility and easy installation that characterizes all hours of operation, last maintenance date, number of alarms UIO modules. Two- and six - module UIO motherboards are and troubles, and time and date of last-alarm. available. All wiring connections are made to terminal blocks on • Diagnostic LEDs - the motherboard. UIO assemblies may be mounted in appropri- Flashing green shows normal polling; flashing red shows ate enclosures. alarm/active state. • High ambient temperature operation Install in ambient temperatures up to 120 °F (49 °C). Features • Designed to ISO 9001 standards • Provides one NO/NC contact (SIGA- CR/MCR -LG) All signature products are manufactured to strict international Form 'C' dry relay contact can be used to control external quality standards to ensure highest reliability. appliances such as door closers, fans, dampers etc. • Ground fault detection by address Detects ground faults right down to the device level. Document. No. 152.368P25 Page 1 of 6 • Installation Application SIGA - - and SIGA CRR - LG: modules mount to North The operation of Signature Series control relays is determined by American 21/2' (64 mm) deep 1 -gang boxes and 1W (38 mm) their sub -type code or "Personality Code." deep 4" square boxes with 1 -gang covers. The terminals are CONTROL RELAY (SIGA CR/MCR - LG) Personality Code 8 - Dry suited for #12 to #18 AWG (2.5 mm to 0.75 mm wire size. Contact Output: This setting configures the module to provide • one Form "C" DRY RELAY CONTACT to control Door Closers, Compatible Electrical Box Fans, Dampers, etc. Contact rating is 2.0 amp @ 24 Vdc; 0.5 n-o wait , amp @ 120 Vac (or 220 Vac for non -UL applications). Personality ,� 1 M , Code 8 is assigned at the factory. No user configuration is 4 10 A required. < 1 R 1 it . p 9N POLARITY REVERSAL RELAY MODULE (SIGA- CRR/MCRR- S � I ® Wt Plate. WhMe t LG) Personality Code 8. This setting configures the module to *` �' reverse the polarity of its 24 Vdc output. Contact rating is 2.0 . `®,, amp @ 24 Vdc (pilot duty). Personality Code 8 is assigned at the factory. No user configuration is required. Ite R n �a,w.e Label Co • The Signature Series modules are compatible only with the • Signature Loop Controller. • SIGA- MCR -LG and SIGA - MCRR -LG: mount the UIO • motherboard inside a suitable enclosure with screws and Warnings .& Cautions washers provided. Plug the module into any available position on This module will not operate without electrical power. As fires the motherboard and secure the module to the motherboard frequently cause power interruption, we suggest you discuss with' the captive screws. Wiring connections are made to the further safeguards with your local fire protection specialist. terminals on the motherboard (see wiring diagram). UIO motherboard terminals are suited for #12 to #18 AWG (2.5 mm to 0.75 mm wire size. • Testing & Maintenance . uloMotherboard 1 The module's automatic self - diagnosis identifies when it is smrrevv�e defective and causes a• trouble message. The user - friendly 4g. ` -ew ^ maintenance program shows the current state of each module _ j _�__� t and other pertinent messages. Single modules may be turned V i t [VIA PIUg In PO) cam off (deactivated) temporarily, from the control panel. Availability • Module screws 'of maintenance features is dependent on the fire alarm system • -'1 1]" used. Scheduled maintenance (Regular' or Selected) for proper • • � r • . system operation should be planned to meet the requirements _ . Ca Rat washers of the Authority Having Jurisdiction (AHJ). Refer to current NFPA Cabinet or eleCrkal enclosure 72 and ULC CAN /ULC 536 standards. Electronic Addressing - The loop controller electronically • addresses each module, saving valuable time during system • commissioning. Setting complicated switches or dials is not • required. Each module has its own unique serial number stored in its on -board memory. The loop controller identifies each device on the loop and assigns a 'soft' address to each serial number. If desired, the modules can be addressed using the SIGA -PRO Signature Program/Service Tool. • Siemens recommends that this module be installed according to latest recognized edition of national and local fire alarm codes. , • Page 2 of 6 Siemens Building Technologies, Inc. • Typical Wiring Modules will accept #18 AWG (0.75mm #16 AWG (1.0mm #14 AWG (1.50mm and #12 AWG (2.5mm wire sizes. Note: Sizes #16 AWG (1.0mm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Normally- Normally - Open Common Closed TB2 t __ UI 1!1 i . 4 Notes Red LED 1 _ ij Green LED (Alarm /Active) �• 4 3 2 - 1 � (Normal) & Refer [o Signature Loop Controller Installation _I Sheet for wiring specifications. TB1 �� II111a'lil ,� � � ® SIGA•CR/MCR -LG must be installed within the same room as the device it Is controlling. ® The SIGA•U106R -LG and the SIGA- UIO2R -LG do not come with TB14. { DATA IN ( +) DATA OUT ( +) DATA IN ( -) • - DATA OUT ( -) & The SIGA- 1.1I06 -LG does not come with TB8 IV . through TB13. From Signature Controller To Next Device or Previous Device ® Supervised and power-limited. Q l ® If the source is nonpower - limited. maintain a space of 1/4 inch from power - limited wiring or SIGA -CR -LG Control Relay use FPL, FPLP, FPLR, or an equivalent in accordance with the National Electrical Code. 8 Maximum #12 AWG (2.5mm wire. Normally Open Common Normally Closed Min. #18 (0.75mm Q 12 34 Data In + wo I / . I/ I/ 11 1 4 O . ` r 4 \ 3 '.,. i.. "• " 3 ; 1 2 11.: • 1 3 T814 + p ? No connections required for Data Out_ f, -0 ' SIGA- MCR -LG. Other modules n may require connections. or m ,. . _..0 a: Q 4 v W Li." 3 '. Green LED (Normal) .41 Red LED (Active) 0 0 o ° T1315 , 1 2 • . ., No connections required for SIGA - MCR -LG. Other modules may require connections. SIGA - MCR -LG Control Relay Siemens Building Technologies. Inc. Page 3 of 6 Typical Wiring . Modules will accept #18 AWG (0.75mm #16 AWG (1.0mm #14 AWG (1.50mm and #12 AWG (2.5mm wire sizes. Note: Sizes • #16 AWG (1.0mm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. SIGA -AB4 SIGA -AB4 SIGA -AB4 Audible Base Audible Base Audible Base I...