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20150345 301-FN-E748 Submittal YELM HS (2)
coj� t T E C 77fE S Yelm High School 1315 West Yelm Avenue Yelm, WA 98597 Fire Alarm System Project Submittals F CONVERGINTJOB NUMBER: 301- FN -E748 SALES ENGINEERING: Chris Hansen PROJECT MANAGER: Rob Fisk Convergint Technologies LLC 450 Shattuck Ave S, Suite 100 Renton, WA 98057 Phone 425.272 -2250 Fax 425.251 -0949 www.convergint.com UPXO[FO!' !BTTPDBUFT QM30!BQQS P VtB M U f !qrbot !t vcn juf e!g)slEf oyf x !bEf !bggspvf e!jo!bddpabodr xju !rpdbrh rbrf !bggodbcrhk rboebset /!U jt !bggspvbrtepf t !opu sf 7t mf !d f 1bgg4dbor1pgu f !sf t gpot jcjrjre!pgdpn ggbodr xju u f !bggodbcrh!dpef t / 5❑BgqEpvffe!bt!tvcn jut e/� 2368126 w rEjhjtbrettjhofe!cz!Mt! Kif t lUpX O{ f O Ebtf !3126/23/26! 25;66;45.19(11( Coarse = nt TECM ^I�fS ES SECTION INDEX SECTION 1: EST -3 FACP SECTION 2: POWER SUPPLIES SECTION 3: INPUT - OUTPUT MODULES Coant T E E id�G� E S MAIN PANEL POWER SUPPLIES 3 -PPS /M PRIMARY POWER SUPPLY W/ LOCAL RAIL MODULE LOBBY, REMOTE ENCLOSURES & CHASSIS ASSEMBLIES 3- CAB14B WALLBOX ONLY - 2 CHASSIS 3 -CHAS7 PROVIDES SPACE FOR 7 LOCAL RAIL MODULES SECTION 1: EST3 FACP 3 -CPU3 CENTRAL PROCESSOR UNIT MODULE 3- RS485B NETWORK COMMUNICATION CARD B 3 -SSDC1 SIGNAL SIGNATURE DRIVER CONTROLLER 3 -SDDC1 DUAL SIGNATURE DRIVER CONTROLLER 3- MODCOM MODEM /DIALER 3 -LCD 8 LINE LIQUID CRYSTAL DISPLAY MODULE 3- 12 /S1RY DISPLAY /CONTROL MODULE: 12 SWITCHES WITH 1 RED AND 1 YELLOW LED PER SWITCH MAIN PANEL POWER SUPPLIES 3 -PPS /M PRIMARY POWER SUPPLY W/ LOCAL RAIL MODULE LOBBY, REMOTE ENCLOSURES & CHASSIS ASSEMBLIES 3- CAB14B WALLBOX ONLY - 2 CHASSIS 3 -CHAS7 PROVIDES SPACE FOR 7 LOCAL RAIL MODULES EST %PPI-Lite Safety & Communications EST3 Central Processor Unit 3 -CPU3, 3- RS485A, 3- RS485B, 3 -RS232 Overview The 3 -CPU3 is the Central Processing Unit Module monitoring the status of all modules and providing the link for network commue nications. Although each local rail card contains their own microe processor, the 3 -CPU3 provides all inter - module communication and has the ability to download rail module operating parameters. Upon power up the 3 -CPU3 automatically learns all local rail module attributes and locations. Site specific software is loaded into the 3 -CPU3 which then downloads data to each local rail module. Firmware upgrades are also done from the 3 -CPU3 eliminating the need to unplug chips on rail modules. Mounting must be in the first two local rail spaces of the upper 3 -CHAS7 (module chassis). Options for the 3 -CPU3 include the addition of an LCD display and User Interface, RS -232 Communie cation Card, and RS -485 Series Network Communication Cards. The 3 -CPU3 is fully compatible on the same network with the 3 -CPU and 3 -CPU1 modules. Page 1 of 4 EST Catalog ► EST3 Life Safety Platform Standard Features • Up to 1,000 history events • RS -485 local rail communications • Multiplexed audio channels FM CE UDC S3000 0 7165 -1657: 0186 FDNY COA 6086 EN54- 2:1997 +Ai and EN54- 4:1997 +A1:2002 +A2 pending. • Network communication media can consist of twisted copper RS485, short -haul modems and /or single or multimode fiber optic cables • RS -232 communication card • Form 'C' contacts for: Alarm, Supervisory and Trouble • Low voltage memory write protection • Non - volatile memory DATA SHEET 85010 -0133 Not to be used for installation purposes. Issue 6 Application The 3 -CPU3 helps make EST3 an extremely powerful and flexible system. As a single node, stand alone system a single 3 -CPU3 controls 1 to 19 additional local rail modules. For larger systems, up to 64 nodes interconnect on a peer -to -peer multi - priority token ring protocol network. The 3 -CPU3 controls all local panel responses to automatic, user initiated, or network reported events. As a network node, it is an equal among peers, there is no master on the network. This gives exceptional response times over the network, less than three seconds. Each 3 -CPU3 provides slots at the back for mounting Network, and RS -232, cards. Removable terminal blocks on the 3 -CPU3 support connection of network and audio data wiring. On board common relays also terminate at the 3 -CPU3 terminals. To aid in trouble shooting and service, status LEDs monitor local rail, network, RS232 and audio data communications. The Network Communications card mounts to the back of the Central Processor Unit. The 3- RS485A card provides a Class A (Style 7) or Class B (Style 4) circuit for network communications signals and support for a Class B (Style 4) or Class A (Style 7 - dual Style 4) circuit for the digitized audio signals. The 3- RS485B card provides a Class B (Style 4) or Class A (Style 7) circuit for network communications signals and a second Class B (Style 4) circuit for the digitized audio signals. Network messages received by the Network Communications card are re- transmitted to the next network node. Re- transmission maximizes the wire run lengths between nodes. With 64 nodes miles of network length is possible. Fail safe mechanisms built into the card direct connect the data input and output ports should the network card or its related Central Processor fail. Network communications may be configured via copper or fiber media using the 3- FIBMB. The 3 -RS232 Communication Card mounts to the back of the 3 -CPU3. The 3 -RS232 has two optically isolated RS -232 ports. The ports support connection of a printer and /or an external come mand center. Entire network downloading from one location (to all 64 nodes) is available through the RS -232 card. Engineering Specification It must be possible to support a single stand alone node or up to 64 nodes communicating on a peer -to -peer token ring protoe col network. Network and digitized audio wiring shall be run in a [choose one: Class A (Style 7) or Class B (Style 4)] configuration. Network alarm response from alarm input to signal activation must be under 3 seconds. All field wiring must be to removable terminal blocks. Status LEDs must be provided for communications of nete work and internal rail communications. Inter -node communication speed must be programmable. Internal rail communications speed must be programmable. Page 2 of 4 Installation and Mounting Data - - -- , sssss_ss ss Maximum capacitance between any 3 panels 0.3 NF _s ssss _s Central Processor L L L L L unit R R R R R I3-CPU3 �M �M �M �M �M 0 Maximum resistance between any 3 panels 90 Ohms Maximum capacitance between any 3 panels 0.3 NF Maximum distance between any 3 panels via RS485 5,000 ft. (1,524 m) Capacitance, entire network Maximum Accumulative Capacitance Wire Size 38.41K Baud 19.21K Baud 18 AWG 1.4 NF 2.8 NF 16 AWG 1.8 NF 3.6 NF 14 AWG 2.1 pF 4.2 pF Audio Maximum resistance between any 3 panels 90 Ohms Maximum capacitance between any 3 panels 0.09 NF Maximum distance between any 3 panels via copper RS485 5,000 ft. (1,524 m) DATA SHEET 85010 -0133 Not to be used for installation purposes. Issue 6 Typical Wiring 0 O z To external supervisory input clrcu t To external alarm input circuit[ To external trouble r input circuit[ _ N N N � � �o 0 Q� N to O Q O � Q `o V) Z U NC C NO NO C N/A NC NO C NC TROUBLE ALARM SUP Connect to T131 on 3 -CPU3 Module CENTRAL PROCESSING UNIT MODULE Connect to T132 on 3 -CPU3 Module 0000000000000000000 Network Audio Riser Class A only Q Notes 1. Maximum #14 AWG (1.5 mma) wire; minimum #18 AWG (0.75 mm2). 51 All shields, if used, must be continuous and insulated from ground, except at the originating panel. 3. Class A network data requires one pair of wires connecting the last node to the first node. e Class A audio data requires two pairs of wires running in opposite directions, originating at the node containing the ASU. DB9 FEMALE = O� N �� � co -60 N c>3 -. 70 E— O� N� >_ ,-. LL E a �U OU I°c> lici Q +— N to O Q O � Q `o V) Z U NC C NO NO C N/A NC NO C NC TROUBLE ALARM SUP Connect to T131 on 3 -CPU3 Module CENTRAL PROCESSING UNIT MODULE Connect to T132 on 3 -CPU3 Module 0000000000000000000 Network Audio Riser Class A only Q Notes 1. Maximum #14 AWG (1.5 mma) wire; minimum #18 AWG (0.75 mm2). 51 All shields, if used, must be continuous and insulated from ground, except at the originating panel. 3. Class A network data requires one pair of wires connecting the last node to the first node. e Class A audio data requires two pairs of wires running in opposite directions, originating at the node containing the ASU. DB9 FEMALE = O� N �� � co !_ Q a) ";:'M CO 70 E a U N� >_ ,-. U- QM TO PRINTER OR REMOTE z> t D PIN COMMAND SYSTEM, Q D_ U LL (REAR VIEWa z N to O Q O � Q `o V) Z U NC C NO NO C N/A NC NO C NC TROUBLE ALARM SUP Connect to T131 on 3 -CPU3 Module CENTRAL PROCESSING UNIT MODULE Connect to T132 on 3 -CPU3 Module 0000000000000000000 Network Audio Riser Class A only Q Notes 1. Maximum #14 AWG (1.5 mma) wire; minimum #18 AWG (0.75 mm2). 51 All shields, if used, must be continuous and insulated from ground, except at the originating panel. 3. Class A network data requires one pair of wires connecting the last node to the first node. e Class A audio data requires two pairs of wires running in opposite directions, originating at the node containing the ASU. DB9 FEMALE (REARVIEW) PIN 9 5) COM (3> rxD PORT #2(isolated) 71 TO PRINTER OR REMOTE z> t D PIN COMMAND SYSTEM, o OR 0 Z U z E z DB25 FEMALE LL (REAR VIEWa z a a PIN 13 PIN 25 PORT #2(isolated) (» cOM TO PRINTER OR REMOTE (3) RXD (2) TXD o PIN 14 COMMAND SYSTEM, PIN 1 PIN 13 PIN 25 DB25 FEMALE (REAR VIEWa PORT #1 ISOLATED PORT (» cOM v TO PRINTER OR REMOTE COMMAND SYSTEM. (3) RXD 2) TXD PIN 1 PIN 14 Page 3 of 4 DATA SHEET 85010 -0133 Not to be used for installation purposes. Issue 6 EDwa►ROs Contact us... Email: edwards.fire@fs.utc.com Web: www.est - fire.com EST is an EDWARDS brand. 1016 Corporate Park Drive Mebane, NC 27302 In Canada, contact Chubb Edwards... Email: inquiries @chubbedwards.com Web: www.chubbedwards.com © 2013 UTC Fire & Security Americas Corporation, Inc. All rights reserved. Specifications subject to change without notice. Edwards is part of UTC Climate, Controls & Security, a unit of United Technologies Corporation. Page 4 of 4 Specifications 3 -CPU3 Agency Listings UL, ULC, CSFM, CE, LPCB EN54` pending. Mounting 2 - Left most local rail spaces Terminal Size 18 -12 AWG (1.0mm2 to 2.5mm2) Standby Current 155 mA Alarm Current 165 mA Contact Ratings Nonbypassable Alarm, Supervisory and Trouble Form 'C' 1 A at 30 Vdc Data Down Loading RJ14 Jack Operating Environment 0 °C - 49 °C (32° F - 120° F); 93% at 40° C Non - Condensing `EN54- 2:1997 +A1 and EN54- 4:1997 +A 1:2002 +A2 pending Note: CPU current includes the main power supply, since the CPU and PPS cannot be measured separately. Option Cards Catalog number 3-HIS232 3- RS485A - Standby Current 58 mA 98 mA 98 mA Alarm Current 58 mA 98 mA 98 mA Network Communications Card, Class A (Style 7) 0.331b One Class B (Style 4) (0.15kg) Two optically isolated Three RS -485 Class A or Class A (Style 7) Communication Ports RS -232 (Style 7) network data circuit RS -232 Communication Card 0.331b and one Class B (Style (0.15kg) 3 -CPUDR CPU doors with filler plates. Order separately, one required per CPU 4) audio data circuit Agency Listings UL, ULC. CSFM, CE, LPCB. EN54 pending`. Mounting Back of 3 -CPU3 Operating Environment 0° C - 49° C (32° F - 120° F); 93% at 40° C Non - Condensing `EN54- 2:1997 +A1 and EN54- 4:1997 +A1:2002 +A2 pending Ordering Information Catalog Description i Wt S Number k g) 3 -CPU3 Central Processor Unit Module 0.71b (0.32kg) 3- RS485A Network Communications Card, Class A (Style 7) 0.331b (0.15kg) 3- RS485B One Class A/B network data circuit and one Class B audio data 0.331b circuit (0.15kg) 3 -RS232 RS -232 Communication Card 0.331b (0.15kg) 3 -CPUDR CPU doors with filler plates. Order separately, one required per CPU 0.251b where no LCD display is installed. (0.11 kg) DATA SHEET 85010 -0133 Not to be used for installation purposes. Issue 6 EST Life Safety & Communications Signature Driver Controller Modules 3- SSDC1, 3- SDDC1, 3 -SDC1 Overview The 3 -SSDC1 and 3 -SDDC1 Signature Driver Controller modules provide an intelligent interface between the 3 -CPU3 module and Signature Series devices. Each module contains its own micro- processor used to coordinate, process and interpret information received from and sent to Signature devices. Power and commu- nications is received directly from the control panel rail assembly. The 3 -SSDC1 Single Signature Driver Controller module supports one Signature Data circuit, while the 3 -SDDC1 Signature Dual Driver Controller module supports two Signature circuits. Both modules occupy one rail space in the fire alarm control cabinet and provide removable field wiring terminals to aid installation. Innovative design gives the 3- SSDC1 /3 -SDDC1 and Signature devices truly "distributed intelligence ". Signature detectors and modules have their own on -board microprocessor communicating with the loop controller in a fully digital communication format. This increases the accuracy of the information coming to and from the loop controller by reducing the effects of capacitance and noise. With decentralized intelligence much of the decision making moves from the loop controller to the devices. Advanced fire detection algorithms processed within the Signature devices effectively end unwanted alarms. Environmental compensation and multiple sens- ing element decision making operations are resident in the devices. Intelligent devices allow the Signature Controllers to execute commu- nication and system functions with greater speed and low baud rates, increasing the accuracy of information transmitted between the loop controller and devices. Page 1 of 4 EST Catalog ► EST3 Life Safety Platform Standard Features a One or two circuit versions a Dedicated microprocessor control a Full digital communication a Specialized communication protocol — Less sensitive to