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CO & FIRE ALARM SUBMITTAL - 05-00099 - BYUI Snow Building - Addition
O� (tEXBUgC, x =HEa CITY OF Certificate of Occupancy REX CW America's Family Community City of Rexburg Department of Community Development 19 E. Main St. / Rexburg, ID. 83440 Building Permit No: 0500099 Applicable Edition of Code: International Building Code 2003 Site Address: Use and Occupancy: BYU -Idaho Snow Building Type of Construction: Type II-N, Unprotected, non - combustible Design Occupant Load: Educational Sprinkler System Required: Yes Name and Address of Owner: Byui Safety Office Tfo Rigby Hall #356 Rexburg, ID 83460 Contractor: Sahara Construction Special Conditions: Occupancy: Assembly, 1000 or more, with a legitimate stage This Certificate, issued pursuant to the requirements of Section 909 of the International Building Code, certifies that, at the time time of issuance, this building or that portion of the building that vies inspected on the date listed vies found to be in compliance vtith the requirements of the code for the group and division of occupancy and the use for which the proposed occupancy tees classified. Date C.O. Issued: December 21, C.O Issued by: Building Official There shall be no further change in the e)asting occupancy classification of the building nor shall any structural changes, modifications or additions be made to the building or any portion thereof until the Building Official has reviewed and approved said future changes. Water Departmen Fire State of Idaho Electrical De Wasatch Electric Comtech Services An EMCOR Company i, BYU IDAHO ELIZA R. SNOW Wasatch Electric A Division of Dynalectric PO Box 26588 (84126) 1574 South West Temple Salt Lake City, LIT 84115 Phone: 801.487.4511 Fax: 801.487.5032 CENTER FOR THE PERFORMING ARTS • FIRE ALARM SYSTEM SUBMITTAL June 27, 2005 Project Manager: Andy Nielsen, 801- 487 -4511, Fax: 801- 487 -5032, Cell 801 -557 -9194 Project Technicians: Brandon Carlile, 801 -301 -6670 oo l e. ►s e ia5 www.wasatchelectric.com C. Table of Contents for Fire Alarm System EST Control Panel EST Remote Booster Power Supplies EST Rechargeable Valve Regulated Sealed Lead -Acid Batteries EST Horns & Strobes EST Smoke Detectors EST Heat Detectors EST Duct Smoke Detectors EST Manual Pull Stations EST Input Modules EST Control Relay Modules EST Electromagnetic Door Holders • Battery Calculation Worksheets _05 • EDWARDS SYSTEMS TECHNOLOGY rm QVI "k t CONTROL PANELS Compatibility 4 1 QuickStart QS4 Multi -loop Intelligent Add ressa ble /Conventiona I Life Safety Control Panel Features ■ One to four Signature loops — each with a capacity of 250 Intelligent devices —PLUS up to 48 conventional circuits ■ Compatible with two- and four -wire smoke detectors ■ Combines the Signature intelligent releasing module with Signature multisensor detectors for reliable suppression ■ Failsafe mode ensures uncompromised reliability ■ Class A (Style 7) or Class B (Style 4) wiring options ■ Capacity for eight remote annunciators ■ Four built -in system relays ■ Optional dual line dialer supports Contact ID and 412 formats • ■ Three methods of programming: OuickStart "auto - learn," front panel and personal computer (PC) ■ Supports optional barcode scanner for direct device data entry ■ Two optional banks of 30 front panel switches with dual LEDs ■ 20 adjustable pre -alarm settings for Signature smoke detectors ■ Red or grey cabinets in two sizes for surface or semi -flush mounting ■ Large 14 -line (224 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 Description EST's QS4 QuickStart life safety control panel provides conven- tional and intelligent addressable circuits in a single intelligent control panel. Designed for easy setup and simple installation, QuickStart lives up to its name in every respect. QS4'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 QS4's built -in barcode scanner port. A simple • o t C E pass of the optional scanner is all it takes to store device informa- tion in the QuickStart database. The scanner can also be used for quick and easy text entry when assembling custom messages. QS4's setup routine is deceptively simple, considering this system's robust features and broad capacity. Supporting up to 1,000 intelligent detectors and modules, QS4 takes full advantage of EST's exclusive Signature Series technology, which provides electronic addressing, automatic device mapping, environmental compensation, and true multisensor detection. As a hybrid system, QS4 combines Signature Series support along with up to 48 conventional Class B or a combination of 40 Class A and Class B initiating circuits. Compatible with either two- or four - wire detectors, these circuits also provide built -in support for EST's 2M family of conventional detectors. QuickStart's design leaves plenty of room for system expansion. Option cards snap onto QS4's easily - accessible DIN mounting rails These cards include a dialer, auxiliary relays, and additional system capacity. The QS4 also supports as many as eight remote annunciators and up to 60 programmable front panel switches with dual LEDs for system control and display. QS4 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 access, without a password, to management and emer- gencypersonnel. EDWARDS SYSTEMS TECHNOLOGY, INC. U.S. SALES: SARASOTA, FL 941-739-4200; FAX 941-727-0740 - CANADA SALES: OWEN SOUND, ON 519 - 376-2430; FAX 519 - 376 -7258 INTERNATIONAL SALES: 905- 270 -1711; FAX 905-270-9553 - CORPORATE HEADQUARTERS: CHESHIRE, CT - U.S. MANUFACTURING: PITTSFIELD, ME Issue 1 Literature Sheet #85005 -0114 Page 1 of 8 Not to be used for installation purposes. Application ckStart is a total life safety solution that brings the power of big - em analog technology to small and mid -size applications. anks to it's flexibility and simple setup and operation, QS4 is ideal for new installations in schools, apartment buildings, hospi- tals, office buildings, and retail facilities. The benefits brought by QS4 to retrofit applications underscores the true potential of this powerful system. As an intelligent panel, QS4 supports Signature Series devices, which can use existing wiring in most retrofit applications. As a conventional panel, QS4 supports compatible devices already installed at the site. And as a hybrid system, the QS4 supports new Signature Series devices, and existing conventional detectors —while leaving plenty of room for expansion. No need to tear a building apart to upgrade the life safety system: with QS4 you have the best of both worlds. Operation Indicators • Text display and controls: Displays system messages, status Information, and programming menus. Arrow buttons move the display cursor. 2. Alarm LED: Indicates a fire or life threatening emergency. 3. Supervisory LED: Indicates an off - normal condition with the fire suppression system or related equipment. 4. Disable /Test LED: Indicates part of the system is disabled or being tested. Disabled components also signal a system trouble. 5. Monitor LED: Indicates the operation of an ancillary system function (door closures, fan pressure switches). 6. Trouble LED: Indicates an off - normal condition or wiring fault that compromises the integrity of the system. 7. Ground Fault LED: Indicates a ground fault in the system wiring. Ground faults also signal a system trouble. 8. CPU Fail LED: Indicates an unexpected reboot or failure with the microprocessor. CPU failures also signal a system trouble. 9. Power LED: Indicates the panel has power. 10. Help button: Provides additional information about the device selected on the display. 11. Status button: Displays the Status Menu from which you can identify active or disabled points in the system. 12. 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. Page 2 of 8 Controls 13. Reset button: Allows devices or zones in alarm or trouble to restore to their standby condition. The LED indicates that the panel is resetting. 14. 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. 15. 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. 16. Menu button: Displays the operator menus. 17. Delete button: Returns to the previous menu or backspaces the cursor. 18. Enter button: Press the Enter button to accept information or continue tothe next item. 19. Numerickeypad: Numbered buttons for entering values and making menu selections. 20. Barcode scanner jack: Input for optional barcode scanner. 21. Priority Access keyswitch: Enables control functionsreserved for access level 2 and above without requiring a password. EDWARDS SYSTEMS TECHNOLOGY, INC. Issue 1 Literature Sheet #85005 -0114 Not to be used for installation purposes. CPU / LCD Display • The QS4 front panel display provides 14 lines by 16 characters of text detailing event, device, diagnostic, and programming Information. 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 card. i s • Specifications Il.. s s�, ® Tmut ® Gr•; Display with two alarms shown Operating environment Temperature: 32 -120 °F (0 -49 °C) Humidity: 93 %RH, non - condensing Current Standby: 117 mA when connected to PS6; requirements 105 mA when connected as a 14.25" (36.20 cm) remote annunciator GSA-1 -F (rough in) Alarm: 135 mA when connected to PS6; 13.25' (33.66 cm) 123 mA when connected as a QSA -1 -F (finished) remote annunciator 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. Remote Annunciator Dimensions Model Height Width Depth QSA -1 -S 7.6" (11.68 cm) 14.25" (36.20 cm) 2.9" (7.3 cm) GSA-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) QSA -2 -S 7.6" (11.68 cm) 18.56" (47.14 cm) 2.9" (7.3 cm) QSA -2 -F (rough in) 6.56" (16.66 cm) 17.56" (44.60 cm) 2.1" 15.33 cm) QSA -2 -F (finished) 1 7.8" (19.81 cm) 18.75' (47.63 cm) 1.38" (3.49 cm) trougnan ulmenslons reflect the s /ze or the cabinet where it enters the wall. Finished dimensions reflect the size of the cabinet that protrudes from the wall. Semi -flush Surface Mounting* Mounting *Semi -flush mounting requires an optional trim ring, which adds 3 /4 " to all sides of the panel Issue 1 EDWARDS SYSTEMS TECHNOLOGY, INC. Literature Sheet #85005 -0114 Not to be used for installation purposes. Cabinet Dimensions 4.86' (u,4 cm U 5- Option Cabinet QS4 -5 -R -1 (red) Q QS4- 5- G- 1 (grey) 12- Option Cabinet QS4- 12- R- 1 (red) QS4- 12 -G -1 (grey) b e 18 (45.72 cm) 16.5/6 (47.31 -) -r l a a 30' (76.2 cm) . �kg 7.31 (47.31 un) Cabinet Mounting 12 and 5- Option Cabinets 2.2" (5.6 cm) Page 3 of 8 Typical Wiring QS4 Addressable and Conventional Circuit Options • - Sir— s— Raw ewacnn Signaling Class A Notification 2 �■ U ® Appliance Circuit with for Independent Horn & Strobe Control NAC PWR f ALM lilt" Genesis Signals & ! I I and Synchronization over 2 conductors, i [ Signal Master for 11 Initiating Device Circuit - Class A F I ii 2 G Independent Horn & ' ! ! Initiating Device Circuit - Class B F 2 M Strobe Control and ClassA I a Synchronization over -- Signature ^ two conductors. Data Loop l ••_..------ _.._..--------- ...... _.._.._.._.._.._.._.._.._ .._.._.._.._.._.._.._.._.._.._. _.._.._.._.._.._.._.., _.._.._..._.._..�5 .._.._.._.._.._.._...._.._.._..- .._.._.._..O_.._.._.._..�._.._i I Fire r.._.._.._.._.._.._.._.._.._.._.. I ! Damper _.._.._.._.._.._.._.._.._.._..I I Signature Data Loop 2 (optional) I 10 _..�.._ t I Critical Process Monitoring i with Control ^ -• Signature Data Loop 3 i I (optional) j I i t ! ^ -•• Signature Data Loop 4 j ! ! (optional) C . I 1 I • Class B Notification Appliance Circuit / 1 Sir— s— Raw ewacnn Signaling Z °` I ! ! with Genesis Signals & Signal Master ® for Independent Horn & Strobe Control NAC PWR f ALM lilt" ttK A" Fvsm ! I I and Synchronization over 2 conductors, low ax low [ n * -,. -.. 11 Initiating Device Circuit - Class A F I ii 2 2 ,F+ 2 2 2 ' ! ! Initiating Device Circuit - Class B F 2 2 2 I I Class B Notification Appliance Circuit a ! i i with Genesis Signals & Signal Master for Independent Horn & Strobe Control -' and Synchronization over two ^� S Q ' ' Notification Appliance Circuit Class A with Combination QS4 Panel Integrity Horn - Strobe Genesis Horn - Strobe ❑o " Genesis Signal Master O Smoke Detector © 2 -Wire Smoke Detector ® Smoke Detector with Relay Base © Smoke Detector with Isolator Base Manual Pull Station O Junction BOX End -of -Line Resistor C E Programmable 1/O Module ulA Universal 1/O Module rz Dual Circuit Input Module 7z Control Relay Module cl Signal Module eet 4 Signal Module (synchronization) More wiring suggestions can be found in the QS4 Fire Alarm Control Panel Installation, Operation, and Maintenance Manual, P/N 3100186. Coded Sir— s— Raw ewacnn Signaling 24 AM VB6SB1 -16 D t_�, veers+ -1a I I ® NAC PWR -, ® NAC PWR f ALM lilt" ttK A" Fvsm MR low ax low [ n * -,. -.. UI IT :..riA r ti(tt 7N ' 1Q � f +srJ ser, � n Co" i 9 • OC OIIf�:. pC pW _ . _______.. Fire Suppression SIGA-APS Auxiliary Polder Suooly QuickStan oonool panel Signature loop controller (SLIC) Releasrg Module (SIGA -REL) ® Sir— s— Raw ewacnn o sq —s w.. D t_�, ® �a Flo:: ® S— D— Stan°n O A Manual A elaOan MR Manual Rabaaa Sul— [ F.A Wv Raley Page 4 of 8 Issue 1 . ._..a_...._..�.._.._.a.._.._..- Waterfiow _ C R � Switch Elevator L' J CT2 Sprinkler Capture I Supervisory — Switch L—E EDWARDS SYSTEMS TECHNOLOGY, INC. Literature Sheet 885005 -0114 Not to be used for installation purposes. • C� • Standard Components and Option Cards All QS4 panels come standard with a CPU /Display Unit, and a PS6 Power Supply (see ordering information for details). QuickStart option cards provide a wide range of features and extra system capacity. Thanks to the convenient Quick -Lok mounting system, option cards snap onto the DIN mounting rails easily and securely. Wallboxes are available in two sizes with room for either five or 12 single -space option cards. Both sizes of wallbox feature easily- accessi- ble mounting rails and plenty of room for cabling. 12- option card cabinet cards and batterii P ower • 1 The PS6 provides primary do power to all the Specifications Tat circuit cards 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 TB2 user programmable. Wiring M2 ® & 1® ® ®® ® mmmmmmmmmmmmmmmmmmTB1 Relay 1: Form C. Contacts change position when the control panel processes an alarm signal and remain changed until all active a farm inputs restore and the control panel resets. Relay2: Form A. Contacts change position when the panel processesa supervisory signal and remains changed until all active supervisory inputs restore. Relay3: 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. Relay4: Form A. Relay closes and opens according to panel programming. Smoke /Accessory Power: Jumper setting determines if the 24 Vdc is constant or resettable. Main supply circuit AC input: 115 or 230 Vac, 50/60 Hertz circuit DC input: 24 Vdc batteries Battery charging circuit Charge current: 2 amps Charge capacity: 40 amp hours (UL) 30 amp hours (ULC) Smoke /Accessory Voltage: 24 Vdc, regulated power output circuit Current: 250 mA appliance Wire size: 12 to 18 (0.75 to 2.5 mm Auxiliary power Quantity: 3 output circuits Voltage: 24 vdc full wave rectified Current: 1.5 amps each Common alarm relay Style: Form C NAC power Contact rating: 1 amp input circuit Wire size: 12 to 18 AWG (0.75 to 2.5 mm Trouble, Supervisory Style: Form A and programmable Contact rating: 1 amp relays Wire size: 12 to 18 AWG (0.75 to 2.5 mm Operating environment Temperature: 32 - 120° F (0 - 49° C) Card spaces Humidity: 93 %RH, non - condensing Current requirements Standby current: 72 mA Alarm current: 96 mA OPTION CAHD Signature Loop Intelligent Controller SLIC The SLIC provides one Class A or Class B data circuit (loop) for connecting Signature Series detectors and modules. The SLIC also provides two programmable Class A or Class B notifica- tion appliance circuits (NACs) for connecting polarized 24 Vdc notification appliances such as horns and strobes. Both the QS4 -5 and the QS4 -12 support one to four SLICs. Wiring Class A Class A I EOLI j j IEaI I I I I I I I I I I I I I I I I I I k I F0i I I E0L I 000000 TB1 B+ B- A+ A- B+ B- A+ A- NAC 1 NAC 2 OUT IN LOOP - A+ A- B+ B- mm0Q) Q) Q) (Z) 1 TB2 Class A B1 112 Signaling Line Circuit andNACsare supervised and power - limited. Specifications Signaling line Configuration: Class B (Style 4) or Class A (Style 7) circuit Capacity: 125 Signature detectors 125 Signature modules Wire size: 12 to 18 AWG (0.75 to 2.5 mm Circuit resistance: 65 ohms Circuit capacitance: 0.3 pf Notification Configuration: Class B or Class A appliance Output voltage: 24 Vdc, nominal circuits #1 Output current: 2.0 A at 24 Vdc for #1 and #2 and 1.0 A at 24 Vdc for #2 Wire size: 18 to 12 AWG (0.75 to 2.5 mm End of line resistor: 10k ohms, 1 /2 W NAC power Voltage: 24 Vdc, nominal input circuit Wire size: 18 to 12 AWG (0.75 to 2.5 mm Operating Temperature: 32 - 120° F (0 - 49° C) environment Humidity: 93 %RH, non - condensing Current Standby current: 33 mA requirements Alarm current: 57 mA (Both NACs on) Card spaces Requires one card space. EDWARDS SYSTEMS TECHNOLOGY, INC. Issue 1 Literature Sheet #85005 -0114 Not to be used for installation