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Specifications eupco-/-06 a-5 • City of Tigard, Oregon e 13125 SW Hall Blvd. • Tigard, OR 97223 .44-'1:"'": , ' , May 21, 2007 > , q RE: HILLTOP ,r,,.s , "..„ t :II ° .AaRD ` Permit Number BLIP 2007 -00251 Construction Type: IB .' , ..:,`"4' '0 `,: -, Tenant Name: Health Net Occupancy Type: B Address: 13221 SW 68 Pkwy Occupant Load: 4 Area 1716 Sq. Ft. Stories: 4 The plan review was performed under the State of Oregon Structural Specialty Code (OSSC), 2007 edition; the Oregon Fire Code (OFC), 2007 edition and NFPA 72 Alarm Code. The submitted plans are approved subject to the following. Visual Devices (Section 1109.14 OSSC) 1 Visual signal appliances shall be provided in the building in each area 2. Visual alarms shall be located not less than 80 inches and not more than 96 inches above the floor level. When a low ceiling exists, the visual alarm shall be mounted at least 6 inches below the ceiling. Approved Plans: 1 set of approved plans, bearing the City of Tigard approval stamp, shall be maintained on the jobsite. The plans shall be available to the Building Division inspectors throughout all phases of construction. 106.4.2 OSSC . Premises Identification: Approved numbers or addresses shall be provided for all new buildings in such a position as to be plainly visible and legible from the street or road fronting the property. When submitting revised drawings or additional information, please attach a copy of the enclosed City of Tigard, Letter of Transmittal. The letter of transmittal assists the City of Tigard in tracking and processing the documents. Respectfully, '---fW _I Dan Nelson, Senior Plans Examiner Phone: 503.639.4171 o Fax: 503.684.7297 o www.tigard - or.gov o TTY Relay: 503.684.2772 4. Fire Alarm Submittal RECEIVED MqY _ 3 2007 CITdO T � e CARD DI viaiiiN HealthNet of Oregon 13221 SW 68 Parkway Tigard, Oregon 97223 Prepared By: Pet/ Svaem4 Integration Corporation 7324 SW Durham Road Portland, Oregon 97224 info @psintegrated.com (503) 641 -2222 (503) 641 -1464 Fax 5/2/2007 TM EDWARDS SYSTEMS TECHNOLOGY POWER SUPPLIES \ _ _ . Compatibility -) QuickStart FireShield EST2 EST3 LSS4 IRC -3 /FCC i i lit � � }II'i, III ��if� 11 ,��li►� ii, Remote Booster Power Supplies ' ?l ii iiiil )lill;Ili(li►lll�' l l Models: BPS6A and BPS1 OA Features I i , • Extends power availableto Notification Appliance Circuits (NACs). • • Provides strobe synchronization. • Use as auxiliary Power Supply. CO • Extensive UL Listings (Listed accessory under the following i' standards) (l Standard CCN Description UL864 UOXX Fire Alarm Systems UL636 ANET, UEHX7 Holdup Alarm Units and Systems UL609 AOTX, AOTX7 Local Burglar Alarm Units and Systems supervise four Class B or two Class A NAC circuits and monitor two UL294 ALVY, UEHX7 Access Control Systems controlling inputsfrom external sources. UL365 APAW, APAW7 Police Station Connected Burglar Simple switch selection provides a wide variety of operational Alarm Units and Systems configurations. Each remote booster power supply is supplied ULC -5527 UOXXC Control Units, Fire Alarm (Canada) with its own enclosure providing ample space for additional ULC AOTX7 Local Burglar Alarm Units and Systems (Canada) interface modules and battery compartment. - ULC - S304 AMCX7 Central and Monitoring Station The Remote Booster Power Supply is available in either a 6.5 or Burglar Alarm Units (Canada) 10 amp version @ 24 Vdc. C22.2 No. 205 Signaling Equipment (Canada) UL1076 APOU, APOU7 Proprietary Burglar Alarm System • Units Application UL1610 AMCX Central Station Alarm Unit • Available in 10 amp and 6.5 amp versions. The Remote Booster Power Supply provides additional power for s four independent 3 amp NACs audible and visual devices helping remove system capacity or site • Include —eacd Includes four independent n ent auxiliary outputs. NAC application constraints. The booster may also be used to power auxiliary, access control and security devices, in addition to fire • Configurable signal rates. devices. • Field selectable input -to- output correlation. Fault conditions detected by the BPS will open the main panel's • Two inputs allow activation by Signature Series modules or NAC. This initiates a trouble condition and eliminates the need to existing NACs. wire a separate trouble contact backto the control panel. During alarm condition, detected faults are overridden and the main • NACs configure for either four Class B or two Class A circuits. panel's default configuration is continuous 24 Vdc on all NACs • 110 Vac and 230 Vac versions typically used to drive visual devices. On board trouble contact is • On -board status LEDs for easy recognition of wiring faults. supplied for applications requiring trouble contact monitoring. • Supports up to 24 Amp hour batteries for fire and security The booster power supply provides the capability to maximize applications, up to 65 Amp hour for access control applications. available power by being able to supply power for multiple services including Access Control, Security and Fire. For security applications, space is provided to mount a tamper switch in the cabinet. When used for Fire Alarm notification with Genesis Description Notification appliances, the booster provides the abilityto syn- The Remote Booster Power Supply is a self- contained 24 Vdc chronize strobes as well as horn signals. The booster flexibility power supply designed to augment fire alarm audible and visual allows synchronization with upstream devices, or, the booster may power requirements as well as provide power for auxiliary, access be used to synchronize downstream devices, as well as other control and security applications. The booster contains all of the boosters and their connected devices. Up to 10 boosters deep necessary circuits to monitor and charge batteries, control and may be configured while maintaining strobe synchronization. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: BRADENTON, FL 888378-2329; FAX866- 503 -3996 • CANADA SALES: OWEN SOUND, ON 519-376-2430; FAX 519-376-7258 INTERNATIONAL SALES: 905. 270- 1711; FAX 905- 270-9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S MANUFACTURING: PITTSFIELD & NEWPORT. ME Issue 1 Literature Sheet *86005-0125 Page 1 of 4 Not to be used for Installation purposes. For the most current literature and updates visit www.est.net. e. BPS notification appliance circuits easily configure for either of and, one for ac power. The trouble contact has a sixteen second two signaling rates: 3 -3 -3 temporal or continuous. California rate delay when an ac power failure or brownout condition is detected. is also available on certain models. This makes the BPS ideal for This reduces the reporting of troubles during short duration ac applications requiring signaling rates not available from the main brownouts. panel. It also allows independent setup of a notification appliance NAC configuration options include: ac power fail delay (16 circuit without interfering with the main panel and its initiating seconds or 6 hours); sensing inputto NAC output correlations; circuits. and, auxiliary outputs. All NACs are configurable as auxiliary In addition to the generated signal rates, the BPS can also be outputs. Auxiliary outputs can be always on, or off after 30 configured to follow the signal rate of the main panel's notification seconds without ac power. As auxiliary output, the booster may appliance circuit. This allows seamless expansion of existing NACs. power access control and security devices. Should an overcurrent The BPS LED indicators: for each occur, the booster automatically opens the circuit. The booster T BPS includes seven on-board cators: one e resident NAC; includes battery supervision; ndcators: nefor ach automatically restores the circuit when the overcurrent is removed. Jumpers configure the BPS for Class A or Class B wiring. Engineering Specification Supply where needed EST BPS series Booster Power Supplies as NACs to follow the main panel's NAC or activate from intelligent an extension of Notification Appliance Circuits. The extension shall Signature Series modules. The booster NACs must be configurable be in the form of a stand alone booster power supply. The supply to operate independently at any one of the following rates: must incorporate its own standby batteries. Batteries must be sized continuous, California Rate, or 3 -3 -3 temporal. Fault conditions on for <24 >, <60> hours of standbyfollowed by <5 >, <30> the booster shall not impede alarm activation of host NAC circuits. minutes