MODEL FL3102. Digital Frequency Infra-Red (DFIR) Flame Detector MANFL3102. Instruction Manual 07-08

Size: px
Start display at page:

Download "MODEL FL3102. Digital Frequency Infra-Red (DFIR) Flame Detector MANFL3102. Instruction Manual 07-08"

Transcription

1 MODEL FL3102 Digital Frequency Infra-Red (DFIR) Flame Detector The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized in writing by General Monitors. Instruction Manual General Monitors reserves the right to change published specifications and designs without prior notice. MANFL3102 Part No. Revision MANFL3102 D/07-08

2 Warranty Model FL3102 General Monitors warrants the Model FL3102 to be free from defects in workmanship or material under normal use and service within two (2) years from the date of shipment. General Monitors will repair or replace without charge any such equipment found to be defective during the warranty period. Full determination of the nature of, and responsibility for defective or damaged equipment will be made by General Monitors personnel. Defective or damaged equipment must be shipped to General Monitors plant or representative from which the original shipment was made. In all cases this warranty is limited to the cost of the equipment supplied by General Monitors. The customer will assume all liability for the misuse of this equipment by its employees or other personnel. All warranties are contingent upon proper use in the application for which the product was intended and do not cover products which have been modified or repaired with out General Monitors approval or which have been subjected to neglect, accident, improper installation or application, or on which the original identification marks have been re moved or altered. Except for the express warranty stated above, General Monitors disclaims all warranties with regard to the products sold, including all implied warranties of merchantability and fitness and the express warranties stated herein are in lieu of all obligations or liabilities on the part of General Monitors for damages including, but not limited to, consequential damages arising out of/or in connection with the performance of the product. Warnings WARNING - Through engineering design, testing, manufacturing techniques, and rigid quality control, General Monitors supplies the finest flame detection systems available. The user must recognize his responsibility for maintaining the flame detection system in operational condition. WARNING - The Model FL3102 DFIR Flame detector contains components, which can be damaged by static electricity. Special care must be taken when wiring the system, to ensure that only the connection points are touched. SAFETY WARNING - Installation and Maintenance must be carried out by suitably skilled and competent personnel only. TOXIC, COMBUSTIBLE AND FLAMMABLE GASES & VAPORS ARE VERY DANGEROUS. EXTREME CAUTION SHOULD BE USED WHEN THESE HAZARDS ARE PRESENT. i

3 System Integrity Verification Model FL3102 General Monitors mission is to benefit society by providing solutions through industry leading safety products, services and systems that save lives and protect capital resources from the dangers of hazardous flames, gases and vapors. The safety products you have purchased should be handled carefully and installed, calibrated and maintained in accordance with the respective product instruction manual. Remember these products are for your safety. To ensure operation at optimum performance, General Monitors recommends that certain maintenance items be performed. Commissioning Safety Systems Before power up, verify wiring, terminal connections and stability of mounting for all integral safety equipment including, but not limited to: Power supplies Control modules Field detection devices Signaling / output devices Accessories connected to field and signaling devices After the initial application of power (and any factory specified warm-up period) to the safety system, verify that all signal outputs, to and from devices and modules, are within the manufacturers specifications. Initial testing should be performed per the manufacturers recommendations and instructions. Proper system operation should be verified by performing a full, functional test of all component devices of the safety system, ensuring that the proper levels of alarming occur. Fault/Malfunction circuit operation should be verified. Periodic Testing of Field Devices Periodic testing/calibrating should be performed per the manufacturers recommendations and instructions. Testing/Calibrating procedures should include, but not be limited to: Verify integrity of all optical surfaces and devices For flame detectors, use the appropriate test lamp When testing produces results outside of the manufacturers specifications, replacement of the suspect device(s) should be performed as necessary. Maintenance intervals should be independently established through a documented procedure, including a Maintenance log maintained by plant personnel or third party testing services. ii

4 Periodic System Verification The following system verifications should be performed at least annually: Verify wiring, terminal connections and stability of mounting for all integral safety equipment including, but not limited to: Power supplies Control modules Field detection devices Signaling / output devices Accessories connected to field and signaling devices Proper system operation should be verified by performing a full, functional test of all component devices of the detection system, ensuring that the proper levels of alarming occur. Fault/Malfunction circuit operation should be verified. Maintenance intervals should be independently established through a documented procedure, including a maintenance log maintained by plant personnel or third party testing services. iii

5 Quick Start Guide 1.0 Quick Start Guide 1.1 Upon Receipt of Equipment All items shipped by General Monitors are packed in shock absorbing containers, which provide a considerable degree of protection against physical damage. When received, the contents should be carefully removed and checked against the enclosed packing slip. All subsequent correspondence with General Monitors must specify the equipment part number and serial number. 1.2 Choosing Detector Locations Several variables are involved in selecting the locations to install detectors to ensure proper flame detection. There are no hard and fast rules defining the optimum location. There are some general suggestions that should be considered in regard to particular conditions at the site where the unit(s) are being installed: Detector Field of View Each Model FL3102 Flame Detector has a 120 maximum Cone of Vision. This Cone has its vertex at the center of the detector (see Figure 1) Optical Sensitivity Range The distance at which the detector will respond to a flame is a function of the intensity of that flame. The maximum distance is 50 feet (15.2m) for a gasoline fire with a surface area of 1 square foot (0.92m 2 ) Environmental Factors Mounting should be as free from shock and vibration as possible and convenient for visual inspection and cleaning. Detectors mounted in dirty atmospheric conditions will require more frequent inspection, cleaning, and sensitivity checking. Observe the ambient temperature range for the specific model (see Section Environmental Specifications). For outdoor installations or other areas exposed to intense, direct solar radiation, the detector may reach temperatures well above specifications. For this condition, a cover for shade may be required to bring the detector temperature within specifications. As with any cover or object near-by, make sure the field-of-view of the detector is not obstructed. Avoid conditions of ice build up on the optical detector windows. Complete icing-over of the IR detector window can result in fault conditions. i

