Sec 14-66 Fire alarms

Control PanelD7212Release Notes for Version 7.00March 20071.0 IntroductionAlthough the D7212 (expanded version) Control Panel is no longer manufactured (replaced by the D7212G), Firmware Update Kits (P/N: D7299-0700) are available for this product. Refer to theD9412G/D7412G Program Entry Guide (P/N: 47775D or later) when programming a D7212 Control Panel.2.0 RequirementsTable 1: Handlers Supported for Version 6.90and LaterHandler Version Changes 9000MAIN 1.15∗No changes since version 6.30RADXUSR1 1.06∗Updated to support GV2 Series Control PanelsRADXPNTS 1.08∗Updated to support GV2 Series Control PanelsRADXSKED 1.04∗Updated to support GV2 Series Control PanelsRADXAUX1 1.07∗Updated to not support GV2 Series Control Panels∗Newer versions are available but are not required for the D7212 Control Panel.For handlers with new prompts, refer to theD9412G/D7412G Program Entry Guide (P/N: 47775D or later).To acquire an update for your D5200 Programmer, call the Bosch Security Systems Handler Update System toll-free at (800) 657-4584. Make a separate call for each handler.3.0 Version 7.00 Release NotesCorrection in Version 7.00Changes allow RPS workstations located on a private network behind a router or firewall to communicate with control panels outside of that network. No special router or firewall settings are required. The control panels support Port Address Translation (PAT) for networks that require it.4.0 Previous Version 6.90 ReleaseNotes4.1 Corrections in Version 6.90Enhanced Communication TroubleWhen a Route Group is configured with an IP destination in the primary path and a telephone number in the backup path, a break in the Network Link Integrity annunciates locally.When an Enhanced Communication Troublecondition occurs, it generates a system-wide trouble message (COMM TRBL SDI ##). The new troubleD7212The trouble condition is also sent through a backup path to the central station as Communication Trouble SDI ##, using the same virtual address numbers as the trouble messages. The communication trouble event also creates new Modem IIIa 2 messages that thecentral station might need to add to their automation software. Refer to Events 157 to 160 in the D6600 Computer Interface Manual (P/N: 4998122703) for the details of central station data changes. Unsupported Point TypePreviously, if the value of 11 was used with RADXPNTS version 1.06 or later when configuring the Point Index parameters, the control panel might not operate as expected. This condition is corrected so that the control panel responds to a P# Type value of 11 as a disabled point.5.0 Previous Version6.80 ReleaseNotes5.1Corrections in Version 6.805.1.1Local Event ReportingSeveral changes in this release prevent the controlpanel from sending local alarm events intermittently to the central stations. All local alarm events now remain local. 5.1.2Ethernet Link IntegrityFor UL 1610 Line Security (formerly Grade AA) Intrusion System installations and for UL 864 Commercial Fire installations, use the parametersshown in Table 2 when configuring the Heartbeat Poll. For additional details, refer to Programming PathNumbers and IP Addresses for Enhanced Communications in the D9412G/D7412G Program Entry GuideTable 2: Parameters for Heartbeat PollConfiguration in Version 6.801Number of IP Paths Poll Rate (sec) ACK Wait Time (sec)Number of Retries1 30 62 to 19 1 30 8 2 to 12 1 30 10 2 to 8 1 30 12 2 to 5 1 30 14 2 to3 1 60 6 2 to 14 1 60 8 2 to 8 1 60 10 2 to5 1 60 12 2 1 752 102 32 1 906 2 to 9 1 90 8 2 to 4 1 90 10 2 1 120 6 2 to 4 1 145 522 752 82 323 752 62 324 75252321 The parameters in this table are for Version 6.80 only . 2Recommended settings for the corresponding number of IP paths.5.2 Enhancements in Version6.80Summary Fire Relay SustainWhen the Silent Alarm Relay for Area 2 isprogrammed with 24, the Summary Fire Alarm Relay remains active until all Fire Alarms are cleared from the keypad display. The default operation is consistent with the Summary Fire Relay operation in Version 6.60 and older. This feature provides a method of maintaining fire strobes after the alarm bells are silenced.5.3 Known Issue in Version6.80When a Route Group is configured with an IP destination in the primary path and a telephone number in the backup path, a break in the Network Link Integrity does not annunciate locally.D72126.0 Previous Version 6.70 ReleaseNotesEnhancement in Version 6.70Arming Scope RestrictionsWhen the Silent Alarm Relay for Area 3 isprogrammed with 59, some prompts in the FunctionTable 3: Arming Scope RestrictionsMenu Function Function NumberDisabled Prompt Disarm Menu 1 DISARM ALL?Master Arm Delay 2 MASTER ARM ALL? Master Arm Instant3ARM INSTANT ALL?7.0Previous Version 6.60 Release Notes7.1Corrections in Version 6.60The changes made to the version 6.60 firmware affect only control panels with the ground fault detection circuit: the G-model control panels. Because the D7212 Control Panel does not have the ground fault detection circuit, this firmware upgrade does not change the control panel’s function.7.2Known Issues in Version 6.60•When a faulted local point is force armed, the central station should receive a Forced Close report for that point. The control panel does not send Forced Close reports for faulted local points. •If a local and a non-local point are faulted and force armed, the control panel does not send Forced Armed, Forced Point, or Forced Close Reports for the non-local point. A point is a local point if configured as follows: • Local While Armed : Yes •Local While Disarmed : Yes8.0 Previous Version 6.50 ReleaseNotesCorrections in Version 6.50Intermittent RF Low Battery eventsIn versions 6.30 and 6.40, Points 1 through 8 generate intermittent RF Low Battery events when devices connected to the on-board points change very quickly from normal to off-normal conditions. Firmware version 6.50 corrects this issue.When an RF Low Battery condition occurs on atransmitter, RF Low Battery appears on the D1255 or D1260 Keypad’s display. To determine whichtransmitter has the low battery condition, select one of the following: •View Log? function from the Service Menu (99 + ENT) on the keyboard, or•Diagnostics function, using the D8125INV. Refer to the D8125INV Operation and Installation Guide (P/N: 49690) for details.If the event is transmitted to the central station, the point number is included in the transmission.D72129.0 Previous Version 6.40 ReleaseNotes9.1Enhancements in Version 6.40Enabling the D1260 in a D7212 Control Panel 1. To enable D1260 Keypads, set the commandcenter menu item to Yes for the command center addresses where the D1260s reside.• In the Command Center Assignments section, the prompt is CC#EnhanceCmdCtr . •In the COMMAND CENTER (9000MAIN) section in RPS, the prompt is EnhancedCommand Center .Figure 1: Enhanced Command Center Prompt inRPS2. When power is applied, each D1260 checks thefirmware revision number that resides in the control panel. For each D1260 to work, theDisplay Revision (Command 59) must be enabled and not passcode protected. Refer to Figure 2 on page 4.•In the D5200, this function is located at: 9000MAIN USER INTERFACE Cmd Center FunctionsDisplay Rev •In RPS (Figure 2), this function is located at: USER INTERFACE Command Center FunctionsFigure 2: Enable Display Revision Prompt in RPS3. Before exiting RPS, reset the control panel aftercompleting an RPS programming session:A.Click the Reset Panel checkbox B. Click OK .Refer to Figure 3.Figure 3: End Session Dialog BoxFigure 4: Keypad DisplayD72129.2Corrections in Version 6.40Duplicate Events Do Not Report under Comm Fail ConditionsVersion 6.40 corrects the following problem:When a Comm Fail condition occurs in Route Group 1, Route Group 2, or both, D7212 does not send duplicate events to Route Groups 3 and 4 whenduplicate events are programmed for Route Groups 2, 3, 4, or all groups.Support for D1260 Not in Version 6.30 as Stated in LiteratureThe D9412G/D7412G Program Entry Guide(P/N: 47775D) and the D7212 Release Notes for v6.30 (P/N: 34699N) state incorrectly that Alpha V Command Center (keypad) support is available in version 6.30.Only version 6.40 or higher can support the D1260 Alpha V Command Center (keypad) Watchdog Reset EventsVersion 6.40 corrects Watchdog Reset eventsgenerated when a SKED is used to arm a disabled area or a Closing Window and Auto Close prompt is set to Yes (in Area Wide Open/Close ). BFSK FormatBefore version 6.40, the control panel did not send Burglary Restoral reports when using the BFSK communication format. Version 6.40 corrects this issue.Fail to Execute EventsBefore version 6.40, Fail To Execute events incorrectly identified the serial device interface (SDI) device associated with the event. Version 6.40 corrects this issue.Programming Point Indexes for Points 240 – 247 In version 6.30 for the D7412G and D7212 Control Panels, if you use a D5200 to assign point Points 240 through 247, the control panel ignores these points and mistakenly shows missing conditions. Version 6.40 corrects this issue.9.3Known Issues in Version 6.40Disconnecting Battery during Walk Test Causes D1260 to Stop RespondingWhen the control panel’s battery is disconnected and then reconnected during a Walk Test, the D1260 stops responding and displays Retrieving panel info . The control panel must be restarted to clear the keypad.Areas Armed to “All on instant” Do Not Show Area Text in D1260 View Area StatusWhen arming areas to All on Instant, area text does not appear when using the View Area Status menu function on the D1260. BFSK FormatSupervisory and Fire Supervisory events cannot be29.4 Programming TipsNetCom CommunicationsIn applications where both the primary and backup paths are programmed to send an IP address, the Path # Poll Rate value for the backup IP address should be set to 0. In the D9412G/D7412G Program Entry Guide (P/N: 47775), refer to: •Routing and Enhanced Routing for information about primary and backup paths.•Enhanced Communications in the RADXAUX1Handler section for information about Path # Poll Rate .D7212NotesD7212 NotesD7212© 2007 Bosch Security Systems, Inc.130 Perinton Parkway, Fairport, NY 14450-9199 USACustomer Service: (800) 289-0096; Technical Support: (888) 886-6189 F01U034872-02Release Notes for Version 7.003/07D7212Page 8 of 8。