purposes. Page 5 of 8 OPTION CARD Zone Card ZA8 -2, ZB16 -4 ZB16 -4 Zone Card provides sixteen circuits TB1 _ onnecting Class B conventional input and output zones. Twelve circuits are dedicated initiating device circuits (IDCs) for connecting 2- wire smoke detectors and dry- contact initiating devices. Four circuits can be configured as E ` either IDCs or as notification appliance circuits (NACs) for connecting polarized 24 Vdc notifica- tion appliances such as horns or strobes. TB2 Wiring (ZB16 -4) TB2 The ZA8 -2 Zone Card provides eight circuits for connecting Class A conventional input and outputzones. Six circuits are dedicated initiating device circuits (IDCs) for connecting 2 -wire smoke detectors and dry- contact initiating devices. The remaining two circuits can be configured as either IDCs or as notification appliance circuits (NACs) for connecting polarized 24 Vdc notifica- tion appliances such as horns or strobes. Wiring (ZA8 -2) + ZONES ZONE7 ZONES NACPWR +B— +A— +B— +A— +B— +A— +B— +A— 11 • TB2mmmmmmmmmmmmmmmmmm EOLR EOLR mmmmmmmammmmm�mmmm TB1 +B— +A— +B— +A— +B— +A— +B— +A— 11 ZONEI ZONE ZONES ZONE4 NACPWR The DLD is a ULI /ULC listed dual line Digital Alarm Communicating Transmitter (DACT). It provides two — TB7 phone line connections for sending 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. SURGE PROTECTOR RING Wiring (RED) TIP R131x (GREEN) TO PHONE LINE w2 8 PIN MODULAR (WIRED SAME AS CONNECTOR FOR PHONE LINE 91) PHONE LINE .1 GREEN aPN F B PIN MODULAR e• CONNECTOR FOR RED PHONE LINE 02 ® PREMISES PHONES �♦ NO PS 1 PERMITTED • !L ^0 2' , 0 " 00 OITB1 TIP RNG TIP RNG TIP RNG TIP FIN IN OUT IN OUT LINE 1 LINE 2 Specifications ZB 16 -4 ZA8 -2 Initiating device circuits Quantity 12 to 16 6 to 8 Wiring configuration Class B Class A Detector voltage 19.9 - 24.0 Vdc, max ripple 400 mV End of line resistor 4.7k ohms, 1 /2W Short circuit current 31 mA, max. Resistance 50 Ohms, max. Capacitance 100 NF, max. NAC power input circuit Voltage 24 Vdc Wire size 18 to 12 AWG (0.75 to 2.5 mm Notification appliance circuits Quantity 1 to 4 1 or 2 Wiring configuration Class B Class A End of line resistor 10k ohms, 1 /2W Output voltage 24 Vdc, nominal Output current 2.0 A, 24 Vdc Wire size 18 to 12 AWG (0.75 to 2.5 mm Operating environment Temperature 32 -120° F (0-49 C) Humidity 93 %RH, non - condensing Current requirements Standby 123 mA 73 mA Maximum cards in panel Three (48 zones) Five (40 zones) 40 zones maximum when both ZB16 -4 and ZA8 -2 cards installed. Card Spaces Requires two card spaces. Specifications Operating environment Temperature: 32° F (0° C) - 120° F (49° C) Humidity: 93% RH, non - condensing Current requirements Standby: 13 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 Protocol Contact ID (SIA DC -05), 4/2 (SIA DC -02 P3). Programming Via QuickStart, Front Panel or PC. Communications Compliance Communications Canada CS- 03FCC /CFR 47 Parts 15 and 68, NFPA 72, ULI 864, ULC S527 -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. EDWARDS SYSTEMS TECHNOLOGY, INC. Page 6 of 8 Literature Sheet #85005 -0114 Issue 1 Not to be used for installation purposes. The SL30 and SL30 -1 provide thirty switches 1. a, . , ! Specifications wim two associatea LtUS per switcn. I nese switches and associated LEDs can be used for point or zone annunciation of alarm, supervi- sory, monitor, and trouble signals. Buttons on the SL30 are numbered 1 through 30 and buttons on the SL30 -1 are numbered 31 through 60. le 0 Operating Temperature: 32° F (0° C) to 120° F (49° C) environment Humidity: 93% RH, non - condensing Current Standby:1mA requirements Alarm: 0.75 mA per active LED OPTION CARD Relay Card ZR8 The ZR8 provides eight dry- contact relays that can be independently configured as Form A or Form B relays. It occupies one card space on the chassis rail. Wiring PL PL NPL PL PL PL PL m 0 Z (2) mT TBI +R1- +R2- +R3- +R4- • +R5- +R6- +87- +RB- mm m00Q) Q) (Z) T132 NPL NPL NPL NPL T81 TB2 Specifications Output relays Style: Form A or Form B (jumper configurable) Contact rating: 1 amp @ 30 Vdc resistive. Circuit resistance Wire size: 18 to 12 AWG (0.75 to 2.5 mm Operating Temperature: 32 - 120° F (0 - 49° C) environment Humidity: 93 %RH, non - condensing Current Standby current: 7 mA requirements Alarm current: 18 ma per active relay Card spaces 1 Requires one card space. OPTION CARD Class A RS -485 Card and UART Port X485 The NT-A, which includes the X485/ RS -485 card and QS- 232 /UART port, provides one Class A serial remote annunciator bus for con- necting remote annunciator panels. Control panels require the X485 card and UART port, which also serves as a laptop or printer port. The X485 occupies one card space on the chassis rail. The UART port plugs into the panel CPU. • Wiring TB7 CH2 CHI ART CHZ cre RA RA CHI I Specifications Wire size 12 to 18 AWG (0.75 to 2.5 mm twisted pair (6 twists per foot minimum) Circuit resistance 100 Ohms Circuit capacitance 0.4 pF Operating environment Temperature: 32 - 120° F (0 - 49° C) Humidity: 93 /oRH, noncondensing Current requirements Standby: 75 mA Alarm: 75 mA Card Spaces I Requires one space for the NT -A EDWARDS SYSTEMS TECHNOLOGY, INC. Issue 1 Literature Sheet #85005-0114 Page 7 of 8 Not to be used for installation purposes. Remote * nunciators supports up to eight remote annunciators, which provide mirrored annunciation of front panel messages and status indicators. QuickStart's Class A serial remote annunciator bus requires an X485 (RS485) card and UART port at the control panel. Each remote annunciator requires only a UART port. Class B wiring does not require an X485 card at the control panel. Remote annunciators are available in both analog and conven- tional versions and with wallboxes forflush or surface mounting. L Part Number Description Ship Wt. Ib. (kg.) Remote Annunciator Cabinets (c /w Interface Assembly; Require CPU/Display) QSA -1 -S Surface Remote Annunciator Cabinet. Space for one SL30 display. 4.0 (1.81) QSA -1 -F Flush Remote Annunciator Cabinet. Space for one SL30 display. 4.0(1.81) QSA -2 -S Surface Remote Annunciator Cabinet. Space for two SL30 displays. 5.0 (2.27) QSA -2 -F Flush Remote Annunciator Cabinet. Space for two SL30 displays. 5.0 (2.27) Programming Tools QS -CU JCluickStart Panel Configuration Utility. 1.0 (0.45) QS -Scan JQuickStart scanner and programming guide. 2.0 (0.91) Accessories PT -1S SystemPrinter - Desk top Style 14.0 (6.35) BC -1(R) Battery Cabinet. Room for one 40 Ah or two 24 Ah batteries. 22.0 (9,98) MFC -A MultiFunction Cabinet. 7.0 (3.1) IOP3A RS -232 Isolator Module. 3.0 0.36) RPM Reverse Polarity Module. 3.0 (1.36) 2 -CTM City Tie Module. 1.0 (0.45) API- 8/232ME Alphanumeric Pager Interface. 11.0 (5.0) BPS6 6.5 Amp Booster Power Supply 13.0 (5.9) BPS10 10 Amp Booster Power Supply 13.0 (5.9) CDR3 PSNI Coder Module 1.0 (0.45) Which Quickstart Pane/ is right for you? QSC QS1 QS4 Signature Series devices supported 0 1 x 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 (lines x characters) 4 x 20 14 x 16 14 x 16 Optional Zone Switch /LEDs on front panel 2 x 30 1 x 30 2 x 30 Option card spaces 5 or 12 1 5 or 12 For more information, see catalog sheet number ... 85005 -0112 85005 -0113 This Sheet EDWARDS SYSTEMS TECHNOLOGY, INC. 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. © 2001 EST Page 8 of 8 Printed in U.S.A. Issue 1 Remote annunciator (Class A) C H2 CH2 RA ! RA CHI CHI X485 TB1 option cH¢ cHn card For remote annunciator dimensions, seepage 3. Ordering Information Part Number lbescription Ship Wt. .) Basic Package - Enclosure, Power Supply, CPU and Display QS4 -5 -G -1 Intelligent/Conventional System. Five option 17,0 card spaces. Gray. 115v transformer. (7,71) QS4 -5 -R -1 Intelligent/Conventional System. Five option 17,0 card spaces. Red. 115v transformer. (7,71) QS4- 12 -G -1 Intelligent/Conventional System. 12 option card spaces. Gray. 115v transformer. 30.0 QS- Cable12 required. (13.61) QS4- 12 -R -1 Intelligent/Conventional System. 12 option card spaces. Red. 115v transformer. 30.0 QS- Cable12 required. (13.61) Enclosure Accessories ablel2 lExpansion Cable for 12- option card cabinets. 0.5 (0.23) -5 Gray Flush mount trim ring for QS- 5 -G -1. 0.5 (0.23) Trim -5R Red Flush mount trim ring for QS- 5 -R -1. 5.0 (2.27) Trim -12 Gray Flush mount trim ring for QS- 12 -G -1. 8.0 (3.63) Trim -12R Red Flush mount trim ring for QS- 12 -R -1. 8.0 (3.63) Initiating /Notification Circuit Option Cards SLIC Signature Loop Intelligent Controller. Supports one SLC of up to 250 devices. Card includes 1.0 one Class A or two Class B NACs. (0.45) ZB16 -4 Conventional Zone Card. 16 Class B circuits, four convertible to Class 8 NAC's. 2 ' 0 Requires two option card spaces. (0.91) ZA8 -2 Conventional Zone Card. Eight Class A circuits, two convertible to Class A NAC's. 2 . 0 Requires two option card spaces. (0.91) Other Option Cards DLD I formats. Dual Line Dialer. Supports 4/2 and Contact ID 1.0 (0.45) ZR8 IRelay Card. 8 programmable Form A contacts. 1.0 (0.45) Display Options SL30 Annunciator module. Numbered 1 to 30. 1,0 Two LEDs and one switch per zone. (0.45) SL30 -1 Annunciator module. Numbered 31 to 60. 1.0 Two LEDs and one switch per zone. (0.45) QS4 -CPU -1 Intelligent/Conventional CPU /Display. 4.0 One annunciator option space. (1.81) QS4 -CPU -2 Intelligent/Conventional CPU /Display. 4.0 Two annunciator option spaces. (1.81) NT -A RS -485 option card. Required for Class A 1.0 remote annunciation. Includes UART card. (0.45) QS -232 UART option card. Plugs into CPU. Required for PC Programming / printer port. 1.0 Included in NT -A package Literature Sheet #85005 -0114 Not to be used for installation purposes. Remote annunciator (Class B) E EDWARDS SYSTEMS TECHNOLOGY TM POWER SUPPLIES L-1 Remote Booster Power Supplies Models: BPS6A and BPS1 OA Features • 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 ALVY, UEHX7 Access Control Systems UL365 APAW, APAW7 Police Station Connected Burglar Alarm Units and Systems ULC -S527 UOXXC Control Units, Fire Alarm (Canada) ULC -S303 AOTX7 Local Burglar Alarm Units and Systems (Canada) ULC -S304 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 • 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. ■ Two inputs allow activation by Signature Series modules or existing 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 applications, up to 65 Amp hour for access control applications. Description 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 necessary circuits to monitor and charge batteries, control and O L� supervise four Class B or two Class A NAC circuits and monitor two controlling inputsfrom 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. Application 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 panel'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 applications, space is provided to mount a tamper switch in the cabinet. When used for Fire Alarm notification with Genesis Notification appliances, the booster provides the ability to syn- chronize 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 maintaining strobe synchronization. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: BRADENTON, FL 888- 378 -2329; FAX 866 -503 -3996 - CANADA SALES: OWEN SOUND, ON 519 - 376.2430; FAX 519. 376 -7258 INTERNATIONAL SALES: 905 - 2741711; FAX 905- 270-9553 - CORPORATE HEADQUARTERS: CHESHIRE, CT - U.S. MANUFACTURING: PITTSFIELD 6 NEWPORT, ME Issue 1 Literature Sheet #85005 -0125 Page 1 of 4 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. BPS notification appliance circuits easily configure for either of signaling rates: 3 -3 -3 temporal or continuous. California rate W li o available on certain models. This makes the BPS ideal for cations 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 followthe 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 resident NAC; onefor battery supervision; one forgroundfault; Engineering Specification Supply where needed EST BPS series Booster Power Supplies as an extension of Notification Appliance Circuits. The extension 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 standbyfollowed 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 Installation and Mounting • jTop ViewO 0 D2 -►j 1 4 D3 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 brownouts. 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 ac power. As auxiliary output, the booster may power access control and security devices. Should an overcurrent occur, the booster automatically 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. 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: continuous, 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 Notification devices, Security devices, Access Control equipment and Auxiliary devices such as door holders. The BPS must provide the abilityto synchronize Genesis series strobes and horns. Power - limited wiring area 04 D4 —►o 3 Front View T U Route AC supply I 01111 1 All knockouts for 3/4 in conduit • (1.9 cm) D1 D2 D3 D4 D5 D6 17.0 in (43.2 cm) 3.5 in (8.9 cm) 13.0 in (33.0 cm) 6.5 in (16.5 cm) 3.375 in (8.6 cm) 12.0 in (30.4 cm) • Battery wiring (nonpower- limited attery Battery Notes 1. Maintain 1/4 -inch (6 mm) spacing between power - limited and nonpower - limited wiring or use type FPL, FPLR, or FPLP'C'able 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 determines supervision. 4. When using larger batteries, make sure to position the battery terminals towards the door. EDWARDS SYSTEMS TECHNOLOGY Page 2 of 4 Literature Sheet #85005-0125 Issue 1 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. through these knockouts D6 only ( Nonpower- limited E ii and supervised) CD CID Battery wiring (nonpower- limited attery Battery Notes 1. Maintain 1/4 -inch (6 mm) spacing between power - limited and nonpower - limited wiring or use type FPL, FPLR, or FPLP'C'able 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 determines supervision. 4. When using larger batteries, make sure to position the battery terminals towards the door. EDWARDS SYSTEMS TECHNOLOGY Page 2 of 4 Literature Sheet #85005-0125 Issue 1 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Typical Wiring Single booster anywhere on a notification appliance circuit Existing NAC end -of -line resistors are not required to be installed at the booster's terminals. This allows multiple NAC Circuit boosters to be driven from a single NAC circuit without the NAC Circuit need for special configurations. Fire Alarm Control Panel v v E_ c Booster Power Multiple boosters cascaded from a single notification appliance circuit To next signaling NAC Circuit device, booster, or EOL resistor m 31 NAC output #1 iio NAC output #2 Fire Alarm NAC output #3 Control Panel — NAC output #4 v To next signaling device, booster, or EOL resistor C C NAC output #1 'm m NAC output #2 e m v NAC output #3 � S NAC output #4 v v E_ c Booster Power Multiple boosters cascaded from a single notification appliance circuit To next signaling NAC Circuit device, booster, or EOL resistor m 31 NAC output #1 iio NAC output #2 Fire Alarm NAC output #3 Control Panel — NAC output #4 v Booster Power Supply To next signaling tlevtce, booster, or EOL resistor m NAC output #1 NAC output #2 m NAC output #3 v 5 NAC output #4 • To next signaling 3. device, booster, or EOL resistor NAC output #1 NAC output #2 NAC output #3 a NAC output #4 oster Power Supply Security and access r t � l NAC2/ + AUX2 - NAC3/ + AUX3 - NAC4/ + device device device BPS T81 24 V 12 V / + Security Security EO 24DC 12 monitoring Control panel Card . reader Car +reader + _ controller controller EOL 47 K EOL 47 K CC1(S) module II CC1(S) module 0 0 0 0 [31 BPS [11 Card reader + — controller To next device or end • Issue 1 Multiple CC1(S) modules using the BPS's sense inputs TB 10 Notification appliance circuit (NAC) NAC1/ + UL listed AUX1 - _ = EOL 15 KQ NAC2/ + AUX2 _ Notification appliance circuit (NAC) NAC3/ + UL listed AUX3 - Z z EOL 15 K0 NAC4/ + AUX4 200 mAAUX Continuous m IN Sense 1 COM Eff OUT IN Eff Sense 2 COM Eff OUT NO Effi Trouble COM rM NC TB o [11 Disable the BPS's ground faultjumper (JP3) EDWARDS SYSTEMS TECHNOLOGY Literature Sheet #85005 -0125 Page 3 of 4 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. Specifications F - 0 L del 6.5 amp Booster 10 amp Booster C Line Voltage 120VAC or 220- 240VAC 50 /6OHz 250 watts 120VAC or 220- 240VAC 50 /6OHz 375 watts Notification Appliance Circuit Ratings 3.OA max. per circuit @ 24Vdc nominal 6.5A max total all NACs 3.OA max. per circuit @ 24Vdc nominal 10A max total all NACs Trouble Relay 2 Amps @ 30Vdc Auxiliary Outputs Four configurable outputs replace NACs 1, 2, 3 or 4. as auxiliary outputs and 200 mA dedicated auxiliary. (See note 2.) Input Current (from an existing NAC) 3mA @ 12Vdc, 6mA @ 24Vdc Booster Internal Supervisory Current 70mA Signature Mounting Space Accomodates three two -gang modules. Maximum Battery Size 10 Amp Hours (2 of 12V10A) in cabinet up to 24 Amp hours with external battery cabinet for fire and security applications; up to 65 Amp hours for access control applications in external battery box. Terminal Wire Gauge 18 -12 AWG Relative Humidity 0 to 93% non condensing @ 32 °C Temperature Rating 32° to 120 °F (0° to 49 °C) NAC Wiring Styles Class A or Class B Output Signal Rates Continuous, California rate, 3 -3 -3 temporal, or follow installed panel's NAC. (See note 1.) Ground Fault Detection Enable or Disable via jumper Agency Listings UL, LILC, CSFM Notes 1. Model BPS *CAA provides selection for California rate, in place of temporal. 