6 Quick Start Guide 1.3 Detector Installation The Model FL3102 Detector is an explosion proof assembly rated for use in Class I, Divisions 1 & 2, Group B, C & D, Class II, Group E, F & G, and Class III areas. The detector(s) should be mounted pointing downward so that dust/moisture will not accumulate on the IR windows. The detector(s) should be mounted in locations, which will inhibit people or objects from obscuring the detector s Cone of Vision. NOTE Before installing these units, please read the warning statement on page 13 of this manual. These units must have a conduit seal installed. Mounting hardware should be used as shown in Figures 2 and 3. NOTE The swivel ( ) is rated for Class I, Div 1 & 2, Groups C & D. Use mounting bracket for Group B areas. The overall dimensions of the detectors and mounting hardware are shown in Figure 4. ii

7 Quick Start Guide Figure 1 FL3102 Field of View iii

8 Quick Start Guide Figure 2 Swivel Elbow Drawing (Class I, Div 1&2, Groups C&D) REF HOLE : 4X Ø.26[6.6] 3.75[95.3] 5.00[127.0] [71.12] 4.66[118.4] 2.80[71.12] REAR VIEW WALL MOUNTING 4X M6 X 14 4X M6 WASHER BRACKET ASSEMBLY Figure 3 Mounting Bracket Drawing (Class I, Div 1&2, Groups B,C&D) iv

9 FIELD TERMINATIONS Model FL3102 Quick Start Guide TB2 TB1 CHAS GND 1 10 COM ALM C 2 9 COM ALM VDC ALM 2 4 WARN C VDC DATA- DATA2- WARN 1 WARN mA DATA2+ ALMTEST FLT C 8 3 RESET FLT FLT DATA+ Figure 4 FL3102 Outline Drawing WARNING General Monitors requires that the conduit entry be sealed per the Canadian Electrical Code Handbook (Part 1, Section ). Conduit seals prevent water from entering the units housing through the conduit entry. Water entering the housing through the conduit entry will damage the electronics and nullify the warranty. v

10 Quick Start Guide 1.4 Terminal Connections All wire connections are made through the ¾ NPT openings in the Base Assembly to the terminal block (See Figure 7). The Terminal Block is located on the Base Assembly (See Figure 8) and accepts 12 AWG to 22 AWG stranded or solid-core wire. Each wire should be stripped as shown in Figure 5. Figure 5 Wire-Strip Length To connect the wire to the Terminal Block, insert the conductor into the connection space as shown in Figure 7 and tighten the corresponding screw terminal. Figure 6 Detector Housing and Base vi

11 Quick Start Guide Figure 7 Terminal Block Operation There are twenty possible terminal connections. On this and the following pages is a description and specification for each connection Alarm Relay TB2, Term 2 = ALARM C TB2, Term 3 = ALARM 1 TB2, Term 4 = ALARM 2 Description: The connections are to the SPDT ALARM relay. ALARM output is time delayed for 2, 4, 8, or 10 seconds. This time delay can be set by RS-485 or DIP-switch (see Section 3.5). The ALARM output can be normally energized or normally de- energized, latching or non- latching, and these options are also set via RS-485 or by DIP-switch. (See Section 3.5 Switch Selectable Options) Alarm Relay: TB2, Term 2 = ALM C = Alarm Common Normally de-energized TB2, Term 3 = ALM 1 = Normally Closed TB2, Term 4 = ALM 2 = Normally Open vii

12 Quick Start Guide Normally energized TB2, Term 3 = ALM 1 = Normally Open TB2, Term 4 = ALM 2 = Normally Closed The ALARM relay contact ratings are 250VAC and 30VDC. CAUTION For all relay connections see Figure 9. Figure 8 Terminal Connections Warning Relay TB2, Term 5 = WARN C TB2, Term 6 = WARN 1 TB2, Term 7 = WARN 2 Description: These connections are to the SPDT WARN relay. The WARN output is immediate on the Model FL3102. The WARN output can be normally energized or normally de-energized, latching or non-latching. These options are also set via RS-485 or by a DIP-switch. (See Section 3.5, Switch Selectable Options) Warning Relay: TB2, Term 5 = WARN C = Warning Common viii

13 Quick Start Guide Normally de-energized TB2, Term 6 = WARN 1 = Normally Closed TB2, Term 7 = WARN 2 = Normally Open Normally energized TB2, Term 6 = WARN 1 = Normally Open TB2, Term 7 = WARN 2 = Normally Closed The WARN relay contact ratings are 250VAC and 30VDC. CAUTION For all relay connections see Figure 9. Figure 9 Relay Contacts Fault Relay TB2, Term 8 = FLT C TB2, Term 9 = FLT 1 TB2, Term 10 = FLT 2 Description: These connections are to the SPDT FAULT relay. The FAULT output configuration is normally energized and non-latching. This is the standard output configuration and it cannot be changed. The FAULT circuit will be activated during the time-out function, a low power or loss of power condition, and during a failed COPM check. During these conditions, the FAULT relays will de-energize and the analog output signal will drop to 0 ma (2mA for COPM Faults) for the duration of the FAULT. Fault Relay: TB2, Term 8 = FLT C = Fault Common Normally energized TB2, Term 9 = FLT 1 = Normally Open TB2, Term 10 = FLT 2 = Normally Closed The FAULT relay contact ratings are 250VAC and 30VDC. CAUTION For all relay connections see Figure 9. ix

