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A12-0058 CUT SHEETS
Data Sheet 1500 702 Series™ Intelligent Fire Controls AB-702 AB-702-SLC AB-702-ANN Product Data Sheet Number Rev/Revision Date AsBuilt 702 Series™ 1500 1.3/ 3/3/11 © Copyright 2008 AsBuilt Engineered Systems, Inc. Description The AsBuilt 702 Series™ control panel is suitable for all small to medium sized fire detection systems. With its large graphical display and ergonomic button and indicator layout, the AsBuilt 702 Series control panel is simple and straightforward to understand for installers, commissioning engineers and end users alike. The standard platform consists of one Signaling Line Circuit (SLC), Two Notification Appliance Circuits (NACs), a large backlit LCD display, a 5.25 amp power supply, and in integrated dual line internal DACT (SIA and Contact ID). The AsBuilt 702 Series™ control panel utilizes the XP95 and the Discovery protocol on its SLC circuit(s). The panel is expandable to two detection loops capable of hosting up to 252 Apollo devices. The panel is programmable via the keypad or via a PC connected to the RS-232 port. The Loop Explorer application is a configuration utility that provides programming for DACT communication, SLC devices, NAC appliances, smoke detectors and addressable devices. Programming remotely or on-site and then downloaded to the AsBuilt 702 Series Panel through the serial port of your laptop or through a telephone connection to the dialer. eView Remote Annunciator eView Remote Annunciator connects to AsBuilt 702 Series Fire Alarm Control Panel via RS-485 Connection. (p/n AB-702-ANN) Features One full SLC circuit expandable to two 3 programmable relays 5.25A power supply Large graphic display Real time clock Compatible with eMATRIX graphic annunciator Compatible with eVIEW Annunciator Programmable through a PC connection to the panel Stores 1000 events in history log Dual-Line internal DACT (SIA and Contact ID) Compact, stylish enclosure 2 Programmable NAC circuits with internal synchronization support. Style 6, 7 (Class A) or Style 4 (Class B) SLC Utilizes either XP or Discovery Detectors Listings UL File: Pending CSFM: Pending City of New York COA#: Pending Product Name Data Sheet Number Rev/Revision Date AsBuilt 702 Series™ 1500 1.3/ 3/3/11 As Built Engineered Systems, Inc. 1451 Concord Street Framingham, MA 01701-7782 USA Phone: (508) 788-8333 Fax: (508) 788-8334 Contact: info@asbuiltes.com Visit: www.asbuiltes.com © Copyright 2008 AsBuilt Engineered Systems, Inc. Ordering Information Part Number Data Sheet Description AB-702 1500 AsBuilt 702 Series Fire Alarm Control Panel, 1 SLC AB-702-SLC 1501 SLC Loop Expansion Module, 1 SLC Related Modules, Accessory Cards and Cabinets AB-702-ANN 1550 AsBuilt 702 Series Remote eView Annunciator AB-702-FM 1551 AsBuilt eView Annunciator Trim Ring AB-702-GA 1560 AsBuilt eMatrix Graphic Annunciator Technical Data Dimensions: 14.5”W x 18.9”H x 4.25” D Power supply DC rating: 24V 5.25 Amps Aux 24V supply: Fused at 500 milliamps Detection loop: 250 milliamp output NAC Synchronization: Internal Support NAC Protocols: System Sensor, Wheelock, Gentex, Amseco Connection Pins Fault contact rating: 30V DC 1 Amp Fire contact rating: 30V DC 1 Amp Alarm contact rating: 30V DC 1 Amp Access Ports Serial expansion port: Serial RS485 PC port: Serial RS232 Engineer Specification The control panel furnished and installed shall be expandable up to two analog loops supporting up to 252 addressable devices. The panel shall utilize a fully digital Signaling Line Circuit (SLC) protocol. The panel shall contain two onboard Notification Appliance Circuits (NACs) that support multiple synchronization protocols (System Sensor, Wheelock, Gentex, Amseco). The panel shall use a 160-character Liquid Crystal Display (LCD) and a 1,000-event history log. The panel shall be an AsBuilt Engineered Systems 702 Series. Data Sheet 2105 IP Fire Series™ Intelligent Discovery Smoke Detectors DISC-P, DISC-I, DISC-T, DISC-M Product Data Sheet Number Rev/Revision Date IPF Series™ Discovery Detectors 2105 1.3/ 5/1/2009 © Copyright 2008 AsBuilt Engineered Systems, Inc. Description The Discovery range of intelligent fire detectors from As Built Engineered Systems are advanced in design and have unique features that benefit the installer and end user. The range includes photoelectric (DISC-P) and ionization (DISC-I) smoke detectors, heat detectors (DISC-T) and a multisensor DISC-M). All have an unobtrusive profile, a zero insertion force base, user friendly addressing and extended data and alarm functions. Smoke and Heat Detector Features- Response Settings Each detector in the Discovery range can operate in one of five response modes, any of which can be selected from the control panel. Each mode corresponds to a unique response behavior, broadly related to sensitivity to fire. Whatever the type of detector, mode 1 will give a higher sensitivity to fire than mode 5. The selection of the most suitable mode depends on the application. For photoelectric and ionization smoke detectors, the modes relate to different combinations of smoke response threshold and response time. For the heat detector, the mode relates to the fixed temperature setting and the sensitivity to rate of rise temperature. For the multisensor, the mode relates to the level of smoke and heat sensitivity and to the way in which the responses of the two sensors are combined. The response characteristics of the detectors have been carefully set so that detectors will comply with the requirements of UL 864/9th edition in all response modes. The internal signal processing of the detectors is designed so that the analog value reposted is always close to 25 for a normal condition. The alarm threshold is 55, irrespective of the response mode selected. Similarly, the alarm flag in the protocol is always set when the analog value reaches 55, irrespective of the mode. This performance relieves the fire control system from the additional burden of handling the additional signal processing that would be required to handle multiple response settings. Discovery detectors truly distribute processing power across the breadth of the installed system thus allowing the IP Fire Series network fire control system maximum control and minimum response time in the event of alarm activation. Features Sleek, non-fading white polycarbonate enclosure Zero insertion force base 5 user selectable modes on each Discovery device accessed from the IP Fire Series™ control system Self-compensating detectors distribute processing power across entire network of installed devices Powerful transient rejection algorithms Conventional device mode Patented XPert programming card eliminates addressing errors during system installation and maintenance Alarm flag sends signal to system even when device is not being interrogated Wide variety of complimenting addressable input/output devices for use in conjunction with detectors Wide variety of detector base options including relay and synchronized temporal sounder bases Line isolators and isolator bases also available Green/RoHS Compliant Listings UL File: S5022, S5053 MEA: 294-95-E-4 CSFM Listed Product Name Data Sheet Number Rev/Revision Date IPF Series™ Discovery Detectors 2105 1.3/ 5/1/2009 As Built Engineered Systems, Inc. 1451 Concord Street Framingham, MA 01701-7782 USA Phone: (508) 788-8333 Fax: (508) 788-8334 Contact: info@asbuiltes.com Visit: www.asbuiltes.com © Copyright 2008 AsBuilt Engineered Systems, Inc. Smoke and Heat Detector Features- Conventional Alarm Facility In the event of any type of processor failure, the internal operation of a Discovery device will be unaffected as long as the DC supply is maintained. If the polling method is interrupted and the Discovery device does not receive a signal the device will automatically switch to its conventional alarm mode. In this mode it will operate as if it were a conventional detector and will impose an alarm signal on the loop if an alarm condition is detected by the internal processing. Smoke and Heat Detector Features- Flashing LED Discovery detectors have t6wo integral LED’s for 360 degree visibility. Discovery LED’s both illuminate in an alarm condition and the IP system will automatically flash the LED’s each time the device is polled. The Discovery detector does not draw any additional power while flashing LED’s as the LED current is part of the normal current pulse reply from the device. The flashing LED feature can be turned off from the IPF Series™ control. Smoke and Heat Detector Features- Remote Test Feature This feature is available in all Discovery device types and can be accessed from the IP Fire Series™ network programming menu. The IPF analog loop module (ALM)changes the state of a communication command bit which forces the device by electrical means into an alarm state showing that the detector is functioning properly. Smoke and Heat Detector Features- Rejection of Transient Signals All Discovery detector algorithms are designed to give low sensitivity to very rapid changes in the sensor output to prevent false alarms during transient events. This is achieved by digital low-pass filtering of the sensor values which optimizes the rejection of false alarm sources while maintaining the response to fire. The