- •r I. . •- . .♦ !� 6254A -003 J Wl Jw2 co . l d)vvz:: t rm V E' 625 EOL Relay it I, Listed 24 VDC Nominal Power A .. • . • , ill ki © Supply i? 1 �:c�r *'- 1':c r � A A SIGA -CT1 , SIG - SIGA- CRR-LG 0 0, o o SIGA- CRR -LG t®® lisimet _ . p Signature _ Controller C1§1 c1 © Optional SIGA -CR -LG for disabling /disconnecting sounder base SIGA - CRR -LG Schematic SIGA - MCRR -LG Schematic SIGA - MCRR - Pores Si Poser ON RaoieyRe:9se+ Poser In Parer on pewit, rovmea. a7� %h en + `r T � .nar.cevmea. IIrT 1►(Jl gar:3m y 01 I ' �l`il Audible Beasts MAN ,Iu11 rYr2 F ; i EOL Ra4ay i . it 5 ° 3 I " =3 m' 8 • a a a =3 p4 - 1111► o o a a $ 1 : -- Hr4000 IIIIE7 El , ! 3 Notes Lair ® III ' L. Refer to the Signature controller installation • - sheet for wiring. 0 y ® One Pair of wires (24 Vdc power). p�ffi1ne� Out — t 8 y One Pair of wires (Signature Data te ` • 4. — ® ( 9 )• For normal operation SIGA - CT1 Single Wire (24 Vdc power). 0}_ Far General Fire Mann Operation • • © The SIGA- UIO6R -LG and the SIGA- 11102R-LG do uuuLC Listed 4. 4 3 2 1 not come with TBl4. auk soma a i....._...t All , r , al ,• ® The SIGA- UIO6 -LG does not come with TB8 1 2 3 4 % 12 3 4 through TB13. 1 .. - !e._ VGA-NCR/KG Supervised and power-limited. =ar.r ic.. uiae:,� QQ • • , • r. ? � •.., '��: c�t_ascn ,. �� sa.rr_ .: SIGA4rI0(R) caries motherboard ® If the source is nonpower - limited, maintain a Data art WV • space of 1/4 inch from power - limited wiring or ) F Eon x No connections • 1 i j Aso, -d 1. 5 required tor use FPL, FPLP, FPLR, or an equivalent in ad a • 3 e _ - ° TB14 . SIOA MCRR -LG. Other mom, accordance with the National Electrical Code. C� 2 o Class B Data wirin nnections. ® Maximum 012 AWG (2.5 mm2) wire; Minimum - \ -7-i . .. . ma y require co 8AWG(075mm2). Dim 1 _'I /1 \ End-of-Line Relay must monitor and report 'a 3 l Green LED (Normal) � &.� ? 1 N connections required for power supply trouble to control panel. I� / Ii \ may be 7-tapped. " 1. 71' x ' 1 • • • , P77 v • • . g Y T PPe G reen Lm (Hamel) "in: i, • • - 1 •Ai;' - TB1s sIGA�ACRR -LG. Other Red LED (Active) Ivacl¢f f`iiQ may require connec A Opllaml SIG4- NCRRIGI or SIGAMCR-LO for I No connections required for SIGA44tCRR -LG. I a arelals lnp en n cadudmic ben: Other modules may require connections. base. Page 4 of 6 Siemens Building Technologies, Inc. Specifications • Catalog Number SIGA -CR-LG SIGA - MCR -LG SIGA- CRR-LG SIGA - MCRR -LG Description Control Relay Polarity Reversal Relay Type Code Personality Code 8 (Factory Set) Address Requirements Uses 1 Module Address Operating Current Standby = 100µ4 Activated = 100pA Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) • Relay Type and Rating Form "C" • 24 VDC = 2 amps (pilot duty) 120 Vac = 0.5amps 220 Vac (non -UL) = 0.5 amps Mounting North American 2W North American 21/2" (64 mm) deep 1-gang boxes Plugs into (64 mm) deep 1-gang boxes Plugs into and 11/2" (38 mm) deep UIO2R, U106R or U106 and 11/2" (38 mm) deep U102R, U106R or U106 4" square boxes Motherboards 4" square boxes Motherboards with 1-gang covers with 1 -gang covers Construction & Finish High Impact Engineering Polymer Storage and Operating Operating Temperature: 32 °F to 120 °F (0 °C to 49 °C) Environment Storage Temperature: -4 °F to 140 °F ( -20 °C to 60 °C) Humidity: 0 to 93% RH LED Operation On-board Green LED - Flashes when polled . On -board Red LED - Flashes when in alarm/active Compatibility Use With: Signature Loop Controller • Agency Listings UL, ULC (See Ordering Table), CSFM, MEA • • • Ordering Information Catalog Number Description Shipping Weight lbs (kg) • SIGA -CR -LG Control Relay Module (Standard Mount) - UL/ULC Listed 0.4 (0.15) SIGA- MCR -LG Control Relay Module (UIO Mount) - UL Listed 0.18 (0.08) SIGA- CRR -LG Polarity Reversal Relay Module (Standard Mount) - UUULC Listed 0.4 (0.15) SIGA- MCRR-LG Polarity Reversal Relay Module (UIO Mount) - UL Listed • 0.18 (0.08) Releated Equipment • 27193 -21 Surface Mount Box - Red, 1-gang 1 (0.6) 27193 -26 Surface Mount Box - White, 1-gang 1 (0.6) • • SIGA-MB4 Module Mounting Bracket for installing two 1-gang modules in a single 0.5 (0.3) North American 4 -inch square box. SIGA- U102R -LG Universal Input- Output Module Board w /Riser Inputs - 2 Module Positions 0.32 (0.15) SIGA- UIO6R -LG Universal Input -Output Module Board w /Riser Inputs - 6 Module Positions 0.62 (0.28) SIGA- U106 -LG Universal Input- Output Module Board - 6 Module Positions 0.56 (0.25) • • • • • • Siemens Building Technologies. Inc. • Page 5 of 6 • • • Description (Signature Overview) The Signature Series intelligent analog - addressable system is an are downloaded from the SDC during