14 Quick Start Guide Alarm Reset Terminal TB1, Term 3 = RESET The RESET, when activated, returns a latched ALARM and/or WARN output, that is no longer valid, to its original state. For this RESET function, place one contact of a SPST normally open momentary switch to TB1 Terminal 3 and the other contact to DC COM (the detector s common). To activate, just press and release the switch Alarm Test Terminal TB1, Term 4 = ALARM TEST By connecting one contact of a SPST normally open momentary switch to TB1 terminal 4 and the other contact to DC COM (the detector s common) the user can test the alarm outputs of the Flame Detector by activating this switch for one to eight seconds depending on the alarm time delay setting. The Alarm Test will activate the WARN and ALARM relay outputs as well as the appropriate analog output. The Flame Detector will remain in this state until the switch is released. The latching WARN and/or ALARM will have to be RESET manually. The Autotest feature cannot be daisy chained between two or more FL3102 Flame Detectors Analog Output TB1, Term 5 = 0-20mA (Analog Output) The 0 to 20mA output is a current signal that corresponds to following: FAULT signal: COPM Fault signal: Ready signal: WARN signal: ALARM signal:.0 to 0.2mA mA mA mA mA The maximum analog output load is 600 ohms. Cable Requirements: For interfacing with 250 ohm input impedance devices, the following maximum cable lengths apply (maximum 50 ohm loop): AWG FEET METERS Figure 10 Maximum Cable Lengths for 250 Ohm Input x

15 Quick Start Guide Power TB1, Term 7, 8 = +24VDC TB1, Term 9, 10 = COM These are the power connections. The supply voltage range is 20 to 36VDC at the detector (low voltage is detected at 18.5 VDC). The following maximum cable lengths apply for a +24VDC supply (maximum 20 ohm loop): AWG FEET METERS Figure 11 Maximum Cable Lengths for +24VDC RS-485 OUTPUT TB1, Term 1 = DATA+ TB1, Term 2 = DATA These are the connections for the RS-485 output. The RS-485 connection is used to either query the unit s status or to configure the unit. See Section 7 for detailed information on Modbus RTU protocol. NOTE If redundant RS-485 output is ordered, then the 0-20mA output is not available and the wiring terminals are: TB1, Term 5 = DATA2+ TB1, Term 6 = DATA Chassis Ground TB2, Term 1 = CHAS GND This connection is available for use in wiring that requires a connection to chassis ground. In general, all cable lengths specified are maximum values. Good design practices dictate cable lengths conservatively shorter than the maximum values given. xi

16 Quick Start Guide 1.5 Switch Selectable Options All settings on the Model FL3102 are done via a DIP-switch on the Power/Relay board or via RS-485 (overrides switch settings). To set these options, remove the detector head from the Base Assembly and locate the DIP-switch (see Figure 12). On the DIP-switch, ON/CLOSED means the switch is pushed in on the side labeled ON or CLOSED (opposite the OPEN side). OFF/OPEN means the switch is pushed in on the side with the number corresponding to the switch position or the side labeled OPEN. (Refer to the tables in Figure 13 for the switch assignments.) The settings for the WARN and ALARM outputs have been covered in section 3.4. The time delay specifies the amount of time a WARN condition persists before an ALARM condition will occur. ON OPEN PIN 1 PIN 1 Figure 12 Dip Switch Location OPTION OFF / OPEN ON / CLOSED 100% Sens 1 50 ft 1&2 75% Sens 1 35 ft % Sens 1 25 ft Second ALARM Time Delay Second ALARM Time Delay 3&4 8 Second ALARM Time Delay Second ALARM Time Delay 3&4 ALARM non-latching 5 ALARM latching 5 WARN non-latching 6 WARN latching 6 ALARM normally energized 7 ALARM normally de-energized 7 WARN normally energized 8 WARN normally de-energized 8 Figure 13 Dip Switch Options xii

17 Quick Start Guide NOTE - The instrument is now ready to operate! Please consult the manual for more information on the instrument s many features. NOTE - If you have any problems in the setup or testing of the detector, please refer to the Troubleshooting Section, or call the factory direct. Worldwide Service is available by calling: Lake Forest, California Phone: (24 hr. service) Fax: Houston, Texas Phone: Fax: Ireland Phone: Fax: Singapore Phone: Fax: United Arab Emirates Phone: Fax: United Kingdom Phone: Fax: xiii

18 Table of Contents Model FL3102 WARRANTY WARNINGS... I... I SYSTEM INTEGRITY VERIFICATION... II 1.0 QUICK START GUIDE... I 1.1 Upon Receipt of Equipment...i 1.2 Choosing Detector Locations...i Detector Field of View...i Optical Sensitivity Range...i Environmental Factors...i 1.3 Detector Installation...ii 1.4 Terminal Connections...vi Alarm Relay... vii Warning Relay... viii Fault Relay...ix Alarm Reset Terminal...x Alarm Test Terminal...x Analog Output...x Power...xi RS-485 OUTPUT...xi Chassis Ground...xi 1.5 Switch Selectable Options... xii TABLE OF CONTENTS... 1 TABLE OF FIGURES INTRODUCTION General Description Principle of Operation IR Flame Detector COPM Circuitry Alarm Test Visual Indicators

19 3.0 INSTALLATION Upon Receipt of Equipment Choosing Detector Locations Detector Field of View Optical Sensitivity Range Environmental Factors Detector Installation Terminal Connections Alarm Relay Warning Relay Fault Relay Alarm Test Terminal Analog Output Power RS-485 OUTPUT Chassis Ground Switch Selectable Options MAINTENANCE General Maintenance Cleaning the Lenses Sensitivity Check Storage TROUBLESHOOTING Trouble Shooting Chart Final Assemblies CUSTOMER SUPPORT MODBUS COMMUNICATIONS Baud Rate Data Format MODBUS Read Status Protocol (Query/Response) MODBUS Read Query Message MODBUS Read Response Message MODBUS Write Command Protocol (Query/Response) MODBUS Write Query Message MODBUS Write Response Message Function Codes Supported Exception Responses and Exception Codes Exception Responses Function Code Field Exception Code Field Command Register Locations Operational Mode Commands FL3102 Operational Mode Command Register Details Analog Mode Status/Error Fire Type Model Type