of alarm. It must be possible to support up to 24 Amp hour batteries. The booster must be able to provide concurrent power for Notification devices, Security devices, Access Control equipment The booster supply must incorporate four independent supervised and Auxiliary devices such as door holders. The BPS must provide Notification Appliance Circuits. It shall be possible to configure the the abilityto synchronize Genesis series strobes and horns. Installation and Mounting Power - limited wiring area u f D,5 0 0 O �+ Top View o • o D2 -01 • D3 ► — ■- • [ ■ ■ ate— D4 --folk) _ • ■ Front View •g — 3] • Route AC supply ' . _ I� o through these • knockouts only D1 • D6 (Nonpower - limited n' gaffe whin non and supervised) Battery g ( power - All knockouts a limited and supervised) for 3/4 in conduit (1.9 cm) Battery Battery . - Notes 1. Maintain 1/4 -inch (6 mm) spacing between power - limited and D7 D2 D3 D4 D5 D6 nonpower - limited wiring or use type FPL, FPLR, or FPLP cable per NEC. 17.0 in 3.5 in 13.0 in 6.5 in 3.375 in 12.0 in [2] Power - limited and supervised when not configured as (43.2 cm) (8.9 cm) (33.0 cm) (16.5 cm) (8.6 cm) (30.4 cm) auxiliary power. Non - supervised when configured as auxiliary power. [3] Source must be power - limited. Source determines supervision. 4. When using larger batteries, make sure to position the battery terminals towards the door. EDWARDS SYSTEMS TECHNOLOGY Page 2 of 4 Literature Sheet 485005 -0125 Issue 1 Not to be used for Installation purposes. For the most current literature end updates visit www.est.net. • • • Typical Wiring Single booster anywhere on a notification appliance circuit Existing NAC end -of -line resistors are not required to be installed at the booster's terminals. This allows multiple NAC Circuit To next signaling boosters to be driven from a single NAC circuit without the NAC Circuit device, booster, or EOL resistor need for special configurations. u) u) > NAC output #1 CD CD Fire Alarm m y > NAC output #2 Control Panel N > NAC output #3 3 S > NAC output #4 -a v F c Booster Power Multiple boosters cascaded from a Supply single notification appliance circuit To next signaling NAC Omit v ` ' >device, booster, or EOL resistor Multiple CC1(S) modules using the > NAC output #1 BPS's sense insuts > NAC output #2 Fire Alarm > NAC output #3 Control Panel c NAC output #4 TB I Notification appliance circuit (NAC) Booster Power NAC1/ +I ] UL listed Supply AUX1 - (rAl 13113 I EOL 15 KO II � To next signaling NAC2/ + ICJ] V >EOLesisstoorrter, or AUX2 - FA Notification appliance circuit (NAC) m > NAC output #1 NAC3/ + Ire] UL listed > NAC output #2 Q 1 Q 1 g > NAC output #3 AUX3 - IFA EOL 15 Kfl NAC output #4 NAC4/ +F ] 2 AUX4 - [r,,] Booster Power 200 mA AUX [ I Supply To next signaling Continuous F pm - FAI I , >device, booster, or IN I] + V EOL resistor - m > NAC output #1 Sense 1 COM F I —EOL 47 K I > NAC output #2 OUT I�., 7� > NAC output #3 IN I I > NAC output #4 Sense 2 COM I'J i —EOL 47 K • Booster Power OUT ICAO Supply NO t % + + Trouble COM I'i] J 10I 17 7 Mi NC III 10s 109 TB?, CC1(S) module 1 CC1(S) module 6 765 ° 4 3 21 6765 0 4321 - - + - + Security and access -4 [31 BPS TB. 24V 12V NAC1/ +IC�A Security Security EOL AUX1 - [��1= �� 24DC12 1111 device - device — monitoring NAC2/ +(6.4 device AUX2 - F1,1 NAC3/ +[aJ] AUX3 -t'J NAC4/ +Irv] AUX4 -El Control panel BPS [1] Card reader Card reader Card reader controller controller + - troller + - + - '+ - I- III i- To next device or end [1] Disable the BPS's ground fault jumper (JP3) EDWARDS SYSTEMS TECHNOLOGY Issue 1 Literature Sheet #85005 -0125 Page 3 of 4 • Not to be used for Installation purposes. For the most current literature and updates visit www.est.net. Specifications • Model 6.5 amp Booster 10 amp Booster AC Line Voltage 120VAC or 220- 240VAC 50 /60Hz 120VAC or 220- 240VAC 50 /60Hz 250 watts 375 watts Notification Appliance Circuit Ratings 3.0A max. per circuit @ 24Vdc nominal 3.0A max. per circuit @ 24Vdc nominal 6.5A max total all NACs 10A max total all NACs Trouble Relay 2 Amps @ 30Vdc Auxiliary Outputs Four configurable outputs replace NACs 1, 2, 3 or 4. as auxiliary outputs and 200 mA dedicated auxiliary. (See note 2.) Input Current (from an existing NAC) 3mA @ 12Vdc, 6mA @ 24Vdc Booster Internal Supervisory Current 70mA Signature Mounting Space Accomodates three two -gang modules. Maximum Battery Size 10 Amp Hours (2 of 12V10A) in cabinet up to 24 Amp hours with external battery cabinet for fire and security applications; up to 65 Amp hours for access control applications in external battery box. Terminal Wire Gauge 18 -12 AWG Relative Humidity 0 to 93% non condensing @ 32 °C Temperature Rating 32° to 120 °F (0° to 49 °C) NAC Wiring Styles Class A or Class B Output Signal Rates Continuous, California rate, 3 -3 -3 temporal, or follow installed panel's NAC. (See note 1.) Ground Fault Detection Enable or Disable via jumper Agency Listings UL, ULC, CSFM Notes 1. Model BPS *CAA provides selection for California rate, in place of temporal. 2. Maximum of 8 Amps can be used for auxiliary output. Ordering Information Catalog Number Description Shipp lb (kg) Wt. kg) BPS6A 6.5 Amp Booster Power Supply 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) BPS10A/230 10 Amp Booster Power Supply (220V) 13 ( 5.9) BPS1OCAA 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) 12V10A 10 Amp Hour Battery, two required 9.5 (4.3) 3 -TAMP Tamper switch BC -1 Battery Cabinet (up to 2 - 40 Amp Hour Batteries) 58 (26.4) BC -2 Battery Cabinet (up to 2 - 17 Amp Hour Batteries) 19 (8.6) 12V17A 18 Amp Hour Battery, two required (see note 1) 13 ( 5.9) 12V24A 24 Amp Hour Battery, two required (see note 1) 20 (9.07) 12V40A 40 Amp Hour Battery, two required (see notes 1, 2) 32 (14.5) 12V50A 50 Amp Hour Battery, two required (see notes 1, 2) 40 (18.14) 12V65A 65 Amp Hour Battery, two required (see notes 1, 2) 49 (22.2) Notes 1. Requires installation of separate battery cabinet. 2. BPS supports batteries greater than 24 Amp hours for access control applications only. 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. Qa 2004 EST Printed in USA. (origin) Page 4 of 4 Literature Sheet #85005-0125 Issue 1 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 GE EST Fire & Life Safety Security Intelligent Initiating Devices Overview Standard Features Signature Series Model SIGA -HFS and SIGA -HRS Intelligent Heat Note: Some features described here may not be supported by oil Detectors gather analog information from their fixed temperature control systems. Check your control panel's Installation and Opera - and/or rate -of -rise heat sensing elements and converts it into dig- tion Guide for details. ital signals. The detector's on -board microprocessor measures and • 70 foot (21.3 meter) spacing analyzes these signals. It compares the information to historical readings and time patterns to make an alarm decision. Digital fil- • 15° F(9° C) /min rate -of- rise /135° F(57° C) ft. and 135° F (57 ° C) ters remove signal patterns that are not typical of fires. Unwanted fixed temperature type alarms are virtually eliminated. • Intelligent detector c/w integral microprocessor The microprocessor in each detector provides four additional ben- • Non - volatile memory efits - Self- diagnostics and History Log, Automatic Device Mapping, Stand -alone Operation and Fast, Stable Communication. • Automatic device mapping • Electronic addressing • Identification of defective detectors • Twin RED /GREEN status LEDs • Standard, relay, fault isolator, and audible mounting bases • Designed and manufactured to ISO 9001 standards Intelligent Heat • Detectors • • SIGA -HFS & SIGA -HRS • ; • r r / r • • \*I9) Lre] L . Application Notes Amiable Data Sheet 85001 -0243 Issue 6 Not to be used for installation purposes. Page 1 of 6 Signature Series Overview Installation Spacing - The SIGA -HFS (fixed temperature) and the Self diagnostics and History Log Each Signature Series detec- SIGA -HRS (fixed temperature /rote -of -rise combination) intelligent heat detectors are rated for installation at up to 70 foot (21.3 meter) tor constantly runs self - checks to provide important maintenance spacing. These detectors may be installed in rooms with ambient • information. The results of the self -check are automatically updated temperatures up to 100 °F (38 °C). and permanently stored in the detector's non - volatile memory. This information is accessible for review any time at the control panel, Status LEDs - Twin LEDs are visible from any direction. A flashing PC, or by using