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Home My WebLink About1599 MARBRISA CIR; ; FA130082; Permit1/2/25, 7:53 AM FA130082 Permit Data City of Carlsbad Fire Alarm Permit Permit No: FA130082 Status: ISSUED Applied 11/5/2013 Approved: 11/21/2013 Issued: 11/21/2013 Job Address: 1599 MARBRISA CR Permit Type: FALARM Parcel No: Lot #: 0 Reference No.: PC #: Inspector: Project Title: HILTON MARBRISA VILLA 70 PROVIDE AND INSTALL A FIRE ALARM SYSTEM FOR CARLSBAD RANCH RESORT & HOTEL VILLA 50. INCLUDE THE FOLLOWING: -AN ADDRESSABLE FIRE ALARM CONTROL PANEL -MANUAL PULL STATIONS - SMOKE DETECTORS -MONITOR MODULES -CONTROL RELAYS -STROBES -HORN/STROBES SYSTEM SHALL ALSO PERFORM THE FOLLOWING; -ELEVATOR RECALL -MONITOR DUCT DETECTORS AT HAVAC UNITS Applicant: Owner: BERG ELECTRIC 650 OPPER ST ESCONDIDO CA 760-746-1003 Fees ($) Add'I Fees ($) Total ($) Balance ($) 286 0 286 0 about:blank 1/1 Bergelectric Corp. ors & Engineers MARBISSA VILLA 70 FIRE ALARM DATA SUBMITTALS WO# 14122 9/26/13 FA130082 Berg I I ' 1u e live 11 1 i tetted lii itltt cttiti III tiltiee tilt t,e fill 'lit ipplil_ible CliflISittli •ttttttltittli ti liCe fits, II ii it FliC Ill tie if eintt:teier ititit ittilite Submittal No. 001 Grand Palisades Villa 70 TABLE OF CONTE III Pl' iii lot it hiutlditt II he e\flftS Iii 11lstIliuhflif 11,11 tlti ret CII i theses the uustueu ut culufuctir If their iii 'fliliset If tclitiect hut ole iespituihulutt a: C'p'ut'v, iih stid cu ides and stattdttrds ii It hi,it ide oI lof IV is1'uiisthtli it 'ttItIf il' Fl illS. it111551iitt It tteutIeiiee Ill these it \tlt ,iiti itt ititi tiltil ill tilts I vview. Ret e\tet1 :0 CI )\l\Ii "41) \i'i'ii( tVAI t '\ilt NI)AilttItV\i AS NUTEl) Fire Alarm System Item Description TAB # Control Panel 1 Power Booster 2 Initiating Devices 3 Indicating Devices 4 Backup Batteries 5 NAME OF SUBCONTRACTOR: Bergelectric Corporation AUTHORIZED SIGNATURE: TITLE OR POSITION: Project Manager DATE: 9/26/13 Bergelectnc Corp, & Engineers 11 1 Submittal No. 001 Grand Palisades Villa 70 TAB # I Fire Alarm System Control Panel GE EST Fire & Life Safety Security Control Panels Overview GE Security's QS1 life safety control panel brings big-system intel- ligent control to small applications. Designed for easy setup and simple installation, QuickStart lives up to its name in every respect. QS1's exclusive QuickStart auto-learn function, and the option of configuring the panel using convenient front panel programming or from a PC, makes short work of system setup. Devices come on-line in no time as well, thanks to 051's built-in barcode scanner port. A simple pass of the optional scanner is all it takes to store device in- formation in the QuickStart database. The scanner can also be used for quick and easy text entry when assembling custom messages. QS1's setup routine is deceptively simple, considering this sys- tem's robust features. Supporting up to 250 intelligent detectors and modules, OS1 takes full advantage of GE Security's exclusive Signature Series technology, which provides electronic addressing, automatic device mapping, environmental compensation, and true multisensor detection. QuickStart's innovative design makes it easy to add a dialer or extra auxiliary relays. Quick-Lok option cards snap onto QS1's easily-ac- cessible DIN mounting rails. QS1 also supports as many as eight remote annunciators and up to 30 programmable front panel switches with dual LEDs for system control and display. QS1 is as simple to operate as it is to set up. Its large 14-line backlit LCD display provides easy-to-understand details concerning up to 1,000 system events, while bright system status LEDs and large, tactile control buttons present the user with a clean, crystal clear interface. Four password levels limit control and information retrieval to authorized personnel. A priority access keyswitch gives Level 2 ac- cess without a password to management and emergency personnel. Standard Features Supports up to 250 Signature Series intelligent devices Combines the Signature intelligent releasing module with Signa- ture multisensor detectors for reliable suppression Failsafe mode ensures uncompromised reliability Class A (Style 71 or Class B (Style 41 wiring options Capacity for eight serial annunciators Four built-in system relays Optional dual line dialer supports Contact ID and 4/2 formats Three methods of programming: QuickStart "auto-learn," front panel and personal computer (PC) Supports optional barcode scanner for direct device data entry Optional bank of 30 front panel switches with dual LEDs Up to 20 adjustable pre-alarm settings for Signature smoke detectors Wallboxes available in red or gray with optional trim ring for semi-flush mounting. Large 14-line 1224 character) backlit LCD display Four password levels, plus priority access keyswitch Message routing by event type or by individual message Alarm sensitivity by time of day or manual selection 1,000 event history buffer, plus alarm history counter 6 amp Power Supply, 4.75 amps available for external use Envoy graphics compatible Compare utility identifies system changes and simplifies testing Intelligent Single Loop Life Safety Control Panel Data Sheet 85005-0113 issue 6 Not to be used for installation purposes. Page 1 of 8 Application Thanks to its flexibility and simple setup and operation, QS1 is ideal for new installations in schools, apartment buildings, hospitals, of- fice buildings, and retail facilities. The benefits brought by QS1 to retrofit applications underscores the true potential of this powerful system. As an intelligent panel, QS1 supports Signature Series devices, which can use existing wiring in most retrofit applications. This makes upgrading from a conven- tional system to analog control a simple operation with minimal disruption to normal operations at the site. Which Qutckstari Panel is right for you? QSC QS1 954 Signature Series devices supported 0 lx 250 4 x 250 Conventional class B circuits supported 3x 16 0 3 x 16 Conventional class A circuits supported 5 x 8 0 5 x 8 LCD display Ilines x characters) 4 x 20 14 x 16 14 x 16 Optional Zone Switch/LEDs on front panel 2 x 30 1x30 2x30 Option card spaces 5 or 1 5 or 12 For more information, see Data Sheet ... 85005 -0112 85005 -0113 85005 -0114 CPU / LCD Display The QS1 front panel display provides 14 lines by 16 characters of text detailing event, device, diagnostic, and programming infor- mation. Its large backlit LCD screen is easy to read and always provides at-a-glance indication of the system's state of operation. The CPU/Display Unit houses the CPU card and mounting space for one optional LED/Switch cord Dc I ci crc" Dc Si"ii' Q7l• ic' a I T Display with two alarms shown Dimensions (12 4 . ' 8 ' 1 18" (45.72 cm) 0 14¼" 136.2 cm) Mounting 2.2" (5.6 Cm) 6.9 cm) rii 2 (1.4 cm) Optional Vandal- Resistant ' Door Semi-flush mount- ing requires an (417 cm) Wall Walt optional trim ring, which adds 3/4" Semi-flush Surface to al/sides of the Mounting Mounting panel. Specifications Control Panel Standby Current: 199 mA Alarm Current 235 mA Remote annunciator Standby Current: 154 mA (Full control versions) Alarm Current 166 mA SRA Series Standby Current: 70 mA Alarm Current: 90 mA Operating Temperature: 32-120 OF 0-49 °Cl environment Humidity: 93 %RH, non-condensing Failsafe Mode If the CPU loses communication with other circuit cards, the power supply card continues to monitor the system for any alarm events. If an alarm occurs on any device or circuit during a communica- tions failure, the power supply activates all alarm outputs and instructs the dialer to transmit a default alarm message to the monitoring station. Data Sheet 85005-0113 Issue 6 Not to be used for installation purposes. Page 2 of 8 Mounting _, . Field wiring Electrical box Class A Wiring CH2 CH1 Class B Wiring P56 R5485 - R5485 + LISTED 24 voc I SUPPLY 24 VDC" 24 VDC - Class A Wiring NT.A RS485 CARD CR2— 0 CR2. 0 CHI— 0 CH2c LA LISTED 24 VDC SUPPLY 24 VDC* 0 24VDC— LA Annunciator 0 CH2(—OUT 0 CH2(o)OUT 0 CH2(—)IN 0 CH2(-c)IN _CHI(—)OUT CHt(c)OUT CHI (—)IN CH1(u)IN 24V0C OUT COMMON OUT .24"5C IN COMMON IN t?'J CR21—)OUT CR21—fiN CH2(i)IN CH1(—)OUT CH1(+)OLIT Cull—fiN CH1lnlIN c24VDC OUT ?COMMON OUT +24VDC IN COMMON IN EARTh GNO Remote Annunciators 051 supports up to eight remote annunciators, which provide mirrored or customized annunciation of front panel messages and status indicators. Two models are available: The QSA Series, and the SRA Series. QS1 Annunciator - QS1 remote annunciators connect directly to the PS6 Power Supply Card or an external 24 Vdc filtered supply. r J They are available with wallboxes for flush or surface mounting. Annuncia- tors are available with one annuncia- tor option space for a display card with 30 dedicated switches and LEDs. See the Ordering Table for more information. Class B Wiring 24vDc_RISER> PS6TBI-13 F PS6TB1_14")c wZ- Wj MEJ11ri illai'L SRA Annunciator The QuickStart SRA Remote Annunciator is a single-loop standalone unit that can be powered by the control panel or by an approved power supply. Annunciators support Class A or Class B connection to the sys- tem RS-485 data line, but do not provide ground fault isolation. The SRA annunciator includes an RJ-12 modular jack to allow sys- tem database downloads from a laptop computer. Connection requires a programming cable (model number PROGCABLE-1, ordered separately). Annun- ciators are mounted to North American 2-gang or 4-inch square electrical boxes. ;iYlI4 0 01 10 0 Dimensions Model Height Width Depth QSA-1-S 7.6 (19.46 cm) 14.25" (36.20 cm) 2.9"(7.3 cm) QSA-1-F (rough in) 6.56" (16.66 cm) 13.25" (33.66 cm) 2.1 (5.33 cm) QSA-1-F (finished) 7.8 (19.81 cm) 14.42" (36.63 cm) 1.38' (3.49 cm) Rough-in dimensions reflect the size of the cabinet where it enters the wall. Finished dimensions reflect the size of the cabinet that protrudes from the wall XGD Graphics Driver Card The XGD Graphics Driver Card is an interface device that connects a QuickStart annunciator to an Envoy Graphic Annunciator. The XGD provides the electronics required to support 24 LEDs and 12 switches on the Envoy display panel. Multiple XGD cards can be chained together in one graphic annunciator cabinet to control larger displays. The QuickStart SRA Series annunciators can support a maximum of six XGD cards. 0 CH2(—OUT 0 CH2(°)OUT 0 CR21—)IN 0 CH2(+)IN 0 CH1(—)OUT O CHI l+lOUT CHI (—)IN CH1l+IIN Øa24VDC OUT 0 COMMON OUT u24VDC IN COMMON IN EARTH GNO ------------ o CH2(—)OUT 0 CH2()OLIT CH2(—)IN CH2(u)IN 0 CHI (—)OUT OCH1(n)OUT CHI (—)IN CI'Il(*)IN 0 124VDC OUT 0 COMMON OUT i24VOC IN COMMON IN EARTH Annunciator Data Sheet 85005-0113 Issue 6 Not to be used for installation purposes. Page 3 of 8 Operation Indicators Text display and controls: Displays system messages, status information, - - - and programming menus. Arrow buttons move the display cursor. Alarm LED: Indicates a fire or life threatening emergency. Supervisory LED: Indicates an off-normal condition with the fire suppression system or related equipment. Disable/Test LED: Indicates part of the system is disabled or be- ing tested. Disabled components also signal a system trouble. Monitor LED: Indicates the operation of an ancillary system function (door closures, fan pressure switches). Trouble LED: Indicates an off-normal condition or wiring fault that compromises the integrity of the system. Ground Fault LED: Indicates a ground fault in the system wir- ing. Ground faults also signal a system trouble. CPU Fail LED: Indicates an unexpected reboot or failure with the microprocessor. CPU failures also signal a system trouble. Power LED: Indicates the panel has power. Help button: Provides additional information about the device selected on the display. Status button: Displays the Status Menu from which you can identify active or disabled points in the system. Panel Silence/Acknowledge button and LED: Acknowledges all events posted in the display queues and turns off the panel buzzer. The panel silenced LED indicates that off normal events have been acknowledged. C13) 104 n16 6kQ) Controls Reset button: Allows devices or zones in alarm or - - - trouble to restore 8 to their standby condition. The LED indicates that the panel is resetting. Alarm Silence button: Turns active notification appliances off depending on panel programming. Pressing Alarm Silence a second time turns them back on. The LED indicates that the panel is in alarm and operating with notification appliances turned off. Drill button: Activates notification appliances depending on panel programming but does not place the panel in alarm. The LED indicates that the panel is in Drill Mode. Menu button: Displays the operator menus. Delete button: Returns to the previous menu or backspaces the cursor. Enter button: Press the Enter button to accept information or continue to the next item. Numeric keypad: Numbered buttons for entering values and making menu selections. Barcode scanner jack: Input for optional barcode scanner. Priority Access keyswitch: Enables control functions reserved for access level 2 and above without requiring a password. Data Sheet 85005-0113 Issue 6 Not to be used for installation purposes. Page 4 of 8 I LEGEND I Enhanced Integrity End-of-Line LJ Horn-Strobe Resistor Genesis E!iI Programmable J Horn-Strobe I/O Module Genesis : Universal Signal Master I/O Module 2 Smoke Dual Circuit Detector Input Module 2-Wire Control Relay Smoke Detector Module 5' Smoke Detector j Signal S' with Relay Base Module 5' Smoke Detector Signal Module with Isolator Base (synchronization) Manual Riser Monitor Pull Station Module Junction Monitor Module Box More wiring suggestions can be found in the QS1 Fire Alarm Control Panel Installa- tion, Operation, and Maintenance Manual, P/N 3100184. Typical Wiring RM UM CR ----------------------------- Class j Signature Data Fire Damper i Circuit Class A Signature Data Circuit Class A Notification Appliance Circuit with Genesis Signals and Signal Master for Independent Horn and Strobe Control and Synchronization over two conductors. 2nd Floor ClassiNolifcatio 1 Appliance Circuit CCIS JO j --(J---()--q -•H-•-•-K>•--}•--•-•- cpj—_ss Critical Process ( Watertlow Monitoring Switch rp,. with Control J —jr::er Supervisory 77/7 - Switch r-~CR 77 Elevator Capture Appliance Circuit QS1 Panel Class B Signature Data Circuit RM CR Horn and Strobe Synchronization with Audible Silence Class B Notification I Pr Appliance Circuit with Genesis Signals and CCISG Signal terfor M as Independent Hom and Strobe Control and Synchronization over two conductors. Signature Filre i Circuit (I pr.) Der 2nd Floor Horn and Strobe I CCII- Control (2 pr) CCI S 2rVw Critical Process Watertlow. Monitoring !jI} - Switch - CT2 Spnrikler - Supervisory - - Switch Elevator Capt— Nobfi cation Appliance Circuit: CR Horn and Strobe Synchronization with Audible Silence QS1 Panel Data Sheet 85005-0113 Issue 6 Not to be used for installation purposes. Page of 8 Standard Components and Option Cards QS1 panels come standard with a CPU/Display Unit, an SLIC Signature Loop Controller, and a PS6 Power Supply (see ordering information for details). Available QS1 option cards provide dialing capability or extra relays for ancillary control. Quick-Lok option cards snap onto DIN mounting rails for fast, no-fuss installation. One op- tion card space is available. 00006 Cabinet with option cord and batteries im-talied. PS6 Power Supply Card Description The PS6 provides primary dc power to all the circuit cords installed in the cabinet. There are four 24 Vdc power output circuits - three for powering auxiliary applications, and one for powering four-wire smoke detectors - and a charging circuit for standby batteries. The PS6 also provides common alarm, supervisory, and trouble relays, as well as a fourth relay that is user programmable. Wiring R*d0W0N, BATT OCR N.C.CUCI AU TB2 @ 0 01 iE —' TLJL. L 1 0000e0®®®0000000ITB1 Relay 1: Form C. Contacts change position when the control panel processes an alarm signal and remain changed until all active alarm inputs restore and the control panel resets. Relay 2: Form A. Contacts change position when the panel processes o supervisory signal and remains changed until all active supervisory inputs restore. Relay 3: Form A. Contacts change position when the panel loses power or processes a trouble signal and remains changed until power returns or the trouble clears. Relay 4: Form A. Relay closes and opens according to panel programming. Smoke/Accessory Power: Jumper setting determines if the 24 Vdc is constant or renettable. Standard Component Specifications Main supply circuit Ac input: 115 or 230 Vac, 50/60 Hertz DC input: 24 Vdc batteries Charge current: 2 amps Battery charging circuit charge capacity: 40 amp hours (UL) 30 amp hours (ULC) Smoke/Accessory Voltage: 24 Vdc, regulated current: 250 mA power output circuit Wire size: 12 to 18 (0.75 to 2.5 mm') Quantity: 3 Auxiliary power output Voltage: 24 vdc full wave rectified circuits current: i.s amps each Style: Form c Common alarm relay Contact rating: 1 amp Wire size: 12 to 18 AWG (0.75 to 2.5 mm2) Trouble, Supervisory Style: Form A (N/O( and programmable contact rating: lamp relays Wire size: 12 to 18 AWG (0.75 to 2.5 mm2) Temperature: 32 - 1200 F (0-49°c) Operating environment Humidity: 93 %RH, non-condensing Current requirements Standby current: 72 mA Alarm current: 96 mA .., I-.... SLIC Signature Loop Intelligent Cc ntr uIlr Standard Component Description C Specifications The SLIC provides one Class A or Class B data TBI circuit (loop) for connecting Signature Series configuration: class B (Style 4) or class A (Style 7) detectors and modules. The SLIC also provides Signaling line Capacity: 125 Signature detectors two programmable Class A or Class B notifica- circuit 125 Signature modules tlon appliance circuits (NACs) for connecting Wire size: 18 to 12 AWG (0.75 to 2.5 mm') Circuit resistance: 65 ohms Circuit Capacitance: 0.3 pf polarized 24 Vdc notification appliances such as Configuration: class B or class A horns and strobes. QS1 supports one SLIC. - Notification Output voltage: 24 Vdc, nominal appliance Output current: 2.0 A at 24 Vdc for #1 circuits #1 and 0.8 A at 24 Vdc for #2 Wiring and #2 Wire size: 18 to 12 AWG (0.75 to 2.5 mm') Cla s5A Class OUT IN LOOP AC A- BC B- '4rl ITh4__0 End of line resistor: 10k ohms, ½ W i I® 0 0 0 0 00 011B2 TB2 NAC power Voltage: 24 Vdc, nominal input circuit Wire size: 18 to 12 AWG (0.75 to 2.5 mm') ii! Operating Temperature: 32 - 120° F 10- 49° Cl CC environment Humidity: 93 %RH, non-condensing h Signaling Line circuit current Standby current: 33 mA 0 0 0 0 00 and NACs are super- vised and power- requirements Alarm current: 57 mA (Both NAcs on) BC B- AC A- B° B Li - AC A- limited, card spaces Requires one card space. NAC 1 NAC 2 Claw A Data Sheet 85005-0113 Issue 6 Not to be used for installation purposes. Page 6 of 8 Description The DLD is a ULI/ULC listed dual line Digital Alarm Communicating Transmitter IDACTI. It provides two phone line connections for send- ing system messages to a compatible Digital Alarm Communicator Receiver. The DLD supports 4/2 and Contact ID formats. It occupies one card space on the chassis rail. ZR8 Relay Card Description The ZR8 provides eight dry-contact relays that can be independently configured as Form Aor Form B relays. It occupies one card space on the chassis rail. Wiring URE- URN- ________ 000®0000TB AA1Y r0®®®®®®ØTB' *R1- +52- *53- R4- -fi1i GIEEI I A7441 IS 7~0'zo ON Zi ftt TIP RNG TIP RNG TIP RNG TIP RNG IN OUT IN OUT LINE I LINE 2 Wiring Description The NT-A, which includes the X485/ RS-485 card and QS-232/UART port, provides one Class A serial remote an- nunciator bus for connecting remote annunciator panels. Control panels require the X485 card and QS-232 port, which also serves as a laptop or printer port. The X485 occupies one card space on the chassis rail. The OS- 232 port plugs into the panel CPU. Wiring CH2 CHI SL30 S130 1 SL20LSS SL30L LED/Switch Cards Description The SL30 and SL30-1 provide thirty circuits for zone annunciation. Each circuit comprises two LEDs and a push button switch. The SL30 push button switches are numbered from 1 t 30 and the SL30-1 push button switches are numbered from 31 to 60. The SL20L5S provides 20 cir- cuits for point annunciation and five circuits for custom control functions. The SL30L provides 30 circuits for point annunciation. SL20L5S and SL30L circuits are labeled using inserts provided with the cards. DLD Dialer Option Card Specifications Operating Temperature: 32- 120° F (0-49 NC) environment Humidity: 93% RH, non-condensing Current Standby: 13 mA Alarm: larm: 20 mA Dialing: 26 mA Phone Lines Two loop start lines on switched telephone network. Pulse or DTMF dialing. Wall Connector RJ31X/CA31A equiv. or RJ38X/CA38A equiv. Communications Contact ID (SIA DC-OS), 412 )SIA DC-02 P3). Protocol Programming Via QuickStart, Front Panel or PC. Communications Communications Canada CS-03FCC/CFR 47 Parts Compliance 15 and 68, NFPA 72, ULI 864, ULC 5527-M87 Receivers Signals can be transmitted to either or both of two receivers. Telephone #s Two 24-digit numbers per receiver. Card spaces Requires one card space. Option Card Specifications Style: Form A NO) or Form B (N/C) (jumper configurable) Output relays Contact rating: 1 amp @ 30 Vdc resistive. Wire size: 18 to 12 AWG 0.75 to 2.5 mm2) Operating Temperature: 32 - 120° F (0- 49° C) environment Humidity: 93 %RH, non-condensing Current Standby current: 11 mA requirements Alarm current: 18 ma per active relay Card spaces Requires one card space. X485 Class A RS 485 Card and QS 232 Port Option Cards Specifications Wire size 12 to 18 AWG (0.75 to 2.5 mm2) twisted pair (6 twists per foot minimum) Circuit resistance 100 Ohms Circuit capacitance 0.4 pF Operating Temperature: 32 - 120° F (0 - 49° Cl environment Humidity: 93 %RH. noncandensing Current Standby: 60 mA requirements Alarm: 60 mA Card Spaces Requires one space for the NT-A Option Cords Specifications Operating environment C) Temperature: 32 - 120° F 10 -49° Humidity: 93% RH, non-condensing Current requirements Standby: imA Alarm: 0.75 mA per active LED Data Sheet 85005-0113 issue 6 Not to be used for installation purposes. Page 7 of 8 Bergectrft Cop tactos & Engineers Submittal No. 001 Grand Palisades Villa 70 TAB #2 Fire Alarm System Power Booster GE EST Fire & LL Safety Security Power Supplies Overview The Remote Booster Power Supply is a self-contained 24 Vdc power supply designed to augment fire alarm audible and visual power requirements as well as provide power for auxiliary, access control and security applications. The booster contains all of the neces- sary circuits to monitor and charge batteries, control and supervise four Class B or two Class A NAC circuits and monitor two controlling inputs from external sources. Simple switch selection provides a wide variety of operational configurations. Each remote booster power supply is supplied with its own enclosure providing ample space for additional interface modules and battery compartment. The Remote Booster Power Supply is available in either a 6.5 or 10 amp version @ 24 Vdc. Standard Features Available in 10 amp and 6.5 amp versions. Includes four independent 3 amp NACs - each configurable as auxiliary outputs. Configurable signal rates. Field selectable input-to-output correlation. Extends power available to Notification Appliance Circuits (NACs). Provides strobe synchronization. Use as auxiliary Power Supply. Extensive UL Listings (Listed accessory under the following standards) 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 UL294 ALt/V, UEHX7 Access Control Systems UL365 APAW, APAW7 Police Station Connected Burglar Alarm Units and Systems ULC-5527 UOXXC Control Units, Fire Alarm (Canada) ULC-5303 AOTX7 Local Burglar Alarm Units and Systems (Canada) ULC-5304 AMCX7 Central and Monitoring Station Burglar Alarm Units (Canada) C22.2 No. 205 Signaling Equipment (Canada) UL1076 APOU, APOU7 Proprietary Burglar Alarm System Units UL1610 AMCX Central Station Alarm Unit Two inputs allow activation by Signature Series modules or exist- ing NACs. NACs configure for either four Class B or two Class A circuits. 110 Vac and 230 Vac versions On-board status LEDs for easy recognition of wiring faults. Supports up to 24 Amp hour batteries for fire and security ap- plications, up to 65 Amp hour for access control applications. Remote Booster Power Supplies 3PS6A, BPS1OA Data Sheet 85005-0125 Issue 1 Not to be used for installation purposes. Page 1 of 4 The Remote Booster Power Supply provides additional power for audible and visual devices helping remove system capacity or site application constraints. The booster may also be used to power auxiliary, access control and security devices, in addition to fire devices. Fault conditions detected by the BPS will open the main panel's NAC. This initiates a trouble condition and eliminates the need to wire a separate trouble contact back to the control panel. During alarm condition, detected faults are overridden and the main pan- el's default configuration is continuous 24 Vdc on all NACs typically used to drive visual devices. On board trouble contact is supplied for applications requiring trouble contact monitoring. The booster power supply provides the capability to maximize available power by being able to supply power for multiple services including Access Control, Security and Fire. For security applica- tions, space is provided to mount a tamper switch in the cabinet. When used for Fire Alarm notification with Genesis Notification ap- pliances, the booster provides the ability to synchronize strobes as well as horn signals. The booster flexibility allows synchronization with upstream devices, or, the booster may be used to synchronize downstream devices, as well as other boosters and their connected devices. Up to 10 boosters deep may be configured while maintain- ing strobe synchronization. BPS notification appliance circuits easily configure for either of two signaling rates: 3-3-3 temporal or continuous. California rate is also available on certain models. This makes the BPS ideal for applica- tions requiring signaling rates not available from the main panel. It also allows independent setup of a notification appliance circuit without interfering with the main panel and its initiating circuits. In addition to the generated signal rates, the BPS can also be configured to follow the signal rate of the main panel's notification appliance circuit. This allows seamless expansion of existing NACs. The BPS includes seven on-board LED indicators: one for each Dimensions resident NAC; one for battery supervision; one for ground fault; and, one for ac power. The trouble contact has a sixteen second delay when an ac power failure or brownout condition is detected. This reduces the reporting of troubles during short duration ac brown- outs. NAC configuration options include: ac power fail delay (16 seconds or 6 hours); sensing input to NAC output correlations; and, auxiliary outputs. All NACs are configurable as auxiliary outputs. Auxiliary outputs can be always on, or off after 30 seconds without oc power. As auxiliary output, the booster may power access control and security devices. Should an overcurrent occur, the booster auto- matically opens the circuit. The booster 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 GE Security BPS series Booster Power Sup- plies as an extension of Notification Appliance Circuits. The exten- sion shall be in the form of a stand alone booster power supply. The supply must incorporate its own standby batteries. Batteries must be sized for <24>, <60> hours of standby followed by <5>, <30> minutes of alarm. It must be possible to support up to 24 Amp hour batteries. The booster supply must incorporate four independent supervised Notification Appliance Circuits. It shall be possible to configure the NACs to follow the main panel's NAC or activate from intelligent Signature Series modules. The booster NACs must be configurable to operate independently at any one of the following rates: con- tinuous, California Rate, or 3-3-3 temporal. Fault conditions on the booster shall not impede alarm activation of host NAC circuits. The booster must be able to provide concurrent power for Notifica- tion devices, Security devices, Access Control equipment and Auxil- iary devices such as door holders. The BPS must provide the ability to synchronize Genesis series strobes and horns. Wire routing + I D5Q 001 Top Vie I w - -02-el D3 04- D4 —+0 Front View 0 l 1u Dl • o D6 J 0 cal All knockouts I for 3/4 in conduit I (1.9 cm) • Dl D2 03 04 05 06 17.0 in 3.5 in 13.0 in 6.5 in 3.375 in 12.0 in (43.2 cm) (8.9 cm) (33.0 cm) (16.5 cm) (8.6 cm) (30.4 cm) Route AC supply through these knockouts only (Nonpower-limited and supervised) Power-limited wiring area IIIrII1 I Battery wiring (nonpower- limited and supervised) Battery Battery Notes 1. Maintain 1/4-inch (6 mm) spacing between power-limited and non- power-limited wiring or use type FPL, FPLR, or FPLP cable per NEC. [2] Power-limited and supervised when not configured as auxiliary power. Non-supervised when configured as auxiliary power. [3) Source must be power- limited. Source deter- mines supervision. 