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Plans[Page Too Large for OCR Processing] [Page Too Large for OCR Processing] \ /-�� -. / 3zrvo � ~7 /n /�� ]�} | / �' x�� v«� —' ' —/ / -' - ' ' ^~ °-- ' — ' . ~~ —_~� , 9 T fi- ,77- ,__ 1 !..„ , ,, , i 1:-_ i i Power Siiiiplie end /Tcces;;Oriez; OCT � ?NO F "^' " �"/" . zEi ; Life Safety & Communications . . ,, , ( ';'.14111111 . 11111111i . Rerriote Booster " `"w Po w � S U U UU»~�.�� ''"»��y � K � & V & � U U� � ~~~~ ~~- �= �~~ "^ `~~`�~ �, ' ' 4�� C��1 OA \ \�� / �/r� BP �� /��r� C..) n / ~.� /y ` `'»xU: |/U ' , / , ' y `. 7,"Ui|!/� .~ � ," v % „fp,. / i ' Overview Standard Features The Booster Powe Supply (BPS) is a UL 864, 9th Edition listed • Allows for reliable filtered and regulated powe to be installed � p��yK�a24V�N��egv|��.o��pom�� where needed unit that can easily be configured to provide additional notification • Cost effeclive system expansion appliance circuits (NACs) or auxiliary power for Mass Notification/ Emergency Communication (MNEC), aa well uo|�eoo�0 security, ° pmv�*n�xGnnoo�anU Enhanced Integrity notification ap' safety, pliance synchronization and access control applications. • Supports coded output operation The BPS contains the circuitry to monitor and charge internal womo,n�b�mrioo. Its steel *no|ouvmhas mmnkvopmw"o • 3��mo�o�ng��unon\pn��ion 10 ampere-hour batteries. For access control-only applications, • Multiple signal rates the BPS can support batteries totaling up to 65 ampere-hours in • Can be cascaded or controlled independently an external enclosure. The BPS has four Class B (convertible to • Easy field cnnfiguratinn two Class A) NACs. These can be activated in one or two groups from the BPS's unique dual input circuits. • On-board diagnostic LEDs identify wiring or internal faults • Standard Edwards keyed lockable steel cabinet with remov- The BPS is available in 6.5 or 10 ampere models. Each output able door circuit has a capacity of three amperes; total current draw cannot • 110 and 230 Vac models available exceed the unit's rating. • Accommodates 18 to 12 AWG wire sizes The BPS meets current UL requirements and is listed under the following standards: • Optional tamper switch Standard (CCN) Description • Dual battery charging rates 9th edition ---� --' — --- • Optional earthquake uc�wp��nemn Systems ^ ~~ pre-approval oL(50o(Aon,^oTXn �"� Systems for component Importance Factor 1.5 n�u"�emoenx� -'-------''--- Access Control Systems UL365 (APAW, APAW7) Police Station Connected Burglar Alarm Un.ts and Systems UL1076 (APOU, APOU7) Proprietary Burglar Alarm System Units oLo-S527 moXXq Control uc�emv�^o�� --' C22.2 No. --- ----- � - Signaling Equ pment (Canada) . . Page 1 m* • 85005-0125 Application Dimensions The BPS provides additional power and circuits for notification ap- ? . pliances and other 24 Vdc loads. It is listed for indoor dry locations O O and can easily he installed where needed. D,5 O Top View iv Fault conditions are indicated on the on -board diagnostic LEDs, opening the BPS input sense circuit and the trouble relay (if D2 - • D3 programmed). While this provides indication to the host system, I m I ..... the BPS can still be activated upon command. A separate AC 0� D4 — Fail contact is available on the BPS circuit board, which can be programmed for trouble or AC Fail. There are seven on -board diagnostic LEDs: one for each NAC fault, one for battery fault, one Front View O for ground fault, and one for AC power. • The unique dual -input activation circuits of the BPS can be acti- vated by any voltage from 6 to 45 VDC (filtered- regulated) or 11 D1 • O D6 to 33 Vdc (full -wave rectified, unfiltered). The first input circuit can be configured to activate 1 -4 of the four possible outputs. The n second input circuit can be configured to control circuits 3 and 4. All knockouts CD When outputs are configured for auxiliary operation, these circuits for 3/4 in conduit can be configured to stay on or automatically deactivate 30 sec- ° ( 1.9 cm) ° m onds after AC power is lost. This feature makes these circuits ideal for door holder applications. The BPS also has a separate 200 mA 24 Vdc output that can be used to power internal activation —• 1 ... modules. BPS NACs can be configured for a 3 -3 -3 temporal or continuous Dl D2 D3 D4 D5 D6 output. California temporal rate outputs are also available on cer- 17.0 in 3.5 in 13.0 in 6.5 in 3.375 in 12.0 in taro models. This makes the BPS ideal for applications