the SIGA -PRO Signature Program /Service Tool. GREEN LED shows normal system polling from the loop controller. A In flashing RED LED means the detector is in alarm state. Both LEDs on n the unlikely event that an unwanted alarm does take place, the steady shows alarm state - stand -alone mode. Normal GREEN LED control panel's history file can be called up to help isolate the prob- activity is not distracting to building occupants, but can be quickly lem and prevent it from happening again. spotted by a maintenance technician. Automatic Device Mapping - The loop controller learns where Quality and Reliability - GE Security detectors are manufactured each device's serial number address is installed relative to other in North Americo to strict international ISO 9001 standards. All devices on the circuit. This mapping feature provides supervision electronics utilize surface mount technology (SMT) for smaller size of each device's installed location to prevent a detector from being and greater immunity to RF noise. A conformal coating is used for reinstalled (after cleaning etc.) in a different location from where it humidity and corrosion resistance. All critical contacts are gold was originally. The history log for the detector remains relevant and plated. intact regardless of its new location. The Signature Series Data Entry Program also uses the mapping feature. With interactive menus and graphic support, the wired circuits between each device can be examined. Layout or "as- built" Installation drawing information showing wire branches (T- taps), device types and their address are stored on disk for printing hard copy. This Signature Series detectors mount to North American 1 -gang boxes. takes the mystery out of the installation. The preparation of as -built 3 -1/2 inch or 4 inch octagon boxes, and to 4 inch square electrical drawings is fast and efficient. boxes 1 -1/2 inches (38 mm) deep. They mount to European BESA Stand - alone Operation - A decentralized alarm decision by the and 1-gang boxes with 60.3 mm fixing centers. detector is guaranteed. On -board intelligence permits the detector 1 0.8' (20 mm) to operate in stand -alone mode. If loop controller CPU communica- tions fail for more than four seconds, all devices on that circuit go into stand -alone mode. The circuit acts like a conventional alarm 2A' (51 mm) receiving circuit. Each detector on the circuit continues to collect and analyze information from its surroundings. Both the SIGA -HRS II 0 and SIGA -HFS detectors alarm if the ambient temperature increases 'L=I® to 135 °F (57 °C) or for the SIGA -HRS only, the temperature increases at a rate exceeding 15 °F (9 °C) /minute. If the detector is mounted 4.4' (112 mm) to a relay base, the relay operates. Similarly, if it is mounted to an audible base, the on -board horn sounds. ,, �illt �c} Fast Stable Communication - On -board intelligence means less Tamper - Resist Lever Arm , /! �.� i� information needs to be sent between the detector and the loop - Break off to disable - I % controller. Other than regular supervisory polling response, the (Located on Base) \ -� detector only needs to communicate with the control panel when it has something new to report. This provides very fast control panel —�\ response time and allows a lower baud rate (speed) to be used for communication on the circuit. The lower baud rate offers several Access Slot Me for e Tamper- Resist Mechanism advantages including: - less sensitivity to circuit wire characteristics . lala - less sensitivity to noise glitches on the cable - less emitted noise from the data wiring - twisted or shielded wiring is not required Electronic Addressing - The loop controller electronically addresses each detector, saving valuable time during system commissioning. Setting complicated switches or dials is not required. Each detector has its own unique serial number stored in its on -board memory. The loop controller identifies each device on the circuit and assigns a "soft" address to that device's serial number. If desired, detectors can be addressed using the SIGA -PRO Signature Program /Service Tool. Data Sheet 85001 -0243 Issue 6 Not to be used for installation purposes. Page 2 of 6 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. GE Security recommends that this detector be instolled according to latest recognized edition of national and local fire alarm codes. SIGA -HRS and SIGA- . HFS Rate -of -Rise/ SIGA -PHS SIGA -IPHS Test Fire SIGA -IS Ion SIGA -PS Photo Fixed Temp. ' Photo Heat 3D • Ian /Photo /Heat 40 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 suitoble optimum n- Heptane optimum very suitable very suitable optimum optimum Liquid Fire without Smoke unsuitable unsuitable optimum very suitable very suitable Typical Wiring The detector mounting bases will accept #18 AWG I0.75mm #16 (1.0mm #14 AWG (1.5mm 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 Term Description Term Description Remote LED 1 Not Used 1 Normally-Open (SIGA -LED) Normally- Normally- y pen 2 DATA IN /OUT ( +1 Common Closed Open 2 DATA IN /OUT I +1 Max. Resistance 3 Not Used 3 Common • II 0 per Wire 4 DATA IN I -I 4 DATA IN I -) _ + Must NOT Exceed lOg 4 Remote LED (-) 5 Not Used 5 Remote LED 1 +) 6 Normally - Closed 6 Not Used 6 . ¢ 7 DATA OUT ( -) 7 DATA OUT (I O • ♦ / • f7 L '' ''ir a % ' ' • �: _:_ 11 CONTACT RATING • ".4 O 1.0 Amp p 30 VDC r f ,2.. Q `,. « IQ; •. (Pilot Duty) I DATA IN ( -) ' 2 J DATA OUT ( -) DATA IN ( -) \ 4, z I //' DATA OUT ( -) DATA IN ( +) DATA OUT ( +) DATA IN ( +) DATA OUT ( +) From Signature Controller To Next Device Rom Signature Controller To Next Device or Previous Device or Previous Device Isolator Detector Base, SIGA -IB, SIGA -1B4 Audible Detector Base, SIGA -AB4G ® o o Term Description I 1 Not Used Volume setting Tone setting 6 2 DATA IN /OUT 1 +1 9. ,�;; Default = High volume Default = Temporal pattern �, 0 3 DATA IN ( -) Cut for low volume Cut for steady tone .0:--;:- :it 4 Not Used IID Cal o f {":;. " - ?:iota' ;• . 5 Not Used ,� 0.` °'„ °;�'. s 6 DATA OUT 1 -) e, 0 ` 7 Not Used lL. ° —.3— I:+ +.l To Configure output volume Ont. Gi _ �� «? .61� �� «� or tone, cut the dtauit board () z DATA IN \ / .I..I. DATA OUT (-) 111111 � as stows. 24 Vde in - 24 Vde out From power supply or + � • . + To next base or EOL relay DATA OUT ( +) Previous base ., - DATA IN ( +) To Next Device From Signature Controller From Signature controll o - Data out or Previous Device previous device + • To next Signature device Data Sheet 85001 -0243 Issue 6 Not to be used for installation purposes. Page 3 of 6 Accessories All detector mounting bases have wiring terminals that are acces- Isolator Base SIGA - IB, SIGA - 1B4 - This base includes a built -in line sible from the "room -side" after mounting the base to the electrical fault isolator for use on Class A circuits. A detector must be installed box. The bases mount to North American 1 -gang boxes and to 31/2 for it to operate. The isolator base does not support the SIGA -LED inch or 4 inch octagon boxes, 11/2 inches 138 mm) deep. They also Remote LED. mount to European BESA and 1 - gang boxes with 60.3 mm fixing The isolator operates as follows: centers. The SIGA -SB4, SIGA -RB4, and SIGA -184 mount to North American four inch square electrical boxes in addition to the above - a short on the line causes all isolators to open within 23 msec boxes. They include the SIGA -TS4 Trim Skirt which is used to cover at 10 msec intervals, beginning on one side of the Class A the "mounting ears" on the base. The SIGA -AB4G mounts to a 4" circuit nearest the loop controller, the isolators close to sqare box only provide the next isolator down the line with power - if the isolator next to the short closes, it reopens within 10 msec. • X The process repeats beginning on the other side of the loop control- •.. 