PRODUCT OVERVIEW FG-BD100 BEAM DETECTORFeaturesMODELFG-BD100DESCRIPTION REFLECTIVE BEAM DETECTORFIREGUARD GLOBAL LTD. 00-44-8450751042 00-44-8459751043 *********************Reflective Beam Detector has built in Laser beampointing and Digital guide display for realuser friendly alignment method. The Laser bampointing accurately point the exact locationwhere to mount mirror and with additional digitalguide display allows to monitor and guide onthe actual light intensity between the mirror anddetector which cannot be seen by our nakedeye making it more easy and convenient in alignmentcommissioning.FG-BD100 has four adjustable operational rangesbetween 8 to 20, 20 to 40, 40 to 70 and70 to 100 metres beside with three adjustablesensitivity setting ranges from 2.6dB, 3.8dBand 5.8dB to meet the specific environmentalrequirement. FG-BD100 works on the principleof reflective infrared beam obscuration. Used inconjunction with a reflector, it will notify thefire alarm panel when the infrared beam is obscuredby smoke.> EN54-12 Compliance.>Hassle free alignment, built with digital guide display and laser beam pointing. > Employ single-ended design through reflective mirror.> Four ranges wide monitoring from 8-100 meters via encoder.> Built-in microprocessor.>Self-diagnosis function can monitor for internal faults.> Automatic compensation for factors weakening received signals, such as dust contamination, positional movement and ageing of the transmitter.> Fire and Fault interfacing relays.>Attractive and pleasing appearance.> Real User friendly alignment method.********************* FS546607Fire Guard / FG- EVAC-MPS8Z_AP: 8 to 20 meters Llimited Path: 20 to 40 meters Short Path: 40 to 70 meters Normal Path: 70 to 100 meters Long Path.4° Directional.Laser Beam PointerTel:00-44-8450751042•Fax:00-44-8450751043•Email:*********************2nd FLOOR|145-157ST.JOHNS STREET|LONDON|EC1V4PY|UNITED KINGDOMFireguard FG318series optical smoke detectors are designed to respond to a wide spectrum of fires and ease installation.The FG318 series Multisensors use Advance Photelectric technology in conjunction with fixed temperature heat sensor to further extend its capabilities as a smoke detector.Every unit is individually tested andcalibrated to ensure high reliability and prevent false alarms.Product Features㧦.2%$'0 #22418'&Ɣ2or4wire modelsƔDual LEDs for360°visibilityƔAdvanced Photoelectric smoke technologyƔEasy installation and maintenanceƔDurable sensor head, excellent smoke access.ƔFive-year limited warrantyƔN/C(normal/close)-N/O(normal/open)selectable relayoutputOptions:ƔAR(Auto Reset)function for security systems(optional for 4 wire models)ƔSensor base option: standard and Shottky DiodeƔRemote LEDSensor Specification㧦Model2/4wire ThermalVoltageDCStandbyCurrent(Max)AlarmCurent(Max)SurgeCurrent(Max)Star-UpTime(Max)PermissibleCurrent(Max)Frequency Alarmcontact Base modelFG318-2212~35V 35µA70mA40µA60Sec80mA3-5 Sec P/N852001 FG318-2-LED212-35V35µA70mA40Ȃa60Sec80mA3-5 Sec P/N852001FG318-4-12410.2~13.8V35µA35mA60Sec80mA3-5 Sec Form A/B P/N852001FG318-4-24420.4~27.6V35µA35mA60Sec80mA3-5 Sec Form A/B P/N852001 FG318-2H 257͠12~35V 35µA70mA40µA60Sec80mA3-5 Sec P/N852001 FG318-2H-LED257͠12-35V35µA70mA40µA60Sec80mA3-5 Sec P/N852001FG318-4H-12457͠10.2~13.8V35µA35mA60Sec80mA3-5 Sec Form A/B P/N852001FG318-4H-24457͠20.4~27.6V35µA35mA60Sec80mA3-5 Sec Form A/B P/N852001Smoke Detector Technical DataA1.1Totally enclosed, single-phase asynchronous motors , LS series, according to IEC 60034, 60038, 60072. Power 0.09 to 5.5 kW. Frame size from 56 to 132 mm*. 2, 4 and 6 poles.Mains supply 230 V +10% -10 %, 50 Hz.Protection Standard version IP 55 providing a good sealing to liquid projection and to dust in an industrial environment.Class F standard winding, made on automatic machines providing reproducibility and reliability. Impregnated on automatic assembly line with a tropicalised varnish class H providing a good operation in humid environments (up to 90 % relative humidity).Aluminium squirrel-cage rotor poured under pressure, providing the rigidity of the rotating component, dynamically balanced.Possibilities For applications that require a high starting torque and a high permanent torque: model “PR” (with relay and start condenser, plus permanent condenser) up to and including frame size 90 inclusive.For applications that do not require a high starting inertia: model “P” (with permanent condenser). Individual controls before expedition • routine testing (testing without load, dielectric testing, resistance control and control of the direction of rotation).• vibration level according to the class N and noise level in accordance with IEC 60034-9.Finishing Assembled with protected screws.Painting, RAL 6000 finish (green).Protection of the flange and shaft end against atmospheric corrosion.Individual anti-shock packing.General informationMounting positions Foot mounted motorsPossibilités d’adaptation1. Flange or foot motor (or foot and flange) with shaft end different from the standard (D: 14 j6 - E: 30 mm).A1.4Designation:4P LS 71 P 0.25 kW IM 1001 (IM B3) 230 VCode : MA4 25 113A1.51. Flange or foot motor (or foot and flange) with shaft end different from the standard (D: 14 j6 - E: 30 mm).1. Flange or foot motor (or foot and flange) with shaft end different from the standard (D: 14 j6 - E: 30 mm). A1.61. Flange or foot motor (or foot and flange) with shaft end different from the standard (D: 14 j6 - E: 30 mm).1. Flange or foot motor (or foot and flange) with shaft end different from the standard (D: 14 j6 - E: 30 mm).Designation :4P LS 90 PR 1.1 kW IM 1001 (IM B3) 230 V Code : MAM 41 100Options+ Use guide:• STEP 1 : Select the base motor requiredaccording to the selection grids of the previouspages.• STEP 2 : Select the additional option or optionswanted and add them to the base designation.+ Codification example:Permanent condenser single-phase motor0.25 kW 1500 min-1 with foot IM B3, 230 V with PTO.Designation CodeMA4 25 113 Array+NotesDimensionsDimensions of the LS totally enclosed single-phase asynchronous motors - IP 55Cage rotorDimensions in millimetres - shaft end2. Motors LS 71 P, 2P, 0.55 kW and LS 71 P, 4P, 0.37 kW: modification of the dimension LB = 193.DimensionsDimensions of the LS totally enclosed single-phase asynchronous motors - IP 55Cage rotorDimensions in millimetres - foot mounted2. Motors LS 71 P, 2P, 0.55 kW and LS 71 P, 4P, 0.37 kW: modification of the dimension LB = 193.DimensionsDimensions of the LS totally enclosed single-phase asynchronous motors - IP 55Cage rotorDimensions in millimetres - (FF) plain hole foot and flange mountedThe permanent condenser is set outside the terminal box.The starting condenser is located inside the terminal box.Dimensions of the shaft end identical to those of those of the foot mounted motors (page A1.10).DimensionsDimensions of the LS totally enclosed single-phase asynchronous motors - IP 55Cage rotorDimensions in millimetres - (FF) plain hole flange mounted2. Motors LS 71 P, 2P, 0.55 kW and LS 71 P, 4P, 0.37 kW: modification of the dimension LB = 193.DimensionsDimensions of the LS totally enclosed single-phase asynchronous motors - IP 55Cage rotorDimensions in millimetres - (FT) foot and tapped hole flange mountedThe permanent condenser is set outside the terminal box.The starting condenser is located inside the terminal box.Dimensions of the shaft end identical to those of the foot mounted motors (page A1.10).DimensionsDimensions of the LS totally enclosed single-phase asynchronous motors - IP 55Cage rotorDimensions in millimetres - (FF) tapped hole flange mountedThe permanent condenser is set outside the terminal box.The starting condenser is located inside the terminal box.2. Motors LS 71 P, 2P, 0.55 kW and LS 71 P, 4P, 0.37 kW: modification of the dimension LB = 193.。