system configuration and • entire family of multi - sensor detectors and mounting bases, are indicated during device mapping. multiple function input and output modules, network and non- Standalone Operation - A decentralized alarm decision by the network control panels, and user-friendly maintenance and device is guaranteed. Onboard intelligence permits the device to service tools. Analog information from equipment connected to Signature devices is gathered and converted into digital signals. operate in standalone (degrade) mode. If Signature loop control - An onboard microprocessor in each Signature device measures ter CPU communications fail for more than 4 seconds, all and analyzes the signal and decides whether or not to input an devices on that circuit go into standalone mode. The circuit acts alarm. The microprocessor in each Signature device provides like a conventional alarm receiving circuit. Each Signature device four additional benefits - Self- diagnostics and History Log, on the circuit continues to collect and analyze information from Automatic Device Mapping, Stand -alone Operation and its slave devices. When connected to a panel utilizing standalone Fast, Stable Communication. operation, modules with their 'personality set as alarm devices (IDC) will alarm should their slave alarm - initiating device activate. Self- diagnostics and History Log - Each Signature Series Fast Stable Communication - Built -in intelligence means less • device constantly runs self- checks to provide important mainte- nance information. The results of the self -check are automati information needs to be sent between the device and the cally updated and permanently stored in its non - volatile memory. Signature Data Controller (SDC). Other than regular supervisory This information is accessible for review any time at the control polling response, Signature devices only need to communicate panel, PC, or using the SIGA -PRO Signature Program/Service with the SDC when they have something new to report. This Tool. The information stored in device memory includes: provides very fast control panel response and allows a lower baud rate (speed) to be used for communication on the circuit. • Device serial number, address, and type. The lower baud rate offers several advantages including: Date of manufacture, hours of operation, and last • Less sensitivity to circuit wire characteristics. maintenance date. • Number of recorded alarms and troubles.2 • Less sensitivity to noise glitches on the cable. • • Time and date of last alarm.' • Less emitted noise from the data wiring. • Most recent trouble code logged by the detector - 32 trouble • Twisted or shielded wiring is not required. codes may be used to diagnose faults. Diagnostic LEDs - Twin LEDs on most Signature devices Automatic Device Mapping -The Signature Data Controller provide visual indication of normal and alarm- active conditions. A flashing green LED shows normal system polling. A flashing red (SDC) learns where each device's serial number address is LED means the module is in alarm- active state. Both LEDs on installed relative to other devices on the circuit. The SDC keeps a map of all Signature Series devices connected to it. The Signature steady indicates alarm active state - standalone mode. Series Data Entry Program also uses the mapping feature. With Testing & Maintenance - Automatic self- diagnosis identifies' interactive menus and graphic support, the wired circuits between when a Signature device is defective and causes a trouble each device can be examined. Layout or "as- built" drawing message. The user - friendly maintenance program shows the information showing branch wiring (T- taps), device types and their current state of each device and other pertinent information. address are stored on disk for printing hard copy. This takes the Single devices may be turned off temporarily, from the control mystery out of the installation. The preparation of as -built drawings panel. Scheduled maintenance (Regular or Selected) for is fast and efficient. proper system operation should be planned to meet the Device mapping allows the Signature Data Controller to dis requirements of the Authority Having Jurisdiction (AHJ). cover: Refer to current NFPA 72 and ULC CAN/ULC 536 standards. • Unexpected additional device addresses. Quality and Reliability - All Signature devices are manufactured • Missing device addresses. in North America to strict international ISO 9001 standards. All • Changes to the wiring in the circuit. electronics utilize surface mount technology (SMT) for smaller size and greater immunity to RF noise. A conformal coating is used for Most Signature modules use a 'personality code' selected by humidity and corrosion resistance. the installer to determine their actual function. Personality codes • • 1 ALS3 V.2 only. 2 Retrievable with SIGA -PRO programming tool. Information in this document is based on specifications believed correct at the time of publication. The right is reserved to make changes as design improvements are introduced. APOGEE is a trademark of Siemens Building Technologies. Inc. ® 2000 Siemens Building Technologies. Inc. Siemens Building Technologies, Inc. Printed in the U.S.A. (origin) Landis Division Page 6 of 6 1000 Deerfield Parkway Buffalo Grove, IL 60089-4513 SIEMENS Technical Specification Sheet Rev. 5, February, 2000 Intelli