4. When using larger batteries, make sure to position the battery terminals towards the doar. Data Sheet 85005-0125 Issue 1 Not to be used for installation purposes. Page 2 of 4 To next device or end [1] Disable the BPS's ground fault jumper UP31 Typical Wiring Single booster anywhere on NAC Circuit >Tonextsignaling I \ / device, booster, or a notification appliance circuit NAC Circuit -_____________ V V EOL resistor Existing NAC end-of-line resistors are not required to be Fire Alarm 0) 0) ) NAC output #1 I <° I ) NAC output #2 I installed at the boosters terminals. This allows multiple Control Panel I 1 ) NAC output #3 - I boosters to be driven from a single NAC circuit without the I I I ) NAC output #4 need for special configurations. I Multiple boosters cascaded from a single notification appliance circuit To next signaling NAC Circuit device, booster, or EOL resistor re MAC output #1 MAC output #2 Fire Alarm ) MAC output #3 Control Panel output #4 Booster Power LL Supply To next signaling device, booster, or EOL resistor NAC output #1 MAC output #2 MAC output #3 NAC output #4 I To next signaling I )device. booster, or - V EOL resistor g) ) MAC output #1 ) MAC output #2 ) MAC output #3 5• ) MAC output #4 Booster Power Supply Multiple CC1(S) modules using the BPS's sense inputs TB1 Notification appliance circuit (NAC) NAC1/ + UL listed AtJX1 EOL 15 Kc2 NAC2/ + AUX2 Notification appliance circuit C) NAC3/ + UL listed AUX3 - Fff EOL 15 KQ NAC4/ + AUX4 - 200 mAAUX Continuous IN Sense 1 COM OUT IN Sense 2 COM OUT NO Trouble COM NC CC1(S) module CC1(S) module 00 00 47 K 47 K [3] Security and access Bps 0 TB1 fNAC3/ / + - / + - + / + - 12V OL 24DC12 6 Security E device =device]== device Data Sheet 85005-0125 Issue 1 Not to be used for installation purposes. Page 3 of 4 GE Security U.S. Specifications T 888-378-2329 F 866-503-3996 Model 6.5 amp Booster 10 amp Booster Canada AC Line Voltage 120VACor 220-240VAC50/60Hz 120VACor 220-240VAC 50/60Hz I T 519 376 2430 250 watts 375 watts F 519 376 7258 Notification Appliance 3.OA max. per circuit @ 24Vdc 3.OA max. per circuit © 24Vdc Circuit Ratings nominal 6.5A max total all NACs I nominal 10A max total all NACs Asia T 852 2907 8108 Trouble Relay 2 Amps © 30Vdc F 852 2142 5063 Auxiliary Outputs Four configurable outputs replace NACs 1, 2. 3 or 4. as auxiliary outputs Australia and 200 mA dedicated auxiliary. (See note 2.) T 613 9259 4700 Input Current 3mA © 12Vdc, 6mA © 24Vdc F 513 9259 4799 (from on existing NAC) - Booster Internal 70mA Europe T 322725 1120 Supervisory Current F 32 2 72186 13 Signature Mounting Space Accomodates three two-gong modules. Maximum Battery Size 10 Amp Hours (2 of 12V10A) in cabinet up to 24 Amp hours with ex- Latin America ternal battery cabinet for fire and security applications; up to 65 Amp 1305 593 4301 F 305 593 4300 hours for access control applications in external battery box. Terminal Wire Gauge 18-12 AWG wwgesecurity.com Relative Humidity 0 to 93% non condensing @ 32°C © 2006 General Electric Company Temperature Rating 32° to 120°F (0° to 49°C) All Rights Reserved NAC Wiring Styles Class A or Class B Output Signal Rates Continuous, California rate, 3-3-3 temporal, Signature Series is a Trademark or follow installed panel's NAC. (See note 1.) of GE Security. Ground Fault Detection Enable or Disable via jumper Agency Listings UL, ULC, CSFM Notes Model BPS*CAA provides selection for California rate, in place of temporal. Maximum of 8 Amps can be used for auxiliary output. Ordering Information Catalog Description Shipping Wt Number lb (kg) BPS6A 6.5 Amp Booster Power Supply 13)59) BPS6A/230 6.5 Amp Booster Power Supply l220Vl 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) 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) 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 note1) 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 Requires installation of separate battery cabinet. BPS supports batteries greater than 24 Amp hours for access control applications only imagination at work Not to be used for Berge;ectric Corp. 1ontractoTs F Submittal No. 001 Grand Palisades Villa 70 TAB #3 Fire Alarm System Initiating Devices Life Safety & Communications Universal Input! Output Module Motherboards SiGA-UI02R, SIGA-UI06R, Overview Signature Series Universal Input-Output Module Motherboards provide mounting and wiring terminations for up to six Signature Series plug-in UIO (SIGA-"M" series) modules. UIO motherboards slide into a rigid extruded track (included) with mounting pads for convenient mounting into a variety of equipment enclosures. UIO modules plug into the board and are held securely in place with captive machine screws. All field wiring connects to terminal blocks on the motherboard, which permits rapid removal and replacement of modules for troubleshooting. The SIGA-U102R provides mounting and wiring terminations for up to two UIO modules, and the SIGA-U106R provides mounting and wiring terminations for up to six UIO modules. Both mother- boards feature a riser #1 input and a riser #2 input bus. Jumpers on riser #1 input, between modules, facilitate sharing a single riser among more than one module. This significantly reduces wiring requirements. Removing the jumpers provide separate riser inputs to each adjacent module. Riser #2 input is fixed to each module position and cannot be split. The SIGA-UI06 provides mounting and wiring terminations for up to six UIO modules. This motherboard provides two riser inputs that are common to all modules. Intelligent Input-Output Standard Features Modular flexibility Wide assortment of multi-function plug-in modules provides total flexibility. Minimum wiring requirements Integral jumpers between modules allow sharing of risers to reduce installation wiring. Easy installation #12 AWG (2.5 mm2) terminal blocks and sturdy mounting pads ensure quick installation into Edwards enclosures. Supports automatic device mapping All compatible UIO modules transmit information to the loop controller regarding their circuit locations with respect to other Signature devices on the wire loop. Supports intelligent devices On-board modules make decisions and input an alarm from initiating devices connected to them even if the loop controller's polling interrogation stops. Twisted or shielded wire not required Because all decisions are made at the on-board modules, lower communication speeds are possible. This results in substantially improved control panel response time and less sensitivity to line noise and loop wiring properties. Supports electronic addressing Programmable addresses are downloaded to compatible UIO modules from the loop controller, a PC, or the SIGA-PRO Signature Program/Service Tool. There are no switches or dials to set. Dic Page 1 of 4 DATA SHEET 85001-0365 usgd for i i, tzdlalion purpc,rres. Issue 3.1 The MFC-A cabinet is UL listed for use with UIO moth- erboards and meets requirements for spacing and clearance around the components. Mounting and Installation Mount the lJlO motherboard inside a Edwards MFC-A cabinet or other suitable electrical enclosure with screws and washers provided. Each MFC-A will hold one UI02R motherboard or one U106 or U106R motherboard complete with their full complement of modules. Plug a Signature Series UlO module into any available position on the motherboard and secure the module to the motherboard with the captive screws. Wiring connections are made to the termi- nals on the motherboard (see wiring diagram). UlO motherboard terminals are suited for #12 to #18 AWG (2.5 mm2 to 0.75 mm2) wire size. Edwards recommends that all boards and modules be installed according to latest recognized edition of national and local fire alarm codes. Testing & Maintenance The module's automatic self-diagnosis identifies when it is defec- tive and causes a trouble message. The user-friendly mainte- nance program shows the current state of each module and other pertinent messages. Single modules may be turned off (de-acti- vated) temporarily, from the control panel. Scheduled maintenance (Regular or Selected) for proper system operation should be planned to meet the requirements of the Authority Having Jurisdiction (AHJ). Refer to current NFPA 72 and ULC CAN/ULC 536 standards. uio Motherboard 6-32 / Self-tapping screws Plug-~in(UIO) Module ---- -- Li #6 Flat washers —Cabinet or electrical enclosure Captive screws Compatibility Signature Series Universal Input/Output Module Boards are com- patible only with SIGA-"M" Series I/O Modules, which require a Signature Data Controller. Warnings & Cautions Signature devices will not operate without electrical power. As fires frequently causo power interruption, we suggest you discuss further safeguards with your fire protection specialist. Page 2 of 4 DATA si-icci 85001-0365 Not t ho usod for iuotaloNoo purun000, Issue 3.1 Typical Wiring Signature Series Universal Input/Output Motherboards have terminal blocks to accept #18 AWG (0.75mm2), #16 AWG (1.0mm2), #14 AWG (1.5mm2 ), and #12 AWG (2.5mm2) wire sizes. See Signature Data Controller catalog sheets for detailed wiring requirements and specifica- tions. SIGA-U102R A Module input/Output Wiring Detain + Common input/output bus for M series modules A Jumpers connect common A inputs/outputs between Module Input/Output Wining modules AA Notes LI.\ Jumpers may be used to make the inputs/outputs between modules common. 2) Not all modules use the SIGA-ul02R terminals for the sane functions. Refer to individual SIGA-M series installation sheets for jumper settings and wiring information. Installations with multiple SIGA-1_110 motherboards or enclosures (which include other wiring) require FPL, FPLR, FPLP, or equivalent NEC-approved wire for all power limited wiring. Observe the details of supervi- sion and power limited versus non-power limited circuits. Refer to the SIGA-M series installation sheets. 4) Do not mix incompatible signals. A Maximum current is 8 Amps. 7) Refer to Signature Data Controller Installation Sheets for wiring specifications. SIGA-UIO6R Module Input/Output Wiring Refer to individual module installation sheet for wiring details -. i2 1 so. WORn Detain + T ~ 7:77 r_,~T-1777_ Syron,'. i no ure Dole TBIS I it I :, flttstBus d Common to .11 M series 000 Out modules (mono, current is 8 Amps) Jumpers connect _J_ common inputs V - outputs between modules, - Module Input/Output Wiring (maximum current isR Amps) Refer to individual module installation sheet for wiring details SIGA-U106 Module Input/Output Wiring Refer to individual module installation chant for wiring details 'ir a i UlOb I 7 TB Input/Output Bus I Data In T Common 0solf M series Signature module' I lm,,i,um r' 1. Data current 8 Amps) TBIS Common to an Circuit jf _ L T87 cuorentisoAmps) Signature Data Circuit Data Out Page 3 of 4 85001-0365 Issue 3.1 cj? A UTC Fire & Security Company Detection & alarm since 1872 U.S. 1888-378-2329 F 866-503-3996 Canada Chubb Edwards 15193762430 F 519 376 7258 Southeast Asia 1: +65 6391 9300 F : +65 6391 9306 India 1: +91 80 4344 2000 F : +91 80 4344 2050 Australia 1+61 3 9239 1200 F+61 3 9239 1299 Europe T+32272511 20 F+322721 8613 Latin America 1 305 593 4301 F 305 593 4300 utcfireandsecurity.com © 2010 UTC Fire & Security. All rights reserved. Specifications Catalog Number SIGA-UI02R SIGA-U106 Module Capacity Two Six Six Dimensions (with module installed) 5.4 inch L (across mounting feet) x 43 inch W x 3.2 inch H 9.56 inch L (across mounting feet) x 4.3 inch W x 3.2 inch H Address Requirements no address required Type Code none Compatible Modules All SIGA-Mxxx Signature Series Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Mounting (cabinets) Directly into suitable enclosures (e.g.: MFC-A) - Notes 1, 2, 3. Wiring Terminals #12 AWG (2.5mm2) to #18 AWG (0.75mm2) Storage and Operating Environment Operating Temperature: 32°F to 120°F (0°C to 49°C) Storage Temperature: -4°F to 140°F (-20°C to 60° 60°C) Operating and Storage Humidity: 0 to 93% RH Agency Listing UL, ULC, MEA, CSFM Notes: Allow a minimum clearance of one inch around all sides of the UIO motherboard. On-site drilling of mounting holes may be required. Self-tapping mounting screws are provided. Suitable cabinets: MFC-A, 2-WB, 2-WB3, 2-WB7, CAB2, 3-CAB5, 3-CAB7, 3-CAB14, 3-CAB21, 3-RCC series, RACC series. Ordering Information Catalog Description Ship Wt. - lb Number . (kg) SIGA UIO2R Universal Input-Output Module Board w/Rser Inputs 0.32 (0.15) Two Module Positions SIGA-UIO6R Universal Input-Output Module Board w/Riser Inputs 0.62 (0.28) - Six Module Positions SIGA-UlO6 Universal Input-Output Module Board 0.56 (0.25) - Six Module Positions UL listed cabinet for mounting UIO motherboards, red with MFC-A white "FIRE" 8 inch H X 14 inch W X 3.5 inch D (203 mmH 7.0 (3.1) X356 mmWX89 mm 0) Page 4 of 4 .- set 85001 -0365 N,:rl lo t°'' r° for in, .nrooeen. Issue 3.1 GE EST Fire & Life Safety Security Intelligent In put/Output Overview The SIGA-CTI. Single Input Module and SIGA-CT2/SIGA-MCT2 Dual Input Modules are intelligent analog addressable devices used to connect one or two Class B normally-open Alarm, Supervisory, or Monitor type dry contact Initiating Device Circuits (lDC). The actual function of these modules is determined by the personality code' selected by the installer. This code is downloaded to the module from the Signature loop controller during system configuration. The input modules gather analog information from the initiating devices connected to them and convert it into digital signals. The modules on-board microprocessor analyzes the signal and decides whether or not to input on alarm. The SIGA-CT1 and SIGA-CT2 mount to standard North American 1-gang electrical boxes, making them ideal for locations where only one module is required. Separate I/O and data loop connections are made to each module. The SlGA-MCT2 is part of the UIO family of plug-in Signature Series modules. It functions identically to the SIGA-CT2, but takes advan- tage of the modular flexibility and easy installation that character- izes all UIO modules. Two- and six-module UlO motherboards are available. All wiring connections are made to terminal blocks on the motherboard. UIO assemblies may be mounted in GE Security enclosures. Standard Features Multiple applications Including Alarm, Alarm with delayed latching (retard) for water- flow applications, Supervisory, and Monitor. The installer selects one of four "personality codes" to be downloaded to the module through the loop controller. Plug-in (UIO) or standard 1-gang mount UIO versions allow quick installation where multiple modules are required. The 1-gang mount version is ideal for remote locations that require a single module. Automatic device mapping Signature modules transmit information to the loop controller regarding their circuit locations with respect to other Signature devices on the wire loop. Electronic addressing Programmable addresses are downloaded from the loop control- let a PC, or the SIGA-PRO Signature Program/Service Tool. There are no switches or dials to set. Non-volatile memory Permanently stores serial number, type of device, and job number. Stand-alone operation The module makes decisions and inputs on alarm from initiating devices connected to it even if the loop controller's polling interro- gation stops. (Function availability dependent upon control panel.) Ground fault detection by address Detects ground faults right down to the device level. Input Modules SIGA-CT1, SIGA-CT2 & SJGA-MCT2 SIS3A-MCT2 ® C MEA Data Sheet 85001-0241 Issue 6 Not to be used for installation purposes. Page 1of 4 Signature Series Overview The Signature Series intelligent analog-addressable system from GE Security is an entire family of multi-sensor detectors and mount- ing bases, multiple-function input and output modules, network and non-network control panels, and user-friendly maintenance and service tools. Analog information from equipment connected to Signature devices is gathered and converted into digital signals. An onboard microprocessor in each Signature device measures and analyzes the signal and decides whether or not to input an alarm. The microprocessor in each Signature device provides four addi- tional benefits - Self-diagnostics and History Log, Automatic Device Mapping, Stand-alone Operation and Fast, Stable Communication. Self-diagnostics and History Log - Each Signature Series device constantly runs self-checks to provide important maintenance information. The results of the self-check are automatically updated and permanently stored in its non-volatile memory. This informa- tion is accessible for review any time at the control panel, PC, or using the SIGA-PRO Signature Program/Service Tool. Automatic Device Mapping -The Signature Data Controller lSDCl learns where each device's serial number address is installed rela- tive to other devices on the circuit. The SDC keeps a map of all Sig- nature Series devices connected to it. 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 '2as-built" drawing information showing branch wiring (T-taps), device types and their address are stored on disk for printing hard copy. nstaiiation SIGA-CT1 and SIGA-CT2: modules mount to North American 21h inch(64 mm) deep 1-gang boxes and 11/2 inch (38 mm) deep 4 inch square boxes with 1-gang covers and SIGA-MP mounting plates. The terminals are suited for #12 to #18 AWG (2.5 mm' to 0.75 mm2) wire size. SIGA-MCT2: mount the UlO motherboard inside a suitable GE Secu- rity enclosure with screws and washers provided. Plug the SIGA- MCT2 into any available position on the motherboard and secure the module to the motherboard with the captive screws. Wiring connections are made to the terminals on the motherboard (see wiring diagram). UIO motherboard terminals are suited for #12 to #18 AWG (2.5 mm' to 0.75 mm2) wire size. uto Motherboard 6-32 Self-tapping screws Plug-in (UIO) > Captive I Module screws -1--------- #6 Flat washers Cabinet or electrical enclosure Electronic Addressing - The loop controller electronically addresses each module, saving valuable time during system commissioning. Setting complicated switches or dials is not required. Each module has its own unique serial number stored in its on-board memory. The loop controller identifies each device on the loop and assigns a "soft" address to each serial number. If desired, the modules can be addressed using the SIGA-PRO Signature Program/Service Tool. GE Security recommends that this module be installed according to latest recognized edition of notional and local fire alarm codes. Application The duty performed by the SIGA-CT1 and SIGA-CT2/MCT2 is de- termined by their sub-type code or "Personality Code". The code is selected by the installer depending upon the desired application and is downloaded from the loop controller. One personality code can be assigned to the SIGA-CT1. Two person- ality codes can be assigned to the SIGA-CT2/MCT2. Codes 1, 2, 3 and 4 can be mixed on SIGA-CT2/MCT2 modules only. For example, personality code 1 can be assigned to the first address (circuit Al and code 4 can be assigned to the second address (circuit B). NORMALLY-OPEN ALARM - LATCHING (Personality Code 1)- As- sign to one or both circuits. Configures either circuit A or B or both for Class B normally open dry contact initiating devices such as Pull Stations, Heat Detectors, etc. An ALARM signal is sent to the loop controller when the input contact is closed. The alarm condition is latched at the module. NORMALLY-OPEN ALARM - DELAYED LATCHING (Personality Code 2)- Assign to one or both circuits. Configures either circuit A or B or both for Class B normally-open dry contact initiating devices such as Waterfiow Alarm Switches. An ALARM signal is sent to the loop controller when the input contact is closed for approximately 16 seconds. The alarm condition is latched at the module. NORMALLY-OPEN ACTIVE - NON-LATCHING (Personality Code 3)- Assign to one or both circuits. Configures either circuit A or B or both for Class B normally-open dry contact monitoring input such as from Fans, Dampers, Doors, etc. An ACTIVE signal is sent to the loop controller when the input contact is closed. The active condition is not latched at the module. NORMALLY-OPEN ACTIVE - LATCHING (Personality Code 4)- Assign to one or both circuits. Configures either circuit A or B or both for Class B normally open dry contact monitoring input such as from Supervisory and Tamper Switches. An ACTIVE signal is sent to the loop controller when the input contact is closed. The active condi- tion is latched at the module. Data Sheet 85001-0241 Issue 6 Not to be used for installation purposes. Page 2 of 4 A AAStyle B (Class B) Pod LED (Alarm/Active) L87 • L0j UL/ULC Listed 471<0 EOL Green LED (Normal) TEl f DATA IN II 1 DATA IN From Signature Controller or Previous Device A SIGA-CT1 DATA OUT 1+) DATA To Next Device Typical Wiring Modules will accept #18 AWG (0.75mm2), #16 (1.0mm2), and #14AWG 1.50mm2), and #12 AWG (2.50mm2) wire sizes Note: Sizes #16 AWG (1.0mm2) and #18 AWG 10.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Initiating lSlavel Device Circuit Wire Specifications Maximum Allowable Wire Resistance 50 ohms (25 ohms per wire) per Circuit Maximum Allowable Wire Capacitance 0.11JF per Circuit For Design Reference: Wire Size I Maximum Distance to EOLR #18 AWG (0.75 mm') #16 AWG (1.00 mm') #14 AWG (1.50 mm') #12 AWG (1.50 mm') 4,000 ft 11,219 ml Typical N.O. Initiating Device Typical N.C. Initiating Device INPUT 1 INPUT 2 Style B Class B) UL/ULC Usted UL/ULC 47K0 EOL AAA Usted 471<0 EOL Red LED 4 _________________ Green LED (Alarm/Active) (Normal) TB1., H DATA IN(*)> DATA OuT(+) 1 DATA IN(-) . DA( From Signature Controller To Next Device or Previous Device SIGA-CT2 TypINOInth4l,ngDov,00 nw2 U1JeLC bOed ULAJLC u5ted 47154 FL 47544 EOL NOTES Maximum 25 Ohm resistance per wire. Maximum #12 AWG 2.5 mm') wire; Minimum #18 AWG 10.75 mm21. Refer to Signature controller installation sheet for wiring specifications. Maximum 10 Vdc @350 pA The SIGA-U106R and the SIGA-Ul02R do not come with TB14. 6 All wiring is supervised and power-limited. 7 These modules will not support 2-wire smoke detectors. Warnings & Cautions This module will not operate without electrical power. As fires fre- quently cause power interruption, we suggest you discuss further safeguards with your local fire protection specialist. Compatibility The Signature Series modules are compatible only with GE Securi- ty's Signature Loop Controller. W7A I I I I sIGA-McT2 123 4 sI5A41I0(R) 5C55 .eeu,eOeerd 5gne1,ro 4 rB14\ [Tii Do. SIGA-MCT2 D4:, 1: 777 I e ilneYleq4ils o15er sOnge ro34r54 44, SIGA.MCT2. SIGA-MCT2 Data Sheet 85001-0241 Issue 6 Motto be used for installation purposes. Page 3 of 4 GE Security U.S. T 888-378-2329 Specifications F 866-503-3996 Catalog Number SIGA-CT1 SIGA-CT2 SIGA-MCT2 Description Single Input Module Dual Input Module - Type Code 48 (factory set) Four 49 (factory set) Four sub-types (personality sub-types (personality codes) are available codes) are available Address Requirements Uses One Module Ad- Uses Two Module Addresses dress Operating Current Standby = 2501JA; Standby = 396pA; Activated = 680pA Activated =_400pA Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Construction High Impact Engineering Polymer Mounting North American 2112 inch (64 mm( deep one-gang UI02R/6R/6 Mother- boxes and 1112 inch (38 mm) deep 4 inch square board boxes with one-gang covers and SIGA-MP mounting plates Storage and Operating Operating Temperature: 32°F to 120°F (0°C to 49°C) Storage Temperature: Environment -4°F to 140°F (20°C to 60°C); Humidity: 0 to 93% RH LED Operation On-board Green LED - Flashes when polled; On-board Red LED - Flashes when in alarm/active Both LEDs - Glow steady when in alarm (stand-alone) Compatibility Use with Signature Loop Controller Agency Listings UL, ULC, MEA, CSFM Ordering information Canada T 519 376 2430 F 519 376 7258 Asia T852 2907 8108 F 852 2 142 5063 Australia T 61 3 9259 4700 F 613 9259 4799 Europe T322725 1120 F 32 2 72186 13 Latin America 1305 593 4301 F 305 593 4300 www.gesecurity.com © 2006 General Electric Company All Rights Reserved Signature Series is a Trademark of GE Security. Catalog Description Ship Wt Number ___________ lbs (kg) SIGA-CT1 . Single Input Module - UL/ULC Listed 0.4(0.15) SIGA-CT2 Dual Input Module - UIJULC Listed 0.4(0.15) SIGA MCT2 Dual Input Plug-in IUIOI Module - UL ULC Listed 01(005) Related Equipment 27193-11 Surface Mount Box - Red, 1-gang 1.0(0.6) 27193-16 Surface Mount Box - White, 1-gong 1.0(0.6) SIGA-UI02R Universal Input-Output Module Board w/Riser Inputs - Two Module Positions 0.32 (0.15) SIGA-UI06R Universal Input-Output Module Board w/Riser Inputs - Six Module Positions 0.62 10.281 SIGA-U106 Universal Input-Output Module Board - Six Module Positions 0.5610.251 MFC-A Multifunction Fire Cabinet - Red, supports Signature Module Mounting Plates 7.0(3.1) SIGA-MP1 Signature Module Mounting Plate, 1 footprint 1.5(0.70) SIGA-MP2 Signature Module Mounting Plate, 1/2 footprint 0.5 (0.23) SIGA-MP2L . Signature Module Mounting Plate, 1/2 extended footprint 1.02 10.46) i imagination at work Data Sheet 85001-0241 Issue 6 Not to be used for installation purposes. Page 4 of 4 E~'ST TM Life Safety & Communications Intelligent Smoke Detector with Optional CO Sensor SIGA2-PS, SIGA2-PCOS P' Intelligent Initiating Devices Overview Signature Series S1GA2-P(CO)S photoelectric detectors bring ad- vanced sensing technology to a practical design that increases ef- ficiency, saves installation time, cuts costs, and extends life safety and property protection capabilities. Continuous self-diagnostics ensure reliability over the long-haul, while innovative field-replaca- ble smoke chambers make detector maintenance literally a snap. With its modular CO sensor, this detector pulls double-duty - continually monitoring the environment for signs of smoke, as well as its invisible yet deadly companion, carbon monoxide. Like all Signature Series detectors, the SlGA2-P(CO)S is an intel- ligent device that gathers analog information from its smoke and CO sensor (if present), converting this data into digital signals. To make an alarm decision, the detector's on-board microprocessor measures and analyzes sensor readings and compares this infor- mation to historical data. Digital filters remove signal patterns that are not typical of fires, thus virtually eliminating unwanted alarms. The SlGA2-PCOS includes an advanced carbon monoxide sensor