cable characteristics — Utilize existing wiring in most applications a Loop alarm in under 750 milliseconds a Device location supervision — Unexpected additional device addresses — Missing device addresses — Switched device locations — Programmed device parameters O ,, 7165 -1657: LC 0186/0306 CL S3000 RM� FDNY COA 6086 EN54- 2:1997 +A1:2006 and EN54- 4:1997 +2002 +A2:2006 a Automatic nonvolatile as -built mapping — Stores "actual" and "expected" device data — Stores physical connection sequence including "T" taps a Automatic day /night sensitivity a Supports up to 250 intelligent Signature detectors and 250 Intelligent Signature Modules a Up to five 3- SDDC1s per node —Total of 10 Signature circuits a Removable field wiring terminal blocks a Multiple survival modes — stand alone a Fully backward compatible with 3 -SSDC and 3 -SDDC a Supports the full line of Signature II devices, including carbon monixide detection DATA SHEET 85010 -0129 Not to be used for installation purposes. Issue 6 Application Up to 125 detectors and 125 modules are supported over a single pair of wires by the 3 -SDC1 Signature Cards that plug into the Signature controller modules. Both Class A wiring (style 6 or style 7) and Class B (style 4) wiring are supported. Loop distances over 11,000 feet (3300m) are possible. The 3 -SSDC1 and 3 -SDDC1 use advanced communication for- mats that provide exceptional response. Using a "BROADCAST POLL" the loop controller checks the entire device circuit for any changes of state. Should one or more devices report a change the 3- SSDC1 /3 -SDDC1 uses "DIRECT ADDRESS SEARCH" to find reporting device(s). Devices that have entered the alarm state or become active are located nearly instantaneously. The unique use of "BROADCAST POLLING" combined with "DI- RECT ADDRESS SEARCH" ensures that only new information is transmitted allowing a reduced baud rate with fast response time. The low baud rate is ideal for retrofit applications since in most applications existing wiring can be used. To enhance survivability of the system the 3- SSDC1 /3 -SDDC1 supports a standalone mode for Signature devices. Two cata- strophic failure modes are supported. If the 3- CPU(1 /3) fails, the loop controller will continue to poll its devices. If an alarm is detected it will be sent on the local rail communication bus and received by other local rail modules. A common alarm condition throughout the panel will result. If the local rail mod- ule (3- SSDC1 /3- SDDC1) fails, and a device (smoke or module) detects an alarm, specialized circuitry will make the node aware of the alarm condition. The 3- CPU(1 /3) will communicate the alarm condition to the rest of the network. Having multiple redundant modes is paramount in a life safety system. Every time the 3- SSDC1 /3 -SDDC1 communicates with a detector a green LED on the detector flashes. Normal green LED activity is not disturbing to building occupants, but can be quickly spotted by a maintenance technician. A red LED on the detector turns on only in the alarm condition. The 3- SSDC1 /3 -SDDC1 also supervises the device wiring, physi- cal location of each device and the programmed device charac- teristics. This Edwards /Signature Series unique characteristic is accomplished by "MAPPING" the Signature circuit and committing the map to memory. Upon power up the loop controller will scan device serial numbers and map their physical location sequence on the loop, including "T" taps. After mapping is complete the controller automatically addresses each detector and module through downloading over the loop. There are no switches or dials to set. Each device is assigned a unique soft address generated by the site specific program. The 3- SSDC1 /3 -SDDC1 then compares the "Actual" physical device data to the "Expected" site specific program data. If any correlations are different, the loop controller issues a trouble to the CPU identifying the devices which do not match and posting a map fault. Through the 3- CPU3's RS -232 port a graphical map of the loop can be uploaded depicting each device's location on the loop, including branches (T -Taps) and all of the physical attributes associated with the device. This diagnostic information is unparal- leled in the fire detection industry and vital for keeping accurate records on how the system was installed. During installation a common problem with analog/ addressable systems is locating ground faults. The 3 -SSDC1 and 3 -SDDC1 controllers have the ability to locate ground faults by specific mod- ule, speeding up the troubleshooting process. Another significant advantage of the 3- SSDC1 /3 -SDDC1 controllers during com- missioning is electronic addressing and mapping. This eliminates duplicate addresses, which are also very difficult for most systems to locate. Page 2 of 4 During maintenance, should groups of detector heads be removed for service and returned into the wrong smoke detector base (location), the 3- SSDC1 /3 -SDDC1 will automatically detect the problem. If the attributes of the switched devices are the same, the system will automatically download the correct soft addresses and algorithms to the devices (maintaining location supervision). If the attributes are not the same the 3- SSDC1 /3 -SDDC1 will send a map fault indication to the 3 -CPU3 and post a trouble indicating the specific devices in fault. The 3- SSDC1 /3 -SDDC1 also monitors the Signature Series devices for maintenance and trouble conditions. Each smoke de- tector contains intelligence to adjust with environmental changes. This expands the amount of time required between cleaning while maintaining a constant alarm threshold. As the detector begins to exhaust the environmental compensation, and reaches the 80% level, the 3- SSDC1 /3 -SDDC1 will indicate a maintenance alert or dirty condition to the 3 -CPU and indicate the specific device requiring cleaning. If cleaning is not performed the detector will continue to operate until all of its environmental compensation is Typical Wiring ,��A5 SDC #1 Smoke + Power A Circuit #1 SDDC1 SIGNATURE Class B Configuration Shown (Typical) DUAL DRIVER CONTROLLEI MODULE Circuit #2 SDC #2 S Power I Class A Configuration Shown (Typical) 't>-00 Maximum #12 AWG (1.5 mm') wire; 1 minimum #18 AWG (0.75 mm'). 2. Al wiring supervised and power limited. 0 Shields (if used) must be continuous and free from Earth Ground. 0 Class Awiring. 0 Class B wiring. 0 To Universal Module or MAB module when 2 -wire smokes are powered from the module. SDC #1 Smoke + + Power A ® ®®® Circuit #1 = To TBI on3 -SDDC1 Module X T.- on 3SDDC1 Module Circuit #2 ° SDC #2 Smoke Power Class A Config oration Shown (Typical) ci-00 DATA SHEET 85010 -0129 Not to be used for installation purposes. Issue 6 utilized. At this point the 3- SSDC1 /3 -SDDC1 sends a dirty trouble indication to the 3 -CPU and posts a trouble condition. If mainte- nance is still not performed the Signature detector will automati- cally remove itself from service once the programmed threshold window has been breached (preventing a false alarm). When a detector includes carbon monoxide (CO) detection, the detector monitors its CO life remaining for the CO sensor element and provides this information automatically to the panel. For main- tenance of the system the CO life remaining is also available by simply running a maintenance report at the panel or through the FireWorks graphical interface. A unique CO maintenance signal is automatically generated by the panel when there is 8% (several months) of CO element life remaining. Should the CO sensor ele- ment not be replaced after the maintenance signal is reported, an "End of Life" trouble automatically posts on the panel when the CO sensor detection capability is exhausted. Remote test capability permits devices to be put in alarm, pre - alarm, supervisory, monitor, or security alarm, or trouble from the panel menu or controls. This facilitates testing of smoke and heat detectors as well as monitor and security devices. Fast test is also provided for CO detectors allowing these devices to be tested quickly in the field. The 3 -SSDC1 and 3 -SDDC1 local rail modules modules are fully backwards compatible with the 3 -SSDC and 3 -SDDC local rail modules. 3 -SSDC1 and 3 -SDDC1 modules provide additional onboard memory to facilitate future Synergy functions. To upgrade a 3- SSDC /3 -SDDC to a 3- SSDC1 /3 -SDDC1 respectively, replace the 3- SSDC /3 -SDDC Local Rail Module with a 3- SDDCI -MB Local Rail Module and reuse the 3 -SDC Signature Device Cards and filters. Specifications (Signature Circuits) Charts assume wire and devices are evenly distributed over length of circuit Non - twisted, non shielded wire Device type # of Detectors # of Module #14 AWG (20pf /foot) #16 AWG (20pf /foot) #18 AWG (20pf /foot) Addresses (2.53 Ohm /1000ft) (4.02 Ohm /1000ft) (6.38 Ohm /1000ft) Detectors only 125 i 14,752 feet 9,275 feet 5,839 feet 2,388 feet (4,497 meters) (2,827 meters) (1,780 meters) Modules only 1 125 12,599 feet (3,840 7,921 feet (2,414 4,986 feet Twisted pair non shielded wire meters) meters) (1,520 meters) Detectors and Modules 125 125 5,738 feet 3,608 feet 2,271 feet #14 AWG (1,749 meters) (1,100 meters) (692 meters) Detectors and Modules 63 55 + 9 SIGA -UM 7,623 feet 4,793 feet 3,017 feet with 2 -wire smokes (2,324 meters) (1,461 meters) (920 meters) Modules 1 107 + 9 SIGA -UM 3,798 feet 2,388 feet 1,503 feet with 2 -wire smokes (1,158 meters) (728 meters) (458 meters) Twisted pair non shielded wire #14 AWG 1.5mm2 #16 AWG 1.Omm2 #18 AWG Device Type # of Detectors # of Module (38pf /foot) (36pf /foot) (36pf /foot) (25pf /foot) (25pf /foot) Addresses (2.53 (3.75 (4.02 (5.51 (6.38 Ohm /1000ft) Ohm /1000ft) Ohm /1000ft) Ohm /1000ft) Ohm /1000ft) Detectors only 125 i 13,157 feet 9,933 feet 9,275 feet 6,760 feet 5,839 feet (4,010 m) (3,028 m) (2,827 m) (2,061 m) (1,780 m) Modules Only 1 125 12,599 feet 8,483 feet 7,921 feet 5,774 feet 4,986 feet (3,840 m) (2,586 m) (2,414 m) (1,760 m) (1,520 m) Detectors 125 125 5,738 feet 3,864 feet 3,608 feet 2,630 feet 2,271 feet & Modules (1,749 m) (1,178 m) (1,100 m) (802 m) (692 m) Detectors and modules with 63 7,623 feet 55 + 9 SIGA -UM 5,133 feet 4,793 feet 3,494 feet 3,017 feet 2 -wire smokes (2,324 m) (1,565 m) (1,461 m) (1,065 m) (920 m) Modules with 107 + 9 SIGA- 3,798 feet 2,558 feet 2,388 feet 1,741 feet 1,503 feet 2 -wire smokes 6T (1,158 m) (780 m) (728 m) (531 m) (458 m) Twisted pair shielded wire Device Type # of Detectors # of Module #14 AWG (84pf /foot) #16 AWG (82pf /foot) #18 AWG (58pf /foot) Addresses (2.53 Ohm /1,OOOft) (4.02 Ohm /1,000ft) (6.38 Ohm /1,000ft) Detectors only 125 i 5,952 feet 6,098 feet 5,839 feet (1,814 meters) (1,859 meters) (1,780 meters) Modules Only 1 125 5,952 feet 6,098 feet 4,986 feet (1,814 meters) (1,859 meters) (1,520 meters) Detectors & Modules 125 125 5,738 feet 3,608 feet 2,271 feet (1,749 meters) (1,100 meters) (692 meters) Detectors and modules 63 55 + 9 SIGA -UM 5,952 feet 4,793 feet 3,017 feet with 2 -wire smokes (1,814 meters) (1,461 meters) (920 meters) Modules with 2 -wire i 107 + 9 SIGA -UM 2,558 feet 2,388 feet 1,503 feet smokes (780 meters) (728 meters) (458 meters) Page 3 of 4 DATA SHEET 85010 -0129 Not to be used for installation purposes. Issue 6 EDwa►ROs Contact us... Email: edwards.fire@fs.utc.com Web: www.est - fire.com EST is an EDWARDS brand. 1016 Corporate Park Drive Mebane, NC 27302 In Canada, contact Chubb Edwards... Email: inquiries @chubbedwards.com Web: www.chubbedwards.com © 2013 UTC Fire & Security Americas Corporation, Inc. All rights reserved. Specifications subject to change without notice. Edwards is part of UTC Climate, Controls & Security, a unit of United Technologies Corporation. Page 4 of 4 Engineering Specification The communication format between the control panel and analog devices shall be 100% digital. Loop alarm recognition must be within 750 milliseconds of a device going into the alarm state, with system response time no greater than 3 seconds. All devices shall support remote testing. Specifications (controllers) It must be possible to wire the circuit as Class A or Class B with non - shielded, non - twisted wire. It must be possible to wire branches (T -taps) with Class B wiring. The driver controller must be manufactured in accordance with ISO 9001 standards. The system must have tolerance to mul- tiple failures. There must be a standalone mode of operation that will ensure the system is aware of alarms even if the local rail or main CPU fails. Catalog Number I 3 -SSDC1 I 3 -SDDC1 Installation 1 LRM Space 1 LRM Space Module Configuration 1 Addressable circuit (3 -SDC1 Card) expandable to 2 circuits. 2 Addressable circuits (3 -SDC1 Cards) Operating Current [Note 2] Standby 144 mA Alarm 204 mA Standby 264 mA Alarm 336 mA Operating Voltage 24 Vdc, Nominal Address Requirements Automatic Detectors Supported 125 per 3 -SDC1 Card Modules Supported 125 Module Addresses per 3 -S5C1 Card 2 -Wire Smoke Power Output 100 mA per 3 -SDC1 Card (not included in Operating Current above Conventional detectors supported 150 of 100 NA type per circuit. Signature Circuit Voltage 20 VDC +/- 5% Maximum Signature Circuit Resistance 100 Ohms Maximum Signature Circuit Capacitance 0.33 pF Communications Format 100% Digital Circuit Wiring Styles Class A or Class B Termination Removable plug -in terminal strip(s) on module Permissable Wire Size 18 to 12 AWG (0.75 to 2.5 mm2) Agency Listings UL, ULC, CE (see Note 1), LPCB EN54 (see Note 3). Operating Environment 32 °F (0 °C) to 120 °F (49 °C) 93% RH, non - condensing Note 1: Other EST3 components are modularly listed under the following standards: UL 864 categories: UOJZ, UOXX, UUKL and SYZV, UL 294 category ALVY, UL 609 category AOTX, UL 636 category ANET, UL 1076 category APOU, UL 365 category APAW, UL 1610 category AMCX, UL 1635 category AMCX ULC -S527, ULC -S301 , ULC -S302, ULC -S303, ULC -S306, ULC /ORD- C1076, ULC /ORD -C693 Please refer to EST3 Installation and Service Manual for complete system requirements. Note 2: Current shown Includes full loop of devices. Note 3: EN54- 2:1997 +A1: 2006 and EN54- 4:1997 +2002 +A2 : 2006 (verify device and loop controller compatibility) Ordering Information Catalog Description Shipping Number Wt. lb (kg) 3 -SSDC1 Single Signature Driver Controller. Comes with one 3 -SDC1 Device Card. " 0.5 (0.23) Mounts to Local Rail. Add suffex -E" for EN54 complient versions. 