6th International Conference on Information Engineering for Mechanics and Materials (ICIMM 2016)Design of Intelligent Flame Detection SystemHong-Jun GU a, Ji LI, Shi-Jun LI b, He GONG, Jian LI, Li-Xin HOUJilin Agricultural University, Changchun 130118, Jilin, Chinaa******************,b****************Keywords: fire alarm, flame detection, SCM, wireless transmission.Abstract. This paper uses SCM as the control core to design an intelligent flame detection system based on flame sensor R2868. This system consists of 100 flame detection nodes and one hand-held terminal. Each flame detection node includes flame sensor and its driver module, step motor and its driver module, clock module, sound and light alarm, wireless transmission module, and display circuit and keyboard. The flame sensor can acquire the flame condition and direction within 5 meters in real time, and the node sends the flame information and the detection time to the hand-held terminal. The flame sensor is not affected by fluorescent lamp. The hand-held terminal with wireless transmission module, display circuit and keyboard can inquire the information of the flame detection nodes in automatic and manual modes. After multiple trials, the system works stability, which has a certain theoretical significance and practical value on the intelligent fire alarm.IntroductionEvery year in China and other countries, the fire accidents cause great economic losses and casualties. Flame detection is vital to preventing fires. Flame detection has two solving methods of introducing flame detection sensors and using image processing technology.Flame detection module is one of the key modules of indoor fire detection system. The quality flame detection module is directly related to the performance of the system. Therefore, designing high accurate measurement of flame direction and the distance between the fire and the test point is critical [1]. The collected flame signal is transmitted by photoelectric device through multi- amplifier to the control unit, obtaining the accurate flame frequency and intensity by computational procedure, and displaying the current working status of the system by the digital tube and relay output [2]. The wireless network HD real-time monitoring system is designed and realized, and the flame detection algorithm is integrated which is suitable for the embedded system [3]. Aiming at residual flame detection after fire, proposing a kind of hand-held fire detection system which combines UV sensor technology and ZigBee wireless network technology. The detection system is designed to realize the accurate flame detection through hardware, software and topology structure in a variety of complex environment [4]. In order to monitor flames effectively, and meanwhile reduce the false alarm rate, the theory of UV flame detective sensors and infrared flame detective sensors are studied [5]. Communication system for coal-flame detection is proposed based on freescale [6]. Voronoi-based coverage improvement approach for wireless directional sensor network is studied [7].Image processing technology in the flame detection increases the research cost, and needs the better software algorithm. While the system with the flame detection sensors can decrease the cost and need not the high software support.Overall System FrameworkThe intelligent flame detection system includes one hand-held terminal and 100 flame detection nodes. The hand-held terminal can gain the flame information from flame detection nodes. The overall system framework is shown in Fig. 1.Each detection node with a flame detection sensor is driven by the step motor to search the flame and record the flame information, such as the direction and state of the flame, and the time forfinding the flame. When the flame is found, the node gives sound and light alarm, and sends the flame information to the hand-held terminal. And the hand-held terminal can inquire the flame information in the automatic or manual way. The node with the its sole address can be 100 meters away from the hand-held terminal, between them, wireless communication can be used (via wireless module NRF905). Fig .2 and Fig .3 shows the sketches of the hand-held terminal and nodes respectively. They uses STC89C58 as their control core. The hand-held terminal consists of DS1302 clock module, keyboard, NRF905 wireless transmission module and displaying screen from Fig .2. Here, the user can use the keyboard to change the visiting addresses of the detection nodes in the manual way. And the detection node has several parts more than the hand-held terminal, these are, sound and light alarm, step motor and its driving module, and flame sensor andflame #1flame #2flame #……flame #100detection node #1detection node #2detection node #100detection node #…… hand-held terminalFig. 1 The overall system framework Fig. 2 The sketch of the hand-held terminalFig. 4 Hardware schematic diagram of the Hand-held TerminalS _Hardware Design of the Hand-held Terminal and Detection NodesAs shown in Fig .4 and Fig .5, the hand-held terminal and detection node have their own SCM minimum system. The clock module adopts DS1320 with only 8 pins. The displaying screen uses LCD12864 which can display 4 lines of letters or characters. NRF905 is chosen as the wireless communication device with transmission distance 100 meters. The step motor can rotate the flame sensor to look for the flame.Fig. 5 Hardware schematic diagram of the detection nodeFig. 6 Program flow chart of the hand-held terminal Fig. 7 Program flow chart of the detection node VCC5V SC LK_I/O_TR SR ESProgram flow charts of the hand-held terminal and detection nodeFig .6 and Fig .7 shows the program flow chart of the hand-held terminal and detection node respectively. The user may set manual or automatic inquire way through keyboard from Fig .6. In the manual inquire way, the visiting address from 1 to 100 can be set and the flame information can be inquired. In the automatic way, the visiting address pluses one automatically and the responding information can be shown. From Fig .7 the flame detection monitors the flame all along and sends the flame data to the hand-held terminal when requested for the node information.ConclusionsThis paper designs an intelligent flame detection system based on SCM STC89C58, and the flame sensor R2868 not affected by fluorescent lamp is used. This system includes one hand-held terminal and 100 flame detection nodes, between them, wireless communication modules NRF905 are used to transmit the address and the flame information. This paper gives overall system framework, the sketches of the hand-held terminal and detection nodes, hardware schematic diagrams and program flow charts. This design can be embedded in the internet of things and play an important role in the intelligent fire alarm.AcknowledgmentsThe authors wish to express their gratitude to the projects: Design of Standardized Breeding System for Rabbits Based on IOT, Deer Breeding Intelligent Monitoring and Controlling System Based on RFID of IOT, from Education Department of Jilin Province, Jilin Province Economic Structural Adjustment Leading Fund Special Project (No. 2014Y108) and Changchun City Science and Technology Plan Project (No.13KG71), Key Tackling Item of Jilin Province Science & Technology Department (No. 20140204045NY), Jilin Province Science & Technology Department Project (No. 20150204058NY, No. 20140204045NY) for their generous support of this work.References[1] LI Lan. Design of 360 degree indoor fire detection system [J]. Hefei: Computer Knowledge and Technology, 2014, 10(35): 8521-8522, in Chinese.[2] XIA Ming, JIANG Tao, WEI Dong-Xin. Design of Flame Detection System Based on AVR SCM [J]. Chongqing: Automation and Instrumentation, 2015, (7): 25-27, in Chinese.[3] JIN Hai-Jun. Research on Wireless Network Video Monitoring and Flame Detection System Based on Hi3518E [D]. Dalian: Dalian University of Technology, 2016, in Chinese.[4] CHU Jian-Ping, ZHE Guo-Yong, and LIU Dong-Hai, et al. Design of UV Type Handheld Flame Detection System Based on ZigBee [J]. Haerbin: Transducer and Microsystem Technologies, 2015, 34(6): 109-111,118, in Chinese.[5] SHI Fa-Qiang. Design of Flame Sensor Based on the Detection Principle of UV and IR[J]. Shijiazhuang, Coal and Chemical Industry, 2015, 38(9):101-104,107, in Chinese.[6] XIA Jian-Chun, LU Xu-Ming. Communication Design of Coal Flame Detection [J]. Xuzhou: Coal Technology, 2013, 32(10): 190-192, in Chinese.[7] Sung T, Yang C. Voronoi-based Coverage Improvement Approach for Wireless Directional Sensor Networks [J]. Journal of Network and Computer Applications, 2014, 39(3):202-213, in English.。

