Data Sheet 85010-0129 -- Signature Driver Controller Modules
Contents
1. of fo aem Circuit 1 g 7 AWEEHETTIZ To TB1 on 3 SDDC1 Module 3 SDDC1 SIGNATURE DUAL DRIVER CONTROLLER MODULE Class B Configuration Shown Typical To TB2 on 3 SDDC1 Module FE eee Circuit 2 maa may T ra SDC 2 Smoke a N A Power A z A off Bo AA Class A Configuration Shown Typical FN EN IN FAN AN FAN CoS BON BON A amp Wiring Notes A Maximum 12 AWG 1 5 mm wire minimum 18 AWG 0 75 mm a Zz SDC 1 Smoke e Power ia Circuit 1 72 To TB1 on 3 SDDC1 Module 3 SDDC1 A Shields if used must be continuous and SIGNATURE free from Earth Ground DUAL DRIVER CONTROLLER MODULE 2 All wiring supervised and power limited Class A wiring Class B wiring i To TB2 on 3 SDDC1 Module To Universal Module or MAB module when 2 wire smokes are powered from Circuit 2 the module Circuit 2 ee aE H N SDC 2 Smoke Power ZN A N R amp S liN liN liN liz amp Sy S zy N37 Sy MSZ 377 Class A Configuration Shown Typical AA o o o esr aT ST Ez Ea mr me 2 2 2 ary Data Sheet 852. Detectors Supported 125 per 3 SDC1 Card Modules Supported 125 Module Addresses per 3 SDC1 Card 2 Wire Smoke Power Output 100 mA per 3 SDC1 Card not included in Operating Current above Conventional detectors supported 150 of 100 uA type per circuit Signature Circuit Voltage 20 VDC 5 Maximum Signature Circuit Resistance Maximum Signature Circuit Capacitance 100 Ohms 0 33 uF 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 mm Agency Listings UL ULC CE see Note 1 LPCB EN54 pending see Note 2 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 S304 ULC S306 ULC ORD C1076 ULC ORD C693 Please refer to EST3 Installation and Service Manual for complete system requirements Note 2 EN54 2 1997 A1 and EN54 4 1997 A1 2002 A2 pending Ordering Information Catalog fone Shipping Numbers Can Wt Ib kg 3 SSDC1 Single Signature Driver Controller Comes with one 3
3. Asia T 852 2907 8108 F 852 2142 5063 Australia T 61 3 9259 4700 F613 9259 4799 Europe T32 2725 11 20 F 32272186 13 Latin America T 305 593 4301 F 305 593 4300 www gesecurity com est 2008 General Electric Company All Rights Reserved Signature Series is a Trademark of GE Security 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 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 multiple failures There must be a standalone mode of support remote testing It must be possible to wire the circuit as operation that will ensure the system is aware of alarms even if the local rail or main CPU fails Specifications controllers Catalog Number 3 SSDC1 3 SDDC1 Installation 1 LRM Space 1 LRM Space 1 Addressable circuit 3 SDC1 2 Addressable circuits Module Configuration Card expandable to 2 circuits 3 SDC1 Cards Operating Current Standby 144 mA Alarm 204 mA Standby 264 mA Alarm 336 mA Operating Voltage 24 Vdc Nominal Address Requirements Automatic
4. SDC1 Device Card 0 5 0 23 Mounts to Local Rail 3 SDDC1 Dual Signature Driver Controller Comes with two 3 SDC1s 0 5 0 23 Mounts to Local Rail 3 SDC1 Signature Device Card upgrades a 3 SSDC1 to a 3 SDDC1 0 25 0 11 RFK1 Ferrite Clamp Kit required for EN54 compliance 0 25 0 11 Dual Signature Driver Controller Motherboard without 3 SDC1 device 3 SSDC1 MB cards Use this motherboard for upgrading 3 SSDC or 3 SDDC to 0 5 23 3 SSDC1 or 3 SDDC1 imagination at work Data Sheet 85010 0129 Issue 4 Not to be used for installation purposes Page 4 of 4
5. m 3 028 m 2 827 m 2 061 m 1 780 m odules Gal 0 125 12 599 feet 8 483 fee 7 921 feet 5 774 fee 4 986 feet y 3 840 m 2 586 m 2 414 m 1 760 m 1 520 m Detectors 125 125 5 738 feet 3 864 fee 3 608 feet 2 630 fee 2 271 fee amp Modules 1 749 m 1 178 m 1 100 m 802 m 692 m Detectors and 7 623 feet 5 133 fee 4 793 feet 3 494 fee 3 017 fee moguls with e sews GAUM 2 324 m 1 565 m 1 461 m 1 065 m 920 m 2 wire smokes odules with 3 798 feet 2 558 fee 2 388 feet 1 741 fee 1 503 fee 2 wire smokes 0 10 3 SIGA UM 1 158 m 780 m 728 m 531m 458 m Twisted pair shielded wire 14 AWG 84pf foot 16 AWG 82pf foot 18 AWG 58pf foot Device pe na Decas Foekes e 55 ohia 100TH 4 02 Ohm 1 000ft 6 38 Ohm 1 000ft 5 952 feet 6 098 fee 5 839 feet Detectors only 125 0 1 814 meters 1 859 meters 1 780 meters 5 952 feet 6 098 fee 4 986 feet Modules Only 0 125 1 814 meters 1 859 meters 1 520 meters 5 738 feet 3 608 fee 2 271 feet Detectors amp Modules 125 125 1 749 meters 1 100 meters 692 meters Detectors and modules 5 952 feet 4 793 fee 3 017 feet with 2 wire smokes 63 35 3 SIGA UM 1 814 meters 1 461 meters 920 meters Modules with 2 wire 2 558 feet 2 388 fee 1 503 feet smokes 9 POE baba 780 meters 728 meters 458 meters Data Sheet 85010 0129 Issue 4 Not to be used for installation purposes Page 3 of 4 Secu rity U S T 888 378 2329 F 866 503 3996 Canada T 519 376 2430 F 519 376 7258
6. 010 0129 Issue 4 Not to be used for installation purposes Page 2 of 4 for maintenance and trouble conditions Each smoke detector 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 evel the 3 SSDC1 3 SDDC1 will indicate a maintenance alert or dirty condition to the 3 CPU and indicate the specific device requir ing cleaning If cleaning is not performed the detector will continue to operate until all of its environmental compensation is utilized At this point the 3 SSDC1 3 SDDC1 sends a dirty trouble indication to the 3 CPU and posts a trouble condition If maintenance is still not performed the Signature detector will automatically remove itself from service once the programmed threshold window has been Specifications Signature Circuits breached preventing a false alarm Remote test capability permits devices to be put in alarm prealarm supervisory monitor or security alarm or trouble from the panel menu or controls This facilitates testing of smoke and heat detec tors as well as monitor and security devices 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 on board memory to facilitate future Synergy fun