3 -SDDC1 Dual Signature Driver Controller. Comes with two 3 -SDC1 s. " 0.5 (0.23) Mounts to Local Rail. Add suffex -E" for EN54 complient versions. 3 -SDC1 Signature Device Card - upgrades a 3 -SSDC1 to a 3 -SDDC1 0.25 (0.11) 3 -FP Filler Plate, order separately when no LED or LED /Switch module installed. 0.1 (0.05) DATA SHEET 85010 -0129 Not to be used for installation purposes. Issue 6 EST %PPI-Lite Safety & Communications Modem Communicator 3- MODCOM, 3- MODCOMP Overview The Modem Communicator is a two -way local rail module that performs a variety of off - premise communications functions for the EST3 system. Using the latest in digital signal processing (DSP) techniques, the Modcom provides off premise communication features unavailable on any other system. The module has provisions for supervising two loop -start tele- phone lines. The module features a modular jack for telephone line connections. The Modcom's configuration and firmware can also be updated from any network node. Modcom series modules occupy a single local rail space and can be mounted in any node on the network. Any EST3 Control/ Display module can be mounted on the face of a Modcom series module. Power for the Modcom is supplied by the EST3 system supply. The Modcom provides an enhanced level of survivability in the event of a network CPU failure by notifying the Central Monitoring Station of the failure and entering a degraded mode of operation. In degraded mode, the Modcom can transmit a default fire alarm message during a fire alarm condition. Page 1 of 4 EST Catalog ► EST3 Life Safety Platform Hinged Bracket 4 Filler plate (ordered separately) i t Module Standard Features 5 Listed for fire, security and access control 5 V.32bis 14.4K full duplex modem L� S3000 0 7165 -1657: 0186/0306 FDNY COA 6086 FM 5 Digital alarm communicator transmitter supporting: SIA DCS protocol, Contact ID protocol, 3/1 and 4/2 pulse format proto- col 5 Supports "tap" alphanumeric pager protocol 5 Fully programmable messages 5 Alarm override of upload /download 5 Two phone line capability 5 Field upgradable firmware 5 Split and multiple reporting to as many as 80 different receivers 5 255 subscriber accounts 5 Supports control /display modules 5 Supervised by the network controller DATA SHEET 85010 -0107 Not to be used for installation purposes. Issue 5.1 Application Two versions of the Modcom are available: 3- MODCOM - Has an internal V32bis 14.4K baud full duplex modem. The modem permits upload and download of system data remotely via a telephone line. In addition, the 3- MODCOM has a Digital Alarm Communications Transmitter (DACT) or dialer function that transmits network status information to Central Monitoring Stations (CMS) via telephone. Four DACT protocols are available: eADigital Communicator Standard (DCS) "SIA forma" Dialer — 300 baud format, which transmits alphanumeric system status data to the CMS; 9AContact ID; 3. SIA 3/1 dialer; and, eASIA 4/2 dialer. Alarm code content is determined by system rules. 3- MODCOMP — In addition to all modem and dialer (DACT) func- tions of the 3- MODCOM, the 3- MODCOMP can dial directly into paging systems using Telelocator Alphanumeric Protocol (TAP). Al- phanumeric system data can be sent to a single pager or group(s) of pagers. Some pager services can forward messages via e -mail and Fax. Multiple Priority Each Modcom can buffer up to 500 events in its event queue. It re- views all active events in the queue and identifies the highest priority event and dials the associated receiver. When the receiver is con- tacted, the MODCOM will transmit the highest priority message for that receiver. If the message is successfully received, the MODCOM identifies the next highest priority message and the process repeats. Phone Line Friendly The Modcom series has been designed for installation on the same phone lines with other devices such as phones and faxes. The module makes its first dial out attempt on either of the two phone lines that is not in use. This prevents unnecessary interrup- tion of calls in progress by the line seizure relays. In the event that both lines are busy, the module seizes line one. A fixed DACT testing time can be set at an off -hour, e.g. 2:00am, again minimizing interruptions and phone line costs. The call time is programmable, and allows testing of the DACT with the central station. The Modcom series also has the ability to detect Type 1, Type 2 and Type 3 distinctive ringing patterns, permitting it to share its phone lines with other devices and still have a unique phone number for incoming modem calls. Multiple Modcoms per Network Multiple Modcoms can be installed in a single cabinet or located in nodes throughout the network to provide added availability and enhanced redundancy of off premise communications. Multiple Receiver Capability In large system applications the EST3 system may be partitioned such that it supports a number of different customers, each using different Central Monitoring Stations and /or paging companies. The Modcom can accommodate up to 255 different accounts us- ing up to 80 different receivers. The Modcom supports split reporting, a process where the system directs the Modcom to send some events or event types to one receiver, and different events to alternate receivers. The module's Page 2 of 4 multi -dial reporting capability permits an individual event to be transmitted to multiple receivers, including pagers. Remote Data Upload /Download The modem permits data to be downloaded into the memories of the various components making up an EST3 system. Data can be remotely uploaded and downloaded for use with the Edwards Access Control Database Program. In the event that an alarm is received during upload /download activity, the Modcom automati- cally terminates the call and transmits the alarm events to the appropriate receivers. When completed sending the events, the download will continue where it left off. Engineering Specification The system shall provided an off premise communications module capable of transmitting system events to multiple Central Monitor- ing Station (CMS) receivers. The module shall provide the CMS with point identification of system events via 4/2, Contact ID or SIA DCS protocols. <The module shall also be capable of trans- mitting alphanumeric system activity by event to a commercial paging system using TAP Pager protocol.> The dialer shall have the capability to support up to 255 individual accounts and to send account information to eighty (80) different receivers, each having a primary and secondary telephone access number. System events shall be capable of being directed to one or more receivers depending on event type or location as specified by the system designer. The module shall have a degrade mode capable of transmitting fire alarm signals to the CMS in the event of system CPU failure. The module shall provide a high speed (V.32bis or greater) modem function in order to upload and download system data to /from a remote location. Typical Wiring SURGE RING GREEN a s (GREEN) (2.13 M)A a a RJ31X ea ¢i 5 Q LINE #2 LNMODCOM 8 0A MODULAR (WIRED SAME AS RED 3 CONNECTOR FOR ¢i a� LINE #1) PREMISES ¢i aQg LINE #1 a s RJ31X ¢i aQgn Phone Cord (P /N 360137) supplied) is supervised and non -power limited. CONNECTOR CONNECTOR FOR i ¢i aQg LINE #2 ® 0 8 i Qa esAPS PERMITTED i) Ft. (2.13 M)A 1 Notes: LNMODCOM IL Connect Line land Line 2 to RJ31X or RJ38X (CA31A or CA38A in Canada) telephone jacks installed by an authorized telephone company OO representative. Jacks (not supplied) must be installed within 5 ft. (1.5 m) of the panel. Phone Cord (P /N 360137) supplied) is supervised and non -power limited. DATA SHEET 85010 -0107 Not to be used for installation purposes. Issue 5.1 Specifications Agency Listings UL, FCC Part 68 / CFR 47, ULC. See Note 1. Installation Takes up one LRM space in 3 -CHAS7 Input Power 24 Vdc Q 60mA standby, 95 mA active Modem Protocol ITU - V.32bis 14.4K baud full duplex using standard PC modem compatible data Dialer Protocol SIA 3/1 (format P2) and 4/2 (format P3): 20 pulses per second, double round Contact ID (DTMF format) Digital Communications Standard (DCS) "SIA format': Level 2 (300 baud, Bell 103) Pager Protocol (3- MODCOMP only) Telocator Alphanumeric Protocol (TAP), Version 1.8, 300 baud, Bell 103 Telephone Dialing Connector Pulse or Tone (DTMF) Two 8- position modular phone jacks CMS Telephone Numbers Quantity Available Digits Two per receiver - 160 max. Up to 24 digits per number Receivers Supports up to 80 individual receivers. Event Buffer 500 events Operating Environment 32 °F (0 °C) to 120 °F (49 °C), 93% RH Non - condensing Receivers Tested Format Manufacturer Model Receiver Card 4/2 and 3/1 Ademco • do 685 -1 or 685 -8 FBI (Fire Burglary Instruments) CP220 Osborne - Hoffman OH2O00 Radionics 666 Silent Knight T1666 9032 Sur -Gard MLR2, SG -SLR MCDI TLR, TLR+ Contact ID Ademco •do 685 -8 Osborne - Hoffman OH2O00 Sur -Gard MLR2, SG -SLR Radionics 666 Silent Knight T1666 9032 MCDI TLR, TLR+ SIA DCS Sur -Gard MLR2, SG -SLR Note 1: The EST3 is modularly listed under the following standards: UL 864 categories: UOJZ, UOXX, UUKL and SYZV, UL 294 category ALVY, UL 609 category AOTX, UL 636 category ANET, UL 1076 category APOU, UL 365 category APAW, UL 1610 category AMCX, UL 1635 category AMCX ULC -S527, ULC -S301, ULC -S302, ULC -S303, ULC -S306, ULC /ORD -C1076 and ULC /ORD -C693 Please refer to EST3 Installation and Service Manual for complete system requirements. Ordering Information Catalog Description Ship Wt. Number lb (kg) 0 3- MODCOM Modem /Dialer (DACT) version 0.5 (0.23) 3- MODCOMP Modem /Dialer (DACT) w/TAP Pager 0.5 (0.23) Protocol 3 -FP Filler Plate, order separately when no LED 0.1 (0.05) or LED /Switch module installed. Page 3 of 4 DATA SHEET 85010 -0107 Not to be used for installation purposes. Issue 5.1 EDwa►ROs Contact us... Email: edwards.fire@fs.utc.com Web: www.est - fire.com EST is an EDWARDS brand. 1016 Corporate Park Drive Mebane, NC 27302 In Canada, contact Chubb Edwards... Email: inquiries @chubbedwards.com Web: www.chubbedwards.com © 2013 UTC Fire & Security Americas Corporation, Inc. All rights reserved. Specifications subject to change without notice. Edwards is part of UTC Climate, Controls & Security, a unit of United Technologies Corporation. Page 4 of 4 DATA SHEET 85010 -0107 Not to be used for installation purposes. Issue 5.1 EST Life Safety & Communications Liquid Crystal Display Module 3 -LCD Overview The Main Display interface is the primary user interface in the EST3 Life Safety System. The main display interface focuses on the emergency user by putting information important to the user up front. Hands free, the first highest priority event is shown. The display always gives the last highest priority event. Arriving at the panel and without opening the door the first and last alarm is given. Simple to understand lights and switches help the emer¢ gency user execute system commands with confidence. A menu system supports maintenance functions such as disables or reports for use by staff or service personnel. Page 1 of 4 EST Catalog ► EST3 Life Safety Platform k I-1 13 LR RE 0 7165 - 1657. 0186 LC 53000 MEA FDNY COA 6086 CEO Cl00 UV, 000 El ❑ E ❑D ❑= EN54- 2:1997 +Ai and EN54- 4:1997 +A1:2002 +A2 pending Standard Features N Uses simple lights and switches N Displays information important to user N Hands free first alarm display N Last event of highest priority always displays N Eight lines by 21 character graphic LCD display — 168 characters total N Multlingual Supports English, French, Spanish, and Russian N Uses queues to sort events A queue is a list of messages Alarm, Supervisory, Trouble and Monitor N Slide in LED and switch labels Makes customization for regional language easy DATA SHEET 85010 -0071 Not to be used for installation purposes. Issue 5.1 Application The 3 -LCD module mounts to the local rail over the nodes Central Processing Unit Module (3 -CPU). The 3 -LCD module is optional in any network node. Ensuring information clarity the 3 -LCD uses a backlit high contrast supertwist graphical display. Eight lines of 21 characters provide the room needed to convey emergency information in a useful format. The 3 -LCD always displays the last highest priority event even when the user is viewing other message queues. Further message flexibility is provided with EST3's message routing ability. Messag¢ es from a node can display at every node on the network or mes¢ sages can route to specific nodes only. Routing can be initiated at a specific time /shift change. There is no need to have messages display in areas that are not affected by an event. The 3 -LCD can display messages in English, Spanish, French, and Russian. The bilingual display lets the operator select between either of two languages. Consult your representative for available language combinations. The EST3 system configures for Proprietary, Local or EN54 market operations. The mode of operation is selected through the System Definition Utility (SDU) which may adjust the following operations slightly to fit the system operation selected. LEDs and Switches Further enhancing the 3 -LCD user interface are easy to read and understand lights and switches. All functions are laid out in a logic cal order. At the top of the 3 -LCD are five system status LEDs. Here determining the general condition of the system is easy. ■ ■ ■ ■ Pow- Test CPU Grid Disable Fail Fault Power LED: Green, on when AC power is on. Test LED: Yellow, on when any portion of the system (Group) is under test. Reset Silen a Drill Silence E13 E13 EE E13 CPU Fail LED: Yellow, on when CPU stops running. Grid Fault LEDi Yellow, on when a ground exists on the system (group) Disable LED: Yellow, on when any point or zone is disabled by a user. Below the general status LEDs are located four, LED / Switch common controls. The versatility of EST3 allows system design¢ ers to define the features as affecting a domain (defined group of nodes) or as global (affects all nodes) across the network. This feature is very useful when configuring systems with multiple build¢ ings on one network. As an example, operating the reset in one building may have adverse effect in other buildings. With EST3 having operational differences between buildings on the same network is not a problem. Pressing Reset starts the system's reset operation. The yellow LED has three flash rates during reset. The LED flashes fast during the smoke power down phase of reset, flashes slow during the re¢ start phase, and turns on steady for the restoral phase. The Reset LED turns off when the system is normal. Pressing Alarm Silence turns off all Notification Appliance Circuits defined as audible. The yellow LED turns on when silence is active Page 2 of 4 via the Alarm Silence switch or via alarm silence software timers. Pressing Panel Silence turns off the system's internal audible signal. The yellow LED turns on when panel silence is active. The EST3 panel buzzer has user programmable signal rates for alarm, supervisory, trouble and monitor conditions. Pressing Drill turns on the drill LED and all signals sound evacua¢ tion. Drill does not activate city tie connections. Auxiliary relays will not activate unless programmed to do so with drill. 