Photoelectric Smoke Detector - a ., M EA Model S IGA- PS -LG Signature Series Model SIGA -PS-LG Intelligent Photoelectric Smoke Testing & Maintenance Detector gathers analog information from its smoke sensing element 9 and converts it into digital signals. The detector's on -board Each detector automatically identifies when it is dirty or defective and microprocessor measures and analyzes these signals. It compares the causes a "dirty detector" message. The detector's sensitivity measure - information to historical readings and time patterns to make an alarm ment can also be transmitted to the loop controller. A sensitivity report decision. Digital filters remove signal patterns that are not typical of fires. can be printed to satisfy NFPA sensitivity measurements which must be Unwanted alarms are virtually eliminated. conducted at the end of the first year and every two years thereafter. The user - friendly maintenance program shows the current state of each detector and other pertinent messages. Single detectors may be turned Features off temporarily from the control panel. Availability of maintenance features is dependent on the fire alarm system used. Scheduled maintenance • Note: Some features described here may not be supported by all (Regular or Selected) for proper detector operation should be planned to control systems. Check your control panel's Installation and meet the requirements of the Authority Having Jurisdiction (AHJ). Refer Operation Guide for details. to current NFPA 72 and ULC CAN /ULC 536 standards. • Integral microprocessor • Non - volatile memory • Automatic device mapping Installation • Electronic addressing Signature Series detectors mount to North American 1 -gang boxes, 3-1/2 • Environmental compensation inch or 4 inch octagon boxes, and to 4• square electrical boxes 1 -1/2 inch • Intelligent detector (38 mm) deep. They mount to European BESA and 1 -gang boxes with • Wide 0.67% to 3.77%/ft. sensitivity range 60.3 mm fixing centers. • Twenty pre -alarm sensitivity values, set in 5% increments' • Identification of dirty or defective detectors -- J 0.8' (20 mm) • Automatic day /night sensitivity adjustment • Twin red/green status LEDs 2.0' (51 mm) • Standard, relay, fault isolator, and audible mounting bases ° __ • Designed and manufactured to ISO 9001 standards r r 1 ALS3 V.2 only. 4.4' 012 mm) • 201Z I idle Comp atibility Tamper-Resist ' a r , p y (Located m Base) - um The SIGA -PS -LG detectors are compatible only with the Signature Loop Controller. Access Slot for • `�!,: Tamper -Resist Mechanism - ' . ' — P 1 Document No. 152-374P25 Page 1 of 4 Application Although photoelectric detectors have a wide range of fire sensing capabilities they are best suited for detecting slow, smoldering fires. The table below shows six standard test fires used to rate the sensitivity Of smoke and heat detectors. The table indicates that no single sensing element is suited for all test fires. This detector should be installed according to the latest recognized edition of national and local fire alarm codes. Type of Detector SIGA4S -LG SIGA -PS-LG SIGA- HRS-LG and SIGA - PHS-LG SIGA- IPHS -LG Test Fire Ion Photo SIGA - HFS-LG Photo/Heat Ion/Photo/Heat Rate -of - Rise/Fixed Temp. Open Wood optimum unsuitable optimum very suitable optimum Wood Pyrolysis suitable optimum unsuitable optimum optimum Smouldering Cotton very suitable optimum unsuitable optimum optimum Poly Urethane Foam very suitable very suitable suitable very suitable optimum n- Heptane optimum very suitable very suitable optimum optimum Liquid Fire w/o smoke unsuitable unsuitable optimum very suitable very suitable Typical Wiring The detector mounting bases accept #18 AWG (0.75mm #16 (1.0mm and #14 AWG (1.5mm and #12 AWG (2.5mm wire sizes Note: Sizes #16 AWG (1.Omm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Standard Detector Base, SIGA - SB, SIGA - SB Relay Detector Base, SIGA - RB, SIGA - RB4 Remote LED Term Description Normally- Normally- Term Description (SIGA -LED) 1 Not Used Common Closed Open 1 Normally-Open Max. Resistance 2 DATA IN/OUT ( +) 2 DATA IN/OUT ( +) 4 ■ • per Wire 3 Not Used 3 Common + Must NOT Exceed 100 4 DATA IN ( -) 4 DATA IN ( -) 4 Remote LED ( -) 5 Not Used 5 Remote LED ( +) 6 Normally -Closed 6 Not Used 6 ' .; �`�,� \\ 7 DATA OUT ( -) O' / .. \ 7 DATA OUT ( ) �t1 > ; _, .:. ; CONTACT RATING • C o�" 1.0 Amp @ 30 VDC :1- c 1 « '' .t . (Pilot Duty) 7 . DATA IN (4 y / DATA OUT ( -) DATA IN ( -) tI DATA OUT ( -) DATA IN ( +) DMA OUT ( +) . DATA OUT ( +) From Signature Controller To Next Device DATA IN ( +) To Next Device or Previous Contr From Signature Controller or Previous Device Isolator Detector Base, SIGA - IB, SIGA - IB4 Audible Detector Base, SIGA - AB4 Term Description Jumper JW1 Jumper JW2 1 Not Used OUT = Low Volume 4111110 OUT = Steady Tone • O g 6 J 2 DATA IN/OUT ( +) IN = High Volume IN = Temporal Tone O fr.0•= 3 DATA IN ( -) /.