TRANS-KEY Manual Start Unit uses microprocessor based technology to provide integrated manual start and fault protection in a wide range of engine applications. The module is housed in 72x72 DIN size.The module is used to start and stop the engine, indicating the operational status and fault conditions. User can control the engine via a two position key switch and push buttons mounted on the front panel or with remote input. The module can be programmed from a PC via RS-232 communication port. Measured Generator Voltage, Frequency, Speed, Battery Voltage and Running Hour can be observed on 7-segment display and Pre-heat/Display button changes, which measurement result to be displayed. Display can be changed when engine is in running mode or if a fault condition occurs that can be observed with 7-segment display.The module has three application feature; 'Generator', 'Pump' or 'Fire Pump' (can be selected from parameter P00).The module has two feature for fuel. One of them is “energize to run” and the other one is “energize to stop”. User can select the feature from program parameters.The module protects the engine against fault conditions. If a fault condition occurres, the module indicates the fault condition and shuts-down the engine.If the key switch is at ‘0’ position, the module has zero power consumption to save the energy. Getting key switch to ‘1’ position, energizes the module. Pre-Heat output (can be selected from parameter P31 and P32) will be active before cranking and stay active during the preheat time (can be set from parameter P22). If Pre-heat/Display button is pressed, Pre-Heat output will stay active as long as Pre-heat/Display button is pressed, except that if engine is in running mode.Press Start button for starting the engine.Also the module has remote start facility. Please select suitable type of remote start for your application from program parameters. If remote start input is active, the module will start the engine. If remote start is passive, the unit will stop the engine.The module will check the alarms after safety on timer is expired.Under one of these fault conditions the module will stop the engine;- Over and Under Voltage(generator application),- Over and Under speed (all applications),- Over and Under Frequency(generator application),- High Temperature,- Low Oil Pressure,- Shutdown (if one of conf. input selected shutdown and activated).To reset the fault, turn the key switch to the ‘0’ position for a few seconds.The Charge Failure is a warning alarm, so the engine continue to work under this failure condition. Also this input supplying charge alternator excitation current.Shutting down the engine;If the engine fuel type is “energize to stop”, Stop button must be pressed to stop the engine. After the engine stopped turn the key switch to ‘0’ position.If the engine fuel type is “energize to run”, press Stop button to stop the engine. After the engine stopped turn the key switch to ‘0’ position. Or you can directly turn the key switch to ‘0’ position without pushing Stop button.Important note: On the Fire Pump application; If a fault condition occurred, the module will not stop the engine. The engine will be stopped only when the stop button was pressed or the remote stop signal was detected.Introduction Brochure. ENG TRANS-KEY 01 V04 01/14Program Parameters for Generator ApplicationProg No Parameter NameUnit LimitsDefault P 00Application Selection (Generator, Pump, Fire Pump)GEN, PUMP , FPU GEN P 02P 03P 04P 05P 07P 08P 09P 10P 11P 12P 15P 16P 17P 18P 19Generator Voltage reading offset (P-N)Generator Voltage Lower Limit Generator Voltage Upper LimitGenerator Frequency reading from generator voltage enable/disable -Volt Volt Volt --20 - 2060 - 60060 - 600Disable/Enable 0320440Enable Oil sensor selection -Oil level / Oil pres.Oil pres.Generator Frequency Lower Limit Hz.30.0 - 75.047.0Generator Frequency Upper LimitSensing Option Pickup En/Dis & Flywheel Teeth Speed Lower Limit Speed Upper LimitNominal Alternator Frequency Nominal SpeedHz.-rpm rpm Hz.rpm 30.0 - 75.00(dis)-1000500 - 5000500 - 500030.0 - 75.0500 - 500053.00(disable)1000200050.01500Stop/Fuel Solenoid Selection -STOP - FUEL FUEL Stop Solenoid Energising Time Sec. 1 - 9920Crank Disconnect on Gen. Speed Crank Disconnect on Gen. Voltagerpm Volt 500 - 600060(dis) - 600500300P 20Crank Disconnect on Charge Alternator Voltage -Disable/Enable Disable P 21P 22Crank Disconnect on Oil Pressure -Disable/Enable Enable P 24Number of Starting Attempts - 1 - 103P 25Starting Attempt Duration Pre-heat time Sec.Sec. 5 - 990 - 25053P 26P 27Oil Pressure Bypass Time Sec.0 - 9930Safety On DelayP 28Sec.0 - 9910Generator Frequency/rpm Fault Control Delay Generator Voltage Fault Control DelaySec.Sec.0.0 - 10.00.0 - 10.0 1.01.0P 30P 31Engine Running Time Value & New Engine Running Time Hour 0 - 9999Remote Start Selection:P 33P 34Conf. Out-1 Type:-dis-0 - 40P 35Conf. Input 1P 36Conf. Input 2Horn Duration0= Cont. 1 - 99930Sec.P 06P 140 - 600 - 60--0(dis) - 2P 32Conf. Out-2 Type:-0 - 40!Warning: P30 Remote Start Selection parameter option ‘2’ can not be used with stop solenoid type generators.P 29Fail Safe-Passive - Active Passive P 01Generator Voltage reading enable/disable Disable/Enable Enable -0- Alarm Out,1- Horn Out,2- Preheat Out3- Simulate Fuel Solenoid Out 4- Choke Active 0- Alarm Out,1- Horn Out,2- Preheat Out3- Simulate Fuel Solenoid Out 4- Choke Active0 - Disable1 - Only horn temporary, observation continuously2 - Only horn permanent, observation continuously3 - Engine stop, observation continuously4 - Only horn temporary, observation while engine running5 - Only horn permanent, observation while engine running6 - Engine stop, observation while engine running0 - Disable1 - Only horn temporary, observation continuously2 - Only horn permanent, observation continuously3 - Engine stop, observation continuously4 - Only horn temporary, observation while engine running5 - Only horn permanent, observation while engine running6 - Engine stop, observation while engine running 0 - Disable. The start / stop buton is used. (leave key switch “1” position)1 - When the -BATTERY applied to Rem. start input (terminal-12), the engine start cranking. (leave key switch “1” position)2 - When the +BATTERY applied to +BAT input (terminal-7), the engine start cranking. (leave key switch “1” position)P 23Choke timeSec.0.0 - 30.00.8P 13Battery Voltage Lower Limit Volt 6.0(dis) - 30.08.0Program Parameters for Pump (Fire Pump) ApplicationsProg No Parameter NameUnit LimitsDefault P 00Application Selection (Generator, Pump, Fire Pump)GEN, PUMP , FPU PUMP P 15P 18P 19-Stop/Fuel Solenoid Selection -STOP - FUEL FUEL Stop Solenoid Energising Time Sec. 1 - 9920P 20Crank Disconnect on Charge Alternator Voltage -Disable/Enable Disable P 21Crank Disconnect on Oil Pressure -Disable/Enable Enable P 24Number of Starting Attempts - 1 - 103P 25Starting Attempt Duration Sec. 5 - 995Oil Pressure Bypass Time Sec.0 - 9930Safety On DelayP 28Sec.0 - 9910P 30P 31P 32Engine Running Time Value & New Engine Running Time Hour 0 - 9999P 33P 34Conf. Out-1 Type Conf. Out-2 Type -dis--0 - 40 - 40Conf. Input 1Conf. Input 2P 140 - 600 - 60--0(dis) - 2Oil sensor selection -Oil level / Oil pres.Oil pres.P 35P 36Horn Duration0= Cont. 1 - 99930Sec.Remote Start SelectionP 29Fail Safe-Passive - Active Passive 0 - Disable1 - Only horn temporary, observation continuously2 - Only horn permanent, observation continuously3 - Engine stop, observation continuously4 - Only horn temporary, observation while engine running5 - Only horn permanent, observation while engine running6 - Engine stop, observation while engine running 0 - Disable1 - Only horn temporary, observation continuously2 - Only horn permanent, observation continuously3 - Engine stop, observation continuously4 - Only horn temporary, observation while engine running5 - Only horn permanent, observation while engine running6 - Engine stop, observation while engine running 0- Alarm Out,1- Horn Out,2- Preheat Out3- Simulate Fuel Solenoid Out 4- Choke Active0- Alarm Out,1- Horn Out,2- Preheat Out3- Simulate Fuel Solenoid Out 4- Choke Active0 - Disable. The start / stop buton is used. (leave key switch “1” position)1 - When the -BATTERY applied to Rem. start input (terminal-12), the engine start cranking. (leave key switch “1” position)2 - When the +BATTERY applied to +BAT input (terminal-7), the engine start cranking. (leave key switch “1” position)P 08Sensing Option Pickup En/Dis & Flywheel Teeth 0(dis)-10000(disable)-P 09Speed Lower Limit 500 - 50001000rpm P 10Speed Upper Limit500 - 50002000rpm P 22Pre-heat time Sec.0 - 2503P 23Choke timeSec.0.0 - 30.00.8P 16Crank Disconnect on Gen. Speedrpm 500 - 6000500P 26Frequency/rpm Fault Control DelaySec.0.0 - 10.0 1.0P 13Battery Voltage Lower Limit 6.0(dis) - 30.08.0VEquipment UseElectrical control equipment for generating sets Housing & Mounting 72 mm x 72 mm x 52 mm Panel Cut-out 68 mm x 68 mmProtection NEMA4X (IP30 at front panel, IP20 at rear side)WeightApproximately 210 grEnvironmental RatingStandard, indoor at an altitude of less then 2000 meters with non-condensing humidity Operating / Storage Temperature -25ºC to +70ºC / -40ºC to +85ºC Operating / Storage Humidity 90% max. (Non-condensing)Installation Over Voltage Cat.II appliances, portable equipmentPollution Degree II, Normal office or workplace, non-conductive pollution Mode of Operation ContinuousEMCEN-61000-6-4, EMC generic emission standard for industrial equipment EN-61000-6-2, EMC generic