filtering depends on the mode selected and in some modes the filtering is minimal. The advanced filtering method has no significant effect on the response to fires but does affect the way in which detectors respond to transients and to step changes of smoke or heat. Smoke and Heat Detector Features- Drift Compensation All Discovery smoke detectors include compensation for sensor drift as part of the internal signal-processing algorithm. The algorithm will compensate for changes in sensor output due to the infiltration of dirt or dust over time and will hold the sensitivity at a constant even with severe chamber contamination. Discovery detectors are not drift compensated by the panel as are XP detectors. However, Discovery detectors and XP detectors may be combined on the same analog circuit dependant the on detection needs for a given area. The type of detector is distinguished by the IPF fire control network and the Discovery detectors will not be drift compensated by the control while the compensation for individual XP devices will be managed by the ALM. IP Fire Series™ Distributed Control Equipment and Support are available from AsBuilt™ Engineered Systems, Inc. through the Authorized AsBuilt™ Distributor Below: If blank, please contact the factory to locate the Distributor in your area Data Sheet 2106 IP Fire Series™ Discovery Photoelectric Detector DISC-P Product Data Sheet Number Rev/Revision Date IPF Series™ Detectors DISC-P 2106 1.4/ 10/1/2009 © Copyright 2008 AsBuilt Engineered Systems, Inc. Description The AsBuilt intelligent analog addressable photoelectric detector (DISC-P) operates seamlessly with the AsBuilt IP Fire Series™ network fire control. The DISC-P communicates to and is managed and controlled by the IPF Series™ analog loop module (ALM). The Disc-P is physically distinguished from the Discovery ionization detector (DISC-I) by the clear colored dual LED’s. The LED’s light steady when in an alarm condition and flash briefly when polled by the ALM. The dual LED’s provide for 360 degree visibility. Operation The DISC-P constantly monitors its sensing chamber and its internal electronics utilizing a patented smoke chamber and infrared smoke sensing design. An infrared light emitting diode with its collimator is arranged at an obtuse angle to the photo-diode. The photo-diode has an integral daylight blocking filter. The IR LED emits a burst of collimated light every second. In clear air the photo-diode receives no light directly from the IR LED because of the angular arrangement and the chamber baffles. When smoke enters the chamber it scatters light from the emitter IR LED onto the photo-diode in an amount related to the smoke characteristics and density. The photo-diode signal is processed to provide an analog value for transmission when the detector is interrogated by the ALM. Upon crossing the alarm threshold the detector will make the determination that an alarm condition exists and send a signal to the ALM that interrupts the normal polling process to signal the alarm condition. The ALM puts the changed state on the IP network and all outputs associated with the specific detector are activated. The DISC-P manages its own automatic drift compensation thereby accelerating overall system performance by offloading the management of the device compensation values from the ALM to the DISC-P. Compensation is made to adjust the detector for the infiltration and accumulation of dirt and dust over time. By compensating the detector alarm thresholds the sensing window is adjusted to remain at original factory specifications. Like all Discovery devices, the DISC-P has five pre-programmed user settings that may be accessed and changed from the IPF Series network control. Further, the pre-programmed settings are utilized in establishing the automatic sensitivity values in place with the IPF Day/Night sensitivity programming. Features Improved detection capabilities with smoldering, smoky fires Discovery detectors distribute intelligence across the installed system Patented infrared smoke sensing design Sleek, non-fading white polycarbonate enclosure Zero insertion force base 5 user selectable modes Powerful transient rejection algorithms Conventional device mode Patented XPert programming card eliminates addressing errors during system installation and maintenance Alarm flag sends signal to system even when device is not being interrogated Wide variety of addressable input/output devices Relay and synchronized temporal sounder bases Green/RoHS Compliant Listings UL File: S5022 CSFM: 7272-1394:118 MEA: 294-95-E-4 Product Name Data Sheet Number Rev/Revision Date IPF Series™ Detectors DISC-P 2106 1.4/ 10/1/2009 As Built Engineered Systems, Inc. 1451 Concord Street Framingham, MA 01701-7782 USA Phone: (508) 788-8333 Fax: (508) 788-8334 Contact: info@asbuiltes.com Visit: www.asbuiltes.com © Copyright 2008 AsBuilt Engineered Systems, Inc. Ordering Information Part Number Data Sheet Description DISC-P 2106 Intelligent Analog Addressable Photo Detector (model 58000-650) DXP-6 2310 6” Low Profile Base w/Expert Card (model 45681-250) DXP-4 2310 4” Low Profile Base w/Expert Card (model 45681-210) DXP-RLY 2310 6” Low Profile 4-wire Relay Base (model MB-RLYT-AA) DXP-SND/T 2310 6” Low Profile 4-wire Sounder Base (model MB-SDRT-AA) DXP65 2310 Sync Module for Temporal Sounder Bases (model MB-SDRT-SM/G/R) DXI 2300 Line Isolator (55000-750) DXP-LIB 2300 Isolating Base for DXI only (45681-211) DXP-IB 2300 Line Isolating Base for Use with XP/DISC Detectors (45681-321) DXP-XPC Additional XPERT programming card DXP-XPC#A Order “A” for Addresses 1-42, “B” for 43-84, “C” for 85-126, # for Loop # DXP-126 126 Pre-Programmed XPERT cards DXP-REM Remote LED (24V) Related Data Sheets Discovery Detectors: DISC-I, 2107; DISC-T, 2108; DISC-M, 2109 XP Detectors: XP-P, 2101; XP-I, 2102; XP-T, 2103; XP-M, 2104 Addressable Devices: DXP-PIM/MPIM, DXP-PID/MPID, 2810; DXP-IOM, 2812; DXP-SDR, 2814, DXP- 2PID, 2816; DXP-OCR, 2818 Addressable Base Options: All Bases, 2310 Engineer Specification The contractor shall furnish and install, where indicated on the plans, intelligent photoelectric smoke detectors with one of the several addressable mounting base options available. The detector base will contain the patented XPERT programming card which will permit the free interchange of sensor heads without requiring additional programming of the detector head or attached base. The intelligent detector shall be self compensating, self reporting and contain dual integral LED’s which will flash intermittently when polled and shall latch when the unit goes into Alarm. The detector head shall have 5 programmable settings that can be accessed automatically or by manual setting from the fire control which will allow the detector sensitivity settings of the individual detector to be modified as required. The combination of the detector head and twist lock mounting base shall be UL listed and UL listed as compatible with the AsBuilt IP Fire Series network fire controls. The detector base shall be installed without regard to wire polarity. The photoelectric detector shall be the AsBuilt model DISC-P. Technical Data Operating Voltage: 17-28VDC Standby Current: 400uA avg. / 650uA peak Alarm LED Current: 3.4mA Remote Alarm Output: 5mA max Temperature range: 32ºF to 140ºF(0ºC-60ºC) Relative Humidity (non-condensing):0%-95% Clean-air Analog Value: 23 +4/-0 Alarm Level Analog Value: 55 Wire Supply: Two-wire supply, polarity insensitive Recommended Spacing: Meets the 30 ft. (9.1m) spacing guidelines in NFPA 72 Chapter 2, however, this spacing is based on ideal conditions and should be used as a layout guide only. Five Pre-Programmed User Sensitivity Settings Mode 1 1.7%/ft. Obscuration 5 Seconds to Alarm Mode 2 1.7%/ft. Obscuration 30 Seconds to Alarm Mode 3 2.3%/ft. Obscuration 5 Seconds to Alarm Mode 4 2.3%/ft. Obscuration 30 Seconds to Alarm Mode 5 2.9%/ft. Obscuration 5 Seconds to Alarm Data Sheet 2108 IP Fire Series™ Discovery Thermal Detector DISC-T Product Data Sheet Number Rev/Revision Date IPF Series™ Detectors DISC-T 2108 1.4/ 10/1/2009 © Copyright 2008 AsBuilt Engineered Systems, Inc. Description The AsBuilt intelligent analog addressable thermal detector (DISC-T) operates seamlessly with the AsBuilt IP Fire Series™ network fire control. The DISC-T communicates to and is managed and controlled by the IPF Series™ analog loop module (ALM). DISC-T heat detectors have a common profile with the photoelectric and ionization smoke detectors but have a low air flow resistance case made of self extinguishing white polycarbonate. The DISC-T has two red colored LED’s that light steady when in an alarm condition and flash briefly when polled by the ALM. The dual LED’s provide for 360 degree visibility. Operation The DISC-T heat detector uses a single thermistor to sense the air temperature at the detector position. The thermistor is connected in a resistor network, which produces a voltage output dependant on temperature. The design of the resistor network, together with the processing algorithm in the microcontroller, gives an approximate linear temperature characteristic. This signal is further processed, depending on the response mode selected, and converted to an analog output for transmission to the ALM. Upon