and daughterboard. When the electrochemical cell reaches its end of life after approximately six years, the detector signals a trouble condition to the control panel. The sensor/daughterboard module is field-replaceable. Standard Features Optical smoke sensing technology with optional carbon mon- oxide sensor Field-replacable smoke chamber Field- replacablecarbon monoxide sensor/daughterboard module Uses existing wiring Automatic device mapping Ground fault detection by module Up to 250 devices per loop Two levels of environmental compensation Two levels of dirty detector warning Twenty pre-alarm settings Five sensitivity settings Non-volatile memory Electronic addressing Environmental compensation Identification of dirty or defective detectors Automatic day/night sensitivity adjustment Bicolor (green/red) status LED Standard, relay, fault isolator, and audible mounting bases Page 1 of 4 S 85001-0619 to o Issue 2 Application Smoke detection The S1GA2-PS detects extremely small particles of combustion and triggers an alarm at the first sign of smoke. Thanks to its high- performance forward scattering reflective response technology, the photoelectric smoke sensor responds quickly and reliably to a wide range of fire types, especially slow burning fires fuelled by combustibles typically found in modern multi-use buildings. Carbon monoxide detection CO detection has rapidly become a standard part of life safety strategies everywhere. Monitored CO detection is becoming mandated with increasing frequency in all types of commercial applications, but particularly in occupancies such as hotels, room- ing houses, dormitories, day care facilities, schools, hospitals, assisted living facilities, and nursing homes. In fact, more than half of the U.S. population already lives in states requiring the instal- lation of CO detectors in some commercial occupancies. This is because carbon monoxide is the leading cause of accidental poisoning deaths in America. Known as the 'Silent Killer," CO is odorless, tasteless, and colorless. It claims nearly 500 lives, and results in more than 15,000 hospital visits annually. Installation Signature Series detectors mount to North American 1-gang boxes, 3-1/2 inch or 4 inch octagon boxes, and to 4 inch square electrical boxes 1-1/2 inches (38 mm) deep. They mount to Euro- pean BESA and 1-gang boxes with 60.3 mm fixing centers. See mounting base installation and wiring for more information. Testing & Maintenance Each detector automatically identifies when it is dirty or defective and causes a "dirty detector" message. The detector's sensitiv- ity measurement can also be transmitted to the loop controller. A sensitivity report can be printed to satisfy NFPA sensitivity mea- surements which must be conducted at the end of the first year and every two years thereafter. The user-friendly maintenance program shows the current state of each detector and other pertinent messages. Single detectors may be turned off temporarily from the control panel. Availability of maintenance features is dependent on the fire alarm system used. When the CO sensor's electrochemical cell reaches its end of life, the detector signals a trouble condition to the control panel. The sensor/daughterboard module is field-replaceable. Scheduled maintenance (Regular or Selected) for proper detector operation should be planned to meet the requirements of the Authority Hav- ing Jurisdiction (AHJ). Refer to current NFPA 72, NFPA 720, and ULC CAN/ULC 536 standards. This detector will NOT sense fires that start in areas where smoke cannot reach the detector. Smoke from fires in walls, roofs, or on the opposite side of closed doors may not reach the detector to alarm it. Sensing and reporting technology The microprocessor in each detector provides four additional ben- efits - Self-diagnostics and History Log, Automatic Device Map- ping, Stand-alone Operation and Fast, Stable Communication. Self-diagnostics and History Log - Each Signature Series detector constantly runs self-checks to provide important mainte- nance information. The results of the self-check are automatically updated and permanently stored in the detector's non-volatile memory Automatic Device Mapping - The loop controller learns where each device's serial number address is installed relative to other devices on the circuit. The mapping feature provides supervision of each device's installed location to prevent a detector from being reinstalled (after cleaning etc.) in a different location from where it was originally. Stand-alone Operation - A decentralized alarm decision by the detector is guaranteed. On-board intelligence permits the detector to operate in stand-alone mode. If loop controller CPU communi- cations fail for more than four seconds, all devices on that circuit go into stand-alone mode. The circuit acts like a conventional alarm receiving circuit. Fast Stable Communication - On-board intelligence means less 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 it has something new to report. Accessories Detector mounting bases have wiring terminals that are acces- sible from the "room-side" after mounting the base to the electrical box. The bases mount to North American 1-gang boxes and to 31/2 inch or 4 inch octagon boxes, 11/2 inches (38 mm) deep. They also mount to European BESA and 1-gang boxes with 60.3 mm fixing centers. The SlGA-SB4, SIGA-RB4, and SIGA-1134 mount to North American 4 inch sq. electrical boxes in addition to the above boxes. They include the SlGA-TS4 Trim Skirt which is used to cover the "mounting ears" on the base. The SlGA-AB4G mounts to a 4" square box only. F' SIGA-AB4G/T SIGA-SB SIGA-113 SIGA-RB SIGA-LED Audible Base Standard Base Isolator Base Relay Base Remote LED Remote LED SIGA-LED - The remote LED connects to the SIGA-SB or SIGA-SB4 Standard Base only. It features a North American size 1-gang plastic faceplate with a white finish and red alarm LED. SIGA-TS4 Trim Skirt - Supplied with 4 inch bases, it can also be ordered separately to use with the other bases to help hide surface imperfections not covered by the smaller bases. S1GA-A134G and SIGA-A134GT - These sounder bases are de- signed for use where localized or group alarm signaling is required. The SlGA-AB4G is compatible with Signature Series smoke and heat detectors. The SlGA-AB4GT sounder base, when used with the SIGA-TCDR Temporal Pattern Generator module, adds an audible output function to any Signature Series detector, including fire and CO detectors. Page 2 of 4 85001-0619 Not to oo No to pur Issue 2 Typical Wiring The detector mounting bases accept #18 AWG (0.75mm2), #16 (1.0mm2), #14 AWG (1.5mm2), and #12 AWG (2.5mm2) wire sizes. Note: Sizes #16 AWG (1.0mm2) and #18 AWG (0.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Standard Detector Base, SaGA-SB, SPGA-SB4 This is the basic mounting base I Remote LED for Edwards Signature Series de- II Max resistance tectors. The SIGA-LED Remote per wire must II not exceed LED is supported by the Stan- 10 Ohms dard Base. Term Description I 1 Not Used I 2 DATA IN/OUT lv) I 3 Not Used I 4 DATA IN (-) I 5 Remote LED I-) I DATA IN C >.....x DATAOUTN 6 Remote LED ~) I 7 Not Used I 8 DATA OUT I-) DATA IN lvi DATA OUT 1+1 _____ From Signature Controller To Next Device or Previous Device Isolator Detector Base, SIGA-IB, SIGA-I134 This base includes a built-in line fault isolator for use on Class A circuits. A detector must be installed for it to operate. The isolator base does not support the SlGA-LED Remote LED. Audible Detector Base for CO and Fire Detectors, SIGA-AB4GT The Signature Series AB4GT sounder base, when used with the SIGA-TCDR Temporal Pattern Generator, adds an audible output function to any Signature Series detector. For more information on this device, refer to Data Sheet 85001-0623 -- Sounder Base for CO and Fire Detectors. TCDR Riser * I I I I TCDR Riser* TCDR Riser- tJ tJ TCDR Riser - SLC* (\ SLC+ SLC- Li I I) SLC- Volume setting. Default is high volume. For low volume, cut trace per item 4. Reserved for future use. Do not cut. Reserved for future use. Do not cut. Term Description 1 Not Used 2 DATA IN/OUT 1*1 3 DATA IN (-) 4 Not Used 5 Not Used 6 DATA OUT 7 Not Used The isolator operates as follovb - a short on the line causes all lators to open within 23 mse - at 10 msec intervals, beginning on one side of the Class A DAt circuit nearest the loop controller, the isolators 5.IOO IL) 1Jt UVIU U I next isolator down the From Signature Controller or Previous Device line with power - when the isolator next to the short closes, reopens within 10 msec. The process repeats beginning on the other side of the loop controller. To configure output volume, cut trace as shown. To next SIGA-AB4GT sounder base or EOL relay. SLC_OUT to next intelligent addressable device. SLOIN from intelligent addressable controller or previous device. From SIGA-TCDR Temporal Pattern Generator or previous SlGA-AB4GT OUT sounder base. Audible Detector Base, SIGA-AB4G This base is designed for use where localized or group alarm sig- naling is required. When the detector senses an alarm condition, the audible base emits a local alarm signal. The optional SIGA-CRR Polarity Reversal Relay can be used for sounding to other audible bases on the same 24 Vdc circuit. OUT (x) To Next Device Relay Detector Base, SIGA-RB, SIGA-R!34 Normally- Normally - 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 position is supervised to avoid ac- - cidentally jarring it out of position. The SIGA-RB can be operated as DATJ1110 DATA U OUT a control relay if programmed to > do so at the control panel (EST3 DATA 5(*) DATA OUT cv) to Next Devise From 595015w Controller V.2 only). The relay base does not orPrevoosDevice I I support the SlGA-LED Remote I Term Description I1 Nornally Open I LED, CONTACT RATING I I 2 DATA IN/OUT I 1.O Amp @3OVOC I 3 Common I (Pilot Duty) I I 4 DATA IN (-) I5 NotUsed 6 Normally-Closed I I 7 DATA OUT I-1 I Volume setting 's.J Tone setting Default = High volume l Default = Temporal patternCut for low volume Cut for steady tone 11D (D To venfigu,o output volunre 0 rove, out the circuit board 24 Vdc I. 24 Vdc out From power supply or 1111 previous base - To next base or EOL relay Detain From Signature controller or - )- Data out To nest Signature device previous device • Relay and Audible Bases operate as follows: - at system power-up or reset, the relay is de-energized - when a detector is installed in the base with the power on, the 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 - when the detector enters the alarm state, the relay is energized. Page 3 of 4 ltL 85001-0619 Issue 2 Compatibility -, S1GA2-P(CO)S detectors are compatible only with the Signature Loop Controller. A UTC Fire & Secority Corrrpany Detection & alarm since 1872 Warnings & Cautions U.S. This detector will not operate without electrical power. As fires frequently cause power T 888 378 2329 interruption, we suggest you discuss further safeguards with your fire protection specialist. F 866 503 3996 This detector will NOT sense fires that start in areas where smoke cannot reach the detec- Canada tor. Smoke from fires in walls, roofs, or on the opposite side of closed doors may not reach Chubb Edwards the detector to alarm it. T 519 376 2430 F 519 376 7258 Southeast Asia T: +65 6391 9300 Specifications India SIGA2 PS S1GA2 PCOS T: +91 80 4344 2000 Normal operating current 45 pA 70 pA F: +91 804344 2050 Alarm current 45 pA 70 pA Australia Standalone alarm current 18 mA 18 mA 1+61 39239 1200 Operating voltage 15.20 to 19.95 VDC F +61 3 9239 1299 Air velocity 0 t 4,000 ft/mm (0 to 20 m/s). Construction High impact engineering polymer Europe 1+322 72511 20 Wall Maximum 12 in (305 mm) from ceiling F +322 721 86 13 Mounting Plug-in Shipping weight 0.44 lb. (164 g) Latin America T 305 593 4301 Compatible bases - See Ordering Information F 305 593 4300 Operating environment 32 to 120°F (0 to 49°C), 0 to 93% RH, noncondensing Storage temperature -4 to 140°F (-20 to 60°C) utcfireandsecurity.com Environmental compensation Automatic © 2012 UTC Fire & Security. All rights reserved. Ordering Information Catalog Ship Wt. Description Number lbs (kg) SIG.A2 PS Intelligent Photoelectric Detector 0.4(0.16) 51GA2-PCOS Intelligent Photoelectric Detector with carbon monoxide sensor 0.4 (0.16) SIGA2-PCOS-CA Intelligent Photoelectric Detector with carbon monoxide sensor 0.4 (0.16) (for use in Canadian markets only). SIGA-SB Detector Mounting Base - Standard SIGA-SB4 4-inch Detector Mounting Base c/w Trim Skirt SIGA-RB Detector Mounting Base w/Relay SIGA-RB4 4-inch Detector Mounting Base w/Relay, c/w Trim Skirt 0.2 (.09) SIGA-113 Detector Mounting Base w/Fault Isolator SIGA-1134 4-inch Detector Mounting Base w/ Fault Isolator, c/w Trim Skirt SIGA-LED Remote Alarm LED (not for EN54 acolications) SIGA-AB4GT Audible (Sounder) Base for CO and Fire Detectors 0.3 (0.15) SIGA-TCDR Temporal Pattern Generator 0.3 (0.15) SIGA-TS4 Trim Skirt (supplied with 4-inch bases) 0.1 (.04) 2-SPRC1 Reolacement Smoke Chamber (for 51GA2-PS detectors) 0.1 (.04) 2-SPRC2 Replacement Smoke Chamber (for SlGA2-PCOS detectors) 0.1 (.04) 2-CORPL Reolacement CO Sensor 0.1 (.04) Page 4of4 'r ci. cc 85001 -0619 Issue 2 WIRING DIAGRAMS Standard Detector Base, SIGA-SB4 [1] Remote LED (SIGA-LED) Maximum Resistance per Wire Must NOT - + Exceed 10Q DATA IN (-) DATA OUT (-) DATA IN () DATA OUT (+) From Signature Controller To Next Device or Previous Device Term Description 1 Not Used 2 DATA IN/OUT(+) 3 Not Used 4 DATA IN 4 Remote LED 5 Remote LED 6 Not Used 7 DATA OUT 0 SPECIFICATIONS Operating Temperature Range 32 to 120 °F (0 to 49 C) Operating Humidity Range 0 to 93% RH Storage Temperature Range 4 to 140 oF (-20 to 60 C) Construction & Finish High Impact Engineering Polymer, White Compatible Detectors Signature Series Detectors Shipping Weight SIGA-SB4 2.9 oz (82 g) Max. Distance From Ceiling 12 in (305 mm) (for wall mounting) Related Parts 4 in Box Trim Skirt/Ring (SIGA-TS) Compatible Electrical Boxes North American 1-Gang Box NOTES: [1] The SIGA-SB4 provides wiring terminals for connection to Remote LED, Model SIGA-LED. The SIGA-LED is not EN54 or CE approved. These bases will accept 12, 14, 16, and 18 AWG (2.05 sq mm, 1.5 sq mm, 1.0 sq mm, and 0.75 sq mm) wire. Sizes 16 and 18 are preferred. Write the address assigned to the detector on the label provided and apply the label to the inside rim of the base. Break wire run at each terminal. Do not loop signaling circuit field wires around terminals. INSTALLATION SHEET SIGA-SB4 Detector Base INSTALLATION SHEET PIN: 387034P FILE NAME: 387034P.CDR DATE: 28JUN05 REVISION LEVEL: 8.0 APPROVED BY: B. Right CREATED BY: M. Rimes 7 93016 01980 6 8985 Town Center Parkway 625 6th Street East Bradenton, FL 34207 Owen Sound, Ontario USA Canada N4K 5P8 1.5" (38 mm) 0.8(20 r (51 mm) 4.4" (112 mm) Refer to compatible panel Standard Detector Base Relay Detector Base Isolator Detector Base installation sheet for terminal Control Panel 1. Shielded wire is required ONLY in environments with very high electrical noise. Shields must be continuous and insulated from ground. For Class B wiring, there is no shield connection to ground at the last device. SIGA-TS NOTES: A 4" Box Trim Skirt/Ring (SIGA-TS) must be installed to give a 'finished' appearance to the 4' base. Refer to SIGA-TS Installation Sheet P/N 387056P for additional information. PIN: 387034P REV: 8.0 Page 2 of 4 - ES •I TM "" Life Safety & Communications E:Tf tal'P, Intelligent Initiating Devices Intelligent Heat Detectors with Optional CO Sensors SIGA2-HFS, S!GA2-HRS, SIGA2-HCOS Overview Signature Series fixed temperature and rate-of-rise heat detec- tors bring advanced sensing technology to a practical design that increases efficiency, saves installation time, cuts costs, and extends property protection capabilities. Continuous self-diagnos- tics ensure reliability over the long-haul, while the latest thermister technology makes these detectors ideal whereever dependable heat detection is required. With their modular CO sensor, these devices pull double-duty - continually monitoring the environ- ment for heat from combustion, as well as its invisible yet deadly companion, carbon monoxide. Like all Signature Series detectors, these are intelligent device that gather analog information from their heat and CO sensor (if present), converting this data into digital signals. To make an alarm decision, the detector's on-board microprocessor measures and analyzes sensor readings and compares this information to histori- cal data. Digital filters remove signal patterns that are not typical of fires, thus virtually eliminating unwanted alarms. The SlGA2-HCOS is a fixed temperature heat detector that includes an advanced carbon monoxide sensor and daughter- board. When the electrochemical cell reaches its end of life after approximately six years, the detector signals a trouble condition to the control panel. The sensor/daughterboard module is field- replaceable. Standard Features Note: Some features described here may not be supported by all control systems. Check your control panel's Installation and Operation Guide for details. Fixed temperature or rate-of-rise heat detection with optional carbon monoxide sensor Field- replacablecarbon monoxide sensor/daughterboard module Uses existing wiring Automatic device mapping Ground fault detection by module Up to 250 devices per loop Non-volatile memory Electronic addressing Bicolor (green/red) status LED Standard, relay, fault isolator, and audible mounting bases 50 foot (15.2 meter) spacing 15 OF (9 °C) per minute rate-of-rise alarm point (HAS) 135 OF (57 °C) fixed temperature alarm point (HFS/HCOS) Page 1 014 , 785001-062_0 Issue 2 Application Heat detection SlGA2-HRS rate-of-rise heat detectors provide a 15 °F (9 00) per minute rate-of-rise heat sensor for the detection of heat due to fire The heat sensor monitors the temperature of the air and deter- mines whether an alarm should be initiated. SlGA2-HFS and SlGA2-HCOS fixed temperature heat detec- tors provide a 135°F (57°C) fixed-temperature heat sensor for the detection of heat due to fire. The heat sensor monitors the temperature of the air and determines whether an alarm should be initiated. Carbon monoxide detection The SlGA2-HCOS includes a replaceable chemical cell for the detection of carbon monoxide (CO). CO detection has rapidly become a standard part of life safety strategies everywhere. Monitored CO detection is becoming mandated with increasing frequency in all types of commercial applications, but particularly in occupancies such as hotels, rooming houses, dormitories, day care facilities, schools, hospitals, assisted living facilities, and nurs- ing homes. In fact, more than half of the U.S. population already lives in states requiring the installation of CO detectors in some commercial occupancies. This is because carbon monoxide is the leading cause of accidental poisoning deaths in America. Known as the Silent Killer," CO is odorless, tasteless, and colorless. It claims nearly 500 lives, and results in more than 15,000 hospital visits annually. Signature Series detectors mount to North American 1-gang boxes, 3-1/2 inch or 4 inch octagon boxes, and to 4 inch square electri- cal boxes 1-1/2 inches (38 mm) deep. They mount to European BESA and 1-gang boxes with 60.3 mm fixing centers. See mounting base installation and wiring for more information. Installation 01' 1 Tamper-resist lever arm on base (Break off to disable.) 2. Access slot for tamper-resist mechanism Installation Sensing and reporting technology The microprocessor in each detector provides four additional ben- efits - Self-diagnostics and History Log, Automatic Device Map- ping, Stand-alone Operation and Fast, Stable Communication. Self-diagnostics and History Log - Each Signature Series detector constantly runs self-checks to provide important mainte- nance information. The results of the self-check are automatically updated and permanently stored in the detector's non-volatile memory Automatic Device Mapping - The loop controller learns where each device's serial number address is installed relative to other devices on the circuit. The mapping feature provides supervision of each device's installed location to prevent a detector from being reinstalled (after cleaning etc.) in a different location from where it was originally. Stand-alone Operation - A decentralized alarm decision by the detector is guaranteed. On-board intelligence permits the detector to operate in stand-alone mode. If loop controller CPU communi- cations fail for more than four seconds, all devices on that circuit go into stand-alone mode. The circuit acts like a conventional alarm receiving circuit. Fast Stable Communication - On-board intelligence means less 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 it has something new to report. Accessories Detector mounting bases have wiring terminals that are acces- sible from the "room-side" after mounting the base to the electrical box. The bases mount to North American 1-gang boxes and to 31/2 inch or 4 inch octagon boxes, 11/2 inches (38 mm) deep. They also mount to European BESA and 1-gang boxes with 60.3 mm fixing centers. The SlGA-SB4, SlGA-RB4, and SIGA-1134 mount to North American 4 inch sq. electrical boxes in addition to the above boxes. They include the SlGA-TS4 Trim Skirt which is used to cover the "mounting ears" on the base. The SlGA-AB4G mounts to a 4" square box only. - f SIGA-AB4G/T SIGA-SB SIGA-IB SIGA-RE SIGA-LED Audible Base Standard Base Isolator Base Relay Base Remote LED Remote LED SIGA-LED - The remote LED connects to the SlGA-SB or SlGA-SB4 Standard Base only. It features a North American size 1-gang plastic faceplate with a white finish and red alarm LED. SIGA-TS4 Trim Skirt - Supplied with 4 inch bases, it can also be ordered separately to use with the other bases to help hide surface imperfections not covered by the smaller bases. SlGA-AB4G and SIGA-AB4GT - These sounder bases are de- signed for use where localized or group alarm signaling is required. The SIGA-AB4G is compatible with Signature Series smoke and heat detectors. The SlGA-AB4GT sounder base, when used with the SlGA-TCDR Temporal Pattern Generator module, adds an audible output function to any Signature Series detector, including fire and CO detectors. DATA S If T 85001-0620 Issue 2 Testing & Maintenance The user-friendly maintenance program shows the current state of each detector and other pertinent messages. Single detectors may be turned off temporarily from the control panel. Availability of maintenance features is dependent on the fire alarm system used. When the CO sensor's electrochemical cell reaches its end of life, the detector signals a trouble condition to the control panel. The sensor/daughterboard module is field-replaceable. Scheduled maintenance (Regular or Selected) for proper detector operation should be planned to meet the requirements of the Authority Hav- ing Jurisdiction (AHJ). Refer to current NFPA 72, NFPA 720, and ULC CAN/ULC 536 standards. Compatibility SlGA2-PS detectors are compatible only with the Signature Loop Controller. Page 20f4 The isolator operates as follows: - a short on the line causes all iso- lators to open within 23 msec - at 10 msec intervals, beginning on one side of the Class A DATA IN I circuit nearest the loop >_ controller, the isolators >_ close to provide the DATA IN (+) next isolator down the From Signature Controller or Previous Device line with power - when the isolator next to the short closes, reopens within 10 msec. The process repeats beginning on the other side of the loop controller. Term Description 1 Not Used 2 DATA IN/OUT )+) 3 DATA IN)-) 4 Not Used S Not Used 6 DATA OUT (-I 7 Not Used DATA OUT (-) DATA OUT (+) To Next Device Relay Detector Base, SIGA-RB, SIGA-RB4 Normally- Normally- This base includes a relay. Nor- mally open or closed operation I I is selected during installation. The dry contact is rated for 1 amp (pilot duty) @30 Vdc. The relay's position is supervised to avoid ac- cidentally jarring it out of position. The SIGA-RB can be operated as DATA a IN tJ' L - OUT I) control relay if programmed to do so at the control panel (EST3 DATA IN (c) DATA out (v) To Next Device Fromm rom 5griotrjre Corrtrolter V.2 only). The relay base does not s,wevveoevice I I support the SIGA-LED Remote Term Description 1 Normally Open I LED. CONTACT RATING I I 2 DATAIN/OUT I 3 Common) c) 1.O Amp 6I3OVDC I (pilot Duty) I 4 DATA IN I-) I 5 NotUsed 6 Normally-Closed I - ) I I 7 DATAOiJV( Typical Wiring The detector mounting bases accept #18 AWG (0.75mm2), #16 (1.0mm2), #14 AWG (1 .5mm2), and #12 AWG (2.5mm2) wire sizes. Note: Sizes #16 AWG (1.0mm2) and #18 AWG (0.