4 Q .. ` ler. SIGA -AB4G SIGA -SB SIGA -IB SIGA -RB SIGA -LED Remote LED SIGA -LED - The remote LED connects to the SIGA -SB AudlbleBase Standard Base Isolator Base Relay Base Remote LEO or SIGA -SB4 Standard Base only. It features a North American size 1 - gang plastic faceplate with a white finish and red alarm LED. Standard Base SIGA - SB, SIGA - SB4 - This is the basic mounting base SIGA - TS4 Trim Skirt Supplied with 4 inch bases, it can also be for GE Security Signature Series detectors. The SIGA -LED Remote ordered separately to use with the other bases to help hide surface LED is supported by the Standard Base. imperfections not covered by the smaller bases. Relay Base SIGA - RB, SIGA - RB4 - This base includes a relay. Nor- mally open or closed operation is selected during installation. The dry contact is rated for 1 amp (pilot duty) @ 30 Vdc. The relay's Warnings & Cautions position is supervised to avoid accidentally jarring it out of position. The SIGA -RB can be operated as a control relay if programmed to This detector will not operate without electrical power. As fires fre- do so at the control panel (EST3 V. 2 only). The relay base does not quently cause power interruption, we suggest you discuss further support the SIGA -LED Remote LED. safeguards with your fire protection specialist. Audible Base SIGA - AB4G - This base is designed for use where This detector will NOT sense fires that start in areas where heat cannot localized or group alarm signaling is required. When the detector reach the detector. Heat from fires in walls, roofs, or on the opposite senses an alarm condition, the audible base emits a local alarm side of closed doors may not reach the detector to alarm it signal. The optional SIGA -CRR Polarity Reversal Relay can be used The heat sensor in this device only provides a source of informa- for sounding to other audible bases on the same 24 Vdc circuit. tion to supplement the information provided by photoelectric or Relay and Audible Bases operate as follows: ionization smoke detectors which may be located nearby. The heat at system power up or reset, the relay is de energized detector by itself does NOT provide life safety protection. Under no - - circumstances should heat detectors be relied on as the sole means - when a detector is installed in the base with the power on, the of fire protection. relay energizes for four seconds, then de- energizes - when a detector is removed from a base with the power on, the relay is de- energized Compatibility - when the detector enters the alarm state, the relay is energized. The SIGA -HFS and SIGA -HRS detectors are compatible only with GE Security's Signature Loop Controller. Data Sheet 85001 -0243 Issue 6 Not to be used for installation purposes. Page 4 of 6 • Specifications Catalog Number SIGA -HFS SIG -HRS• Heat Sensing Element Fixed Temperature Fixed & Temperature/ Rate -of -Rise Alarm Point Alarms at 135 °F (57 °C) Ambient Alarms at 135 °F (57 °C) Ambient or Temp. increase above 15 °F (9 ° C) per min. UL Listed Detector Spacing 70 feet {21.3 meters) center to center spacing Operating and Storage Environment Operating Temp: 32 °F to 100 °F (0 °C to 38 °C) Storage Temp: -4 °F to 140 °F ( -20 °C to 60 °C) Humidity: 0 to 93% RH, Non - Condensing Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Operating Current Quiescent: 4SpA @ 19 V Alarm: 45pA @ 19V Emergency Stand -alone Alarm Mode: 18mA Pulse Current: 100 pA (100 msec) Construction & Finish High Impact Engineering Polymer - White Compatible Mounting Bases SIGA -SB Standard Base, SIGA -RB Relay Bose, SIGA -IB Isolator Base, SIGA -AB4, SIGA -AB4G Audible Bases LED Operation On -board Green LED - Flashes when polled On -board Red LED - Flashes when in alarm; Both LEDs - Glow steady when in alarm (stand - alone) Compatible Remote Red LED (model SIGA -LED) Flashes when in alarm Compatibility Use With: SIGNATURE Loop Controller Address Requirements Uses one device address Agency Listings UL, ULC, MEA, CSFM Ordering Information Catalog Number Description. Ship Wt. Ibs (kg) SIGA -HFS Intelligent Fixed Temperature Heat Detector - UL/ULC Listed 0.5(0.23) SIGA -HRS Intelligent Fixed Temperature /Rate -of -Rise Heat Detector - UL/ULC Listed Accessories '.SIGA -SB Detector Mounting Base SIGA -SB4 4 -inch Detector Mounting Base c/w SIGA -TS Trim Skirt SIGA -RB Detector Mounting Base w /Relay 0.2 (.09) SIGA -RB4 4 -inch Detector Mounting Base /w Relay c/w SIGA -TS Trim Skirt SIGA -IB Detector Mounting Base w /Fault Isolator SIGA -IB4 4 -inch Detector Mounting Base w/ Fault Isolator c/w SIGA -TS Trim Skirt SIGA -LED Remote Alarm LED SIGA -AB4G Audible (Sounder) Base 0.3 (0.15) SIGA -TS4 Trim Skirt (supplied with 4 -inch bases) 0.11.04) • Data Sheet 85001 -0243 Issue 6 Not to be used for installation purposes. Page 5 of 6 jgat EDWARDS SYSTEMS TECHNOLOGY INTELLIGENTINITIATING DEVICES Compatibility 4 QS4 /QS1 EST2 EST3 IRC-3 /FCC Intelligent Photoelectric Smoke Detector Model SIGA -PS • Note: Some features described here may not be supported by all ,ate/ y control systems. Check your control panel's Installation and Operation Guide for details. Features j ■ lirtegralmicroprocessor { — (EOM `� `°° °° Nay. • Non - volatile memory M ""''able • Automatic mapping device • Electronic addressing • Environmental compensation The information stored in the detector's memory includes: • Intelligent detector - detector type, serial number, and address • Wide 0.67% to 3.77 % /ft. sensitivity range - date of manufacture, hours of operation, and last maintenance date - • Twenty pre-alarm sensitivity values, set in 5% increments' currentdetectorsensitivityandenvironmentalcompensation values • Identification of dirty or defective detectors - original detector sensitivityvalues upon manufacturing • Automatic day /night sensitivity adjustment - number of recorded alarms and troubles • Twin RED /GREEN status LEDs - time and date of last alarm' • Standard, relay, fault isolator, and audible mounting bases analog signal patterns just before the last alarm' • Designed and manufactured to ISO 9001 standards - most recent trouble code logged by the detector — 32 possible trouble codes may be used to diagnose faults. Description In the unlikely eventthat an unwanted alarm does take place,the control panel's history file can be called up to help isolate the EST's Signature Series Model SIGA -PS Intelligent Photoelectric problem and prevent it from happening again. Smoke Detector gathers analog information from its smoke sensing element and converts it into digital signals. The detector's on- Automatic Device Mapping - The loop controller learns where board microprocessor measures and analyzes these signals. it each device's serial number address is installed relative to other compares the information to historical readings and time patterns devices on the circuit. The mapping feature provides supervision to make an alarm decision. Digital filters remove signal patterns of each device's installed location to prevent a detector from that are not typical of fires. Unwanted alarms are virtually elimi- being reinstalled (after cleaning etc.) in a different location from nated. where it was originally. The history log for the detector remains The microprocessor in each detector provides four additional benefits relevant and intact regardless of its new location. - Self-diagnostics and History Log, Automatic Device Mapping, The Signature Series Data Entry Program also uses the mapping Stand -alone Operation and Fast, Stable Communication. feature. With interactive menus and graphic support, the wired Self- diagnostics and History Log Each Signature Series detector circuits between each device can be examined. Layout or "as- built" drawing information showing wire branches (T-taps), device types constantly runs self - checks to provide important maintenance information. The results of the self -check are automatically updated and their address are stored on disk for printing hard copy. This takesthe mystery out of the installation. The preparation of "as- built" and permanently stored in the detector's non - volatile memory. drawings is fast and efficient. This information is accessible for review anytime at the control panel, PC, or by using the SIGA -PRO Signature Program /Service Device mapping allows the Signature loop controller to discover: Tool. - unexpected additional device addresses - missing device addresses ' EST3 V.2 only. 'Retrievable with SIGA-PRO programming tool. • changes to the wiring in the circuit. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL941- 739 -4638; FAX 941-727-1214 • CANADA SALES: OWEN SOUND, ON 519376-2430: FAX 519-376-7258 INTERNATIONAL SALES: 905-270-1711; FAX 905-270-9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.