20 3 Model FL Software Revision COPM Fault EEPROM Override Options Comm 1 Address Comm 1 Baud Rate Comm 1 Data Format Fire Window COPM Fault Total (Photodiode) Fire Sensor COPM Fault Total Sun COPM Fault Total Remote Reset Remote Alarm Test Clear COPM Faults Comm 1 or 2 Total Receive Errors Comm 1 or 2 Bus Activity Rate % Comm 1 & 2 Function Code Errors Comm 1 & 2 Starting Address Errors Comm 1 Only Total Receive Errors Comm 1 & 2 RXD CRC Lo Errors Comm 1 & 2 RXD CRC Hi Errors Comm 1 Only Overrun Errors Comm 1 Only Noise Flag Errors Comm 1 & 2 Framing Errors Comm 1 or 2 Message Interval Comm 2 Only Total Receive Errors Comm 1 Only SCI Errors Clear Comm 1 & 2 Errors Comm 2 Address Comm 2 Baud Rate Comm 2 Data Format APPENDIX Specifications System Specifications Detector Location IR Detector center wavelength (Figure 15) Typical Response Time* Minimum Response Time Field of Vision* (Figure 16) Sensitivity Maximum Cable Parameters Warranty Mechanical Specifications Electrical Specifications Supply voltage range (see NOTE) Relay Contact Ratings RS-485 Output Baud Rate RFI/EMI Protection Status Indicator Environmental Specifications Operating temperature range Storage temperature range... 47

21 Humidity range Modbus RTU Protocol Approvals Spare Parts and Accessories Spare Parts TL103 Test Lamp Mounting Swivel / Union Mounting Bracket Optical Air Guard

22 Table of Figures Model FL3102 Figure 1 FL3102 Field of View... iii Figure 2 Swivel Elbow Drawing (Class I, Div 1&2, Groups C&D)...iv Figure 3 Mounting Bracket Drawing (Class I, Div 1&2, Groups B,C&D)...iv Figure 4 FL3102 Outline Drawing...v Figure 5 Wire-Strip Length...vi Figure 6 Detector Housing and Base...vi Figure 7 Terminal Block Operation... vii Figure 8 Terminal Connections... viii Figure 9 Relay Contacts...ix Figure 10 Maximum Cable Lengths for 250 Ohm Input...x Figure 11 Maximum Cable Lengths for +24VDC...xi Figure 12 Dip Switch Location... xii Figure 13 Dip Switch Options... xii Figure 14 Model FL Figure 15 Spectral Response of IR Detectors... 8 Figure 16 FL3102 Field of View Figure 17 Swivel Elbow Drawing (Class I, Div 1&2, Groups C&D) Figure 18 Mounting Bracket Drawing (Class I, Div 1&2, Groups B,C&D) Figure 19 FL3102 Outline Drawing Figure 20 Wire-Strip Length Figure 21 Detector Housing and Base Figure 22 Terminal Block Operation Figure 23 Terminal Connections Figure 24 Relay Contacts Figure 25 Maximum Cable Lengths for 250 Ohm Input Figure 26 Maximum Cable Lengths for +24VDC Figure 27 Dip Switch Location Figure 28 Dip Switch Options Figure 29 IR Windows Figure 30 Troubleshooting Chart Figure 31 FL3102 (DFIR) Final Assembly Figure 32 Data Format Figure 33 MODBUS Query Messages Figure 34 MODBUS Read Response Messages Figure 35 MODBUS Write Query Message Figure 36 MODBUS Write Response Message Figure 37 Typical Response Times for FL Figure 38 Exception Responses Figure 39 Exception Code Field

23 Figure 40 Operational Mode Commands Figure 40 Operational Mode Commands Continued Figure 41 Mode Figure 42 Status/Error Figure 43 Model Type Figure 44 EEPROM Override Figure 45 Options Figure 46 Comm 1 Baud Rate Figure 47 Comm 1 Data Format Figure 48 Remote Reset Figure 49 Remote Alarm Test Figure 50 Clear COPM Faults Figure 51 Comm 1 & 2 Errors Figure 52 Comm 2 Baud Rate Figure 53 Comm 2 Data Format

24 2.0 Introduction 2.1 General Description Model FL3102 Fire is a phenomenon of combustion. Combustion is the continuous chemical reaction of a reducing agent (fuel) and an oxidizing agent (oxygen, etc.) with the evolution of thermal energy (heat). Fire is usually manifested in heat (IR), smoke, light (visible), and flame (UV). Flame is the gaseous region of a fire where vigorous combustion chain reactions take place. These reactions emit radiation covering the Infrared, Ultraviolet and the Visible Spectral Regions. The General Monitors Model FL3102 is a Dual Frequency Infrared (DFIR) Flame Detector (Figure 14). The Model FL3102 detects the Infrared spectral regions of flame to produce a system, which is highly immune to false alarms caused by lightning, arc-welding, hot objects, and other sources of radiation. In addition, the FL3102 can see through most smoky type fires such as diesel, rubber, etc. The Model FL3102 has features that include: Compact unitized design. Continuous optical path monitoring. 0-20mA, alarm relays and MODBUS RTU-485 standard. Wide field of view. High false alarm immunity. Figure 14 Model FL3102 7

25 2.2 Principle of Operation IR Flame Detector The Model FL3102 is a discriminating Dual Frequency Infra-Red Detector, which makes use of Infrared detectors for different IR wavelengths and characteristics. This combination provides a flame detection system, which is highly immune to false alarms. Incorporated in the IR circuitry is a flicker discrimination circuit. This permits the detector to ignore steady static IR sources such as hot objects. The inherent flickering of a flame provides the necessary modulation to activate the IR circuit. The Model FL3102 Flame Detector processes these IR signals with a microcomputer and produces the following outputs: 0 to 20 Milliampere signal. Immediate WARN relay contacts. Time delayed ALARM relay contacts. FAULT relay contacts. RS- 485 MODBUS RTU output. Optional: Redundant RS- 485 Modbus RTU output. (See Sections 3 & 4 for more information on detector outputs.) Visible Region Infrared Region IR Detector's Spectral Sensitivity Sun's Radiation Reaching the Earth Wavelength 4.35um Figure 15 Spectral Response of IR Detectors 8