2 : 2: 12 a L1- 2 5- s 6 In the center of the 3 -LCD is the Liquid Crystal Display. In the normal condition the date and time plus a definable system title display on the LCD. The last line of L R R HIS R y c c c c the display gives an alarm history. This total equals the number of times the system has entered the alarm state from the normal state. When active events are on display, the LCD formats into four logical windows. SSSi Eii SI RI uS uiiiuuu L L I R R C N T E V E N, U 1 11- u u U LnIRIIUII ^ESSRGE LINE1 ( LRS1 EVE I1 ,;1 nn,, LULRI U11 I'IESSRGE Li "E2 J I� Suuu iuuu i)uuu I Si RiuS ui 11uuu In the system status window, the display shows the time and the status of active and disabled points. The current event window, lines 2, 3, 4 automatically display the first active event of the highest priority if the user has not taken control of the system. Once the emergency user takes control, this window displays user message selections. The second line of the display shows system event information. In the example above the display shows the chronological number of the event (0001 is the first alarm) followed by the event type (Alarm Active). EST3 supports over 45 event type messages from which system designers choose. The last two lines of the current event window are custom programmable location message lines with space for 42 characters. The last event window shows the last highest priority event. This window is always displayed and updated automatically by the sys¢ tem. Here the emergency user can monitor the progress of a fire. When EST3 is configured for a local mode Previous system viewing the second alarm message is Message easy, just press the NEXT key. The next U Next message scrolls into the current event window. The last highest priority event always remains on view. No matter what queue the user selects for viewing, the LCD always displays the most recent alarm. A new alarm event resounds the panel audible signal and appears immediately on display without overwriting information the user selected for view. The final window of the LCD the type status window shows the total number of active events by queue type. A is alarm, S is supervisory, T is trouble, and M is monitor. The number following each letter is the number of active events existing in each queue. EST3 breaks down event types into queues and automatically displays the first event of the highest priority type. DATA SHEET 85010 -0071 Not to be used for installation purposes. Issue 5.1 El Alarm upervisory Trouble Monitor Priority order is alarm, supervisory, trouble, monitor. By using queues an emergency user does not waste time scrolling through a mixed event list looking for alarms or confusing an alarm mes¢ sage with other message types. EST3 configures for Remote proprietary system operation where every event must be acknowledged by viewing them before the internal buzzer will silence. Or the EST3 will configure for Local operation. Here the internal buzzer silences by pressing panel silence. If any events exist in queues that have not been viewed the queue LED continues to flash informing the user of un -seen events. When all events in a queue are acknowledged or 'seen', the LED associated with the queue turns on steady. If a new event is added to the queue, the EST3 internal buzzer resounds and the queue LED flashes. EST3 allows device grouping into logical group zones. Here two or more alarm devices (such as detectors or pull stations) make up the zone. When a device in the zone activates, the LCD displays the zone description. Each zone only displays once, regardless of the number of devices active within the zone. O Details To display device information the user presses the Details key. The device with the lowest address displays in the first window. If multiple devices are active each is available for viewing by using the arrow associated with the Previous Message Next key and scrolling through the device list. The common controls easily expand beyond the Main Display interface by adding a Control Display Module and assigning features to its switch controls. h, - Le seen ` For Maintenance users, the EST3 provides a smooth operating menu system providing powerful tools for system management, reports, and trouble shooting. Installation and Mounting YWWY YYYYIWY YYYYIWY ounder On /Off YYWYYIY YYYYIWY YWYWY YYYYIYY ED U1 U1 Central Processor Unit ■� ■� .� .� I A IN IN EN54 Compliance In 1998 the British -based Loss Prevention Certification Board (LPCB) certified EST3 control panels and power supplies as hav¢ ing surpassed the requirements of the pivotal EN54 standard, parts two and four. LPCB Certificate #257c for EST3 fire alarm control panels marked the first such certification since the strin¢ gent EN54 -2 : 1997 and EN54 -4 : 1997 were published by the European Committee for Standardization (CEN). In order to meet these standards, display and control functions have undergone slight modifications for the EN54 marketplace. These differences are highlighted below. All other control and annunciation features remain unchanged. Note: EN54- 2:1997 +A1 and EN54- 4:1997 +A1:2002 +A2 approval is pending. System Status LEDs ❑ ■ ■ ❑ Pow- Test CPU Sounder Disable Fault Power LED (Green): on when DC power is on. Test LED (Yellow): on when any portion of the system (Group) is under test. CPU Fault LED (Yellow): on when CPU stops running (processor failures must be manually reset). Gnd Fault LED: Not available. Sounder LED (Yellow): flashing indicates fault on sounder circuit. Steady indicates a disabled sounder circuit. Disable LED (Yellow): on when any point or zone is disabled by a user (disabled conditions have priority over fault conditions). Switch Functions Reset ounder On /Off Panel Silence Drill ID ED U1 U1 Pressing Sounder On /Off turns off all sounder circuits defined as audible. The yellow LED turns on when silence is activated via the Sounder On /Off or via the alarm silence software timers. See Page 2 for descriptions of Reset, Panel Silence, and Drill func- tions. Event Queues Fire Fault Disable Monitor For EN54 compliance, EST3 configures for remote proprietary system operation. This requires that every event must be acknowl¢ edged by viewing them before the internal buzzer will silence. The priority order is Fire, Fault, Disable, Monitor. EN54- 2:1997 +A1 and EN54- 4:1997 +A1:2002 +A2 approval is pending. Page 3 of 4 DATA SHEET 85010 -0071 Not to be used for installation purposes. Issue 5.1 Page 4 of 4 Technical Specifications Catalog Number Engineering Specification EEDWAR DS The system shall provide a user interface that displays system events in a text format, and UL, ULC, FM, CE, LPCB EN54` pending. supports basic common control LEDs and switches. The Common Control Switches and LCD Display LEDs provided as minimum will be; Reset switch and LED, Alarm Silence switch and LED, Contact us... Panel Silence switch and LED, Drill switch and LED. It must be possible to add additional Two local rail spaces on top of 3 -CPU common controls as required through the use of modular display units. The user interface Email: edwards.fire@fs.utc.com Web: www.est - fire.com must provide an LCD that will allow custom event messages of up to 42 characters. The interface must provide a minimum of eight lines by 21 characters and provide the emer¢ EST is an Eow.aROS brand. gency user, hands free viewing of the first and last highest priority event. The last highest 1016 Corporate Park Drive priority event must always display and update automatically. Events shall be automatic Mebane, NC 27302 cally placed in easy to access queues. It shall be possible to view specific event types In Canada, contact Chubb Edwards... separately. Having to scroll through a mixed list of event types is not acceptable. The total Email: inquiriesbbedward . com com Web: www.chubbedwards.com number of active events b type must be displayed. Visual indication must be provided of y yp p UK English Label Kit any event type which has not been acknowledged or viewed. It must be possible to cus¢ © UTC Fire &Security Americas tomize the designation of all user interface LEDs and Switches for local language require¢ Corporation, Inc. All rights reserved. Specifications subject to change ments. It shall be possible to have a custom message for each device in addition to zone without notice. Edwards is part of UTC messages. Custom device messages must support a minimum of 42 characters each. Climate, Controls & Security, a unit of Instructional text messages support a maximum of 1,000 characters each. The display United Technologies Corporation. shall be capable of displaying English, Spanish, French, or Russian messages. Page 4 of 4 Technical Specifications Catalog Number 3 -LCD Agency Listings UL, ULC, FM, CE, LPCB EN54` pending. LCD Display Eight lines by 21 characters backlit LCD Mounting Two local rail spaces on top of 3 -CPU Common Control Switches and LEDs Reset switch and LED Alarm Silence switch and LED Panel Silence switch and LED Drill Switch and LED Alarm Current 42mA Standby Current 40mA "EN54- 2:1997 +A1 and EN54- 4:1997 +A1:2002 +A2 pending Ordering Information Catalog Number Description Shipping Weight, lb. (kg) 3 -LCD Liquid Crystal Display Module .8 (.36) 3 -LKE UK English Label Kit .25 (.11) 3 -LKF French Label Kit .25 (.11) 3 -LKR Russian Label Kit .25 (.11) 3 -LKS Spanish Label Kit .25 (.11) DATA SHEET 85010 -0071 Not to be used for installation purposes. Issue 5.1 EST Catalog ► EST3 Life Safety Platform EST %PPI-Lite Safety & Communications Control Display Modules p U 3-LDSM, 3-24x series, 3-12xx series, - , 1. 3-6/3S1 xxx series I-) ED k) MUD WD ED Overview The EST3 Control Display modules provide the emergency user with the simplest of interfaces, lights and switch control. The Con- trol Display modules install over local rail modules. The local rail modules supply the power and drivers via a ribbon cable connec- tion to the control display modules. The displays mount over any local rail module maximizing the flexibility of design layout. When a display module is required where no local rail module exists, an LED Display Support Module 3 -LDSM mounts to the local rail providing support for one Control Display Module. Surface mount technology used to minimize space, also reduces the power requirements of display modules. Slide -in labels keep the control display modules flexible and allow labeling for local languages. Module lamp test can be programmed to any spare control switch or a local node lamp test is initiated by simultaneously operating the Alarm Silence and Trouble Silence switches on the 3 -CPU. Page 1 of 4 Standard Features e Programmable LED flash rates e Membrane style tactile pushbuttons qPF M� FDNY COA 6086 U� UDC S3000 7165 -1657 0186/0193 e Software supported for toggle, and latching interlock switch action e Slide in labels e Lamp test DATA SHEET 85010 -0055 Not to be used for installation purposes. Issue 6 Application Notes Control Display Modules come in a variety of types providing op- erational flexibility. There are five types of display modules available with EST3. Typically alarm zone annunciation appears on any of the first four module types shown. The first module supports simple zone annunciation; the second, zone annunciation with zone disable; the third, alarm and trouble zone annunciation, the fourth alarm and trouble zone annunciation with zone disable. From a simple one LED annunciation point to higher functionality, EST3 fills the requirements. Simple Control Examples The fifth module is very adaptable =E1 =E1 =E1 ❑� = ° =E1 o EE::=] Sul l = � V= =E11 to system requirements for audio ❑ ON F or remote equipment control. a Each module contains 18 LEDs n and 18 switches. Each group of F-] AUTO three switches has a latching- # interlock to support operations ❑ OFF 5 that must be kept separated. The interlock is under software control so only one switch is active at a given time. EST3 software makes ❑ OPEN meeting the wide variety of ap- plications needed with today's codes and building