%,,':';.. �, ^� 0:0 d 4 Not Used §.: xx• o ; _; 11" 5 Not Used 6 Y i$ i . ` , 6 DATA OUT ( -) _ : • pn • - -•`O' (g) _' 7 Not Used Ail • DATA IN ( -) \ t I DATA OUT ( -) From Power Supply To Next Sounder Base or or Previous Sounder Base I' I I I E-O-L Relay 24 VDC IN (+) ,'II 24 VDC OUT (+) DATA OUT ( +) 24 VDC IN ( -) - - - - 24 VDC OUT ( -) DATA IN ( +) I I I From Signature Controller To Next Device DATA OUT ( -) DATA IN ( -) -. - - _.. To Next Signature Device or Previous Device DATA IN + O - DATA OUT ( +) From Signature Controller or Previous Device Page 2 of 4 Siemens Building Technologies, Inc. Accessories Specifications All detector mounting bases have wiring terminals that are accessible Catalog Number SIGA -PS-LG from the "room-side"- after mounting the base to the electrical box. The Sensing Element Photoelectric -Light Scattering Principle bases mount to North American 1 -gang boxes and to 3 -1/2 inch or 4 inch Air Velocity Range: 0 to 5,000 ft/min octagon boxes, 1 -1/2 inch (38 mm) deep. They also mount to European (0 to 25.39 m/s) BESA and 1 -gang boxes with 60.3 mm fixing centers. The SIGA•SB4, Storage and Operating Temperature: 32 °F to 120 °F SIGA -RB4, and SIGA -lB4 mount to North American 4 inch sq. electrical Operating (0 °C to 49 °C) boxes in addition to the above boxes. They include the SIGA -TS4 Trim Environment Storage Temperature: -4 °F to 140 °F Skirt which is used to cover the 'mounting ears' on the base. ( -20 °C to 60 °C) Humidity. 0 to 93% RH, Non-Condensing • . Sensitivity Range ULI /ULC -0.67% to 3.77% obscurationffoot - r „~ 3 Most Sensitive: 1.0%/ft. 41 ` r a w More Sensitive: 2.0 %/ft. '" 1, s - • i .∎,"` . rm • " �� Sensitive Setti ngs User Selected Alangs Normal: 2.5%/ft. o �4c�r' a• � Less Sensitive: 3.0 /o/ft. ;CAIN, Least Sensitive: 3.5 %/ft. SIGA -SB SIGA -IB SIGA -RB SIGA-AB4 SIGA - LED -LG Pre - alarm Sensitivity 5% increments, allowing up to 20 pre -alarm Standard Base Isolator Base Relay Base Audible Base Remote LED settings Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Quiescent: 45pA @ 19 V Standard Base SIGA SIGA - SB4 - This is the basic mounting base Alam,:45NA @ 19 V for Signature Series detectors. The SIGA - LED -LG Remote LED is Operating Current Emergency Stand-alone Alarm Mode: 18mA supported by the Standard Base. Pulse Current: 100pA (100 msec) Relay Base SIGA -RB, SIGA-RB4 - This base includes a relay. Normally During Communication: 9mA maximum open or closed operation is selected during installation. The dry contact Construction & High Impact Engineering Polymer - White is rated for 1 amp @ 30 Vdc (pilot duty). The SIGA -RB can be operated as Finish a control relay if programmed to do so at the control panel (ALS3 V.2 only). Compatible SIGA -SB Standard Base, SIGA -RB Relay Base, The relay base does not support the SIGA - LED -LG Remote LED. Mounting Bases SIGA -IB Isolator Base, SIGA -AB Audible Base Audible Base SIGA -AB4 - This base is designed for use where localized On -board Green LED - Flashes when polled or group alarm signaling is required. When the detector senses an alarm On -board Red LED - Flashes when in alarm condition, the audible base emits a local alarm signal. The optional SIGA- Both LEDs - Glow steady when in alarm CRR Polarity Reversal Relay can be used for sounding to other audible LED Operation (stand alone) bases on the same 24 Vdc circuit. Compatible Remote Red LED (model SIGA -LED) Relay and Audible Bases operate as follows: Flashes when in alarm • at system power -up or reset, the relay is de- energized Compatibility Use With: SIGNATURE Loop Controller • when a detector is installed in the base with the power on. the relay energizes for four seconds, then de- energizes Address Uses 1 Device Address • when a detector is removed from a base with the power on, the Requirements relay is de- energized Agency Listings UL, ULC, MEA, CSFM • when the detector enters the alarm state, the relay is energized. UL Listed Spacing 30 feet Isolator Base SIGA -IB, SIGA - IB4 - This base includes a built -in line fault isolator for use on Class A circuits. A detector must be installed for it to operate. The isolator base does not support the SIGA -LED Remote LED. The isolator operates as follows: • a short on the line causes all isolators to open within 23 msec. • at 10 msec intervals, beginning on one side of the Class A circuit Ordering Information nearest the loop controller, the isolators close to provide the next 9 isolator down the line with power. • when the isolator next to the short closes, it reopens within 10 msec. Catalog Description Ship Wt. Number lbs (kg) The process repeats beginning on the other side of the loop controller. SIGA-PS-LG Intelligent Photoelectric Detector 5 (.23) Remote LED SIGA -LED - The remote LED connects to the SIGA -SB or - UUULC Listed SIGA -SB4 Standard Base only. It features a North American size 1-gang Accessories plastic faceplate with a white finish and red alarm LED. SIGA•TS4 Trim Skirt - Supplied with 4 inch bases, it can also be SIGA -SB Detector Mounting Base Standard 2 (.09) ordered separately to use with the other bases to help hide surface SIGA -SB4 4 inch Detector Mounting base .2 (.09) imperfections not covered by the smaller bases. cJw SIGA -TS4 Trim Skirt SIGA -RB Detector Mounting Base w /Relay .2 (.09) SIGA -RB4 4 inch Detector Mounting Base w /Relay .2 (.09) Warnings & Cautions c/w SIGA -TS4 Trim Skirt SIGA -IB Dector Mounting Base w /Fault Isolator .2 (.09) This detector will not operate without electrical power. As fires SIGA -1B4 4 inc Dector Mounting Base w /Fault .2 (.09) frequently cause power interruption, we suggest you discuss further Isolator c/w SIGA -TS4 Trim Skirt safeguards with your fire protection specialist. SIGA- LED -LG Remote Alarm LED .2 (.09). This detector will NOT sense fires that start in areas where smoke SIGA -TS4 trim Skirt (supplied with 4 inch bases) .1 (.04) cannot reach the detector. Smoke from fires in walls, roofs, or on the opposite side of closed doors may not reach the detector to alarm.it. SIGA -AB4 Audible (Sounder) Base 3 (0.15) Siemens Building Technologies, Inc. Page 3 of 4 • r r Description (Signature Overview) The microprocessor in each detector provides four additional benefits - The lower baud rate offers several advantages including: Self- diagnostics and History Log, Automatic Device Mapping, • less sensitivity to circuit wire characteristics Stand -alone Operation and Fast, Stable Communication. • less sensitivity to noise glitches on the cable Self diagnostics and History Log - Each Signature Series detector • less emitted noise from the data wiring constantly runs self - checks to provide important maintenance information. • twisted or shielded wiring is not required. The results of the self -check are automatically updated and permanently Electronic Addressing: The loop controller electronically addresses stored in the detector's non - volatile memory. This information is each detector, saving valuable time during system commissioning. accessible for review any time at the control panel, PC, or by using the Setting complicated switches or dials is not required. Each detector has SIGA -PRO Signature Program/Service Tool. its own unique serial number stored in its "on -board memory". The loop The information stored In the detector's memory Includes: controller identifies each device on the circuit and assigns a "soft" • detector type, serial number, and address address to that device's serial number. If desired, detectors can be • date of manufacture, hours of operation, and last maintenance date= addressed using the SIGA -PRO Signature Program/Service Tool. • current detector sensitivity and environmental compensation values Environmental Compensation: Detection sensitivity is virtually • original detector sensitivity values upon manufacturing Independent of its installed environment and its physical condition. • number of recorded alarms and troubles Environmental compensation means the sensing element adapts to long- • time and date of last alarm' term changes caused by dirt, humidity, aging etc. It even com- pensates • analog signal patterns just before the last alarm' for small amounts of normal ambient smoke. Approximately six times • most recent trouble code logged by the detector — 32 possible every hour the detector adjusts and updates the sensitivity (% obscuration) trouble codes may be used to diagnose faults. baseline for its sensing element. Approximately once every hour this In the unlikely event that an unwanted alarm does take place, the control information is written to its permanent memory. The detector's panel's history file can be called up to help isolate the problem and "learned" baseline is not lost, even when the detector is removed for prevent it from happening again. cleaning. Signature Series environmental compenstion is so reliable that Automatic Device Mapping - The loop controller learns where each it meets NFPA72 field sensitivity testing requirements — without the need for external meters. device's serial number address Is installed relative to other devices on the circuit. The mapping feature provides supervision of each device's The detector's sensitivity setting selected by the installer floats up or installed location to prevent a detector from being reinstalled (after down to remain constant relative to the changing baseline. This is called cleaning etc.) in a different location from where it was originally. The differential sensing. history log for the detector remains relevant and intact regardless of its Sensitivity Range: The SIGA -PS Photoelectric Detector has a sensitivity new location. range or window of 0.67% to 3.77%. The installer selects the detector's The Signature Series Data Entry Program also uses the mapping feature. ALARM sensitivity level from five available settings within the range. With interactive menus and graphic support, the wired circuits between Pre - Alarm: The detector stores one of 20 pre -alarm sensitivity values to • each device can be examined. Layout or "as -built" drawing information alert local personnel prior to the sensor reaching a full evacuation showing wire branches (T- taps), device types and their address are sensitivity. Sensitivity values can be set in 5% increments.' stored on disk for printing hard copy. This takes the mystery out of the Automatic Day /Night Sensitivity Selection: Signature Series detec- installation. The preparation of "as- built" drawings is fast and efficient. tors may be programmed for different sensitivities during day and night Device mapping allows the Signature loop controller to discover: periods. This allows the detector to be more sensitive during unoccupied • unexpected additional device addresses periods when lower ambient background conditions are expected. • missing device addresses Stability: The SIGA -PS detector's sensitivity remains stable in wind • changes to the wiring in the circuit. velocities up to 5,000 ft/min (25.3 m/sec). Ambient temperature has very Stand - alone Operation: A decentralized alarm decision by the detector little affect on the detector. The detector may be Installed in rooms with Is guaranteed. On -board intelligence permits the detector to operate