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Standard Detector Base, SIGA-SB, SIGA-SB4 This is the basic mounting base I Remote LED for Edwards Signature Series de- tectors. The SlGA-LED Remote per wire I' must II Max resistance not exceed LED is supported by the Stan- II 10 Ohms dard Base. Term Description I 1 Not Used I 2 DATA IN/OUT I 3 Not Used I 4 DATA IN I-) I 5 Remote LED i- I DATA IN I DATA O UT I-I 6 Remote LED i*i I 7 Not Used I 8 DATA OUT DATA IN 1+1 DATA OUT 1+1 ______________________ From Signature Controller To Next Device or Previous Device Isolator Detector Base, SIGA-1113, SIGA-1134 This base includes a built-in line fault isolator for use on Class A circuits. A detector must be installed for it to operate. The isolator base does not support the SlGA-LED Remote LED. Audible Detector Base for CO and Fire Detectors, SIGA-AB4GT The Signature Series AB4GT sounder base, when used with the SIGA-TCDR Temporal Pattern Generator, adds an audible output function to any Signature Series detector. For more information on this device, refer to Data Sheet 85001-0623 -- Sounder Base for CO and Fire Defectors. TCDR Riser I I I 1 TCDR Riser, TCDR Riser- TCDR Riser - SLC+ (\ SLC+ SLC- () II >1 tl SLC- volume setting. Default is high volume. For low volume, cut trace per tern 4. Reserved for future use. Do not cut. Reserved for future use. Do not cut. To configure output volume, cut trace as shown. To next SIGA-AB4GT sounder base or EOL relay. SLC_OUT to next intelligent addressable device. sLc_IN from intelligent addressable controller or previous device. From SIG.A-TCDR Temporal Pattern Generator or previous SIGA-AB4GT sounder base. Audible Detector Base, SlGA-AB4G This base is designed for use where localized or group alarm sig- naling is required. When the detector senses an alarm condition, the audible base emits a local alarm signal. The optional SIGA-CRR Polarity Reversal Relay can be used for sounding to other audible bases on the same 24 Vdc circuit. Volume sea Default v High cola Cat for law cola To configure OatpUl colunie or tone, Our the circuit board 24 Vdc In From power supply or previous base Data in From Signature controller or previous device Relay and Audible Bases operate as. follows: - at system power-up or reset, the relay is de-energized - when a detector is installed in the base with the power on, the relay energizes for four seconds, then do-energizes - when a detector is removed from a base with the power on, the relay is de-energized - when the detector enters the alarm state, the relay is energized. Tone setting Default = Temporal pattern ut for steady tone 24 Vdc Out To next base or EOL relay Data out To next Signature device Page 3of4 s, s' .. i 850011-062-0 5cc Ii roc,ic,Issue2 Warnings & Cautions ¶1DVVAR D This detector does not operate without electrical power. As fires frequently cause power interruption, discuss further safeguards with the local fire protection specialist. A UTC Fire & Security Company This detector does not sense fires in areas where heat cannot reach the detector. Detection & alarm since 1872 Heat from fires in walls, roofs, or on the opposite side of closed doors may not reach the detector. U.S. 1888 378 2329 This heat detector by itself does not provide life safety protection Use this detector F 866 503 3996 with ionization and/or photoelectric smoke detectors. Canada This detector does not detect oxygen levels, smoke, toxic gases, or flames. Use this Chubb Edwards device as part of a broad-based life safety program which includes a variety of infor- 15193762430 F519 3767258 mation sources pertaining to heat and smoke levels, extinguishment systems, visual and audible devices, and other safety measures. Southeast Asia 1: +65 6391 9300 Independent studies indicate that heat detectors should only be used when property F: +65 6391 9306 protection alone is involved. Never rely on heat detectors as the sole means of fire protection. India T: +9180 4344 2000 F: +91 80 4344 2050 Specifications Australia 1+61392391200 F+61 3 9239 1299 - SlGA2-HRS SIGA2HFS S1GA2-HCOS Normal operating current 45 pA 45 pA 45 pA Europe Standalone alarm current 18 mA 18 mA 18 mA T +322725 11 20 Alarm Current 45 pA 45 pA 45 pA F+322 721 8613 Actual alarm point 15°F (9,q/min. 130 to 140°F (54 to 60°C) Latin America Operating voltage 15.20 to 19.95 VDC 1305 593 4301 Maximum spacing 50 ft. (15.2 m) centers* F 305 593 4300 Construction High impact engineering polymer utcfireandsecurity.com Mounting Plug-in Shipping weight 0.44 lb. (164 g) © 2012 UTC Fire & Security. Compatible bases See Ordering Information — All rights reserved. Operating environment 32 °F to 100 °F (0 °C to 38 °C), 0 to 93% RH, noncondensg Storage temperature - 4 °F to 140 °F (- 20 °C to 60 °C) *When replacing SIGA-HRS/HFS ensure spacing is 50ft or less Ordering Information Catalog Description Ship Wt. Number lbs (kg) S1GA2 HRS Intelligent rate-of-rise heat detector 0.4(0.16) SIGA2-HFS Intelligent fixed temperature heat detector 0.4 (0.16) 51GA2-HCOS Intelligent fixed temperature heat detector with CO sensor 0.4 (0.16) SIGA2-HCOSCA Intelligent fixed temperature heat detector with CO sensor 0.4 (0.16) (for use in Canadian markets only) SIGA-SB Detector Mounting Base - Standard SIGA-SB4 4-inch Detector Mounting Base c/w Trim Skirt SlGA-RB Detector Mounting Base w/Relay SIGA-RB4 4-inch Detector Mounting Base w/Relay, c/w Trim Skirt 0.2 (.09) SIGA-IB Detector Mountinq Base w/Fault Isolator SIGA-AB4G Audible (Sounder) Base for Fire Detectors 0.3 (0.15) SIGA-AB4GT Audible (Sounder) Base for CO and Fire Detectors 0.3 (0.15) SlGA-TCDR Temporal Pattern Generator 0.3 (0.15) SIGA-TS4 Trim Skirt (supplied with 4-inch bases) 0.1 (.04) 2-CORPL Replacement CO Sensor 0.1 (.04) 0 0 c,rtri 9' Page 4of4 0-1A d od f; 85001 -0620 Not o he usco tc naaUe-ton pO:OS, Issue 2 WIRING DIAGRAMS Standard Detector Base, SIGA-SB4 [1] Remote LED (S1GALED) Maximum Resistance per Wire Must NOT - + Exceed 10Q f ': 6__ DATA OUT (-) DATA IN (-) DATA IN (+) DATA OUT From Signature Controller To Next Device or Previous Device Term Description 1 Not Used 2 DATA IN/OUT(+) 3 Not Used 4 DATA IN 4 Remote LED 5 Remote LED 6 Not Used 7 DATA OUT 0 SPECIFICATIONS Operating Temperature Range 32 to 120 °F (0 to 49 °C) Operating Humidity Range 0 to 93% RH Storage Temperature Range -4 to 140 °F (-20 to 60 C) Construction & Finish High Impact Engineering Polymer, White Compatible Detectors Signature Series Detectors Shipping Weight SIGA-SB4 2.9 oz (82 g) Max. Distance From Ceiling 12 in (305 mm) (for wall mounting) Related Parts 4 in Box Trim Skirt/Ring (SIGA-TS) Compatible Electrical Boxes North American 1-Gang Box NOTES: [1] The SIGA-SB4 provides wiring terminals for connection to Remote LED, Model SIGA-LED. The SIGA-LED is not EN54 or CE approved. These bases will accept 12, 14, 16, and 18 AWG (2.05 sq mm, 1.5 sq mm, 1.0 sq mm, and 0.75 sq mm) wire. Sizes 16 and 18 are preferred. Write the address assigned to the detector on the label provided and apply the label to the inside rim of the base. Break wire run at each terminal. Do not loop signaling circuit field wires around terminals. INSTALLATION SHEET SIGA-SB4 Detector Base I INSTALLATION SHEET P/N: 387034P I FILE NAME: 387034P.CDR I DATE: 28JUN05 REVISION LEVEL: 8.0 APPROVED BY: B. Right CREATED BY: M.Rimes 7 93016 01980 6 am 8985 Town Center Parkway 625 6th Street East Bradenton, FL 34207 Owen Sound, Ontario USA Canada N4K 5P8 0 GENERAL WII 1 I [cjPRACTICES Refer to compatible panel Standard Detector Base Relay Detector Base Isolator Detector Base installation sheet for terminal assignments. 0 0 f6 o 0 C, Insulate Shield/Drain with tape Shield/Drain Control Panel 1. Shielded wire is required ONLY in environments with very high electrical noise. Shields must be continuous and insulated from ground. For Class B wiring, there is no shield connection to ground at the last device. 0.8'(20mm)I 0 0 0 777 I1.5 (38 mm) 2.0(51 mm) 4.4(112mm) SIGA-TS Flush Mount Electrical Box NOTES: A 4" Box Trim Skirt/Ring (SIGA-TS) must be installed to give a "finished" appearance to the 4" base. Refer to SIGA-TS Installation Sheet P/N 387056P for additional information. P/N: 387034P REV: 8.0 Page 2 of 4 EST TM - Intelligent Initiating Devices Life Safety & Communications Intelligent Heat Detectors with Optional CO Sensors SIGA2-HFS, SIGA2-HRS, SIGA2-HCOS Signature Series fixed temperature and rate-of-rise heat detec- tors bring advanced sensing technology to a practical design that increases efficiency, saves installation time, cuts costs, and extends property protection capabilities. Continuous self-diagnos- tics ensure reliability over the long-haul, while the latest thermister technology makes these detectors ideal whereever dependable heat detection is required. With their modular CO sensor, these devices pull double-duty - continually monitoring the environ- ment for heat from combustion, as well as its invisible yet deadly companion, carbon monoxide. Like all Signature Series detectors, these are intelligent device that gather analog information from their heat and CO sensor (if present), converting this data into digital signals. To make an alarm decision, the detector's on-board microprocessor measures and analyzes sensor readings and compares this information to histori- cal data. Digital filters remove signal patterns that are not typical of fires, thus virtually eliminating unwanted alarms. The S1GA2-HCOS is a fixed temperature heat detector that includes an advanced carbon monoxide sensor and daughter- board. When the electrochemical cell reaches its end of life after approximately six years, the detector signals a trouble condition to the control panel. The sensor/daughterboard module is field- replaceable. Standard Features Note: Some features described here may not be supported by all control systems. Check your control panel's Installation and Operation Guide for details. Fixed temperature or rate-of-rise heat detection with optional carbon monoxide sensor Field- replacablecarbon monoxide sensor/daughterboard module Uses existing wiring Automatic device mapping Ground fault detection by module Up to 250 devices per loop Non-volatile memory Electronic addressing Bicolor (green/red) status LED Standard, relay, fault isolator, and audible mounting bases . 50 foot (15.2 meter) spacing 15 °F (9 °C) per minute rate-of-rise alarm point (HRS) 135 °F (57 °C) fixed temperature alarm point (HFS/HRS/HCOS) Page lof 4 85001-0620 n c or ill ourpo-. Issue 2.2 Application Heat detection S1GA2-HRS combination fixed temperature/rate-of-rise heat de- tectors provide a 15 °F (9 °C) per minute rate-of-rise heat sensor for the detection of fast-developing fires, as well as a 135°F (57°C) fixed temperature sensor for slow building-fires. The heat sensor monitors the temperature of the air and determines whether an alarm should be initiated. SlGA2-HFS and SlGA2-HCOS fixed temperature heat detectors provide a 135°F (57°C) fixed-temperature heat sensor for the detec- tion of heat due to fire. The heat sensor monitors the temperature of the air and determines whether an alarm should be initiated. Carbon monoxide detection The SIGA2-HCOS includes a replaceable chemical cell for the de- tection of carbon monoxide (CO). CO detection has rapidly become a standard part of life safety strategies everywhere. Monitored CO detection is becoming mandated with increasing frequency in all types of commercial applications, but particularly in occupancies such as hotels, rooming houses, dormitories, day care facilities, schools, hospitals, assisted living facilities, and nursing homes. In fact, more than half of the U.S. population already lives in states requiring the installation of CO detectors in some commercial occu- pancies. This is because carbon monoxide is the leading cause of accidental poisoning deaths in America. Known as the 'Silent Killer," CO is odorless, tasteless, and colorless. It claims nearly 500 lives, and results in more than 15,000 hospital visits annually. Installation Signature Series detectors mount to North American 1-gang boxes, 3-1/2 inch or 4 inch octagon boxes, and to 4 inch square electri- cal boxes 1-1/2 inches (38 mm) deep. They mount to European BESA and 1-gang boxes with 60.3 mm fixing centers. See mounting base installation and wiring for more information. Installation 1. Tamper-resist lever arm on base (Break off to disable.) 2. Access slot for tamper-resist mechanism Sensing and reporting technology The microprocessor in each detector provides four additional ben- efits - Self-diagnostics and History Log, Automatic Device Map- ping, Stand-alone Operation and Fast, Stable Communication. Self-diagnostics and History Log - Each Signature Series detector constantly runs self-checks to provide important mainte- nance information. The results of the self-check are automatically updated and permanently stored in the detector's non-volatile memory Automatic Device Mapping - The loop controller learns where each device's serial number address is installed relative to other devices on the circuit. The mapping feature provides supervision of each devices installed location to prevent a detector from being reinstalled (after cleaning etc.) in a different location from where it was originally. Stand-alone Operation - A decentralized alarm decision by the detector is guaranteed. On-board intelligence permits the detector to operate in stand-alone mode. If loop controller CPU communi- cations fail for more than four seconds, all devices on that circuit go into stand-alone mode. The circuit acts like a conventional alarm receiving circuit. Fast Stable Communication - On-board intelligence means less 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 it has something new to report. Accessories Detector mounting bases have wiring terminals that are acces- sible from the "room-side" after mounting the base to the electrical box. The bases mount to North American 1-gang boxes and to 31/2 inch or 4 inch octagon boxes, 11/2 inches (38 mm) deep. They also mount to European BESA and 1-gang boxes with 60.3 mm fixing centers. The SlGA-SB4, SlGA-RB4, and SlGA-1134 mount to North American 4 inch sq. electrical boxes in addition to the above boxes. They include the SlGA-TS4 Trim Skirt which is used to cover the "mounting ears" on the base. The SIGA-AB4G mounts to a 4" square box only. -. (ç SIGA-AB4G/T SIGA-SB SIGA-IB SltaA-RB SIGA-LED Audible Base Standard Base Isolator Base Relay Base Remote LED Remote LED SIGA-LED - The remote LED connects to the SIGA-SB or SlGA-SB4 Standard Base only. It features a North American size 1-gang plastic faceplate with a white finish and red alarm LED. SIGA-TS4 Trim Skirt - Supplied with 4 inch bases, it can also be ordered separately to use with the other bases to help hide surface imperfections not covered by the smaller bases. SIGA-AB4G and SIGA-AB4GT - These sounder bases are de- signed for use where localized or group alarm signaling is required The SIGA-AB4G is compatible with Signature Series smoke and heat detectors. The SlGA-AB4GT sounder base, when used with the SIGA-TCDR Temporal Pattern Generator module, adds an audible output function to any Signature Series detector, including fire and CO detectors. uATA sti 85001-0620 'iot to he U,-,Ad for tio ces, Issue 2.2 Testing & Maintenance The user-friendly maintenance program shows the current state of each detector and other pertinent messages. Single detectors may be turned off temporarily from the control panel. Availability of maintenance features is dependent on the fire alarm system used. When the CO sensor's electrochemical cell reaches its end of life, the detector signals a trouble condition to the control panel. The sensor/daughterboard module is field-replaceable. Scheduled maintenance (Regular or Selected) for proper detector operation should be planned to meet the requirements of the Authority Hav- ing Jurisdiction (AHJ). Refer to current NFPA 72, NFPA 720, and ULC CAN/ULC 536 standards. Compatibility SIGA2 series detectors are compatible only with the Signature Loop Controller. Page 2 of 4 Typical Wiring The detector mounting bases accept #18 AWG (0.75mm2), #16 (1.0mm2), #14 AWG (1 .5mm2), and #12 AWG (2.5mm2) wire sizes. Note: Sizes #16 AWG (1.0mm2) and #18 AWG (0.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Standard Detector Base, SIGA-SB, SIGA-SB4 This is the basic mounting base I Remote LED for Edwards Signature Series de- Max resistance tectors. The SIGA-LED Remote per wire must not exceed LED is supported by the Stan- 10 Ohms dard Base. Term Description I 1 Not Used 2 DATA IN/OUT 3 Not Used I 4 DATA IN I-) 5 Remote LED I r DATA DATA OUT 6 Remote LED (v) I 7 Not Used I 8 DATA OUT DATA IN I.) DATA OUT.) From Signature Controller To Next Device or Previous Device Isolator Detector Base, SIGA-113, SIGA-1134 This base includes a built-in line fault isolator for use on Class A circuits. A detector must be installed for it to operate. The isolator base does not support the SIGA-LED Remote LED. The isolator operates as follow - a short on the line causes all lators to open within 23 mse - at 10 msec intervals, beginning on one side of the Class A DA1 circuit nearest the loop controller, the isolators close to provide the DAL next isolator down the From Signature Controller or Previous Device line with power - when the isolator next to the short closes, reopens within 10 msec. The process repeats beginning on the other side of the loop controller. Relay Detector Base, SIGA-RB. SIGA-111134 This base includes a relay. Nor- mally open or closed operation is selected during installation. The d contact is rated for 1 amp f (pilot duty) © 30 Vdc. The relay's 'a is supervised to avoid ac- cidentally jarring it out of position. JN(-~ The SIGA-RB can be operated as DAT a control relay if programmed to position oAnA OUT do so at the control panel (EST3 DATA IN .t DATA OUT (.) To Next Device F,om ignatu Castrate, V.2 only). The relay base does not or S Previou re s Deuce I I support the SIGA-LED Remote Temi Description I I 1 Normally Open I LED. CONTACT RATING I 2 DATA IN/OUT 1+) I 1.0 Amp @30 vDc I I 3 Common I )Pilot Duty) I 4 DATA IN )-) I 5 Not Used I I 6 Normally-Closed I 7 DATA OUT )-) I Audible Detector Base for CO and Fire Detectors, SIGA-AB4GT The Signature Series AB4GT sounder base, when used with the SlGA-TCDR Temporal Pattern Generator, adds an audible output function to any Signature Series detector. For more information on this device, refer to Data Sheet 85001-0623 -- Sounder Base for CO and Fire Detectors. TCDR Rise, • ( I I I I 11 TCDR Riser. TCDRRiser - TCDRRiser - SLCv (\ f\ SLC+ SLC- U SLC- Volume setting. Default is high volume. For low volume, cut trace per item 4. Reserved for future use. Do not cut. Reserved for future use. Do not cut. To configure output volume, cut trace as shown. To next SlGA-AB4GT sounder base or EOL relay. SLC_OUT to next intelligent addressable device. Audible Detector Base, SIGA-AB4G This base is designed for use where localized or group alarm sig- naling is required. When the detector senses an alarm condition, the audible base emits a local alarm signal. The optional SIGA-CRR Polarity Reversal Relay can be used for sounding to other audible bases on the same 24 Vdc circuit. Relay and Audible Bases operate as follows: - at system power-up or reset, the relay is de-energized - when a detector is installed in the base with the power on, the 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 - when the detector enters the alarm state, the relay is energized. OUT (.) To Next Device Term Description I Not Used 2 DATA IN/OUT (±1 3 DATA IN I-) 4 Not Used 5 Not Used 6 DATA OUT (-I 7 Not Used sLc.jN from intelligent addressable controller or previous device. From SlGA-TcDR Temporal Pattern Generator or previous SlG.A-AB4GT OUT C-) sounder base. Volume sell Default = High volu Cut for low cola 24 Vdc in From power supply or previous base Data in From Signature controller or previous device rone selling )elaull = Temporal pattern at for steady tone To configure output volume or lone. cut the circuit board as shmn. 24 Vdc out To next base or EOL relay Data out To next Signature device Page 3 of 4 7 850011-0620 Not to ho )'oeU'" 'ri '11: p TPOEET. Issue 2.2 Warnings & Cautions This detector does not operate without electrical power. As fires frequently cause ~F.1!=WARDB power interruption, discuss further safeguards with the local fire protection specialist. UTCF,e&S ty Company This detector does not sense fires in areas where heat cannot reach the detector. Detection & alarm since 1872 Heat from fires in walls, roofs, or on the opposite side of closed doors may not reach the detector. U.S. T 888 378 2329 This heat detector by itself does not provide life safety protection Use this detector F 866 503 3996 with ionization and/or photoelectric smoke detectors. Canada This detector does not detect oxygen levels, smoke, toxic gases, or flames. Use this Chubb Edwards device as part of a broad-based life safety program which includes a variety of infor- T 519 376 2430 F 519 376 7258 mation sources pertaining to heat and smoke levels, extinguishment systems, visual and audible devices, and other safety measures. Southeast Asia T:+65 6391 9300 Independent studies indicate that heat detectors should only be used when property F: +65 6391 9306 protection alone is involved. Never rely on heat detectors as the sole means of fire protection. India T: +91 80 4344 2000 F: +9180 4344 2050 Specifications Australia T +61 3 9239 1200 F +61 3 9239 1299 SIGA2 I-IRS SIGA2 HFS 51GA2 HCOS Normal operating current 45 pA 45 pA 45 pA Europe Standalone alarm current 18 mA 18 mA 18 mA Alarm Current 45 pA 45 pA 45 pA Rate-of-rise alarm point 15°F (9°C)/min. N/A N/A Latin America Fixed temperature alarm point 130 to 140°F (54 to 60°C) T 305 593 4301 Operating voltage 15.20 to 19.95 VDC F 305 593 4300 Maximum spacing 50 ft. (15.2 m) centers* utcfireandsecurity.com Construction High impact engineering polymer Mounting Plug-in © 2012 UTC Fire & Security. Shipping weight 0.44 lb. (164 g) All rights reserved. Compatible bases See Ordering Information Operating environment 32 °F to 100 °F (0 °C to 38 °C), 0 to 93% RH, noncondensing Storage temperature — 4 °F to 140 °F (— 20 °C to 60 °C) *When replacing SiGA-HRS/HFS ensure spacing is 50ft or less. Ordering Information Catalog Description Ship Wt. Number. lbs (kg) 51GA2-HRS Intelligent combination fixed temperature/rate-of-rise heat detector 0.4 (0.16) SIGA2-HFS Intelligent fixed temperature heat detector 0.4 (0.16) 513A2-HCOS Intelligent fixed temperature heat detector with CO sensor 0.4 (0.16) SIGA2-HCOS-CA Intelligent fixed temperature heat detector with CO sensor 0.4(0.16) (for use in Canadian markets only) SIGA-SB Detector Mounting Base - Standard SIGA-SB4 4-inch Detector Mounting Base c/w Trim Skirt SIGA-RB Detector Mounting Base w/Relay SIGA-RB4 4-inch Detector Mounting Base w/Relay, c/w Trim Skirt 0.2 (.09) SIGA-113 Detector Mounting Base w/Fault Isolator SIGA-IB4 4-inch Detector Mounting Base w/ Fault Isolator, c/w Trim Skirt SIGA-LED Remote Alarm LED (not for EN54 applications) SIGA-AB4G Audible (Sounder) Base for Fire Detectors 0.3(0.15) SIGA-AB4GT Audible (Sounder) Base for CO and Fire Detectors 0.3 (0.15) SlGA-TCDR Temporal Pattern Generator 0.3 (0.15) SIGA-TS4 Trim Skirt (supplied with 4-inch bases) 0.1 (04) 2-CORPL Replacement CO Sensor 0.1 (.04) Page 4 of 4 • U, A, lE:r 85OO1O62O Not to he used for installation purposes, Issue 2.2 TM )' Life Safety & Communications Rate Compensation Heat Detectors 302 Series Conventional Initiating Box mount Overview Series 302 heat detectors are designed for use in normal environ- ments as well as environments where the detectors are subject to weather, moisture (internal condensation), and explosive atmo- spheres. They are normally-open devices designed to close an electrical circuit upon activation. All models feature rate compen- sation and are available with either 135 OF (57.2 00) or 194 OF (90 00) ratings. They are self restoring, hermetically sealed, shock and corrosion resistant, and are tamperproof. Standard Features Rate compensation offsets thermal lag Self-restoring - no manual reset required Explosion proof and weatherproof models available Weatherproof models available that do not require a special backbox Box mount and surface mount models available Application Sensors rated at 135 OF (57.2 00) will not respond to momentary temperature fluctuations less than 30 °F/minute between 60 OF (16 °C) and 100 OF (38 00) Sensors rated at 194°F (90 °C) will not respond to momentary temperature fluctuations less than 50 OF/ minute between 60 OF (16 °C) and 150 OF (66 00) 302 Series sen- sors should not be used in environments where conditions exceed these parameters. Do not install them in hot air ducts, in front of heaters, in paint booths that use heat to cure paint, or any other location subject to temperature fluctuation. Sensors Rated Minimum Ambient Maximum Ceiling Temperature Air Temperature Temperature 135 °F (57.2 °C) -40°F (-40 °C) 100 °F (38 °C) 194 OF (90 °C) -40 °F (-40 °C) 150 °F (66 °C) The sensor's aluminum tube acts as a heat collector when sourc- es of heat radiate directly on the tube. Install these sensors out of direct sunlight and away from radiating heat sources including the direct flow from heaters and heat ducts. Pagel 0f4 DAT A SHtT 85001-0589 No to be used n:atatke nemeses, Issue 2 Rate Compensation 302 Series sensors feature rate compensation, which improves performance by offsetting thermal lag, an inherent property of conventional fixed temperature heat sensors. A slow rate of temperature rise allows the heat to penetrate the inner expansion struts. The tubular shell and the struts expand slowly until the total device has been heated to its rated tempera ture level of 135 IF (57.2 00) or 194 IF (90 00) At this point, the silver contact points close and an alarm is initiated. When subjected to a rapid rate temperature rise, there is not as much time for heat to penetrate the inner strut. However, the rapid lengthening of the shell allows the struts to come together at a lower level. When the surrounding air temperature returns to below the rated level, the shell contracts, forcing the contacts to open, thus auto- matically resetting the sensor. silver contact ansion struts h expansion sensing II, 0.040 anodized aluminum it control sleeve ting screw rcon hermetic seal Typical Wiring Black To control / End of panel or 302 Series Detectors Line next device Resistor White Electrical Rating Voltage Current 6-125 VAC 5 amps 6-25 VDC 1 amp. 125 VDC 0.5 amp Maintenance 302 Series heat sensors are low maintenance. Sensors automati- cally restore when temperatures drop below their rated tempera- tures. The accumulation of dust and dirt does not normally affect the sensors' operation. Testing Testing for operation is simple and can be done before or after the sensor has been installed. Heat the sensor with a hair dryer (do not use any device with an open flame to test sensors). The sen- sor should operate shortly after the hot air is applied. Refer to NFPA 72, National Fire Alarm Code and/or the local authority having jurisdiction to determine testing frequency, record keeping, and other testing considerations. Detector Spacing Model 302 302AW 302-ET 302-EPM UL- Vertical Spacing 50'x50 50'x50' -- 50'x 50' 40 x40 (all models) (15.2 x 15.2 m) (15.2 x 15.2 m) (15.2 x 15.2 m) (12.2 x 12.2 m) UL- Horizontal Spacing 40 x 40 40 x 40' 40'x 40' 30' x 30 (all models) (12.2 x 12.2 m) (12.2 x 12.2 ii) (12.2 x 12.2 m) (9.1 x 9.1 M) FM - Horizontal 30 x 30 30 x 30 30'x 30 Not Listed or vertical spacing.* (9.1 x9.lm) (9.1 x9.lm) (9.1 x9.lm) Spacing is based on smooth ceilings that are up to 10 (3 m) high. Refer to NFPA 72 for ceilings that are not considered smooth or are higher than 10 (3 m). * EPM models are not FM approved. Dimensions Model ET EMP Tube Length 3(76.2 mm) 3(76.2 mm) Tube Diameter 0.5' (12.7 mm) 0.5 (12.7 mm) NPT Thread 0.5 (12.7 mm) 0.5 (12.7 mm) Hex Base 1 (25.4 mm) plastic 1.25 (31.75 mm) brass Page 2 of 4 WARNING Use For Property Protection Only Heat selectors a not broiect tire ag ns ire ad ernue in most tiro h.,zu oorji, led leds of omok Sea and t sic a us can butts us rucforo a hat senstynrodid initiate an alarm. ln•depesde.nt stsdies.iadicate that heat sensors shoutdont be used wine-, prc.pe::ts praleclias clone is isaulued. Irrcuses racers ffe lety is d•tdctui the dde i of srnskn defectors is rnsommnndsd. Ur.aer no circumstances shaatd heat detectors he relied anus as the note meudureic ensure sale. y. Hcweaer, if they are spaced is .ccarctance with the specifisahods found under Atupticatioe, thnse sensors nun csstshare. within on sueratl fire setegprdcram, to reducing the risk at avaict- ableprcpenylosses. .. tryherrdsOd with automat ogre, suppression ssstems such as pre-aches and deluge sprinkter systems, carbon dioxide' systems, eaton systems. and Ore chemical systemh at least Ova sen- ass slioJd be Used to r' 3 0 Diarm. Tnisr a-mani1 refer edto as crcss-zoningo a rarrt martin caning and is.Herdessacetc eliminate' premature discharge at the systerrr. Refer to NFPA 72 tar more infoiniatirm 85001-0589 so t,a Issue 2 Ordering Information Interior applications _._ * * - Ship Wt. Heat Detector - Rate Compensation, Interior / 302-135 Vertical Surface Mount FM & UL, 135°F (57.2 °C) For interior mounting. 0.2 lb. (0.09 Heat Detector - Rate Compensation, Interior kg) 302-194 Vertical Surface Mount FM & UL, 194°F (90 °C). Moisture & dust proof applications Ship Wt. All-weather Heat Detector - Rate Hermetically sealed for moisture proof 302-AW-135 Compensation, Vertical Mounting FM & UL or dust proof installations. Requires no 0.2 lb. (0.09 135 °F (57.2 °C) special back box when the all-weather leads are properly spliced to "THW" All-weather Heat Detector - Rate or equivalent type wire and splices are kg) 302-AW-1 94 Compensation, Vertical Mounting FM & UL, moisture proof. For indoor or outdoor 194°F(90°C) use. Moisture & dust proof applications (box mount) Ship Wt. All-weather Heat Detector - Rate 302-ET-1 35 Cornoensation, Vertical, Box Mount NPT) FM & UL 135 5 (57.2 C). Requiwa 310N0027 or equfvalt. All-weather Heat Detector - Rate 302-ET-194 Compensation, Vertical, Box Mount (1/2 NP, FM & UL, 194°F (90 °C). Requiies STONCO27 or equivalent. Hermetically sealed for moisture proof or dust proof installations. Requires no special back box. Has plastic hexagonal grip bushing with ½ conduit threads for attachment to threaded hub cover, or any outlet box. For indoor or outdoor use when watertight seal is required, use weatherproof box. 0.2 lb. (0.09 kg) Explosion proof applications . Ship Wt. Heat Detector - Rate Compensation, 302-EPM- Explosionproof Mounting UL (Not FM 135 approved), 135 °F(57.2 °C). RequiresJALX-11 or equivalent Heat Detector - Rate Compensation, 302-EPM- Explosionproof Mounting UL (not FM 194 approved), 194°F (90 °C). RequiresJALX-1 1 or equivalent. . .................... . ..... .... . .......... . Adapter plate fl Ship Wt. APP Decorative white plastic adapts' .telor mountnq 302 and 302-AV to any 3 outlet box 0.1 lb. 0.05 or 4 octagon outlet box. kg) Outlet body Ship Wt. STONCO27 3 ½" Weatherproof, round backbox and cover (½" thread hubs back, four sides and cover) 3.0 lb. (1.4 kg) Explosion proof outlet body Ship Wt. JALX1 1 Explosion proof outlet body with cover (½" thread hubs back, four sides and cover) - Killark , ' 3.5 lb. (1.6 kg) ,.