& MANUFACTURING: PIUSFIELD & NEWPORT. ME Issue 8 Literature Sheet #85001 -0289 Page 1 of 4 Not to be used for Installation purposes. For the most current literature and updates visit www.eat.net. • Stand -alone Operation: A decentralized alarm decision by the Status LEDs: Twin LEDs are visible from any direction. A flashing detector is guaranteed. On -board intelligence permits the detector GREEN LED shows normal system polling from the loop to operate in stand -alone mode. If loop controller CPU communi- controller. A flashing RED LED means the detector is in alarm cations fail for more than four seconds, all devices on that circuit state. Both LEDs on steady shows alarm state - stand -alone mode. go into stand -alone mode. The circuitacts like a conventional alarm Normal GREEN LED activity is not distracting to building occupants, receiving circuit. Each detector on the circuit continues to collect but can be quickly spotted by a maintenance technician. and analyze information from its surroundings. The detector alarms Quality and Reliability: EST detectors are manufactured in North if the preset smoke obscuration level is reached. If the detector is America to strict international ISO 9001 standards. All electronics mounted to a relay base, the relay operates. Similarly, if it is utilize surface mounttechnology (SMT) for smaller size and greater mounted to an audible base, the on -board horn sounds. immunity to RF noise. A conformal coating is used for humidity Fast Stable Communication: On -board intelligence means Tess and corrosion resistance. All critical contacts are gold plated. information needs to be sent between the detector and the loop controller. Other than regular supervisory polling response, the detector only needs to communicate with the loop controller when Installation it has something newto report. This provides very fast response time and allows a lower baud rate (speed) to be used for Signature Series detectors mountto North American 1 -gang communication on the loop. The lower baud rate offers several boxes, 3 -1/2 inch or 4 inch octagon boxes, and to 4 inch square advantages including: electrical boxes 1 -1/2 inches (38 mm) deep. They mount to - less sensitivity to circuit wire characteristics European BESA and 1 -gang boxes with 60.3 mm fixing centers. - less sensitivity to noise glitches on the cable - less emitted noise from the data wiring 1 0.8' (20 mm) - twisted or shielded wiring is not required. Electronic Addressing: The loop controller electronically ad- 2.0' (51 mm) dresses each detector, saving valuable time during system ®lv commissioning. Setting complicated switches or dials is not v required. Each detector has its own unique serial number stored in I a.a (112 mm) its "on -board memory ". The loop controller identifies each device on the circuit and assigns a "soft" address to that device's serial �1�'w� number. If desired, detectors can be addressed using the SIGA- "� Tamper - Resist Lever Arm , 11, ,1 . PRO Signature Program/Service Tool. - Breakoff todisable - ' 1�l ° 1.110,c, • u i Environmental Compensation: Detection sensitivity is virtually (Located on Base) r J � independentof its installed environmentand its physical condition. _� Environmental compensation meansthe sensing elementadaptsto long -term changes caused by dirt, humidity, aging etc. It even com- Access slot for ' . pensatesforsmall amounts of normal ambientsmoke. Approximately Tamper-Resist Mechanism i sixtimes every hourthe detector adjusts and updatesthesensitivity A � ,; (% obscuration) baseline for its sensing element. Approximately "'� ®�% once every hourthis information iswritten to its permanentmemory. The detector's "learned" baseline is not lost, even when the detector is removed for cleaning. Signature Series environmental Testing �t Maintenance compenstion is so reliable that it meets NFPA72 field sensitivity testing requirements — without the need for external meters. Each detector automatically identifies when it is dirty or defective The detector's sensitivitysetting selected bythe installer floats up and causes a "dirty detector" message. The detector's sensitivity or down to remain constant relative to the changing baseline. This measurement can also be transmitted to the loop controller. A is called differential sensing. sensitivity report can be printed to satisfy NFPA sensitivity meas- urements which must be conducted atthe end of the first year and Sensitivity Range: The SIGA -PS Photoelectric Detector has a every two years thereafter. sensitivity range or window of 0.67% to 3.77 %. The installer selects the detector's ALARM sensitivity level from five available The user - friendly maintenance program shows the current state of settings within the range. each detector and other pertinent messages. Single detectors may be turned off temporarilyfrom the control panel. Availability of Pre - Alarm: The detector stores one of 20 pre -alarm sensitivity values maintenance features is dependent on the fire alarm system used. to alert local personnel prior to the sensor reaching a full evacuation Scheduled maintenance (Regular or Selected) for proper detector sensitivity. Sensitivity values can beset in 5% increments.' operation should be planned to meetthe requirements of the Automatic Day /Night Sensitivity Selection: Signature Series Authority Having Jurisdiction (AHJ). Refer to current NFPA 72 and detectors may be programmed for different sensitivities during day ULCCAN/ULC536standards. and night periods. This allows the detector to be more sensitive during unoccupied periods when lower ambient background conditions are expected. Compatibility Stability: The SIGA -PS detector's sensitivityremains stable in wind The SIGA -PS detectors are compatible only with EST's Signature velocities up to 5,000 ft/min (25.3 m/sec). Ambienttemperature has Loop Controller. very little affect on the detector. The detector may be installed in rooms with ambienttemperatures up to 120 °F (49 °C). 1 EST3 V.2 only. EDWARDS SYSTEMS TECHNOLOGY Page 2 of 4 Literature Sheet #85001 -0289 Issue 8 Not to be used for Installation purposes. For the most current literature and updates visit www.est.net. 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 testfires used to rate the sensitivity of smoke and heat detectors. The table indicates that no single sensing element is suited for all testfires. EST recommends that this detector be installed according to latest recognized edition of national and local fire alarm codes. Iff Type of Detector SIGA -HRS and SIGA -HFS Rate -of SIGA -PHS Photo /Heat SIGA -IPHS Test Fire SIGA -IS Ion SIGA -PS Photo - Rise /Fixed Temp. 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 unsuitable unsuitable optimum very suitable very suitable Smoke Typical Wiring The detector mounting bases accept #18 AWG (0.75mm #16 (1.0mm #14 AWG (1.5mm 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 sheetfor detailed wiring requirement specifications. Standard Detector Base, SIGA -SB, SIGA -SB4 Relay Detector Base,SIGA -RB, SIGA -RB4 Remote LED Term Desert tion Normally Normally Term Description 1 Not (SIGA - LED) Used Common Closed Open 1 Normally Open Max. Resistance 2 DATA IN /OUT ( +) 2 DATA IN /OUT ( +) • • i■ per Wire 3 Not Used 3 Common _ + Must NOT Exceed 100 4 DATA IN ( -) 4 DATA IN ( -) 4 Remote LED ( -) C 4 Not Used Cis 5 Remote LED ( +) . • /1 • r 5 Normally - Closed , \ 1,7 6 DATA OUT (-) 6 Not Used 7 DATA OUT O a . =r: � ' i _ =.� ,. OT' .� li • .� • ��T CON TACT RATING � �. \ ( � 1.0 Amp O / it 30 VDC - tQ) DATA IN ( -) `J Z / DATA OUT ( -) (Pilot Duty) DATA IN ( -) Z DATA OUT ( -) 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 -AB4G ® o o Term Description 1 Not Used Volume setting Tone setting O s ' 2 D IN/OUT (+) g 5 () Default = High volume Default = Temporal pattern D 9--a' '7 O 3 DATA IN ( - Cut for low volume Cut for steady tone c 4 Not Used ED 3 v . rt.i%:4 V 5 Not Used on e . 0 C To CanteJre output volume II 11 11 11 11 o — V — ' f — _, -, 6 DATA OUT ( -) >l 7 Not Used hI_hhI Is.l : l +I.s or tone, cut the circuit board l volume : C}� s ii s s DATA IN \ ...y..:,•.....:,....:.• I . c l ea ohm,. ( -) I = � � Z i / DATA OUT ( -) 1 24 Vde In - 111111 From power supply or ,. • E I 24 Vde out 111 DATA OUT ( +) p revious base DATA IN ( +) ' To next base or EOL relay From Signature Controller To Next Device Data In or Previous Device From Signature controller or Data out . previous device ' • To next Signature device EDWARDS SYSTEMS TECHNOLOGY Issue 8 Literature Sheet #85001 -0289 Page 3 of 4 Not to be used for Installation purposes. For the most current literature and updates visit www.est.net. • Accessories Warnings Et Cautions All detector mounting bases have wiring terminals that are This detector will not operate without electrical power. As fires accessible from the " room - side" after mounting the base to the frequently cause power interruption, we suggest you discuss further electrical box. The bases mount to North American 1 -gang boxes safeguards with yourfire protection specialist. and to 31/2 inch or 4 inch octagon boxes, l' /:inches (38 mm) deep. This detectorwill NOT sensefires that start in areas where smoke They also mount to European BESA and 1 -gang boxes with 60.3 cannot reach the detector. Smoke from fires in walls, roofs, or onthe mmfixing centers.The SIGA-SB4, SIGA-RB4, and SIGA-IB4 mount opposite side of closed doors may not reach the detector to alarm it. to North American 4 inch sq. electrical boxes in addition to the above boxes. They include the SIGA -TS4 Trim Skirt which is used to cover the "mounting ears" on the base. The SIGA -AB4G mounts to a 4° spare box only. Specifications -`+ ' Catalog Number SIGA -PS ` �'•' Sensing Element Photoelectric - Light Scattering Principle ' :, . ... t • } /�' Storage 6 Air Velocity Range: 0 to 5,000 ft/min (0 to 25.39 m /s); ar.. 7 , ' 9 Humidity: 0 to 93% RH, Non - Condensing „.