2. Maximum of 8 Amps can be used for auxiliary output. l ordering Information Catalog Number Description Shipping Wt. lb (kg) BPS6A 6.5 Amp Booster Power Supply 13(5.9) BPS6A/230 6.5 Amp Booster Power Supply (220V) 13(5.9) BPS6CAA 6.5 Amp Booster Power Supply with California rate 13(5.9) BPS10A 10 Amp Booster Power Supply 13(5.9) BPS10A/230 10 Amp Booster Power Supply (220V) 13(5.9) BPS10CAA 10 Amp Booster Power Supply with California rate 13(5.9) Related Equipment 12V6A5 7.2 Amp Hour Battery, two required 3.4(l.6) 12V10A 10 Amp Hour Battery, two required 9.5 (4.3) 3 -TAMP Tamper switch BC-1 Battery Cabinet (up to 2 - 40 Amp Hour Batteries) 58 (26.4) BC-2 Battery Cabinet (up to 2 - 17 Amp Hour Batteries) 19(8.6) 12V17A 18 Amp Hour Battery, two required (see note 1) 13(5.9) 12V24A 24 Amp Hour Battery, two required (see note 1) 20 (9.07) 12V40A 40 Amp Hour Battery, two required (see notes 1, 2) 32 (14.5) 12V50A 50 Amp Hour Battery, two required (see notes 1, 2) 40 (18.14) 12V65A 65 Amp Hour Battery, two required (see notes 1, 2) 49 (22,2) Notes 1. Requires installation of separate battery cabinet. 2. BPS supports batteries greater than 24 Amp hours for access control applications only. r- EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We cannot cover speck 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 4 of 4 Literature Sheet #85005 -0125 Issue 1 Not to be used for Installation purposes. For the most current literature and updates visit wvvw.est.net. A product of EST Marketing, Bradenton, Fl. II 0 EDWARDS SYSTEMS TECHNOLOGY ACCESSORIES Rechargeable Valve Regulated Sealed Lead -Acid Batteries Features • Rechargeable • Non - spillable • Non - hazardous • Low maintenance • High energy density Description Rechargeable sealed lead -acid batteries are ideal for use as a secondary (standby) power source as defined by NFPA 72. Their low maintenance and high energy density make them ideal forfire • alarm signaling applications. Application When multiple power supplies are provided, each power supply's battery requirements should be calculated individually. Consuitthe specific system manualto determine battery capacity require- ments. Safety Information Due to a battery's low internal resistance and high power density, high levels of short circuit current can develop across battery terminals. Put on protective eye covering and remove all jewelry before working on batteries. Do not rest tools or cables on the battery, and only use insulated tools. Follow all manufacturers installation instructions and diagrams when installing or maintaining batteries. Specifications Case Material ABS Thermoplastic Regulatory DOT Class 60, Batteries, non - hazardous, Information non- spillable Operating 32° F to 120° F (0° C to 49° C) Environment 0 to 93% RH, Non - condensing Ordering Information Catalog Number Description Weight lb (kg) 12V1A2 1.2 Ah Sealed Lead Acid Battery - 12 Vdc 1.25 (0.57) 12V4A 4.5 Ah Sealed Lead Acid Battery - 12 Vdc 5(2.27) 12V6A5 7.2 Ah Sealed Lead Acid Battery - 12 Vdc 6(2.72) 6V8A 8 Ah Sealed Lead Acid Battery - 6 Vdc 4(1.81) 6V10A 12 Ah Sealed Lead Acid Battery - 6 Vdc 5(2.27) 12V10A 11 Ah Sealed Lead Acid Battery - 12 Vdc 10 (4.45) 12V17A 18 Ah Sealed Lead Acid Battery - 12 Vdc 13 (5.90) 12V24A 26 Ah Sealed Lead Acid Battery - 12 Vdc 20 (9.07) 12V40A 40 Ah Sealed Lead Acid Battery - 12 Vdc 32(14. 1 12V50A 150 Ah Sealed Lead Acid Battery - 12 Vdc 40 (18.14) 11 2V65 165 Ah Sealed Lead Acid Battery - 12 Vdc 49 (22.23) • EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: BRADENTON, FL 388- 378 -2329; FAX BGG -503 -3996 • CANADA SALES: OVdEN SOUND, ON 519- 376 -2430; FAX E19-3715-7258 INTERNATIONAL SALES: 905 - '270 -1711, FA.X905.270 -9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S. MANUFACTURING: PIT TSFIELD6 NEVVPORT, ME Issue 3 Literature Sheet #85010 -0127 Page 1 of 2 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. • r =A 7Z� EDWARDS SYSTEMS TECHNOLOGY GENESIS. NOTIFICATION APPLIANCES Compatibility 4 1 CluickStart I FireShield I EST2 I EST3 I LSS4 I IRC -3 /FCC Field Configurable Horns and Strobes G1 Series Features ■ Unique low- profile design — The most compact UL- 1971/ULC -S526 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 ■ Easyto 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 Description 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. Thanksto patented breakthrough technology, ESTGenesis 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 employing this new technology have given rise to a new bench- mark in strobe performance— FuIlLight technology. FuIlLight strobe technology produces a smooth light distribution pattern without the spikes and voids characteristic of specular reflectors. This ensures the entire coverage area receives consis- tent illumination from the strobe flash. As a result, Genesis strobes 1W ) Selectable 15, 30, 75, or 110 cd strobe! -t r O M64 Listings pending One or more patents pending. with FullLight technology go well beyond the minimum UL- required "T" pattern, significantly exceeding UL -1971 and ULC- S526 light distribution requirements. Although all Genesis strobes are self- synchronizing, when installed with an optional synchronization module, strobe flashes from devices on the same circuit synchronize to within 10 milliseconds of each otherindefinite This exceeds the two -hour minimum specified in the UL standards. Only one synchronization module is required per circuit. Genesis strobes and horn - strobes offer 15 to 110 candela output, which is selectable with a conveniently - located switch on the side of the device. The candela output setting remains clearly visible even after final installation, yet it stays locked in place to prevent unauthorized tampering. Genesis horn output reaches as high as 99 dB and features a unique multiple frequencytone that results in excellent wall penetration 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 dB output with a jumper cut that reduces horn output by about 5 dB. 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. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941-739-4200; FAX 941-727-0740 • CANADA SALES: OWEN SOUND, ON 519 - 376 -2430; FAX 519376 -7258 INTERNATIONAL SALES: 905-270-1711; FAX 905. 270 -9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT - US. MANUFACTURING: PITTSFIELD&NEWPORT,ME Issue 1 Literature Sheet #186001 -0673 Page 1 of 6 Not to be used for Installation purposes. For the most current literature and updates visit www.est.net. Application enesis strobes are UL 1971 - listed for use indoors as wall - ounted public -mode notification appliances for the hearing g mpaired. 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 theAmericans with Disabilities Act (see application notes - USA). Combination horn - strobe signals must be installed in accordance with guidelines established for strobe devices. Strobes The following guidelines are based on ANSI /NFPA72 National Fire Alarm Code ( 1999). When applied and installed in accordance with that code, EST strobes meet or exceed the illumination produced by the ADA- specified 75 candela (cd) strobe at 50 feet.* Non - Sleeping Rooms EST wall mounted strobes* Up to 20'x 20'(6.1 m x 6.1 m) One 15 cd strobe Up to 30'x 30'(9.1 m x 9.1 m) One 30 cd or two 15 cd strobes Up to 40'x 40' (12.2 m x 12.2 m) One 75 cd or two 30 cd strobes Up to 50'x 50'(15.2 m x 15.2 m) One 110 cd or two 75 cd strobes Corridors Any length. Maximum width: 20'(6.1 m). 15 cd strobes spaced at 100' (30.5 m) max. Strobes must be placed within 15'(4.5m) of each end of the corridor. 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 5feet 0.5 m) above the floor. The average ambient sound level is, A- weighted sound pressure measured overa 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 involume. Application Notes - USA Audible signals in the public mode should never have a sound level less than 75 dBA at 10'(3 m) 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 (2.0 m) and no more than 96 inches (2.4 m) above the finished floor. Horns should be installed with their tops not less than 6 inches (152 mm) below the ceiling and not less than 90 inches (2.3 m) above the finished floor. Strobes must be used to supplement audible signals whereverthe 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: ADA suggests using 75 cd strobes throughout an area, with spacing that never • rest rooms, meeting rooms, and other common use areas. R ceeds 50 It from the strobe to any point in the protected space. • sleeping rooms intended for use by persons with hearing on-Sleeping Rooms and Corridors: EST strobes rated at less impairment (in accordance with Title 1 of ADA). than 110 cd per UL 1971 are intended for use in non - sleeping areas only. Install with the bottom of the device at least 80 inches (2.0 m) and no more than 96 inches (2.4 m) above the finished floor. No point in any space (including corridors) required to have strobes should be more than 50 feet (15.2 m) from the signal (in the horizontal plane). For detailed spacing requirements, consult The Handbookof Visible Notification Appliances for Fire Alarm Applications published by EST Press, or contact your local EST representative. Sleeping rooms: EST 110 cd strobes are intended for use in sleeping rooms and should be installed along with a smoke detector. It must be wall mounted at least 80" (2.03 m) above floor level, but no closer than 24" (610 mm) to the ceiling. The distance from the strobe to the pillow must not exceed 16'(4.8 m). • 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 ambient 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 S524). Sleeping Rooms EST wall mounted strobe Any size 110 cd within 16 feet of pillow Horns • The fire alarm audible signal shall be supplemented by fire alarm strobes in anyfloor area where the ambient noise level exceeds87 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 appliesto assembly occupancies in which music and other sounds associated with performances could exceed 100 dBA Strobes shall be installed in a building so that the flash from one device is visible throughout the floor area or portion thereof in which they are installed. For maximum safety, EST recommends that strobes be installed as per the guidelines shown here under Strobe Spacing. EDWARDS SYSTEMS TECHNOLOGY Page 2 of 6 Literature Sheet #85001 -0573 Issue 1 Not to be used for Installation purposes. For the most current literature and updates visit www_est.net_ Installation • Genesis horns and strobes mount to any standard one -gang surface or flush electrical box. Matching optional trim plates are used to cover oversized openings and can accommodate one - gang, two -gang, four -inch square, or octagonal boxes, and European 100 mm square. Genesis Horn /Strobe with optional trim plate Wiring All Genesis signals come pre -as- sembled with captive mounting screws for easy installation. 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 Field wiring terminals accommodate #18 to #12 AWG (0.75 mm to 2.5 mm wiring. Horns, strobes, and combination horn - strobes are interconnected with a single pair of wires as shown below. rO1 U • next device end of line device three -pulse temporal pattern. Units may be configured 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 circuit. A Genesis Signal Master is required when horn - strobe models are configured for coded systems. Non - temporal, horn -only models sound a steady tone. Genesis strobes and horn - strobes are shipped from the factory 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. 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. Issue 1 EDWARDS SYSTEMS TECHNOLOGY Not t Page 3 of 0 Literature Sheet #86001 -0673 o be used for Installation purposes. rrent literature and uodates visit w% Note: Strobes must have continuous voltage. • Polarity alarm c rO1 U • next device end of line device three -pulse temporal pattern. Units may be configured 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 circuit. A Genesis Signal Master is required when horn - strobe models are configured for coded systems. Non - temporal, horn -only models sound a steady tone. Genesis strobes and horn - strobes are shipped from the factory 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. 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. Issue 1 EDWARDS SYSTEMS TECHNOLOGY Not t Page 3 of 0 Literature Sheet #86001 -0673 o be used for Installation purposes. rrent literature and uodates visit w% Note: Strobes must have continuous voltage. Ordering Information Catalog Number e Fini a Red Finish 9GH Description Ship Wt. Ibs (kg) DVM G1R -HDVM Genesis Horn - Strobe (selectable 15, 30, 75, or 110 cd output, selectable high /low dB output) Genesis Trim Plate (for two -gang or 4" square boxes) with "FIRE" markings 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) 0.25 (0.11) G1 -P G1R -P Genesis Steady Horn (not compatible with Genesis Signal Master) G1F -HDVM G1RF -HDVM Genesis Horn - Strobe (selectable 15, 30, 75, or 110 cd out i1t, selectable hi —with "FIRE" marking t 9 h /low dB output) p ) G1F -VM G1RF -VM Genesis Strobe (selectable 15, 30, 75, or 110 cd output) —with "FIRE" marking G1F -HD G1RF -HD Genesis Temporal Horn (selectable high /low dB output) — with "FIRE" marking G1F -P G1RF -P Genesis Steady Horn with "FIRE" marking (not compatible with Genesis Signal Master) Mounting Accessories G1T G1RT Genesis Trim Plate (for two -gang or 4" square boxes) 0.15 (0.7) G1T -FIRE GIRT -FIRE Genesis Trim Plate (for two -gang or 4" square boxes) with "FIRE" markings 0.15 (0.7) 27193 -16 27193 -11 One -gang surface mount box 1(0.4) Svneh► iv *inn RA— A..ls- G1M Genesis Signal Master — Snap -on Mount G1M -RM Genesis Signal Master — Remote Mount (1 -gang) 0.1 (0.5) SIGA -CC1S Intelligent Synchronization Output Module (2 -gang) 0.5(0.23) SIGA -MCC1S Intelligent Synchronization Output Module (Plug -in UIO) 0.18 (0.08) Genesis Horn - Strobes may be ordered in red or white, with or without RE 'FIRE'marking. 1 WARNING: These devices will not operate without electrical power. As fires frequently cause power interruptions, we suggest you discuss further safeguards with your local fire protection specialist. These visible signal appliances' flash intensity may not be adequate to alert or awaken occupants in the protected area. Research indicates that the intensity of strobe needed to awaken 90% of sleeping persons is approximately 100 cd. EST recommends that strobes in sleeping rooms be 110 od minimum. &is and FullLight Strobe Technology are trademarks of Edwards Systems Technology, Inc. EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We can not cover specific applications or anticipate all requirements. All specifications are subject to change without notice. For more information or questions relative to this Specification Sheet, contact EST. ® 2003 EST Page 8 of 8 Printed in U.SA. (origin) Literature Sheet #85001 -0573 Issue 1 Not to be used for Installation purposes. For the most current literature and updates visit www.sst.net. A product of EST Marketing, Sarasota, FL Specifications • Housing Red or white textured UV stabilized, color impregnated engineered plastic. Exceeds 94V -0 UL flammability rating. Lens Optical grade polycarbonate (clear) Mounting Flush mount: 2 inch (64 mm) deep one -gang box (indoor wall mount only) Surface mount: EST model 27193 surface mount box, wiremold box, or equivalent surface -mount box Temporal /Steady With optional trim plate: One-gang, two-gang, four -inch square, octagonal, or European single-gang box Wire connections Screw terminals: single input for both horn and strobe. #18 to #12 AWG (0.75 mm to 2.5 mm wire size Operating environment Indoor only: 32 -120 "F (0 -49 "C) ambient temperature. 