°. Page 3 of 4 A ELI 85001-0589 I , Issue 2 Explosion proof for installation in hazardous locations. Has hexagonal grip bushing with ½" conduit threads for attachment to threaded hub covers of series JL fixture fitting manufactured by Killark Electric Co., or equivalent. Must be hand tightened only. For indoor use only. 0.3 lb. (0.14 1. A UTC Fire & Security Company Detection & alarm since 1872 U.S. 1 888-378-2329 F 866-503-3996 Canada Chubb Edwards 15193762430 F 519376 7258 Southeast Asia 1: +65 6391 9300 F +65 6391 9306 India T: +91 80 4344 2000 F : +91 80 4344 2050 Australia T+61 3 9239 1200 F+61 3 9239 1299 Europe 1+32272511 20 F+322721 8613 Latin America 1 305 593 4301 F 305 593 4300 utcfireandsecurity.com © 2010 UTC Fire & Security. All rights reserved. 0 Page 4of4 ATA HEEl 85001 -0589 - N to be to-H tyr rr:ylly1ioo OurpCrOOs. Issue 2 ESTTM IPI (Pt : Conventional Initiating 'TYLife Safety & Communications Weatherproof and Explosionproof Manual Stations MPSR Series Weatherproof MPSR Series manual pull stations from Edwards are noncoded fire alarm stations solidly constructed of die-cast material. All components are pre-painted or have plated surfaces to inhibit corrosion. Weatherproof manual stations are rated for outdoor use. Single- and double-action MPSR models are available with either single pole (normally open) or double pole (double throw) alarm contacts. Depending on the model, access to the unit for resetting purposes is gained with either a keylock or hex screw. Explosionproof/weatherproof manual stations are rated for Class I Group B (hydrogen) C & D, Class II Groups E. F, G, Class Ill environments, and are rated NEMA 4X for outdoor use. They are available in single or double action activation with key or hex oper- ated reset. All models feature terminal block connections and 10 amp con- tacts. Standard Features All models Solid corrosion-resistant constructicn Rated NEMA 4X for outdoor use Surface mou it weatherproof backbox and gasket included Positive ac:ivation Terminals for wi -e connections Weatherproof mode s Single and doube action models Single or doUble pcle contacts Key lock or hex screw reset Explosionproof mode's Class I Group E, C & D, Class II Grcups E. F, G, Class Ill Single-action modes convertible to double-action operation Key lock reset Double pole contacts Page 1 of 4 .TA tttirr 85001-0588 Issue 3.1 Application MPSR Series manual stations have 10 amp contacts. They may be used with or without a break glass rod. Rod replacement requires no special tools. Each manual station may be reset and locked using the standard key or hex key provided. Wiring 2 Two contact terminal block wiring Nb ®31 Six contact terminal block wiring Common 1 r.cXIi 5 Common N/o N/C I2 I I 6j Nbo N/C t 3 I 7j fl4y8fl Assembly (weatherproof models) Threaded Gasket conduit holes Switch wiring plate 6-32 screws (provided) Back box Conduit plugs (provided) Back box Glass rod mounting screws installation slot Assembly (explosionproof models) O-ring seal Back box ri Ground wire / . connection screw Switch plate / 1/4-2Oxlin. •-•---. countersunk screw Faceplate screws Faceplate 4jnsutor 3/4 in. NPT pipe plug Register pins (for single conduit use) Glass rod installation slot Page 2 o14 77 85001-0588 Nf.o lor it Issue 3.1 Specifications Weatherproof models Explosionproof/weatherproof models Ratings NEMA: 4X outdoor UL/CSA: Class I Group B, C & 0, Class II Groups E. F, G, Class Ill NEMA: 4Xoutdoor Dimensions Width 3.06 in (7.77 cm) 3.20 in (8.13 cm) Height 4.75 in (12.07 cm) 4.75 in (12.07 cm) Depth 3.0 in (7.62 cm) 3.70 in (9.40 cm) Electrical Wiring Two or six contact terminal block depending on model Six contact terminal block Wire size 14to18AWG 14to18AWG Switch 10 amp © 120 Vac 10 amp © 120 Vac Physical Mounting Single gang weatherproof backbox (included) Single gang explosionproof backbox (included) Lock Standard key or hex key Standard key or hex screw Operation Single action or double action depending on model Single-action (double-action with adapter cover) Operating environment Temperature -30 "F to 150 "F (-35 "C to 66 °C) -30 "F to 150 "F (-35 "C to 66 "C) Ordering Information Model Description Ship Wt. (kg) Weatherproof manual stations (weatherproof backbox included) MPSR1 -SHT'iN-GE Single-action, SPST, hex screw reset, terminal connections. 0.93 (0.42) 1MPSR1 S45W GE Single action SPST Cat 45 Key reset terminal connections.!0 93 (0 42) MPSR1 -DHTN-GE Single-action, DPDT, hex screw reset, terminal connections. 0.93 (0.42) MPSR1 -D45W-GE Single-action, DPDT, Cat 45 Key reset, terminal connections. 0.93 (0.42) MPSR2-SHTW-GE Double-action, SPST, hex screw reset, terminal connections. 1.7 (0.76) MPSR2-DHTW-GE Double-action, DPDT, hex screw reset, terminal connections. 1.7 (0.76) MPSR2-S45W-GE Double-action, SPST, Cat 45 Key reset, terminal connections. 1.7 (0.76) MPSR2-D45W-GE Double-action, DPDT, Cat 45 Key reset, terminal connections. 1.7 (0.76) MFSR2-SHTW-GE-N'yW Double-action, SPST, hex screw reset, terminal connections, NYC white stripe. 1.7 (0.76) MPSR2-S45W-GE-NYW Double-action, SPST, Cat 45 Key reset, terminal connections, NYC white stripe. 1.7 (0.76) For French markings add -F to the suffix of the model number. For bilingulat French/English markings add -B to the suffix of the model number. Explosionproof manual station (explosionproof backbox included) MPSR1 -D45WX-GE Single-action, DPDT, Cat 45 Key reset, terminal connections 0.93 (0.42) MPSR-LP Double action cover 0.77 (0.35) MPSR1 -DHTV(-GE Single-action, DPDT, hex screw reset, terminal connections 0.93 (0.42) For French markings add -F to the suffix of the model number. For bilinguial French/English markings add -B to the suffix of the model number. Accessories MPSRGR10 Reolacement alass rods for MPSR stations (10 45 Explosionproof model with double-action cover. Page 3 of 4 DATA SHEET 85001-0588 lot rc, be usec for osteliation rJurncees. Issue 3.1 Ejt ;T A UTC Fire & Security Company Detection & alarm since 1872 U.S. 1 888-378-2329 F 866-503-3996 Canada Chubb Edwards 1519 376 2430 F 519 376 7258 Southeast Asia T: +65 6391 9300 F: +65 6391 9306 India 1: +91 804344 2000 F: +91 80 4344 2050 Australia 1+61 3 9239 1200 F+61 3 9239 1299 Europe 1+32272511 20 F+322721 8613 Latin America 1 305 593 4301 F 305 593 4300 utcfireandsecurity.com © 2010 UTC Fire & Security. All rights reserved. Page 4 of 4 85001-0588 ic Issue 3.1 / EDWARDS SYSTEliS TECHNOLOGY INTELLIGENT INPUT/OUTPUT DEVICES 17 1,7 77777'' -77- .-----.--,- - ___ _____11 Input Modules Models SIGA-MM1 & SIGA-WTM Features E Monitor and waterflow/tamper applications Includes Alarm with delayed latching (retard) for waterflow applications, Supervisory, and Monitor. E Non-volatile memory Permanently stores serial number, type of device, and job number. Automatically updates historic information including hours of operation, last maintenance date, number of alarms and troubles, and time and date of last alarm. Automatic device mapping Each module transmits wiring information to the loop controller regarding its location with respect to other devices on the circuit. Electronic addressing Permanently stores programmable address; there are no switches or dials to set. Addresses are downloaded from a PC, or the SIGA-PRO Signature Program/Service Tool. Intelligent module c/w integral microprocessor All decisions are made at the module allowing lower communication speed while substantially improving control panel response time. Less sensitive to line noise and circuit wiring properties; twisted or shielded wire is not required. Ground fault detection by address Detects ground faults right down to the device level. Stand-alone operation The module makes decisions and inputs an alarm from initiating devices connected to it even if the loop controller's polling interrogation stops. Diagnostic LEDs Status LEDs are visible only when face plate is removed; flashing GREEN shows normal polling; flashing RED shows alarm/active state. Designed for high ambient temperature operation Install in ambient temperatures up to 120°F (49°C). Designed to ISO 9001 standards Manufactured to strict international quality standards for highest reliability. EST3 V.2 only. 2 Retrievable with SIGA-PRO programming tool. Patented Description The SIGA-MM1 Monitor Module and SIGA-WTM Waterfowl Tamper Module are part of EST's Signature Series system. They are intelligent analog addressable devices used to connect one or two Class B normally-open Alarm, Supervisory, or Monitor type dry contact Initiating Device Circuits (IDC). The function of the SIGA-MM1 and SIGA-WTM is determined by the factory loaded "personality code". The input modules gather analog information from the initiating devices connected to them and convert it into digital signals. The module's on-board microprocessor analyzes the signal and decides whether or not to input an alarm. The microprocessor in each module provides four additional benefits - Self-diagnostics and History Log, Automatic Device Mapping, Stand-alone Operation and Fast, Stable Communication. Self-diagnostics and History Log - Each Signature Series module constantly runs self-checks to provide important maintenance information. The results of the self-check are automatically updated and permanently stored in the module's non-volatile memory. This information is accessible for review any time at the control panel, PC, or by using the SIGA-PRO Signature Program/Service Tool. The information stored in the module's memory includes: - module serial number, address, and module type - date of manufacture, hours of operation, and last maintenance date2 - number of recorded troubles and alarms2 - time and date of last alarm' - most recent trouble code logged by the module —24 possible trouble codes may be used to diagnose faults EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941-739-4638; FAX 941-727-1214 • 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: PIUSFIELD& NEWPORT, ME Issue 5 Literature Sheet #85001-0297 Page 1 of 4 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Automatic Device Mapping - The loop controller learns where each device's serial number address is installed relative to other devices on the circuit. The loop controller keeps a map of the Signature Series devices connected to it. 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" drawing information showing wire branches (T-taps), device types and their address are stored on disk for printing hard copy. This takes the mystery out of the installation. The preparation of as- built drawings is fast and efficient. Device mapping allows the Signature loop controller to discover - unexpected additional device addresses - missing device addresses - changes to the wiring in the circuit. Stand-alone Operation - A decentralized alarm decision by the module is guaranteed. On-board intelligence permits the module to operate in stand-alone mode. If loop controller CPU communi- cations fail for more than four seconds, all devices on that circuit go into stand-alone mode. The circuit acts like a conventional alarm receiving circuit. Each module on the loop continues to collect and analyze information from its slave device and will alarm should their slave device activate. Fast Stable Communication - Built-in intelligence means less information needs to be sent between the module and the loop controller. Otherthan regular supervisory polling response, the module only needs to communicate with the loop controller when it has something new to report. This provides veryfast 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 advantages including: - less sensitivity to circuit wire characteristics - less sensitivity to noise glitches on the cable - less emitted noise from the analog wiring - twisted or shielded wiring is not required. Diagnostic LEDs - Twin LEDs provide visual indication of normal and alarm/active conditions. They are visible only when the front plate is removed. A flashing GREEN LED shows normal system polling from the loop controller. A flashing RED LED means the module is in alarm/active state. Both LEDs on steady shows alarm state - stand-alone mode. Construction - All modules in EST's Signature Series are con- structed of high-impact polymer designed to endure the effects of aging. They are finished in white and are identified with front plate markings "FIRE ALARM MODULE". A self-adhesive French label for the front plate is included to be applied by the installer if desired. Installation The SIGA-MM1 and SIGA-WTM modules mount to North American 2-1/2 inch (64 mm) deep one-gang boxes and 1-1/2 inch (38 mm) deep 4 inch square boxes with one-gang covers and SIGA-MP mounting plates. The terminals are suited for #12 to #18 AWG (2.5 mm2 to 0.75 mm2) wire size. EST recommends that this module be installed according to latest recognized edition of national and local fire alarm codes. Electronic Addressing - The loop controller electronically ad- dresses each module, saving valuable time during system com- missioning. Setting complicated switches or dials is not required. Each module has its own unique serial number stored in its on- board memory. The loop controller identifies each device on the loop and assigns a "soft" address to each serial number. If desired, the modules can be addressed using the SIGA-PRO Signature Program/Service Tool. Personality codes are assigned by the factory. No user configura- tion is required for these modules. te 00 701 Quality and Reliability - EST modules are manufactured in North America to strict international ISO 9001 standards. All electronics utilize surface mount technology (SMT) for smaller size and greater immunity to RF noise. A conformal coating is used for humidity and corrosion resistance. EDWARDS SYSTEMS TECHNOLOGY Page 2 of 4 Literature Sheet #85001-0297 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Issue 5 A Typical N.C. Monitor Contact fl UL/ULC Listed 471(t) EOL Green LED (Normal) DATA OUT (*) DATA OUT(-) To Next Device TB] Testing & Maintenance The module's automatic self-diagnosis identifies when it is defective and causes a trouble message. The user-friendly maintenance program shows the current state of each module and other pertinent messages. Single modules may be turned off (de-activated) temporarily, from the control panel. Scheduled maintenance (Regular or Selected) for proper system operation should be planned to meet the requirements of the Authority Having Jurisdiction (AHJ). Refer to current NFPA 72 and ULC CAN/ULC 536 standards. Availability of maintenance features is dependent on the fire alarm system used. Typical Wiring The module will accept #18AWG (0.75m M2), #16(1.0mm2), #14AWG (1.50mm2), #12AWG (2.50mm2) wire sizes. Note: Sizes #16 AWG (1.0mm2) and #18 AWG (0.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheetfor detailed wiring requirement specifications. Initiating (Slave) Device Circuit Wire Specifications Maximum Allowable Wire Resistance 50 ohms (25 ohms per wire) per Circuit Maximum Allowable Wire Capacitance I0.1pF per Circuit For Design Reference: Wire Size Maximum Distance to EOLR #18 AWG (0.75 mm2) 4,000 ft (11219 m) #12 AWG_(1.50_mm2) #16 AWG (1.00 mm2) #14 AWG 0.50 mm2) Typical Supervisory Contact INPUT 2 Ii A AAStyle B (Class B) • ULIULC Listed 471(0 EOL Red LED • C) C)Green LED (Alarm/Active) - DATA OUT f DATA IN(+)> DATA OUT (-) J DATA IN(-) > To Next Device From Signature Controller or Previous Device Typical N.C. Waterfiow Contact + INPUT 1 TB2 ULJUL IC ListedStyle B (Class B) 471(0 EOL A A A Red LED (Alarm/Active) TBt DATA IN(*)> 1. DATA IN(-)>— From Signature Controller 9 or Previous Device A Model SIGA-WTM Model SIGA-MM1 Notes Maximum 25 ohms resistance perwire. Maximum #12 AWG (2.5mm2) wire. Mm. #18(0.75mm2) Referto Signature Loop Controller Installation Sheetfor wiring specifications. Maximum 10Vdc@350pA. All wiring power limited and supervised. This module will NOT support 2-wire smoke detectors. EDWARDS SYSTEMS TECHNOLOGY Issue 5 Literature Sheet #85001-0297 Page 3 of 4 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Application Compatibility The duty performed by the SIGA-MM1 and SIGA-WTM is deter- The Signature Series modules are compatible only with EST's mined by their factory assigned sub-type code or "Personality Signature Loop Controller. Code". SIGA-WTM NORMALLY-OPEN ALARM - DELAYED LATCHING (Factory set Personality Code 2)- Assigned to one circuit. Warnings & Cautions Configures circuit 1 for Class B normally-open Water-flow Alarm Switches. An ALARM signal is sent to the loop controller when the This module will not operate without electrical power. As fires input contact is closed for approximately 16 seconds. The alarm frequently cause power interruption, we suggestyou discuss condition is latched at the module. further safeguards with your local fire protection specialist. SIGA-WTM NORMALLY-OPEN ACTIVE - LATCHING (Factory set Personality Code 4)- Assigned to one circuit. Configures circuit 2 for Class B normally open dry contact Supervisory and Tamper Switches. An ACTIVE signal is sent to the loop controller when the input contact is closed. The active condition is latched at the module. SIGA-MM 1 NORMALLY-OPEN ACTIVE - NON-LATCHING (Factory set Personality Code 3)- Assigned to one circuit. Configures circuit 1 for Class B normally-open dry contact monitoring input such as from Fans, Dampers, Doors, etc. An ACTIVE signal is sent to the loop controller when the input contact is closed. The active condition is not latched at the module. Ordering Information Table Catalog Ship Wt Number Description lbs (kg) SIGA-MM1 Monitor Module - UL/ULC Listed SIGA-WTM Waterflow/Tamper Module .4 (.15) - UL/ULC Listed Accessories 27193-11 Surface Mount Box - Red, 1-gang 27193-16 Surface Mount Box - White, 1-gang 1 (.6) MFC-A Multifunction Fire Cabinet - Red, supports 7.0 (3.1) Signature Module Mounting Plates SIGA-MP1 Signature Module Mounting Plate, 1.5 (0.70) 1 footprint SIGA-MP2 Signature Module Mounting Plate, 0.5 (0.23) 1/2 footprint SIGA-MP2L Signature Module Mounting Plate, 1.02 (0.46) 1/2_ extended _footprint Specifications Table Catalog Number SIGA-MM1 SIGA-WTM Description Monitor Module Waterflow/Tamper Module Type Code 48 (factory set personality code 3) 49 (factory set personality code 2,4) Address Requirements Uses One Module Address Uses Two Module Addresses Operating Current Standby = 2501jA; Activated = 400pA Standby = 3961jA; Activated = 680pA Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Construction & Finish High Impact Engineering Polymer one-gang front plate - White Operating Temperature: 32°F to 120°F (0°C to 49°C) Storage and Operating Environment Storage Temperature: -4°F to 140°F (-20°C to 60°C) Humidity: 0 to 93% RH On-board Green LED - Flashes when polled LED Operation On-board Red LED - Flashes when in alarm/active Both LEDs - Glow steady when in alarm (stand-alone) Compatibility Agency Listings Use With Signature Loop Controller UL, ULC, CSFM, MEA North American 2-1/2 inch (64 mm) deep one-gang boxes Mounting and 1-1/2 inch (38 mm) deep 4 inch square boxes with one-gang covers and SlGA-MP mounting plates EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We cannot 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. © 2003 EST . . . Printed in U.S.A. (origin) Page 4 of 4 Literature Sheet #85001-0297 Issue 5 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. A product of EST Marketing, Sarasota, FL / IisEx7rs. EDWARD SYTEITECHNOLOGY INTELLIGENT INPUT/OUTPUT DEVICES f Input Modules Models SIGA-CT1, SIGA-CT2 & SIGA-MCT2 Features Multiple applications Including Alarm, Alarm with delayed latching (retard) for waterfiow applications, Supervisory, and Monitor. The installer selects one of four "personality codes" to be downloaded to the module through the loop controller. Plug-in (UIO) or standard 1-gang mount UIO versions allow quick installation where multiple modules are required. The 1-gang mount version is ideal for remote locations that require a single module. Automatic device mapping Signature modules transmit information to the loop controller regarding their circuit locations with respect to other Signature devices on the wire loop. Electronic addressing Programmable addresses are downloaded from the loop controller, a PC, orthe SIGA-PRO Signature Program/Service Tool. There are no switches or dials to set. fl Intelligent device with microprocessor All decisions are made at the module to allow lower communi- cation speed with substantially improved control panel response time and less sensitivity to line noise and loop wiring properties; twisted or shielded wire is not required. D Non-volatile memory Permanently stores serial number, type of device, and job number. Automatically updates historic information including hours of operation, last maintenance date, number of alarms and troubles, and time and date of last alarm. Stand-alone operation The module makes decisions and inputs an alarm from initiating devices connected to it even if the loop controller's polling interrogation stops. (Function availability dependent upon control panel.) Ground fault detection by address Detects ground faults right down to the device level. Diagnostic LEDs Flashing GREEN shows normal polling; flashing RED shows alarm/active state. fl High ambient temperature operation Install in ambient temperatures up to 120°F (49°C). Designed to ISO 9001 standards All Signature products are manufactured to strict international quality standards to ensure highest reliability. * I L $1 SIGA-CT1/2 ) Patented SIGA-MCTZ (UiJ MEA AoL,bI, Description The SlGA-CT1 Single Input Module and SlGA-CT2/SlGA-MCT2 Dual Input Modules are intelligent analog addressable devices used to connect one or two Class B normally-open Alarm, Supervi- sory, or Monitor type dry contact Initiating Device Circuits (IDC). The actual function of these modules is determined bythe "person- ality code" selected by the installer. This code is downloaded to the module from the Signature loop controller during system configuration. The input modules gather analog information from the initiating devices connected to them and convert it into digital signals. The module's on-board microprocessor analyzes the signal and decides whether or not to input an alarm. The SlGA-CT1 and SIGA-CT2 mount to standard North American 1-gang electrical boxes, making them ideal for locations where only one module is required. Separate I/O and data loop connec- tions are made to each module. The SlGA-MCT2 is part of the UIO family of plug-in Signature Series modules. Itfunctions identically to the SIGA-CT2, but takes advantage of the modular flexibility and easy installation that characterizes all UIO modules. Two- and six-module UIO motherboards are available. All wiring connections are made to terminal blocks on the motherboard. UIO assemblies may be mounted in EST enclosures. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL941-739-4638; FAX 941-727-1214 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: PIUSFIELD & NEWPORT. ME Issue 6 Literature Sheet #85001-0241 Page 1 of 4 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Installation SIGA-CT1 and SIGA-CT2: modules mount to North American 21/2 inch(64 mm) deep 1-gang boxes and 11/2 inch (38 mm) deep 4 inch square boxes with 1-gang covers and SlGA-MP mounting plates. The terminals are suited for #12 to #18AWG (2.5 mm2 to 0.75 mm2) wire size. 12 SIGA-MCT2: mount the UlO motherboard inside a suitable EST enclosure with screws and washers provided. Plug the SIGA-MCT2 into any available position on the motherboard and secure the module to the motherboard with the captive screws. Wiring connections are made to the terminals on the motherboard (see wiring diagram). UIO motherboard terminals are suited for #12 to #18 AWG (2.5 mm2 to 0.75 mm2) wire size. UIO Motherboard 6-32 Self-tapping screws I D Caplive Modula screws 0 ---_-__ 416 Flat washers —Cabinet or electrical enclosure Electronic Addressing - The loop controller electronically ad- dresses each module, saving valuable time during system com- missioning. Setting complicated switches or dials is not required. Each module has its own unique serial number stored in its on- board memory. The loop controller identifies each device on the loop and assigns a "soft" address to each serial number. If desired, the modules can be addressed using the SIGA-PRO Signature Program/Service Tool. EST recommends that this module be installed according to latest recognized edition of national and local fire alarm codes. Compatibility The Signature Series modules are compatible only with EST's Signature Loop Controller. Application The duty performed by the SIGA-CT1 and SIGA-CT2/MCT2 is determined by their sub-type code or "Personality Code". The code is selected by the installer depending upon the desired applica- tion and is downloaded from the loop controller. One personality code can be assigned to the SIGA-CT1. Two personality codes can be assigned to the SIGA-CT2/MCT2. Codes 1, 2,3 and 4 can be mixed on SIGA-CT2/MCT2 modules only. For example, personality code 1 can be assigned to the first address (circuit A) and code 4 can be assigned to the second address (circuit B). NORMALLY-OPEN ALARM - LATCHING (Personality Code 1)- Assign to one or both circuits. Configures either circuit A or B or both for Class B normally open dry contact initiating devices such as Pull Stations, Heat Detectors, etc. An ALARM signal is sentto the loop controller when the input contact is closed. The alarm condition is latched at the module. NORMALLY-OPEN ALARM - DELAYED LATCHING (Personality Code 2) - Assign to one or both circuits. Configures either circuit A or B or both for Class B normally-open dry contact initiating devices such as Waterflow Alarm Switches. An ALARM signal is sent to the loop controller when the input contact is closed for approximately 16 seconds. The alarm condition i latched at the module. NORMALLY-OPEN ACTIVE - NON-LATCHING (Personality Code 3)- Assign to one or both circuits. Configures either circuit A or B or both for Class B normally-open dry contact monitoring input such as from Fans, Dampers, Doors, etc. An ACTIVE signal is sent to the loop controller when the input contact is closed. The active condition is not latched at the module. NORMALLY-OPEN ACTIVE - LATCHING (Personality Code 4) - Assign to one or both circuits. Configures either circuit A or B or both for Class B normally open dry contact monitoring input such as from Supervisory and Tamper Switches. An ACTIVE signal is sent to the loop controller when the input Contact is closed. The active condition is latched at the module. Ordering Information Catalog Ship Wt. Number Description lbs (kg) SIGA-CT Single Input Modu le— —UL/ULC.titd 0.4 10.151 SIGA-CT2 Dual Input Module - ULJULC Listed 0.410.151 SIGA-MCT2 Dual Input Plug-in (UlO) Module 0.1 (0.05) - UL, ULC Listed Related Equipment 27193-11 Surface Mount Box - Red, 1-gang 1.0 10.61 27193-16 Surface Mount Box - White, 1-gang 1.0 10.61 SIGA-U102R universal Input-Output Module Board w/Riser 0.32 (0.15) Inputs - Two_Module_Positions SIGA-UI06R universal Input-Output Module Board w/Riser 0.62 (0.28) Inputs -Six _Module _Positions SIGA-UI06 universal Input-Output Module Board 0.56 (0.25) - Six _Module _Positions MFC-A Multifunction Fire cabinet- Red. supports 7.0 (3.1) ___________ Signature Module Mounting Plates SIGA-MP1 Signature Module Mounting Plate, 1 footprint 1.5 (0.70) SIGA-MP2 Signature Module Mounting Plate, 1/2 footprint 0.5 (0.23) SIGA-MP2L Signature Module Mounting Plate, 1/2 extended 1.02 (0.46) footprint EDWARDS SYSTEMS TECHNOLOGY Page 2 of 4 Literature Sheet #85001-0241 Issue 6 Not to be used for installation purposes. - For the most current literature and updates Visit www.est.net. UUULC Lists, a7KS5 EOL ULRJLC Listed 4rKus SQL SIGA.UIOlRl Series motherboard Data In + Date Citmiji + Data Out Door LED SomalI Rod LED lAr000l Typical Wiring Modules will accept #18 AWG (0.75m M2), #16(1.0mm2), and #14AWG (1.50mm2), and #12 AWG (2.50mm2) wire sizes. Note: Sizes #16 AWG (1.0mm2)and #18 AWG (0.