in ambient temperatures up to 120°F (49 °C). stand -alone mode. If loop controller CPU communications fall for more Status LEDs: Twin LEDs are visible from any direction. A flashing than four seconds, all devices on that circuit go into stand -alone mode. GREEN LED shows normal system polling from the loop controller. A The circuit acts like a conventional alarm receiving circuit. Each detector flashing RED LED means the detector is in alarm state. Both LEDs on on the circuit continues to collect and analyze information from its steady shows alarm state - stand -alone mode. Normal GREEN LED surroundings. The detector alarms if the preset smoke obscuration level activity is not distracting to building occupants, but can be quickly is reached. If the detector is mounted to a relay base, the relay operates. spotted by a maintenance technician. Similarly. if It is mounted to an audible base, the on-board horn sounds. Quality and Reliability: Siemens detectors are manufactured in North Fast Stable Communication: On -board intelligence means less America to strict international ISO 9001 standards. All electronics utilize Information needs to be sent between the detector and the loop controller. surface mount technology (SMT) for smaller size and greater immunity Other than regular supervisory polling response, the detector only needs to RF noise. A conformal coating is used for humidity and corrosion to communicate with the loop controller when It hat something new to resistance. All critical contacts are gold plated. report. This provides very fast response time and allows a lower baud rate (speed) to be used for communication on the loop. • ' ALS3 V.2 only 2 Retrievable with SIGA -PRO programming tool. • Information in this document is based on specifications believed correct at the time of publication. The right is reserved to make changes as design improvements are introduced. APOGEE is a trademark of Siemens Building Technologies. Inc. ® 2000 Siemens Building Technologies, Inc. Siemens Building Technologies, Inc. Printed In the U.S.A. (origin) Landis Division Page 4 of 4 1000 Deerfield Parkway Buffalo Grove. IL 60089 -4513 FIRE SYSTEM FUNCTION MATRIX SI EM ENS ROCK SOLID FELLOWSHIP SCHOLLS BUISNESS CENTER 631 -PS -2750 o b o 0 0 V o -' a a E 0 E E ca o ca o 0 Q H a a . ` E o c o. INITIATION DEVICE ACTIVATED LL cn C c Manual Pull Station X • x X Area Smoke Detector X x X Water Flow Switch X x X Any System Trouble X X System Power Supervisory X X Duct smoke Detector X x X BATTERY SIZING CALCULATIONS SIEMENS ROCK SOLID FELLOWSHIP 631 -PS -2750 Panel Name: EST2 Battery Size: 10 Ah Requirement for standby current: (:::::24:::..) hrs. Design Supervison Current = 5.6 amp-hr Requirement for alarm current: ( • 15: ::•:-I min. Design Alarm Current = 0.1 amp-hr Spare Battery Capacity: (:::::25 %::::) % Additional Capacity Current = 1.4 amp-hr Initiating Devices Assumed In Alarm: I:;::::10 %::•:- I % Battery AH requirement ii 7.2 amp-hr lI PANEL EQUIPMENT Standby Alarm TOTAL TOTAL (ma) (ma) (ma) (ma) Quantity Device Current Current Standby Current Alarm Current , .-:-:•:- - 1 : :-:-:-:• 2- MCM/LCD 150 275 150 275 2- PPS /6A 61.5 61.5 61.5 61.5 - PANEL TOTALS 211.5 336.5 FIELD DEVICES Standby Alarm TOTAL TOTAL (ma) (ma) (ma) (ma) Quantity Device Current Current Standby Current Alarm Current i::.:: SIGA- CT2 -LG 0.39 0.68 0.39 0.68 .... 5.: ;. SIGA -CR -LG 0.1 0.1 0.5 0.5 : •:;::7::::: SIGA- CT1 -LG 0.25 0.4 1.75 2.8 .. :1. ::.:::: SIGA- HRS -LG 0.45 0.45 0.45 0.45 ..4s: SIGA -PS -LG 0.45 0.45 20.7 20.7 . .:. .. .: 9:�:.:.:. . : RSS- MCW -FW 0 _ 23.9 0 215.1 23.79 240.23 Standby Alarm GRAND TOTALS (field & panel) I 235.29 I 576.73 I Formula: II [(A + B) x C] + [(D + E) x F] x G = Minimum Amp -Hour Battery Capacity I) Where: A = Internal panel standby current {amps }. B = External device standby current {amps}. C = Duration panel must remain operational {hours }. D = Internal alarm current {amps}. E = External device alarm current {amps }. F = Duration panel must remain in alarm after standby period ends (hours ). G = Spare battery capacity {percentage}. 6 FACP BATTERY SIZING CALCULATIONS SIEMENS Rose City Marble Westbrooke 0 suite 170 Panel Name: WHEELOCK NAC Battery Size: 7 amp-hr PS WHEELOCK NAC POWER SUPPLY Requirement for standby current: 24 hrs. Design Supervison Current = 11110C _____ TJ Requirement for alarm current: 5 min. Design Alarm Current =111,11 25 Initiating Devices Assumed In Alarm: 10 % Battery A requirement = `F:1trr�TJ PANEL EQUIPMENT Standby Alarm TOTAL TOTAL (ma) (ma) (ma) (ma) Quanti Device Current Current Standb Current Alarm Curren ® Model 5495 M1=11/1101//1/11 M.EZMIEEMIEM ®® HIM DOOR HOLDERS moon MEI 15 cd STROBE •;rfr:�:: r r :• rr:« ::�.: 15cd HORN/STROBE : ^ "::• ^ •f «0 EOM 30 cd STROBE :^ r « ^: ; 0.063 {`• }; :s.' MUM 30cd HORN/STROBE = : ^r; -;• « ®• f «f.' •:� ® 75 cd STROBE ,:, 0.109 ;: 0.109 MEM 7 501 HORN/STROBE M]® 110 cd STROBE :�r� :': C^• :'� IOi 110cd HORN/STROBE -:- -:-:•:-.111E35111. :•:•r. -_ , ;.r r.