crossing the alarm threshold the detector will make the determination that an alarm condition exists and send a signal to the ALM that interrupts the normal polling process to signal the alarm condition. The ALM puts the changed state on the IP network and all outputs associated with the specific detector are activated. Like all Discovery devices, the DISC-T has five pre-programmed user settings that may be accessed and changed from the IPF Series network control. Further, the pre-programmed settings are utilized in establishing the automatic temperature response values in place with the IPF Day/Night sensitivity programming. With DISC-T heat detectors, the five user modes correspond to different combinations of fixed temperature settings with or without rate-of- rise (ROR) features. Settings are classified as static (S) if it incorporates fixed temperature settings only. With this setting, the detector will not respond below its minimum static response temperature even when exposed to high rates of rise of air temperature. This type of setting is therefore suitable for areas such as kitchens or boiler rooms where large, rapid temperature changes areconsiderednormal Features Discovery detectors distribute intelligence across the installed system Sleek, non-fading white polycarbonate enclosure Zero insertion force base 5 user selectable modes combine static response with rate-of-rise features Powerful transient rejection algorithms Conventional device mode Patented XPert programming card eliminates addressing errors during system installation and maintenance Alarm flag sends signal to system even when device is not being interrogated Wide variety of addressable input/output devices Relay and synchronized temporal sounder bases Green/RoHS Compliant Listings UL File: S5022 CSFM: 7270-1394:119 MEA: 294-95-E-4 Product Name Data Sheet Number Rev/Revision Date IPF Series™ Detectors DISC-T 2108 1.4/ 10/1/2009 As Built Engineered Systems, Inc. 1451 Concord Street Framingham, MA 01701-7782 USA Phone: (508) 788-8333 Fax: (508) 788-8334 Contact: info@asbuiltes.com Visit: www.asbuiltes.com © Copyright 2008 AsBuilt Engineered Systems, Inc. Ordering Information Part Number Data Sheet Description DISC-T 2108 Intelligent Analog Addressable Thermal Detector (model 58000-450) DXP-6 2310 6” Low Profile Base w/Expert Card (model 45681-250) DXP-4 2310 4” Low Profile Base w/Expert Card (model 45681-210) DXP-RLY 2310 6” Low Profile 4-wire Relay Base (model MB-RLYT-AA) DXP-SND/T 2310 6” Low Profile 4-wire Sounder Base (model MB-SDRT-AA) DXP65 2310 Sync Module for Temporal Sounder Bases (model MB-SDRT-SM/G/R) DXI 2300 Line Isolator (55000-750) DXP-LIB 2300 Isolating Base for DXI only (45681-211) DXP-IB 2300 Line Isolating Base for Use with XP/DISC Detectors (45681-321) DXP-XPC Additional XPERT programming card DXP-XPC#A Order “A” for Addresses 1-42, “B” for 43-84, “C” for 85-126, # for Loop # DXP-126 126 Pre-Programmed XPERT cards DXP-REM Remote LED (24V) Related Data Sheets Discovery Detectors: DISC-P, 2106; DISC-I, 2107; DISC-M, 2109 XP Detectors: XP-P, 2101; XP-I, 2102; XP-T, 2103; XP-M, 2104 Addressable Devices: DXP-PIM/MPIM, DXP-PID/MPID, 2810; DXP-IOM, 2812; DXP-SDR, 2814, DXP- 2PID, 2816; DXP-OCR, 2818 Addressable Base Options: All Bases, 2310 Engineer Specification The contractor shall furnish and install, where indicated on the plans, intelligent thermal heat detectors with one of the several addressable mounting base options available. The detector base will contain the patented XPERT programming card which will permit the free interchange of sensor heads without requiring additional programming of the detector head or attached base. The intelligent thermal heat detector shall be self reporting and contain dual integral LED’s which will flash intermittently when polled and shall latch when the unit goes into Alarm. The detector head shall have 5 programmable settings that can be accessed automatically or by manual setting from the fire control which will allow the detector several response modes of the individual heat detector to be modified as required. The combination of the detector head and twist lock mounting base shall be UL listed and UL listed as compatible with the AsBuilt IP Fire Series network fire controls. The detector base shall be installed without regard to wire polarity. The thermal heat detector shall be the AsBuilt model DISC-T. Technical Data Operating Voltage: 17-28VDC Standby Current: 500uA avg. / 750uA peak Alarm LED Current: 3.4mA Remote Alarm Output: 5mA max Temperature range: -4ºF to x (-20ºC-x) Relative Humidity (non-condensing):0%-95% Clean-air Analog Value: 23 +4/-0 Alarm Level Analog Value: 55 Wire Supply: Two-wire supply, polarity insensitive x – see response settings Five Pre-Programmed Response Settings Mode 1 (135ºF) 25/50C (ROR) Mode 2 (150ºF) 25/50C (ROR) Mode 3 (150ºF) 25/50C (Static) Mode 4 (200ºF) 55/80C (ROR) Mode 5 (200ºF) 55/80C (Static) Data Sheet 2310 IP Fire Series™ Base Options for Intelligent Detectors DXP-4, DXP-6 DXP-SND, DXP-RLY Product Data Sheet Number Rev/Revision Date IPF Series™ Bases/Intelligent Detectors 2310 1.4/ 10/1/2009 © Copyright 2008 AsBuilt Engineered Systems, Inc. Description A single set of IP Fire Series™ addressable bases work with both the XP and Discovery lines of intelligent detectors. Standard 4” (DXP-EZ4) and 6” (DXP- EZ6) bases are flat and unobtrusive. 4” and 6” four- wire relay bases and a 6” four- wire sounder base are also available. All AsBuilt bases for intelligent detectors utilize the patented XPERT™ programming card. The card mechanically stores the device address in the base to ensure that the device address (and the custom programming in the IPF™ Series fire control associated with that address) cannot be moved or changed - regardless of how many time the detector head is replaced or maintained. Addressing the analog detector is easily accomplished by knocking out a series of pips located on the XPERT™ programming card. The card is then inserted into the base. The pips now serve to configure mating switches that are located on the bottom of the detector. When the detector head is snapped into the base, the pips depress the switches on the detector and the address is set. Take the detector out of the base and the XPERT card remains fixed in the base ensuring that any detector placed on that base will be set with the same address. Since the IPF Series™ fire control maintains all data related to the address location (such as device type, custom text and control-by-event programming) putting like-detectors in the wrong location will have no impact on system performance. If the wrong device type is inserted in an address that previously had a different device type, the IPF system will put a trouble on the system until the address is either restored to the original device type, or, until the maintenance personnel change the system to accept the newly installed device. Four wire relay and sounder bases are available to add flexibility to the system in meeting all local requirements. Relay and sounder bases require separate 24V power supplies in accordance with NFPA. When a relay (DXP-RLY) base’s associated detector goes into an alarm state, the relay will transfer and remain energized until the detector is successfully reset to the normal state. The sounder base (DXP-SND/T) offers selectable steady or temporal pattern outputs and selectable high or low volume levels. The three-pulse temporal pattern is required by NFPA 72 for fire alarm evacuation for commercial and residential applications. A series of synchronization modules (DXP65-xx) are available to synchronize an entire line or selective groups of sounder bases. See DS 2300. Features 4” or 6” standard low-profile bases 4” and 6” relay bases Steady or Three-pulse temporal sounder bases with high/low settings Sync modules for sounder bases allow for multiple configurations Zero insertion force Address locked into base Sleek, non-fading white polycarbonate Sounder bases completely backwards compatible with previous generations Relay bases completely backwards compatible with previous generations DXP-IB isolating base accepts any XP or DISC detectors without the need for separate line isolators – see DS 2300 Listings 4” and 6” Bases: UL File: S5022, S5053 CSFM: 7300-1394:114 MEA: 294-95-E-4 Sounder Bases: UL File: S2829 CSFM: 7300-1004:117 MEA: 73-93-E vol.38 Product Name Data Sheet Number Rev/Revision Date IPF Series™ Bases/Intelligent Detectors 2310 1.4/ 10/1/2009 As Built Engineered Systems, Inc. 1451 Concord Street Framingham, MA 01701-7782 USA Phone: (508) 788-8333 Fax: (508) 788-8334 Contact: info@asbuiltes.com Visit: www.asbuiltes.com © Copyright 2008 AsBuilt Engineered Systems, Inc. Ordering Information Part Number Data Sheet Description DXP-4 2310 4” Analog Addressable Base (45681-210) DXP-6 2310 6” Analog Addressable Base (45681-250) DXP-RLY4 2310 4” Analog Addressable Relay Base (45681-242) DXP-RLY 2310 4” Analog Addressable Relay Base (MB-RLYT-AA) DXP-SND/T 2310 6” Analog Addressable Temporal Sounder Base (MB-SDRT-AA) DXP65 2310 Sync Module – Temporal Sounder Bases (MB-SDRT-SM/G/R)) Related Modules DXP-IB 2300 Isolating Base/Accepts any XP/Discovery Detector (45681-321) DXI 2300 Line Isolator (55000-750) DXP-LIB 2300 Base for