requiring (43.2 cm) (8.9 cm) (33.0 cm) (16.5 cm) (8.6 cm) (30.4 cm) signaling rates that are not available from the main system. . In addition to the internally generated signal rates, the BPS can also be configured to follow the coded signal rate of the main Wire routing Power - limited system NACs. This allows for the seamless expansion of existing wiring area NACs. The BPS enclosure has mounting brackets for up to three Signa- , u4 U ture modules to the right of the circuit board. d -�-- --r • ,_ ' �. Engineering Specification - r` 11 r [2] r — ' u Supply, where needed, Edwards BPS Series Booster Power Sup- ❑ ° o plies (BPS) that are interconnected to and supervised by the main system. The BPS shall function as a stand -alone auxiliary power - ; = ; supply with its own fully - supervised battery compliment. The BPS � ' o ^ �• ° r ( r ) [3� � , • batter y compliment shall be sized to match the requirements of Route AC supply ' e? • °• ° °;) ° o the main system. The BPS shall be capable of supervising and through these y'— " charging batteries having the capacity of 24 ampere -hours for knockouts only 4 Mass Notification /Emergency Communication (MNEC), life safety (Nonpower - limited Eli lie 'II and security applications, and the capacity of 65 ampere -hours for and supervised) Battery wiring (nonpower- access control applications. o limited and supervised) o «The BPS shall be capable of installation for a seismic com- Battery Battery ponent Importance Factor of 1.5.» The BPS shall provide a minimum of four independent, fully supervised Class B circuits that can be field configurable for notification appliance circuits or auxiliary 24 Vdc power circuits. BPS NACs shall be convertible to '– a minimum of two Class A NACs. Each BPS output circuit shall Notes be rated at 3 amperes at 24 Vdc. Each output circuit shall be 1. Maintain 1/4 -inch (6 mm) spacing between power - limited and nonpower - limited provided with automatically restoring overcurrent protection. The wiling or use type FPL. FPLR, or FPLP cable per NEC. BPS shall be operable from the main system NAC and /or Edwards 121 Power - limited and supervised when not configured as auxiliary power. Non - P Y supervised when configured as auxiliary power. Signature Series control modules. BPS NACs shall be configurable 13] Source must be power - limited. Source determines supervision. for continuous, 3 -3 -3 temporal or optionally, California rate. Fault 4. When using larger batteries, make sure to position the battery terminals towards conditions on the BPS shall riot impede operation of main sys- the door. tem NAC. The BPS shall be provided with ground fault detection circuitry and a separate AC fail relay. Page 2 of 4 DATA SHEET 85005 -0125 Not to be used for installation purposes. Issue 4 • Typical Wiring - . - Single or cascaded booster NAC Circuit ) To next signaling g NAC Circuit device, booster, or • a nywhere on a notification appliance circuit EOL resistor ' Existin NAC end -of -line resistors are not re uired to be )NAC output #1 • • 9 q Fire Alarrt > NAC output #2 • installed at the booster's terminals. This allows multiple Control Panel " N > NAC output #3 . boosters to be driven from a single NAC circuit without the a > NAC output #4 need for special configurations. • . Booster Power Supply Configuring the Booster for Multiple CC1(S) modules using the AC Power Fail delay operation* BPS's sense inputs TB1 Notification appliance circuit (NAC) TEl Notification appliance circuit (NAC) 1/ 5d NAC1/ +[ ] listed AUX1 -1 AUX1 - [��] D M 13 Z EOL 1 15 k0 AUX1 - [��] ©� f3 � EOL OL L 155 KW NAC2/ + E l NAC2/ +I I • AUX2 - I 1 Notification appliance circuit (NAC) AUX2 - [ ], Notification appliance circuit (NAC) NAC3/ + I UL listed NAC3/ +I ,I UL listed ' AUX3 - I I • 0 aD I EOL 15 ka AUX3 - [��] 0 D EOL 15 KW NAC4/ +E ] NAC4/ +I�x�] AUX4 -1 I • _ AUX4 - L I . 200mAAUX I ' 200mAAUX I ' Continuous m I��] C ontinuo u s m [�xl 'IN I I + • IN EI Sense 1 C OM E I Ell + Sense 1 COM [X�1 - _.__EOL 47 K . OUT I� • IN E A I IN L I . Sense 2 COM ( 1 EOL 47 kOl . 