immunity standard for industrial equipmentElectrical Safety EN-61010-1, safety requirements for electrical equipment for measurement, control andlaboratory use Supply Voltage(Z )Cranking Dropouts Battery voltage can be 0V Z for max. 100msn during cranking (battery voltage should beat least nominal voltage before cranking)Failure Indicators Status Indicators Transistor Outputs8 - 32 V Z 3 to 300 V L-N, 5 to 99.9 Hz. Accuracy: 1 % FS, Resolution: 1 V.V Generator Frequency Measur.35 to 10000 Hz (4 to 35 volts peak continuously).Accuracy: 0,25 % FS.Generator Speed Measurement Fuel 1A at DC supply voltage Start 1A at DC supply voltageConfigurable Out - 1 1A at DC supply voltage Configurable Out - 2 1A at DC supply voltageAll transistor outputs supplied from DC supply terminal 6Failed to engine startHigh engine temperature Low oil pressureGenerator Voltage Failure Frequency/speed failureBattery charge failure / Battery Voltage Failure General failureEngine startEngine stop Pre-heatGenerator Voltage Measurement 15,6 to 99,9 Hz (15 to 300 V V L-N) Accuracy: 0,5 % FS,Resolution: 0,1 Hz.Specifications72 mmConnection Schematic (With Remote Signal P30 = 1)c1- Connect the unit as shown in the appropriate diagram above. Be sure to connect the battery supply the right way round andbattery negative should be grounded.2- Use Generator connection only generator application (P00 = Gen)The fuses should be as follows:FUSE-1FUSE-2According to current required by solenoids (Max. 5A. T)Max. 1A. Tc1- Connect the unit as shown in the appropriate diagram above. Be sure to connect the battery supply the right way round andbattery negative should be grounded.2- Use Generator connection only generator application (P00 = Gen)The fuses should be as follows:FUSE-1FUSE-2According to current required by solenoids (Max. 5A. T)Max. 1A. TConnection Schematic (With Remote Start, No Power Consumption P30 = 2)Product CodesTRANS-KEYManual and Remote Start Unit with Key Switch, 72x72 DIN Size, with transistor outputsTRANS-KEY.DISPManual and Remote Start Unit with Key Switch with display, 72x72 DIN Size, with transistor outputsc1- Connect the unit as shown in the appropriate diagram above. Be sure to connect the battery supply the right way round andbattery negative should be grounded.2- Use Generator connection only generator application (P00 = Gen)3- Can not be used with stop solenoid type generators.The fuses should be as follows:FUSE-1FUSE-2According to current required by solenoids (Max. 5A. T)Max. 1A. Tc1- Connect the unit as shown in the appropriate diagram above. Be sure to connect the battery supply the right way round andbattery negative should be grounded.2- Use Generator connection only generator application (P00 = Gen)The fuses should be as follows:FUSE-1FUSE-2According to current required by solenoids (Max. 5A. T)Max. 1A. T Connection Schematic (For Fail Safe P29 = 1)1Other InformationsManufacturer Information:Emko Elektronik Sanayi ve Ticaret A.Þ.Demirtaþ Organize Sanayi Bölgesi Karanfil Sk. No:6 16369 BURSA/TURKEYPhone : +90 224 261 1900Fax : +90 224 261 1912Repair and Maintenance Service Information:Emko Elektronik Sanayi ve Ticaret A.Þ.Demirtaþ Organize Sanayi Bölgesi Karanfil Sk. No:6 16369 BURSA/TURKEYPhone : +90 224 261 1900Fax : +90 224 261 1912。

Instruction Manual P/N: 0019-9371 December 2, 2013Revision 0Carbon Monoxide Personal SafetyMonitor Kit (P/N: 0019-7600)KIT CONTENTS• Snifit+ CO Gas Monitor ................................. 0019-6108 • Instruction Manual ........................................ 0019-9371• Calibration Adapter ....................................... 0019-6106 • Calibration Kit (Regulator and 4’ Hose) ......... 0051-2978 • 100 ppm Calibration Gas Cylinder ................. 0051-1994SAFETY INFORMATIONWARNING: The Snifit+ contains a lithium battery which my leak or explode if improperly used. Donot place the Snifit+ in fire or incinerate. IMPORTANT: Snifit + has no user-serviceable parts inside. Do not disassemble the instrument. IMPORTANT: Verify operation each day by per-forming a functional (bump) test.IMPORTANT: Keep all openings free of dirt, debris, and foreign objects.IMPORTANT: Do not use if damaged or improp-erly operating. Contact a service representative immediately.IMPORTANT: Zero the Snifit+ only in a CO-free environment.IMPORTANT: Dispose of the Snifit+ properly.The Snifit + is a rugged personal gas monitor for detecting carbon monoxide gas. Preset alarms provide visual, audi-ble, and vibration alerts for low and high alarm conditions. Built-in time weighted average (TWA) alarms and short-term exposure limit (STEL) alarms provide an even greater margin of safety for the user. A custom display provides easy-to-view information including: • gas concentration• time remaining (months) until replacement is needed • battery low alert• calibration activation.SPECIFICATIONSSensor: Carbon Monoxide (CO); Electrochemical Operating Temperature: -4 to 122° F (-20 to 50° C) Humidity: 15 to 90% RH (Non-condensing) Duty Cycle: Continuous Display Resolution (Range): 1 ppm (0-999 ppm); 0.01% Volume (1000-2000 ppm) Response: T 90 < 30 seconds Visual Alarm: LEDs and display (low battery,sensor life, calibration status)Sound Alarm: 90dB @ 12” (30 cm) Touch Alarm: Vibration Power: Lithium battery Size: 3.81” x 2.31” x 0.80”(9.67 cm x 5.87 cm x 2 cm)Weight: 3.6 oz (105 g) Battery Life: 2+ years Housing: IP65 environmental resistance;Rubberized and impact-resistantMounting: Durable belt clip and lanyard loopConstruction: The Snifit+ is constructed of durable ABS plastic. The top housing is further protected with a shockabsorbing material to protect the Snifit+ from the rigors of field use. The unit is sealed for an IP65 environmental resistance rating.Operation: Two buttons operate the Snifit+ . The left button () is for power. The right ( ) is for zeroing andcalibrating. The Snifit+ supports “continuous on” opera-tion. The CO sensor and battery are designed for 2 years of continuous normal use.Sensor: The sensor opening is on the front of the Snifit+ .Mounting: The instrument may be attached using themetal lanyard loop or the sturdy suspender clip on the back of the instrument.Alarm Components: The front of the instrument has an opening for the audible alarm (which is sealed to maintain the integrity of the IP65 rating). Multiple LEDs beneath the frosted area create a visual warning that is bright even in sunlight.NOTE: The Snifit+ cannot be powered off or zeroed when in alarm mode. Alarm Limits: The Snifit+ has two basic styles of alarm: • Low Alarms: Indicators activate at 2 sec intervals • High Alarms: Indicators activate at 1 sec intervals.The audible (sound), visual (LEDs), and vibrating alarms are sequenced during alarms. The alarm settings are defined during the set-up of the instrument. The instrument’s default alarm limits are factory-preset to the values shown below:LOW: 35 ppm TWA: 50 ppm HIGH: 200 ppm STEL: 75 ppm Extended Range Operation: All readings from 1000 ppm to 2000 ppm are displayed as “_10%” to “_19%”. The underscore represents a decimal point. Levels detected above “_19%” display “OL”.STARTUPPress to start the Snifit+ in an area known to be CO gas free and with normal oxygen content. The following will display as a normal start up sequence. 1. All segments and icons will activate. 2. Gas type to be sensed will be displayed. 3. Software version is shown. 4. Temperature in °C is shown.5. Alarms will sound, illuminate and vibrate.6. “LO” Low alarm setpoint displays.7. “HI” High alarm setpoint displays.8. “tA” TWA alarm setpoint displays (if applicable). 9. “StL” STEL alarm setpoint displays (if applicable). 10. “Sn” Serial Number displays.11. Displays remaining life, in months.12. All segments flash for 6 seconds indicating zeroing. 