93% relative humidity Agency UL 1971, UL 1638, UL 464, ULC S525, ULC S526, CE, FCC, (MEA, FM, CSFM pending). listings /approvals (All models comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule.) Dimensions (HxWxD) Signal: 4 -1/2" x 2 -3/4" x 13/16" (113 mm x 68 mm x 21 mm) 86.3 Trimplate: 5" (127 mm); Height - 5-7/8"(149 mm); Depth - 1 /2" (13 mm) 96.9 G1 -HD series temporal -tone horns: non - coded, filtered 16 -33 Vdc or unfiltered 16 -33 Vdc FWR (or coded when horn set to steady tone) Operating voltage G1 -HDVM series temporal -tone horn - strobes: non - coded, filtered 16 -33 Vdc or unfiltered 16 -33 Vdc FWR (or coded (audible NAC only) when used with optional G1M Genesis Signal Master) G1 -VM series strobes: non - coded, filtered 16 - 33 Vdc or unfiltered 16 -33 Vdc FWR G1 -P series steady -tone horns: coded or non - coded, filtered 20 -31 Vdc or unfiltered 20 -27 Vfwr Strobe output rating UL 1971, UL 1638, ULC S526: selectable 15 cd, 30 cd, 75 cd, or 110 cd output G1 -VM strobes and G1 -HDVM series temporal -tone horn - strobes: one flash per second synchronized with Strobe flash rate optional G1M Genesis Signal Master indefinitely within 10 milliseconds (or self- synchronized within 200 milliseconds over thirty minutes on a common circuit without G1M Genesis Signal Master) Temporal setting (private mode only): synchronized to temporal output of horns on same circuit Compatible synchronization G1M, G1M -RM, SIGA -CC1S, SIGA -MCC1S modules" G1 -HD temporal -tone horns and G1 -HDVM series temporal -tone horn - strobes: temporal rate synchronized Horn pulse rate with optional G1M Genesis Signal Master indefinitely within 10 milliseconds (or self- synchronized within 200 milliseconds over thirty minutes on a common circuit without G1M Genesis Signal Master) G1 -P steady -tone horns: continuous, steady tone only Temporal audible pattern 1 /2 sec ON, 1 /2 sec OFF, 1 /2 sec ON, 1 /2 sec OFF, 1 /2 sec ON, 1 sec OFF, then repeat cycle 0 *Not compatible with GI -P Series horns. dBAoutput Temporal Horns. Horn - strobes I4211 -HD. G1 -HDVM series) _ Minh dR Sattinn Temporal Horns. Horn - strobes (4211 -1 G7 -HDVM seriesl _ Lnw dR c.ttln. UL464 Average Peak 20 Vdc Temporal Steady Temporal /Steady Temporal /Steady 16 Vdc 81.4 85.5 91.4 94.2 24 Vdc 84.4 88.6 94.5 97.6 33 Vdc 86.3 90.4 96.9 99.5 Temporal Horns. Horn - strobes (4211 -1 G7 -HDVM seriesl _ Lnw dR c.ttln. Steady Tone Horns (G7 -P series) • UL464 Average Peak 20 Vdc Temporal Steady Temporal /Steady Temporal /Steady 16 Vdc 76.0 80.1 86.3 89.2 24 Vdc 79.4 83.5 89.8 92.5 33 Vdc 82.1 86.5 92.5 95.3 Steady Tone Horns (G7 -P series) • Notes 1. All values shown are dBA measured at 10 feet (3.01 m). 2. UL464 values measured in reverberation room. 3. Average and Peak values are measured in anechoic chamber. rg W 19 Issue 1 Page 4 of 6 EDWARDS SYSTEMS TECHNOLOGY Literature Sheet #86001 -0673 Not to be used for installation purposes. For the most currant literature and updates visit www.est.net. Average Sound Output (dBA) (High dB setting, anechoi , 24V, measured at 1 Oft) �- mua +mmmmmwmma+" o wmmmmammm+m no +m 90, Light output - (effective cd) Percent of UL rating versus angle UL464 Average Peak 20 Vdc 76.7 89.5 91 24 Vdc 77.1 90 91.1 31 Vdc 77.2 90.4 91.6 Notes 1. All values shown are dBA measured at 10 feet (3.01 m). 2. UL464 values measured in reverberation room. 3. Average and Peak values are measured in anechoic chamber. rg W 19 Issue 1 Page 4 of 6 EDWARDS SYSTEMS TECHNOLOGY Literature Sheet #86001 -0673 Not to be used for installation purposes. For the most currant literature and updates visit www.est.net. Average Sound Output (dBA) (High dB setting, anechoi , 24V, measured at 1 Oft) �- mua +mmmmmwmma+" o wmmmmammm+m no +m 90, Light output - (effective cd) Percent of UL rating versus angle C] • • Current Draw Strobes, Horn- Strobes Multi -cd Wall Strobes (G1 -VM) UL Namwnlata Ratinn (111 1071 Fffa t;. KA . ) nnA1 Tvoical Current (Measured by ESTI 15 cd 30 cd 75 cd 110 cd RMS RMS RMS RMS 16 Vdc 103 141 255 311 16 Vfwr 125 179 '~ 346 392 Tvoical Current (Measured by ESTI Multi -cd Wall Temporal Horn - strobes (G7 -HDVM) - High dB Setting 111 Namwnlata Ratinn 11 II 1071 Cffe.. h. RA. —A, 16 Vdc 16 Vfwr 15 cd 15 cd 30 cd 75 cd 110 cd RMS Mean RMS Mean RMS Mean RMS Mean 16 Vdc 85 79 127 124 245 243 285 283 20 Vdc 71 66 98 96 188 186 240 238 24 Vdc 59 55 82 80 152 150 191 190 33 Vdc 46 44 64 63 1 112 111 137 136 16 Vfwr 119 64 169 97 332 203 376 240 20 Vfwr 103 51 143 76 253 150 331 198 24 Vfwr 94 44 129 65 218 121 262 152 33 Vfwr 87 37 112 52 179 89 205 106 Multi -cd Wall Temporal Horn - strobes (G7 -HDVM) - High dB Setting 111 Namwnlata Ratinn 11 II 1071 Cffe.. h. RA. —A, 16 Vdc 16 Vfwr 15 cd 30 cd 75 cd 110 cd RMS RMS RMS RMS 129 167 281 337 176 230 397 443 Typical Current (Measured by EST) Multi -cd Wall Temporal Horn - strobes (G1 -HDVM) - Low dB Setting UL Namwnlatw Ratinn 1111 1071 Fffarti— Mw., )nnAl 16 Vdc 16 Viwr 15 cd 15 cd 30 cd 75 cd 110 cd RMS RMS Mean RMS Mean RMS Mean RMS Mean 16 Vdc 102 89 135 129 246 242 309 305 20 Vdc 88 77 109 104 193 190 248 243 24 Vdc 81 71 94 90 161 158 203 200 33 Vdc 74 64 72 74 124 121 154 151 16 Vtwr 144 77 182 106 352 212 393 1 249 20 Vfwr 141 68 162 87 274 158 362 210 24 Vfwr 136 65 152 76 235 133 282 165 33 Vfwr 125 54 144 65 201 101 232 123 Multi -cd Wall Temporal Horn - strobes (G1 -HDVM) - Low dB Setting UL Namwnlatw Ratinn 1111 1071 Fffarti— Mw., )nnAl 16 Vdc 16 Viwr 15 cd 30 cd 75 cd 110 cd RMS RMS RMS RMS 122 160 274 330 162 216 383 429 Typical Current (Measured by EST) Horns Wall Temporal Horns (G7 -HD) Ill Namwnlata Ratinn 1111 AAA Fffarti.m Ma 7nnA1 15 cd 30 cd 75 cd 110 cd 16 Vdc RMS Mean RMS Mean RMS Mean RMS Mean 16 Vdc 96 84 130 124 243 240 302 297 20 Vdc 79 70 104 99 189 186 241 237 24 Vdc 68 61 88 84 156 154 197 193 33 Vdc 56 52 71 68 118 116 146 143 16 Vtwr 128 69 180 104 344 1 204 389 1 244 20 Vfwr 118 60 157 84 266 156 343 200 24 Vfwr 113 54 144 74 230 128 279 161 33 Vfwr 112 48 137 64 197 99 226 117 Horns Wall Temporal Horns (G7 -HD) Ill Namwnlata Ratinn 1111 AAA Fffarti.m Ma 7nnA1 Typical Current (Measured by EST) High dB Low dB RMS RMS 16 Vdc 26 19 24 Vdc 36 27 33 Vdc 41 33 16 Vfwr 51 37 24 Vfwr 69 52 33 Vfwr 76 70 Typical Current (Measured by EST) Wall Horns (431 -P) UL Nameplate Rating Measured by EST RMS 20 Vdc 9 24 Vdc 10 31 Vdc 12 20 Vfwr 8 24 Vfwr 9 RMS Mean High d8 Low dB 11 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 Vtwr 52 24 47 22 Wall Horns (431 -P) UL Nameplate Rating Measured by EST RMS 20 Vdc 9 24 Vdc 10 31 Vdc 12 20 Vfwr 8 24 Vfwr 9 RMS Mean 10 10 11 11 12 12 9 8 10 9 Notes and Comments 1. Current values are shown inmA. 2 UL Nameplate Rating can varyfrom Typical Current due to measurement methods and instruments used. 3. EST recommends using the Typical Currentfor system design including NAC and Power Supply loading and voltage drop calculations. Use the Vdc R MS current ratings for filtered power supply and battery AH calculations. Use the Vfwr RMS current ratings for unfiltered power supply calculations. 5. Fuses, circuit breakers and other overcurrent protection devices are typically rated for current in RMS values. Most ofthese devices operate based upon the heating affect ofthe current flowing through the device. The RMS current (not the mean current) determines the heating affect and therefore, the trip and hold threshold forthose devices. & Our industry has used'mean'currentsover the years. However, UL will direct the industry to use the 2004 RMS values in the future. EDWARDS SYSTEMS TECHNOLOGY Issue 1 Literature Sheet # 1 85001 -0573 Not to be used for Installation purposes. For the most current literature and updates visit www.est.net. Page 6 of 6 • EDWARDS SYSTEMS TECHNOLOGY ANALOG ADDRESSABLE INITIATING DEVICES Intelligent Photoelectric Smoke Detector Model SIGA -PS Note: Some features described here may not be supported by all control systems. Check your control panel's Installation and Operation Guide for details. Features • Integral microprocessor • Non - volatile memory ■ Automatic mapping device • Electronic addressing • Environmental compensation • Intelligent detector • Wide 0.67% to 3.77 % /ft. sensitivity range • Twenty pre -alarm sensitivity values, set in 5% increments' • Identification of dirty or defective detectors ■ Automatic day /night sensitivity adjustment ■ Twin RED /GREEN status LEDs • Standard, relay, fault isolator, and audible mounting bases • Designed and manufactured to ISO 9001 standards Description EST's Signature Series Model SIGA -PS Intelligent Photoelectric Smoke Detector gathers analog information from its smoke sensing element and converts it into digital signals. The detector's on- board microprocessor measures and analyzes these signals. It compares the information to historical readings and time patterns to make an alarm decision. Digital filters remove signal patterns that are not typical of fires. Unwanted alarms are virtually elimi- nated. The microprocessor in each detector 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 detector constantly runs self - checks to provide important maintenance information. The results of the self -check are automatically updated and permanently stored in the detector'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. ' EST3V.2only. •, 2 Retrievable with SIGA-PRO programming tool. 0 ®' CER; AppkaG , re AvailaG e The information stored in the detector's memory includes: detector type, serial number, and address dateof manufacture, hours of operation, and last maintenance date current detector sensitivity and environmental compensation values original detector sensitivity values upon manufacturingz number of recorded alarms and troubles time and date of last alarm' analog signal patterns just before the last alarm' most recent trouble code logged by the detector — 32 possible trouble codes may be used to diagnose faults. In the unlikely event that an unwanted alarm does take place, the control panel's history file can be called up to help isolate the problem and prevent it from happening again. 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. The history log for the detector remains relevant and intact regardless of its new location. The Signature Series Data Entry Program also uses the mapping feature. With interactive menus and graphic support, thewired 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. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941- 739 -4200; FAX 941- 727 -0740 • CANADA SALES: OWEN SOUND, ON 519- 376 -2430; FAX 519- 376 -7258 INTERNATIONAL SALES: 905 270 -1711; FAX 905 - 270 -9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S. MANUFACTURING: PITTSFIELD, ME Issue 5 Literature Sheet 085001 -0269 Page 1 of 4 Application Although photoelectric detectors have a wide range of fire sensing capabilities they are best suited for detecting slow, smoldering fires. The table below shows six standard test fires used to rate the sensitivity of smoke and heat detectors. The table indicates that no single sensing element is suited for all test fires. EST recommends that this detector be installed according to latest recognized edition of national and local fire alarm codes. Typical Wiring The detector mounting bases accept #18 AWG (0.75mm'), #16 (1.0mmz), #14 AWG (1.5mmz), and #12 AWG (2.5m M2) wire sizes. Note: Sizes #16 AWG (1.0mm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Standard Detector Base, SIGA -SB, SIGA -SB4 Remote LED (SIGA -LED) Max. Resistance per Wire Must NOT Exceed 10(1 Term Description Type of Detector Test Fire SIGA -IS Ion SIGA -PS Photo SIGA -HRS and SIGA -HFS Rate -of - Rise /Fixed Temp. SIGA -PHS Photo /Heat 3D SIGA -IPHS Ion /Photo /Heat 4D Open Wood optimum unsuitable optimum very suitable optimum Wood Pyrolysis suitable optimum unsuitable optimum optimum Smouldering Cotton very suitable optimum unsuitable optimum optimum Poly Urethane Foam very suitable very suitable suitable very suitable optimum n- Heptane optimum very suitable very suitable optimum optimum Liquid Fire without Smoke unsuitable unsuitable optimum very suitable very suitable Typical Wiring The detector mounting bases accept #18 AWG (0.75mm'), #16 (1.0mmz), #14 AWG (1.5mmz), and #12 AWG (2.5m M2) wire sizes. Note: Sizes #16 AWG (1.0mm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Standard Detector Base, SIGA -SB, SIGA -SB4 Remote LED (SIGA -LED) Max. Resistance per Wire Must NOT Exceed 10(1 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 ( -) DATA IN ( -) 1 N7A% I DATA OUT (-) DATA IN ( +) DATA OUT ( +) From Signature Controller To Next Device or Previous Device Isolator Detector Base, SIGA -113, SIGA -1134 DAT DATr% 11-4 t *) From Signature Controller or Previous Device Term Description 1 Not Used 2 DATA IN /OUT ( +) 3 DATA IN ( -) 4 Not Used 5 Not Used 6 DATA OUT ( -) 7 Not Used OUT 0 OUT W To Next Device Relay Detector Base, SIGA -RB, SIGA -RB4 DAT, Term Description 1 Normally Open 2 DATA IN /OUT (+ 3 Common 4 DATA IN ( -) 4 Not Used 5 Normally - Closed 6 DATA OUT ( -) CONTACT RATING 1.0 Amp ® 30 VDC OUT (-) (Pilot Duty) DATA IN ( +) UAIA vu i ( +) From Signature Controller To Next Device or Previous Device Audible Detector Base, SIGA -AB4 Jumper JW1 OUT = Low Volun IN = High Volume Jumper JW2 OUT = Steady Tone IN = Temporal Tone From Power Supply or Previous Sounder Base 24 VDC IN ( +) 3 24 VDC IN(-) 3~ DATA IN ( -) �— DATA IN From Signature Controller or Previous Device To Next Sounder Base or E -O -L Relay .24 VDC OUT ( +) .24 VDC OUT ( -) . DATA OUT ( -) To Next Signature Device ► DATA OUT ( +) EDWARDS SYSTEMS TECHNOLOGY Issue 5 Literature Sheet #85001 -0269 Page 3 of 4 Normally- Normally- • • 1.fs /lam '°'z EDWARDS SYSTEMS TECHNOLOGY ANALOG ADDRESSABLE INITIATING DEVICES Intelligent Heat Detectors Models SIGA -HFS & SIGA -HRS 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. • 70 foot (21.3 meter) spacing • 15 °F (9 °C) /min rate -of- rise /135 °F (57 °C) ft. and 135 °F (57 °C) fixed temperature type • Intelligent detector c/w integral microprocessor • Non - volatile memory • Automatic device mapping • Electronic addressing • Identification of defective detectors ■ Twin RED /GREEN status LEDs • Standard, relay, fault isolator, and audible mounting bases • Designed and manufactured to ISO 9001 standards Description EST's Signature Series Model SIGA -HFS and SIGA -HRS Intelligent Heat Detectors gather analog information from their fixed temperature and /or rate -of -rise heat sensing elements and converts it into digital signals. The detector's on -board microprocessor measures and analyzes these signals. It compares the information to historical readings and time patterns to make an alarm decision. Digital filters remove signal patterns that are not typical of fires. Unwanted alarms are virtually eliminated. The microprocessor in each detector 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 detector constantly runs self- checks to provide important maintenance information. The results of the self -check are automatically updated and permanently stored in the detector'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 detector's memory includes: - detector type, serial number, and address - date of manufacture, hours of operation, and last maintenancedatez - currentdetector (ambient) temperature values - current detector sensitivity and environmental compensation values number of recorded alarms and troubles time and date of last alarm' - analog signal patterns just before the last alarm' - most recent trouble code logged by the detector— 32 possible trouble codes may be used to diagnose faults. In the unlikely eventthat an unwanted alarm doestake place, the control panel's history file can be called up to help isolate the problem and prevent it from happening again. Automatic Device Mapping - The loop controller learns where each device's serial number address is installed relative to other devices on the circuit. This 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. The history log for the detector remains relevant and intact regardless of its new location. The Signature Series Data Entry Program also uses the mapping feature. With interactive menus and graphic support, the wired circuits between each device can be examined. Layout or "as- built" 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. ' EST3 V.2 only. I Retrievable with SIGA -PRO programming tool. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941 - 739-4638; FAX 941 - 727 -1214 • CANADA SALES: OWEN SOUND, ON 519- 378 -2430; FAX 519 - 3767258 INTERNATIONAL SALES: 905-270-1711; FAX 905-270-9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S. MANUFACTURING: PITTSFIELD, ME Issue 5 Literature Sheet #85001 -0243 Page 1 of 4 MEA tU Application Noes Available The information stored in the detector's memory includes: - detector type, serial number, and address - date of manufacture, hours of operation, and last maintenancedatez - currentdetector (ambient) temperature values - current detector sensitivity and environmental compensation values number of recorded alarms and troubles time and date of last alarm' - analog signal patterns just before the last alarm' - most recent trouble code logged by the detector— 32 possible trouble codes may be used to diagnose faults. In the unlikely eventthat an unwanted alarm doestake place, the control panel's history file can be called up to help isolate the problem and prevent it from happening again. Automatic Device Mapping - The loop controller learns where each device's serial number address is installed relative to other devices on the circuit. This 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. The history log for the detector remains relevant and intact regardless of its new location. The Signature Series Data Entry Program also uses the mapping feature. With interactive menus and graphic support, the wired circuits between each device can be examined. Layout or "as- built" 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. ' EST3 V.2 only. I Retrievable with SIGA -PRO programming tool. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941 - 739-4638; FAX 941 - 727 -1214 • CANADA SALES: OWEN SOUND, ON 519- 378 -2430; FAX 519 - 3767258 INTERNATIONAL SALES: 905-270-1711; FAX 905-270-9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S. MANUFACTURING: PITTSFIELD, ME Issue 5 Literature Sheet #85001 -0243 Page 1 of 4 Application The table below shows six standard test fires used to rate the sensitivity of smoke and heat detectors. The table indicates that no single sensing element is suited for aIf test fires. EST recommends that this detector be installed according to latest recognized edition of national and local fire alarm codes. Test Fire Type of Detector SIGA -IS Ion SIGA -PS Photo SIGA -HRS and SIGA -HFS Rate -of -Rise/ Fixed Temp. SIGA -PHS Photo Heat 3D SIGA -IPHS Ion /Photo /Heat 4D Open Wood optimum unsuitable optimum very suitable optimum Wood Pyrolysis suitable optimum unsuitable optimum optimum Smouldering Cotton very suitable optimum unsuitable optimum optimum Poly Urethane Foam very suitable very suitable suitable very suitable optimum n- Heptane optimum very suitable very suitable optimum optimum Liquid Fire without Smoke unsuitable unsuitable optimum very suitable very suitable Typical Wiring The detector mounting bases will accept #18AWG(0.75mm #16(1.Omm #14AWG(1.5mm ), and #12AWG(2.5mm sizes. Note: Sizes #16 AWG (1.0mm ) and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheetfor detailed wiring requirement specifications. Standard Detector Base, SIGA -SB, SIGA -SB4 Relay Detector Base, SIGA -RB, SIGA -RB4 DATA IN ( -) Term Description 1 Not Used 2 DATAIN/OUT( +) 3 Not Used 4 DATA IN ( -) 4 Remote LED ( -) 5 Remote LED( +) 6 Not Used 7 DATAOUT(-) DATA OUT (-) DATA IN W DATA OUT ( +) From Signature Controller To Next Device or Previous Device Isolator Detector Base, SIGA -IB, SIGA -IB4 1071 DAl From Signature Controller or Prevlous Devlce n Description Not Used DATA IN /OUT ( +) DATA IN ( -) Not Used Not Used DATAOUT(-) Not Used , OUT ( -) OUT (+) To Next Device DAT, Term Description 1 Normally -Open 2 DATAIN/OUT( +) 3 Co ttmon 4 DATA IN ( -) 5 Not Used 6 Normally-Closed 7 DATAOUT(-) CONTACT RATING 1.0 Amp 30 VDC (Pilot Duty) OUT (-) DATA IN W DATA OUT ( +) From Signature Controller To Next Device or Previous Device Audible Detector Base, SIGA -AB4 Jumper JW1 Jumper JW2 OUT = Low Volume OUT = Steady Tone IN = High Volume Q IN = Temporal Tone ❑I From Power Supply or Previous Sounder Base 24 VDC IN ( +) 24 VDC IN ( -) DATA IN (•) �� DATA IN From Signature Controller or Previous Device To Next Sounder Base or E -O -L Relay .24 VDC OUT ( +) .24 VDC OUT ( -) -DATA OUT ( -) To Next Signature Device .DATA OUT ( +) Max. Resistance - per Wire Must NOT Exceed 1 O EDWARDS SYSTEMS TECHNOLOGY Issue 5 Literature Sheet #85001 -0243 Page 3 of 4 Normally- Normally- • • • ,�nV"� I " ........... N , � III Ir�s� f f r�AA�►�Ai[.Lc EDWARDS SYSTEMS TECHNOLOGY INTELLIGENT INITIATING DEVICES Intelligent Duct Smoke Detector SIGA -SD Features w Less than 2" deep for easy installation and applications where space is tight ■ -20 to 158 T ( -29 to 70 °C) operating range with 100 ft /min. to 4,000ft/min air velocity rating assures reliability under harsh environmental conditions ■ Status LEDs remain visible through clear assembly cover ■ Cover monitor switch for added security ■ Standard sampling tube spacing for easy drop -in migration from other detectors ■ Sampling tube can be installed with or without the cover in place and can be rotated in 45- degree increments to ensure proper alignmentwith ductairflow ■ 15.2 to 19.95 Vdc operation ■ Magnet - activated test switch • One Form C auxiliary alarm relay for controlling ancillary equipment (e.g., HVAC controls) • No special tools required for easy access to field connections • Signature Series intelligence • Non - volatile memory • Automatic device mapping • Electronic addressing • Self diagnostics • Standalone operation • Environmental compensation with differential sensing for reliable, stable, and drift -free sensitivity • Wide 0.79% to 2.46% obscuration/ft. smoke sensitivity • Identification of dirty or defective detectors Description W �j ,Va The EST SuperDuct Signature Series smoke detector is the most advanced and most reliable device in its class. Designed for easy installation and superb reliability, SuperDuct represents the perfect balance of practical design and advanced technology. SuperDuct detectors feature a unique design that speeds installa- tion and simplifies maintenance. Removable dust filters, conformally coated circuit boards, and optional water - resistant gaskets keep contaminants awayfrom components, ensuring years of trouble -free service. When cleaning is required, the assemblies come apart easily and snap back together in seconds. A Signature Series photoelectric sensor is incorporated into the design of each SIGA -SD duct smoke detector. This sensor inherits the power and benefits of this exceptional line of intelligent devices. Signature Series sensors gather analog information from their smoke sensing elements and convert it into digital signals. The sensor measures and analyses these signals and compares the information to historical readings and time patterns to make an alarm decision. Digital filters remove signal patterns that are not typical of fires, which virtually eliminates unwanted alarms. Like all Signature detectors, the SIGA -SD features electronic addressing and issues a dirty sensorwarning when it reaches its preset limit. The dirty sensorwarning indicates the sensor is operating within its specified limits but is in need of servicing. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: BRADENTON, FL 888- 378.2329; FAX 866-503-3996 • CANADA SALES: OWEN SOUND, ON 519 - 376 -2430; FAX 519.376 -7258 INTERNATIONAL SALES: 905- 270 -1711; FAX 9055-270 -9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S. MANUFACTURING: PITTSFIELD 6 NEWPORT, ME Issue 3 Literature Sheet #85001-0584 Page 1 of 4 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. When the detector's ability to compensate for environmental hanges has reached its limit, the duct smoke detector signals a ublecondition. he SIGA -SD also uses differential sensing to prevent gradual environmental changes from triggering unwanted alarms. Arapid change in environmental conditions, such as smoke from afire, causes the detector to signal an alarm state, but dust and debris accumulated overtime does notchange alarm sensitivity. Each Signature Series SuperDuct detector contains a microproces- sor that performs comprehensive self- diagnostics and stores the results in nonvolatile memory. Stored results include details such as hours of operation, last maintenance date, and number of alarms and troubles. This information can be retrieved and reviewed when desired. The detector assembly cover provides easy access to the smoke sensor, its wiring connections, sample and exhaust tubes, and the smoke chamber itself. Air enters the detector's sensing chamber through a sampling tube (ordered separately) that extends into the duct and is directed back into the ventilation system through an exhaust tube (included). The difference in air pressure between the two tubes pulls the sampled air through the sensing chamber. When asufficientamount of smoke is detected in the sensing chamber, the detector initiates an alarm. The sampling tube may be installed from either the duct side of the assembly orfrom inside the sensor compartment, as preferred by the installer. (The exhaust tube must be installed from the duct side.) Sampling tubes may be rotated in 45- degree increments so that air -holes can be aligned to allow the unit to be mounted at rtually any angle relative to the air flow. nstallations where the duct smoke detector's controls and indicators are hidden from view, a remote test station or an LED indicator can be connected to the detector to provide these functions. Remote Test Stations Labor- saving Remote Test/Reset stations provide alarm testing from the convenience of a remote location. Tests can be performed quickly and safely – without having to climb to the roof. i s Magnetically- operated and key- operated one - gang models are available. Signature SuperDuct detectors are also compatible with SIGA -LED remote alarm LED. C: Application SuperDuct detectors are ideally suited to duct smoke detection applications where early indication of combustion is required within the confined space of ventilation ductwork. Its primary purpose is to provide early warning of an impending fire and to prevent smoke from circulating throughout the building. It is typically used to detect smoke in the supply side of the HVAC system but can provide supervision of the return side as well. r -------------------------------- Protected premises j Remote Alarm relay test j output station I I I I I j Duct smoke j �� Return detector r� air HVAC 1 unit - °— Duct smoke I = j � Supply s t _ detector air 3� I I Alarm relay I I output FACP I I l I I I t I SuperDuct detectors continually sample air flow in the HVAC duct and initiate an alarm condition whenever smoke is detected. An alarm is activated when the quantity (percent obscuration) of combustion products in thatairsample exceeds the detector's sensitivity setting. Air velocity in the duct as low as 100 ft/min. maintains adequate air flow into the sensor smoke chamber through air holes in the air sampling tube and discharges through the exhaust tube. SuperDuct air sampling tubes must be installed with the inlet holes facing the airstream. Sampling tubes may be rotated in 45- degree increments so that air -holes can be aligned to allow the unit to be mounted in virtually any angle relative to the airflow. SuperDuct sensors are engineered to operate optimally under the harsh environmental conditions frequently found in HVAC ductwork. Nonetheless, before installing the detector, testthe duct air velocity, temperature, and humidity to verify that it is within the operating range of the SuperDuct detector. Consult the SuperDuct installation sheetfor details. WARNING: Duct detectors have specific limitations. Duct detectors are not a substitute for an open area smoke detector. Duct detectors are not a substitute for early warning detection or a replace mentfor a building's regular fire detection system. Smoke detectors are not designed to detect toxic gases which can buildup to hazardous levels in some fires. These devices will not operate without electrical power. As fires frequently cause power interruptions, EST suggests you discuss further safeguards with your local fire protection specialist EDWARDS SYSTEMS TECHNOLOGY Page 2 of 4 Literature Sheet #85001 -0584 Issue 3 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. • • Assembly Sampling tube socket Exhaust tube l"4 Wiring Detector -1 Sampling tube (ordered separately) Mounting Airflow 0.v% HVAC duct Q , Detector Sampling tube #10 sheet metal screw (2X) -- - - - - -- -- I + I SIGA -LED [1] I Alarm I ------ - - - - -� or I I I I 1 I Alarm I I Z I SD -TRK I Test I or I I SD -TRM [1] 3 I I I I I 4 I I I Data Out ( -) Data Out ( +) MOSS ON. E01% Notes [1] No more than one remote test station or LED indicator can be connected to the detector at the same time. Wiring is unsupervised. Maximum wire resistance is 10 ohms per wire. • EDWARDS SYSTEMS TECHNOLOGY Issue 31-iterature Sheet #85001 -0584 Page 3 of 4 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. v -- Plug Specifications, detector Dimensions C] 229. (5 79 on) 545m (13 84 m) I e01n (4 83 an) 1 I 1 1 1 8.70 x 5.45 x 1.90 inches ensions (221 x 138 x 48 mm) Wire size 14 to 22 AWG Smoke detection method Photoelectric (light scattering principle) Air velocity rating 100 to 4,000 ft/min Air pressure differential 0.005 to 1.00 inches of water Sensitivity 0.79 to 2.46 % /ft obscuration Alarm test response time 5 seconds LED indicators Alarm (red), Power (green) i I I I Unsupervised and power - limited Common alarm relay Quantity: 1 (SD -TRK) Type: Form C Switch ratings Ratings: 2.0 A at 30 Vdc (resistive) Operating voltage 15.2 to 19.95 Vdc Compatible detectors Standby: 45 NA Operating current Alarm: 45 NA Operating environment Inrush: 1 mA Air velocity test kit (stoppers only, etc) Standalone alarm: 18 mA Storage temperature Temperature: -20 to 158 °F Operating environment ( -29 to 70 °C) Test magnet kit Humidity 93% RH, noncondensing Agency listings UL, ULC, CSFM Dimensions C] 229. (5 79 on) 545m (13 84 m) I e01n (4 83 an) 1 I 1 1 1 1 1 1 in 1 540 in 1 51 (3.51 ant (1J.72 Cm) Specifications, test stations Remote Test/Reset Stations provide alarm test, trouble indication, and reset capability from a remote location. They include a one - gang plate, momentary SPST switch, red alarm LED, and terminal block. Magnetically- operated models (TRM) or key- operated models (TRK) are available. Compatible electrical B 15m(20]cm) 7.75 ,(197 an) 3.08m17 .02 and 160m 406 ant boxes Standard 4 -in square box, Intelligent SuperDuct Detector 1 -1/2 inches deep, with 1 -gang cover LED indicators Alarm (red) LED type Clear lens Wire size 14 to 22 AWG ; ; 0 0 0 0 1 I ; I Voltage: 3 Vdc, max. i I I I Specifications, test stations Remote Test/Reset Stations provide alarm test, trouble indication, and reset capability from a remote location. They include a one - gang plate, momentary SPST switch, red alarm LED, and terminal block. Magnetically- operated models (TRM) or key- operated models (TRK) are available. Compatible electrical North American 1 -gang box boxes Standard 4 -in square box, Intelligent SuperDuct Detector 1 -1/2 inches deep, with 1 -gang cover LED indicators Alarm (red) LED type Clear lens Wire size 14 to 22 AWG Resistance per wire 10 Ohms, max. Current requirements See controller specifications LED circuit ratings Voltage: 3 Vdc, max. SD -T78 Current: 30 mA, max. Switch ratings Voltage: 125 Vdc, max. (SD -TRK) Current: 4 A, max. Switch ratings Voltage: 200 Vdc, max. (SD -TRM) Current: 0.5 A, max. Compatible detectors SuperDuct conventional two -wire SD -TRK and Signature duct smoke detectors Operating environment Temperature: 32 to 131 °F (0 to 55 °C► Air velocity test kit (stoppers only, etc) Humidity: 93% RH, noncondensing Storage temperature -4 to 140 °F ( -20 to 60 °C) Agency listings I UL, ULC, CSFM Ordering Information Catalog Number Description Ship Wt. lb. (kg) SIGA -SD Intelligent SuperDuct Detector 2.4 (1.1) Accessories SD -T8 8 -inch sampling tube 0.5 (0.2) SD -T18 18 -inch sampling tube 1.5 (0.7) SD -T24 24 -inch sampling tube 2.7 (1.2) SD -T36 36 -inch sampling tube 3.0 (1.4) SD -T42 42 -inch sampling tube 3.5(1.6) SD -T60 60 -inch sampling tube 5.8 (2.6) SD -T78 78 -inch sampling tube 7.5 (3.4) SD -T120 120 -inch sampling tube 11.5 (5.2) SIGA -LED Remote alarm LED 1.0 (0.5) SD -TRM Remote test station, magnetic 1.0 (0.5) SD -TRK Remote test station, keyed 1.0 (0.5) SD -VTK Air velocity test kit (stoppers only, etc) 1.0 (0.5) SD -GSK Cover gasket kit 0.5 (0.2) SD -MAG Test magnet kit 0.5 (0.2) SIGA -SDPCB Replacement PCB /Signature sensor kit 1.0 (0.5) EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We can not cover specific applications or anticipate all requirements. All specifications are subject to change without notice. For more information or questions relative to this Specification Sheet, contact EST. © 2005 EST . Printed in U.S.A. lodging Page 4 of 4 Literature Sheet 3F85001 -0584 Issue 3 Not to be used for installation purposes. For the most current literature and updates visit www.est.net. A product of EST Marketing, Bradenton, FL SuperDuct Signature Duct Smoke Detector • • • Product description The SuperDuct Signature Duct Smoke Detector (referred to as duct smoke detector) detects the presence of smoke under extended temperature ranges in a building's HVAC system. Its primary purpose is to provide early warning of an impending fire and to prevent smoke from circulating throughout the building. The duct smoke detector comprises a plastic housing, a printed circuit board, a clear plastic cover, and an exhaust tube. The clear plastic cover permits visual inspections without having to disassemble the detector. The cover attaches to the detector housing using four captive screws and forms an airtight chamber around the sensing electronics. A sampling tube is required to introduce air into the duct smoke detector. The sampling tube is ordered separately and varies in length depending on the width of the HVAC duct. This document applies to the following duct smoke detector models: SIGA -SD, GSA -SD, and XLS -SD. WARNING: SuperDuct duct smoke detectors are not intended as subst for op are pr Related documents For information regarding duct smoke detector installation, testing, and maintenance not included in this installation sheet, refer to Technical Bulletin P/N 3100738. Specifications Dimensions: 8.70 x 5.45 x 1.90 inches Wire size: 14 to 22 AWG Smoke detection method: Photoelectric (light scattering principle) Air velocity