70 9 Sense 2 COM EI - OUT E. I - CC1(S) module [1][3] OUT I I EOL 47 K, • + + , NO I� ° o NO Imo] I Inn ri E I•= —� I - Trouble COM I '1 I s 7 s s 432 f Trouble COM FM io s fo s NC Imo,] I a'»• _ ill 1L I NC [fib] TB2 1= + T CC1(S) module CC1(S) module c B2 e •' C T 1 • Data in from Data out to 0 8765 ° 4 3 2 1 8765 ° 43 21 previous device -+ next device zz i� 2 modul [4j � 1� 1 Ll o or Signature +- - + - +- ' 2 ' controller . • mmmm� Data in from previous + + 'The Booster supports AC Power fail delay --► [3] . • , Data o ut to • device or Signature of three hours via its trouble contact when . controller '""►.next device dip switch SW2 -6 is on. All other troubles , ' are reported to supervising module or panel . without delay via Sense Inputs. ' - • Security and access ' . - - BPS TB1 24V 12V ' NAC1/ +1' Security ( __ [ Security EOL — NI 24DC12 ■U u monitorin AUX1 - [mil device device 9 NAC2/ 41 I device AUX2 - i .] . NAC3/ + I ' AUX3 -1I . NAC4/ +1 �� . . AUX4 -1 l • ' . . Control panel . . BPS [1] ' • Card reader Card reader - Card reader - ♦ – controller controller _ • controller ♦ ♦ - + – ♦' – �� - To next • • device [1 ] Disable the BPS's ground fault j umper (JP3) • ' - or end . . • Page 3 of 4 • DATA SHEET 85005 -0125 ' Not to be used for installation purposes. Issue 4 . . Specifications Model 6.5 amp Booster 10 amp Booster �„ Li-il z AC Line Voltage 120VAC or 220- 240VAC 50 /60Hz ' 120VAC or 220- 240VAC 50 /60H A UTC Fire 8 Security Company 390 watts 580 watts Detection & alarm since 1872 Notification Appliance 3.0A max per circuit @ 24Vdc I 3.0A max. per circuit @ 24Vdc Circuit Ratings nominal 6.5A max total all NACs 1 nominal 10A max total all NACs U.S. Trouble Relay 2 Amps @ 30Vdc T 888 378 - 2329 Auxiliary Outputs Four configurable outputs replace NACs 1, 2, 3 or 4. as auxiliary F 866-503 -3996 outputs and 200 mA dedicated auxiliary. (See note 2.) Canada Input Current 3mA @ 12Vdc, 6mA @ 24Vdc Chubb - Edwards (from an existing NAC) T 519 376 2430 Booster Internal 70mA F 519 376 7258 Supervisory Current Southeast Asia Signature Mounting Accomodates three two -gang modules. T : +65 6391 9300 Space F : +65 6391 9306 _ -„ -......._..__........._.__.. _...._.- ._....- _._...- ...._._.. -,.- - - .- ..._.. Maximum Battery Size 10 Amp Hours (2 of 12V10A) in cabinet up to 24 Amp hours with ex - India ternal battery cabinet for fire and security applications; up to 65 Amp T : +91 80 4344 2000 hours for access control applications in external battery box. F : +91 80 4344 2050 Terminal Wire Gauge 18 -12 AWG Australia Relative Humidity 0 to 93% non condensing @ 32 °C T +61 3 9239 1200 Temperature Rating 32° to 120 °F (0° to 49 °C) F +61 3 9239 1299 NAC Wiring Styles Class A or Class B Europe Output Signal Rates Continuous, California rate, 3 -3 -3 temporal, T +32 2 725 11 20 or follow instated panel's NAC. (See note 1.) F +32 2 721 86 13 Ground Fault Detection Enable or Disable via jumper Latin America Agency Listings UL, ULC, CSFM T 305 593 4301 1. Model BPS'CAA provides selection for California rate, in place of temporal. - F 305 593 4300 2. Maximum of 8 Amps can be used for auxiliary output. utcf irean ds ecu rity.com Ordering Information © 2010 UTC Fire & Security. All rights reserved. Catalog Description Shipping Number Wt. lb (kg) BPS6A 6.5 Amp Booster Power Supply 13 (5.9) BPS6AC 6.5 Amp Booster Power Supply (ULC) 13 ( 5.9) _ BPS6A/230 6.5 Amp Booster Power Supply (220V) 13 ( 5.9) BPS6CAA 6.5 Amp Booster Power Supply with California rate 13 (5.9) BPS10A 10 Amp Booster Power Supply 13 (5.9) BPS1OAC 10 Amp Booster Power Supply (ULC) 13 (5.9) BPS10A/230 10 Amp Booster Power Supply (220V) 13 (5.9) BPS10CAA 10 Amp Booster Power Supply with California rate 13 ( 5.9) Related Equipment 12V6A5 7.2 Amp Hour Battery, two required 3.4 (1.6) 1. Requires installation of sepa 12V10A 10 Amp Hour Battery, two required 9.5 (4.3) _ rate battery cabinet. 3 - TAMP Tamper switch 2. BPS supports batteries greater BC -1 EQ Seismic Kit for BC -1. Order BC -1 separately. See note 3. than 24 Amp hours for access BPSEQ Seismic kit for BPS6A or BPS10 Booster Power Supplies. See control applications only 3. For earthquake anchorage, note 3 including detailed mounting BC -1 Battery Cabinet (up to 2 - 40 Amp Hour Batteries) 58 (26.4) weights and center of gravity BC -2 Battery Cabinet (up to 2 - 17 Amp Hour Batteries) 19 (8.6) detail, refer to Seismic Applica 12V17A 18 Amp Hour Battery, two required (see note 1) 13 ( 5.9) tion Guide 3101676. Approval of panel anchorage to site 12V_24A 24 Amp Hour Battery, two required (see note 1) 20 (9.07) structure may require local 12V40A 40 Amp Hour Battery, two required (see notes 1, 2) 32 (14.5) Al structural or civil engineer 12V50A 50 Amp Hour Battery, two required (see notes 1, 2) 40 (18.14) review. 