DXI only (45681-211) XP Detectors 2100-2104 XP Range of Detectors DISC Detectors 2105-2109 Discovery Range of Detectors Related Data Sheets Discovery Detectors: DISC-P, 2106; DISC-I, 2107; DISC-T, 2108; DISC-M, 2109 XP Detectors: XP-P, 2101; XP-I, 2102; XP-T, 2103; XP-M, 2104 Addressable Loop Devices: 2810-2818 Engineer Specification The contractor shall furnish and install, where indicated on the plans, either ionization, photoelectric, multisensor or thermal sensor addressable detectors with one of the several addressable mounting base options available. Mounting base options shall have the address mechanically located in the base to allow the free interchange of detectors. The combination detector head and base must be UL listed and UL listed as compatible with the AsBuilt IP Fire Series network fire controls. The detectors, bases and sync modules shall be As Built Engineered Systems part numbers XP-P, XP-I, XP-T, XP-M, DISC-P, DISC-I, DISC-T, DISC-M, DXP-4, DXP-6, DXP-SND/T, DXP-RLY, DXP- IB, DXI, DXP65. Technical Data DXP-EZ4 and DXP-EZ6: Alarm Current: none Standby current: none Relay: none Sounder: none Addressing facility: yes Captive terminals: yes DXP-SND/T: Quiescent Current: .03 mA Alarm Current: External Supply: 29 mA Detector Head: 8 mA High Volume Selection: 85db @ 10 feet Low Volume Selection: 75 db @ 10 feet Data Sheet 2810 IP Fire Series™ Addressable Switch Monitors DXP-PIM,DXP-MPIM DXP-PID,DXP-MPID Product Data Sheet Number Rev/Revision Date IPF Series™ Switch Monitor 2810 1.3/ 5/1/2009 © Copyright 2008 AsBuilt Engineered Systems, Inc. Description The IP Fire Series™ control system provides for Analog Loop Modules (ALM’s) that may be installed throughout a protected facility in any number up to the IPF system maximum of 50 modules. IPF Series™ ALM modules offer analog addressable signaling line (SLC) circuits that may each have up to 126 detectors or 126 addressable control devices in any combination. AsBuilt switch monitors DXP-PIM, DXP-MPIM, DXP-PID and DXP-MPID are addressable devices that are a means of connecting and identifying conventional monitor points at the main IPF Series™ system. Switch monitors connect to the SLC, are programmed via an 8 pin DIL switch (1-7 for addressing, 8 for Class A/B), are polarity insensitive and are used to monitor a single Class A or B (Style D or B) circuit. The switch monitors are designed to monitor the state of one or more single- pole, volt-free contacts connected on a single pair of cables. In standby mode, the DXP-PID, -MPID, -PIM, -MPIM all monitor their internal circuitry for status of the device itself and supervises the switch circuit for faults. In the event a fault is detected, the modules will report a trouble to the IPF Series™ fire control. AsBuilt switch monitors are available in two varieties (standard or priority- interrupt) under two different constructions (plate mounted for 4” boxes/mini- module with flying leads for use in a single gang box). DXP-PIM and DXP-MPIM The Point Identification Module (DXP-PIM) and the Mini Point Identification Module (DXP-MPIM) do not incorporate the priority interrupt feature. These devices produce output states of normal, off-normal, pre-alarm and alarm. DXP-PID and DXP-MPID The Priority Input Device (DXP-PID) and the Mini Priority Input Device (DXP- MPID) incorporate the priority interrupt feature. These devices are used where a fast response is required (as with pull stations). Priority input devices produce output states of normal, off-normal and alarm. These devices do not produce pre-alarm output states. DXP-PIM and DXP-PID are designed to fit a standard 4” box. NEMA OS 1- 1989 or equivalent. DXP-MPIM and DXP-MPID are contained in a simple two-piece plastic box suitable to fit into a single-gang junction box. These devices each have 6 flying leads (18 AWG wire). These devices all use end of line monitoring resistance of 47k’Ω. Features Plate mounted versions available for surface/flush mounting in 4” square boxes Field programmable Fully supervised Mini-Version with flying leads for compact field installation LED for polling/alarm annunciation Monitors dry contact devices Priority Interrupt available Class A or B DIL switch addressing SmokeClear™ alert signals when initiating device (pull station) has returned to normal position Green/RoHS Compliant Listings UL File: S7003 CSFM: 7300-1394:108 MEA: 294-95-E-4 Product Name Data Sheet Number Rev/Revision Date IPF Series™ Switch Monitor 2810 1.3/ 5/1/2009 As Built Engineered Systems, Inc. 1451 Concord Street Framingham, MA 01701-7782 USA Phone: (508) 788-8333 Fax: (508) 788-8334 Contact: info@asbuiltes.com Visit: www.asbuiltes.com © Copyright 2008 AsBuilt Engineered Systems, Inc. Ordering Information Part Number Data Sheet Description DXP-PIM 2810 Point Identification Module (55000-805) DXP-MPIM 2810 Mini Point Identification Module (55000-831) DXP-PID 2810 Priority Input Device (55000-806) DXP-MPID 2810 Mini Priority Input Device (55000-830) Related Modules DXP-IOM 2812 Input / Output Monitor (55000-820) DXP-SDR 2814 Sounder (55000-825) DXP-2PID 2816 Dual Priority Input Device (55000-790) DXP-OCM 2818 Output Control Module (55000-863) Related Data Sheets Discovery Detectors: DISC-P, 2106; DISC-I, 2107; DISC-T, 2108; DISC-M, 2109 XP Detectors: XP-P, 2101; XP-I, 2102; XP-T, 2103; XP-M, 2104 Addressable Base Options: All Bases, 2310 Engineer Specification The contractor shall furnish and install, where indicated on the plans, addressable interface devices for the monitoring and supervision of contact type devices connected to the Fire Alarm control. The devices shall monitor a normally open dry contact. The addressable interface devices shall communicate to the main fire control via the analog addressable circuit. The addressable interface device must be UL listed and UL listed as compatible with the AsBuilt IP Fire Series network fire controls. The addressable interface device shall be As Built Engineered Systems part numbers DXP-PIM, DXP-MPIM, DXP-ID and DXP-MPID. Technical Data All Devices: Current Consumption: 600 µA typically LED on: 4 mA Operating Temp: -4°F to 158°F Humidity: 0% to 95% (no condensation or icing) Shock: To UL 864 Vibration: To UL 864 DXP-PIM and DXP-PID: Dimensions: 4 ½”W x 4 ½”H x 1 ¾”D Weight: 3 oz LED visible through fascia plate label DXP-MPID and DXP-MPIM: Dimensions: 3”W x 1 3/4”H x ¾”D Weight: 1.5 oz LED visible on external body Data Sheet 5000 IP Fire Series™ Addressable and Conventional Pull Stations Product Data Sheet Number Rev/Revision Date IPF Series™ Pull Stations 5000 1.0/ 7/1/2009 © Copyright 2008 AsBuilt Engineered Systems, Inc. Description The AB-42SK Series are single contact, key-reset, manual pull stations designed to meet the requirements for many applications. They are constructed from a rugged, but lightweight, die-cast metal alloy for increased performance and longevity. This series of stations is available in single action (PULL lever) or dual action (PUSH bar and PULL lever) models. The stations are provided with one normally open contact connected to a terminal strip that can accommodate wiring from #22 to #12 AWG. Contacts are gold plated to minimize risk of corrosion. All models have been tested by UL and found in compliance with the pull force requirements of the Americans with Disabilities Act (ADA). The AB-42SK Series stations are key resettable. Operation The stations are operated by pulling the handle marked “PULL” on the front of the unit as far down as it will go. At that point, the handle will lock in place and is easily visible from up to 50 feet. The activation handle is reset by opening the station with the key, placing the “PULL” handle to its normal upright position (resetting the toggle switch when applicable) and relocking the station. On the dual action, the “PUSH” or optional “EMERGENCY” bar moves inward allowing the “PULL” handle to be operated by a single hand. Mounting Configurations Semi-Flush--All models mount on a standard single-gang back- box. Surface Mount Interior--Use pat number SGB-32S or the deeper metal back-box (SGB-32SD). Surface Mount Exterior--Use part number SGB-32C (SG-WP) or the deeper die-cast, weatherproof back-box (SGB-32CD) Features • Single or Dual Action • Addressable or Conventional • Screw Terminal Connections • DC and AC Voltage Contact Ratings • Gold Plated Alarm Contacts • Surface or Weatherproof Back-box • Deeper Back-boxes available • Optional Station Colors, Labels & Contacts • Green/RoHS Compliant MEA NYC Approved Product Name Data Sheet Number Rev/Revision Date IPF Series™ Pull Stations 5000 1.0/ 7/1/2009 As Built Engineered Systems, Inc. 1451 Concord Street Framingham, MA 01701-7782 USA Phone: (508) 788-8333 Fax: (508) 788-8334 Contact: info@asbuiltes.com Visit: www.asbuiltes.com © Copyright 2008 AsBuilt Engineered Systems, Inc. Ordering Information Part Number Data Sheet Description AB-42SK2 5000 Single Action Pull Station, Key Reset, Red AB-42SK1 5000 Double Action Pull Station, Key Reset, Red AB-42SK2-NY 5000 Single Action Pull Station, Key Reset, Red – New York City AB-42SK1-NY 5000 Double Action Pull Station, Key Reset, Red - New York City Related Modules SGB-32S Interior, red, surface mount, sheet metal backbox with 3/4” knockouts SGB-32SD Deep-Interior, red, surface mount, sheet metal