system opera - ❑ AUTO Damper 5th Fir tions easy. ❑ CLOSE I For fan control the emergency J user assumes control of the remote device by selecting "On" Installation and Mounting Display �L `bm Label Local Rail Module Page 2 of 4 or "Off." Programming of the switches to multiple relays keeps operational design choices open. The user returns the system control of the remote device to the Life Safety system by simply pressing Auto. The Auto LED programs to its related switch and gives positive feed back to the user by turning on yellow when the system has active control of remote devices. Individual switch LEDs are also programmable. As an example the "Open" or "On" LED (green) could program to follow its related switch or, program to follow a remote monitor input and provide positive feedback of the remote devices control status. If budget restrictions prevent "sail type" positive feedback, EST's unique command processing satisfy requirements for positive feedback of HVAC control systems. Any switch command will send a signal to the 3 -CPU for processing. While in this state the LED associated with the switch will flash. Once the command has been received by a remote Signature Series Module, the module (since it is intelligent with its own microprocessor) will issue a "Processed" command back to the 3 -CPU which will latch the LED associ- ated with the switch "ON" steady. This same process is used for all audio speaker selections ensuring the circuit is connected. A variety of switch and associated LED colors are available to meet the demands of the specifiers application. Life Safety Systems are generally passive requiring only occasional operation. Yet, in an emergency the user must be able to identify system operation and status quickly and easily. LCD displays are excellent for identifying specific information, but even a large LCD can not display overall "system" status as effectively as LEDs and Switches. The EST3 Control Display modules are designed to pro- vide simple identification and operation of system functions for the emergency user. They provide positive feedback of control activity with unrivaled selection of display configurations and mounting location options. Engineering Specification The Life Safety system shall incorporate annunciation of Alarm, Supervisory, Trouble and Monitor operations. Annunciation must be through the use of LED display strips complete with a means to custom label each LED as to its function. Where applicable control of remote smoke control devices must be made available at the control center. Switches with LEDs must provide positive feed back to the operator of remote equipment status. Where voice au- dio is required a means of paging individual zones must be made. The status of each paging zone must be annunciated. It must be possible to selectively page into specific zones. It shall be possible to manipulate the evacuation of the building from the main control center. It must be possible for the emergency operator to put specific zones into evacuation manually. DATA SHEET 85010 -0055 Not to be used for installation purposes. Issue 6 =E1 =E1 =E1 ❑� = ° =E1 o EE::=] Sul l = � V= =E11 o o D ° o ❑ �o � or "Off." Programming of the switches to multiple relays keeps operational design choices open. The user returns the system control of the remote device to the Life Safety system by simply pressing Auto. The Auto LED programs to its related switch and gives positive feed back to the user by turning on yellow when the system has active control of remote devices. Individual switch LEDs are also programmable. As an example the "Open" or "On" LED (green) could program to follow its related switch or, program to follow a remote monitor input and provide positive feedback of the remote devices control status. If budget restrictions prevent "sail type" positive feedback, EST's unique command processing satisfy requirements for positive feedback of HVAC control systems. Any switch command will send a signal to the 3 -CPU for processing. While in this state the LED associated with the switch will flash. Once the command has been received by a remote Signature Series Module, the module (since it is intelligent with its own microprocessor) will issue a "Processed" command back to the 3 -CPU which will latch the LED associ- ated with the switch "ON" steady. This same process is used for all audio speaker selections ensuring the circuit is connected. A variety of switch and associated LED colors are available to meet the demands of the specifiers application. Life Safety Systems are generally passive requiring only occasional operation. Yet, in an emergency the user must be able to identify system operation and status quickly and easily. LCD displays are excellent for identifying specific information, but even a large LCD can not display overall "system" status as effectively as LEDs and Switches. The EST3 Control Display modules are designed to pro- vide simple identification and operation of system functions for the emergency user. They provide positive feedback of control activity with unrivaled selection of display configurations and mounting location options. Engineering Specification The Life Safety system shall incorporate annunciation of Alarm, Supervisory, Trouble and Monitor operations. Annunciation must be through the use of LED display strips complete with a means to custom label each LED as to its function. Where applicable control of remote smoke control devices must be made available at the control center. Switches with LEDs must provide positive feed back to the operator of remote equipment status. Where voice au- dio is required a means of paging individual zones must be made. The status of each paging zone must be annunciated. It must be possible to selectively page into specific zones. It shall be possible to manipulate the evacuation of the building from the main control center. It must be possible for the emergency operator to put specific zones into evacuation manually. DATA SHEET 85010 -0055 Not to be used for installation purposes. Issue 6 Technical Specifications Catalog Number of LED Colors Switches Applications Alarm I I LEDs I I I I I Current 3 -LDSM 1 i is 1 i is 1 i is 1 Provides interface for one Control Display Module 1 5 mA 3 -24R 3 -24Y 24 red 0 ❑ Alarm Main [E] Electrical Room ❑ Electrical Trouble Room 3 -24R 3 -24Y 24 red 0 Alarm Annunciation 2 mA base + 1.5 mA per active LED yellow Supervisory and Trouble Annunciation 3 -24G green Monitor Annunciation 3 12RY 12 red over 12 yellow pairs Red LEDs Alarm Annunciation Yellow LEDs Supervisory Annunciation ❑ O ❑ O EVAC ❑ O SHELTER 5th Floor Message Message 33 -12S� red Alarm Annunciation with enable /disable operation 3 -12SY 12 yellow 12 Supervisory Annunciation with enable /disable operation 3-12SG green Monitor Annunciation, Page select ❑ O ❑ O EVAC O AMBER 5th Floor Strobe Strobe 3 -12/S1 GY 12 groups green/ yellow Zone Page select with Trouble Annunciation 3 -12/S1 RY of two w/ red /yellow 12 Alarm and Trouble Annunciation with enable /disable 3- 12/S2Y switch yellow / vellow SUr)er -;nry and Trouble Annunciation with enable /disable 3- 4 /3SGYWR 1 4 LEDs Green /Yellow 1 2 3 On- Auto -Off fan and Open- Auto -Close Damper Control with and White /Red I switches I Trouble and Normal LED indicators 2 mA base + 1.5 mA per active LED 2 mA base + 1.5 mA per active LED 2mA base + 1.5mA per active LED ❑ ALERT 5th ❑ ON A ❑ OPEN O F a A ❑ PAGE L ❑ AUTO U ❑ AUTO P O ❑ EVAC 0 ❑ OFF #4 ❑ CLOSE N green /yellow / 3 -6/3S1 G2Y Six On- Auto -Off fan and Open- Auto -Close Damper Control 2 mA base 6 groups of yellow groups of + 1.5 mA per 3 -6/3S1 GYR 3 w /switch green/yellow / three Page and Evacuation select with zone trouble active LED red Notes: 1) All Control Display Modules are UL and ULC listed. 2) All Control Display Modules mount over one Local Rail Module. If no local rail module exists the 3 -LDSM mounts to local rail and supports one control display module. Page 3 of 4 DATA SHEET 85010 -0055 Not to be used for installation purposes. Issue 6 Page 4 of 4 DATA SHEET 85010 -0055 Not to be used for installation purposes. Issue 6 Ordering Information E1EDWARDS Catalog Description Shipping Number Weight 3 -LDSM LED Display Support Module 0.451b Contact us... (.2kg) Email: edwards.fire@fs.utc.com 3 -24R 24 Red LED Display Module Web: www.est - fire.com 3 -24Y 24 Yellow LED Display Module 3 -24G 24 Green LED Display Module EST is an EGWARDS brand. 3 -12SR 12 switches with 12 Red LED Display /Control Module 1016 Corporate Park Drive 3 -12SY 12 switches with 12 Yellow LED Display /Control Module Mebane, NC 27302 3 -12SG 12 switches with 12 Green LED Display /Control Module In Canada, contact Chubb Edwards... 3 -12RY 12 Red LED and 12 Yellow LED Display Module Email: inquiries @chubbedwards.com Web: www.chubbedwards.com 3 -12/S1 GY 12 switches with one Green and one Yellow LED per switch Display/ Control Module © 2013 UTC Fire & Security Americas 10 3 RY 12 switches with one Red and one Yellow LED per switch Display/ 0.351b Corporation, Inc. All rights reserved. -12/S1 Control Module (.12kg) Specifications subject to change without notice. Edwards is part of UTC 3- 12/S2Y 12 switches with two Yellow LEDs per switch Display /Control Climate, Controls & Security, a unit of Module United Technologies Corporation. Six groups of three switches. Each switch with one LED. LEDs 3 6/3S1 G2Y provided Green, Yellow, Yellow. 12 switches in four groups of three switches, switch one with a green 3- 4 /3SGYWR LED, switch two with yellow and white LEDs and switch three with a red LED 3 -6/3S1 GYR Six groups of three switches. Each switch with one LED. LEDs provided Green, Yellow, Red Page 4 of 4 DATA SHEET 85010 -0055 Not to be used for installation purposes. Issue 6 EST %PPI-Lite Safety & Communications EST3 Power Supplies 3 -PPS /M series, 3 -BBC /M series Overview 3 -BPS /M series, EST3 Power supplies consist of two assemblies, a high efficiency switch mode power supply card and a power supply monitor module. The monitor module mounts to the local rail and distribe utes the power from its supply to the local rail. The local rail dise tributes power from all power supplies to other local rail modules and user interface cards resulting in "Shared Power" throughout the system. By paralleling the power supplies on a rail maximum utilization of available power is possible, resulting in fewer power supplies. Up to four power supplies combine in a single enclosure providing up to 28 amps of available power. Battery backup is provided using from one to four sets of batteries, depending on standby power requirements. Power supplies mount to the back of the chassis units or walle boxes. The associated power supply monitor module mounts on the local rail providing system power distribution and mounting space for any control display module. Access to auxiliary power is via easily accessible terminal blocks located on the power supe ply monitor module. Each power supply produces 7 Amps of filtered and regulated power. With four power supplies located in an enclosure (one primary and three booster power supplies) 28 amps of current is available for local rail modules, control display modules and the eight auxiliary 3.5 amp power outputs (two per supply). Page 1 of 4 EST Catalog ► EST3 Life Safety Platform Monitor Module pending Standard Features • High efficiency switch mode L� 53000 7165 - 1657. 0186 FDNY COA 6086 FM CE • Increased power distribution efficiency - power supplies parallel allowing up to 28 amps in a single node • 120 or 230 Vac operation • 7 AMP filtered and regulated • Two 3.5 AMP outputs • Temperature compensated, dual rated battery charger • Electronic power limiting • Automatic load testing of batteries DATA SHEET 85010 -0059 Not to be used for installation purposes. Issue 10.1 Application The primary power supply provides the system with battery charging and voltage regulation. Software configures the charger to either 10 -24 AH batteries or 30 -65 AH batteries and controls the high /low charge rates. Batteries mounted in the same ens closure as the power supply, have their charge rate monitored and adjusted based on the local enclosure temperature, keeping charging rates within battery specification. For remote batteries a temperature probe is monitored in the remote battery cabinet and charge rates are adjusted automatically. Battery damage is unlikely to occur when environmental short term conditions are outside of normal operating ranges. Engineering Specification The fire alarm power supplies must be capable of being paralleled and to load share. Multiple power supplies must be capable of bee ing backed up with a single 24 volt battery set. Each power supply shall be capable of charging up to 65 AH batteries. The power supply must be able to perform an automatic load test of batteries and return a trouble if the batteries fall outside a predetermined range. Power supplies must incorporate the ability to adjust the charge rate of batteries based on ambient temperatures. It shall be possible to adjust for ambient temperature changes in local cabinets as well as remote cabinets. The EST3 power supplies automatically load test batteries by shutting down the battery charger and placing a load across the Installation and Mounting battery. If the battery voltage is outside the specification range the power supply reports a trouble. The trouble clears if the battery is _ ; able to recover and pass future load tests. Battery leads are electronically short circuit protected. If a short occurs in the battery leads the charger automatically disables itself and causes a trouble. The system will constantly look to see if the short has cleared. If the short clears the system automatically restores. During operation on standby batteries, battery voltage is constants ly monitored. A trouble is reported if the battery voltage falls below a specified value. EST3 power supplies provide specific information back to the 3- CPU(1) designed to help speed trouble shooting of system functions. Should a power supply detect a fault, specific diagnos6 tic codes are available to speed trouble shooting. The 3 -LCD will display the power supplies address, a specific trouble code, and a text message describing the specific trouble. Text messages are easy to understand and include items like: Battery Trouble, Aux Power Overload Circuit 1, Aux Power Overload Circuit 2. IN W IPF Power Supply Rules iiUEach battery set needs one charger, either a 3 -PPS /M or a 3- BBC /M. eU Each power supply must be connected to a battery set using an identical length and gauge of wire to keep voltage drops identical. 