12V65A 65 Amp Hour Battery, two required (see notes 1, 2) 49 (22.2) Page 4 of 4 DATA SHEET 85005 -0125 w Not to be used for installation purposes. Issue 4 EDWARDSSYSTEMSTECHNOLOGY NOTIFICATION APPLIANCES Compatibility [ 0a0C3 I[ Itt II ° II X II II oc,. ',, e A Selectable 15, 30, 75, Field Configurable or 110 cd strobe! Horns and Strobes G 1 Series Features ❑ Unique low- profile design - The most compact UL- 1971 /ULC -S526 listed strobe available 2 ° - - Ultra -slim - protrudes less than one inch from the wall r o ,. : - Attractive appearance ,., p - No visible mounting screws - ❑ Four field - configurable options in one device - Select 15, 30, 75, or 110 cd strobe output - Select high (default) or low dB horn output - Select temporal (default) or steady horn output f - - Select public mode flash rate (default) or private mode temporal flash ❑ Easy to install = NE4 - Fits standard 1 -gang electrical boxes - no trim plate needed Listings pending - Optional trim plate accommodates oversized openings One or more patents pending. • — Pre - assembled with captive hardware - #12 AWG terminals - ideal for long runs or existing wiring with FullLight technology go well beyond the minimum UL- • Unparalleled performance required "T" pattern, significantly exceeding UL -1971 and ULC- - Industry's most even light distribution S526 light distribution requirements. - Meets tough synchronizing standards for strobes Although all Genesis strobes are self-synchronizing, when installed - Single microprocessor controls both horn and strobe with an optional synchronization module, strobe flashes from - Low current draw minimizes system overhead devices on the same circuit synchronize to within 10 milliseconds - Independent horn control over a single pair of wires of each otherindefinitely. This exceeds the two -hour minimum - Highly regulated in -rush current - Multiple frequency tone improves wall penetration required i per crci rcu cu standards. Only one synchronizationmoduleis r - Industry's first temporal strobe output required peit. Genesis strobes and horn - strobes offer 15 to 110 candela output, Description which is selectable with a conveniently - located switch on the side of the device. The candela output setting remains clearly visible The Genesis line of signals are among the smallest, most compact even after final installation, yet it stays locked in place to prevent audible - visible emergency signaling devices in the world. About unauthorized tampering. the size of a deck of playing cards, these devices are designed to blend with any decor. Genesis horn output reaches as high as 99 dB and features a unique multiple frequency tone that results in excellent wall penetration Thanks to patented breakthrough technology, EST Genesis strobes and an unmistakable warning of danger. Horns may be configured do not require bulky specular reflectors and lenses. Instead, an for either coded or non -coded signal circuits. They can also be set exclusive cavity design conditions light to produce a highly for low dB output with a jumper cut that reduces horn output by controlled distribution pattern. Significant development efforts about 5 dB. employing this new technology have given rise to a new bench- mark in strobe performance - FullLight technology. Genesis signals feature textured housings in architecturally neutral white or traditional fire red. An ingenious iconographic symbol FullLight strobe technology produces a smooth light distribution indicates the purpose of the device. This universal symbol is code - pattern without the spikes and voids characteristic of specular compliant and is easily recognized by all building occupants reflectors. This ensures the entire coverage area receives consis- regardless of what language they speak. Models with "FIRE" tent illumination from the strobe flash. As a result, Genesis strobes markings are also available. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: BRADENTON, FL 888-378 -2329; FAX 866503-3996 • CANADA SALES: OWEN SOUND, ON 519- 376 -2430; FAX 519376-7258 INTERNATIONAL SALES: 905-270-1711; FAX 905- 270-9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S. MANUFACTURING: PITTSFIELD8 NEWPORT, ME Issue 3 Literature Sheet #85001 -0573 Page 1 of 6 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Application Horns The suggested sound pressure level for each signaling zone used with Genesis strobes are UL 1971- listed for use indoors as wall- alert or alarm signals is at least 15 dB above the average ambient mounted public -mode notification appliances for the hearing sound level, or 5 dB above the maximum sound level having a impaired. Prevailing codes require strobes to be used where duration of at least 60 seconds, whichever is greater, measured 5 feet ambient noise conditions exceed 105 dBA (87dBA in Canada), (1.5 m) above the floor. The average ambient sound level is, A- where occupants use hearing protection, and in areas of public weighted sound pressure measured overa 24 -hour period. accommodation as defined in the Americans with Disabilities Act (see application notes - USA). Doubling the distance from the signal to the ear will theoretically result in a 6 dB reduction of the received sound pressure level. The Combination horn- strobe signals must be installed in accordance actual effect depends on the acoustic properties of materials in the with guidelines established for strobe devices. space. A 3 dBA difference represents a barely noticeable change in volume. Strobes The following guidelines are based on ANSI /NFPA 72 National Fire A /arm Code (1999). When applied and installed in accor- Application Notes - USA dance with that code, EST strobes meet or exceed the illumina- Audible signals in the public mode should never have a sound tion produced by the ADA- specified 75 candela (cd) strobe at 50 level less than 75 dBA at 10' (3 m) per NFPA 72. Signals cannot feet.* exceed 120 dBA per ADA and NFPA 72 at the minimum hearing distance to audible appliance. Non - Sleeping Rooms EST wall mounted strobes* Strobe and combination horn /strobe devices should be installed Up to 20' x 20' (6.1 m x 6.1 m) One 15 cd strobe with the bottom of the device at least 80 inches (2.0 m) and no more Up to 30' x 30' (9.1 m x 9.1 m) One 30 cd or two 15 cd strobes than 96 inches (2.4 m) above the finished floor. Horns should be Up to 40' x 40' (12.2 m x 12.2 m) One 75 cd or two 30 cd strobes installed with their tops not less than 6 inches (152 mm) below the Up to 50' x 50' (15.2 m x 15.2 m) One 110 cd or two 75 cd strobes ceiling and not less than 90 inches (2.3 m) above the finished floor. Corridors Strobes must be used to supplement audible signals wherever the average ambient sound level exceeds 105 dBA. Combination 15 cd strobes spaced at 100' audible /visual signals must be installed in accordance with NFPA Any length. (30.5 m) max. Strobes must be guidelines established for strobes. Maximum width: 20' (6.1m). placed within 15' (4.5m) of each end of the corridor. ADA requires visible signals in the following areas: • ADA suggests using 75 cd strobes throughout an area, with spacing that never • rest rooms, meeting rooms, and other common use areas. . exceeds 50 It from the strobe to any point in the protected space. • sleeping rooms intended for use by persons with hearing Non - Sleeping Rooms and Corridors: EST strobes rated at less impairment (in accordance with Title 1 of ADA). than 110 cd per UL 1971 are intended for use in non - sleeping • work areas used by a person with a hearing impairment (per areas only. Install with the bottom of the device at least 80 inches Title 1 of ADA). (2.0 m) and no more than 96 inches (2.4 m) above the finished floor. No point in any space (including corridors) required to have Application Notes - Canada strobes should be more than 50 feet (15.2 m) from the signal (in (Based in part on 1995 Canada National Building Code) the horizontal plane). The fire alarm signal sound pressure level shall not exceed For detailed spacing requirements, consult The Handbook of 110 dBA in any normally occupied area. The sound pressure Visible Notification Appliances for Fire Alarm Applications level from an audible signal in a floor area used for occupancies published by EST Press, or contact your local EST representative. other than residential occupancies shall not be less than 10 dBA Sleeping rooms: EST 110 cd strobes are intended for use in above ambient levels, and never less than 65 dBA. In sleeping sleeping rooms and should be installed along with a smoke rooms the sound pressure level from an audible signal shall not detector. It must be wall mounted at least 80" (2.03 m) above floor be less than 75 dBA when any intervening doors between the level, but no closer than 24" (610 mm) to the ceiling. The distance device and the sleeping room are closed. Audible signal devices ab l installed floor (per less than 52 m to the center of the device from the strobe to the pillow must not exceed 16' (4.8 