26 2.2.2 COPM Circuitry A self- testing feature called Continuous Optical Path Monitoring (COPM) checks the optical path, the detector(s), and the related electronic circuitry once every minute. If foreign material impairs the optical path of the infrared detector for two consecutive checks, the unit will indicate FAULT. The optical FAULT outputs are a 2.0 ma signal, de-energizing of the FAULT relay, and RS-485 output signal (see Section 3.4 Terminal Connections). After a COPM FAULT, a COPM check is performed every ten seconds until the obstruction is removed. Then the COPM check will resume a once per minute check. WARNING Dirty or partially blocked windows can significantly reduce the detectors field of view and detection distance. NOTE Since the optical path is checked once per minute and it requires two check failures to produce a FAULT, it may take up to two minutes for the unit to detect an obstruction Alarm Test The Model FL3102 Flame Detector has a built-in Alarm Test feature. By connecting one contact of a SPST momentary switch to TB1 position 4 and the other contact to DC COM (see Section 3.4 Terminal Connections), the user can test the alarm outputs of the Flame Detector by activating this switch for one to eight seconds depending on the Alarm Delay Setting. The Flame Detector will immediately go into WARN and then into the time delayed ALARM. After one to eight seconds the Flame Detector will activate the ALARM. A latching WARN and/or ALARM will remain latched until manually reset Visual Indicators Two light emitting diodes (LED s) are visible through a window. LED s are provided for a visual indication that corresponds with the detectors outputs. The following blinking sequence indicates the operation condition: Time out (10 seconds when the unit is first powered) - Green and red LED s blinking alternately. Ready - Green LED that flashes off 1 second, every 10 seconds. WARNing - Slow blinking red LED with green LED on steady. ALARM - Fast blinking red LED with green LED on steady. COPM FAULT - Slow blinking green LED. Low Volt age FAULT - Fast blinking green LED. 9

27 3.0 Installation 3.1 Upon Receipt of Equipment All items shipped by General Monitors are packed in shock absorbing containers, which provide a considerable degree of protection against physical damage. When received, the contents should be carefully removed and checked against the enclosed packing slip. All subsequent correspondence with General Monitors must specify the equipment part number and serial number. 3.2 Choosing Detector Locations Several variables are involved in selecting the locations to install detectors to ensure proper flame detection. There are no hard and fast rules defining the optimum location. There are some general suggestions that should be considered in regard to particular conditions at the site where the unit(s) are being installed: Detector Field of View Each Model FL3102 Flame Detector has a 120 maximum Cone of Vision. This Cone has its vertex at the center of the detector (see Figure 16) Optical Sensitivity Range The distance at which the detector will respond to a flame is a function of the intensity of that flame. The maximum distance is 50 feet (15.2m) for a gasoline fire with a surface area of 1 square foot (0.92m 2 ) Environmental Factors Mounting should be as free from shock and vibration as possible and convenient for visual inspection and cleaning. Detectors mounted in dirty atmospheric conditions will require more frequent inspection, cleaning, and sensitivity checking. Observe the ambient temperature range for the specific model (see Section Environmental Specifications). For outdoor installations or other areas exposed to intense, direct solar radiation, the detector may reach temperatures well above specifications. For this condition, a cover for shade may be required to bring the detector temperature within specifications. As with any cover or object near-by, make sure the field-of-view of the detector is not obstructed. Avoid conditions of ice build up on the optical detector windows. Complete icing-over of the IR detector window can result in fault conditions. 10

28 3.3 Detector Installation The Model FL3102 Detector is an explosion proof assembly rated for use in Class I, Divisions 1 & 2, Group B, C & D, Class II, Group E, F & G, and Class III areas. The detector(s) should be mounted pointing downward so that dust/moisture will not accumulate on the IR windows. The detector(s) should be mounted in locations, which will inhibit people or objects from obscuring the detector s Cone of Vision. NOTE Before installing these units, please read the warning statement on page 13 of this manual. These units must have a conduit seal installed. Mounting hardware should be used as shown in Figures 17 and 18. NOTE The swivel ( ) is rated for Class I, Div 1 & 2, Groups C & D. Use mounting bracket for Group B areas. The overall dimensions of the detectors and mounting hardware are shown in Figure

29 Figure 16 FL3102 Field of View 12

30 Figure 17 Swivel Elbow Drawing (Class I, Div 1&2, Groups C&D) REF HOLE : 4X Ø.26[6.6] 3.75[95.3] 5.00[127.0] [71.12] 4.66[118.4] 2.80[71.12] REAR VIEW WALL MOUNTING 4X M6 X 14 4X M6 WASHER BRACKET ASSEMBLY Figure 18 Mounting Bracket Drawing (Class I, Div 1&2, Groups B,C&D) 13

31 FIELD TERMINATIONS TB2 TB1 CHAS GND 1 10 COM ALM C 2 9 COM ALM VDC ALM 2 4 WARN C VDC DATA- DATA2- WARN 1 WARN mA DATA2+ ALMTEST FLT C 8 3 RESET FLT FLT DATA+ Figure 19 FL3102 Outline Drawing WARNING General Monitors requires that the conduit entry be sealed per the Canadian Electrical Code Handbook (Part 1, Section ). Conduit seals prevent water from entering the units housing through the conduit entry. Water entering the housing through the conduit entry will damage the electronics and nullify the warranty. 14

32 3.4 Terminal Connections All wire connections are made through the ¾ NPT openings in the Base Assembly to the terminal block (See Figure 22). The Terminal Block is located on the Base Assembly (See Figure 23) and accepts 12 AWG to 22 AWG stranded or solid-core wire. Each wire should be stripped as shown in Figure 20. Figure 20 Wire-Strip Length To connect the wire to the Terminal Block, insert the conductor into the connection space as shown in Figure 23 and tighten the corresponding screw terminal. Figure 21 Detector Housing and Base 15