3. Distribute power supplies and loads evenly across rails. 4. All battery sets for a panel must be the same capacity (AH), same manufacturer, and same manufacturing date code. The Table below illustrates the combinations of power supplies and batteries that meet all the power supply rules. 24 VDC Power Supply Output Current 7A 14A I • 28A Power Two Identical Power Distribution Four Identical Module One Set, ' ' (EN -54 only) One Set, One Set, W IPF Power Supply Rules iiUEach battery set needs one charger, either a 3 -PPS /M or a 3- BBC /M. eU Each power supply must be connected to a battery set using an identical length and gauge of wire to keep voltage drops identical. 3. Distribute power supplies and loads evenly across rails. 4. All battery sets for a panel must be the same capacity (AH), same manufacturer, and same manufacturing date code. The Table below illustrates the combinations of power supplies and batteries that meet all the power supply rules. 24 VDC Power Supply Output Current Page 2 of 4 DATA SHEET 85010 -0059 Not to be used for installation purposes. Issue 10.1 7A 14A I 21A 28A Two Identical Three Identical Four Identical Battery One Set, One Set, One Set, One Set, Sets, 65 AH Sets, 65 AH Sets, 65 AH Requirements 65 AH max 65 AH max 65 AH max 65 AH max max max max Required 1 3 -PPS /M 1 3 -PPS /M 1 3 -PPS /M 2 1 3 -PPS /M 1 3 -PPS /M 1 3 -PPS /M 1 3 -PPS /M Modules 1 3 -BPS /M 1 3 -BBC /M 3 -BPS /M 2 3 -BBC /M 3 3 -BPS /M 3 3 -BBC /M Page 2 of 4 DATA SHEET 85010 -0059 Not to be used for installation purposes. Issue 10.1 Typical Wiring utility Power Primary Booster Booster 3- PPS /M -230 & 3- BPS /M -230 Booster Power Power Power Power Supply Supply Supply UL, ULC Supply [1] [2] I LPCB EN54`, CE [2] [2] Power 24Vdc Supply 24Vdc Brownout Level 24Vdc 24Vdc 2x3.5A Monitoring 2x3.5A < or = 195 Vac 2x3.5A 2x3.5A 3 -PPS /M included 3- PPS /M -230 3- PPS /M -230 -E Primary Ra Is with 3 -CPU3 current Rails Booster Power Supply Power I included with Current 4 Power Supply Monitor Module To Rail +I 3 -CPU3 current Alarm: 50 mA 3 -CPU3 current Monitor Module ee® �eee ease ®see Auxiliary Auxiliary Auxiliary Auxiliary Power Power 3- BBC /M -230 -E Power Power TakeofE Takeoff Alarm: 70 mA TakeofE Takeoff 2x3.5A 2x3.5A 2x3.5A 2x3.5A [1¢0rom battery temperature probe terminals. Standby: 70 mA Input Current [2¢0rom battery and from temperature probe terminals if 3- BTSEN -E used. Total Output Current " Nominal Voltage Battery Charging 65 AH Sealed None 65 AH Sealed Specifications Catalog Number 3 -PPS /M & 3 -13PS /M 3- PPS /M -230 & 3- BPS /M -230 3- PPS /M -230 -E & 3- BPS /M -230 -E 3 -1313C /M 3- BBC /M -230 3- BBC /M -230 -E Agency Approvals UL, ULC I U L, ULC UL, ULC UL, ULC I LPCB EN54`, CE EN54` Input Voltage 120 Vac ( +10 %, -15 %), 50 -60 Hz 230 Vac ( +10 %, -15 %), 50 -60 Hz Brownout Level < or = 102 Vac 96 Vac < or = 195 Vac 184 Vac < or = 195 Vac 188 Vac 3 -PPS /M included 3- PPS /M -230 3- PPS /M -230 -E with 3 -CPU3 current included with included with Current Alarm 50mA 3 -CPU3 current Alarm: 50 mA 3 -CPU3 current Alarm: 50 mA Requirements 3 -BBC /M Standby 50mA Standby: 50 mA Standby: 50 mA Alarm: 70 mA 3- BBC /M -230 3- BBC /M -230 -E Standby: 70 mA Alarm: 70 mA Alarm: 70 mA Standby: 70 mA Standby: 70 mA Input Current 3.0 A 1.5 A Total Output Current Special Applications: 7.0 Amps Battery Charging 65 AH Sealed None 65 AH Sealed None 30 AH Sealed None Capacity Lead -Acid Lead -Acid Lead -Acid Low Battery Trouble 24 Vdc 22.5 Vdc Deep Discharge 19.5 Vdc 20.0 Vdc Cutoff Mounting 1 LRM space, 1 LRM Space + 1 LRM space, Requirements 1 chassis footprint 3 -PPS: 2 footprints 1 chassis footprint 3 -BBC: 1 footprint Output Voltage 24 Vdc Nominal Auxiliary Output Two sources of 3.5 Amps each taken from total output current Current Auxiliary Output 18 AWG to 12 AWG (1 mm2 to 2.5 mm2) Terminal Capacity Output Protection Electronic power limiting & heat sink temperature Ground Fault < 10K Ohms Detection "EN54- 2:1997 +A1 and EN54- 4:1997 +A1 :2002 +A2 pending Page 3 of 4 DATA SHEET 85010 -0059 Not to be used for installation purposes. Issue 10.1 EDwa►ROs Contact us... Email: edwards.fire@fs.utc.com Web: www.est - fire.com EST is an EDWARDS brand. 1016 Corporate Park Drive Mebane, NC 27302 In Canada, contact Chubb Edwards... Email: inquiries @chubbedwards.com Web: www.chubbedwards.com © 2013 UTC Fire & Security Americas Corporation, Inc. All rights reserved. Specifications subject to change without notice. Edwards is part of UTC Climate, Controls & Security, a unit of United Technologies Corporation. Page 4 of 4 Ordering Information Catalog Description Number p 3 -PPS /M Primary Power Supply w/ local rail module 120V 50/60 Hz Ship Wt., lb. (kg) 5(2.3) 3 -BPS /M Booster Power Supply w/ local rail module 120V 50/60 Hz 5(2.3) 3- PPS /M -230 Primary Power Supply w/ local rail module 230V 50/60 Hz 5(2.3) 3- BPS /M -230 Booster Power Supply w/ local rail module 230V 50/60 Hz 5(2.3) 3 -PPS/ M -230 -E Primary Power Supply w /local rail module 230V 50 Hz, 5(2.3) EN54` Certified, CE 3 -BPS/ M -230 -E Booster Power Supply w /local rail module 230V 50 Hz, 5(2.3) EN54` Certified, CE 3 -BBC /M Booster /Charger Supply w /local rail module 120V 50 /60Hz 5(2.3) 3- BBC /M -230 Booster /Charger Supply w /local rail module 230V 50 /60Hz 5(2.3) 3 -BBC/ M -230 -E Booster /Charger Supply w /local rail module, 230V 50 /60Hz, 5(2.3) EN54` Certified, CE 3- BBCMON( -E) Booster /Charger Monitor Module with charger capability 5(2.3) (upgrade 3- BPS /M(- 230)( -E) to 3- BBC /M- (230)( -E)) 3 -BTSEN Distribution Module required when battery installed .5 (.22) in remote cabinet 3- BTSEN -E Distribution and Temperature Sensor Module. Required in .5 (.22) EN54` Markets when battery installed in a remote cabinet. 3 -FP Filler Plate, order separately when no LED or LED /Switch 0.1 (0.05) module installed. "EN54- 2:1997 +A1 and EN54- 4:1997 +A1 :2002 +A2 pending DATA SHEET 85010 -0059 Not to be used for installation purposes. Issue 10.1 EST %PPI-Lite Safety & Communications EST3 Cabinets and Chassis 3 -CAB series, 3 -RCC series, 3 -CHAS7 series, BC -1 Overview EST3 has a wide selection of cabinet arrangements allowing the greatest use of EST3's flexible modular design. Lobby enclosure wallboxes are manufactured from #14 AWG cold rolled steel with a gray baked enamel finish. Lobby enclosure doors are manua factured from #14 AWG cold rolled steel and have a modern contoured door design with integral viewing window. The excepa tion is the small lobby enclosure 3 -CAB5. The 3 -CABS wallbox and non - contoured door are #16 AWG cold rolled steel. Lobby enclosure doors come with gray baked enamel or optional red baked enamel finishes. The EST3 lobby enclosures back boxes, doors and chassis units are ordered and shipped separately. The 3 -CABS lobby enclosure comes complete with door and back box providing space to mount five local rail modules. The EST3 remote closet cabinet design allows the installation of control panel electronics in electrical closets. The remote closet cabinets have left hand hinged doors and are available with red finish only. Optional display modules used for system diagnostics display, mount behind the closet cabinet door and are not visible with the door closed. Page 1 of 4 III[111111111111911pllllllllll @119111 ]11111 IIIIIIIIIIIIII111119111111111110119111311111 ®IIIIII fl i k I 3 -CAB Series EST Catalog ► EST3 Life Safety Platform UDC S3000 0 7165 -1657: 0186 FDNY COA 6086 FM CE EN54- 2:1997 +Ai and EN54- 4:1997 +A1:2002 +A2 pending Standard Features • Right or left hand hinging of doors • Lag and Keyway holes for quick mounting • Attack rated door for security applications • Knockouts for 3/4 inch conduit • Attractive contour door design on lobby enclosures • Combination flush or surface mounting lobby enclosure design • Remote closet cabinets for electrical closet mounting support up to 65 AMP hour batteries • Optional earthquake hardening: OSHPD seismic pre - approval for component Importance Factor 1.5 DATA SHEET 85010 -0067 Not to be used for installation purposes. Issue 10 Application Lobby Enclosures EST3 lobby enclosures provide space for control, monitoring and display modules where they remain visible even with the door closed and secure. Ideal for mounting in lobby's where appeara ance is important, maximum mounting flexibility is provided with doors that will mount for right or left hand opening. Lobby encloa sures come in several sizes to match individual project requirea ments. The 3 -CA135 series semi -flush or surface mounts. A built in rail assembly provides space for up to five local rail modules, no chassis assembly needed. Back space for 1 -1/2 footprints gives room for a power supply and a 1/2 footprint module and 10 AH batteries. The local rail module spaces provide room for amplifiers, common control and annunciation modules. The 3 -CA137 semi -flush or surface mounts and has a contoured front door with viewing window. Space is provided for two 17 AH batteries and one chassis assembly providing seven local rail module spaces. The 3 -CAB14 semi -flush or surface mounting and has a cons toured front door with viewing window. Space is provided for two 17AH batteries and two chassis assemblies each providing seven local rail module spaces. The 3 -CAB21 semi -flush or surface mounts and has a contoured front door with viewing window. Space is provided for two 17AH batteries and three chassis assemblies each providing seven local rail module spaces. Remote Closet Cabinets Remote closet cabinets provide an economical way of installing equipment in locations where esthetics are not paramount, like electrical closets. You can have optional display modules used for system diagnostics display mounted behind the front door. These display modules will not be visible with the door closed. Remote closet cabinets are surface mounting and come in sizes providing space for one to three chassis with room for standby batteries. A UL Listed attack rated door having a 2- minute rating is available for the 3 -RCC7R cabinet. This door is required for security applications. Installation and Mounting Lobby Enclosure 250 in (635 cm) Surtace Mounted 14.0 in (35.56 cm) 2325 in(5903 cm) R emote Closet oset Ci 901 cm) 21.44in(54.46 cm) 12.7 in (32.26 cm) 12s n31acm RCC7R 3 -cab5B 3.1 in 10.9 in (27.69 cm) 3 -RCC21 R (7.87 cm) __ 1 - 5 in (15 2 c.) 1.3 in y. (3.81 cm) (511Cm) (143 cm) x(112' y (3.30 cm) a L 3.86 in ALL KNOCKOUTS (9.80 cm) FOR 3W CONDUIT TOP VIEW 1.65 in 5 OUTER DOOR (4.19 cm) 3.86 in E 16.4 in (41.66 cm) 2.6 in (9,80 cm) E (6.6 cm) , ♦12� Chassis m 1.3 in N (3.3 Cn, N Page 2 of 4 a n M N 8 a a BACKBOX BATTERY AREA O NOT INSTALL CONDUI ¢ v O 0 0 O N � N Lobby Enclosures 24.1 IJ 0. ) 3 -CA13713 22.7511 (57.1 gym) 3- CAB14B L7-7 -) 21.nina3.3a`m) � 1.25 in 1.2511 (3.18 cm) 3 -CAB21 B 3.Sfi In (9.80 cm) 1.fi5 in (4.19 cm) 27.34 in (59.4 cm) Chassis Chassis r Chassis' r BATTERY AREA DO NOT INSTALL CONDUIT W rbinets The lower mounting space can be used for an MN -BRKT1 bracket, which holds MNEC interface equipment including an MN- NETSWI Ethernet network switch, an MN -ABPM Audio bridge, an MN -FVPN VoIP module, and an MN -COM1S Communications module. DATA SHEET 85010 -0067 Not to be used for installation purposes. Issue 10 250 in (635 cm) Surtace Mounted 3.55 In 2325 in(5903 cm) R emote Closet oset Ci 901 cm) 21.44in(54.46 cm) 12s n31acm RCC7R (vsoin -445 3 RCC 14 R 3 -RCC21 R 6 in ALL KNOCKOUTS FOR 3/4" CONDUIT (19 cm) (15 2 c.) 21 in(533 cm) 56411 44i )LITER DOOR (511Cm) (143 cm) x(112' y a 3 5 E E E Chassis `- E U U E U M E NChassis � _ E 8 E U E M U U Chassis' U f U 13 in (33 cm BATTERY AREA DO NOT INSTALL CONDUIT acc coal in �.625 (1.6 cm) rbinets The lower mounting space can be used for an MN -BRKT1 bracket, which holds MNEC interface equipment including an MN- NETSWI Ethernet network switch, an MN -ABPM Audio bridge, an MN -FVPN VoIP module, and an MN -COM1S Communications module. DATA SHEET 85010 -0067 Not to be used for installation purposes. Issue 10 BC -1 Dimensions OTop view O 71.25 in (18.42 cm) 0 o No[e: Knockouts support i 0.75 in (1.91 cm) conduit 18.25 in (46.34 cm) V 16.00 in (40.65 cm) Fuser O NOW Terminal O 0 block Front view r 24 or 40 Ah 24 or 40 Ah Battery Battery LI-If - O Ordering Information Catalog Number Description Lobby Enclosures - Outer doors with viewing window O 14.00 in Side view (35.56 cm) O Equipment Battery Space Ship Wt. Mounting Space I I lb. (Kg) 3 -CAB5 Cabinet w/Wallbox, door and chassis Five local rail modules One footprint and 1/2 footprint module Two - 12V1 OA 30 (13.6) 3 -CAB713 Wallbox only One Chassis Four - 6V8A Two - 12V1 OA Two - 66166E 30 (13.6) 3- CAB713-E Wallbox only, EN54` certified CE 1 Chassis 30 (13.6) 3- CAB7D(R) Inner and outer doors for 3 -CAB713 c 3- RCC14R -E 3- CAB7D(R) -E Inner & outer doors for 3- CAB7B, EN54`, CE -10(4.5) 10(4.5) 3- CA131413 Wallbox only Two Chassis Four - 6V8A Two - 12V1 OA Two - 66166E 42 (19.1) 3- CAB1413-E Wallbox only, EN54` certified CE 2 Chassis 42 (19.1) 3- CAB14D(R) Inner and outer doors for 3- CAB1413 c 15(6.8) 3- CA1314D(R) -E Inner & outer doors for 3- CAB14B, EN54`, CE 15(6.8) 3 -CAB21 B Wallbox only Three Chassis Four - 6V8A Two - 12V1 OA Two - 66166E 55 (25) 3 -CAB21 B -E Wallbox only, EN54` certified CE 3 Chassis _55(25) 3 -CAB21 D(R) Inner and outer doors for 3 -CAB21 B c 20(9.1) 3 -CAB21 D(R) -E Inner & outer doors for 3 -CAB21 B, EN54`, CE 20(9.1) Remote Closet Enclosure - No viewing window 3 -RCC7R Red wallbox and door One Chassis Four - 6V8A, Two - 12V1 OA Two - 12V1 7A, Two - 12V50A 37.5 (17) 3- RCC7R -E Red wallbox and door, EN54` certified CE 37.5 (17) ATCK Attack rated door for 3 -RCC7R o eE 26 (11.8) 3- RCC14R Red wallbox and door Two Chassis Four - Two - Two - 12V1 OA, Two 12V1 7A Two - 12V50A, Two - 12V652 53 (24) 3- RCC14R -E Red wallbox and door, EN54` certified CE 53(24) 3 -RCC21 R Red wallbox and door Three Chassis 70(31 8) 3 -RCC21 R -E Red wallbox and door, EN54` certified CE 70 (31.8) Chassis Assemblies 3 -CHAS7 Takes one chassis space in wallbox, provides space for 7 local rail modules, up to two power supplies, and a 1/2 footprint module. 