backbox with 3/4” knockouts SG-WP Weatherproof, red, surface mount, die-cast metal backbox with one tapped hole for 3/4” NPT fitting (same as SGB-32C) SGB-32CD Deep Weatherproof, red, surface mount, die-cast metal backbox with one tapped hole for 3/4” NPT fitting SG-GR01 12 pack of scored, plastic (acrylic) break-rods for spares or replacement Related Data Sheets Discovery Detectors: DISC-P, 2106; DISC-I, 2107; DISC-T, 2108; DISC-M, 2109 XP Detectors: XP-P, 2101; XP-I, 2102; XP-T, 2103; XP-M, 2104 Addressable Base Options: All Bases, 2310 Addressable Devices: DXP-PIM/MPIM, DXP-PID/MPID, 2810; DXP-IOM, 2812; DXP-SDR, 2814, DXP-2PID, 2816; DXP-OCR, 2818 Engineer Specification The contractor shall furnish and install, where indicated on the plans, individually identifiable manual pull stations connected to the Fire Alarm control. The pull stations shall be monitored for device identification, alarm reporting and trouble supervision. The pull station shall be capable of reporting to the fire alarm control and storing in the history log activation, trouble and reset information. The single-action and double action stations shall consist of a die-cast metal alloy housing fitted with a pull out lever which, when operated, locks in position after activating an alarm initiating contact. The double-action station shall also contain an additional lever which requires depression in order to reach the pull out lever. Pull station shall utilize gold plated contacts to minimize the risk of corrosion. Pull Stations shall be key-resettable and shall be compliant with the Americans with Disabilities Act (ADA). The addressable interface device must be UL listed and UL listed as compatible with the AsBuilt IP Fire Series™ network fire controls. The manual stations shall be As Built Engineered Systems part numbers AB-42SK2 (single action), and AB-42SK1 (double action). Technical Data Listings: UL, ULc, FM, CSFM, MEA Temperature: -400 to 1500F, 90% relative humidity @ 1000F Switch Rating: SG-32 - Micro switch 1 Amp @ 30 VDC, 1Amp @ 125 VAC SG-42 - Toggle switch 2 Amps @ 125 VDC, 2 Amps @ 240 VAC Weight: 1.2 lbs Dimensions: 4 3/4”h x 3 1/4”w x 1.1”d Surface-Mount Backbox Dimensions: 4 3/4”h x 3 1/4”w x 2 1/4”d (outside); 2 1/8”d (inside) cast and sheet metal Deep Surface-Mount Backbox Dimensions: 4 3/4”h x 3 1/4”w x 2 3/4”d SS-500-000 1 I56-3111-003 CO1224T Carbon monoxide detector inSTaLLaTiOn and mainTenanCe inSTruCTiOnS 3825 Ohio Avenue, St. Charles, Illinois 60174 1-800-SENSOR2, FAX: 630-377-6583 www.systemsensor.com NOTICE: This manual shall be left with the owner/user of this equipment. This product is intended for use in ordinary indoor locations. generaL deSCripTiOn • Listed to standard 2075 • 4 wire, system monitored • Optional CO detector replacement plate for previously installed detectors • Local sounder • Low current draw • Alarm relay, Form C • Trouble relay, Form A • Dual LED’s • Test/Hush button • SEMS wiring terminals • Mount to single gang electrical box or surface mount to wall or ceiling • Optional drywall anchors included SpeCiFiCaTiOnS Electrical Specifications System Voltage Nominal: 12/24 VDC Min: 10 VDC Max: 33 VDC Avg. Standby Current: 20 mA Max Alarm Current: 40 mA (75 mA test) Alarm Contact Ratings: 30 VDC @ 0.5 A Trouble Contact Ratings: 30 VDC @ 0.5 A Audible Signal (temp 4 tone): 85 dBA min. in alarm (at 10ft) Max. Start-up Capacitance: 20 uF Physical Specifications Operating Temperature Range: 0° to 40°C (32° to 104°F) Operating Humidity Range: 22 – 90% %RH Length: 5.1˝ Width: 3.3˝ Height: 1.3˝ Weight: 7 oz Wire Gauge Acceptance: 14-22 AWG TabLe 1. deTeCTOr OperaTiOn mOdeS: OperaTiOn mOde green Led red Led SOunder Normal (standby) Blink 1 per minute OFF OFF Alarm OFF Temp 4* pattern Temp 4* pattern Alarm Test OFF Temp 4 pattern Temp 4 pattern RealTest Mode Blink 1 per second OFF Temp 4 pattern (after CO is sprayed) End of Life OFF OFF OFF Alarm Test: Will send alarm signal to panel. Hush feature/Alarm Silence: If required, the audible alarm can be silenced for 5 minutes by pushing the button marked “Test/Hush”. The red alarm light will continue to flash in temp-4 pattern. If carbon monoxide is still present after the 5 minute hush period, the audible alarm will sound. The hush facility will not operate at levels above 350 ppm (parts per million) carbon monoxide. RealTest Alarm Silence: Alarm will automatically silence after about 20 sec- onds of alarm from spraying canned CO into the detector. Alarm Reset: Alarm automatically resets after CO has cleared from the sensor. Trouble feature: When the sensor supervision is in a trouble co ndition (such as a sensor that has been tampered with), the detector will send a trouble sig- nal to the panel. The detector must then be replaced. There is no local audible signal when detector is in trouble. End of Life Timer feature: When the detector has reached the end of its life, the trouble contact will open. This indicates that the CO sensor inside the de- tector has passed the end of its life and must be replaced. This detector’s lifes- pan is approximately six years from the date of manufacture. There is no local audible signal when detector is in trouble. Periodically check the “Replace by” sticker located under the detector cover. The detector must be replaced by this date. Refer to Detector Replacement on page 3. Per UL 2075, it is mandatory that a trouble signal be sent to the panel upon CO cell trouble or cell end of life. Refer to Figure 4 for wiring of the trouble relay. LIVINGROOM BEDROOM BEDROOM BEDROOM KITCHEN TO BR CLOSEDDOOR BASEMENT GARAGE CARBON MONOXIDE ALARM LOCATION FOR MULTI-LEVEL RESIDENCE – S0295-00 I5 6 - 3 1 1 1 - 0 0 3 Figure 1. aLarm LOCaTiOn diagram: MOUNT DETECTOR TO CENTER OF PLATE SS-500-000 2 I56-3111-003 inSTaLLaTiOn guideLineS Wall: Detector should be at least as high as a light switch, and at least six inches from the ceiling. Ceiling: Detector should be at least 12 inches from any wall. • Do not install in any environment that does not comply with the detec- tor’s environmental specifications • Install in accordance with NFPA 720–the Standard for the Installation of Carbon Monoxide (CO) Detection and Warning Equipment • As of 2009, NFPA 720 will define standards for both commercial and residential installations of CO detectors. If the installation can be inter- preted as a commercial application, consult the section of NFPA 720 that outlines commercial applications. • For example, Chapter 5.5.5.3.1 states that carbon monoxide detectors shall be installed in accordance with manufacturers published instruc- tions in the following locations: (1) On the ceiling in the same room as permanently installed fuel burning appliances (2) Centrally located on every habitable level and in every HVAC zone of the building • If the installation can be interpreted as residential, consult the section of NFPA 720 that outlines residential applications. • For example, chapter 9.4.1.1 states that carbon monoxide alarms or detectors shall be installed as follows: (1) Outside each separate dwelling unit sleeping area in the immedi- ate vicinity of the bedrooms (2) On every level of a dwelling unit, including basements (3) Other locations where required by applicable laws, codes or standards mOunTing The CO1224T can be wall- or ceiling-mounted: 1. To a single gang box. 2. Direct mount to wall or to ceiling using drywall fasteners. 3. Mounted with optional replacement plate model CO-PLATE*. Wiring inSTaLLaTiOn guideLineS All wiring must be installed in compliance with the NFPA 70, National Electrical Code, applicable state and local codes, and any special requirements of the local Authority Having Jurisdiction (AHJ). Proper wire gauges should be used. The conductors used to connect carbon monoxide detectors to the alarm control panel and accessory devices should be color-coded to reduce the likelihood of wiring errors. Improper connections can prevent a system from responding properly in the event of a CO. The screw terminals in the mounting base will accept 14-22 gauge wire. Wire connections are made by stripping approximately 1/4˝ of insulation from the end of the feed wire, inserting it into the proper base terminal, and tightening the screw to secure the wire in place. Do not put wires more than 2 gauge apart under the same clamping plate. WARNING: This product does not have a local audible trouble signal, and may fail without supervision if trouble loop remains unconnected. WARNING: Gas detectors on a zone that is bypassed may not signal a trouble condition. Do not bypass zones used for gas detectors. Wiring diagrams located on page 4, Figure 4. WARNING Remove power from alarm control unit or initiating device circuits before in- stalling detectors. 1. Using a small, flat head screw driver, push in the small tab located on the underside of the detector. Once the snap is loosened, lift the bottom end of the cover up and unhinge the top to remove the cover. 2. Wire the detector base screw terminals per Figure 4. 3. Screw the base of the detector onto a single gang electrical box, or to the surface of the wall or ceiling. Use the hardware included in the packaging. 