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheetfor detailed wiring requirement specifications. Initiating (Slave) Device Circuit Wire Specifications Maximum Allowable Wire Resistance 50 ohms (25 ohms per wire) per Circuit Maximum Allowable Wire Capacitance 0.1pF per Circuit For Design Reference: Wire Size Maximum Distance to EOLR #18 AWG (0.75 mm2) 4,000 ft (1,219 m) #12 AWG _(1.50_mm2) #16 AWG (1.00 mm2) #14 AWG (1.50 mm2) Typical N.C. Irritioting Device Typical N.C. Initiating Device INPUT 1 INPUT 2 A AA Style B (Class B) T132 [EI•? II1 7 UL/ULC Listed Style B (0 B) - ' ' 471(0 EOL UL/ULC Listed AA ULJLC Listed 47Kn EOL 411. 11L Red LED F) Green LED F (Alarm/Active) 4' © © IF (Normal) Red LED .,4L.........__ Green LED 2 1 (Alarm/Active) (Normal) TB1 ID© III TBlO)]01 J DATA IN(*)> I DATAOUT(+) 1, DATA IN (-) > I DATA OUT (-) From Signature Controller I To Next Device or Previous Device SIGA-CT1 NOTES Maximum 25 Ohm resistance perwire. Maximum #12AWG (2.5mm2) wire; Minimum #18AWG (0.75 mm2). L. Referto Signature controller installation sheetforwiring specifications. Maximum 10Vdc@350pA The SIGA-U106R and the SIGA-UI02R do not come with TB 14. 6 All wiring is supervised and power-limited. 7 These modules will not support2-wire smoke detectors. Warnings & Cautions This module will not operate without electrical power. As fires frequently cause power interruption, we suggest you discuss further safeguards with your local fire protection specialist. DATA IN(+))- ( '\ ' DATA OUT(+) 1 DATA IN (-)> I DATA OUT (.) From Signature Controller To Next Device or Previous Device SIGA-CT2 Typical NO InitiaUnQD.~i. I No confleobons otiumpot Sotbngs 1r5q0ir5d or 5tGA-MCT2. SIGA-MCT2 EDWARDS SYSTEMS TECHNOLOGY Issue 6 - Literature Sheet #85001-0241 Page 3 of 4 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. - Specifications Catalog Number SlGA-CT1, SIGA-CT2 I SlGA-MCT2 Description Single Input Module Dual Input Module Type Code 48 (factory set) 49 (factory set) Four sub-types (personality codes) are available Four sub-types (personality codes) are available Address Requirements Uses One Module Address Uses Two Module Addresses Operating Current Standby = 250pA; Activated = 400pA I Standby = 396pA; Activated = 680pA Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Construction High Impact Engineering Polymer North American 21/2 inch (64 mm) deep one-gang boxes and 11/2 inch I U102R/6R/6 Mounting (38 mm) deep 4 inch square boxes with one-gang covers and I SIGA-MP mounting plates I Motherboard Storage and Operating Environment Operating Temperature: 32°F to 120°F (0°C to 49°C) Storage Temperature: -4°F to 140°F (-20°C to 60°C); Humidity: 0 to 93% RH LED Operation On-board Green LED - Flashes when polled; On-board Red LED - Flashes when in alarm/active Both LEDs - Glow steady when in alarm (stand-alone) Compatibility Use with Signature Loop Controller Agency Listings UL, ULC, MEA, CSFM Description (Signature Overview) The Signature Series intelligent analog-addressable system from Edwards Systems Technology is an entire family of multi-sensor detectors and mounting bases, multiple-function input and output modules, network and non-network control panels, and user- friendly maintenance and service tools. Analog information from equipment connected to Signature devices is gathered and converted into digital signals. An onboard microprocessor in each Signature device measures and analyzes the signal and decides whether or not to input an alarm. The microprocessor in each Signature device provides four additional benefits - Self-diagnos- tics and History Log, Automatic Device Mapping, Stand-alone Operation and Fast, Stable Communication. Self-diagnostics and History Log - Each Signature Series device constantly runs self-checks to provide important maintenance information. The results of the self-check are automatically updated and permanently stored in its non-volatile memory. This information is accessible for review any time at the control panel, PC, or using the SIGA-PRO Signature Program/Service Tool. The information stored in device memory includes: Device serial number, address, and type Date of rnrtufacture, hours of operation, and last maintenance date2 Number of recorded alarms and troubles2 Time and date of last alarm' Most recent trouble code logged by the detector - 32 possible trouble codes may be used to diagnose faults. Automatic Device Mapping —The Signature Data Controller (SDC) learns where each device's serial number address is installed relative to other devices on the circuit. The SDC keeps a map of all Signature Series devices connected to it. 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" drawing information showing branch wiring (T-taps), device types and their address are stored on disk for printing hard copy. This takes the mystery Out of the installation. The preparation of as-built drawings is fast and efficient. Device mapping allows the Signature Data Controller to discover: Unexpected additional device addresses. Missing device addresses. Changes to the wiring in the circuit. Most Signature modules use a "personality code" selected by the installer to determine their actual function. Personality codes are downloaded from the SDC during system configuration and are indicated during device mapping. Standalone Operation - A decentralized alarm decision by the device is guaranteed. Onboard intelligence permits the device to operate in standalone (degrade) mode. If Signature loop controller CPU communications fail for more than four seconds, all devices on that circuit go into standalone mode. The circuit acts like a conventional alarm receiving circuit. Each Signature device on the circuit continues to collect and analyze information from its slave devices. When connected to a panel utilizing standalone operation, modules with their "personality" set as alarm devices (IDC) will alarm should their slave alarm-initiating device activate. Fast Stable Communication - Built-in intelligence means less informa- tion needs to be sent between the device and the Signature Data Controller (SDC). Other than regular supervisory polling response, Signature devices only need to communicate with the SDC when they have something new to report. This provides very fast control panel response and allows a lower baud rate (speed) to be used for communication on the circuit. The lower baud rate offers several advantages including: Less sensitivity to circuit wire characteristics. Less sensitivity to noise glitches on the cable. Less emitted noise from the data wiring. Twisted or shielded wiring is not required. Diagnostic LEDs - Twin LEDs on most Signature devices provide visual indication of normal and alarm-active conditions. A flashing green LED shows normal system polling. A flashing red LED means the module is in alarm-active state. Both LEDs on steady indicates alarm-active state - standalone mode. Testing & Maintenance - Automatic self-diagnosis identifies when a Signature device is defective and causes a trouble message. The user-friendly maintenance program shows the current state of each device and other pertinent information. Single devices may be turned off temporarily, from the control panel. Scheduled mainte- nance (Regular or Selected) for proper system operation should be planned to meet the requirements of the Authority Having Jurisdiction (AHJ). Refer to current NFPA 72 and ULC CAN/ULC 536 standards. Quality and Reliability - EST Signature devices are manufactured in North America to strict international ISO 9001 standards. All electron- ics utilize surface mount technology (SMI) for smaller size and greater immunity to RF noise. A conformal coating is used for humidity and corrosion resistance. 1 EST3 V.2 only. Retrievable with SIGA-PRO programming tool. EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We cannot 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. © 2003 EST Printed in U.S.A. (origin) Page 4 of 4 Literature Sheet #85001-0241 Issue 6 Not to be used for installation purposes. For the most current literature, and updates visit www.est.net. A product of EST Marketing, Sarasota, FL p Patented L EDWRD S STEf.IS TEC Hr!OSuGV INTELLIGENT INPUT/OUTPUT DEVICES Control Relay Modules Model SIGA-CR, SIGA-MCR, SIGA-CRR, SIGA-MCRR Features O Provides one no/nc contact (SIGA-CR/MCR) Form "C" dry relay contact can be used to control external appliances such as door closers, fans, dampers etc. O Allows group operation of sounder bases The SIGA-CRR/MCRR reversesthe polarity of its 24 Vdc output, thus activating all Sounder Bases on the data loop. U Plug-in (UIO) or standard 1-gang mount UIO versions allow quick installation where multiple modules are required. The 1-gang mount version is ideal for remote locations that require a single module. U Automatic device mapping Signature modules transmit information to the loop controller regarding their circuit locations with respect to other Signature devices on the wire loop. U Electronic Addressing Programmable addresses are downloaded from the loop controller, a PC, orthe SIGA-PRO Signature Program/Service Tool. There are no switches or dials to set. U Intelligent device with microprocessor All decisions are made at the module to allow lower communi- cation speed with substantially improved control panel response time and less sensitivity to line noise and loop wiring properties; twisted or shielded wire is not required. U Ground fault detection by address Detects ground faults right down to the device level. U Non-volatile memory Permanently stores serial number, type of device, and job number. Automatically updates historic information including hours of operation, last maintenance date, number of alarms and troubles, and time and date of last alarm. U Diagnostic LEDs Flashing GREEN shows normal polling; flashing RED shows alarm/active state. U High ambient temperature operation Install in ambienttemperatures up to 120°F (49°C). 0 Designed to ISO 9001 standards All Signature products are manufactured to strict international quality standards to ensure highest reliability. Description The Control Relay Module and the Polarity Reversal Relay Module are part of EST's Signature Series system. They are intelligent analog addressable devices available in either plug-in (UIO) versions, or standard 1-gang mount versions. The SIGA-CR/MCR Control Relay Module provides a Form "C" dry relay contact to control external appliances such as door closers, fans, dampers etc. This device does not provide supervision of the state of the relay contact. Instead, the on-board microprocessor ensures thatthe relay is in the proper ON/OFF state. Upon command from the loop controller, the SIGA-CR/MCR relay activates the normally open or normally-closed contact. The SIGA-CRR/MCRR Polarity Reversal Relay Module provides a Form "C" dry relay contact to power and activate a series of SIGA- AB4G Audible Sounder Bases. Upon command from the Signature loop controller, the SIGA-CRR reverses the polarity of its 24 Vdc output, thus activating all Sounder Bases on the data loop. Standard-mount versions (SIGA-CR and SIGA-CRR) are installed to standard North American 1-gang electrical boxes, making them ideal for locations where only one module is required. Separate I/O and data loop connections are made to each module. Plug-in UIO versions (SlGA-MCR and SIGA-MCRR) are part of the UIO family of plug-in Signature Series modules. Theyfunction identically to the standard mountversions, buttake advantage of the modular flexibility and easy installation that characterizes all UIO modules. Two- and six-module UIO motherboards are available. All wiring connections are made to terminal blocks on the motherboard. UIO assemblies may be mounted in EST enclosures. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941-739-4638; FAX 941-727-1214 • 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: PIUSFIELD & NEWPORT. ME Issue 7 Literature Sheet #85001-0239 Page 1 of 6 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Installation SIGA-CR and SIGA-CRR: modules mount to North American 21/2 inch (64 mm) deep 1-gang boxes and 11/2 inch (38 mm) deep 4 inch square boxes with 1-gang covers and SIGA-MP mounting plates. The terminals are suited for #12 to #18 AWG (2.5 mm2 to 0.75 mm2) wire size. SIGA-MCR and SIGA-MCRR: mount the UIO motherboard inside a suitable EST enclosure with screws and washers provided. Plug the module into any available position on the motherboard and secure the module to the motherboard with the captive screws. Wiring connections are made to the terminals on the motherboard (see wiring diagram). UlO motherboard terminals are suited for #1210 #18 AWG (2.5 mm2 to 0.75 mm2) wire size. UIO Motherboard 6-32 Self-tapping screws Plug-in (UIO) Captive - Module screws #6 Flat washers Cabinet or electrical enclosure Application The operation of Signature Series control relays is determined by their sub-type code or "Personality Code." Personality Code 8: CONTROL RELAY (SIGA-CR/MCR) - Dry Contact Output. This setting configures the module to provide one Form "C" DRY RELAY CONTACT to control Door Closers, Fans, Dampers, etc. Contact rating is 2.0 amp @24 Vdc; 0.5 amp @ 120 Vac (or 220 Vac for non-UL applications). Personality Code 8 is assigned at the factory. No user configuration is required. Personality Code 8: POLARITY REVERSAL RELAY MODULE (SIGA-CRR/MCRR).This setting configures the module to reverse the polarity of its 24 Vdc output. Contact rating is 2.0 amp @24 Vdc (pilot duty). Personality Code 8 is assigned at the factory. No user configuration is required. Compatibility The Signature Series modules are compatible only with EST's Signature Loop Controller. Warnings & Cautions This module will not operate without electrical power. As fires frequently cause power interruption, we suggest you discuss further safeguards with your local fire protection specialist. Testing & Maintenance The module's automatic self-diagnosis identifies when it is defective and causes a trouble message. The user-friendly maintenance program shows the current state of each module and other pertinent messages. Single modules may be turned off (deactivated) temporarily, from the control panel. Availability of maintenance features is dependent on the fire alarm system used. Scheduled maintenance (Regular or Selected) for proper system operation should be planned to meet the requirements of the Authority Having Jurisdiction (AHJ). Referto current NFPA 72 and ULC CAN/ULC 536 standards. Electronic Addressing - The loop controller electronically ad- dresses each module, saving valuable time during system com- missioning. Setting complicated switches or dials is not required. Each module has its own unique serial number stored in its on- board memory. The loop controller identifies each device on the loop and assigns a "soft" address to each serial number. If desired, the modules can be addressed using the SIGA-PRO Signature Program/Service Tool. EST recommends that this module be installed according to latest recognized edition of national and local fire alarm codes. EDWARDS SYSTEMS TECHNOLOGY Page 2 of 6 Literature Sheet #85001-0239 Issue 7 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Data ln + A + Data Out Green LED (Normal) Red LED (Active) Normally Open Common Normally Closed 1234 Typical Wiring Modules will accept #18 AWG (0.75mm2), #16(1.0mm2), #14AWG (1.50mm2) and #12 AWG (2.5mm2) wire sizes. Note: Sizes #16 AWG (1.0mm2) and #18 AWG (0.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Normally- Normally- Open Common Closed TB2 876 c Red LED © © (Alarm/Active) iJ=__ TB1 I I) GD T Green LED (Normal) Notes hi Refer to Signature Loop Controller Installation Sheet for wiring specifications. NFPA 72 requires that the SlGA-CR/SIGA-MCR be installed in the same room as the device it is controlling. This requirement may not apply in all markets. Check with your local AHJ for details. The SIGA-UI06R and the SIGA-U102R do not come with T1314. zL The SlGA-Ul06 does not come with TB8 through TB13. Supervised and power-limited. If the source is nonpower-limited, maintain a space of 1/4 inch from power-limited wiring or use FPL, FPLP, FPLR, or an equivalent in accordance with the National Electrical Code. 7) Maximum #12 AWG (2.5mm2) wire. Min. #18 (0.75mm2). f DATA IN (+) )- DATA IN(-) > From Signature Controller or Previous Device A SIGA-CR Control Relay DATA OUT (+) DATA OUT (-) To Next Device No connections required for SIGA-MCR. Other modules may require connections. No connections required for SIGA-MCR. Other modules may require connections. SIGA-MCR Control Relay EDWARDS SYSTEMS TECHNOLOGY Issue 7 Literature Sheet #85001-0239 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Page 3 of 8 Audible Bases Bases + • in— 6254A-003 EOL Relay required for supevision Typical Wiring Modules will accept #18 AWG (0.75mm2), #16 (1 .0mm2), #14 AWG (1 .50mm2) and #12 AWG (2.50mm2) wire sizes. Note: Sizes #16 AWG (1 .0mm2) and #18 AWG (0.75mm2) are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. SIGA-AB4G SIGA-AB4G SIGA-AB4G Audible Base Audible Base Audible Base 00 00 625 EOL Relay Listed 24 VDC Supply _A1 Ou A I L 'A jjr~ & __ A A AcR [1\ SIGACRR LG Hi Signature Controller SlGA-CRR Schematic Powai In sorsr Out P0120/ ROset000 n Activated Optional SIGA-CR for disabling/disconnecting sounder base SIGA-MCRR Schematic Power In Power Out Polarity reverses - + + - when activated. SIGA-MCRR Notes A Refer tothe Signature controller installation sheet for wiring. /2. One Pair of Wires (24 Vdc power). One Pair of Wires (Signature Data). Single Wire (24 Vdc power). The SlGA-Ul06R and the SIGA-UI02R do not come with TB14. The SlGA-Ul06 does notcome with TB8through 1813. A Supervised and power-limited. lfthe source is nonpower-limited, maintain a space of 1/4 inch from power-limited wiring or use FPL, FPLP, FPLR, or an equivalent in accordance with the National Electrical Code. g Maximum #12 AWG (2.5mm2)wire; Minimum #18 AWG (0.75 mm2). 10 End-of-Line Relay must monitor and report power supplytroubleto control panel. 11 Class B Data wiring may be "T-tapped." 8 7. 0 S • SIGA-CTI Signature — Data Data Out Circuit + For format operation For General Fire Alarm Operation UL/ULC Listed 24Vdcpower — supply Or 1234 1234 iA Data Out+ Circuit 1 n Data I 51 Green LED (Normal) Red LED (Active)V-4 t 2 Optional SIGA-MCRR _/ LA or SIGA-MCR for disabling/disconnecting No connections requtred for SIGA-MCRF an audible base. Other modules may require connections. —+SGA-UIOlRl series motherboard I No connections required for - ° SIGA-MCRR. Other modules may require connections. Green LED (Normal) Red LED (Active) No connections required for SIGA-MCRR. Other modules may require connections. EDWARDS SYSTEMS TECHNOLOGY Page 4 of 6 Literature Sheet #85001-0239 Issue 7 Not to be used for installation purposes. For the most Current literature and updates visit www.est.net. Specifications Catalog Number SIGA-MCR I SlGA-CRR I SIGA-MCRR Description Control Relay Polarity Reversal Relay Type Code Personality Code 8 (Factory Set) Address Requirements Uses 1 Module Address Operating Current = Standby lOOpA Activated = lOOpA Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Form "C" Relay Type and Rating 24 VDC = 2 amps (pilot duty) 120 Vac = 0.5 amps 220 Vac (non-UL) = 0.5 amps North American 21/2 inch North American 21/2 inch (64 mm) deep 1-gang boxes (64 mm) deep 1-gang boxes and 11/2 inch (38 mm) deep Plugs into and 11/2 inch (38 mm) deep Plugs into Mounting 4 inch square boxes U102R, U106R or U106 4 inch square boxes UI02R, U106R or U106 with 1-gang covers Motherboards with 1-gang covers Motherboards and SIGA-MP mounting and SIGA-MP mounting plates plates Construction & Finish High Impact Engineering Polymer Storage and Operating Operating Temperature: 32°F to 120°F (0°C to 49°C) Environment Storage Temperature: -4°F to 140°F (-20°C to 60°C) Humidity: 0 to 93% RH LED Operation On-board Green LED - Flashes when polled On-board Red LED - Flashes when in alarm/active Compatibility Use With: Signature Loop Controller Agency Listings UL, ULC, CSFM, MEA Ordering Information Catalog Number Description Ship Weight - lbs (kg) SIGA CR Control Relay Module (Standard Mount) UL/ULC Listed 04)0 15) SIGA-MCR Control Relay Module (UIO Mount) - UL Listed 0.18 (0.08) SlGA-CRR Polarity Reversal Relay Module (Standard Mount) - UL/ULC Listed 0.4 (0.15) SIGA-MCRR Polarity Reversal Relay Module (UIO Mount) - UL Listed 0.18 (0.08) Related Equipment 27193-11 Surface Mount Box - Red, 1-gang 1(0.6) 27193-16 Surface Mount Box - White, 1-gang 1(0.6) SIGA-UI02R Universal Input-Output Module Board w/Riser Inputs - Two Module Positions 0.32 (0.15) SIGA-U106R Universal Input-Output Module Board w/Riser Inputs - Six Module Positions 0.62 (0.28) SIGA-U106 juniversal Input-Output Module Board - Six Module Positions 0.56 (0.25) SlGA-AB4G Audible (Sounder) Detector Base 0.3 (0.15) Accessories MFC-A Multifunction Fire Cabinet - Red, supports Signature Module Mounting Plates 7.0 (3.1) SIGA-MP1 Signature Module Mounting Plate, 1 footprint 1.5 (0.70) SIGA-MP2 Signature Module Mounting Plate, 1/2 footprint 0.5 (0.23) SIGA-MP2L Signature Module Mounting Plate, 1/2 extended footprint 1.02 (0.46) EDWARDS SYSTEMS TECHNOLOGY Issue 7 Literature Sheet #85001-0239 Page 5 of 8 Not to be used for Installation purposes. For the most current literature and updates visit www.est.net. Description (Signature Overview) The Signature Series intelligent analog-addressable system from Edwards Systems Technology is an entire family of multi-sensor detectors and mounting bases, multiple-function inputand output modules, network and non-network control panels, and user- friendly maintenance and service tools. Analog information from equipment connected to Signature devices is gathered and converted into digital signals. An onboard microprocessor in each Signature device measures and analyzes the signal and decides whether or not to input an alarm. The microprocessor in each Signature device provides four additional benefits - Self-diagnos- tics and History Log, Automatic Device Mapping, Stand-alone Operation and Fast, Stable Communication. Self-diagnostics and History Log - Each Signature Series device constantly runs self-checksto provide important maintenance information. The results of the self-check are automatically updated and permanently stored in its non-volatile memory. This information is accessible for review any time at the control panel, PC, or using the SIGA-PRO Signature Program/Service Tool. The information stored in device memory includes: Device serial number, address, and type Date of manufacture, hours of operation, and last maintenance date2 Number of recorded alarms and troubles2 Time and date of last alarm' Most recent trouble code logged by the detector - 32 possible trouble codes may be used to diagnose faults. Automatic Device Mapping—The Signature Data Controller (SDC) learns where each device's serial number address is installed relative to other devices on the circuit. The SDC keeps a map of all Signature Series devices connected to it. 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" drawing information showing branch wiring (T-taps), device types and their address are stored on disk for printing hard copy. This takes the mystery out of the installation. The preparation of as-built drawings is fast and efficient. Device mapping allows the Signature Data Controller to discover: Unexpected additional device addresses Missing device addresses Changes to the wiring in the circuit. Most Signature modules use a personality code selected by the installerto determine theiractual function. Personality codes are downloaded from the SDC during system configuration and are indicated during device mapping. Standalone Operation - A decentralized alarm decision by the device is guaranteed. Onboard intelligence permits the device to operate in standalone (degrade) mode. If Signature loop controller CPU communications fail for more than four seconds, all devices on that circuit go into standalone mode. The circuit acts like a conventional alarm receiving circuit. Each Signature device on the circuit continues to collect and analyze information from its slave devices. When connected to a panel utilizing standalone operation, modules with their "personality" set as alarm devices (IDC) will alarm should their slave alarm-initiating device activate. Fast Stable Communication - Built-in intelligence means less information needs to be sent between the device and the Signature Data Controller (SDC). Otherthan regular supervisory polling response, Signature devices only need to communicate with the SDC when they have something new to report. This provides very fast control panel response and allows a lower baud rate (speed) to be used for communication on the circuit. The lower baud rate offers several advantages including: Less sensitivity to circuit wire characteristics Less sensitivity to noise glitches on the cable Less emitted noise from the data wiring Twisted or shielded wiring is not required. Diagnostic LEDs—Twin LEDs on most Signature devices provide visual indication of normal and alarm-active conditions. A flashing green LED shows normal system polling. A flashing red LED means the module is in alarm-active state. Both LEDs on steady indicates alarm-active state - standalone mode. Testing It Maintenance —Automatic self-diagnosis identifies when a Signature device is defective and causes a trouble message. The user-friendly maintenance program shows the current state of each device and other pertinent information. Single devices may be turned off temporarily, from the control panel. Scheduled mainte- nance (Regular or Selected) for proper system operation should be planned to meet the requirements of the Authority Having Jurisdiction (AHJ). Refer to current NFPA 72 and ULC CAN/ULC 536 standards. Quality and Reliability— EST Signature devices are manufactured in North America to strict international ISO 9001 standards. All electron- ics utilize surface mounttechnology (SMT) for smallersize and greater immunity to RF noise. A conformal coating is used for humidity and corrosion resistance. 