rating: 100 to 4,000 ft /min Air pressure differential: 0.005 to 1.00 inches of water Sensitivity: 0.79 to 2.46 %/ft obscuration Alarm test response time: 5 seconds LED indicators: Alarm (red), Power (green) Common alarm relay Unsupervised and power - limited Quantity: 1 Type: Form C Ratings: 2.0 A at 30 Vdc (resistive) Operating voltage: 15.2 to 19.95 Vdc Operating current Standby: 45 pA Alarm: 45 pA Inrush: 1 mA Standalone alarm: 18 mA Operating environment Temperature: -29 to 70 °C ( -20 to 158 °F) Humidity: 93% RH, noncondensing Duct smoke detector limitations SuperDuct duct smoke detectors will not operate without electrical power. SuperDuct duct smoke detectors will not operate as designed outside of the listed electrical and environmental specifications SuperDuct duct smoke detectors will not sense smoke unless the ventilation system is operating and the sensor's cover is properly installed. SuperDuct duct smoke detectors may not operate as designed unless installed in accordance with these instructions and all applicable national and local codes as determined by the local authority having jurisdiction. Installation guidelines Install the duct smoke detector on a flat section of HVAC duct between six and ten duct widths from any bends or obstructions. Install supply -side detectors at a point downstream from the supply fan and after the air filter. Install return -side detectors at a point before the return air stream is diluted by outside air. Sampling tubes must extend at least two- thirds across the width of the duct. Sampling tubes longer than 36 inches must be supported at both ends. Installation instructions Please read these instructions thoroughly before installing. In addition to this document, important information can be found in Technical Bulletin P/N 3100738. Step 1: Verify the duct air velocity Drill a small hole at the point where the duct smoke detector is being installed. Using the SD -VTK Air Velocity Test Kit and a suitable air velocity meter, verify that the air velocity in the HVAC duct falls within the specified operating range of the detector and note which direction the air flows. If the air velocity does not fall within the specified range, relocate the detector and seal the hole in the HVAC duct. Note: In order to verify airflow direction and velocity, air must be moving through the HVAC system. Installation Sheet 09DEC04 SuperDuct Signature Duct Smoke Detector P /N: 3100688 REV: 1.0 1/4 Step 2: Drill the mounting holes Step 4: Mount the detector Attach the drill template to the HVAC duct. Drill (or punch) the Mount the duct smoke detector on the HVAC duct as shown in mounting holes where indicated. Remove any rough edges Figure 2. Secure the duct smoke detector using the two sheet K om the holes. metal screws provided in the hardware kit. tep 3: Assemble the detector Assemble the duct smoke detector as shown in Figure 1 Rotate the air sampling tube so the inlet holes face the direction of airflow. Note: In some applications, it may be desirable to install the sampling tube through the front of the duct smoke detector. For details, refer to Technical Bulletin P/N 3100738. Sampling tube socket Exhaust tube P,,Detector socket e HVAC duct Airflow n Q Detector S ampling _/ `_ ube Gtr Exhaust tube Thin a #10 sheet metal screw (2X) gasket Thick Figure 2: Duct smoke detector installation diagram gasket Coupling If the sampling tube is longer than the width of the duct, drill a 3/4 -inch hole on the opposite side of the duct. Extend the sampling tube through the hole as shown in Figure 3 and seal Sampling tube the opening around the tube with an approved sealant. • (ordered separately) - Plug Figure 1: Duct smoke detector assembly diagram Sampling tubes must extend at least two- thirds across the width of the duct and must be supported at the far end if longer than 36 inches. Sampling tubes are available in the lengths listed below. Model Description SD -T8 8 -inch sampling tube SD -T18 18 -inch sampling tube SD -T24 24 -inch sampling tube SD -T36 36 -inch sampling tube SD -T42 42 -inch sampling tube SD -T60 60 -inch sampling tube SD -T78 78 -inch sampling tube SD -T120 120 -inch sampling tube Detector Exhaust tube HVAC 1 t duct Figure 3: Installation with sampling tubes longer than the width of the duct Note: For duct widths greater than 36 inches, use a sampling tube that is longer than the width of the duct (see Figure 3). J P /N: 3100688 REV: 1.0 09DEC04 Installation Sheet 2/4 SuperDuct Signature Duct Smoke Detector O Sealant Sampling tube l O Plug 4 Airflow 4�-- >_ 36 in Figure 3: Installation with sampling tubes longer than the width of the duct Note: For duct widths greater than 36 inches, use a sampling tube that is longer than the width of the duct (see Figure 3). J P /N: 3100688 REV: 1.0 09DEC04 Installation Sheet 2/4 SuperDuct Signature Duct Smoke Detector Step 5: Verify the air pressure differential Open the duct smoke detector and connect a suitable air pressure differential meter to the sampling tube and exhaust tube openings as shown in Figure 4. Verify that the air pressure differential measured between the two openings falls within the specified operating range of the detector. Il Sampling tube opening Air pressure differential meter Figure 4: Air pressure differential measurement • Note: To measure air pressure differential, you must have a suitable air pressure differential meter (supplied by the installer) and an SD -VTK Air Velocity Test kit. Wiring Wire the duct smoke detector as shown in Figure 5. Testing After completing the installation, test the duct smoke detector to ensure that it is operating correctly before leaving the site. For details, refer to Technical Bulletin P/N 3100738. Installation Sheet 09DEC04 P /N: 3100688 REV: 1.0 SuperDuct Signature Duct Smoke Detector 3/4 u • Auxiliary equipment 17 16 15 From Data Out ( + / -) Data In ( +) on previous FJ Signature device Data In ( -) e o o a L Power indicator Alarm indicator Notes [1] No more than one remote test station or LED indicator can be connected to the detector at the same time. Wiring is unsupervised. Maximum wire resistance is 10 ohms per wire. Figure 5: Installation wiring diagram • - - - - -- - - -- 1 I + Alarm _ j I t SIGA -LED [1] � - - -- - - - - -I r------ - - - - -� or P I 1 I Alarm 1 I I I I SD-TRK Test or SD -TRM [1] 3 t 4 I I I L ------- - - - - - Data Out ( -) 1 To Data In ( + / -) J on next Signature Data Out ( +) device 14 13 12 11 10 9 8 7 P /N: 3100688 REV: 1.0 09DEC04 Installation Sheet 4/4 SuperDuct Signature Duct Smoke Detector • 0 EDWARDS SYSTEMS TECHNOLOGY ANALOG ADDRESSABLE INITIATING DEVICES Manual .Pull Stations Models SIGA -270, SIGA -270P, SIGA -278 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. • Traditional familiar appearance SIGA -270 models feature our familiar teardrop design with simple positive pull action and sturdy die -cast metal body. • One stage (GA), two stage (pre - signal), and double action models SIGA -270 models are available for one or two stage alarm systems. The single stage double action SIGA- 278features a rugged Lexan housing with keyed reset mechanism. • Break glass operation An up -front visible glass rod on the SIGA -270 discourages tampering. • Intelligent device c/wintegral microprocessor All decisions are made at the station allowing lower communica- tion speed while substantially improving control panel response time. Less sensitive to line noise and loop wiring properties; twisted or shielded wire is not required. • 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 station 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. • Stand -alone operation The station inputs an alarm even if the loop controller's polling interrogation stops. • Diagnostic LEDs Status LEDs; flashing GREEN shows normal polling; flashing RED shows alarm state. ■ Designed for high ambient temperature operation Install in ambient temperatures up to 120 °F (49 0 C). ■ Designed to ISO 9001 standards Manufactured to strict international quality standards for highest reliability. MEA 'u Description The SIGA -270 and SIGA -278 series Manual Pull Stations are part of EST's Signature Series system. The SIGA -270 Fire Alarm Manual Pull Stations feature our very familiar teardrop shape. They are made from die -cast zinc and finished with red epoxy powder -coat paint complemented by aluminum colored stripes and markings. With positive pull -lever operation, one pull on the station handle breaks the glass rod and turns in a positive alarm, ensuring protection plus fool -proof operation. Presignal models (SIGA -270P) are equipped with a general alarm (GA) keyswitch for applications where two stage operation is required. The up -front highly visible glass rod discourages tampering. EST's double action single stage SIGA -278 station is a contempo- rary style manual station made from durable red colored lexan. To initiate an alarm, first lift the upper door marked "LIFT THEN PULL HANDLE ", then pull the alarm handle. The integral microprocessor built into each Signature Series station provides four important benefits - Self- diagnostics and History Log, Automatic Device Mapping, Stand -alone Operation and Fast, Stable Communication. Self- diagnostics and History Log - Each Signature Series manual station constantly runs self- checks to provide important main- tenance information. The results of the self -check are automatically updated and permanently stored in the station'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. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941- 739A638; FAX 941- 727 -1214 - CANADA SALES: OWEN SOUND, ON 519 - 376 -2430; FAX 519 - 376 -7258 INTERNATIONAL SALES: 905- 270 -1711; FAX 9N-270-9553 - CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S. MANUFACTURING: PITTSFIELD, ME Issue 4 Literature Sheet #85001 -0279 Page 1 of 4 SIGA -278 SIGA -270 SERIES Installation Single -stage Signature Series fire alarm manual pull stations mount to North American 2 -1/2 inch (64 mm) deep 1 -gang boxes. Two stage presignaI (270P) models require 1 -1/2 inch (38 mm) deep 4 inch square boxes with 1 -gang covers. The terminals are suited for #12 to #18 AWG (2.5 mmz to 0.75 mmz) wire size. EST recommends that these fire alarm stations be installed according to latest recognized edition of national and local fire alarm codes. Electronic Addressing: The loop controller electronically addresses each manual station, saving valuable time during system commissioning. Setting complicated switches or dials is not required. Each station 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 stations can be addressed using the SIGA -PRO Signature Program /Service Tool. Key -Latch Compatible Electrical Box Cover Release R 0 . ° Bock L%5 Q ` Plate A Toggle Switch 0 O ,2 Glass Rod - -- OPEN D-- o Figure 1. SIGA -278 installation Figure 3. SIGA -270P, SIGC -270PB installation Compatible Electrical Box Cover Release Screw Ii i I,Jr • 0 MEMO kons Toggle Swttch ` Glass Rod Release Lever Figure 2. SIGA -270, SIGC -270F, SIGC -270B installation Compatibility Signature Series manual stations are compatible onlywith EST's Signature Loop Controller. Warnings & Cautions This device will not operate without electrical power. As fires frequently cause power interruption, we suggestyou discuss further safeguards with your local fire protection specialist. Application The operating characteristics of the fire alarm stations are deter- mined by their sub -type code or "Personality Code ". NORMALLY - OPEN ALARM - LATCHING ( Pesonality Code 1) is assigned by the factory; no user configuration is required. The device is configured for Class B IDC operation. An ALARM signal is sent to the loop controller when the station's pull lever is operated. The alarm condition is latched at the station. EDWARDS SYSTEMS TECHNOLOGY Issue 4 Literature Sheet #85001 -0279 Page 3 of 4 N EDWARDS SYSTEMS TECHNOLOGY Input Modules Models SIGA -CT1, SIGA -CT2 & SIGA -MCT2 • • Features ANALOG ADDRESSABLE INPUT /OUTPUT DEVICES • Multiple applications Including Alarm, Alarm with delayed latching (retard) for waterflow 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 1_110 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, or the SIGA -PRO Signature Program /Service Tool. There are no switches or dials to set. • 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. • 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 dependentupon 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. ■ High ambient temperature operation Install in ambient temperatures up to 120 °F (49 ■ Designed to ISO 9001 standards All Signature products are manufactured to strict international quality standards to ensure highest reliability. SIGA -CT1/2 ® U� g C E -.s - �i MEA APPafalan Nines - -- Available Description The SIGA -CT1 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, Supervi- sory, or Monitor type dry contact Initiating Device Circuits (IDC). The actual function of these modules is determined by the "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 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 1/0 and data loop connec- tions are made to each module. The SIGA -MCT2 is part of the U10 family of plug -in Signature Series modules. It functions identically to the SIGA -CT2, buttakes advantage of the modular flexibility and easy installation that characterizes all U10 modules. Two- and six - module U10 motherboards are available. All wiring connections are made to terminal blocks on the motherboard. U10 assemblies may be mounted in EST enclosures. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL 941 - 739 -4200; FAX 941- 727 -0740 • CANADA SALES: OWEN SOUND, ON 519- 376 -2430; FAX 519 - 376 -7258 INTERNATIONAL SALES: 905- 270 -1711; FAX 905- 270 -9553 - CORPORATE HEADQUARTERS- CHESHIRE, CT - U.S. MANUFACTURING: PITTSFIELD, ME Issue 5 Literature Sheet #85001 -0241 Page 1 of 4 Typical Wiring Modules will accept #18 AWG (0.75mmz), #16 (1.0mm and #14AWG (1.50mmz), and #12 AWG (2.5Ommz) wire sizes. Note: Sizes #16 AWG (1.Omm ) and #18 AWG (0.75mmz) are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Initiating (Slave) Device Circuit Wire Specifications Maximum Allowable Wire Resistance 50 ohms (25 ohms per wire) per Circuit Maximum Allowable Wire Capacitance 0.1NF per Circuit For Design Reference: Wire Size Maximum Distance to EOLR #18 AWG (0.75 mmz) 4,000 ft (1,219 m) #16 AWG (1.00 mmz) #14 AWG (1.50 mmz) #12 AWG (1.50 mmz) Typical N.O. Initiating Device ,1 1A 4 style B (Class B) Red LED (Alarm /Acttve) j ( DATA IN ( +) ontroller I l DATA IN ( -) From Signature C or Previous Device Q SIGA -CT1 UL /ULC LBtad 47M EOL _ Green LED (Normal) DATA OUT ( +) DATA OUT ( -) To Next Device NOTES Q Maximum 25 ohm resistance per wire. ZL Maximum # 12AWG( 2. 5mm ') wire; Minimum #18 AWG (0.75mm2). 3Q Refer to Signature controller installation sheet forwiring specifications. ® Maximum 1OVdc @ 350pA © The SIGA- UI06Rand the SIGA- UIO2Rdo 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 frequently cause power interruption, we suggestyou discuss further safeguards with your local fire protection specialist. Typical N.O. Initialing Device INPUT 1 � L— UUULC Llead Style B (Class B) 47KL1 EOL 1Q Q2 4Q Red LED (Alarm /Acttve) TBl INPUT 2 (( DATA IN ( +) l DATA IN(-) N ( -) From signature Controller or Previous Device Q 9 SIGA -CT2 I UL/UL ed 47M EOL Green LED (Normal) DATA OUT ( +)1 DATA OUT ( -) To Next Device EDWARDS SYSTEMS TECHNOLOGY Issue 5 Literature Sheet #85001 -0241 Page 3 of 4 INTELLIGENT ANALOG DEVICES • • • „S/lG/Y.4AVAW sE.QiEs 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. ® 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. N AUTOMATIC DEVICE MAPPING Each module transmits wiring information to the loop controller regarding its location with respect to other devices on the circuit. E 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. e 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. N 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 0 C). ■ DESIGNED TO ISO 9001 STANDARDS Manufactured to strict international quality standards for highest reliability. Description The SIGA -MM1 Monitor Module and SIGA -WTM Waterflow/ 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, Supervi- sory, 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 date. number of recorded troubles, alarms, and time and date of last alarm. up to 24 possible trouble codes which may be used to specifically diagnose faults. EDWARDS SYSTEMS TECHNOLOGY SARASOTA, FLA. 941- 739 -4200 Fax: 941- 751 -6384 CHESHIRE, CT. 203 - 699 -3000 Fax: 203 - 250 -1931 OWEN SOUND, CANADA 519- 376 -2430 Fax: 519- 376 -7258 INTERNATIONAL: CANADA 905- 270 -1711 Fax: 905 - 270 -9553 85001 -0297 1 of 4 Iss. 3 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. he 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 communications fail for more than 4 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. Other than regular supervisory polling k sponse, the module only needs to communicate with the op controller when it has something new to report. This provides very fast control panel response time and allows a lower baud rate (speed) to be used for communication on the circuit. The lower baud rate offers several 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 constructed 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. 