13.The working display is shown.If the Snifit+ is in an area that is not gas free, “BAD” will illuminate after the automatic zeroing followed by a read-ing based on factory zero set points.BUMP TESTTo verify the operation of the instrument, a bump test should be done prior to each day’s use. Bump test failure may indicate a product failure or the need for calibration. To perform a bump test, turn on theSnifit+and wait forthe working display to be shown. Apply test gas using thecalibration adapter. Flow should be 200-400 cc/min. As-suming an alarm setpoint is less than the applied gas con-centration, an alarm should occur in less than 20 seconds.WARNING: Follow federal, state, local and com-pany regulations as they relate to the use of this product.PLACEMENT: Attach the Snifit+ to the outermost garment as close to your head/face as practical.ALARMS: Alarms will indicate unsafe levels. The display will show concentration data in combination with audible, visual and vibration indications. TWA alarms can be acknowledged for 10-minute intervals by pressing either button.MANUAL ZERO: Manual zeroing should only be done in an atmosphere known to be CO gas free and containing nor-mal oxygen levels. Press for 2-3 seconds and release. All segments of the display will flash followed by the working display.OVER RANGE: Exposure to CO gas in excess of 2000 ppm will result in “OL” being displayed with the high alarm activated.OPERATION TIME: To view the remaining operation time,press for 2-3 seconds and release. The Snifit+ will dis-play the time remaining in months, then perform a zero. BATTERY DIAGNOSTICS: BAT indicates low battery output and service will be needed soon.WARNING: Only factory trained personnel should perform any internal servicing.BAT + LO indicates that the Snifit+ should be immediately taken out of service.SYSTEM DIAGNOSTICS: I2C indicates a communication error in the EEPROM. Factory service is required.WARNING: Only factory trained personnel should perform any internal servicing.SHUTDOWN: To turn off, press and hold the POWER but-ton () for approximately 6 seconds until “OFF” is dis-played, then release the button. The Snifit+ cannot be powered off (or zeroed) when in alarm mode.P/N: 0019-9371 Rev 0Copyright 2013 © Bacharach, Inc.All Rights Reserved1. When the Snifit+ starts, press both buttons together ( + ) after the Gas Type is displayed, then re-lease… ORFrom the working display, push both buttons simulta-neously ( + ) and release. The unit will display “Pin”. Press either key to display 900.2. Press to scroll up to 980, then push . Roll-over occurs after 998 then restarts at 900. The display will show “Con” for Continuous On operation. • Press to adjust mode.• Press to toggle mode (Yes or No). Note: Con-tinuous On mode (Yes) disables the Power But-ton ( ) and the TWA alarm. • Press to save the setting.The display will now show “LO” for the low alarm.3. Press to adjust the “LO” alarm. The current setting will be displayed.4. Press to adjust the alarm (roll-over after 300).5. Press to save the alarm setting. The Snifit + will now display “HI”.6. Press to adjust the “HI” alarm. The current setting will be displayed.7. Press to adjust the alarm (roll-over after 300).8. Press to save the alarm settings. The Snifit + will now display “tA” for TWA.9. Press to adjust the TWA alarm. The current setting will be displayed.10. Press to adjust the alarm (roll-over after 125).11. Press to save the alarm settings. The Snifit + will now display “StL” for STEL.12. Press to adjust the STEL alarm. The current setting will be displayed.13. Press to adjust the alarm (roll-over after 300).14. Press to save the alarm settings. Snifit + will exit the menu and perform an auto zero automatically.Turn on the Snifit+ . The working display is shown. Allow the unit to remain on for 2 minutes prior to beginning the calibration process. 1. Prepare the 100 ppm CO gas cylinder and regulator with the calibration adapter attached. The flow should be 200-400 cc/min.2. Press and hold until the display reads “GAS”.3. Attach the calibration adapter.4. Start the gas flow.5.Press . The CAL icon will flash.6.Successful calibration is indicated when only the gas concentration is displayed. The CAL icon will no longer be illuminated. Bad calibration will be indi-cated by the word “BAD” and the CAL icon on the display. Press to acknowledge a bad calibration, then retry.WARRANTY AND PRODUCT SUPPORTBacharach warrants to the buyer that the Snifit+ will be free from material defects, free from manufacturing de-fects, and will conform substantially to Bacharach’s appli-cable specifications at the time of delivery.Bacharach’s liability and the buyer’s remedy under this warranty are limited to the repair or replacement, at Bacharach’s option, of this product or parts thereof re-turned to Bacharach and shown to Bacharach’s reasonable satisfaction to have been defective; provided that written notice of the defect is given by buyer to Bacharach within two (2) years after the date of delivery of this Product by Bacharach. Internal repair must be completed by a Bacha-rach authorized technician. Violation will void warranty.Register your warranty by visitingFor product support or additional information contact Bacharach at 724-334-5000 or 1-800-736-4666.To adjust the date/time manually, enter the menu by sim-ultaneously pressing both buttons ( + ) then releasingthem. (The Snifit+ will force the user to update the time if it is invalid during startup.)The Snifit+ shows “Pin”. Press and release either button to show “900”. Press to increase the number to 925. The display rolls over to 900 when it exceeds 998. Press and release . Next:1. The Snifit + will beep continuously if invalid at startup and show “rtc”. Press either button.2. The display shows “Yr”. Press either button. Snifit + shows the last two digits of the current year.3. Press to increase year (roll-over occurs after 50). Adjust to desired “Yr”.4. Press to accept the desired “Yr”.5. The month icon and current month are displayed.6. Press to increase month (roll-over after 12). Adjust to desired “MO”.7. Press to accept the desired “MO”.8. The display shows “dd”. Press either button. Display shows the current date.9. Press to increase the day (roll-over after max num-ber of days for selected month). Adjust to desired “dd”.10. Press to accept the desired “dd”.11. The display shows “Hr”. Press either button. Snifit + shows the current hour in the 24-Hour format (no AM/PM selection).12 Press to increase the hour (roll-over after 23). Adjust to desired “Hr”.13 Press to accept the desired “Hr”.14. The display shows “nn”. Press either button. Snifit + shows the current minute.15. Press to increase the minute (roll-over after 59). Adjust to desired “nn”.16. Press to accept the desired “nn”.World Headquarters621 Hunt Valley Circle, New Kensington, Pennsylvania 15068 Phone: 724-334-5000 Toll Free: 1-800-736-4666 Fax: 724-334-5001Website:E-mail:********************。

Headquarters: 8200 Market Boulevard | Chanhassen | MN 55317 | USATel: +1 (973) 239-8398 | +1 (800) 452-2107 (US only) | Fax: +1 (973) 239-7614 | Houston: +1 (832) 321-5229E-mail:*********************|FEATURES & BENEFITS 40/40UFI Ultra Fast Triple IR (IR3) Flame Detector Superior performance, reliability and immunity to false alarmsThe new 40/40UFI, an Ultra-Fast multi-spectrum IR3 Flame Detector, detectshydrocarbon fuel and gas fires at longdistances, and is especially designed todetect an explosive 1 ft (0.3m) diametergas cloud explosion in max. 50 msecs for1ft diameter sphere methane-air mixtureexplosion at 66 ft (20m) with the highestimmunity to false alarms. The 40/40UFIIR3 can also detect a 1 ft 2 (0.1m 2) gasoline/n-Heptane pan fire at up to 300 ft (90m).The 40/40UFI is part of the 40/40 Series,the most durable and weather resistantrange of flame detectors currently on themarket. Features include a heated window,to eliminate condensation and icing; HARTcapability for digital communications;lower power requirements; and a compact,lighter design. Due to increased reliability,the 40/40 Series warranty period has beenextended to 5 years and is SIL2 (TUV)approved per IEC 61508.Offshore Oil & Gas installations Onshore Oil & Gas installations and pipelines Chemical plants Petrochemicals plants Storage Tank farmsAircraft hangars • Multi Spectrum Design - for long distance detection and high false alarm immunity• High Speed Response - 50 msec • Sensitivity Selection - to ensure no zone crossover detection• Automatic Built-In-Test (BIT) - to assure continued reliableoperation• Heated window - for operation in harsh weather conditions(snow, ice, condensation)• Multiple output options for maximum flexibility andcompatibility- Relays (3) for Alarm, Fault and Auxiliary- Analogue output for fast detection- 0-20mA (stepped)- HART Protocol for maintenance and asset management- RS-485, Modbus Compatible• High Reliability - MTBF - minimum 150,000 hours• Safety Integrity Level SIL2 (TUV)• 5-Year Warranty • User Programmable via HART or RS-485• Hazardous area zones: - Zones 1 & 2 with IIC gas group vapors present - Zones 21 & 22 with IIIC dust type present • Ex approved to: - ATEX & IECEx - FM/FMC/CSA - TR CU (EAC)• 3rd party Performance - EN54-10 (VdS) - FM3260 (FM)Power Generation facilities Pharmaceutical Industry Printing Industry Warehouses Automotive Industry Explosives & MunitionsWaste Disposal facilities40/40R 40/40U-UB 40/40L4-L4B 40/40UFL 40/40L-LB 40/40I 40/40M 40/40UFISpectral Response Three IR Bands Detection Range Fuel ft / m Fuel ft / m Fuel ft / m (at highest Sensitivity Setting n-Heptane 300 / 90 Kerosene 205 / 62 Methane* 205 / 62for 1ft 2 (0.1m 2Gasoline 300 / 90 Ethanol 95% 185 / 55 LPG* 205 / 62High Speed Response 50 msec for 1ft diameter sphere methane-air mixture explosion at 66ft (20m)Response Time Typically 2 sec at 131ft (40m) Typically 10 sec at 300ft (90m)Adjustable Time Delay Up to 30 seconds Field of View Horizontal 90º; Vertical 90º Built-in-Test (BIT) Automatic Temperature RangeOperating: -67ºF to +167ºF (-55ºC to +75ºC)Option: -67ºF to +185ºF (-55ºC to +85ºC)Storage: -67ºF to +185ºF (-55ºC to +85ºC)Humidity Up to 95% non-condensing (withstands up to 100% RH for short periods) Heated OpticsTo eliminate condensation and icing on the window Operating Voltage 24 VDC nominal (18-32 VDC)Power ConsumptionStandby: Max. 90mA (110mA with heated window)Alarm: Max. 130mA (160mA with heated window)Cable Entries 2 x 3/4" - 14NPT conduits or 2 x M25 x 1.5 mm ISO Wiring 12 - 22AWG (0.3mm 2 - 2.5mm 2)Electrical Input Protection According to MIL-STD-1275B Electromagnetic Compatibility EMI/RFI protected to EN61326-3 and EN61000-6-3SPST volt-free contacts rated 2A at 30 VDC Analogue Output 4.75 - 5.25 V at detectionBIT Fault: 2mA ± 10% Alarm: 20mA ± 5%Normal: 4mA ± 10% Resistance Loop: 100-600 ΩHART Protocol Optional HART communications on the 0-20mA analog current (FSK) - used for maintenance, Dimensions Detector 4" x 4.6" x 6.18" (101.6 x 117 x 157 mm)WeightDetector (St.St.) 6.1 lb (2.8 kg) Tilt mount 2.2 lb (1.0 kg) Detector, aluminum 2.8 lb (1.3 kg)Environmental Standards Meets MIL-STD-810C for Humidity, Salt & Fog, Vibration, Mechanical Shock, High Temp, Low Temp Water and Dust IP66 and IP67 per EN60529, NEMA 250 6PPerformance EN54-10 (VdS) FM3260Reliability IEC61508 - SIL2 (TUV)Tilt Mount 40/40-001 789260-1 (3” pole) *777263 (Plastic)Duct Mount 777670 USB RS485 Harness Kit 794079 *Supplied free of charge with the detectorFor more information view manual or website Ex db eb op is IIC T4 Gb Ex db eb op is IIC T4 Gb Ex tb op is IIIC T96°C Db Ex tb op is IIIC T106°C Db (-55°C ≤ Ta ≤ +75°C) (-55°C ≤ Ta ≤ +85°C)FM/FMC/CSA Class I Div. 1, Groups B, C & D Class II/III Div. 1, Groups E, F & G TR CU (EAC) 1 Ex db eb op is IIC T4 Gb X Ex tb op is IIIC T96°C Db X (–55°C ≤ Ta ≤ +75°C) 1 Ex db eb op is IIC T4 Gb X Ex tb op is IIIC T106°C Db X (–55°C ≤ Ta ≤ +85°C) 1 Ex db eb mb op is II T4 Gb X Ex tb op is IIIC T98°C Db X (–55°C ≤ Ta ≤ +75°C)。

Effective: January 2017K-84-200AEGIS ™ 2.0Conventional Fire Alarm-Suppression Control UnitFEATURES•Suppression Focused Control Unit•Triple R Redundancy Provides Maximum Protection Against Inadvertent Release •Agency Approvals•FM Approved to ANSI 864, 9th edition and NFPA 72(2002)•UL Listed to ANSI 864, 9th edition •California State Fire Marshal•City of New York Fire Department•Listed for a Wide Range of Suppression Systems:•Kidde ECS HFC-227ea and FK-5-1-12 •Kidde ADS HFC-227ea and FK-5-1-12 •Kidde HP CO2•Kidde IG Argonite & Nitrogen •Kidde FE-13•Fenwal Spheres •Fenwal BDCs•Kidde IND TM Dry Chemical & WHDR TM Wet ChemicalSystems•Sprinkler Supervisory Service•Deluge, Pre-Action, Foam, Foam-Water Systems •Combination Clean Agent plus Pre-Action System •Option with Door Mounted Abort and Manual Release Switches Available•Built-in Class-A and Class-B Circuitry•Listed for use with Kidde, Fenwal and Chemetron agent release devices including Control Heads and Initiators •Sophisticated Programmable NACs•Independently Programmable Agent Releasing Circuits •Compact Cabinet Design Supports Large Number of Input and Output Circuits • 3 Detection Circuits • 2 Supervisory Circuits•Option to Use SUP 1 as 4th Detection Circuit • 1 Manual Release Circuit• 1 Abort Input Circuit (with 6 Abort Modes)• 3 Notification Appliance Circuits • 2 Release Circuits• 3 Programmable and 1 Trouble Form-C Relays • 1 Auxiliary Power Output, 1 Amp • 5.4 Amp Power Supply Unit •120/240 V, 50/60 Hz AC Input•Easy-to-Use User Interface and Display •Flexible Configuration Options •Password Protected•Digital Release Countdown•Battery Voltage and Charging Current Display •Charging Capacity of 68 AH •Extensive Diagnostics •Backwards CompatibleDESCRIPTIONThe Kidde AEGIS TM 2.0 is a Conventional Single Hazard Agent Releasing Unit which provides configuration flexibility in a compact footprint to protect life and assets in commercial, high-tech and industrial applications. The AEGIS 2.0 control unit has a NEMA1 enclosure and an option for door mounted Manual Release and Abort switches to avoid the additional expense of wall mounting these items.The AEGIS 2.0 is well equipped to handle all special hazard extinguishing systems due to the high degree of programming flexibility provided and the following full complement of input and output circuits:•Three (3) Class A or Class B Detection Circuits •Two (2) Class A or Class B Supervisory Circuits •Option to Use SUP 1 as Fourth Detection Circuit •One (1) Class A or Class B Manual Release Circuit •One (1) Class A or Class B Abort Input Circuit•Three (3) Class A or Class B Notification Appliance Circuits •Two (2) Class B Agent Release Circuits•Three (3) Programmable and 1 Trouble Form-C Relays- 2 -DETECTION CIRCUITSThe Detection Circuits support Conventional 700 Series,CPD-705x Ionization Smoke, PSD-715x Photoelectric Smoke and THD-705x Heat Detectors as well as Normally Open contact closure type devices. Two circuits are dedicated to the main suppression function and can be programmed to activate the release circuits by either single-shot or cross-zone input. The user configuration allows automatic release via detection to be delayed from 0 to 60 seconds in 10-second intervals and also allows a choice of which of the two Agent Release Circuits to activate.The third Detection Circuit is programmable for either Waterflow or as an independent Detection circuit. When programmed for Waterflow, Notification Appliance Circuits can be programmed as Non-Silenceable as required by certain jurisdictions. Additionally, the Supervisory 1 circuit can be configured to be the fourth detection circuit.SUPERVISORY CIRCUITSThe Supervisory Circuits accept Normally Open contact closure type devices such as pressure switches on the agent cylinders or on the water or air pipe network. The system configuration enables the supervisory input to be a participant in the suppression function. For example,low air supervisory can be included with detection for release of pre-action systems as required by certain jurisdictions.MANUAL RELEASE AND ABORT CIRCUITSBoth the Manual Release and Abort Circuits accept Normally Open contact closure type devices. Activation of the Agent Release Circuits can either be instantaneous or delayed up to 30 seconds (maximum)upon receipt of Manual Release input. Agent release can be temporarily delayed by activating the Abort Circuit.The Abort input can be programmed for 6 modes of operation. These include the UL 10-second mode, the full-delay mode, the IRI mode, two NYC modes, or the abort can be disabled. Aborts can also be programmed to be applicable for either one (ARC 1) or both Agent Release Circuits thereby allowing use with Deluge/Pre-Action systems.NOTIFICATION APPLIANCE CIRCUITS (NAC)The three Notification Appliance Circuits are rated 1.5Amps each and accept polarized 24 VDC Notification Appliances. Each circuit is driven independently and is user configurable for First Alarm, Pre-Release, and Releasing as well as for 60 BPM, 120 BPM, Temporal, or Continuous pattern.The control unit supports appliances that provide the option to use silenceable horns and non-silenceable strobes on the same NAC. Multiple NAC circuits (connected to audible devices only) programmed with the same master code pattern are synchronized, regardless of any differing starting times that preceded their concurrent operation. The NACs configuration includes a user-selectable intelligent synchronization feature which allows a silenceable horn to be shut off while the strobe continues to flash in synchronized fashion.TB1TB2TB3TB4TB5TB6TB7TB8TB9TB10TB11TB12TB17TB16TB15TB14TB19TB18TB13DETECTOR 1DETECTOR 2DETECTOR 3RELEASE ABORT TROUBLE 321BATT OUT AC INRELEASE 1ARC 1RELEASE 2ARC 2AUX 24 VDCNAC 3NAC 2NAC 1AC SUPPLY SELECT SWITCH (S6)DETECTOR 4SUPERVISORY 2Figure 1. Printed Circuit Board (PCB)BUILT-IN CLASS A AND B CIRCUITRYFor the input and NAC circuits, the choice of Class A or Class B supervision is made at site on the board itself by selecting the terminals used for wiring. Neither conversion boards nor additional hardware nor jumper selection is required for this purpose.AGENT RELEASING CIRCUITS (ARC)The two circuits can be programmed for activation by different inputs, with independent time delays and abort modes to fire combinations of two of the following releasing devices:• 1 or 2 Kidde Continuous and Momentary Solenoid Control Heads• 1 Kidde Actuator or Fenwal Initiator• 1 Factory Mutual Group A, B, D, E, F, G, I, J, or K SolenoidIn other words, operating in tandem, the two circuits can release:• 1 or 2 Control Heads on ARC 1 and 1 or 2 Control Heads on ARC 2• 1 or 2 Control Heads on ARC 1 and 1 Actuator/ Initiator on ARC 2 or vice-versa• 1 or 2 Control Heads on ARC 1 and 1 FM Sprinkler Solenoid on ARC 2 or vice-versa• 1 Actuator/Initiator on ARC 1 and 1 Actuator/Initiator on ARC 2• 1 FM Solenoid on ARC 1 and 1 FM Solenoid on ARC 2This configurability is useful for those jurisdictions where the gaseous suppression agent is required to be supplemented with a pre-action system.TRIPLE-R PROTECTION FOR ARCSThe two ARCs feature a triple failure redundancy safeguard system to protect them from inadvertent activation by the main microprocessor. The Triple-R system requires that in order to activate an ARC, the main microprocessor issues two release commands of opposing polarity via separate channels and that these commands be combined with a third signal from the panel watchdog timer to confirm the