7. Security Overview The 3 SSDC1 and 3 SDDC1 Signature Driver Controller modules pro vide an intelligent interface between the 3 CPU3 module and Signa ture Series devices Each module contains its own microprocessor used to coordinate process and interpret information received from and sent to Signature devices Power and communications 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 algo rithms processed within the Signature devices effectively end unwant ed alarms Environmental compensation and multiple sensing element decision making operations are resident in the devices Intelligent devices allow the S
8. ap 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 unparalleled 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 con trollers have the ability to locate ground faults by specific module speeding up the troubleshooting process Another significant advantage of the 3 SSDC1 3 SDDC1 controllers during commission ing is electronic addressing and mapping This eliminates duplicate addresses which are also very difficult for most systems to locate During maintenance should groups of detector heads be removed for service and returned into the wrong smoke detector base loca tion 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 Typical Wiring
9. ctions 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 SDDC1 MB Local Rail Module and reuse the 3 SDC Signature Device Cards and filters Charts assume wire and devices are evenly distributed over length of circuit Non twisted non shielded wire 14 AWG 20pf foot 16 AWG 20pf foot 18 AWG 20pf foot Device type of Detectors of Module Addresses 2 53 Ohm 1000ft 4 02 Ohm 1000ft 6 38 Ohm 1000ft nea aa 125 0 14 752 feet 9 275 feet 5 839 feet y 4 497 meters 2 827 meters 1 780 meters adul soni 0 125 12 599 feet 3 840 7 921 feet 2 414 4 986 feet y meters meters 1 520 meters 5 738 feet 3 608 feet 2 271 feet Detectors and Modules 125 125 1 749 meters 1 100 meters 692 meters Detectors and Modules 7 623 feet 4 793 feet 3 017 feet with 2 wire smokes 63 33 3 SIGA UM 2 324 meters 1 461 meters 920 meters odules 3 798 feet 2 388 feet 1 503 feet with 2 wire smokes 0 107 3 SIGA UM 1 158 meters 728 meters 458 meters Twisted pair non shielded wire 14 AWG 1 5mm 16 AWG 1 0mm 18 AWG of Module 38pf foot 36pf foot 36pf foot 25pf foot 25pf foot Device Type PO EEEE Addresses 2 53 Ohm 3 75 Ohm 4 02 Ohm 5 51 Ohm 6 38 Ohm 1000ft 1000ft 1000ft 1000ft 1000ft Detectors oni 125 0 13 157 feet 9 933 fee 9 275 feet 6 760 fee 5 839 feet y 4 010
10. ignature Controllers to execute communication and system functions with greater speed and low baud rates increasing the accuracy of information transmitted between the loop controller and devices Signature Driver Controller Modules IDUL dd a S0UE1 3 Sso0GIsMB 3 50G1 EST3 Multiplexed Fire Alarm System Standard Features e One or two circuit versions e Dedicated microprocessor control e Full digital communication e Specialized communication protocol Less sensitive to cable characteristics Utilize existing wiring in most applications e Loop alarm in under 750 milliseconds e Device location supervision Unexpected additional device addresses Missing device addresses Switched device locations Programmed device parameters e Automatic nonvolatile as built mapping Stores actual and expected device data Stores physical connection sequence including T taps e Automatic day night sensitivity e Supports up to 250 intelligent Signature detectors and 250 Intelligent Signature Modules e Up to five 3 SDDC1s per node Total of 10 Signature circuits e Removable field wiring terminal blocks e Multiple survival modes stand alone e Fully backward compatible with 3 SSDC and 3 SDDC CE EN54 2 1997 A1 and EN54 4 1997 A1 2002 A2 pending Data Sheet 85010 0129 Issue 4 Not to be used for installation purposes Page 1 of 4 Application Up to 125 detectors and 125 modules are supp
11. le 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 the 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 The red LED on the detector turns on only in the alarm condition The 3 SSDC1 3 SDDC1 also supervises the device wiring physical location of each device and the programmed device character istics This GE Security 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 control ler 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 correla tions are different the loop controller issues a trouble to the CPU identifying the devices which do not match and posting a m
12. orted 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 formats 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 DIRECT ADDRESS SEARCH ensures that only new information is transmit ted 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 sup ports a standalone mode for Signature devices Two catastrophic failure modes are supported If the 3 CPU 1 3 fails the loop control ler 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 module 3 SSDC1 3 SDDC11 fails and a device smoke or modu
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