8.4 (3.8) 3 -ASU" Takes one chassis space in wallbox, provides an audio source unit /w microphone and an inner door filler plate. 15(6.8) 3- ASU /4" Takes one chassis space in wallbox, provides an audio source unit /w microphone and four local rail module spaces. 15(6.8) 3- ASU /FT" Takes one chassis space in wallbox, provides an audio source unit /w microphone and Firefighters Telephone 20 (9.1) 3 -FTCU" Takes one chassis space in wallbox, provides Firefighters Telephone Control unit and inner door filler plate. 15(6.8) MN -BRKT1 Takes one chassis space in wallbox, provides mounting for MNEC interface equipment 4.0 (1.8) FSB -BRKT Mounting bracket for FSB -PC communications bridge. Allows FSB -PC to mount on the side of a Chass7 1.0 (0.45) Notes: 99 All lobby enclosures, wallboxes and doors have a textured gray enamel finish; outer doors are available in red by adding the suffix "R" to the catalog number, i.e 3- CAB7DR. 69 Remote closet cabinets will support 65 AH batteries with the use of the 3 -BATS Battery Shelf, which reduces the enclosure's chassis capacity by one chassis. 3. The EST3 is modularly listed under the following standards: UL 864 categories: UOJZ, UOXX, UUKL and SYZV, UL 2572, UL 294 category ALVY, UL 609 category AOTX, UL 636 category ANET, UL 1076 category APOU, Page 3 of 4 more... UL 365 category APAW, UL 1610 category AMCX, UL 1635 category AMCX ULC -S527, ULC -S301, ULC -S302, ULC -S303, ULC -S306, ULC /0RD- C1076, ULC /ORD -C693 Please refer to EST3 Installation and Service Manual for complete system requires ments. EN54- 2:1997 +A1 and EN54- 4:1997 +A1:2002 +A2 pending "" Add " -CC" for City of Chicago. DATA SHEET 85010 -0067 Not to be used for installation purposes. Issue 10 EDwa►ROs Contact us... Email: edwards.fire@fs.utc.com Web: www.est - fire.com EST is an EDWARDS brand. 1016 Corporate Park Drive Mebane, NC 27302 In Canada, contact Chubb Edwards... Email: inquiries @chubbedwards.com Web: www.chubbedwards.com © 2013 UTC Fire & Security Americas Corporation, Inc. All rights reserved. Specifications subject to change without notice. Edwards is part of UTC Climate, Controls & Security, a unit of United Technologies Corporation. Page 4 of 4 Accessories 3 BATS Battery Shelf for RCC Enclosures. Takes one chassis space. Room for 3(1.36) up to one 65 AH or two 50 AH batteries. BC -1 Battery Cabinet - supports up to two 40 amp hour batteries. 3 -BTSEN Battery sensor /distribution module 0.5 (.2) BC -1 EQ BC -1 - Seismic Battery hold down for BC -1. Supports up to two 40 Ahr batteries. Order BC -1 Separately. 3 -CAB - Seismic Battery hold -down for 3 -CAB 7, 14 or 21. Supports two 1 2V 3 -CABEQ batteries from 10 Ah up to 18 Ah. Comes with EST3 Chassis hardening hardware and instructions. Order 3 -CAB7, 3 -CAB14 or 3 -CAB21 separately. See note 1. 3 -RCC series - Seismic Battery hold -down. Supports one set of two 50 Ah 3- RCCEQ50 batteries. Comes with EST3 Chassis hardening hardware and instructions. Order 3- RCCxxR separately. See note 1. 3 -RCC series cabinet - Seismic Battery hold -down. Supports one set of two 65 3- RCCEQ65 Ah batteries (one battery in bottom of cabinet, one battery mounted on 3- BATS). Order 3- RCCxxR cabinet and 3 -BATS separately. See note 1. 3 -TAMP Tamper switch for 3 -CAB7, 3 -CAB14 and 3 -CAB21 cabinets. Mounts 0.5 (.2) to side of cabinet. 3 -TAMP5 Tamper switch for 3 -CAB5. Mounts to side of cabinet. 0.5 (.2) 3- TAMPRCC 3- TAMPRCC Tamper Switch for RCC series cabinets. Mounts to side 0.5 (.2) of cabinet. 99 For earthquake anchorage, including detailed mounting weights and center of gravity detail, please refer to Seismic Application Guide 3101676. Approval of panel anchorage to site structure may require local AHJ, structural, or civil engineer review. DATA SHEET 85010 -0067 Not to be used for installation purposes. Issue 10 Comae nt T C .; _ . ES SECTION 2: REMOTE & AUXILIARY POWER SUPPLIES REMOTE BOOSTER POWER SUPPLY BPS -6A 6.5 AMP BOOSTER POWER SUPPLY EST %PPI-Lite Safety & Communications Remote Booster Power Supplies BPS6A, BPSIOA Overview The Booster Power Supply (BPS) is a UL 864, 9th Edition listed power supply. It is a 24 Vdc filtered - regulated, and supervised unit that can easily be configured to provide additional notification appliance circuits (NACs) or auxiliary power for Mass Notification/ Emergency Communication (MNEC), as well as life safety, security, and access control applications. The BPS contains the circuitry to monitor and charge internal or external batteries. Its steel enclosure has room for up to two 10 ampere -hour batteries. For access control -only applications, the BPS can support batteries totaling up to 65 ampere -hours in an external enclosure. The BPS has four Class B (convertible to two Class A) NACs. These can be activated in one or two groups from the BPS's unique dual input circuits. The BPS is available in 6.5 or 10 ampere models. Each output circuit has a capacity of three amperes; total current draw cannot exceed the unit's rating. The BPS meets current UL requirements and is listed under the following standards: Standard (CCN) Description UL864 9th ed.ition (UOXX)Fire Alarm Systems UL636 (ANET, UEHX7) Holdup Alarm Units and Systems T L609 (AOTX, AOTX7) Local Burglar Alarm Units and Systems UL294 (ALVY, UEHX7) Access Control Systems T L365 (APAW, APAW7) Police Station Connected Burglar Alarm Units and Systems UL1076 (APOU, APOU7) Proprietary Burglar Alarm System Units UL1610 (AMCX) Central Station Alarm Unit ULC -S527 (UOXXC) Control Units, Fire Alarm (Canada) ULC -s2w (AOTx7) Local Burglar Alarm Units and Systems (Canada) 722.2 No. 205 Signaling Equipment (Canada) Page 1 of 4 EST Catalog ► Power Supplies and Accessories NOW ylltilll��llll lr�� �!'�� i fj +r'e r�r!!jIIt/ � tli�f��l��fffffff�� Standard Features FM MEA 476 -91 -E Vol. 13 UL L� S3424 0 7300 -1657: 0229 t Allows for reliable filtered and regulated power to be installed where needed t Cost effective system expansion t Provides for Genesis and Enhanced Integrity notification ap- pliance synchronization t Supports coded output operation t Self- restoring overcurrent protection t Multiple signal rates t Can be cascaded or controlled independently t Easy field configuration t On -board diagnostic LEDs identify wiring or internal faults t Standard Edwards keyed lockable steel cabinet with remov- able door t 110 and 230 Vac models available t Accommodates 18 to 12 AWG wire sizes t Optional tamper switch t Dual battery charging rates t Optional earthquake hardening: OSHPD seismic pre - approval for component Importance Factor 1.5 DATA SHEET 85005 -0125 Not to be used for installation purposes. Issue 5 Application The BPS provides additional power and circuits for notification ap- pliances and other 24 Vdc loads. It is listed for indoor dry locations and can easily be installed where needed. Fault conditions are indicated on the on -board diagnostic LEDs, opening the BPS input sense circuit and the trouble relay (if programmed). While this provides indication to the host system, the BPS can still be activated upon command. A separate AC Fail contact is available on the BPS circuit board, which can be programmed for trouble or AC Fail. There are seven on -board diagnostic LEDs: one for each NAC fault, one for battery fault, one for ground fault, and one for AC power. The unique dual -input activation circuits of the BPS can be acti- vated by any voltage from 6 to 45 VDC (filtered - regulated) or 11 to 33 Vdc (full -wave rectified, unfiltered). The first input circuit can be configured to activate 1 -4 of the four possible outputs. The second input circuit can be configured to control circuits 3 and 4. When outputs are configured for auxiliary operation, these circuits can be configured to stay on or automatically deactivate 30 sec- onds after AC power is lost. This feature makes these circuits ideal for door holder applications. The BPS also has a separate 200 mA 24 Vdc output that can be used to power internal activation modules. BPS NACs can be configured for a 3 -3 -3 temporal or continuous output. California temporal rate outputs are also available on cer- tain models. This makes the BPS ideal for applications requiring signaling rates that are not available from the main system. Dimensions D1 D5 O O O y Top View D2 -*1 14 D3 p 0.+— D4 PO • Front View O a� O 66 0 • • fn All knockouts a CD for 3/4 in conduit < (1.9 cm) CD D1 D2 D3 aM Do D6 17.0 in 3.5 in 13.0 in 6.5 in 3.375 in 12.0 in (43.2 cm) (8.9 cm) (33.0 cm) (16.5 cm) (8.6 cm) (30.4 cm) In addition to the internally generated signal rates, the BPS can also be configured to follow the coded signal rate of the main Wire routing system NACs. This allows for the seamless expansion of existing NACs. The BPS enclosure has mounting brackets for up to three Signa- ture modules to the right of the circuit board. Engineering Specification Supply, where needed, Edwards BPS Series Booster Power Sup- plies (BPS) that are interconnected to and supervised by the main system. The BPS shall function as a stand -alone auxiliary power supply with its own fully- supervised battery compliment. The BPS battery compliment shall be sized to match the requirements of the main system. The BPS shall be capable of supervising and charging batteries having the capacity of 24 ampere -hours for Mass Notification /Emergency Communication (MNEC), life safety and security applications, and the capacity of 65 ampere -hours for access control applications. <<The BPS shall be capable of installation for a seismic com- ponent Importance Factor of 1.5.» The BPS shall provide a minimum of four independent, fully supervised Class B circuits that can be field configurable for notification appliance circuits or auxiliary 24 Vdc power circuits. BPS NACs shall be convertible to a minimum of two Class A NACs. Each BPS output circuit shall be rated at 3 amperes at 24 Vdc. Each output circuit shall be provided with automatically restoring overcurrent protection. The BPS shall be operable from the main system NAC and /or Edwards Signature Series control modules. BPS NACs shall be configurable for continuous, 3 -3 -3 temporal or optionally, California rate. Fault conditions on the BPS shall not impede operation of main sys- tem NAC. The BPS shall be provided with ground fault detection circuitry and a separate AC fail relay. Page 2 of 4 Route AC supply through these knockouts only (Nonpower- limited and supervised) Power - limited wiring area Battery wiring (nonpower- limited and supervised) Battery Battery Notes 1. Maintain 1/4 -inch (6 mm) spacing between power - limited and nonpower - limited wiring or use type FPL, FPLR, or FPLP cable per NEC. [2] Power - limited and supervised when not configured as auxiliary power. Non - supervised when configured as auxiliary power. [3] Source must be power - limited. Source determines supervision. Ch When using larger batteries, make sure to position the battery terminals towards the door. DATA SHEET 85005 -0125 Not to be used for installation purposes. Issue 5 Typical Wiring Single or cascaded 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 boosters to be driven from a single NAC circuit without the need for special configurations. Configuring the Booster for AC Power Fail delay operation* TB 10 Notification appliance circuit (NAC) NAC1/ + UL listed AUX1 - s 4 m 4 EOL 15 kf) NAC2/ + Notification appliance circuit (NAC) AUX2 - NAC3/ + UL listed AUX3 - FW EOL 15 kf) NAC4/ + AUX4 - 200 it e AUX m Continuous co IN Sense 1 COM OUT Eff IN Eff Sense 2 COM Eff OUT MI NO Trouble COM NC TB2 o Data in from previous device or Signature controller EOL Cb kf) CC1(Seu odule [1][3] o .o NAC Circuit To next signaling NAC Circuit device, booster, or EOL resistor C/) nEm--F NAC output #1 Fire Alarm NAC output #2 Control Panel NAC output #3 NAC output #4 T T Booster Power Multiple CC1(S) modules using the BPS's sense inputs TB1 Notification appliance circuit (NAC) NAC1/ + UL listed AUX1 - = Q = 4 EOL 15 KW NAC2/ + AUX2 _ Notification appliance circuit (NAC) NAC3/ + UL listed AUX3 - _ = EOL 15KW NAC4/ + AUX4 - 200 1 E AUX m Continuous IN Sense 1 COM Eff OUT Eff IN Eff Sense 2 COM OUT Eff NO Trouble COM NC TB2o Data in from I �� Data out to CT1 previous device next device moadulo[ or Signature controller flll�next "The Booster supports AC Power fail delay Data out to of three hours via its trouble contact when device dip switch SW2 -6 is on. All other troubles are reported to supervising module or panel without delay via Sense inputs. Security and access BPS TB 10 24 V NAC1/ + �24 AUX1 - NAC2/ + ff AUX2 - NAC3/ + AUX3 - NAC4/ + AI IVA - rM 12V �L—E Secu rity =device EOL device monitoring device EOL OOK EOL dOK 0 10 u CC1(S) module O O_ CC1(S) module O O_ d� [1] Disable the BPS's ground fault jumper (JP3) Page 3 of 4 To next device or end DATA SHEET 85005 -0125 Not to be used for installation purposes. Issue 5 EDwa►ROs Contact us... Email: edwards.fire@fs.utc.com Web: www.est - fire.com EST is an EDWARDS brand. 