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. Installation The SIGA -MM1 and SIGA -WTM modules mount to North American 2 -1/2" (64 mm) deep 1 -gang boxes and 1 -1/2" (38 mm) deep 4" square boxes with 1 -gang covers. The terminals are suited for #14 to #18 AWG (1.5 mm to 0.75 mm wire size. patible Electrical Box 1 Wall Plate, White (� (1 -Gang) k C t{ -, OPtlonal Self 3 French Label French Lab L/J t i � (Supplied) E 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 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. Personality codes are assigned by the factory. No user configuration is required for these modules. EDWARDS SYSTEMS TECHNOLOGY SARASOTA, FLA. 941-739-4200 Fax: 941-751-6384 CHESHIRE, CT.203- 699 -3000 Fax: 203- 250 -1931 OWEN SOUND, CANADA 519- 376 -2430 Fax: 519- 376 -7258 n., INTERNATIONAL: CANADA 905- 270 -1711 Fax: 905 - 270 -9553 85001 -0297 2 of 4 Iss. 3 Testing & Maintenance C: C] • 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 #18 AWG (0.75mm #16 (1.Omm and #14 AWG (1.50mm wire sizes. Note: Sizes #16 AWG (1.Omm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Initiating (Slave) Device Circuit Wire Specifications Maximum Allowable Wire Resistance 50 ohms (25 ohms per wire) per Circuit Maximum Allowable Wire Capacitance 0.1 pF per Circuit For Design Reference: Wire Size Maximum Distance to EOLR #18 AWG (0.75 mm 3,930 ft (1,198 m) #16 AWG (1.00 mm 6,225 ft (1,897 m) #14 AWG (1.50 mm 9,900 ft (3,018 m) Typical N.O. Waterflow Contact Typical Supervisory Contact 1 INPUT INPUT 1 Strip 1 /4" from the ends of ALL wires that connect to the terminal Blocks of the Module. TB2q Style B (Class B) j 1/4" (6.4 mm) UL /ULC Listed 8 7 '6 5 CAUTION: 471(f1 EOL Q Q Qq ♦ ♦ • UL /ULC listed 47KS1 EOL Do NOT expose mo re than 114" of wire. Red LED, Green LED (Alarm /Active) 4 3 2 - ,1 (Normal) TBI DATA IN ( +) DATA OUT ( +)1 DATA IN 0 D )} Typical N.O. Monitor Contact ATA OUT ( -) From Signature Controller To Next Device or Previous Device Q 3 Model SIGA -WTM Notes 0 D Style B (Class B) 1 TB2 A l Maximum 25W resistance per wire. a 7 uLNLC Listed • • • 471<11 EOL A2 Maximum #14 AWG (1.5mm wire. Min. #18 (0.75mm2) Red LED Green LED (Alarm /Active) - (Normal) 4 3 Z:. T EJ A3 Refer to Signature Loop Controller Instal- TB1 lation Sheet for wiring specifications. ( DATA IN P DATA OUT ( +)1 A Maximum 1OVDC @ 350pA. { l DATA IN DATA 5) All wiring power limited and supervised. From Signature Controller To Next Device or Previous Device 0 6) This module will NOT support 2 -wire Model SIGA -MM1 smoke detectors. EDWARDS SYSTEMS TECHNOLOGY SARASOTA, FLA. 941-739-4200 Fax: 941-751-6384 CHESHIRE, CT 203- 699 -3000 Fax: 203 - 250 -1931 OWEN SOUND, CANADA 519 - 376 -2430 Fax: 519 - 376 -7258 ■ ..r �7 _! "' INTERNATIONAL: CANADA 905- 270 -1711 Fax: 905- 270 -9553 85001 -0297 3 of 4 Iss. 3 Compatibility The Signature Series modules are compatible only with EST's Signature Loop Controller. Warnings & Cautions � his module will not operate without electrical power. As fires equently cause power interruption, we suggest you discuss further safeguards with your local fire protection specialist. Application The duty performed by the SIGA -MM1 and SIGA -WTM is determined by their factory assigned sub -type code or "Personality Code ". Specifications Table SIGA -WTM NORMALLY -OPEN ALARM - DELAYED LATCHING (Factory set Personality Code 2) - Assigned to one circuit. Configures circuit 1 for Class B normally -open Waterflow Alarm Switches. An ALARM signal is sent to the loop controller when the input contact is closed for approximately 16 seconds. The alarm condition is latched at the module. SIGA -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 -MM1 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. 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 1 Module Address Uses 2 Module Addresses Operating Current Standby = 250pA Activated = 400 A Standby = 396NA Activated = 680 A Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Construction & Finish High Impact Engineering Polymer 1 -gang front plate - White Storage and Operating Environment Operating Temperature: 32oF to 120OF (0 °C to 49 °C) Storage Temperature: -4oF to 140oF ( -20oC to 60oC) 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 Agency Listings Use With: Signature Loop Controller UL, ULC Ordering Information Table Catalog Number Description Carton Dims - inches (mm) Ship Wt. I his (kg) SIGA -MM1 Monitor Module - UUULC Listed 5.3 (135)w x 2.5 (64)h x 5.3 (135)d .4 (.15) SIGA -WTM Waterflow [TamperModule - UUULCListed ACCESSORIES 27193 -11 Surface Mount Box - Red, 1 -gang ::::::: 3 (76)w x 4.75 (121)h x 2.5 (64)d 1 (6) 27193 -16 Surface Mount Box - White, 1 -gang EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and SARASOTA, FLA. 941 739 - 4200 Fax: 941 - 751 - 6384 accurate. we can not cover specific applications or anticipate CHESHIRE, CT 203- 699 -3000 Fax: 203 - 250 -1931 all requirements. All specifications are subject to change with- out notice. For more information or questions relative to this OWEN SOUND, CANADA 519 - 376 -2430 Fax: 519- 376 -7258 85001 -0297 Specification Sheet, contact EST. INTERNATIONAL: CANADA 905- 270 -1711 Fax: 905 - 270 -9553 4 of 4 Iss. 3 0 1997 EST Printed in Canada EDWARDS SYSTEMS TECHNOLOGY INTELLIGENT ANALOG DEVICES Control Relay Modules Model SIGA -CR, SIGA -MCR, SIGA -CRR, SIGA -MCRR Features ■ 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. ■ ALLOWS GROUP OPERATION OF SOUNDER BASES The SIGA - CRR /MCRR reverses the polarity of its 24 Vdc output, thus activating all Sounder Bases on the data loop. ■ PLUG -IN (UIO) OR STANDARD 1 -GANG MOUNT U10 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, or the SIGA -PRO Signature Program/ Service Tool. There are no switches or dials to set. ■ INTELLIGENT DEVICE WITH MICROPROCESSOR All decisions are made at the module to allow lower communication 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. ■ 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. ■ DIAGNOSTIC LEDs Flashing GREEN shows normal polling; flashing RED shows alarm /active state. • HIGH AMBIENT TEMPERATURE OPERATION Install in ambient temperatures up to 120 °F (49 0 C). • DESIGNED TO ISO 9001 STANDARDS All Signature products are manufactured to strict interna- tional 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 (U10) 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 that the relay is in the proper ON /OFF state. Upon command from the loop control- ler, 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 -AB4 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 1/0 and data loop connections are made to each module. Plug -in U10 versions (SIGA -MCR and SIGA -MCRR) are part of the U10 family of plug -in Signature Series modules. They function identically to the standard mount versions, but take advantage of the modular flexibility and easy installation that characterizes all U10 modules. Two- and six - module U1O motherboards are available. All wiring connections are made to terminal blocks on the motherboard. U10 assemblies may be mounted in EST enclosures. • 1 1 EDWARDS SYSTEMS TECHNOLOGY SARASOTA, FLA. 941 - 739 -4200 Fax: 941 - 727 -0740 CHESHIRE, CT. 203 - 699 -3000 Fax: 203 - 250 -1931 OWEN SOUND, CANADA 519- 376 -2430 Fax: 519- 372 -1581 INTERNATIONAL: CANADA 905- 270 -1711 Fax: 905 - 270 -9553 PITTSFIELD, ME. 207 -487 -3104 85001 -0239 1 of 6 Iss. 4 Installation SIGA -CR and SIGA -CRR: modules mount to North American 2'/2" (64 mm) deep 1 -gang boxes and 1'/2" (38 mm) deep 4" square boxes with 1 -gang covers. The terminals are suited for #14 to #18 AWG (1.5 mm to 0.75 mm wire size. patlble EkKticol Box 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). UIO motherboard terminals are suited for #12 to #18 AWG (2.5 mm to 0.75 mm wire size. 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. EST recommends that this module be installed according to latest recognized edition of national and local fire alarm codes. Application The operation of Signature Series control relays is deter- mined 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 0 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 REVgRSAL 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 (Regu- lar 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. 85001 -0239 2 of 6 Iss. 4 Wall Rafe. WMte �J . s.x� F-1h 111W o V 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). UIO motherboard terminals are suited for #12 to #18 AWG (2.5 mm to 0.75 mm wire size. 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. EST recommends that this module be installed according to latest recognized edition of national and local fire alarm codes. Application The operation of Signature Series control relays is deter- mined 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 0 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 REVgRSAL 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 (Regu- lar 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. 85001 -0239 2 of 6 Iss. 4 Specifications u Catalog Number SIGA -CR I SIGA -MCR SIGA -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 = 100NA SIGA -MCRR Activated = 100NA Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) Relay Type and Rating Form "C" 1(0.6) 24 VDC = 2 amps (pilot duty) Surface Mount Box - White, 1 -gang 120 Vac = 0.5 amps SIGA -U102R 220 Vac (non -UL) = 0.5 amps Mounting North American 2' /z" Universal Input- Output Module Board w /Riser Inputs - 6 Module Positions North American 2'h" SIGA -U106 Universal Input- Output Module Board - 6 Module Positions (64 mm) deep 1 -gang boxes Plugs into (64 mm) deep 1 -gang boxes Plugs into and 1' /z" (38 mm) deep U102R, UI06R or U106 and 1'h' (38 mm) deep UIO2R, U106R or U106 4" square boxes Motherboards 4' square boxes Motherboards with 1 -gang covers with 1 -gang covers Construction & Finish High Impact Engineering Polymer Storage and Operating Operating Temperature: 32 °F to 120 °F (0 °C to 49 °C) Environment Storage Temperature: -4 °F to 140 °F ( -20 °C to 60 °C) Humidity: 0 to 93% RH LED Operation On -board Green LED - Flashes when polled On -board Red LED - Flashes when in alarm /active Compatibility Use With: Signature Loop Controller Agency Listings UL, ULC (See Ordering Table) Ordering Information Catalog Number Description Ship Wt. Ibs (kg) SIGA -CR Control Relay Module (Standard Mount) - UL/ULC Listed 0.4 (0.15) SIGA -MCR Control Relay Module (UIO Mount) - UL Listed 0.18 (0.08) SIGA -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 -21 Surface Mount Box - Red, 1 -gang 1(0.6) 27193 -26 Surface Mount Box - White, 1 -gang 1(0.6) SIGA -U102R Universal Input- Output Module Board w /Riser Inputs - 2 Module Positions 0.32 (0.15) SIGA -UI06R Universal Input- Output Module Board w /Riser Inputs - 6 Module Positions 0.62 (0.28) SIGA -U106 Universal Input- Output Module Board - 6 Module Positions 0.56 (0.25) 85001 -0239 3 of 4 Is& 4 Typical Wiring Modules will accept #18 AWG (0.75mm #16 (1.Omm and #14 AWG (1.50mm wire sizes. U10 versions will also accept #12 AWG (2.5mm Note: Sizes #16 AWG (1.Omm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. Listed 24 VDI Nominal POWE Suppl Signature Controller SIGA -CRR Schematic SIGA -AB4 SIGA -AB4 SIGA -AB4 Audible Base Audible Base Audible Base SIGA -MCRR Schematic Notes A Refer to the Signature controller installation sheet for wiring. ® One Pair of Wires (24 Vdc power). A One Pair of Wires (Signature Data). Single Wire (24 Vdc power). ® The SIGA -UIO6R and the SIGA -UIO2R do not come with TB14. A The SIGA -UI06 does not come with TB8 through TB13. 8 Supervised and power - limited. ® Power - limited when connected to a power - limited source. 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. 9 Maximum #12 AWG (2.5 mm2) wire; Minimum #18 AWG (0.75 mm2 ). 10 End -of -Line Relay must monitor and report power supply trouble to control panel. 11 Class B Data wiring may be "T- tapped." Audible Bases t� JW1 JW2 D O O Z z c? r? a 5. a Vl N 0 0 O 6254A -003 EOL Relay required for supevision Signature a r Data Data Out + • • • circut For normal operation SIGA -CT1 Q For General Fire ♦ Alarm Operation UUULC Listed 4 24 Vdc power supply or ` 0 1234 t 1234 - SIGA -MCRR 7 1 - SIGA- UIO(R) series motherboard Data Out+ 4 3 awre 4 2 �T814 No connections required for Data 3 - SIGA -MCRR. Other modules Circuit 2 may require connections. 1 187 rc Data In A Green LED (Normal) co 3 ` Red LED (Active) 1 No connections required for Green LED (Normaq :: :: TB1S SIGA -MCRR. Other modules Red LED (Active) may require connections. Optional SIGA -MCRR SIGA -/disc for disabling/di No connections required for SIGA -MCRR. an an au e base bse Other modules m r connections. q 85001 -0239 4 of 6 Iss. 4 sounder base SIGA -MCRR Typical Wiring Modules will accept #18 AWG (0.75mm #16 (1.Omm and #14 AWG (1.50mm wire sizes. U10 versions will also accept #12 AWG (2.5mm Note: Sizes #16 AWG (1.Omm and #18 AWG (0.75mm are preferred for ease of installation. See Signature Loop Controller catalog sheet for detailed wiring requirement specifications. • Normally- Normally - Open Common Closed • r: ( DATA IN W { l DATA IN(-) From Signature or Previous I Normally Open Common Normally Closed A Green LED (Normal) Notes Refer to Signature Loop Controller Installation Sheet for wiring specifications. ® SIGA- CR/MCR must be installed within the • OUT W 1 same room as the device it is controlling. ® The SIGA -U106R and the SIGA -U102R do not • OUT ( -) J come with TB14. text Device ® The SIGA -U106 does not come with TB8 through TB 13. ® Supervised and power - limited. ® Power - limited when connected to a power - limited source. If the source is nonpower- limited, maintain a space of 114 inch from power - limited wiring or use FPL, FPLP, FPLR, or an equivalent in accordance with the National Electrical Code. 7) UIO: Maximum #12 AWG (2.5mm wire. Min. #18 (0.75mm Standard 1 -gang version: Maximum #14 AWG (1.5mm wire. Min. #18 (0.75mm Data In + + Data Out_ Green L Red I SIGA -MCR Control Relay No connections required for SIGA -MCR. Other modules may require connections. 85001 -0239 5 of 6 Iss. 4 SIGA -CR Control Relay No connections required for SIGA -MCR. Other modules may require connections. 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- 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 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 date. • Number of recorded alarms and troubles. • Time and date of last alarm. • Up to 32 possible trouble codes which may be used to specifically 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 configu- ration 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 4 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). Other than regular supervi- sory 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 communica- tion on the circuit. The lower baud rate offers several advan- tages 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 on most Signature devices provide visual indication of normal and alarm- active condi- tions. 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 maintenance (Regular or Se- lected) for proper system operation should be planned to meet the requirements of the Authority Having Juris- diction (AHJ). Refer to current NFPA 72 and ULC CAN/ ULC 536 standards. Quality and Reliability — EST Signature devices are manufac- tured in North America to strict international ISO 9001 stand- ards. 