1 EST3 V.2 only. 2 Retrievable with SIGA-PRO programming tool. EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We cannot 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. © 2004 EST Printed in U.S.A. (origin) Page 6 of 6 Literature Sheet #85001-0239 Issue 7 Not to be used for installation purposes. For the most current literature and updates Visit www.est.net. A product of EST Marketing, Sarasota, FL IFunctionill RIB D'Vices, IiiJ Functional Devices, Inc. p: 800,888.55u8 f 5 f unc p,, I 1 .1 ns C Ilus fu t s ci s' RIBO1 BDC Enclosed Relay 20 Amp SPDT, Class 2 Dry Contact Input, 120 Vac Power Input Org N/O 811, 120000 Yel Wht CONTROL Corrrrrr Neutral CIRCUIT DRY CONTACT INPUT Wht/Red Wht/810 Specifications RIBO2BDC Enclosed Relay 20 Amp SPDT, Class 2 Dry Contact Input, 208-277 Vac Power Input Org N/O 81k 208-277 Vet Tel Red CONTROL Corrrrrt Neutrel or Other Phase CIRCUIT Blo N/C DRY CONTACT INPUT WhtlRed Wht/BIu - Dry Contact Relays I LISTED ( (E ROHS I 1J 0 I Mode In 050 MonO "Boy A,00nioen" otARRA 2008 # Relays & Contact Type: One (1) SPDT Continuous Duty Coil Contact Ratings: Power Input: Expected Relay Life: 10 million cycles minimum mechanical 20 Amp Resistive @ 277 Vac 42 mA 4 120 Vac (RIB01 BDC) Operating Temperature: -30to140'F lll0VA Pilot Duty @ 277 Vac 62 m @ 208-277 Vac (Rl802BDC) Humidity Range: S to 95% (noncondensing) 770 VA Pilot Duty 4 120 Vac Relay Status: LED On = Activated 20 Amp Ballast N/O @ 277 Vac Notes: Dimensions: 2.30"x 3.20x 180" with 50" NPT Nipple 10 Amp Ballast N/C @ 277 Vac Dry Contact Input Operation: Wires: 16, 600V Rated 10 Amp Tungsten N/O @ 120 Vac Close White/Red wire to White/Blue wire to activate Approvals: UL Listed, 1J1916, C-UL 240 Watt Tungsten N/C @ 120 Vac relay. If more than one DRY-CONTACT RIB* shares a California State Fire Marshal, CE, RoHS 2 HP 4 277 Vac single dry-contact input, White/Blue must be Housing Rating: UL Accepted for Use in Plenum, NEMA 1 1 HP 4 120 Vac common. Gold Flash: No Override Switch: No Berg•eiectric Corp. Contractors & Engineers Submittal No. 001 Grand Palisades Villa 70 TAB #4 Fire Alarm System Indicating Devices ET aLlx: " Strobes, Horns, Bells, Chimes S TM Life Safety & Communications Temporal Horns and Horn-strobes 757 Series MEA(E®Y Patented Overview Integrity temporal horns and temporal horn-strobes are specially designed for use with compatible life safety communication and control equipment to alert occupants of a life safety event. The horn emits a piercing low frequency sound that is easily heard above moderate ambient noise levels. The flash from its strobe can be noticed from almost any position in the room, corridor, or large open space. Integrity's rugged plastic housing is made from durable and fire retardant, high impact plastic with a slightly textured surface. Its ingenious mounting plate firmly holds the device in place with a single screw. A separate trim plate is not required. Terminals ac- cept up to #12 AWG (2.5mm2) wire for polarized connections. Strobes are shipped with standard wall mount style "FIRE" lens markings. Where ceiling orientation, other languages, or different lens markings are required, Edwards offers optional LKW and LKC series Lens Marking Kits. These optional lens markings simply snap on to the strobe. Consult Edwards for availability of special lens markings. Integrity horns and horn-strobes are designed for 16 to 33 Vdc operation and must be connected to signal circuits that output a constant (not pulsed) voltage. A diode is used to allow full signal circuit supervision. Standard Features UL 1971-listed synchronizing strobe Integrity strobes synchronize to the latest UL 1971 require- ments when used with a synchronization source. Adjustable Audible Output Select temporal or continuous tones, and High setting for 98 dBA output or Low setting for 94 dBA sound output. Genesis-compatible All Genesis and Integrity strobes on the same circuit meet UL 1971 synchronization requirements when used with an external control module. Approved for public and private mode applications UL 1971-listed as signaling devices for the hearing impaired and UL 1638-listed as protective visual signaling appliances. Durable red or white Noryl front plate ideal for outdoor, industrial or harsh environments. Field changeable field markings Lens language or standard 'FIRE" marking is easily changed with optional LKW and LKC series lens kits. Easy Installation Flush mount to standard North American 4" square or two- gang box. Integrity's universal mounting plate allows it to be wired and then left hanging free for easy inspection and testing before it is fastened to the electrical box. Page 1 of 6 DATA SHEET 85001-0341 to uo ud for mal.aliatifm purposes. Issue 6 Application NOTE: The installation of visible and audible signals are subject to national and local standards, codes, and ordinances. Consult your Authority Having Jurisdiction for device installation requirements, application standards, and minimum performance specifications. Horns During installation, the horn is configured for steady or temporal tone signal and either low (94 dBA) or high (98 dBA) output. When temporal output is selected all horns on a common two-wire circuit are self-synchronized (see specifications). External control modules are not required for audible synchronization. Suggested sound pressure level for each signaling zone used with alert or alarm signals is at least 15dB above the average ambi- ent sound level, or 5dB above the maximum sound level having a duration of at least 60 seconds, whichever is greater, measured 5' (1.5m) above the floor. The average ambient sound level is the RMS, A-weighted sound pressure measured over a 24-hour period. Doubling the distance from the signal to the ear will theoretically result in a-6 dB reduction of the received sound pressure level. The actual effect depends on the acoustic properties of materials in the space. A 3 dBA difference represents a barely noticeable change in volume. ütpUt Angle - Degree, 105 9585 75 dBA 758595105 -Temporal Horn (dBA) Typical Sound Output Distribution dBA measured at 10 ft in anechoic chamber 757 Series Temporal Horn ('HIGH' output) Strobes Edwards strobes are UL 1971-listed for use indoors as wall-mounted public-mode notification appliances for the hearing impaired. Prevail- ing codes require strobes to be used where ambient noise conditions exceed specified levels, where occupants use hearing protection, and in areas of public accommodation. Consult with your Authority Having Jurisdiction for details. As part of the Enhanced Integrity line of products, 757 Series strobes exceed UL synchronization requirements (within 10 mil- liseconds other over a two-hour period) when used with a syn- chronization source. Synchronization is important in order to avoid epileptic sensitivity. Integrity strobes are fully compatible with Edwards Genesis sig- nals. NOTE: The flash intensity of some visible signals may not be adequate to alert or waken occupants in the protected area. Research indicates that the intensity of strobe needed to awaken 90% of sleeping persons is approximately 100 Cd. Edwards recommends that strobes in sleeping rooms be rated at at least 110 Cd. WARNING: These devices will not operate without electrical power. As fires frequently cause power interruptions, further safeguards such as backup power, supplies may, be required. Installation and Mounting All models fit to a standard flush mounted, North-American two- Mounting Plate gang electrical box, 2% inch (69 mm) minimum. Optional flush trims are not required. For sur- face mount, use EST's custom indoor and outdoor surface boxes painted in color-matched red or white epoxy. Edwards recom- mends that fire alarm horn/strobes always be installed in accordance with the latest recognized edi- tion of national and local fire alarm codes. screws (by others) Rousing 5-1/2" (140mm) x 5-1/2' (140mm) x 5/8" (16mm) Mounting Screw (provided) North American 2-gang electric box, 2A" (69mm) minimum (Alternative: 4" square box 2-1/8' (54mm) deep) Surface Box - 5-5/8" (143mm) sq. x 3-9/16" (91 mm) deep Page 2 of 6 DATA Si-IECT 85001-0341 Not 10 be used tor iollaLi'o irpose. Issue 6 Typical Wiring The strobe must be connected to signal circuits which output a constant (not pulsed) voltage. The horn can be connected to continuous voltage circuits. HORN and STROBE FIRST DEVICE ON SAME CIRCUIT + ( Horn/Strobe H orn/Strobe To UL/ULC Listed Fire Alarm Control I Panel Signal Circuit ITo Next Device Resistor ON SEPARATE CIRCUIT HORN and STROBE FIRST Ii DEVICE 5+ To UL/ULC Listed + I To Next Device Fire Alarm Control Panel Signal Circuit Horn/Strobe Horn/Strobe or EDL Resistor To ULIULC Listed + Fire Alarm Control - To Next Strobe Device Panel Signal Circuit or EOL Resistor —a- Strobe Operating Current (RMS) UL 15 c 15/75cd 30 c 75 c llOcd Rating 16 Vdc 109=l 50 130 263 329 16 Vfwr 150 1 210 189 333 j 420 Typical 15cd 15175cd 30 c 75cd llOcd Current 24Vdc 69 90 I 89 159 1 180 24 Vfwr 108 128 1 134 255 1 260 Vdc: volts direct current, regulated and filtered Vfwr: Volts full wave rectified Current Draw Notes and Comments Current values are shown in mA. UL Nameplate Rating can vary from Typical Current due to measurement meth- ods and instruments used. Edwards recommends using the Typical Current for system design including NAC and Power Supply loading and voltage drop calculations. Use the 16 Vdc RMS current ratings for filtered power supply and battery AH calculations. Use the 16 Vfwr RMS current ratings for unfiltered power supply calculations. Fuses, circuit breakers and other overcurrent protection devices are typically rated for current in RMS values. Most of these devices operate based upon the heating affect of the current flowing through the device. The RMS current dBA Output Horn-strobes 0L464 Average - anechoic Peak - anechoic Temporal Steady Temporal Steady Temporal Steady High dB Output 79.0 85.0 97.0 97.0 102.0 102.0 Low dB Output 75.0 79.0 93.0 93.0 98.0 98.0 aenermines one neaning anteci ana onererore, one trip ana noia nnresnoia ror enose Horns UL464 Average - anechoic Peak - anechoic Temporal Steady Temporal Steady Temporal Steady High dBOutput 82.0 85.0 98.0 98.0 104.0 104.0 Low dB Output 75.0 82.0 94.0 94.0 99.0 99.0 CIBA Output Notes and Comments Ail values shown are dBA measured at 10 feet (3.01 m). UL1480 values measured in reverberation room. Average values are measured in anechoic chamber. Page 3of6 D 4 7 A SHEET 850010341 No, t> ie il1SailTTi Issue 6 Light Output Patterns 15 cd i-SO) Series Strobes 15/75 cd ltA Series Strobes uuc1 Output H'OFIZOntal Output 6'qfte. -45 75 t :. °456 :oo -91, b90 30 20 12 cC 10 20 30 103 50 d so 100 Vertical Output Vertical Output 30 so 15 20D 60 Specifications 30 cd i-SAl Scros Strobes 75 cd -401 Series Strobes 110 cd (-SAl Scoot Strohtrs .0 Guta.rt Ho';Zontal Output Nor zontul Outrut nug Ce aeqine negree is 30 -45 U -60 6C d1 ° 10 _60 60 60 40 20 cd 20 40 60 140 100 60 cd 60'100 140 20 100 ..d 103 200 Vertical Output Vertical Output Vertical Output 9 7.. -50.75 -90 ' 6C 6C tsr -60 io 6 0 30 20 25 60 _15 15 so cd 40 100 .10 0 30 45 100 45 609075 60 1409075 60 1.50 so 75 60 =Average Lk Mir Arierage ULerrr =Averoge UL min Vertical 90* Horizontal *90* Rated Strobe Output - candela 757-1A-T.. (od) - UL 1638 757-5A-T . . 15 cd (indoor only) 757-7A-T 75 cd J57-3A-T 30 cd 757-4A-T I 75 cd 757-8A-T 110 cd UL 1971 N/A (horn only) 15 cd (wall mount only) 15 cd wall 15 cd ceiling 30 cd wall 15 cd ceiling 75 cd wall j 60 cd ceiling 110 cd wall 60 cd ceiling 15 cd 75 cd 30 cd 75 cd 120 cd ULC S526 tanoaione yncnronization trooe iiasn at i per second witnin zuu muiiseconas on common circuit horn pulses at temporal rate Characteristics (note 2) within 200 milliseconds on common circuit Operating Volts Strobe: 16-33 Vdc or Vfwr Continuous Horn: 16-33 Vdc or Vfwr Continuous AneChoic: High Setting - 104 dBA (peak)/98 dBA (avg); Low Setting - 99 dBA (peak)/94 dBA (avg) Horn Output (note 1) Reverberant- High Setting -85 dBA (continuous)/82 dBA (temporal); Low Setting - 82 dBA (continuous)/75 dBA (temporal) Horn Current High Output: 40 mA @ 24 Vdc; 55mA © 24 Vrms FWR Low Output: 20 mA © 24 Vdc; 28 mA © 24 Vrms FWR Strobe Flash Synchronization Synchronized at one flash per second. External control module necessary to meet UL 1971 synchronization requirements of 10 milliseconds over a two-hour period. Synchronization Sources G1M-RM, SlGA-CC1S, SIGA-MCC1S, BPS6A, BPS10A Strobe Marking Supplied with LKW-1 "FIRE' red letters vertical both sides (Wall Mount) - see LKW and LKC series for ceiling style and optional markings. Rash Tube Enclosure Clear LEXAN with white marking sleeve Housing Textured, color impregnated engineered plastics - exceeds 94V-0 UL flammability rating Wire Connections Terminals - separate, polarized inputs for Horn & Strobe, #12 AWG (2.5mm2) maximum INDOOR Operating Environment . 32-120° F (0-49° C) ambient temperature. 93% relative humidity @40°C 98% relative humidity @40" C; -31-150° F(-35-66° C) ambient temperature OUTDOOR Operating Environment (757-4A: rated at 48 cd © -35" C per ULJ@ -40° C per ULC) (must use weatherproof box) (757-7A: rated at 17.7 cd © -35° C per UL/@ -40° C per ULC) (757-8A: rated at 70.7 cd © -35° C per UL/@ -40" C per ULC) Mounting - INDOOR Flush: North-American 2-gang box, 3" high x 4" wide x 2A" (69 mm) minimum Surface: 757A-SB Back box Bi-directional: 757A-BDF Mounting Frame Mounting - OUTDOOR Surface: 757A-WB Weatherproof Box . Agency Listings UL 1971, UL 1638, UL 464, ULC S526, ULC CSFM, FM. S525, MEA, CE (All models comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule) Note 1 - Measured at 10 ft (3m) @24 Vdc. Subtract 3 dBA for models with strobes. Note 2- Temporal audible pattern is defined as: ½ sec ON, 1/z Sec OFF, ½ sec ON, ½ sec OFF, ½ sec ON, 112 sec OFF, then repeat cycle. Integrity audible will not be affected by Genesis signal silence operation when on the same two wire circuit with Genesis horn strobes. Page 4 of 6 0-°1A OHFET 85001-0341 ourposcu. Issue 6 Ordering Information Catalog Description pb.on Ship Wt. Number lb. (kg) Temporal Horns - 757-1 AT* Temporal Horn, Red 1.7 (0.8) Temporal Horn-Strobes 7577AT* Temporal Horn-Strobe, 15175cd, Red 7575AT* Temporal Horn-Strobe, 15cd, Red i7573AT* Temporal Horn-Strobe, 30cd, Red 2.0 (0.9) 7574AT* Temporal Horn-Strobe, 75cd, Red 757-8A-T Temporal Horn-Strobe, llOcd, Red Synchronization Sources G1M-RM Genesis Signal Master Remote Mount (1- 0.2 (0.1) gang) SIGA- Synchronization Output Module (Standard 0.5 (0.23) CC1S Mount) - ULJULC Listed SIGA- Synchronization Output Module (UIO Mount) 0.18 (0.08) MCC1S - UL Listed BPS6A 6.5 Amp Booster Power Supply 13(5.9) BPS10A 10 Amp Booster Power Supply 13(5.9) Mounting Accessories 757ASB* Surface Box, Red, Indoor 1.5(0.7) . 5(0 7) 757A-WB Weatherproof Box, Red, Surface 757A-BDF Bi-directional Frame, Red 4(1.8) hftehousings Lens Marking Kits (see note 1) LKW-1 "FIRE", Wall Orientation (supplied) LK\N-1 R "FIRE", Wall Orientation, RED LKW-2 "FEU", Wall Orientation LKN-3 "FIRE/FEU", Wall Orientation LKW-4 "SMOKE", Wall Orientation LKW-5 0.1 (05 "HALON", Wall Orientation LKW-6 "002", Wall Orientation LKW-7 "EMERGENCY", Wall Orientation LKW-8 "ALARM", Wall Orientation LKW-9 "FUEGO", Wall Orientation Add Suffix "W" to catalog no. for WHITE (e.g. 757-7A-7Vrf Change "W" to "C" for CEILING mount. (e.g. LKC- 1) Page 5 0t6 DATA SHEET 85001-0341 Not 10 be ueud f or ins :aUatiu ourposos, Issue 6 WARDS A UTC Fire & Security Company Detection & alarm since 1872 U.S. 1 888-378-2329 F 866-503-3996 Canada Chubb Edwards T519 376 2430 F 519 376 7258 Southeast Asia T: +65 6391 9300 F : +65 6391 9306 India T: +91 80 4344 2000 F: +91 80 4344 2050 Australia 1+61 3 9239 1200 F+61 3 9239 1299 Europe 1+3227251120 F+322721 8613 Latin America 1 305 593 4301 F 305 593 4300 utcfireandsecurity.com © 2010 UTC Fire & Security. All rights reserved. Page 6 of 6 DATA SHEET 85001-0341 be jsyyd for n:allaUoo iyurpoees, Issue 6 >MEA -. - - - Listings pending 4 * One or more patents pending - GE EST Fire & Life Safety Security Notification Appliances Overview The Genesis line of signals are among the smallest, most compact audible-visible emergency signaling devices in the world. About the size of a deck of playing cards, these devices are designed to blend with any decor. Thanks to patented breakthrough technology, GE Security Genesis strobes do not require bulky specular reflectors and lenses. Instead, an exclusive cavity design conditions light to produce a highly controlled distribution pattern. Significant development efforts em- ploying this new technology have given rise too new benchmark in strobe performance - FullLight technology. FullLight strobe technology produces a smooth light distribution pattern without the spikes and voids characteristic of specular reflectors. This ensures the entire coverage area receives consistent illumination from the strobe flash. As a result, Genesis strobes with FullLight technology go well beyond the minimum UL-required "T" pattern, significantly exceeding UL-1971 and ULC-5526 light distri- bution requirements. Genesis strobes and horn-strobes offer 15 to 1.10 candela output, which is selectable with a conveniently-located switch on the side of the device. Models are also available that offer fixed 15/75 cd output. The candela output setting remains clearly visible even after final installation, yet it stays locked in place to prevent unau- thorized tampering. Genesis signals feature textured housings in architecturally neutral white or traditional fire red. An ingenious iconographic symbol indicates the purpose of the device. This universal symbol is code-compliant and is easily recognized by all building occupants regardless of what language they speak. Models with "FIRE" markings are also available. Standard Features Unique low-profile design - The most compact UL-1971/ULC-5526 listed strobe available - Ultra-slim - protrudes less than one inch from the wall - Attractive appearance - 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 - Select public mode flash rate (default) or private mode temporal flash Fixed 15/75 cd model available Easy to install - Fits standard 1-gang electrical boxes - no trim plate needed - Optional trim plate accommodates oversized openings - Pre-assembled with captive hardware - #12 AWG terminals - ideal for long runs or existing wiring Unparalleled performance - Industry's most even light distribution - Meets tough synchronizing standards for strobes - Single microprocessor controls both horn and strobe - Low current draw minimizes system overhead - Independent horn control over a single pair of wires - Highly regulated in-rush current - Multiple frequency tone improves wall penetration - Industry's first temporal strobe output Field Configurabl,e Horns and Strobes Genesis Series S Data Sheet 85001-0573 Issue 6 Not to be used for installation purposes. Page 1 of 6 M0 NOW era Genesis strobes are UL 1971-listed for use indoors as wall-mounted public-mode notification appliances for the hearing impaired. Prevailing codes require strobes to be used where ambient noise conditions exceed 105 dBA (87dBA in Canada), where occupants use hearing protection, and in areas of public accommodation as defined in the Americans with Disabilities Act (see application notes - USA). Combination horn-strobe signals must be installed in accordance with guidelines established for strobe devices. Strobes Although all Genesis strobes are self-synchronizing, when installed with an optional synchronization module, strobe flashes from devices on the some circuit synchronize to within 10 milliseconds of each other indefinitely. This exceeds the two-hour minimum specified in the UL standards. Only one synchronization module is required per circuit. The following guidelines are based on ANSI/NFPA 72 National Fire Alarm Code 119991. When applied and installed in accordance with that code, GE Security strobes meet or exceed the illumination pro- duced by the ADA-specified 75 candela (cd) strobe at 50 feet.* Non-Sleeping Rooms and Corridors: GE Security strobes rated at less than 110 cd per UL 1971 are intended for use in non-sleeping areas only. Install with the bottom of the device at least 80 inches (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 should be more than 50 feet 115.2 ml from the signal (in the horizon- tal plane). NonSléeping Rooms UseOne Wall Mounted Model: Up to 20'x 2016.1 x 6.1m) One 15 cd strobe Up to 30'x 3019.1 x 9.1ml One 30 cd or two 15 cd strobes Up to 40'x 40112.2 m x 12.2 ml One 75 cd or two 30 cd strobes Uo to 50'x 50115.2 x 15.2m) One 110 cd or two 75 cd strobes Corridors Wall Mounted - Model: 15 cd strobes spaced at 100' (30.5 ml Any Length x Max. 20 max. Strobes must be placed within 16.lml Wide 15'(4.5m) of each end of the corridor. * ADA suggests using 75 cd strobes throughout on area, with spacing that never exceeds 50 ft from the strobe to any point in the protected space. Sleeping rooms: GE Security 110 cd strobes are intended for use in sleeping rooms and should be installed along with a smoke detec- tor. It must be wall mounted at least 80" (2.03 ml above floor level, but no closer than 24" 1610 mm) to the ceiling. The distance from the strobe to the pillow must not exceed 1614.8 ml. Sleeping Rooms Use One Wall Mounted Model Any Size 110 cd within 16 feet of pillow For 177 cd ceiling horn-strobes, please refer to data sheet 85001-0559. Horns Genesis horn output reaches as high as 99 dB and features a unique multiple frequency tone that results in excellent wall pen- etration and an unmistakable warning of danger. Horns may be configured for either coded or non-coded signal circuits. They can also be set for low d8 output with a jumper cut that reduces horn output by about 5 dB. 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 level, or 5 dB above the maximum sound level having a duration of at least 60 seconds, whichever is greater, measured 5 feet 11.5 ml above the floor. The average ambient sound level is, A-weighted sound pressure measured over a 24-hour period. Doubling the distance from the signal to the ear will theoretically result in a 6dB reduction of the received sound pressure level. The actual ef- fect depends on the acoustic properties of materials in the space. A 3 dBA difference represents a barely noticeable change in volume. Application Notes - USA Audible signals in the public mode should never have a hound level less than 75 dBA at 10(3 ml per NFPA 72. Signals cannot exceed 120 dBA per ADA and NFPA 72 at the minimum hearing distance to audible appliance. Strobe and combination horn/strobe devices should be installed with the bottom of the device at least 80 inches 12.0 ml and no more than 96 inches 12.4 ml above the finished floor. Horns should be installedwith their tops not less than 6 inches (152 mm) below the ceiling and not less than 90 inches (2.3 ml above the finished floor. Strobes must be used to supplement audible signals wherever the average ambient sound level exceeds 105 dBA. Combination audible/visual signals must be installed in accordance with NFPA guidelines established for strobes. ADA requires visible signals in the following areas: rest rooms, meeting rooms, and other common use areas. sleeping rooms intended for use by persons with hearing impair- ment (in accordance with Title 1 of ADA). work areas used by a person with a hearing impairment (per Title 1 of ADA). Application Notes - Canada (Based in part on 1995 Canada National Building Code) The fire alarm signal sound pressure level shall not exceed 110 dBA in any normally occupied area. The sound pressure level from an audible signal in a floor area used for occupancies other than residential occupancies shall not be less than 10 dBA above ambi- ent levels, and never less than 65 dBA. In sleeping rooms the sound pressure level from an audible signal shall not be less than 75 dBA when any intervening doors between the device and the sleeping room are closed. Audible signal devices shall be installed not less than 1.8 m to the center of the device above the floor (per CAN/ULC S524l. The fire alarm audible signal shall be supplemented by fire alarm 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 de- vice is visible throughout the floor area or portion thereof in which they are installed. For maximum safety, GE Security recommends that strobes be installed as per the guidelines shown here under Strobe Spacing. Data Sheet 85001-0573 Issue 6 Not to be used for installation purposes. Page 2 of 6 Installation Genesis horns and strobes mount to any standard one-gang sur- face or flush electrical box. Matching optional trim plates ore used to cover oversized openings and con accommodate one-gang, two-gang, four-inch square, or octagonal boxes, and European 100 mm square. ured for use with coded systems by cutting a jumper on the circuit 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- cuit. A Genesis Signal Master is required when horn-strobe models are configured for coded systems. Non-temporal, horn-only models sound a steady tone. All Genesis signals come pre-assembled with captive mounting screws for easy in- stallation. Two tabs at the top of the signal unlock the cover to reveal the mounting hardware. The shallow depth of Genesis devices leaves ample room behind the signal for extra wiring. Once installed with the cover in place, no mounting screws are visible. Field Configuration Temporal horn and horn-strobe models are factory set to sound in a three-pulse temporal pattern. Units may be config- Genesis strobes and horn-strobes are shipped from the fac- tory ready for use as UL 1971 compliant signals for public mode operation. These signals may be configured for temporal flash by cutting a jumper on the circuit board. This battery-saving feature is intended for private mode signaling only. Genesis strobes and horn-strobes may be set for 15, 30, 75, or 110 candela output The output setting is changed by simply opening the device and sliding the switch to the desired setting. The device 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 Horn/Strobe with optional trim plate Horns and horn-strobes are factory set for high dB output Low dB output may be selected by cutting a jumper on the circuit board. This reduces the output by about 5 dB. Wiring Field wiring terminals accommodate #18 to #12 AWG (0.75 mm2 to 2.5 mm') wiring. Horns, strobes, and combination horn-strobes are interconnected with a single pair of wires as shown below. Polarity alarm next device end of line device Note: Strobes must have continuous voltage. WARNING. These devices will not operate without electrical power. At fires frequently cause power interruptions, we suggestyou discuss further safeguards with your local fire protection specialist These visual signal oapliances' flash intensity may not be adequate to alert or waken occupants in the protected area. Research indicates that the intensityof strobe needed to awaken 90% of sleeping persons is approximately 100 Cd. GE Security recommends that strobes in sleeping rooms be 110 cd minimum. Data Sheet 85001-0573 Issue 6 Not to be used for installation purposes. Page 3 of 6 Horns Wall Temooral Horns (G1-HD) UL High dB (RMS) Low d8 (RMS) Rating 16 Vdc 26 19 24 Vdc 36 27 33 Vdc 41 33 16 Vfwr 51 37 24 Vfwr 69 52 33 Vfwr 1 76 70 Typical 1 HighdB Low dB Current RMS Mean RMS . Mean. 16 Vdc 22 17 17 14 20 Vdc 24 19 19 16 24 Vdc 27 21 22 18 33 Vdc 32 25 26 22 16 Vfwr 34 15 30 14 20 Vfwr 40 19 34 16 24 Vfwr 45 21 38 18 33 Vfwr 52 24 47 22 Wall Horns (G1-P) Max. Current, UL:Designation Voltage Range RMS Regulated 24 Vdc 16-33 Vdc 13 mA 24fwr ] 16-33Vfwr 11mA Typical Current RMS . Mean 24 Vdc 10 10 24 Vdc 11 11 31 Vdc 12 12 20 Vfwr 9 8 24 Vfwr 10 1 9 Notes and Comments Current values are shown in mA. UL Nameplate Rating can vary from Typical Current due to measurement methods and instruments used. GE Security recommends using the Typical Current for system design including NAC and Power Supply loading and voltage drop calculations. Use the Vdc RMS current ratings for filtered power supply and battery AH calculations. Use the Vfwr RMS current ratings for unfiltered power supply calculations. Fuses, Circuit breakers and other overcurrent protection devices ore typically rated for current in RMS values. Most of these devices operate based upon the heating affect of the current flowing through the device. The RMS current (not the mean cur- rent) determines the heating affect and therefore, the trip and hold threshold for those devices. Our industry has used 'mean' currents over the years. However, UL will direct the industry to use the 2004 RMS values in the future. Current Draw Strobes, Horn-Strobes Multi-cd Wall Strobes (G1-VM) UL . : 15 cd* 30 cd* 15175 cd** . 