microprocessor operation. The Triple-R system ensures that electrical transients or disturbances such as power surges that could interfere with the operation of the main microprocessor will not inadvertently activate the connected suppression system. The result is a more robust and reliable suppression-focused panel.PROGRAMMABLE RELAYSOf the 4 relays, three are user-programmable for a variety of alarm related conditions and the fourth is a dedicated trouble relay. All relay contacts are rated 3.0 Amps at 30 VDC/120 VAC (resistive).POWER-LIMITED CIRCUITRYAll circuits are inherently power-limited. ARCs can be configured for power-limited or non-power-limited operation. One in-line releasing device is required for each solenoid on a power limited ARC. In-line releasing devices are not included with the panel; the appropriate number of in-line releasing devices should be ordered using part number 06-220023-001.ROBUST POWER SUPPLY UNIT (PSU)The AEGIS 2.0 features a universal 120/240 V, 50/60 Hz AC Power Supply Unit with a robust 5.4 Amps of 24 VDC power. Input voltage selection is via a slider switch with no jumper cutting required. The on-board battery charger is able to charge 24 VDC (2 x 12) batteries of capacity up to 68 AH thereby allowing from 24 hours of supervision plus 5 minutes of alarm to 90 hours of supervision plus 10 minutes of alarm required by some jurisdictions. AUXILIARY POWER SUPPLYUp to 1 Amp of auxiliary power at 24 VDC is available to power external 4-wire devices such as Flame Detectors, AlarmLine modules, Duct Detectors, etc. The auxiliary power output is resettable.ELEGANT USER INTERFACEThe user interface consists of an array of LED Indicators, Control Switches, a Digital Display, and Buzzer. Over and above the System, Power Supply status, Input circuit Fire and Trouble and Output circuit Trouble LEDs, the AEGIS 2.0 annunciates its suppression state-of-alarm via three additional Pre-Release, Releasing and Post Release LEDs. Four switches are provided, one each for Acknowledge, Signal Silence, System Reset and Output Disable. The 3-digit display provides a countdown of impending agent release. On command from the user interface switches, it also indicates the battery open circuit voltage and charging current.SIMPLE SITE-SPECIFIC CONFIGURATIONSetting the site-specific configuration is easily done using the digital display and user interface buttons. To prevent unauthorized use, the configuration menu is protected by a user-changeable password. Factory technical support can provide assistance with lost or forgotten passwords. Apart from the input voltage selection performed on both the PSU and main board via a slider switch, no other on-board settings or jumper cuttings are required. EXTENSIVE DIAGNOSTICSAlso initiated via the digital display and user interface switches, the troubleshooting function displays diagnostic codes that assist in determining causes of trouble. A complete list of diagnostic codes and their meaning ships factory installed on the inside of the enclosure door for easy reference.- 3 -BACKWARDS COMPATIBILITYThe AEGIS 2.0 is backwards compatible and listed for use with a full range of conventional detectors and alarm devices as well as suppression accessories from Kidde, Fenwal and Chemetron. Going forward, this will allow legacy panels to be replaced with relative ease.EASY TO INSTALL CABINETThe cabinet design allows for easy installation by fitting between the studs of a standard 16 inch studded wall. It is large enough to house two 12 VDC, 12 AH Batteries and provides up to 2 inches (51 mm) of wiring and finger space between the circuit board and the cabinet wall. An optional door design features a Manual Release and Abort switch for applications with space constraints. Both switches incorporate guards that prevent their inadvertent activation.TECHNICAL SPECIFICATIONS•Hazards Protected- One•Power Supply- 120/240 V, 50/60 Hz (90 to 264 Vrms, 47 to 63 Hz)AC Main Input- 5.4 Amps at 27 VDC Output- Battery capacity up to 68 AH @ 24 VDC- Auxiliary power output rated at 1 Amp at 18.8 - 27.6VDC (resettable)•Three (3) or Four (4) Detection Circuits- Compatible with 700 Series, CPD-705x, PSD-715x,and THD-705x detectors as well as Normally Opencontact closure type devices. Refer to documentsK-70-100 and F-70-63 for details on compatibilityand the maximum number of devices supported.- Configurable as Class A/Style D or Class B/Style B - Supervised for ground faults and open circuits- Power limited- DET 1 and DET 2 used for suppression- DET3/WF configurable for detection or waterflow- Option to use SUP 1 circuit as DET 4 circuit •One (1) Manual Release Circuit- Compatible with normally open contact-closure typedevices- Configurable as Class A/Style D or Class B/Style B - Supervised for ground faults and open circuits- Power limited TECHNICAL SPECIFICATIONS (cont’d)•One (1) Abort Circuit- Compatible with normally open contact-closure type devices- Configurable as Class A/Style D or Class B/Style B - Supervised for ground faults and open circuits- Six (6) Abort Modes available- Power-limited•Two (2) Supervisory Circuits- Compatible with normally open contact-closure type devices- Configurable as Class A/Style D or Class B/Style B - Option to use SUP 1 as 4th detection circuit- Supervised for ground faults and open circuits- Power-limited•Three (3) Notification Appliance Circuits (NACs) - Compatible with polarized 24 VDC Audio-Visualdevices- Rated at 1.5 Amps each- Up to 35 synchronized appliances- Configurable as Class A/Style Z or Class B/Style Y - Supervised for ground faults, shorts, and opencircuits- Power-limited- Common NAC/ARC output disconnect switch •Two (2) Agent Release Circuits- Each compatible with 1 or 2 control heads, or 1actuator/initiator, or 1 FM sprinkler solenoid- Circuits electrically capable of simultaneouslyreleasing any combination of two of the abovedevices- Factory configured as Class B/Style Y- Supervised for ground faults and open circuits- Default setting: Power-Limited. Each solenoid on apower-limited ARC requires the use of an in-linereleasing device, P/N 06-220023-001 (orderseparately, not included with panel).- Common NAC/ARC output disconnect switch •Four (4) Relays- 3 independently programmable, normally de-energized Form-C Relays- 1 dedicated normally energized Form-C TroubleRelay- Relay contacts rated 3 Amps at 30 VDC/120 VAC(resistive)- 4 -- 5 -TECHNICAL SPECIFICATIONS (cont’d)•Enclosure- NEMA 1 rated 18 gauge sheet steel with door - Red color- Suitable for wall and surface mounting - Optional Trim Ring- Optional door with Manual Release and Abort switches-Optional Dead Front Plate - Dimensions:- with Standard Door:14-1/4 in. W x 5 in. D x 19 in. H (362 mm x 127 mm x 483 mm) - with Switch Door:14-1/4 in. W x 6 in. D x 19 in. H (362 mm x 152 mm x 483 mm)•Environmental Criteria- Indoor/Dry use only- Operating temperature range: 32°F to 120°F (0°C to 49°C)- Humidity: 93 ± 2% RH at 90 ± 3°F (32 ± 2°C)•Packaging/Shipping- Enclosure, PCB, and PSU packaged in individual cartons. Field assembly is required.- Accessories shipped include mounting hardware, battery leads, IOM manual on CD-ROM, operating instruction sheet, and EOL resistor kit.- Order in-line releasing device (required for power-limited ARCs) and batteries separately.ORDERING INFORMATIONDescriptionPart Number Kidde AEGIS 2.0 Control Unit 84-732001-901Kidde AEGIS 2.0 Control Unit with Switches84-732001-902In-Line Releasing Device 06-220023-001Dead Front Plate 06-220175-001EOL Resistors (10 pk)06-220184-001Trim Ring76-600000-007Large Capacity Battery Enclosure 76-100010-001Installation/Configuration Kit06-220148-902Replacement Hardware Installation Kit 06-220149-001Replacement Enclosure Assembly 06-220172-902Replacement Enclosure Assembly (with Switches)06-220174-902Replacement Door Switches Kit 06-220176-001Replacement PCB Assembly 06-220150-901Replacement Power Supply 06-118394-002Replacement Bezel Assembly 06-220151-001Spare Key06-118013-001Spare Keylock with Keys06-129924-001400 Main StreetAshland, MA 01721 USA Tel: 508.881.2000This literature is provided for informational purposes only. KIDDE-FENWAL, INC. believes this data to be accurate, but it is published and presented without any guarantee or warranty whatsoever. KIDDE-FENWAL, INC. assumes no responsibility for the product's suitability for a particular application. The product must be properly applied to work correctly. If you need more information on this product, or if you have a particular problem or question, contact KIDDE-FENWAL, INC., Ashland, MA 01721 USA. Telephone: (508) 881-2000.K-84-200 Rev AC © 2017 Kidde-Fenwal Inc.AEGIS is a trademark of Kidde-Fenwal, Inc.All other trademarks are the properties of their respective owners.For detailed installation, operation, and configuration information, refer to the Kidde AEGIS 2.0 Conventional Fire Alarm-Suppression Control Unit Installation, Operation, and Maintenance Manual P/N 06-237463-001.EXPORT INFORMATION (USA): Jurisdiction: EAR, US ECCN: EAR99 This document contains technical data subject to the EAR.。