33 Figure 22 Terminal Block Operation There are twenty possible terminal connections. On this and the following pages is a description and specification for each connection Alarm Relay TB2, Term 2 = ALARM C TB2, Term 3 = ALARM 1 TB2, Term 4 = ALARM 2 Description: The connections are to the SPDT ALARM relay. ALARM output is time delayed for 2, 4, 8, or 10 seconds. This time delay can be set by RS-485 or DIP-switch, (see Section 3.5). The ALARM output can be normally energized or normally de- energized, latching or non- latching, and these options are also set via RS-485 or by DIP-switch. (See Section 3.5, Switch Selectable Options) Alarm Relay: TB2, Term 2 = ALM C = Alarm Common Normally de-energized TB2, Term 3 = ALM 1 = Normally Closed TB2, Term 4 = ALM 2 = Normally Open Normally energized TB2, Term 3 = ALM 1 = Normally Open TB2, Term 4 = ALM 2 = Normally Closed The ALARM relay contact ratings are 250VAC and 30VDC. 16

34 CAUTION For all relay connections see Figure 24. Figure 23 Terminal Connections Warning Relay TB2, Term 5 = WARN C TB2, Term 6 = WARN 1 TB2, Term 7 = WARN 2 Description: These connections are to the SPDT WARN relay. The WARN output is immediate on the Model FL3102. The WARN output can be normally energized or normally de-energized, latching or non-latching. These options are also set via RS-485 or by a DIP-switch. (See Section 3.5 Switch Selectable Options) Warning Relay: TB2, Term 5 = WARN C = Warning Common Normally de- energized TB2, Term 6 = WARN 1 = Normally Closed TB2, Term 7 = WARN 2 = Normally Open Normally energized TB2, Term 6 = WARN 1 = Normally Open TB2, Term 7 = WARN 2 = Normally Closed 17

35 The WARN relay contact ratings are 250VAC and 30VDC. CAUTION For all relay connections see Figure 24. Figure 24 Relay Contacts Fault Relay TB2, Term 8 = FLT C TB2, Term 9 = FLT 1 TB2, Term 10 = FLT 2 Description: These connections are to the SPDT FAULT relay. The FAULT output configuration is normally energized and non-latching. This is the standard output configuration and it cannot be changed. The FAULT circuit will be activated during the time-out function, a low power or loss of power condition, and during a failed COPM check. During these conditions, the FAULT relays will de-energize and the analog output signal will drop to 0 ma (2mA for COPM Faults) for the duration of the FAULT. Fault Relay TB2, Term 8 = FLT C = Fault Common Normally energized TB2, Term 9 = FLT 1 = Normally Open TB2, Term 10 = FLT 2 = Normally Closed The FAULT relay contact ratings are 250VAC and 30VDC. CAUTION For all relay connections see Figure

36 3.4.4 Alarm Reset Terminal TB1, Term 3 = RESET The RESET, when activated, returns a latched ALARM and/or WARN output, that is no longer valid, to its original state. For this RESET function, place one contact of a SPST normally open momentary switch to TB1 Terminal 3 and the other contact to DC COM (the detector s common). To activate, just press and release the switch Alarm Test Terminal TB1, Term 4 = ALARM TEST By connecting one contact of a SPST normally open momentary switch to TB1 terminal 4 and the other contact to DC COM (the detector s common) the user can test the alarm outputs of the Flame Detector by activating this switch for one to eight seconds depending on the alarm time delay setting. The Alarm Test will activate the WARN and ALARM relay outputs as well as the appropriate analog output. The Flame Detector will remain in this state until the switch is released. The latching WARN and/or ALARM will have to be RESET manually. The Autotest feature cannot be daisy chained between two or more FL3102 Flame Detectors Analog Output TB1, Term 5 = 0-20mA (Analog Output) The 0 to 20mA output is a current signal that corresponds to following: FAULT signal: COPM Fault signal: Ready signal: WARN signal: ALARM signal:.0 to 0.2mA mA mA mA mA The maximum analog output load is 600 ohms. Cable Requirements: For interfacing with 250 ohm input impedance devices, the following maximum cable lengths apply (maximum 50 ohm loop): AWG FEET METERS Figure 25 Maximum Cable Lengths for 250 Ohm Input 19

37 3.4.7 Power TB1, Term 7, 8 = +24VDC TB1, Term 9, 10 = COM These are the power connections. The supply voltage range is 20 to 36VDC at the detector (low voltage is detected at 18.5 VDC). The following maximum cable lengths apply for a +24VDC supply (maximum 20 ohm loop): AWG FEET METERS Figure 26 Maximum Cable Lengths for +24VDC RS-485 OUTPUT TB1, Term 1 = DATA+ TB1, Term 2 = DATA These are the connections for the RS-485 output. The RS-485 connection is used to either query the unit s status or to configure the unit. See Section 7.0 for detailed information on Modbus RTU protocol. NOTE If redundant RS-485 output is ordered, then the 0-20mA output is not available and the wiring terminals are: TB1, Term 5 = DATA2+ TB1, Term 6 = DATA Chassis Ground TB2, Term 1 = CHAS GND This connection is available for use in wiring that requires a connection to chassis ground. In general, all cable lengths specified are maximum values. Good design practices dictate cable lengths conservatively shorter than the maximum values given. 20

38 3.5 Switch Selectable Options All settings on the Model FL3102 are done via a DIP-switch on the Power/Relay board or via RS-485 (overrides switch settings). To set these options, remove the detector head from the Base Assembly and locate the DIP-switch (see Figure 27). On the DIP-switch, ON/CLOSED means the switch is pushed in on the side labeled ON or CLOSED (opposite the OPEN side). OFF/OPEN means the switch is pushed in on the side with the number corresponding to the switch position or the side labeled OPEN. (Refer to the tables in Figure 28 for the switch assignments.) The settings for the WARN and ALARM outputs have been covered in section 3.4. The time delay specifies the amount of time a WARN condition persists before an ALARM condition will occur. ON OPEN PIN 1 PIN 1 Figure 27 Dip Switch Location OPTION OFF / OPEN ON / CLOSED 100% Sens 1 50 ft 1&2 75% Sens 1 35 ft % Sens 1 25 ft Second ALARM Time Delay Second ALARM Time Delay 3&4 8-Second ALARM Time Delay Second ALARM Time Delay 3&4 ALARM non-latching 5 ALARM latching 5 WARN non-latching 6 WARN latching 6 ALARM normally energized 7 ALARM normally de-energized 7 WARN normally energized 8 WARN normally de-energized 8 Figure 28 Dip Switch Options 21