75 cd*.110 cd* Rating RMS RMS RMS. RMS RMS 16 Vdc 103 lttl 106 255 311 16 Vfwr 125 179 j 170 346 392 '(31-VM multi-cd: (1-V15(5 tlxed 15115 cd Typical 15 cd 30 cd .. 15/75 75 cd 110 cd Current RMS Mean RMS Mean RMS. I.. Mean RMS Mean RMS Mean 16 Vdc 85 79 127 124 150 140 245 243 285 283 20 Vdc 71 66 98 96 123 114 188 186 240 238 24 Vdc 59 55 82 80 104 97 152 150 191 190 33 Vdc 46 44 64 63 84 77 112 111 137 136 16 Vfwr 119 64 169 97 223 126 332 j 203 376 240 20 Vfwr 103 51 143 76 189 100 253 1 150 331 198 24 Vfwr 94 44 129 65 169 85 218 1 121 262 152 33 Vfwr 87 37 112 52 148 1 68 179 1 89 205 106 15 30 75 110 15/75 UL . cd* .cd* cd* cd* . cd** Rating RMS. RM RMS . RMS RMS 16 Vdc 129 167 281 337 172 16 Vfwr 176 230 397 1 443 269 Typical . 15 cd 30 cd 15/75 . .75 cd . . 110 cd Current RMS Mean RM "iean RMS I Mean RMS. Mean .RMS . Mean 16 Vdc 102 89 135 I 129 160 152 246 242 309 305 20 Vdc 88 77 109 104 137 129 193 190 248 243 24 Vdc 81 71 94 90 122 114 161 158 203 200 33 Vdc 74 64 72 74 106 98 1 124 121 1 154 151 16 Vfwr 144 77 182 106 247 143 352 212 393 249 20 Vfwr 141 68 162 87 220 120 274 158 362 210 24 Vfwr 136 65 152 76 1 203J 106 235 133 282 165 33 Vfwr 125 54 1 144 1 65 196 94 201 101 232 123 Wall Temporal Horn-strobes - Low dB Setting 15 30 75 . 110 15/75 cd cd* cd cd* cd** Rating RMS RMS RMS RMS RMS.. 16 Vdc 122 160 274 330 146 16 Vfwr 162 216] 383 429 231 Typical 15 cd 30 cd 15/75 75 cd 1 110 cd Current RMS Mean RMS Mean RMS Mean RMS Mean RMS Mean 16 Vdc 96 84 130 124 158 149 j 243 240 302 297 20 Vdc 79 70 104 99 133 124 189 186 241 237 24 Vdc 68 61 88 84 119 110 I 156 1 154 197 193 33 Vdc 56 52 fl 68 100 93 1118 I 116 146 143. 16 Vfwr 128 69 180 104 241 139 344 204 389 244 20 Vfwr 118 60 157 84 213 l 115 266 156 343 200 24 Vfwr 113 54 144 74 195 l 101 J230 128 279 161 33 Vfwr 112 48 137 64 182 87 197 99 226 117 Wall Temporal Horn-strobes - High dB Setting *G1HDVM multi-cd **G1FHDV1S7S fixed 15/75 cd *G1HDVM multi-cd **G1F_HDV1575 fixed 15/75 cd Data Sheet 85001-0573 Issue 6 Not to be used for installation purposes. Page 4 of 6 Average Sound Output (dBA) (High dB setting, anechoic, 24V, measured at loft) Light output - (effective cd) Percent of UL rating versus angle dBA output Temporal Horns, Horn-strobes )G1-HD, G1-HDVM series) High dB UL464 Average Peak Setting Temporal Steady TemP0r0l,' Temporal! Steady P Steady 16 Vdc 81.4 85.5 91.4 1 94.2 24 Vdc 84.4 88.6 94.5 197.6 33 Vdc 86.3 90.4 96.9 99.5 Low dB Average I Peak Setting Temporal LiL464 Temporal! Steady Steady Temporal! Steady 16 Vdc 76.0 801) 86.3 - 89.2 24 Vdc 79.4 83.5 89.8 92.5 33 Vdc 82.1 86.5 [ 92.5 95.3 Steady Tone Horns (131-P series) ______ UL464 Average Peak 16 Vdc 77 dBA, min 85 dBA 91 dBA 16Vfwr 1 77 dBA, min 85 dBA 91 dBA Notes All values shown are dBA measured at 10 feet 13.01ml. UL464 values measured in reverberation room. Average and Peak values are measured in onechoic chamber. Specifications Housing Red or white textured uv stabilized, color impregnated engineered plastic. Exceeds 94V-0 UL flammability rating. Lens Optical grade polycarbonate (clear) M Mounting Flush mount 2½ 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 (0-49°C) ambient temperature. 93% relative humidity listings/approvals UL 1971, UL 1638, UL 464, ULC S525, ULC S526, CSFM, CE, FCC, (MEA, FM pending).Agency (All models comply with ADA Code of Federal Regulation Chapter 28 Port 36 Final Rule.) Dimensions lHxWxDl 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 1149 mm(; Depth - ½ 113 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 GI-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 some circuit Compatible synchronization G1M, G1M-RM, SIGA-CC1S, SIGAMCC1S 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 ½ sec ON, ½ sec OFF, ½ sec ON, ½ sec OFF, ½ sec ON, 11/z sec OFF, then repeat cycle * Not compatible with G1-P Series horns. Data Sheet 85001-0573 Issue 6 Not to be used for installation purposes. Page of 6 J L Security U.S. T 888-378-2329 F 866-503-3996 Canada T 519 376 2430 F 519 376 7258 Asia T 852 2907 8108 F 852 2142 5063 Australia 16139259 4700 F 613 9259 4799 Europe T322725 1120 F 32 2 72186 13 Latin America T 305 593 4301 F 305 593 4300 w.gesecurity.com © 2006 General Electric Company All Rights Reserved Ordering Information Catalog Number White Red Description Finish Finish G1-HDVM G1R- Genesis Horn-Strobe (selectable 15, 30, 75, or 110 cd output, HDVM selectable high/low dO 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) G1F- G1RF- Genesis Horn-Strobe (selectable 15, 30, 75, or 110 cd output, HDVM HDVM selectable high/low dB output) - with "FIRE" marking G1F-Vh1 G1RF-VM Genesis Strobe (selectable 15, 30, 75, or 110 cd output) -with "FIRE" marking G1RFHD Genesis Temporal Horn (selectable high/low dB output) "FIRE" -with marking G1F-P G1RF-P Genesis Steady Horn with "FIRE" marking (not compatible with Genesis Signal Master) G1F- G1RF- 15/75 cd temporal horn-strobe, hi/lo dB-24V HDV1575 HDV1575 -with "FIRE" marking (see note 1) G1F F- 15/75 cd strobe - with "FIRE" marking (see note 1) V1575 V1575 Ship Wt. lbs (kg) 0.25 (0.11) Genesis Series is a Trademark Mounting Accessories of GE Security. G1T 1 GiRT Genesis Trim Plate (for two-gang or 4" square boxes) I 0.15 (0.7) Gil FIRE GIRT- Genesis Trim Plate (for two-gang or 4" square boxes) 015(07) - FIRE with "FIRE" markings 27193-16 27193-11 One-gang surface mount box 1(0.4) Synchronization Modules G1M Genesis Signal Master - Snap-on Mount G1M-RM Genesis Signal Master - Remote Mount (1-gang) 0.2(0.1) SIGA-C(1S Intelligent Synchronization Output Module (2-gong) 0.5 (0.23) SIGA-MCC1S Intelligent Synchronization Output Module Plug-in UIO) 0.18)0.08) 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. I 1 ' FIRE Li Genesis Horn-Strobes may be ordered in red or white, with or without 'FIRE' marking. Order matching trim plates separately. imagination at work Data Sheet 85001-0573 Issue 6 Not to be used for installation purposes. Page 6 of 6 Bergeectrc Corp- & Engineers Submittal No. 001 Grand Palisades Villa 70 TAB #5 Fire Alarm System Backup Batteries Dimensions (mm) UB12120 (12V12Ah) NOTE Nominal Voltage 12V Nominal Capacity (20HR) 12Ah Length 151 +/-lmm(5.94 inches) Dimensions Width 99 +/-l=(3.9090 inches) Height 96 +/-2mm(3.78 inches) Total Height 102 +/-2mm(4.02 inches Weight Approx. 4.0 kg (8.821bs) Standard Terminal Fl - Faston Tab No. 18 1• ____ 102 Standard Terminal men Fl (Fast Tab No. In ho8 Opliona] Terminal mm F1(FastTab No. 258) h0;8 UB12120 (12V12Ah) 20 hour rate (0.35A) 12 Ah Max. Discharge Current (5 sec.) 100A Capacity 10 hour rate (0.63A) 10.8 Ah 5 hour rate (1.12A) 9.6 Ah Initial Charging Current less 1 hour rate (4.2A) 7.2 Ah Cycle than 3.6A Voltage 14.40V Constant 15.00V at 20°C(68°F) Temp. Coefficient-30mV/°C 40°C(104°F) 105% Capacity affected 20°c(68°F) 10o% \To1 tage by Temperature o°C(32°F) 85% Charge Standby Initial Charging Current less than 3.6A Voltage 13.50V 13.80V at Internal Resistance Fully charged battery (20°C, 20°C (68°F) 68°F) 20milliohms Temp. Coefficient-20mV/°C Disdiare Characterisfics (20 C,60 °F) 13,0 12.0 9.0 j48)06A14A 11 2A 8.0 1 2 3 5 10 20 30 60 2 3 5 10 20 30 Discharge Time 1 _ii (h)3 - 1I I 50 IiiIIi I 30 (rriai) 40°C I04 F' 0° (32F so 5 ------------ - 23 5 0 20 30 - A) Discharge Current UB1270 (12V7Ah) NOTE 1 A... Nominal Voltage 12V Nominal Capacity (20HR) 7 Ah Length 151 +/-1rnm(5.94 inches) Dimensions Width 65 +/-lmm(2.56 inches) Height 95 +/-2mm(3.74 inches) Total Height 101 +/-2mm(3.98 inches) Weight Approx. 2.50 kg (5.501bs) Standard Terminal Fl - Faston Tab No. 187 Biiiiensiolls (iulll) taalard Termuia! 111111 Fl (Fast Tab No. In 4.75 F--r- h0.8 Olfienallerfihinal mm F2 (Fast Tab No. 258) F-1 T ho.8 .a 3-1 i ;1s1L UB1270 (12V7Ah) 20 hour rate (0.35A) 7 Ah Max. Discharge Current (5 sec.) Capacity 10 hour rate (0.63A) 6.3 Ah 5 hour rate (1.12A) 5.6 Ah IththJ Charging Current less 1 hour rate (4.2A) 4.2 Ah Cycle than 2.1A Voltage 14.40V Constant 15.00V at 20°C(68°F) Temp. Coefficient-30mV/°C Capacity affected 40°C(104°F) 105% by Temperaare 20°C(68°F) 100% Voltage Charge o°C(32°F) 85% Standby Initial Charging Current less than 2.1A Voltage 13.50V 13.80V at Internal Resistance Fully charged battery (20°C, 20°C (68°F) 68°F) 35mi1liohms Temp. Coefficient-20mV/°C - - NchargeCh 13.0 = - E120 9.0 58A21 i 8.0 1 2 345 10 20 30 1 2 34 5 10 20 nn Discharge Time Dishcharge Characterimçj °C/32°F,40°Cj4 {3 - 50 E 30 20 _ 40°04 10 500 - 23 5 20 30 A). Dcharge Current t T1 FIRE ALARM AND EMERGENCY COMMUNICATION SYSTEM RECORD OF COMPLETION To be completed by the system installation contractor at the time of system acceptance and approval. It shall be permitted to modify this form as needed to provide a more complete and/or clear record. Insert N/A in all unused lines. Attach additional sheets, data, or calculations as necessary to provide a complete record. PROPERTY INFORMATION INSTALLATION, SERVICE, AND TESTING CONTRACTOR INFORMATION Installation contractor for this equipment: Bergelectric Corp Address: 650 Opper Street, Escondido, CA. 92029 License or certification number: CIO-85046 Phone: (760) 746-1003 Fax: E-mail: Service organization for this equipment: Address: License or certification number: Phone: Fax: E-mail: A contract for test and inspection in accordance with NFPA standards is in effect as of: Contracted testing company: .. Address: Phone: Fax: E-mail: Contract expires: Contract number: . Frequency of routine inspections: DESCRIPTION OF SYSTEM OR SERVICE Fire alarm system (nonvoice) D Fire alarm with in-building fire emergency voice alarm communication system (EVACS) F1 Mass notification system (MNS) . E] Combination system, with the following components: El Fire alarm 0 EVACS 0 MNS 0 Two-way, in-building, emergency communication system D other (specif): . NFPA 72, Fig. 10.18.2.1.1 (p. 1 of 12) Copyright © 2009 National Fire Protection Association This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. 3. DESCRIPTION OF SYSTEM OR SERVICE (continued) NFPA 72 edition: 2010 Additional description of system(s): 3.1 Control Unit Manufacturer: Edwards 3.2 Mass Notification System 3.2.1 System Type: E] In-building MNS—combination E] In-building MNS—stand-alone o Other (specify): 3.2.2 System Features: Model number: QS1 Z This system does not incorporate an MNS 0 Wide-area MNS 0 Distributed recipient MNS El Combination fire alarm/MNS 0 MNS autonomous control unit 0 Wide-area MNS to regional national alerting interface Local operating console (LOC) 0 Direct recipient MNS (DRMNS) 0 Wide-area MNS to DRMNS interface El Wide-area MNS to high-power speaker array (}{PSA) interface 0 In-building MNS to wide-area MNS interface D Other (specify): 3.3 System Documentation Z An owner's manual, a copy of the manufacturer's instructions, a written sequence of operation, and a copy of the numbered record drawings are stored on site. Location: • Panel Room/Electric Room 3.4 System Software 0 This system does not have alterable site-specific software. Operating system (executive) software revision level: Site-specific software revision date: - - -- Revision completed by: A copy of the site-specific software is stored on site. Location: Panel Room/Electric Room - 3.5 Off-Premises Signal Transmission 0 This system does not have off-premises transmission. Name of organization receiving alarm signals -with phone numbers: Alarm: NMC - Phone: 800-662-1711 Supervisory: NMC - Phone: 800-662-1711 Trouble: NMC Phone: 800-662-1711 Entity to which alarms are retransmitted: - Phone: - Method of retransmission: Digital Alarm Communicator If Chapter 26, specify the means of transmission from the protected premises to the supervising station: If Chapter 27, specify the type of auxiliary alarm system: 0 Local energy 0 Shunt 0 Wired 0 Wireless NFPA 72 Fig 10 18.2.1. 1 (p 2 of 12) Copyright @2009 National Fire Protection Association. This form maybe copied for individual use other than for resale. It may not be copied for commercial sale or distribution. 4. CIRCUITS AND PATHWAYS 4.1 Signaling Line Pathways 4.1.1 Pathways Class Designations and Survivability Pathways class: B Survivability level: 1 Quantity: (See NFPA 72, Sections 12.3 and 12.4) 4.1.2 Pathways Utilizing Two or More Media Quantity: N/A Description: 4.1.3 Device Power Pathways No separate power pathways from the signaling line pathway Power pathways are separate but of the same pathway classification as the signaling line pathway El Power pathways are separate and different classification from the signaling line pathway 4.1.4 Isolation Modules Quantity: N/A 4.2 Alarm Initiating Device Pathways 4.2.1 Pathways Class Designations and Survivability Pathways class: B Survivability level: 1 Quantity: (See NFPA 72, Sections 12.3 and 12.4) 4.2.2 Pathways Utilizing Two or More Media Quantity: N/A Description: 4.2.3 Device Power Pathways Z No separate power pathways from the initiating device pathway El Power pathways are separate but of the same pathway classification as the initiating device pathway El Power pathways are separate and different classification from the initiating device pathway 4.3 Non-Voice Audible System Pathways 4.3.1 Pathways Class Designations and Survivability Pathways class: B Survivability level: 1 Quantity: 3 (See NFPA 72, Sections 12.3 and 12.4) 4.3.2 Pathways Utilizing Two or More Media Quantity: N/A Description: . 4.3.3 Device Power Pathways Z No separate power pathways from the notification appliance pathway Power pathways are separate but of the same pathway classification as the notification appliance pathway Power pathways are separate and different classification from the notification appliance pathway NFPA 72, Fig. 10.18.2.1,1 (p.3 of 12) Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. 5. ALARM INITIATING DEVICES 5.1 Manual Initiating Devices 5.1.1 Manual Fire Alarm Boxes Type and number of devices: Addressable: 6 Other (specify): 5.1.2 Other Alarm Boxes Description: Type and number of devices: Addressable: Other (specify): 5.2 Automatic Initiating Devices -D This system does not have manual fire alarm boxes. Conventional: Coded: Transmitter: Z This system does not have other alarm boxes. Conventional: Coded: Transmitter: 5.2.1 Smoke Detectors 0 This system does not have smoke detectors. Type and number of devices: Addressable: 10 Conventional: Other (specify): Type of coverage: 0 Complete area Partial area 0 Nonrequired partial area Other (specify): Type of smoke detector sensing technology: 0 Ionization 0 Photoelectric 0 Multicriteria 0 Aspirating 0 Beam Other (specify): 5.2.2 Duct Smoke Detectors Z This system does not have alarm-causing duct smoke detectors. Type and number of devices: Addressable: Conventional: Other (specify): --...--...--.-----. Type of coverage: Type of smoke detector sensing technology: 0 Ionization 0 Photoelectric 0 Aspirating 0 Beam 5.2.3 Radiant Energy (Flame) Detectors 0 This system does not have radiant energy detectors. Type and number of devices: Addressable: Conventional: Other (specify): .. . Type of coverage:............. 5.2.4 Gas Detectors 0 This system does not have gas detectors. Type of detector(s): Number of devices: Addressable: Conventional: Type of coverage: 5.2.5 Heat Detectors 0 This system does not have heat detectors. Type and number of devices: Addressable: 4 Conventional: Type of coverage: 0 Complete area 0 Partial area 0 Nonrequired partial area 0 Linear 0 Spot Type of heat detector sensing technology: 0 Fixed temperature 0 Rate-of-rise 0 Rate compensated NFPA72, Fig. 10.18.2.1.1 (.4of12) Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. ALARM INITIATING DEVICES (continued) 5.2.6 Addressable Monitoring Modules Number of devices: 6 5.2.7 Waterfiow Alarm Devices Type and number of devices: Addressable: 1 5.2.8 Alarm Verification Number of devices subject to alarm verification: 5.2.9 Presignal Number of devices subject to presignal: Describe presignal functions: 5.2.10 Positive Alarm Sequence (PAS) Describe PAS: 5.2.11 Other Initiating Devices Describe: 0 This system does not have monitoring modules. 0 This system does not have waterfiow alarm devices. Conventional: Coded: Transmitter: This system does not incorporate alarm verification. Alarm verification set for: seconds This system does not incorporate pre-signal. Z This system does not incorporate PAS. This system does not have other initiating devices. SUPERVISORY SIGNAL-INITIATING DEVICES 6.1 Sprinkler System Supervisory Devices 0 This system does not have sprinkler supervisory devices. Type and number of devices: Addressable: 1 Conventional: Coded: Transmitter: Other(specify): ,,,,,.............. ........ ., .... .. ...... ...... ........... ............... 6.2 Fire Pump Description and Supervisory Devices This system does not have a fire pump. Type fire pump: 0 Electric pump 0 Engine Type and number of devices: Addressable: Conventional:Coded:Transmitter: Other (specify): 6.2.1 Fire Pump Functions Supervised El Power 0 Running 0 Phase reversal 0 Selector switch not in auto 0 Engine or control panel trouble 0 Low fuel Other (specify): 6.3 Duct Smoke Detectors (DSDs) 0 This system does not have DSDs causing supervisory signals. Type and number of devices: Addressable: Conventional: Other (specify): ... ...... .... Type bfcoverage: Type of smoke detector sensing technology: 0 Ionization Z Photoelectric 0 Aspirating 0 Beam 6.4 Other Supervisory Devices Z This system does not have other supervisory devices. Describe: NEPA 72, Fig. 10.18.21.1 (p. 5o112) Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. MONITORED SYSTEMS 7.1 Engine-Driven Generator 7.1.1 Generator Functions Supervised El Engine or control panel trouble 0 Generator running o Other (specify): 7.2 Special Hazard Suppression Systems Description of special hazard system(s): 7.3 Other Monitoring Systems Description of special hazard system(s): ANNUNCIATORS 8.1 Location and Description of Annunciators Location 1: Location 2: Location 3: Z This system does not have a generator. 0 Selector switch not in auto 0 Low fuel This system does not monitor special hazard systems. This system does not monitor other systems. Z This system does not have annunciators. ALARM NOTIFICATION APPLIANCES 9.1 In-Building Fire Emergency Voice Alarm Communication System ED This system does not have an EVACS. Number of single voice alarm channels: Number of multiple voice alarm channels: Number of speakers: Number of speaker circuits: Location of amplification and sound-processing equipment: Location of paging microphone stations: Location 1: Location 2: Location 3: 9.2 Nonvoice Notification Appliances . 0 This system does not have nonvoice notification appliances. Horns: 50 With visible: 16 Bells: 1 With visible: Chimes: With visible: Visible only: Other (describe): 9.3 Notification Appliance Power Extender Panels 0 This system does not have power extender panels. Quantity: 1 Locations: FACP/Electric Room NFPA 72, Fig. 10.18.2.1.1 (p.6 of 12) Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. MASS NOTIFICATION CONTROLS, APPLIANCES, AND CIRCUITS 0 This system does not have an MNS. TWO-WAY EMERGENCY COMMUNICATION SYSTEMS 11.1 Telephone System Z This system does not have a two-way telephone system. Number of telephone jacks installed: Number of warden stations installed: Number of telephone handsets stored on site: ... Type of telephone system installed: 0 Electrically powered 0 Sound powered 11.2 Two-Way Radio Communications Enhancement System This system does not have a two-way radio communications enhancement system. Percentage of area covered by two-way radio service: Critical areas: % General building areas: . Amplification component locations: Inbound signal strength: dBm Outbound signal strength:dBm Donor antenna isolation is:dB above the signal booster gain Radio frequencies covered Radio system monitor panel location: ... . ................ NFPA 72, Fig. 10.18.2.1.1 (p 7 of 12) - Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. TWO-WAY EMERGENCY COMMUNICATION SYSTEMS (continued) 11.3 Area of Refuge (Area of Rescue Assistance) Emergency Communications Systems Z This system does not have an area of refuge (area of rescue assistance) emergency communications system. Number of stations: Location of central control point: Days and hours when central control point is attended: Location of alternate control point: Days and hours when alternate control point is attended: 11.4 Elevator Emergency Communications Systems Z This system does not have an elevator emergency communications system. Number of elevators with stations: Location of central control point: Days and hours when central control point is attended: Location of alternate control point: Days and hours when alternate control point is attended: 11.5 Other Two-Way Communication Systems Describe: CONTROL FUNCTIONS This system activates the following control fuctions: O Hold-open door releasing devices 0 Smoke management 0 HVAC shutdown 0 F/S dampers E] Door unlocking Elevator recall 0 Fuel source shutdown 0 Extinguishing agent release Elevator shunt trip 0 Mass notification system override of fire alarm notification appliances Other (specify): 12.1 Addressable Control Modules 0 This system does not have control modules. Number of devices: Other (specify): 13. SYSTEM POWER 13.1 Control Unit 13.1.1 Primary Power Input voltage of control panel: 12OVAC Overcurrent protection: Type: Breaker Location (of primary supply panel board): FACP/Electric Room Disconnecting means location: Panel Breaker # 13.1.2 Engine-Driven Generator Location of generator: Location of fuel storage: Control panel amps: Amps: 20 This system does not have a generator. Type of fuel: NFPA 72, Fig. 10.18.2.1.1 (p.8 of 12) Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. 13. SYSTEM POWER (continued) 13.1.3 Uninterruptible Power System This system does not have a UPS. Equipment powered by a UPS system: .................................................................................... Location of UPS system: .................................................... Calculated capacity of UPS batteries to drive the system components connected to it: In standby mode (hours): In alarm mode (minutes): 13.1.4 Batteries Location: FACP Type: Sealed Nominal voltage: 12 Amp/hourrating: 12ah Lead Acid Calculated capacity of batteries to drive the system: In standby mode (hours): 24 In alarm mode (minutes): El Batteries are marked with date of manufacture 0 Battery calculations are attached 13.2 In-Building Fire Emergency Voice Alarm Communication System or Mass Notification System Z This system does not have an EVACS or MNS system. 13.2.1 Primary Power Input voltage of EVACS or MNS panel:EVACS or MNS panel amps: Overcurrent protection: Type: Amps: Location (of primary supply panel board):,. . ............................................... Disconnecting means location: 13.2.2 Engine-Driven Generator This system does not have a generator. Location of generator: ........................................................................ Location of fuel storage: Typeoffuel: 13.2.3 Uninterruptible Power System This system does not have a UPS. Equipment powered by a UPS system: -. Location of UPS system: Calculated capacity of UPS batteries to drive the system components connected to it: In standby mode (hours):In alarm mode (minutes): 13.2.4 Batteries Location: Type: Nominal voltage:Amp/hour rating: Calculated capacity of batteries to drive the system: In standby mode (hours): In alarm mode (minutes): 0 Batteries are marked with date of manufacture 0 Battery calculations are attached NFPA 72 Fig 10.18.2.1.1 (p 9 of 12) Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. SYSTEM POWER (continued) 13.3 Notification Appliance Power Extender Panels 0 This system does not have power extender panels. 13.3.1 Primary Power Input voltage of power extender panel(s): 1 20vac Power extender panel amps: Overcurrent protection: Type: Breaker Amps: 20 Location (of primary supply panel board): FACP/Electric Room Disconnecting means location: Panel Breaker # 13.3.2 Engine-Driven Generator This system does not have a generator. Location of generator: Location of fuel storage: Type of fuel: 13.3.3 Uninterruptible Power System Z This system does not have a UPS. Equipment powered by a UPS system: Location of UPS system: Calculated capacity of UPS batteries to drive the system components connected to it: In standby mode (hours): In alarm mode (minutes): 13.3.4 Batteries Location: FACP Type: Sealed Nominal voltage: 12 Amp/hour rating: 7 Lead Acid Calculated capacity of batteries to drive the system: In standby mode (hours): 24 In alarm mode (minutes): 5 Z Batteries are marked with date of manufacture 0 Battery calculations are attached 14. RECORD OF SYSTEM INSTALLATION Fill out after all installation is complete and wiring has been checked for opens, shorts, ground faults, and improper branching, but before confucting operational acceptance tests. This is a: 0 New system 0 Modification to an existing system Permit number: The system has been installed in accordance with the following requirements: (Note any or all that apply.) NFPA 72, Edition: 2010 NFPA 70, National Electrical Code, Article 760, Edition: 2010 Manufacturer's published instructions Other (specify): System deviations from referenced NFPA standards: Printed name: 75o,'ZZ Date: (p /? JL,/ Organization: '5 JZZX.. Title: 5ifl 7.I+. .....Phone: z.L, NFPA 72 Fly 10 18 2 11 (p 10 of 12) Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. RECORD OF SYSTEM OPERATIONAL ACCEPTANCE TEST Z New system All operational features and functions of this system were tested by, or in the presence of the signer shown below, on the date shown below, and were found to be operating properly in accordance with the requirements for the following: F1 Modifications to an existing system All newly modified operational features and functions of the system were tested by, or in the presence of the signer shown below, on the date shown below, and were found to be operating properly in accordance with the requirements of the following: NFPA 72, Edition: 2010 Z NFPA 70, National Electrical Code, Article 760, Edition: 2010 o Manufacturer's published instructions Other (specify): El Individual device testing documentation [Inspection and Testing Form (Figure 14.6.2.4) is attached] Signed: Printed name: Date: Organization: Title: Phone: CERTIFICATIONS AND APPROVALS 16.1 System Installation Contractor: This system, as specified herein, has been installed and tested according to all NFPA standards cited herein. Printed name: Date: 6 Org ization: Title: 5............................. .................................................Phone: (/ 16.2 System Service Contractor: The undersigned has a service contract for this system in effect as of the date shown below. Signed: Printed name: Date: Organization: Title: .Phone: 16.3 Supervising Station: This system, as specified herein, will be monitored according to all NFPA standards cited herein. Signed: Printed name: Date: Organization: Title: Phone: NFPA 72, Fig. 10.18.2.1.1 (pllotl2) Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution. 16. CERTIFICATIONS AND APPROVALS (continued) 16.4 Property or Owner Representative: This system, as specified here onitored ac g to all NFPA standards cited herein. Signed: Printed name: Date: Organizati Title: Phone: 16.5 Authority Having Jurisdiction: I have witnessed a satisfactory acceptance test of this system and find it to be installed and operating properly in accordance with its approved plans and specifications, with its approved sequence of operations, and with all NFPA standards cited herein. Signed: ................................Printed name: Date:....../.7/ Organization: ''..FE.z/ Title: 7tJn1._—Phone: NFPA 72, Fig. 10.18.2.1.1 (p. 12 of 12) Copyright © 2009 National Fire Protection Association. This form may be copied for individual use other than for resale. It may not be copied for commercial sale or distribution.