4. If mounting with the System Sensor replacement plate model CO-PLATE*: * Hold replacement plate over desired mounting area. * Use hook feature to hold CO1224T onto the replacement plate. * Mount detector and plate together using hardware provided with the CO1224T. 5. Hinge the top portion of the cover onto the base; with the cover at a 45 degree angle, fit the hinges into the slots of the base. 6. Push the unhinged bottom portion of the cover down until it snaps into place. 7. After all detectors have been installed, apply power to the alarm control unit. 8. Test each detector as described in Testing. 9. Notify the proper authorities that the system is in operation. CAUTION Airborne dust particles can enter the detector. System Sensor recommends the installation of detectors before beginning construction or any other dust producing activity. Carbon monoxide detectors are not to be used with detec- tor guards unless the combination has been evaluated and found suitable for that purpose. TeSTing Detector must be tested after installation. NOTE: Before testing, notify the proper authorities to avoid any nuisance alarms. Ensure proper wiring and power is applied. After power up, allow 80 seconds for the detector to stabilize before testing. Test the CO1224T detector as follows: 1. A test button is located on the detector housing (See Figure 4). 2. Use the tip of your finger to press and hold the test button. 3. If the sounder beeps and the LED’s light up after 1-4 seconds, the detec- tor is operational. If a detector fails the above test method, its wiring should be checked. If the detector still fails after rewiring, it should be replaced. S0296-01 S0319-00 inSTaLLaTiOn Figure 2. mOunTing OF deTeCTOr: Figure 3. mOunTing OF CO1224T deTeCTOr TO CO-pLaTe* CO deTeCTOr repLaCemenT pLaTe *NOTE: The CO-PLATE has not been evaluated or approved by a NRTL. FunCTiOnaL gaS TeST NOTE: Check with local codes and the AHJ to determine whether or not a functional gas test is desired for an installation. A canned CO testing agent may be used to verify the detector’s ability to sense CO by utilizing the RealTest™ feature of the CO1224T as follows: 1. Press the test button as described in Testing above. Release the test but- ton after the sounder beeps and the LED’s light up. 2. The detector will enter the speed-up test mode, indicated by a quick flashing green LED. 3. Within 20 seconds, apply a UL approved CO agent within 1/4” of the detector’s gas entry ports (see Figure 4). The detector will quickly go into alarm if gas entry is successful. 4. The detector will automatically exit the speed-up test mode 20-60 sec- onds after entering speed-up test mode. Testing the detector will activate the alarm relay and send a signal to the panel. CAUTION: This carbon monoxide detector is designed for indoor use only. Do not expose to rain or moisture. Do not knock or drop the detector. Do not open or tamper with the detector as this could cause malfunction. The detector will not protect against the risk of carbon monoxide poisoning if not properly wired. The detector will only indicate the presence of carbon monoxide gas at the sensor. Carbon monoxide gas may be present in other areas. This carbon monoxide detector is NOT: • Designed to detect smoke, fire or any gas other than carbon monoxide • To be seen as a substitute for the proper servicing of fuel-burning appli- ances or the sweeping of chimneys. • To be used on an intermittent basis, or as a portable alarm for the spill- age of combustion products from fuel-burning appliances or chimneys. Carbon monoxide gas is a highly poisonous gas which is released when fuels are burnt. It is invisible, has no smell and is therefore impossible to detect with the human senses. Under normal conditions in a room where fuel burning appliances are well maintained and correctly ventilated, the amount of carbon monoxide released into the room by appliances should not be dangerous. Symptoms of carbon monoxide poisoning: Carbon monoxide bonds to the hemoglobin in the blood and reduces the amount of oxygen being circulated in the body. The following symptoms are examples taken from NFPA 720. They represent approximate values for healthy adults: Many causes of reported carbon monoxide poisoning indicate that while victims are aware that they are not well, they become so dis- oriented that they are unable to save themselves by either exiting the building or calling for assistance. Also young children and pets may be the first to be affected. Per UL standard 2075, the CO1224T has been tested to the sensitivity limits defined in UL standard 2034. Alarm thresholds are as follows: What to do if the carbon monoxide detector goes into alarm: Immediately move to a spot where fresh air is available, preferably outdoors. Find a phone in an area where the air is safe and call your security service provider. Tell your provider the detector alarm status, and that you require professional assistance in ridding your home of the carbon monoxide. IMPORTANT: This detector should be tested and maintained regularly follow- ing National Fire Protection Association (NFPA) 720 requirements. The CO Quick Response Test should be performed using the UL-certified “Solo C6” canned CO product from SDi, in compliance with NFPA 720 Standard for the Installation of Carbon Monoxide(CO) Detection and Warning Equipment. mainTenanCe Occasionally clean the outside casing with a cloth. Ensure that the holes on the front of the alarm are not blocked with dirt and dust. Do not paint, and do not use cleaning agents, bleach, or polish on the detector. deTeCTOr repLaCemenT This detector is manufactured with a long-life carbon monoxide sensor. Over time the sensor will lose sensitivity, and will need to be replaced with a new System Sensor carbon monoxide detector. This detector’s lifespan is approxi- mately six years from the date of manufacture. Periodically check the detector’s replacement date. Remove the detector cover and refer to the sticker placed on the inside of the detector. The sticker will indicate the date that the detector shall be replaced. This detector is also equipped with a feature that will open the trouble relay once it has reached the end of its useful life. If this occurs, it is time to replace the detector. NOTE: Before replacing the detector, notify the proper authorities that main- tenance is being performed and the system will be temporarily out of service. Disable the zone or system undergoing maintenance to prevent any unwanted alarms. Dispose of detector in accordance with any local regulations. SS-500-000 3 I56-3111-003 S0298-00 GAS ENTRY PORTS TEST/HUSH BUTTON Parts Per Million Detector response time, min. 30 ±3ppm No alarm within 30 days 70 ±5ppm 60-240 150 ±5ppm 10-50 400 ±10ppm 4-15 Concentration (ppm CO)Symptoms 200 Mild headache after 2-3 hours of exposure 400 Headache and nausea after 1-2 hours of exposure 800 headache, nausea, and dizziness after 45 minutes of exposure; collapse and unconsciousness after 2 hours of exposure Figure 4. TeST buTTOn LOCaTiOn and OperaTiOn: SS-500-000 4 I56-3111-003 ©2010 System Sensor System Sensor warrants its enclosed product to be free from defects in materi-als and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for the enclosed product. No agent, representative, dealer, or employee of the Company has the authority to increase or alter the obligations or limitations of this Warranty. The Company’s obligation of this Warranty shall be limited to the replacement of any part of the product which is found to be defective in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor’s toll free number 800-SENSOR2 (736-7672) for a Return Authorization number, send defective units postage prepaid to: System Sensor, Returns Department, RA #__________, 3825 Ohio Avenue, St. Charles, IL 60174. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to replace units which are found to be defective because of damage, unreasonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequential or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company’s negligence or fault. Some states do not allow the exclusion or limitation of incidental or consequential damages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. Three-Year LimiTed WarranTY FCC STaTemenT This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installa- tion. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: – Reorient or relocate the receiving antenna. – Increase the separation between the equipment and receiver. – Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. – Consult the dealer or an experienced radio/TV technician for help. Please refer to insert for the limitations of Carbon Monoxide Detectors S0313-00 Figure 5. Wiring diagram: S0300-01 POSITIVE NEGATIVE TROUBLE TROUBLE NORMALLY CLOSED NORMALLY OPEN COMMON }POWER }TROUBLERELAY ALARMRELAY Input powered (12 or 24 VDC) from UL Listed Fire/Burg Control Panel (Class 2). NON-RESETTABLE PWR CO ZONE UL LISTED PANEL + - ALARM INITIATIONCONTACTS EOL RESISTORSPECIFIED BY PANELMANUFACTURER C NO T T + - CLOSED WITH POWER APPLIED AND NO FAULT DETECTED SINGLE UNIT, SINGLE ZONE, 4 CONDUCTOR CABLE NON-RESETTABLE PWR CO ZONE UL LISTEDPANEL + - SUPERVISORY TROUBLE CONTACTS ALARMINITIATIONCONTACTS ALARMINITIATION CONTACTS FIRST CO1224 DETECTORIN LOOP LAST CO1224 DETECTOR IN LOOP EOL RESISTOR SPECIFIED BY PANELMANUFACTURER C NO C NO T T T T + -+ - CLOSED WITH POWER APPLIED AND NO FAULT DETECTED MULTIPLE UNIT, SINGLE ZONE, 6 CONDUCTOR CABLE S0314-00 CAUTION It should be noted the installation, operation, testing and maintenance of the CO1224T is different than System Sensor conventional 4-wire smoke detec- tors, such as the i3 Series. Below are specific installation requirements for the CO1224T: • Connect to a non-resettable power supply • Connect to a non-fire zone: Per NFPA 720 section 9.6.7.2 the CO1224T shall not be connected to a zone that signals a fire condition • Per NFPA 720 section 9.6.7, do not connect the CO1224T on a zone with other fire or intrusion initiating devices - i.e. do not connect on the same zone as smoke detectors • Wiring of the trouble relay is mandatory: Per UL Standard 2075 section 17.1.1 a detector shall send a trouble signal to the control panel upon an open circuit, a ground fault, sensor removal or sensor end of life • If wiring one CO1224T per zone: Use 4 conductors • If wiring multiple CO1224T detectors per zone: Use 4 conductors from panel to first CO1224T, then use 6 conductors from the second CO1224T to other detectors on the zone Data Sheet 2814 IP Fire Series™ Sounder Control Module DXP-SDR Product Data Sheet Number Rev/Revision Date IPF Series™ Sounder Control Module 2814 1.3/ 5/1/2009 © Copyright 2008 AsBuilt Engineered Systems, Inc. Description The IP Fire Series™ control system provides for Analog Loop Modules (ALM’s) that may be installed throughout a protected facility in any number up to the IPF system maximum of 50 modules. IPF Series™ ALM modules offer analog addressable signaling line (SLC) circuits that may each have up to 126 detectors or 126 addressable control devices in any combination. AsBuilt Sounder Control Modules (DXP-SDR) are addressable devices that provide a means to remotely locate a fully supervised circuit for the operation of signal appliance such as horns, strobes and horn/strobes. The DXP-SDR can also monitor and control PA speaker circuits from the main IPF Series™ system via the SLC. DXP-SDR Sounder Control Modules connect to the SLC, are programmed via an 8 pin DIL switch (1-7 for addressing, 8 for Class A/B) and are polarity insensitive. The DXP-SDR notification appliance circuits are rated for 2A. A separate external 24V power supply must be used. The external supply must be power limited per NFPA. In standby mode, the DXP-SDR monitors its internal circuitry for status of the device itself and supervises the NAC or speaker circuits for faults. In the event a fault is detected, the DXP-SDR will report a trouble to the IPF Series™ fire control. The DXP-SDR module incorporates a synchronization facility which allows the outputs of groups of modules to be synchronized by commands from the IP Fire Series™ control panel. Multiple DXP-SDR devices may be programmed to multiple Group Addresses through the Group Addressing switch (S2). When used as a PA speaker circuit a separate audio amplifier is required (35-70V). The audio amplifier must have wire supervision capability as per NFPA. Terminal Block Assignments Terminals are suitable for 14-26 AWG cables. TB1 L1 – Loop In/Out L2 – Loop In/Out L1 and L2 are non-polarized TB3 External Supply +ve and –ve Input and Output TB2 Class A or B NAC circuit These devices all use end of line monitoring resistance of 47k’Ω. Features Supervises and operates addressable notification appliance circuit Supervises DC power in Class A or B NAC circuit Group addressing for DXP- SDR/NAC synchronization LED annunciates activation Fully supervised PA Speaker Circuit (35-70V) Plate mounted versions available for surface/flush mounting in 4” square boxes LED for polling/alarm annunciation DIL switch addressing Green/RoHS Compliant Listings UL File: S7003 CSFM: 7300-1394:108 MEA: 294-95-E-4 Product Name Data Sheet Number Rev/Revision Date IPF Series™ Sounder Control Module 2814 1.3/ 5/1/2009 As Built Engineered Systems, Inc. 1451 Concord Street Framingham, MA 01701-7782 USA Phone: (508) 788-8333 Fax: (508) 788-8334 Contact: info@asbuiltes.com Visit: www.asbuiltes.com © Copyright 2008 AsBuilt Engineered Systems, Inc. Ordering Information Part Number Data Sheet Description DXP-SDR 2814 Sounder Control Module (55000-825) Related Modules DXP-IOM 2812 Input / Output Monitor (55000-820) DXP-2PID 2816 Dual Priority Input Device (55000-790) DXP-OCM 2818 Output Control Module (55000-863) DXP-PIM 2810 Point Identification Module (55000-805) DXP-MPIM 2810 Mini Point Identification Module (55000-831) DXP-PID 2810 Priority Input Device (55000-806) DXP-MPID 2810 Mini Priority Input Device (55000-830) Related Data Sheets Discovery Detectors: DISC-P, 2106; DISC-I, 2107; DISC-T, 2108; DISC-M, 2109 XP Detectors: XP-P, 2101; XP-I, 2102; XP-T, 2103; XP-M, 2104 Addressable Base Options: All Bases, 2310 Engineer Specification The contractor shall furnish and install, where indicated on the plans, addressable interface devices for the monitoring, supervision and control of addressable NAC circuits or PA speaker circuits connected to the Fire Alarm control. The devices shall monitor and activate/deactivate NAC appliances or Speakers. When used to monitor/control NAC appliance circuits the addressable device must be capable of synchronizing with other similar devices attached to the same SLC. The addressable interface devices shall communicate to the main fire control via the analog addressable circuit. The addressable interface device must be UL listed and UL listed as compatible with the AsBuilt IP Fire Series network fire controls. The addressable interface device shall be As Built Engineered Systems part numbers DXP-SDR. Technical Data Sounder Control Module: Dimensions: 4 ½”W x 4 ½”H x 1 ¾”D Weight: 3 oz LED visible through fascia plate label Current Consumption: Normal Operation/Sounder drive active): 1mA typically Relay Activated: 4mA typically pulsed for 150ms Power up surge: 6mA max for 150ms LED on: 4 mA Operating Temp: -4°F to 158°F Humidity: 0% to 95% (no condensation or icing) Shock: To UL 864 Vibration: To UL 864 Sounder: Relay output is 4PCO, UL de-rated contact 2A @ 30VDC, .6A @ 125VAC Opto-isolated input for external 24V power supply EOL monitoring resistance 47kΩ PA Speaker Supply: Opto-isolated input for 35V-70V Audio input. (To avoid fault conditions when using in PA mode, move jumper J1 to ‘PA’ mode to disable supply monitoring Synchronization: Switch S2 sets the ‘Group Address’ to synchronize multiple Sounder modules on the same SLC Description: Finally, Design and Safety Meet... Notification Ceiling Wall Wheelock® ExcederTM Series TM *** ***5 The Wheelock® ExcederTM Series of notification appliances feature a sleek modern design that will please building owners with reduced total cost of ownership. Installers will benefit from its comprehensive feature list, including the most candela options in one appliance, low current draw, no tools needed for setting changes, voltage test points, 12/24 VDC operation, universal mounting base and multiple mounting options for both new and retrofit construction. The Wheelock® ExcederTM Series incorporates high reliability and high efficiency optics to minimize current draw allowing for a greater number of appliances on the notification appliance circuit. All strobe models feature an industry first of 8 candela settings on a single appliance. Models with an audible feature 3 sound settings (90, 95, 99 dB). All switches to change settings, can be set without the use of a tool and are located behind the appliance to prevent tampering. Wall models feature voltage test points to take readings with a voltage meter for troubleshooting and AHJ inspection. The Wheelock® ExcederTM Series of wall and ceiling notification appliances feature a Universal Mounting Base (UMB) designed to simplify the installation and testing of horns, strobes, and combination horn strobes. The separate universal mounting base can be pre-wired to allow full testing of circuit wiring before the appliance is installed and the surface is finished. It comes complete with a Contact Cover for protection against dirt, dust, paint and damage to the contacts. The Contact Cover also acts as a shunting device to allow pre-wire testing for common wiring issues. The Contact Cover is polarized to prevent it from being installed incorrectly and prevents the appliance from being installed while it is on the UMB. When the Contact Cover is removed the circuit will show an open until the appliance is installed. The UMB allows for consistent installation and easy replacement of appliances if required. Wall models provide an optional locking screw for extra secure installation, while the ceiling models provide a captivated screw to prevent the screw from falling during installation. - Save up to 48% in current draw* - Up to 9 models now in 1 appliance - Save up to 14% cost of installation** Compatibility and Requirements - Synchronize using the Wheelock® Sync Modules or panels with built-in Wheelock® Patented Sync Protocol - Compatible with UL “Regulated Voltage” using filtered VDC or unfiltered VRMS input voltage - Strobes produce 1 flash per second over the “Regulated Voltage” range * Compared to competitive models ** Compared to previous models *** Patented * UL max current rating is the maximum RMS current within the listed voltage range (16-33 