- r Operating SIGA - AB4G SIGA - SB SIGA - IB SIGA - RB SIGA - LED Environment Operating Temp: 32 °F to 120 °F (0 °C to 49 °C); Audible Base Standard Bme Isolator Base Relay Base Remote LED Storage Temp: -4 °F to 140 °F (•20 °Cto 60 °C) Sensitivity Range ULI/ULC - 0.67% to 3.77% obscuration/foot Standard Base SIGA SB,SIGA SB4 - This is the basic mounting User Selected Most Sensitive: 1.0 %/ft.; More Sensitive: 2.0 %/ft.; base for EST Signature Series detectors. The SIGA - LED Remote Alarm Sensitivity Normal: 2.5 %/ft.; LED is supported by the Standard Base. Settings Less Sensitive: 3.0 %/ft.; Least Sensitive: 3.5 %/ft. Relay Base SIGA - RB, SIGA - RB4 - This base includes a relay. Pre -alarm Sensitivity 5% increments, allowing up to 20 pre -alarm settings Normally open or closed operation is selected during installation. Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) The dry contact is rated for 1 amp (pilot duty) @ 30 Vdc. The relay's Quiescent: 45pA © 19 V; Alarm: 45pA @ 19 V position is supervised to avoid accidentally jarring it out of position. Operating Current Emergency Stand - alone Alarm Mode: 16mA operated as a control relay if programmed to Pulse Current: is NA (100 msec); The SIGA -RB can be o p Y� P 9 During Communication: 9 mA max. do so at the control panel (EST3 V.2 only). The relay base does not Construction 6 Finish High Impact Engineering Polymer - White supportthe SIGA -LED Remote LED. SIGA - SB Standard Base, Compatible SIGA - RB Relay Base, SIGA - IB Isolator Base, Audible Base SIGA -AB4G -This base is designed for use where Mounting Bases y localized or group alarm signaling is required. When the detector SIGA - AB4, SIGA - AB4G Audible Bases senses an alarm condition, the audible base emits a local alarm On - board Green LED - Flashes when polled; signal. The optional SIGA -CRR Polarity Reversal Relay can be used On - board Red LED - Flashes when In alarm for sounding to other audible bases on the same 24 Vdc circuit. LED Operation Both LEDs - Glow steady when in alarm (stand - alone) 9 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 Address Requirements Uses one Device Address on, the relay energizesfor four seconds, then de-energizes Agency Listings UL, ULC, MEA, CSFM - when a detector is removed from a base with the power on, UL Listed Spacing 30 ft the relay is de- energized - when the detector entersthe alarm state,the relay is energized. Isolator Base SIGA-IB, SIGA-IB4 -This base includes a built -in line Ordering Information fault isolator for use on Class A circuits. A detector must be Catalog Ship Wt. installed for it to operate. The isolator base does not support the Number Description Ibs (kg) SIGA - LED Remote LED. Intelligent Photoelectric Detector The isolator operates as follows: SIGA - PS .5 (.23) UL/ULC Listed - a short on the line causes all isolators to open within 23 msec ccessorles - at 10 msec intervals, beginning on one side of the Class A� SIGA - SB Detector Mounting Base - Standard circuit nearest the loop controller, the isolators close to SIGA - SB4 4 - inch Detector Mounting Base provide the next isolator down the line with power c/w SIGA Trim Skirt - when the isolator nexttotheshortcloses, reopenswithin 10 msec. SIGA - RB Detector Mounting Base w/Relay SIGA - RB4 4 - inch Detector Mounting Base w/Relay, The process repeats beginning on the other side of the loop c/w SIGA Trim Skirt .2 (.09) controller. SIGA - IB Detector Mounting Base Remote LED SIGA -LED -The remote LED connects to the SIGA -SB w/Fauh Isolator or SIGA -SB4 Standard Base only. ltfeatures a North American size SIGA - IB4 4 - inch Detector Mounting Base w/ Fault Isolator, c/w SIGA - TS4 Trim Skirt 1 - gang plastic faceplate with a white finish and red alarm LED. SIGA - LED Remote Alarm LED SIGA -TS4 Trim Skirt - Supplied with 4 inch bases, it can also be SIGA - AB4G Audible (Sounder) Base .3 (0.15) - ordered separately to use with the other bases to help hide surface SIGA Trim Skirt (supplied with 4 - inch bases) .1 (.04) imperfections not covered by the smaller bases. 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. o 2004 EST Primed in U.S.A Page 4 of 4 Literature Sheet #85001 -0288 Issue e Not to be used for Installation purposes. For the most current literature and updates visit www.eat.net.. A product of EST Marketing, Sarasota, FL GE EST Fire & Life Safety Security Notification Appliances . Overview Standard Features The Genesis line of signals are among the smallest, most compact • Unique low- profile design audible - visible emergency signaling devices in the world. About the - The most compact UL-1971/ULC-S526 listed strobe available size of a deck of playing cards, these devices are designed to blend - Ultra -slim - protrudes less than one inch from the wall with any decor. - Attractive appearance Thanks to patented breakthrough technology, GE Security Genesis - No visible mounting screws strobes do not require bulky specular reflectors and lenses. Instead, • Four field - configurable options in one device an exclusive cavity design conditions light to produce a highly - Select 15, 30, 75, or 110 cd strobe output controlled distribution pattern. Significant development efforts em- - Select high (default) or low dB horn output ploying this new technology have given rise to a new benchmark in - Select temporal (default) or steady horn output strobe performance - FullLight technology. - Select public mode flash rate (default) or private mode temporal flash FullLight strobe technology produces a smooth light distribution pattern without the spikes and voids characteristic of specular • Fixed 15/75 cd model available reflectors. This ensures the entire coverage area receives consistent • Easy to install illumination from the strobe flash. As a result, Genesis strobes with - Fits standard 1 -gang electrical boxes - no trim plate needed FullLight technology go well beyond the minimum UL- required "r - Optional trim plate accommodates oversized openings pattern, significantly exceeding UL -1971 and ULC -5526 light distri- - Pre-assembled with captive hardware bution requirements. - #12 AWG terminals - ideal for long runs or existing wiring Genesis strobes and horn - strobes offer 15 to 110 candela output, • Unparalleled performance which is selectable with a conveniently - located switch on the side - Industry's most even light distribution of the device. Models are also available that offer fixed 15/75 cd - Meets tough synchronizing standards for strobes output. The candela output setting remains clearly visible even - Single microprocessor controls both horn and strobe after final installation, yet it stays locked in place to prevent unau- - Low current draw minimizes system overhead thorized tampering. - Independent horn control over a single pair of wires Genesis signals feature textured housings in architecturally neutral white - Highly regulated in rush current or traditional fire red. An ingenious iconographic symbol indicates the - Multiple frequency tone improves wall penetration purpose of the device. This universal symbol is code - compliant and is - Industry's first temporal strobe output easily recognized by all building occupants regardless of what language they speak. Models with "FIRE" markings are also available. . p ran Field Configurable �eninn p g � 1 + • :7:� � . ^�.a� pending Horns and Strobes patents pending. Genesis Series - __ J ,fit. A . . � \,,, F ' C E @ • , - Data She 85001 -0573 Issue 7 Not to be used for installation purposes. Page 1 of 6 Application The suggested sound pressure level for each signaling zone used with alert or alarm signals is at least 15 dB above the average ambient sound Genesis strobes are