39 4.0 Maintenance 4.1 General Maintenance Once correctly installed, the unit requires very little maintenance other than regular sensitivity checks and cleaning of the lenses. General Monitors recommends that a schedule be established and adhered to. Model FL3102 NOTE The removal of particulate matter and any film buildup on the lenses and light rods is necessary to ensure proper sensitivity of the system. It is recommended that the window and light rods be cleaned at least every 30 days or more often if the detector is located in a particularly dirty environment. 4.2 Cleaning the Lenses A clean, soft, lint-free cloth, tissue or cotton swab should be used to apply the cleaning solution. Do not touch the lenses or light rods with fingers. 1. Wet the window with the solution. 2. Rub with a dry, unsoiled cloth until the window is clean. 3. Completely dry the window. 4. Repeat steps a, b and c for the light rods. (See figure 29). Take care only to clean the uncoated (non - aluminum) areas of the light rods. WARNING Dirty or partially blocked windows can significantly reduce the detectors field of view and detection distance. DO NOT USE A COMMERCIAL GLASS CLEANER OTHER THAN INDUSTRIAL STRENGTH WINDEX with Ammonia D The lenses are not glass. One IR lens material is quartz and the other IR lens material is sapphire. The cleaning solution should be General Monitors P/N (Industrial Strength Windex with Ammonia D). Figure 29 IR Windows 22

40 4.3 Sensitivity Check To verify that each detector is functioning correctly, a General Monitors Test Lamp and/or the ALARM TEST function (see section 2.2 Principle of Operation - Alarm Test) should be used. See Section 8.3, Spares & Accessories, for details on test lamps. 4.4 Storage These Flame Detectors should be stored in a clean, dry area and within the temperature and humidity ranges quoted in Section Environmental Specifications. 23

41 5.0 Troubleshooting 5.1 Trouble Shooting Chart Model FL3102 This section is intended to be a guide in correcting problems, which may arise in the field. This section is no all-inclusive, and General Monitors should be contacted for assistance if the corrective action listed does not eliminate the problem. If equipment or qualified personnel required for various tests are not available, it is recommended that the defective unit be returned to General Monitors for repair. A complete written description of the problem should be included. Be sure to inhibit or disconnect external alarm wiring before making any check, which might send the unit into alarm, if an alarm condition will create problems. NOTE If the equipment is under warranty, any repairs performed by persons other than General Monitors authorized personnel may void the warranty. Please read the warranty statement carefully. PROBLEM POSSIBLE CAUSE CORRECTIVE ACTION Be sure that the +24VDC No DC power to the Unit is applied with the correct polarity No output signal and green LED in window is off No output signal and green LED in window is rapidly blinking Constant 2mA signal and green LED in window is slowly blinking Low voltage FAULT (voltage at unit is approximately +18.5VDC) COPM FAULT, dirty or obscured optical path (light rods or windows) Figure 30 Troubleshooting Chart Be sure that unit is powered with at least +24VDC under load Clean IR windows and associated source light rods 24

42 5.2 Final Assemblies Figure 31 FL3102 (DFIR) Final Assembly 25

43 6.0 Customer Support GENERAL MONITORS OFFICES Model FL3102 Area Phone/Fax/ UNITED STATES Corporate Office: Simpatica Circle Lake Forest, CA Whithorn Drive Houston, TX Phone: Fax: Phone: Fax: UNITED KINGDOM Heather Close Lyme Green Business Park Macclesfield, Cheshire, United Kingdom, SK11 0LR Phone: Fax: IRELAND Ballybrit Business Park Galway, Republic of Ireland Phone: Fax: SINGAPORE No. 2 Kallang Pudding Rd. #09-16 Mactech Building Singapore Phone: Fax: genmon@singnet.com.sg MIDDLE EAST LOB12, #G20 P.O. Box Jebel Ali, Dubai United Arab Emirates Phone: Fax: gmme@emirates.net.ae 26

44 7.0 Modbus Communications Model FL3102 Standard Model FL3102 Flame Detectors include a Single MODBUS Communications Board that is referenced as Comm 1. A Dual MODBUS feature is optional, which includes two independent communications channels referenced as Comm 1 and Comm 2. NOTE - Comm 2 is utilized as a backup communications channel, therefore it is not recommended to have both Comm 1 and Comm 2 channels active simultaneously. If the dual Comm option is ordered, the Analog output will not be available. 7.1 Baud Rate The Baud Rate is a selectable setting via the MODBUS Communications Interface. The selectable baud rates are 19.2K, 9600, 4800, or 2400 bits per second. 7.2 Data Format The Data Format is a selectable setting via the MODBUS Communications Interface. The selectable data formats are as follows: Data Bits Parity Stop Bit Format 8 None 1 8-N-1 8 Even 1 8-E-1 8 Odd 1 8-O-1 8 None 2 8-N-2 Figure 32 Data Format 27

45 7.3 MODBUS Read Status Protocol (Query/Response) MODBUS Read Query Message Byte MODBUS Range Referenced to FL st Slave * FL3102 ID (Address) Address 2 nd Function 03 Read Holding Registers Code 3 rd Starting 00 Not Used by FL3102 Address Hi** 4 th Starting 00-FF (Hex) FL3102 Command Registers Address Lo** 5 th No. of 00 Not Used by FL3102 Registers Hi 6 th No. of 01 No. of 16 Bit Registers Registers Lo 7 th CRC Lo 00-FF (Hex) CRC Lo Byte 8 th CRC Hi 00-FF (Hex) CRC Hi Byte Figure 33 MODBUS Query Messages NOTE*- Address 0 is reserved for broadcast mode and will not be supported at this time. NOTE**- Start Address can be a maximum of 9999 Address Locations ( E) MODBUS Read Response Message Byte MODBUS Range Referenced to FL3100, FL st Slave 1-247* (Decimal) FL3102 ID (Address) Address 2 nd Function 03 Read Holding Registers Code 3 rd Byte Count 02 No. of Data Bytes 4 th Data Hi 00-FF (Hex) FL3102 Hi Byte Status Data 5 th Data Lo 00-FF (Hex) FL3102 Lo Byte Status Data 6 th CRC Lo 00-FF (Hex) CRC Lo Byte 7 th CRC Hi 00-FF (Hex) CRC Hi Byte Figure 34 MODBUS Read Response Messages NOTE - Address 0 is reserved for broadcast mode and will not be supported at this time. 28