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. It is our intention to keep the product information current and accurate. We can not cover specific applications or anticipate at requirements. At specifications are subject to change with- out notice. For rare ktornatlon or questions relative to this 85001 -0239 Specification Sheet,'contact EST. 6 of 6 ISs. 4 0 1998 EST Printed in U.S.A. Ll I' • V ="TA . EDWARDS SYSTEMS TECHNOLOGY Electromagnetic Door Holders Features • Floor and wall mounted styles • Low power consumption • AC and DC models • Completely silent operation • 25 Lbf (111N) minimum holding force • Adjustable, swivel contact plate Description EST Electromagnetic Door Holders are ruggedly constructed and attractively designed. The housing is finished with an aluminum color, durable baked polyester powder paint. The floor or wall section houses the electromagnet while the contact plate attaches to the door. The contact plate has a shock absorbing nylon (swivel) ball which allows the plate to adjust to any door angle. Floor units are available in single -door or double -door (back to back) versions. Wall units are available in flush or surface mounted versions. EST door releases should be installed wherever doors may be effectively used to confine smoke and fire, or where the release of a self - closing door from a remote location is desirable for other reasons. Fail -safe operation is an inherent feature of EST door holder - releases. If power fails, doors are released automatically but may be opened or closed manually at any time. All units are free of moving parts, are self- contained and require no maintenance. r €- s. These door holder - releases have a holding force of approximately 25 Lbf (111 N). The device holds a door open until signaled by a fire alarm system, heat detector, smoke detector, or electrical switch. When actuated the door holders release doors to a closed position, checking the spread of smoke and flames. Basic Models ACCESSORIES Floor Mounted: The electromagnet portion consists of a floor plate and a floor housing which when installed with gaskets provided, form a weatherproof electrical junction box. Incoming conduit connects directly into floor plate and forms an additional meas of anchoring the unittothefloor. Floor mounted units are available with one (Cat. No. 1501) or two (Cat. No. 1502) magnet faces for holding a single door or two doors back to back. Wall Mounted: Wall mounted models are available in flush, semi -flush and surface mounting configurations. Flush and semi -flush modelsare de- signed for concealed wiring applications and mount on standard single gang (2 x 4 inch) outlet boxes. Surface mounted models mount on a surface adaptor housing (junction box), which is provided. EDWARDS SYSTEMS TECHNOLOGY U.S. SALES: SARASOTA, FL941-739A638; FAX 941-727-1214 • CANADA SALES: OWEN SOUND, ON519376 -2430; FAX 519-376-7258 INTERNATIONAL SALES: 905-270-1711; FAX 905-270-9553 • CORPORATE HEADQUARTERS: CHESHIRE, CT • U.S. MANUFACTURING: PITTSFIELD, ME Issue 3 Literature Sheet #85001 -0421 Page 1 of 2 Specifications • EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We can not cover specific applications or anticipate all requirements. All specifications are subject to change without notice. For more information or questions relative to this Specification Sheet, contact EST. ® 2000 EST Printed in U.S.A. Page 2 of 2 Literature Sheet #85001 -0421 Issue 3 Style Dimensions - In Inches (Millimeters) Volts Amps VA 24 AC 24 DC .110 .096 2.6 2.3 1501 -AQ Floor 4-1/2' 4- 13116' (41m) (114mm) (122mm)� '- Mounted (Single Door) - 3-114' 0 (B3mm) O (41mm) 1501 -N5 1 120 AC 0.02 2.4 1502 -AQ Floor (i1�) p; M) -+ r 4 4m �- rn z m J� 24 AC* 24 DC* .110* .096* 2.6* 2.3* Mounted (Double Door) I 1 '� 4 ' _— 1.L4' (Mmm) (44 M) 1502 -N5 120 AC* .02* 2.4* 1504 -AQ Flush Wall Mounted (Long Catch j O O 13116' F- 2.314' -y (21mm)�(7ommJ I 67mm) (87mm o (l -1 14 r ' • k #l,- 4- ' 14 AC 24 DC 110 .096 2.6 2.3 1504 -N5 Plate) O mm) 0 120 AC 0.02 2.4 1505 AQ Flush Wall Mounted j 13116' 2 -3/4' I'� (21mm)I (70mm)l I ( 1 -516' 41mm) I 0 24 AC 24 DC .110 .096 2.6 2.3 (Short Catch O *'nom • 05-N5 Plate) O (111mm) (amm) 0 120 AC 0.02 2.4 1508 AQ 2- 7116---''111 2y4- -y (62mm) (7p m ) I r (41M) 24 AC 24 DC 110 .096 2.6 2.3 Surface Wall Mounted (0 = (144„nm',) (44mm) 1508 -N5 0 120 AC 0.02 2.4 1509 -AQ 7132' 2314' 1516' I (41mm) j (6mm) rVommi, FFF------ 24 AC 110 2.6 Completely flush Wall Mounted O o 4.112' 4, O (1t-) O (44mm) 24 DC 096 2.3 _ 1509 -N5 O � 0 120 AC 0.02 2.4 • EDWARDS SYSTEMS TECHNOLOGY It is our intention to keep the product information current and accurate. We can not cover specific applications or anticipate all requirements. All specifications are subject to change without notice. For more information or questions relative to this Specification Sheet, contact EST. ® 2000 EST Printed in U.S.A. Page 2 of 2 Literature Sheet #85001 -0421 Issue 3 EDWARDS SYSTEMS TECHNOLOGY Job Name: BYU IDAHO, ELIZA R. SNOW BUILDLING QS -4 BATTERY CALCULATION WORKSHEET • EST Signature Series Device Battery Calculation Worksheet Device Type Quantity Standby Current mA Total Standby Alarm Current (mA) Total Alarm (mA) SIGA Series Detectors 144 X 0.045 6.4800 0.045 6.4800 SIGA Single Stage Pull Stations 29 X 0.25 7.2500 0.40 11.6000 SIGA Two Stage Pull Stations X 0.396 0.0000 0.68 0.0000 S1GA -CC1 /2 10 X 0.223 2.2300 0.10 1.0000 SIGA -CR 12 X 0.10 1.2000 0.10 1.2000 SIGA -CT1 X 0.25 0.0000 0.40 0.0000 SIGA -SD Duct Detector 18 X 0.045 0.8100 0.05 0.8100 SIGA -LED X 0.00 0.0000 2.00 0.0000 SIGA -MM1 X 0.25 0.0000 0.40 0.0000 SIGA -UM, P -Codes 1,2,3, OR 4 X 0.396 0.0000 0.68 0.0000 SIGA -UM, P -Code 8 X 0.10 0.0000 0.10 0.0000 SIGA -UM, P -Codes 9,10,11,12,15, OR 16 X 0.223 0.0000 0.365 0.0000 SIGA -UM, P -Codes 13,14,20, OR 21 X 0.10 0.0000 0.10 0.0000 SIGA -WTM ll 0.396 4.3560 0.68 7.4800 TOTALS ( Enter in battery Calculation Worksheet ) 22.3260 1 28.5700 • 0 • Description Quantity Current Draw (mA) Total Current mA 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 G1 -HDVM 15cd Horn /Strobe G1 -HDVM 30cd Horn /Strobe G1 -HDVM 75cd Horn /Strobe G1 -HDVM 110cd Horn /Strobe G1 -VM 15cd Strobe G 1 -VM 30cd Strobe G1 -VM 75cd Strobe G 1 -VM 110cd Strobe G1 -HD Horn PLEASE REFER TO THE WORK- SHEETS FOR BOOSTER PANELS FOR HORN STROBE CALCS. I TOTAL CURRENT DRAW 0 • 17J 0 Description Quantity Standby Total Alarm (mA) Total Alarm (mA) Standby mA CPU /LCD Display 1 117 117 135 135 PS6 - Power Supply Card 1 72 72 96 96 SLIC - Signature Loop Intelligent Controller 2 33 66 57 114 SL30,SL30 -1 - LED /Switch Card 1 0 22.5 0 ZR8 - Relay Card 7 0 18 0 X485 - Class A RS -485 Card and UART Port 75 0 75 0 Remote Annunciator 1 105 105 123 123 DLD - Dialer 1 13 13 26 26 Device Current From Worksheet 22 29 Smoke Power, 4 -wire 0 0 SIGA -UM P -Codes 13,14,20, or 21 2 0 2 0 Notification Appliance Devices 0 Total: 278 j 387.57 Battery Calculation Supervisory Hours 24 Alarm Minutes 5 Battery Capacity (AH )= 10.772 • NAC PANEL #1 BASEMENT • • BATTERY CALCULATION WORKSHEET Auxiliary Devices Device Type Quantity Auxiliary current (mA) Total / device NONE 0.071 0.355 0 5 0.090 0.450 0 1 0.158 0.158 0 3 0.200 0.600 0 0.000 0 0.000 0 0.000 0 0.000 0 0.000 0 0.000 0 Total Aux. 0 0 Device Type Quantity Alarm current (mA) Total alarm G1 -HDVM 15 cd 5 0.071 0.355 G 1 -HDVM 30 cd 5 0.090 0.450 G1 -HDVM 75 cd 1 0.158 0.158 G 1 -HDVM 110 cd 3 0.200 0.600 0.000 0.000 0.000 0.000 0.000 0.000 Total NAC Alarm Current 1.563 A (mA) Supervi ory current 70 (mA Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) = 1680 C (mAHr) Supervisory Current Calculation Alarm Current Calculation Alarm Minutes (i.e. 5 min.) = 5 D (min) Alarm Hours (D /60 ) 0.083 E (Hr) Alarm current 190 +A (if SW1 -12 =OFF) + B = 191.563 (mA) Alarm Hours X 0.083 E (Hr) Alarm battery required (mAHr) = 15.964 F (mAHr) Total Battery Requirement Total Amp -Hour Battery Size [0.11 x C) + (2 x F)] 7 - 7.897 10 AH Max. 1000 • NAC PANEL #2 MAIN LEVEL • BATTERY CALCULATION WORKSHEET • Auxiliary Devices Device Type Quantity Auxiliary current (mA) Total / device NONE 7 0.071 0 G 1 -HDVM 30 cd 6 0.090 0 G1 -HDVM 75 cd 0 0.158 0 G1 -HDVM 110 cd 7 0.200 0 0 0 0 0 0 0 Total Aux. 0 0 NAC devices NOW Use strobe 20.4 V current rating for calculations. Device Type Quantity Alarm current (mA Total alarm G1 -HDVM 15 cd 7 0.071 0.497 G 1 -HDVM 30 cd 6 0.090 0.540 G1 -HDVM 75 cd 0 0.158 0.000 G1 -HDVM 110 cd 7 0.200 1.400 0.000 0.000 0.000 0.000 0.000 0.000 Total NAC Alarm Current 2.437 Supervisory Current Calculation A (mA) B (mA) Supervisory current 70 (mA Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) = 1680 1 C (mAHr) Alarm Current Calculation Alarm Minutes (i.e. 5 min.) = 5 D (min) Alarm Hours D /60) = 0.083 E (Hr) Alarm current 190 +A (if SW1 -12 =01FF) + B = 192.437 (mA Alarm Hours X 0.083 E (Hr) Alarm battery required (mAHr) 16.036 F (mAHr) Total Battery Requirement Total Amp -Hour Battery Size [(1.11 x C) + (2 x F)1 f___ 1 _ .897 1 10A H Max. 1000 • NAC PANEL #3 MAIN LEVEL n U • BATTERY CALCULATION WORKSHEET Auxiliary Devices Quantity Device Type Quantity Auxiliary current (mA) Total / device NONE 0.994 G 1 -HDVM 30 cd 0 0.090 0.270 G1 -HDVM 75 cd 0 0.158 0.316 G1 -HDVM 110 cd 0 0.200 0.400 0 0.000 0 0.000 0 0.000 0 0.000 0 0.000 0 0.000 Total NAC Alarm Current 0 Total Aux. 0 0 Device Type Quantity Alarm current mA Total alarm G1 -HDVM 15 cd 14 0.071 0.994 G 1 -HDVM 30 cd 3 0.090 0.270 G1 -HDVM 75 cd 2 0.158 0.316 G1 -HDVM 110 cd 2 0.200 0.400 0.000 0.000 0.000 0.000 0.000 0.000 Total NAC Alarm Current 1.980 Supervisory Current Calculation A (mA) 1 Supervisory current 70 (mA) Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) = 1680 C (mAHr) Alarm Current Calculation Alarm Minutes (I.e. 5 min.) = 5 D (min) Alarm Hours (D /60) = 0.083 E (Hr) Alarm current 190 +A (if SW1 -12 =OFF) + B = 191.980 (mA) Alarm Hours X 0.083 E (Hr) Alarm battery required (mAHr) = 15.998 F (mAHr) Total Battery Requirement Total Amp -Hour Battery Size ((1.11 x C) + (2 x F)1 1.897 10 AH Max. 1000 • NAC PANEL #4 MAIN LEVEL 01 0 BATTERY CALCULATION WORKSHEET Device Type Quantity Alarm current (mA) Total alarm G1 -HDVM 15 cd 13 0.071 0.923 G 1 -HDVM 30 cd 0 0.090 0.000 G1 -HDVM 75 cd 4 0.158 0.632 G 1 -HDVM 110 cd 4 0.200 0.800 0.000 0.000 0.000 0.000 0.000 0.000 Total NAC Alarm Current 9 11�r% Supervisory Current Calculation Supervisory current 70 (mA) Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) = 1680 C (mAHr Alarm Current Calculation Alarm Minutes (I.e. 5 min.) = 5 D (min) Alarm Hours (D /60) = 0.083 E (Hr) Alarm current 190 +A (if SW1 -12 =OFF) + B 192.355 (mA Alarm Hours X 0.083 E (Hr) Alarm battery required (mAHr) = 16.030 F (mAHr Total Battery Requirement Total Amp -Hour Battery Size [0.11 x C) + (2 x F)1 1.897 10 AH Max. 1000 • NAC PANEL #5 MAIN LEVEL 0 BATTERY CALCULATION WORKSHEET Auxiliary Devices Device Type Quantity Auxiliary current (mA) Total / device NONE 0.071 1.136 0 1 0.090 0.090 0 4 0.158 0.632 0 0 0.200 0.000 0 0.000 0 0.000 0 0.000 0 0.000 0 0.000 0 0.000 0 Total Aux. 0 0 Device Type Quantity Alarm current (mA) Total alarm 1 -HDVM 15 cd 16 0.071 1.136 1 -HDVM 30 cd 1 0.090 0.090 1 -HDVM 75 cd 4 0.158 0.632 1 -HDVM 110 cd 0 0.200 0.000 0.000 0.000 0.000 0.000 0.000 0.000 )tal NAC Alarm Current 1.858 Sunervisory Current Calculatinn A (mA) Supervisory current 70 (mA) Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) 1680 C (mAHr) Alarm Current Calculation Alarm Minutes (i.e. 5 min.) = 5 D (min) Alarm Hours (D /60) = 0.083 E (Hr) Alarm current 190 +A (if SW1 -12 =OFF) + B = 191.858 (mA) Alarm Hours X 0.083 E (Hr) Alarm battery required (mAHr) = 15.988 F (mAHr) Total Battery Requirement Total Amp -Hour Battery Size [(1.11 x C) + (2 x F)1 1.897 10 AH Max. 1000 • NAC PANEL #6 MAIN /SECOND LEVELS • • • Device Type Quantity Alarm current (mA) Total alarm G1 -HDVM 15 cd 6 0.071 0.426 G1 -HDVM 30 cd 0 0.090 0.000 G 1 -HDVM 75 cd 3 0.158 0.474 G1 -HDVM 110 cd 10 0.200 2. 0.000 0.000 0.000 0.000 0.000 0.000 Total NAC Alarm Current 1 9 ann Sunervisnry ClirrP_nt Calrnlatinn Supervisory current 70 (mA) Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) = 1680 C (mAHr) Alarm Current Calr_iilatinn Alarm Minutes (I.e. 5 min.) = 5 D (min) Alarm Hours (D /60) = 0.083 E (Hr) Alarm current 190 +A (if SW1 -12 =OFF) + B = 192.900 (mA) Alarm Hours X 0.083 E (Hr) Alarm battery required (mAHr) = 16.075 F (mAHr) Total Battery Requirement - 7- Total Amp -Hour Battery Size [(1.11 x C) + (2 x F)1 1.897 10 AH Max. 1000 BATTERY CALCULATION WORKSHEET NAC PANEL #7 SECOND LEVEL • BATTERY CALCULATION WORKSHEET Auxiliary Devices Quantity Device Type Quantity Auxiliary current (mA) Total / device NONE 1.278 G1 -HDVM 30 cd p 0.090 0.000 G1 -HDVM 75 cd 0 0.158 0.158 G1 -HDVM 110 cd 0 0.200 0.400 0 0.000 0 0.000 0 0.000 0 0.000 0 0.000 0 0 Total Aux. 0 1 p Device Type Quantity Alarm current (mA) Total alarm G1 -HDVM 15 cd 18 0.071 1.278 G1 -HDVM 30 cd 0 0.090 0.000 G1 -HDVM 75 cd 1 0.158 0.158 G1 -HDVM 110 cd 2 0.200 0.400 0.000 0.000 0.000 0.000 0.000 A (mA) ITotal NAC Alarm Current 18 1 R (mAl Suoervisory Current Calculation Supervisory current 70 (mA) Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) = 1680 C (mAHr) Alarm Current Calmdatinn Alarm Minutes (Le. 5 min.) = 5 D (min) Alarm Hours (D /60) = 0.083 E (Hr) Alarm current 190 +A (if SW1 -12 =OFF) + B = 191.836 (mA) Alarm Hours X 0.083 E (Hr) Alarm battery required (mAHr) = 15.986 F (mAHr) Total Battery Requirement Total Amp -Hour Battery Size [0.11 x C) + (2 x F)1 1.897 10 AH Max. 1000 • NAC PANEL #8 SECOND LEVEL • • BATTERY CALCULATION WORKSHEET Device Type Quantity Alarm current (MA) Total alarm G 1 -HDVM 15 cd 14 0.071 0.994 G1 -HDVM 30 cd 0 0.090 0.000 G1 -HDVM 75 cd 3 0.158 0.474 G1 -HDVM 110 cd 4 0.200 0.800 0.000 0.000 0.000 0.000 0.000 0.000 Total NAC Alarm Current 9 968 Supervisory Current Calculation Supervisory current 70 (mA Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) = 1680 C (mAHr) Alarm Current Calculation Alarm Minutes (Le. 5 min.) = 5 D (min) Alarm Hours (D /60) = 0.083 E (Hr) Alarm current 190 +A (if SW1 -12 =OFF) + B = 192.268 (mA) Alarm Hours X 0.083 E (Hr Alarm battery required (mAHr) = 16.022 F (mAHr) Total Battery Requirement Total Amp -Hour Battery Size [(1.11 x C) + (2 x F)l 1.897 10 AH Max. 1000 • NAC PANEL #9 SECOND LEVEL • 1] BATTERY CALCULATION WORKSHEET Device Type Quantity Alarm current (mA) Total alarm G1 -HDVM 15 cd 17 0.071 1.207 G1 -HDVM 30 cd 0 0.090 0.000 G1 -HDVM 75 cd 2 0.158 0.316 G1 -HDVM 110 cd 1 0.200 0.200 0.000 0.000 0.000 0.000 0.000 Sunervisory Current Calr_iflatinn Supervisory current 70 (mA) Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) = 1680 C (mAHr) Alarm Current Calculatinn Alarm Minutes (I.e. 5 min.) = 5 D (min) Alarm Hours (D /60) = 0.083 E (Hr Alarm current 190 +A (if SW1 -12 =OFF ) + B = 191.723 (mA) Alarm Hours X 0.083 E (Hr) Alarm battery required (mAHr) = 15.977 F (mAHr) Total Battery Requirement Total Amp -Hour Battery Size [0.11 x C) + (2 x F)1 1.897 10 AH Max. 1000 • NAC PANEL #10 SECOND LEVEL • • BATTERY CALCULATION WORKSHEET Device Type Quantity Alarm current (mA) Total alarm G1 -HDVM 15 cd 18 0.071 1.278 G1 -HDVM 30 cd 1 0.090 0.090 G1 -HDVM 75 cd 0 0.158 0.000 G1 -HDVM 110 cd 0 0.200 0.000 0.000 0.000 0.000 0.000 0.000 rm Supervi ory current 70 (mA) Supervisory Hours (i.e. 24,60) X 24 (Hr) Supervisory battery required (mAHr) = 1680 C (mAHr) Supervisory Current Calculation Alarm Current Calculation Alarm Minutes I.e. 5 min.) = 5 D (min) Alarm Hours (D /60) = 0.083 E (Hr) Alarm current 190 +A (if SW1 -12 =OFF ) + B = 191.368 (mA Alarm Hours X 0.083 E (Hr) Alarm battery required (mAHr) 15.947 F (mAHr) Total Battery Requirement Total Amp -Hour Battery Size [(1.11 x C) + (2 x F)1 1.897 10A Max. 1000 • WASATCH ELECTRICH • COMTECH SERVICES 24 Vdc Notification Appliance Circuit (NAC) Worksheet Owner: BYU IDAHO Project: ELIZA R. SNOW BUILDING Date: JUNE 28, 2005 • Circuit Counts 1 Counts 2 Counts 3 Device 1 Current* Device 2 Current* Device 3 Current* Recommend Cable [max Rmax Max Ckt Distance Act Ckt Distance Circuit #1 1 1 8 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.078 2.876 553 ft 496 ft Circuit #2 2 0 2 0.200 A 0.158 A 0.090 A 14 AWG 5.2 0.580 5.345 1028 ft 221 ft Circuit #3 5 0 5 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.450 2.138 411 ft 396 ft Circuit #4 2 0 8 0.200 A 1 0.158 A 0.090 A 14 AWG 5.2 1.120 2.768 532 ft 321 ft Circuit #5 2 0 8 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.120 2.768 532 ft 201 ft Circuit #6 0 2 9 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.126 2.753 529 ft 283 ft Circuit #7 3 0 7 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.230 2.520 485 ft 401 ft Circuit #8 1 4 6 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.372 2.259 435 ft 348 ft Circuit #9 0 3 7 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.104 2.808 540 ft 475 ft Circuit #10 0 1 1 10 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.058 2.930 563 ft 362 ft Circuit #11 5 2 1 3 0.200 A 0.158 A 0.090 A 12 AWG 5.2 1.586 1.955 376 ft 426 ft Circuit #12 5 1 1 3 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.428 2.171 417 ft 401 ft Circuit #13 0 0 1 10 0.200 A 0.158 A 0.090 A 14 AWG 5.2 0.900 3.444 662 ft 200 ft Circuit #14 2 1 1 8 0.200 A 0.158 A 1 0.090 A 14 AWG 5.2 1.278 2.426 466 ft 286 ft Circuit #15 2 2 1 6 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.256 2.468 475 ft 434 ft Circuit #16 1 1 1 9 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.168 2.654 510 ft 400 ft Circuit #17 1 2 7 0.200 A 0.158 A 0.090 A 14 AWG 5.2 1.146 2.705 520 ft 226 ft Circuit #18 0 0 10 0.200 A 0.158 A 0.090 A 14 AWG 5.2 0.900 3.444 662 ft 221 ft Circuit #19 1 0 0 9 0.200 A 0.158 A 0.090 A 14 AWG 5.2 0.810 3.827 736 ft 340 ft Circuit #20 1 0 0 10 0.200 A 0.158 A 0.090 A 14 AWG 5.2 0.900 3.444 662 ft 420 ft Calculations: Rmax= Vdrop /Imax Constant: Vdrop =3.4 Volts C] SIGNATURE DATA CIRCUIT NUMBER 1 WRPRO Version 1.00.00 MAXIMUM WIRE DISTANCES FOR SIGNATURE SERIES LOOPS Enter the type of System 1 = IRC3, 2 = EST2, 3 =EST3 u I i Chart #1: Effects of Capacitance (Max Wire Lengths in Feet due to Capacitance) \A /-T.— *ec AWt- 41 %Air_ - -Air_ Page 1 SIGNATURE DATA CIRCUIT NUMBER 2 WRPRO Version 1.00.00 MAXIMUM WIRE DISTANCES FOR SIGNATURE SERIES LOOPS Enter the type of System ; M 1 = IRC3, 2 = EST2, 3 =EST3 1,1 • Chart #1: Effects of Capacitance (Max Wire Lengths in Feet due to Capacitance) Page 1