m). above the floor (per CAN /ULC S524). Sleeping Rooms EST wall mounted strobe The fire alarm audible signal shall be supplemented by fire alarm Any size 110 cd within 16 feet of pillow strobes in any floor area where the ambient noise level exceeds 87 dBA, or where the occupants of the floor area use ear protective devices, are located within an audiometric booth, or are located within sound insulating enclosures. This also applies to assembly occupancies in which music and other sounds associated with performances could exceed 100 dBA Strobes shall be installed in a building so that the flash from one device is visible throughout the floor area or portion thereof in which they are installed. For maximum safety, EST recommends that strobes be installed as per the guidelines shown here under Strobe Spacing. EDWARDS SYSTEMS TECHNOLOGY Page 2 of 6 Literature Sheet #85001 -0573 Issue 3 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Installation three -pulse temporal pattern. Units may be configured for use with coded systems by cutting a jumper on the circuit board. This Genesis horns and strobes mount to any standard one -gang results in a steady output that can be turned on and off (coded) as surface or flush electrical box. Matching optional trim plates are the system applies and removes power to the signal circuit. A used to cover oversized openings and can accommodate one- Genesis Signal Master is required when horn - strobe models are gang, two -gang, four -inch square, or octagonal boxes, and configured for coded systems. Non - temporal, horn -only models European 100 mm square. sound a steady tone. All Genesis signals come pre -as- Genesis strobes and horn - strobes are shipped from the factory sembled with captive mounting screws ready for use as UL 1971 compliant signals for public mode d I for easy installation. Two tabs at the operation. These signals maybe configured for temporal flash by S i x l top of the signal unlock the cover to cutting a jumper on the circuit board. This battery- saving feature is . - 1 ,., -- - --:,,' reveal the mounting hardware. The r intended for rivatemodesi nalin onl Y• P 9 9 '` , E shallow depth of Genesis devices leaves ample room behind the signal Genesis strobes and horn - strobes maybe set for 15, 30, 75, or 110 I P - for extra wiring. Once installed with the candela output. The output setting is changed by simply opening —` cover in place, no mounting screws the device and sliding the switch to the desired setting. The device .. are visible. does not have to be removed to change the output setting. The 4<.: q j setting remains visible through a small window on the side of the device after the cover is closed. Genesis Horn /Strobe Field Configuration with optional Horns and horn - strobes are factory set for high dB output. trim plate Temporal horn and horn - strobe Low dB output may be selected by cutting a jumper on the circuit models are factory set to sound in a board. This reduces the output by about 5 dB. Wiring Field wiring terminals accommodate #18 to #12 AWG (0.75 mm to 2.5 mm wiring. Horns, strobes, and combination horn - strobes • are interconnected with a single pair of wires as shown below. 0 • v To n d dev ice Polanty shown in P or li __ 1:11 device N� O Note: Strobes must have continuous voltage. EDWARDS SYSTEMS TECHNOLOGY Issue 3 Literature Sheet #85001 -0573 Page 3 of 6 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. • Specifications Housing Red or white textured UV stabilized, color impregnated engineered plastic. Exceeds 94V -0 UL flammability rating. Lens Optical grade polycarbonate (clear) Mounting Flush mount: 2 inch (64 mm) deep one -gang box (indoor wall mount only) Surface mount: EST model 27193 surface mount box, wiremold box, or equivalent surface -mount box With optional trim plate: One -gang, two -gang, four -inch square, octagonal, or European single -gang box Wire connections Screw terminals: single input for both horn and strobe. #18 to #12 AWG (0.75 mm to 2.5 mm wire size Operating environment Indoor only: 32 -120 °F (0 -49 °C) ambient temperature. 