UL 1971 - listed for use indoors as wall- mounted level, or 5 dB above the maximum sound level having a duration of at - public -mode notification appliances for the hearing impaired. least 6O seconds, whichever is greater, measured 5 feet (1.5 m) above the Prevailing codes require strobes to be used where ambient noise floor. The average ambient sound level is, A- weighted sound pressure conditions exceed 105 dBA (87dBA in Canada), where occupants measured over a 24 -hour period. use hearing protection, and in areas of public accommodation as defined in the Americans with Disabilities Act (see application notes Doubling the distance from the signal to the ear will theoretically result - USA). in a 6 dB reduction of the received sound pressure level. The actual ef- fect depends on the acoustic properties of materials in the space. A 3 Combination horn- strobe signals must be installed in accordance dBA difference represents a barely noticeable change in volume. with guidelines established for strobe devices. Strobes Application Notes - USA Although all Genesis strobes are self- synchronizing, when installed with an optional synchronization module, strobe flashes from Audible signals in the public mode should never have a sound level devices on the same circuit synchronize to within 10 milliseconds less than 75 dBA at 10' (3 ml per NFPA 72. Signals cannot exceed of each other indefinitely. This exceeds the two-hour minimum 120 dBA per ADA and NFPA 72 at the minimum hearing distance to specified in the UL standards. Only one synchronization module is audible appliance. required per circuit. Strobe and combination horn /strobe devices should be installed The following guidelines are based on ANSI /NFPA 72 National Fire with the bottom of the device at least 80 inches (2.0 ml and no more Alarm Code (1999). When applied and installed in accordance with than 96 inches (2.4 ml above the finished floor. Horns should be that code, GE Security strobes meet or exceed the illumination pro installed with their tops not less than 6 inches (152 mm) below the duced by the ADA specified 75 candela (cd) strobe at 50 feet.* ceiling and not less than 90 inches (2.3 ml above the finished floor. Strobes must be used to supplement audible signals wherever Non - Sleeping Rooms and Corridors: GE Security strobes rated at the average ambient sound level exceeds 105 dBA. Combination less than 110 cd per UL 1971 are intended for use in non - sleeping audible /visual signals must be installed in accordance with NFPA areas only. Install with the bottom of the device at least 80 inches guidelines established for strobes. (2.0 ml and no more than 96 inches (2.4 ml above the finished floor. No point in any space (including corridors) required to have strobes ADA requires visible signals in the following areas: should be more than 50 feet (15.2 m) from the signal (in the horizon- • rest rooms, meeting rooms, and other common use areas. tal plane). • sleeping rooms intended for use by persons with hearing impair - Non- Sleeping Rooms. Use One Wall Mounted Model: ment (in accordance with Title 1 of ADA). Up to 20' x 20' (6.1 x 6.1m) One 15 cd strobe • work areas used by a person with a hearing impairment (per Title Up to 30' x 30' (9.1 x 9.1m) One 30 cd or two 15 cd strobes 1 of ADA). Up to 40' x 40' (12.2 m x 12.2 ml One 75 cd or two 30 cd strobes • Up to 50' x 50' (15.2 x 15.2m) One 110 cd or two 75 cd strobes Application Notes - Canada . Corridors:: • .. • Wall Mounted - Model :. (Based in part on 1995 Canada National Building Code) Any Length x Max. 20' 15 cd strobes spaced at 100' (30.5 m) The fire alarm signal sound pressure level shall not exceed 110 dBA A A y Length ngth max. Strobes must be placed within in any normally occupied area. The sound pressure level from 15' (4.5m) of each end of the corridor. an audible signal in a floor area used for occupancies other than *ADA suggests using 75 cd strobes throughout an area, with spacing that never residential occupancies shall not be less than 10 dBA above ambi- exceeds 50 ft from the strobe to any point in the protected space. ent levels, and never less than 65 dBA. In sleeping rooms the sound Sleeping rooms: GE Security 110 cd strobes are intended for use in pressure level from an audible signal shall not be less than 75 dBA sleeping rooms and should be installed along with a smoke detec- when any intervening doors between the device and the sleeping tor. It must be wall mounted at least 80" (2.03 m) above floor level, room are closed. Audible signal devices shall be installed not less but no closer than 24" (610 mm) to the ceiling. The distance from than 1.8 m to the center of the device above the floor (per CAN /ULC the strobe to the pillow must not exceed 16' (4.8 m). 5524). S l e eping Rooms Use W all M ounted Mo d el: :.; : 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 For 177 cd ceiling horn - strobes, please refer to data sheet 85001 -0559. 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 Horns performances could exceed 100 dBA Genesis horn output reaches as high as 99 dB and features a unique multiple frequency tone that results in excellent wall pen Strobes shall be installed in a building so that the flash from one de etration and an unmistakable warning of danger. Horns may be vice is visible throughout the floor area or portion thereof in which configured for either coded or non - coded signal circuits. They can they are installed. For maximum safety, GE Security recommends also be set for low dB output with a jumper cut that reduces horn that strobes be installed as per the guidelines shown here under output by about 5 dB. Strobe Spacing. • Data Sheet 85001 -0573 Issue 7 Not to be used for installation purposes. Page 2 of 6 . Installation ured for use with coded systems by cutting a jumper on the circuit Genesis horns and strobes mount to any standard one gang sur- board. This results in a steady output that can be turned on and off (coded) as the system applies and removes power to the signal cir- face or flush electrical box. Matching optional trim plates ore used cuit. A Genesis Signal Master is required when horn - strobe models to cover oversized openings and can accommodate one -gang, are configured for coded systems. Non - temporal, horn -only models two -gang, four -inch square, or octagonal boxes, and European 100 sound a steady tone. mm square. Genesis strobes and horn- strobes are shipped from the fac- AIIGenesis signals come pre-assembled tory ready for use as UL 1971 compliant signals for public mode �`�'� ° • with captive mounting screws for easy in- j . �_ F sta ll at i o n. Two tabs at the top of the signal operation. These signals may be configured for temporal flash by �� ,; P cutting a jumper on the circuit board. This battery- saving feature is i :I - ^ --k 4i ti; I unlock the cover to reveal the mounting ,. _ _; - �; =- hardware. The shallow depth of Genesis intended for private mode signaling only. :RG _Y € �K ;. � �, devices leaves ample room behind the Genesis strobes and horn strobes may be set for 15, 30, 75, or 110 E E signal for extra wiring. Once installed with ca ndela output The output setting is changed by simply opening 9 9• P P 9 9 Y I PY P 9 • ' • r {, ' .: the cover in place, no mounting screws are the device and sliding the switch to the desired setting. The device i Itilli 4 \ t;, , visi does not have to be removed to change the output setting. The . setting remains visible through a small window on the side of the device after the cover is closed. Genesis Ham /strobe Field Configuration Tem oral horn and horn - strobe models Horns and horn - strobes are factory set for high dB output. with optional trim plate are factory set to sound in a three -pulse Low dB output may be selected by cutting a jumper on the circuit temporal pattern. Units may be config- board. This reduces the output by about 5 dB. W WARNING: These devices will not operate without electrical power. As fires frequently Field wiring terminals accommodate #18 to #12 AWG 10.75 mm to cause power interruptions, wesuggestyoudiscussfurthersafeguardswithyourlocal. 9 fire protection specialist. 