VDC for 24 VDC units). For strobes the UL max current is usually at the minimum listed voltage (16 VDC for 24 VDC units). For audibles the max current is usually at the maximum listed voltage (33 VDC for 24 VDC units). For unfiltered ratings, see installation instructions. Strobe Ratings per UL Standard 1971 UL Max Current* 24 VDC / 24 FWR 12 VDC Model Regulated Voltage Range VDC 15 15/75 30 60 75 95 110 115 135 150 177 185 15 15/75 ST 8.0-33.0 0.057 0.070 0.085 0.135 0.163 0.182 0.205 0.253 0.110 0.140 STC 8.0-33.0 0.061 0.085 0.103 0.135 0.163 0.182 0.205 0.253 0.110 Horn Strobe Ratings per UL 1971 & UL 464 at 24 VDC UL Max Current* at 99 dBA 24 VDC 12 VDC Model Regulated Voltage Range VDC 15 15/75 30 60 75 95 110 115 135 150 177 185 15 15/75 HS 8.0-33.0 0.082 0.095 0.102 0.148 0.176 0.197 0.242 0.282 0.125 0.159 HSC 8.0-33.0 0.082 0.102 0.141 0.148 0.176 0.197 0.242 0.282 0.125 UL Max Current* at 95 dBA 24 VDC 12 VDC Model Regulated Voltage Range VDC 15 15/75 30 60 75 95 110 115 135 150 177 185 15 15/75 HS 8.0-33.0 0.073 0.083 0.087 0.139 0.163 0.186 0.230 0.272 0.122 0.153 HSC 8.0-33.0 0.073 0.087 0.128 0.139 0.163 0.186 0.230 0.272 0.122 UL Max Current* at 90 dBA 24 VDC 12 VDC Model Regulated Voltage Range VDC 15 15/75 30 60 75 95 110 115 135 150 177 185 15 15/75 HS 8.0-33.0 0.065 0.075 0.084 0.136 0.157 0.184 0.226 0.267 0.120 0.148 HSC 8.0-33.0 0.065 0.084 0.120 0.136 0.157 0.184 0.226 0.267 0.120 Horn Ratings per UL 464 Model Regulated Voltage Range VDC 99 dB 95 dB 90 dB HN 16-33.0 0.064 0.044 0.022 HNC 16-33.0 0.084 0.044 0.022 HN 8.0-17.5 0.047 0.026 0.017 HNC 8.0-17.5 0.047 0.026 0.017 Low Current Draw = Fewer Power Supplies NOTE: All CAUTIONS and WARNINGS are identified by the symbol . All warnings are printed in bold capital letters. WARNING: PLEASE READ THESE SPECIFICATIONS AND ASSOCIATED INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING OR APPLYING THIS PRODUCT. VISIT WWW.COOPERNOTIFICATION.COM OR CONTACT COOPER NOTIFICATION FOR THE CURRENT INSTALLATION INSTRUCTIONS. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS OR WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLATION AND/OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE, AND SERIOUS INJURY OR DEATH TO YOU AND/OR OTHERS. General Notes:General Notes: • Strobes are designed to flash at 1 flash per second minimum over their “Regulated Voltage Range”. • All candela ratings represent minimum effective strobe intensity based on UL Standard 1971. • Series Exceder Strobe products are Listed under UL Standards 1971 and 464 for indoor use with a temperature range of 32°F to 120°F (0°C to 49°C) and maximum humidity of 93% (± 2%) UL 464 (85% UL 1971). • Series Exceder horns are under UL Standard 464 for audible signal appliances (Indoor use only). Specification & Ordering Information Model Strobe Candela Sync w/ SM, DSM or PS-6 & PS-8 12/24 VDC*Mounting Options Horn Strobes HSR 15/1575/30/75/95/110/135/185 X X UMB** HSW 15/1575/30/75/95/110/135/185 X X UMB** HSRC 15/30/60/75/95/115/150/177 X X UMB** HSWC 15/30/60/75/95/115/150/177 X X UMB** Strobes STR 15/1575/30/75/95/110/135/185 X X UMB** STW 15/1575/30/75/95/110/135/185 X X UMB** STRC 15/30/60/75/95/115/150/177 X X UMB** STWC 15/30/60/75/95/115/150/177 X X UMB** Horn HNR X X UMB** HNW X X UMB** HNRC X X UMB** HNWC X X UMB** Strobe Ratings per UL Standard 1971 UL Max Current* 24 VDC / 24 FWR12 VDC ModelRegulated Voltage Range VDC1515/75306075951101151351501771851515/75 ST8.0-33.00.0570.0700.0850.1350.1630.1820.2050.2530.1100.140 STC8.0-33.00.0610.0850.1030.1350.1630.1820.2050.2530.110 Horn Strobe Ratings per UL 1971 & UL 464 at 24 VDC UL Max Current* at 99 dBA 24 VDC12 VDC ModelRegulated Voltage Range VDC1515/75306075951101151351501771851515/75 HS8.0-33.00.0820.0950.1020.1480.1760.1970.2420.2820.1250.159 HSC8.0-33.00.0820.1020.1410.1480.1760.1970.2420.2820.125 UL Max Current* at 95 dBA 24 VDC12 VDC ModelRegulated Voltage Range VDC1515/75306075951101151351501771851515/75 HS8.0-33.00.0730.0830.0870.1390.1630.1860.2300.2720.1220.153 HSC8.0-33.00.0730.0870.1280.1390.1630.1860.2300.2720.122 UL Max Current* at 90 dBA 24 VDC12 VDC ModelRegulated Voltage Range VDC1515/75306075951101151351501771851515/75 HS8.0-33.00.0650.0750.0840.1360.1570.1840.2260.2670.1200.148 HSC8.0-33.00.0650.0840.1200.1360.1570.1840.2260.2670.120 Model Legend HN = Horn ST = Strobe HS = Horn Strobe C = Ceiling Mount W = White R = Red Example 1: STRC = Strobe, Red, Ceiling Mount Example 2: HSR = Horn Strobe, Red, Wall Mount Example 3: HSW = Horn Strobe, White, Wall Mount Common base for wall and ceiling with 5 mounting optionsVoltage test points for quick troubleshooting and easy spot checking (wall models only) Example: HSR 8 c a n d e l a s o n 1 d e v i c e 1 g a n g , 2 g a n g , 4 ” s q , 3 . 5 ” o c t a l & 4 ” o c t a l b o x e s 8 candela settings NOTE: Due to continuous development of our products, specifications and offerings are subject to change without notice in accordance with Cooper Wheelock Inc., dba Cooper Notification standard terms and conditions. **UMB = Universal Mounting Base *UMB Ea s y t o r e m e m b e r m o d e l c o d e s Example: HSWC Contact Cover *12 VDC models feature 15 & 15/75 settings The notification appliances shall be Wheelock® Exceder™ Series HS Audible Strobe appliances, Series ST Visual Strobe appliances and Series HN Audible appliances or approved equals. The Series HS and ST Strobes shall be listed for UL Standard 1971 (Emergency Devices for the Hearing-Impaired) for Indoor Fire Protection Service. The Series HS and HN Audibles shall be UL Listed under Standard 464 (Fire Protective Signaling). All Series shall meet the requirements of FCC Part 15 Class B. All inputs shall be compatible with standard reverse polarity supervision of circuit wiring by a Fire Alarm Control Panel (FACP) with the ability to operate from 8 to 33 VDC. Indoor wall models shall incorporate voltage test points for easy voltage inspection. The Series HS Audible Strobe and ST Strobe appliances shall produce a flash rate of one (1) flash per second over the Regulated Voltage Range and shall incorporate a Xenon flashtube enclosed in a rugged Lexan® lens. The Series shall be of low current design. Where Multi-Candela appliances are specified, the strobe intensity shall have 8 field selectable settings at 15, 15/75, 30, 75, 95, 110, 135, 185 candela for wall mount and 15, 30, 60, 75, 95, 115, 150, 177 candela for ceiling mount. The selector switch for selecting the candela shall be tamper resistant. The 15/75 candela strobe shall be specified when 15 candela UL Standard 1971 Listing with 75 candela on-axis is required (e.g. ADA compliance). Appliances with candela settings shall show the candela selection in a visible location at all times when installed. The audible shall have a minimum of three (3) field selectable settings for dBA levels and shall have a choice of continuous or temporal (Code 3) audible outputs. The Series HS Audible Strobe, ST Strobe and Series HN Audible shall incorporate a patented Universal Mounting Base that shall allow mounting to a single-gang, double-gang, 4-inch square, 3.5-inch octal, 4-inch octal or 100mm European type back boxes. Two wire appliance wiring shall be capable of directly connecting to the mounting base. Continuity checking of the entire NAC circuit prior to attaching any notification appliances shall be allowed. Product shall come with Contact Cover to protect contact springs. Removal of an appliance shall result in a supervision fault condition by the Fire Alarm Control Panel (FACP). The mounting base shall be the same base among all horn, strobe, horn strobe, wall and ceiling models. All notification appliances shall be backwards compatible. The Series HS and ST wall models shall have a low profile measuring 5.24” H x 4.58” W x 2.19” D. Series HN wall shall measure 5.24” H x 4.58” W x 1.6” D. The Series HSC and STC shall been round and have a low profile with a diameter of 6.68” x 2.63” D. Series HNC ceiling shall have a diameter of 6.68” x 1.50” D. When synchronization is required, the appliance shall be compatible with Wheelock®’s SM, DSM Sync Modules, Wheelock® Power Supplies or other manufacturer’s panels with built-in Wheelock® Patented Sync Protocol. The strobes shall not drift out of synchronization at any time during operation. If the sync protocol fails to operate, the strobe shall revert to a non-synchronized flash-rate and still maintain (1) flash per second over its Regulated Voltage Range. The appliance shall also be designed so that the audible signal may be silenced while maintaining strobe activation when used with Wheelock® synchronization protocol. Wall Appliances – UL Standard 1971, UL Standard 464, California State Fire Marshal (CSFM), ULC, FMCeiling Appliances – UL Standard 1971, UL Standard 464, California State Fire Marshal (CSFM), ULC, FM Exceder - Spec Sheet 10/10 WE ENCOURAGE AND SUPPORT NICET CERTIFICATION3 YEAR WARRANTY NotificationCooper Notification is NJ Location 273 Branchport Ave. Long Branch, NJ 07740 P: 800-631-2148 F: 732-222-8707 www.coopernotification.com FL Location 7565 Commerce Ct. Sarasota, FL 34243 P: 941-487-2300 F: 941-487-2389 VA Location 4401 Wilson Boulevard, Suite 220 Arlington, VA 22203 P: 877-459-7726 F: 703-294-6560 Architects and Engineers Specifications