93% relative humidity Agency UL 1971, UL 1638, UL 464, ULC S525, ULC S526, CSFM, CE, FCC, (MEA, FM pending). listings /approvals (All models comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule.) Dimensions (HxWxD) Signal: 4 -1/2" x 2 -3/4" x 13/16" (113 mm x 68 mm x 21 mm) Trimplate: 5" (127 mm); Height - 5 -7/8" (149 mm); Depth -'/2" (13 mm) G1 -HD series temporal -tone horns: non - coded, filtered 16 -33 Vdc or unfiltered 16 -33 Vdc FWR (or coded when horn set to steady tone) Operating voltage G1 -HDVM series temporal -tone horn- strobes: non - coded, filtered 16 -33 Vdc or unfiltered 16 -33 Vdc FWR (or coded (audible NAC only) when used with optional G1M Genesis Signal Master) G1 -VM series strobes: non - coded, filtered 16 - 33 Vdc or unfiltered 16 -33 Vdc FWR G1 -P series steady -tone horns: coded or non - coded, filtered 20 -31 Vdc or unfiltered 20 -27 Vfwr Strobe output rating UL 1971, UL 1638, ULC S526: selectable 15 cd, 30 cd, 75 cd, or 110 cd output G1 -VM strobes and G1 -HDVM series temporal -tone horn - strobes: one flash per second synchronized with Strobe flash rate optional G1M Genesis Signal Master indefinitely within 10 milliseconds (or self- synchronized within 200 milliseconds over thirty minutes on a common circuit without G1M Genesis Signal Master) Temporal setting (private mode only): synchronized to temporal output of horns on same circuit Compatible synchronization G1M, G1M -RM, SIGA -CC1S, SIGA -MCC1S modules* G1 -HD temporal -tone horns and G1 -HDVM series temporal -tone horn - strobes: temporal rate synchronized Horn pulse rate with optional G1M Genesis Signal Master indefinitely within 10 milliseconds (or self- synchronized within 200 milliseconds over thirty minutes on a common circuit without G1M Genesis Signal Master) G1 -P steady -tone horns: continuous, steady tone only Temporal audible pattern 1 /2 sec ON, 1 /2 sec OFF, 1 /2 sec ON, 1 /2 sec OFF, Y sec ON, 11/2 sec OFF, then repeat cycle " Not compatible with G 1 -P Series horns. dBA output Average Sound Output (d BA) Temporal Horns, Horn - strobes (G1 -HD, G1 -HDVM series) - High dB Setting (High dB setting, anechoic, 24V, measured at 10ft) UL464 Average Peak °O •� 70 m n b a 20 10 0 10 SO a SO '0 Temporal Steady Temporal /Steady Temporal /Steady 16 Vdc 81.4 85.5 91.4 94.2 s \ s 24 Vdc 84.4 88.6 94.5 97.6 l 33 Vdc 86.3 90.4 96.9 99.5 60. Temporal Horns, Horn - strobes (G1 -HD, G1 -HDVM series) - Low dB Setting \ / 2 UL464 Average Peak \ b• Temporal Steady Temporal /Steady Temporal /Steady : i --- - - - -' o• 16 Vdc 76.0 80.1 86.3 89.2 24 Vdc 79.4 83.5 89.8 92.5 33 Vdc 82.1 86.5 92.5 95.3 Light output - (effective cd) Steady Tone Horns (G1 -P series) Percent of UL rating versus angle UL464 Average Peak n o b "LL". ° 120 so . r j . 110 103 03 16 Vdc 77 90 91 �' 24 Vdc 77 90 91 33 Vdc 77 -2s t �is• 90 91 i \ Notes � / 60. dB 1. All values shown are A measured atl0feet(3.01m). 2. UL464 values measured in reverberation room. .sN ...... /.s• 3. Average and Peak values are measured in anechoic chamber. • . i3. . - 5. P EDWARDS SYSTEMS TECHNOLOGY Page 4 of 6 Literature Sheet #85001 -0573 Issue 3 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Current Draw Strobes, Horn - Strobes Horns Multi -cd Wall Strobes (G1-VM) Wall Temporal Horns (G1 -HD) UL Nameplate Rating (UL1971, Effective May 2004) UL Nameplate Rating (UL464 Effective May 2004) 15 cd 30 cd 75 cd 110 cd High dB Low dB RMS RMS RMS RMS RMS RMS 16 Vdc 103 141 255 311 16 Vdc 26 19 16 Vfwr 125 179 346 392 24 Vdc 36 27 33 Vdc 41 33 Typical Current (Measured by EST) 16 Vfwr 51 37 15_cd 30 cd 75cd 110 cd pq Vfwr 69 52 RMS Mean RMS Mean RMS Mean • RMS Mean 16 Vdc 85 79 127 124 245 243 285 283 33 Vfwr 76 70 20 Vdc 71 66 98 96 188 186 240 238 Typical Current (Measured by EST) 24 Vdc 59 55 82 80 152 150 191 190 High dB Low dB 33 Vdc 46 44 64 63 112 111 137 136 RMS Mean RMS Mean 16 Vfwr 119 64 169 97 332 203 376 240 16 Vdc 22 17 17 14 20 Vfwr 103 51 143 76 253 150 331 198 20 Vdc 24 19 19 16 24 Vfwr 94 44 129 65 218 121 262 152 24 Vdc 27 21 22 18 33 Vfwr 87 37 112 52 179 89 205 106 33 Vdc 32 25 26 22 16 Vfwr 34 15 30 14 Multi -cd Wall Temporal Horn - strobes (G1 -HDVM) — High dB Setting 20 Vfwr 40 19 34 16 UL Nameplate Rating (UL1971, Effective May 2004) 24 Vfwr 45 21 38 18 15 cd 30 cd 75 cd 110 cd 33 Vfwr 52 24 47 22 RMS RMS RMS RMS 16 Vdc 129 167 281 337 Wall Horns (G1 -P) 16 Vfwr 176 230 397 443 UL Nameplate Rating Measured by EST Typical Current (Measured by EST) RMS Mean RMS Mean • 15 cd 30 cd 75 cd 110 cd 16 Vdc 9 7 24 Vdc 10 10 RMS Mean RMS Mean RMS Mean RMS Mean 24 Vdc 11 9 24 Vdc 11 11 16 Vdc 102 89 135 129 246 242 309 305 33 Vdc 13 11 31 Vdc 12 12 20 Vdc 88 77 109 104 193 190 248 243 16 Vfwr 9 5 20 Vfwr 9 8 24 Vdc 81 71 94 90 161 158 203 200 24 Vfwr 10 7 24 Vfwr 10 9 33 Vdc 74 64 72 74 124 121 154 151 33 V}wr 11 9 16 Vfwr 144 77 182 106 352 212 393 249 20 Vfwr 141 68 162 87 274 158 362 210 NotesandComments 24 Vfwr 136 65 152 76 235 133 282 165 1. Current values are showninmA. 