«.; . o Standby Alarm GRAND TOTALS (field & panel I 75 I 102.818 Formula: ((A + B) x CI +1113 + E) x Fl x G = Minimum Amp -Hour Battery Capacity Where: A = Internal panel standby current (amps). B = External device standby current (amps). C = Duration panel must remain operational (hours). E = External device alarm current (amps). F = Duration panel must remain In alarm after standby period ends (hours). G = Spare battery capacity (percentage). PROPRETARY DOCUMENT FOR APPROVAL ONLY 1 1E1912000 24VDC Indicating Circuit Loading Schedule Fire Alarm and Life Safety Operations Guide Formulas: Maximum Voltage Drop = Minimum Power Supply Voltage - Minimum Operating Voltage of Device Project Name: Maximum Circuit Resistance = Maximum Voltage Drop / Maximum Circuit Current Project Number: 630 -H Maximum Circuit Distance = (Maximum Circuit Resistance / Wire Pair Resistance Per 1000 Feet) ' 1000 Circuit Voltage Drop = ( Maximun Supply Current Required'Total Distance to Last Device/1000)'Ohms per 1000 Feet s rL Cr_ ra o. 7 B y U U -e Z '9 • 0 a C 0 0 a N .� E a v c o o m v U U f. 0 O o m 0 m U o 0 o 5 5 0 C7 S w c N Q d 7 o O H N N 0 cc Q 0 0 V E E w ; ° c U 7 rc d 8 ° y C N l O co N p Z N 8 o B 0 i 0 3 t C cf o. U E c� c� C c > a o o ` m a 2+ ° in o rn o- o of $ o a V o cc..) o to v ° V o c = 0 0 0 0 0 0 g E o : '� E o C T a a o- ° ° b O E rn O E u 3 m m c m CO ° m � _ ' x x m m x x T ° 7 7 7 7 7 7 0 O t o 07 l0 ° I— c a 0 0 0 0 0 0 m m 3 H m > 1 STROBES.: EST:PANEL CKT 1. 1 . : '0. ::.. :: ::6:•. :. 24.0 V • : : :1.629 A 3.6 V :: :'14,AWG .. •: 365,Ft 339 Ft YES • . 3;9, V..:. • 2 STROBES : BP #1: - circuitl " 2::: 0: •2 ._ :: 4 • V '':1.616 A 3..6:V :: . • 14 AWG . 402.Ft.: 543 Ft NO ':• .2.7•V. 3 STROBES:: BPS: #1: = :circuit 2:......:: 3:. 0 :3.. 0 7 24.0 V -1.743 A' ' 3.6:V : 14.AWG 338.Ft 317 Ft YES :. : 3.8 V ... 4 STROBE BPS:#1 = :circuit 3 :: 4 •:0:. 4 2 : 11 24;0 V ...0.805 A . -3.6:V :: :14AWG .: 405:Ft . 686 Ft NO .'2<1. V 5 STROBES:: BPS #1:= :circuit4 , , 5 : : : : • : . • 0: . 5 : ..3.:: : 0 :::'3...: 24:O.V: ::1.322A:' ::.i.3:0;1:::- ::.•:14:AWG-: is : - 352 Ft- - 418 Ft NO .:3:0 V 6 ... ::: •: 0 . 0 : • 24.0 V :0.000A: . ! :3:6:V::::: 14:AWG • Oft-: #DIV /0! #DIV /0! ::.::O.O V ... 7 0. .: :O . :. 24.O.V ; O:000:A. : _:- 3:6V'; ` ..14.AWG • .O.Ft #DIV /0! #DIV /0! ::. 0:0 V . • 8 : • : •' ••:0 . 0 : • 24.0 V `0000:A_ :3.6 14 :AWG.. 0-Ft . #DIV /0! #DIV /0! 0.0V PROPRIETARY DOCUMENT FOR INTERNAL USE ONLY 1 OF 1 r 24VDC Indicating Circuit Loading Schedule Fire Alarm and Life Safety Operations Guide ; Formulas: Maximum Voltage Drop = Minimum Power Supply Voltage - Minimum Operating Voltage of Device Project Name: Maximum Circuit Resistance = Maximum Voltage Drop I Maximum Circuit Current Project Number: 630-H Maximum Circuit Distance = (Maximum Circuit Resistance / Wire Pair Resistance Per 1000 Feet) ' 1000 Circuit Voltage Drop = (Maximun Supply Current Required'Total Distance to Last Device /1000)'Ohms per 1000 Feet Q a LL ii 5 0. 12 0- . .. 'i U U B Z >, c 5; U C) m y t? > • c c c r0 E = c U c C ` U m al c / U U 0 c 0 .> g > ? . >> > W H op a p o y m O Q O p E H y o w R c N 7 N 41 > U > 0 c N N Y > Z U V O d Of t in C co CO N 43 Z N m 0 Z V G - .t0. 0 V co O. 0. v U a a v c c V o o. c cn 3 0 0 0 0 0 o y E m .l E C Ti o c CI c 'c c c 'e2 O E > o b b E a ; CO CO CO CO CO CO c 'x x m x K - >, . 0 7 7 7 7 7 7 W l 0 0 r0 Ce 0 I- . 0. O O A C7 0 Q m m § t- M '.t > 1 STROBES:. EST: PAN et, :act: 1 1, . 0 . 3 • :_6. • 24.0 V :.1:629 A .- 3:6 ••:14 AWG... .•.240:Ft 339 Ft NO 2.5 V . .• . 2 STROBES: BPS: #1 •= circuits: 2.::::. •.•.•:. :0 : ••2. : • : 0 .4'. .• 24.0 V. : 1:018 A. . -3 6 14 AWG . :220:Ft :. 543 Ft NO .• 1.5 V : 3 STROBES:. BPS : #1::= :circuit2 ` ...::. 3: : :0 ..3 •0 .7: , • 24,0.V..':1 :743A ::-3 6:V:::: - . 14 AWG .•: 250•Ft 317 Ft NO 2.8 V . 4 STROBES:: BPS: #1:: :circuit:3:. 4 :0 ::7. 2 : 2 4:0 V.:::0;805A: :::-3:6:V. 14 AWG .. 240.Ft:. 686 Ft NO 1.3 V:: 5 STROBES.. BPS: #1. = :circuit 4 5 : : • - • • : : : • :5'. 3 : 0 .:3 . •:24.0 V :1:322 A- . -3:6•V ` :14:AWG •• 200•Ft - 418 Ft NO 1.7 V 6 •• :. 0 : ::• 0' ..24.0V : A: 1 :. -3,6 V:: 0 Ft #DIV /0! #DIV /0! 0.0 V . 7 •.: .0 :. •..' 0 ' • : 24.0.V 0:000A. 3.6.V :::::- 14AWG . • .0:Ft #DIV /0! #DIV /O! .. 0.0 V : • 8 :•: •. • - •:•:•:•:: ..: 0: . • : 0 24.O:V : :'0.000AA :. -3.6 :.::.' 14AWG-f • 0:Ft . #DIV /0! #DIV /0! ::.: :0.0 v PROPRIETARY DOCUMENT FOR INTERNAL USE ONLY 1 OF 1 I AUDIO CIRCUIT CALCULATIONS SIEMENS ROCK SOLID FELLOWSHIP SCHOLLS BUISNESS CENTER 631 PS -2750 Audio System Voltage 70.7 VOICE COM • v c . ' . m L 1: i - ti~ a � .�, k tug 3 $ `m a 3 3 m +e • • 3 za 4 k on S ,4 .4 R a ca it ° H ti� S 3 ry w 3 4yt a a3 at :.a LxR Rx2 St 240 14 0.0026 0.62 1.25 2 5 0 0 0 0 0 3.00 1668,16 -0.01 04-04 20 15.0% 3.0 WATTS 52 220 14 0.0026 0.57 1.14 2 2 0 0 0 0 0 1.50 3332.31 0.00 04-05 20 7.5% 1.5 WATTS 33 250 14 0.0026 0.65 1.30 9 0 0 0 0 0 0 2.25 2221.55 -0.01 04-06 20 11.3% 2.3 WATTS S4 240 14 0.0026 0.62 1.25 4 0 0 0 0 0 0 1.00 4998.49 0.00 04-07 20 5.0% 1.0 WATTS S5 200 14 0.0028 0.52 1.04 10 0 0 0 0 0 0 2.50 1999.40 0.00 04-09 20 12.5% 2.5 WATTS O 14 0.0026 0.00 0.00 0 0 0 0 0 0 0 0.00 #OIVIO #DIV 101 04-10 20 0.0% 0.0 WATTS O 14 0.0026 0.00 0.00 0 0 0 0 0 0 0 0.00 #DIVIO #DIVI01 0411 20 0.0% 0.0 WATTS O 14 0.0026 0.00 0.00 0 0 0 0 0 0 0 0.00 #DIVIO #D1V /01 04-12 20 0.0% 0.0 WATTS O 14 0.0026 0.00 0.00 0 0 0 0 0 0 0 0.00 0OIV /0 #D1v!Ot 0413 20 0.0% 0.0 WATTS 0 14 0.0028 0.00 0.00 0 0 0 0 0 0 0 0.00 #DIV/O #DIVIOt 04-14 40 0.0% 0.0 WATTS O 14 0.0026 0.00 0.00 0 0 0 0 0 0 0 0.00 #DIVIO #01V /01 04-15 20 0.0% 0.0 WATTS 0 14 0.0026 0.00 0.00 0 0 0 0 0 0 0 0.00 #DIV /O #01V /01 04-16 20 0.0% 0.0 WATTS 0 14 0.0026 0.00 0.00 0 0 0 0 0 0 0 0.0o ammo am*, 04-17 , 2Q 0,0% 0.0 WATTS Device Totals 27 7 0 0 0 0 0