1016 Corporate Park Drive Mebane, NC 27302 In Canada, contact Chubb Edwards... Email: inquiries @chubbedwards.com Web: www.chubbedwards.com © 2013 UTC Fire & Security Americas Corporation, Inc. All rights reserved. Specifications subject to change without notice. Edwards is part of UTC Climate, Controls & Security, a unit of United Technologies Corporation. Page 4 of 4 Specifications Model 6.5 amp Booster 10 amp Booster AC Line Voltage 120VAC or 220- 240VAC 50 /6OHz 120VAC or 220- 240VAC 50 /6OHz 390 watts 580 watts Notification Appliance 3.OA max. per circuit @ 24Vdc 3.OA max. per circuit @ 24Vdc Circuit Ratings nominal 6.5A max total all NACs nominal 1 OA 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 3mA @ 12Vdc, 6mA @ 24Vdc (from an existing NAC) Booster Internal 70mA + 35 mA for each circuit set to AUX Supervisory Current Booster Internal Alarm 270mA Current Signature Mounting Accomodates three two -gang modules. Space Maximum Battery Size 10 Amp Hours (2 of 12V1 OA) in cabinet up to 24 Amp hours with ex- ternal battery cabinet for fire and security applications; up to 65 Amp hours for access control applications in external battery box. Terminal Wire Gauge 18 -12 AWG Relative Humidity 0 to 93% non condensing @ 32 °C Temperature Rating 32° to 120 °F (0° to 49 °C) NAC Wiring Styles Class A or Class B Output Signal Rates Continuous, California rate, 3 -3 -3 temporal, or follow installed panel's NAC. (See note 1.) Ground Fault Detection Enable or Disable via jumper Agency Listings UL, ULC, CSFM 1. Model BPS "CAA provides selection for California rate, in place of temporal. 2. Maximum of 8 Amps can be used for auxiliary output. Ordering Information Catalog Description Shipping Number Wt. lb (kg) 0 BPS6A 6.5 Amp Booster Power Supply 13(5.9) BPS6AC 6.5 Amp Booster Power Supply (ULC) 13(5.9) BPS6A/230 6.5 Amp Booster Power Supply (220V) 13(5.9) BPS6CAA 6.5 Amp Booster Power Supply with California rate 13(5.9) BPS10A 10 Amp Booster Power Supply 13(5.9) BPSI 0AC 10 Amp Booster Power Supply (ULC) 13(5.9) BPS1 OA/230 10 Amp Booster Power Supply (220V) 13(5.9) BPSI 0CAA 10 Amp Booster Power Supply with California rate 13(5.9) 1. Requires installation of sepa- rate battery cabinet. Related Equipment 2. BPS supports batteries greater 12V6A5 7.2 Amp Hour Battery, two required 3.4 (1.6) than 24 Amp hours for access 12V1 OA 10 Amp Hour Battery, two required 9.5 (4.3) control applications only. 3. For earthquake anchorage, 3 -TAMP Tamper switch including detailed mounting BC -1 EQ Seismic Kit for BC -1. Order BC -1 separately. See note 3. weights and center of gravity BPSEQ Seismic kit for BPS6A or BPS10 Booster Power Supplies. See detail, refer to Seismic Applica- note 3 tion Guide 3101676. Approval of panel anchorage to site BC -1 Battery Cabinet (up to 2 - 40 Amp Hour Batteries) 58 (26.4) structure may require local BC -2 Battery Cabinet (up to 2 - 17 Amp Hour Batteries) 19(8.6) AHJ, structural or civil engineer 12V1 7A 18 Amp Hour Battery, two required (see note 1) 13(5.9) review. 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) DATA SHEET 85005 -0125 Not to be used for installation purposes. Issue 5 Co -- -- nt TECFYF ES SECTION 3: INPUT /OUTPUT MODULES SIGA -CC1S SYNCHRONIZATION OUTPUT MODULE (ONE -GANG STANDARD MOUNT) EST Life Safety & Communications Synchronization Output Module SIGA -CC1S, MCC1S Overview SIGA -CC1 S and MCC1 S Synchronization Output Modules are intelligent analog addressable devices that form part of EST's Signature line of products. The actual operation of the SIGA -CC1 S and MCC1 S is determined by the "personality code" selected by the installer, which is downloaded to the module from the Signa- ture loop controller during system configuration. Depending on their assigned personality, Synchronization Output Modules may be used as a signal power riser selector to provide synchronization of fire alarm signals across multiple zones, or for connecting, upon command from the loop controller, supervised Class B signal or telephone circuits to their respective power inputs. The power inputs may be polarized 24 Vdc to operate au- dible and visible signal appliances or 25 and 70 VRMS to operate audio evacuation speakers and firefighter's telephones. Page 1 of 4 Standard Features EST Catalog ► Intelligent Input- Output Patented & t C L pPFM� MEA 7300- -2657: S3424 • Provides UL 1971 - compliant auto -sync output for visual signals Use for connecting a supervised output circuit to a supervised 24 Vdc riser input and synchronizing multiple notification appli- ance circuits. • Functions as an audible signal riser selector Use as a synch module or for connecting supervised 24 Vdc AudibleNisible signal circuits, or 25 and 70 VRMS Audio Evacuation and Telephone circuits to their power inputs. • Built -in ring -tone generator When configured for telephone circuits, the SIGA -CC1 S gener- ates its own ring -tone signal, eliminating the need for a sepa- rate ring -tone circuit. • 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 con- troller, 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 com- munication 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. DATA SHEET 85001 -0543 Not to be used for installation purposes. Issue3.1 Application The SIGA -CCiS mounts to a standard North American two -gang electrical box, making it ideal for locations where only one module is required. Separate 1/0 and data loop connections are made to each module. The SIGA -MCCiS is part of the UIO family of plug -in Signature Series modules. It functions identically to the SIGA -CC1 S, but takes advantage of the modular flexibility and easy installation that characterize all UIO modules. Two- and six - module UIO mother- boards are available. These can accommodate individual risers for each on -board module, or risers that are shared by any combina- tion of its UIO modules. All wiring connections are made to termi- nal blocks on the motherboard. UIO assemblies may be mounted in Edwards enclosures. Personality Codes The operation of the SIGA -CC1 S is determined by their sub -type code or "Personality Code ". The code is selected by the installer depending upon the desired application and is downloaded from the loop controller. Personality Code 5: Signal Power or Audio Evacuation (sin- gle riser). Configures the module for use as a Class B Audible/ Visible Signal power (24 Vdc polarized) or Audio Evacuation (25 or 70 VRMS) power selector. The ring -tone generator is disabled. The output circuit is monitored for open or shorted wiring. If a short exists, the control panel inhibits the activation of the audible/ visible signal circuit to prevent connection to the power circuit. Personality Code 6: Telephone with ring -tone (single riser). Configures the module for use as a Telephone power selector. When a telephone handset is plugged into its jack or lifted from its hook, the module generates its own Ring -Tone signal. A separate ring -tone circuit is not needed. The module sends this signal to the control panel to indicate that an off -hook condition is present. When the system operator responds to the call, the ring -tone signal is disabled. Personality Code 25: Visual Signal Synchronization. This personality code configures the module to provide synchronization of fire alarm signals across multiple zones. It functions as a signal power (24 Vdc) riser selector. The output wiring is monitored for open circuits and short circuits. A short circuit will cause the fire alarm control panel to inhibit the activation of the audible /visual signal circuit so the riser is not connected to the wiring fault. Warnings & Cautions This module will not operate without electrical power. As fires fre- quently cause power interruption, we suggest you discuss further safeguards with your fire protection specialist. Edwards recommends that these modules be installed according to latest recognized edition of national and local fire alarm codes. Compatibility The Synchronization Output Module is compatible with EST's Sig- nature Loop Controller operating under EST3 version 2.0 or higher, and QuickStart Signature Loop Intelligent Controller. Page 2 of 4 nstallation The SIGA -CCiS: mounts to North American 2 -1/2 inch (64 mm) deep 2 -gang boxes and 1 -1/2 inch (38 mm) deep 4 inch square boxes with 2 -gang covers and SIGA -MP mounting plates. The terminals are suited for #12 to #18 AWG (2.5 mmO to 0.75 mmy wire size. SIGA - MCCiS: mount the UIOxR motherboard inside a suitable Edwards 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). UIOxR motherboard terminals are suited for #12 to #18 AWG (2.5 mmOto 0.75 mm') wire size. U10 Motherboard 1 6 -32 Self- tapping screws - -- - ----------- Plug -in (U10) Captive Module screws I -- -----t - -- J - -F- - � -- ---------- #6 Flat washers Cabinet or electrical enclosure Electronic Addressing The loop controller electronically addresses each module saving valuable time during system commissioning. Setting complicated switches or dials is not required. Each module has its own unique serial number stored in its "on -board memory ". The loop control- ler 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. Testing & Maintenance The module's automatic self- diagnosis identifies when it is defec- tive and causes a trouble message. The user - friendly maintenance program shows the current state of each module and other perti- nent 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. DATA SHEET 85001 -0543 Not to be used for installation purposes. Issue3.1 Typical Wiring SIGA -CCIIS (Standard Mount) Personality Typical Speaker Circuit Code 5 UL/ULC Listed 47KW EOL Personality Typical Telephone Circuit Code 6 C C C 4 KW COL Personality Enhanced Integrity and Genesis Devices Code 25 4^ 4 = UL/ULC Listed V 47KW EOL CC15 0 0 SIGA -MCCIIS (U10 Mount) Personality Typical Speaker Circuit Code 5 UUULC Listed 47KW EOL Personality Typical Telephone Circuit Code 6 L/ULC C C C 4 KW EOL Personality Enhanced Integrity and Genesis Devices Code 25 4 4 = UUULC Listed 47KW EOL 1234 ar I Circuit 2 Data Out— ��= PON ARC ONE Green LED (Normal Riser out (+e Red LED (Active) To next device Riser out I -e Riser in (+e Data outl +e From control panel Riser in I -I To next device or EOL resistor. Data outl - I Cat¢ in Fee From Signature Controller or Previous Device Data in �e Multiple CC1(S) modules using the BPS's sense inputs Page 3 of 4 UIOIRI series motherboard a Riser l Out i a Riser 1 I 1234 Riser l In a L�=: a Riser l Out DATA SHEET 85001 -0543 Not to be used for installation purposes. Issue3.1 TB1 Notification appliance circuit (NAC) NAC1/ + UL listed AUX1 - s a s 4 EOL 15 KW NAC2/ + AUX2 - Notification appliance circuit (NAC) NAC3/ + UL listed AUX3 - _ = EOL 15KW NAC4/ + AUX4 - 200 i E AUX Continuous IN + - Sense 1 COM + OUT IN EOL ¢f1�K Sense 2 COM - EOL ¢fdK OUT NO - + - + o 0 Trouble COM to u to u NC TBo CC1(S) module CC1(S) module a a_ o o_ Page 3 of 4 UIOIRI series motherboard a Riser l Out i a Riser 1 I 1234 Riser l In a L�=: a Riser l Out DATA SHEET 85001 -0543 Not to be used for installation purposes. Issue3.1 EDwa►ROs Contact us... Email: edwards.fire@fs.utc.com Web: www.est - fire.com EST is an EDWARDS brand 1016 Corporate Park Drive Mebane, NC 27302 In Canada, contact Chubb Edwards... Email: inquiries @chubbedwards.com Web: www.chubbedwards.com © 2013 UTC Fire & Security Americas Corporation, Inc. All rights reserved. Specifications subject to change without notice. Edwards is part of UTC Climate, Controls & Security, a unit of United Technologies Corporation. Page 4 of 4 Specifications Catalog Number SIGA -CC11S SIGA -MCC1S Description North American 21/2 inch (64 mm) Number deep two -gang boxes and 11/2 Plugs into U102R, U106R or U106 Mounting inch (38 mm) deep 4 inch square Motherboards Synchronization Output Module (U10 Mount) - UL/ULC Listed boxes with 2 -gang covers and Related Equipment SIGA -MP mounting plates Surface Mount Box - Red, 2 -gang Description Synchronization Output Module Type Code 50 (factory set) Address Requirements Uses one module address Wiring Terminations Suitable for #12 to #18 AWG (2.5 mm2 to 0.75mm2) Operating Current Standby = 223NA SIGA -U106R Activated = 100NA Operating Voltage 15.2 to 19.95 Vdc (19 Vdc nominal) - Six Module Positions 24 Vdc = 2 amps Output Rating 25 V Audio = 50 watts 0.56 (0.25) 70 V Audio = 35 watts Construction High Impact Engineering Polymer Storage and Operating Operating: 32 °F to 120 °F (0 °C to 49 °C) °F °F °C °C) Environment Storage: -4 to 140 ( -20 to 60 supports Signature Module Mounting Plates Humidity: 0 to 93% RH LED Operation Green LED - Flashes when polled Red LED - Flashes when in alarm/ 1.5 (0.70) active Compatibility Use with: Signature Loop Controller under EST3 version 2.0 or higher Agency Listings UL, ULC, CSFM, MEA Ordering Information Catalog Description Shipping Wt. Number Ibs (kg) 1 SIGA -CC1 S Synchronization Output Module (Standard Mount) - UL/ULC Listed 0.5 (0.23) SIGA- MCC1 S Synchronization Output Module (U10 Mount) - UL/ULC Listed 0.18 (0.08) Related Equipment 27193 -21 Surface Mount Box - Red, 2 -gang 2(1.2) 27193 -26 Surface Mount Box - White, 2 -gang 2(1.2) SIGA -U102R Universal Input- Output Module Board w /Riser Inputs 0.32 (0.15) - Two Module Positions SIGA -U106R Universal Input- Output Module Board w /Riser Inputs 0.62 (0.28) - Six Module Positions SIGA -U106 Universal Input- Output Module Board - Six Module Positions 0.56 (0.25) 235196P Bi -polar Transient Protector 0.01 (0.05) MFC -A Multifunction Fire Cabinet - Red, 7.0 (3.1) supports Signature Module Mounting Plates SIGA -MP1 Signature Module Mounting Plate, 1 footprint 1.5 (0.70) SIGA -MP2 Signature Module Mounting Plate, 1/2 footprint 0.5 (0.23) SIGA -MP2L Signature Module Mounting Plate, 1/2 extended footprint 1.02 (0.46) DATA SHEET 85001 -0543 Not to be used for installation purposes. Issue3.1