33 Vfwr 125 54 144 65 201 101 232 123 2. UL Nameplate Rating can varyfrom Typical Current due to measure- mentmethods and instruments used. Multi-cd Wall Temporal Horn- strobes (G1- HDVM► —Low dB Setting 3. EST recommends using the Typical Current forsystem design including NAC and Power Supply loading and voltage drop calculations. UL Nameplate Rating (UL1971, Effective May 2004) 4. Use the Vdc RMS current ratings for filtered power supply and battery 15 cd 30 cd 75 cd 110 cd AH calculations. Use the Vfwr RMS current ratings for unfiltered power RMS RMS RMS RMS supply calculations. 16 Vdc 122 160 274 330 5. Fuses, circuit breakers and otherovercurrentprotectiondevicesare 16 Vfwr 162 216 383 429 typically rated for current in RMS values. Most of these devices operate based upon the heating affect of the current flowing through the device. Typical Current (Measured by EST) The RMS current (not the mean current) determines the heating affect and therefore, the trip and hold threshold for those devices. 15 cd 30 cd 75 cd 110 cd 6. Our industry has used 'mean' currents over the years. However, UL will RMS Mean RMS Mean RMS Mean RMS Mean direct the industry to use the2004RMSvaluesinthe future. 16 Vdc 96 84 130 124 243 240 302 297 20 Vdc 79 70 104 99 189 186 241 237 24 Vdc 68 61 88 84 156 154 197 193 33 Vdc 56 52 71 68 118 116 146 143 16 Vfwr 128 69 180 104 344 204 389 244 20 Vfwr 118 60 157 84 266 156 343 200 24 Vfwr 113 54 144 74 230 128 279 161 • 33 Vfwr 112 48 137 64 197 99 226 117 EDWARDS SYSTEMS TECHNOLOGY Issue 3 Literature Sheet #85001 -0573 Page 5 of 6 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. • • • . Ordering Information Catalog Number • Ship Wt. Description •p . White Finish Red Finish lbs (kg) - G1 -HDVM G1R -HDVM Genesis Horn - Strobe (selectable 15, 30, 75, or 110 cd output, selectable high /low dB output) G1 -VM G1R -VM Genesis Strobe (selectable 15, 30, 75, or 110 cd output) G1 -HD G1R -HD Genesis Temporal Horn (selectable high /low dB output) • G1 -P G1R -P Genesis Steady Horn (not compatible with Genesis Signal Master) 0.25 G1F -HDVM G1RF -HDVM Genesis Horn - Strobe (selectable 15, 30, 75, or 110 cd output, selectable high/low dB output) (0.11) - with "FIRE" marking G1F -VM G1RF -VM Genesis Strobe (selectable 15, 30, 75, or 110 cd output) - with "FIRE" marking G1F -HD G1RF -HD Genesis Temporal Horn (selectable high /low dB output) -with "FIRE" marking G1F -P _ G1RF -P Genesis Steady Horn with "FIRE" marking (not compatible with Genesis Signal Master) Mounting Accessories .. G1T G1RT Genesis Trim Plate (for two -gang or 4" square boxes) 0.15 (0.7) - G1T -FIRE G1RT -FIRE Genesis Trim Plate (for two -gang or 4" square boxes) with "FIRE" markings 0.15 (0.7) , 27193 -16 27193 -11 One -gang surface mount box 1 (0.4) Synchronization Modules G1M Genesis Signal Master- Snap -on Mount 0.2 (0.1) G1M -RM Genesis Signal Master - Remote Mount (1 -gang) SIGA -CC1S Intelligent Synchronization Output Module (2 -gang) 0.5 (0.23) SIGA -MCC1S Intelligent Synchronization Output Module (Plug -in UIO) • 0.18 (0.08) Genesis Horn - Strobes may . 't: '•` f3 - be ordered in red or t }ai'.`i " 'I° white, with or without E� n 'FIRE' marking. FIRE FEE , • / ,, WARNING: These devices will not operate without electrical power. As fires frequently cause power interruptions, we suggest you discuss further safeguards with your local fire protection specialist. These visible signal appliances' flash intensity may not be adequate to alert or awaken occupants in the protected area. Research indicates that the intensity of strobe needed to awaken 90% of sleeping persons is approximately 100 cd. EST recommends that strobes in sleeping rooms be 110 cd minimum. Genesis and FullLight Strobe Technology, are trademarks of Edwards Systems Technology, Inc. . EDWARDS SYSTEMS TECHNOLOGY ' ' • It is our intention to keep the product information current and accurate. We can not cover specific applications or anticipate all requirements: ' All specifications are subject to change without notice. For more information or questions relative to this Specification Sheet, contact EST. ® 2005 EST , - Printed in U.S.A. (origin) . Page 8 of 6 Literature Sheet #85001 -0573 Issue.3 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. A product of EST Marketing, Bradenton, FL