2.5 mm wiring. Horns, strobes, and combination horn strobes are These visual signal appliances' flash intensity may not be adequate to alert or woken interconnected with a single pair of wires as shown below occupants in the protected area. Research indicates that the intensity of strobe needed to awaken 90% sleeping persons is approximately 100 cd. GE Security recommends O that strobes in sleeping rooms be 110 cd minimum. I k'. . • To next device Polarity shown in or end of line alarm condition © � © ' device O Note: Strobes must have continuous voltage. Data Sheet 85001 -0573 Issue 7 Not to be used for installation purposes. Page 3 of 6 . . Current Draw Strobes, Horn - Strobes Horns Multi -cd Wall Strobes (G1 -VM) _ Wall Temporal Horns (G1 -HD) UL 15 cd* 30 cd• 15/75 cd" 75 cd* 110 cd* UL High dB (RMS) Low d8 (RMS) Rating RMS RMS RMS RMS _ RMS Rating 16 Vdc 103 141 152 255 311 16 Vdc 26 19 16 Vfwr 125 179 224 346 392 24 Vdc 36 27 •G1 -VM multi -cd; * *G1F -V1575 fixed 15/75 cd 33 Vdc 41 33 16 Vfwr 51 37 Typical 15 cd 30 cd 15/75 75 cd 110 cd _ 24 Vfwr 69 52 Current RMS Mean RMS Mean RMS Mean RMS Mean RMS Mean 33 Vfwr 76 70 16 Vdc 85 79 127 124 150 140 245 243 285 283 20 Vdc 71 66 98 96 123 114 188 186 240 238 Typical High dB Low dB 24 Vdc 59 55 82 80 104 97 152 150 191 190 Current RMS Mean RMS Mean 33 Vdc 46 44 64 63 84 77 112 111 137 136 16 Vdc 22 17 17 14 16 Vfwr 119 64 169 97 223 126 332 203 376 240 20 Vdc 24 19 19 16 20 Vfwr 103 51 143 76 189 100 253 150 331 198 24 Vdc 27 21 22 18 24 Vfwr 94 44 129 65 169 85 218 121 262 152 33 Vdc 32 25 26 22 33 Vfwr 87 37 112 52 148 68 179 89 205 106 16 Vfwr 34 15 30 14 20 Vfwr 40 19 34 16 Wall Temporal Horn - strobes — High dB Setting 24 Vfwr 45 21 38 18 15 30 15/75 75 110 *G1 - HDVM multi - cd 33 Vfwr 52 24 47 22 UL cd" cd* cd" cd* cd• Rating * G1F HDV1575 fixed 15/75 cd RMS RMS RMS RMS RMS Wall Horns (G1 - P) 16 Vdc 129 167 172 281 337 Max. Current, 16 Vfwr 176 230 269 397 443 UL Designation Voltage Range RMS Regulated 24 Vdc 16 - 33 Vdc 13 mA Typical 15 cd 30 cd 15/75 75 cd 110 cd 24 fwr 16 - 33 Vfwr 11 mA Current RMS Mean RMS Mean RMS Mean RMS Mean RMS Mean 16 Vdc 102 89 135 129 160 152 246 242 309 305 Typical Current RMS Mean 20 Vdc 88 77 109 104 137 129 193 190 248 243 24 Vdc 10 10 24 Vdc 81 71 . 94 90 122 114 161 158 203 200 24 Vdc 11 11 - 33 Vdc 74 64 72 74 106 98 124 121 154 151 31 Vdc 12 12 16 Vfwr 144 77 182 106 247 143 352 212 393 249 20 Vfwr 9 8 20 Vfwr 141 68 162 87 220 120 274 158 362 210 24 Vfwr 10 9 - 24 Vfwr 136 65 152 76 203 106 235 133 282 4 165 Notes and Comments 33 Vfwr 125 54 144 65 196 94 201 ' 101 232 123 1. Current values are shown in mA. 2. UL Nameplate Rating con vary from Typical Current due to Wall Temporal Horn strobes — Low dB Setting measurement methods and instruments used. 15 30 15/75 75 110 3. GE Security recommends using the Typical Current for system UL cd• cd* cd" cd* cd* design including NAC and Power Supply loading and voltage Rating drop calculations. RMS RMS RMS RMS RMS 16 Vdc 122 160 146 274 330 + 4. Use the Vdc RMS current ratings for filtered power supply and G1 -HDVM multi -cd battery AH calculations. Use the Vfwr RMS current ratings for 16 Vfwr 162 216 231 383 429 * *G1F- HDV1575 fixed 15/75 cd unfiltered power supply calculations. 5. Fuses, circuit breakers and other overcurrent protection devices Typical 15 cd 30 cd 15/75 75 cd 110 cd are typically rated for current in RMS values. Most of these Current RMS Mean RMS Mean RMS Mean RMS Mean RMS Mean devices operate the d upon the RMS u g affect (n ofthe current flowing through the device. The RMS current (not the mean cur - 16 Vdc 96 84 130 124 158 149 243 . 240 302 . 297 rent) determines the heating affect and therefore, the trip and 20 Vdc 79 70 104 99 133 124 189 186 241 237 hold threshold for those devices. 24 Vdc 68 61 88 84 119 110 156 154 197 193 6. Our industry has used 'mean' currents over the years. However, 33 Vdc 56 52 71 68 100 93 118 116 146 143 UL will direct the industry to use the 2004 RMS values in the future. 16 Vfwr 128 69 180 104 241 139 344 204 389 244 20 Vfwr 118 60 157 84 213 115 266 156 343 200 24Vfwr 113 54 144 74 195 101 230 128 279 161 33 Vfwr 112 48 137 64 182 87 197 99 226 117 • • Data Sheet 85001 -0573 Issue 7 Not to be used for installation purposes. Page 4 of 6 dBA output 111( Average Sound Output (dBA) • Temporal Horns, Horn - strobes (G1 -HD, G1 -HDVM series) (High dB setting, anechoic, 24V, measured at loft) High dB UL464 Average Peak ,m„° ,m m 10 >o m m b m 10 ,o _ w A D 10 50 N >o b A ,m,w,ID g Temporal/ Temporal/ Setting Temporal Steady Steady Steady 16 Vdc 81.4 85.5 91.4 94.2 75• 75' 24 Vdc 84.4 88.6 94.5 97.6 33 Vdc 86.3 90.4 96.9 99.5 so. UL464 Average Peak .s 45' Low d8 Temporal/ Temporal / Setting Temporal Steady Steady Steady -m W. 0 . 5• 16 Vdc 76.0 80.1 86.3 89.2 24 Vdc 79.4 83.5 89.8 92.5 33Vdc 82.1 86.5 92.5 95.3 Light output - (effective cd) Percent of UL rating versus angle Steady Tone Horns (G1 -P series) UL464 Average Peak u m ,„ W „rom ®p o,00 mm, „ m mmb,m , m m. 16 Vdc 77 dBA, min 85 dBA 91 dBA 16 Vfwr 77 dBA, min 85 dBA 91 dBA Notes .75' 75 1. All values shown are dBA measured at 10 feet (3.O1m). 2. UL464 values measured in reverberation room. $ B0 3. Average and Peak values are measured in anechoic chamber. •5 .5 - 30 50 5' ,5' 0' 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: 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 10 -49 °C) ambient temperature. 93% relative humidity Agency listings/approvals UL 1971, UL 1638, UL 464, ULC S525, ULC 5526, CSFM, CE, FCC, (MEA, FM pending). (All models comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule.) Dimensions 1HxWXD) 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 - 1/2" (13 mm) G1 -HD series temporal -tone horns: non - coded, filtered 16 -33 Vdc or unfiltered 16 -33 Vdc FWR for 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 UL 1971, UL 1638, ULC S526: selectable 15 cd, 30 cd, 75 cd, or 110 cd output Strobe output rating UL 1971: 15 cd (fixed 15/75 cd models) UL 1638, ULCS526: 75 cd (fixed 15/75 cd models) G1 -VM strobes and G1 -HDVM series temporal -tone horn - strobes: one flash per second synchronized with optional G1M Strobe flash rate 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 with optional Horn pulse rate 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 k sec OFF, 1 k sec ON, 1/2 sec OFF, 1/2 sec ON, 11/2 sec OFF, then repeat cycle • Not compatible with Gl -P Series horns. Data Sheet 85001 -0573 Issue 7 Not to be used for installation purposes. Page 5 of 6 • GE Security U.S. Ordering Information T 888- 378 -2329 F 866-503-3996 Catalog Number Canada White Red • Description Ship Wt. T 519 376 2430 Finish Finish lbs (kgl F 519 376 7258 G1R- Genesis Horn - Strobe (selectable 15, 30, 75, or 110 cd output, G1-HDVM HDVM selectable high /low dB output) Asia T 852 2907 8108 G1 -VM G1R -VM Genesis Strobe (selectable 15, 30, 75, or 110 cd output) F 852 2142 5063 G1 -HD G1R -HD Genesis Temporal Horn (selectable high/low dB output) Australia G1 P G1R -P Genesis Steady Horn T 61 3 9259 4700 (not compatible with Genesis Signal Master) F 61 3 9259 4799 G1F- G1RF- Genesis Horn - Strobe (selectable 15, 30, 75, or 110 cd output, HDVM HDVM selectable high /low dB output) - with "FIRE' marking Europe Genesis Strobe (selectable 15, 30, 75, or 110 cd output) 0.25 T 32 2 725 11 20 G1F -VM G1RF -VM F 32 2 72186 13 - with "FIRE" marking 10.11) G1F -HD GSRF HD Genesis Temporal Horn (selectable high/low dB output) Latin America - with "FIRE marking T 305 593 4301 Genesis Steady Horn with "FIRE marking F 305 593 4300 G1F -P G1RF -P (not compatible with Genesis Signal Master) www.gesecurity.com G1F- G1RF- 15/75 cd temporal horn - strobe, hi /lo dB -24V HDV1575 HDV1575 - with "FIRE marking (see note 1) ® 2006 General Electric Company G1F- GlRF- All Rights Reserved V1575 V1575 15/75 cd strobe - with "FIRE" marking (see note 11 Genesis Series is a Trademark Mounting Accessories of GE Security. G1T GIRT Genesis Trim Plate (for two -gang or 4" square boxes) 0.15 (0.71 G1T -FIRE GIRT- Genesis Trim Plate (for two -gang or 4" square boxes) 0.15 (0.71 FIRE with "FIRE" markings 27193 -16 27193 -11 One -gang surface mount box 1(0.41 Synchronization Modules G1M Genesis Signal Master - Snap -on Mount 0.2 (0.11 G1M -RM Genesis Signal Master - Remote Mount (1 -gang) SIGA -CC1S Intelligent Synchronization Output Module (2 -gang) 0.5 (0.231 SIGA -MCC1S Intelligent Synchronization Output Module (Plug -in UI0) 0.18 )0.081 Note 1: These 15/75 cd models provide fixed output and are not multi - candela devices. The 15 cd out- put component complies with UL1971, while the 75 cd output component complies with UL 1638. r ' fl E FI.FiEj s;+' • Genesis Horn- Strobes may be ordered in red E E or white, with or without 'FIRE' marking. Order — matching trim plates separately. •M. i magination at work Data Sheet 85001 -0573 Issue 7 Not to be used for installation purposes. Page 6 of 6 •