46 7.4 MODBUS Write Command Protocol (Query/Response) MODBUS Write Query Message Byte MODBUS Range Referenced to FL st Slave Address 1-247* (Decimal) FL3102 ID (Address) 2 nd Function Code 06 Preset Single Register 3 rd Register Address Hi** 00 Not used by FL th Register Address Lo** 00-FF (Hex) FL3102 Command Registers 5 th Preset Data Hi 00-FF (Hex) FL3102 Hi Byte Command Data 6 th Preset Data Lo 00-FF (Hex) FL3102 Lo Byte Command Data 7 th CRC Lo 00-FF (Hex) CRC Lo Byte 8 th CRC Hi 00-FF (Hex) CRC Hi Byte Figure 35 MODBUS Write Query Message NOTE* Address 0 is reserved for broadcast mode and will not be supported at this time. NOTE** Register Address can be maximum of 9999 Address Locations ( E) MODBUS Write Response Message Byte MODBUS Range Referenced to FL st Slave Address 1-247*(Decimal) FL3102 ID (Address) 2 nd Function Code 06 Preset Single Register 3 rd Register Address Hi** 00 Not used by FL th Register Address Lo** 00-FF (Hex) FL3102 Command Registers 5 th Preset Data Hi 00-FF (Hex) FL3102 Hi Byte Command Data 6 th Preset Data Lo 00-FF (Hex) FL3102 Lo Byte Command Data 7 th CRC Lo 00-FF (Hex) CRC Lo Byte 8 th CRC Hi 00-FF (Hex) CRC Hi Byte Figure 36 MODBUS Write Response Message NOTE* - Address 0 is reserved for broadcast mode and is not be supported at this time. NOTE ** - Register Address can be a maximum of 9999 Address Locations ( E) Function Codes Supported Function Code 03 (Read Holding Registers) is used to read status from the slave unit. Function Code 06 (Preset Single Register) is used to write a command to the slave unit. 29

47 7.5 Exception Responses and Exception Codes Model FL3102 Baud Rate (bps) In a normal exchange, the master device sends a query to the FL3102. The FL3102 receives the query and returns a normal response to the master. If a normal communications error occurs, there are 4 possible responses from the FL3102: 1. If the FL3102 does not recognize the query due to a communications error, then no response is returned from the FL3102 and the master device will eventually process a timeout condition for the query. 2. If the FL3102 receives the query, but detects a communication error (CRC, etc.), then no response is returned from the FL3102 and the master device will eventually process a timeout condition for the query. 3. If the FL3102 receives the query without a communications error, but cannot process the response to the master within the master's timeout setting, then no response is returned from the FL3102 and the master device will eventually process a timeout condition for the query. In order to prevent this condition from occurring, the typical response times for the FL3102 are listed below: Query From Master (msec) Unit Response Delay Time to Query (msec) Response From Unit (msec) Master Response Delay Time Between End of Unit Response and Next Master Query (msec) Total Response Time (msec) 19.2K * * * * Figure 37 Typical Response Times for FL3102 NOTE* - Master Response Delay Time is dependent on the speed of response for the Master (DCS, PLC, etc.) Cycle Time can be significantly reduced with a faster Master. The 100ms Delay Time was taken from a typical Master, using a PC with Intellution Industrial Control Software, which was set at the minimum poll time. 4. If the FL3102 receives the query without a communications error, but cannot process it due to reading or writing to a non-existent or illegal FL3102 Function Code, Illegal Command Starting Address or Register Address, or Illegal Data Value, then the FL3102 will return an exception response message informing the master of the error. The exception response message has two fields that differentiate it from a normal response, which is explained in Section

48 7.5.1 Exception Responses Byte MODBUS Range Referenced to FL st Slave Address 1-247* (Decimal) FL3102 ID (Address) 2 nd Function Code 83 or 86 (Hex) MSB is set with Function Code 3 rd Exception Code (Hex) Appropriate Exception Code (See below) 4 th CRC Lo 00-FF (Hex) CRC Lo Byte 5 th CRC Hi 00-FF (Hex) CRC Hi Byte Figure 38 Exception Responses Function Code Field In a normal response, the FL3102 echoes the function code of the original query in the function code field of the response. All the Function Codes have a most-significant bit (MSB). In an exception response, the FL3102 sets the MSB of the function code to a one (1). With the function code s MSB set, the master can recognize the exception response and can process the data field for the exception code from the FL3102 response message Exception Code Field In a normal response, the FL3102 returns data and status in the data field, which was requested in the query from the master. In an exception response, the FL3102 returns an exception code in the data field, which describes the FL3102 condition that caused the exception. Below is a list of exception codes that are supported by the FL3102: Code Name Description 01 Illegal Function The function code received in the query is not an allowable action for the FL Illegal Data Address The data address received in the query is not an allowable address for the FL Illegal Data Value A value contained in the query data field is not an allowable value for the FL Slave Device Failure An unrecoverable error occurred while the FL3102 was attempting to perform the requested action. 05 Acknowledge The FL3102 has accepted the request and is processing it, but a long duration of time will be required to do so. This response is returned to prevent a timeout error from occurring in the master. 06 Device Busy The FL3102 is engaged in processing a longduration program command. The master should retransmit the message later when the slave is free. Figure 39 Exception Code Field 31

49 7.6 Command Register Locations Operational Mode Commands See section number listed below and reference Section 7.7 for details of each register. 32

50 R - indicates Read Only Access R/W - indicates Read/Write Access Parameter Function Type Scale 33 Acc ess REG Addr Master I/O Addr Refer to Section Analog 0-20mA Current Output Value 16-Bit R Mode Indicates Fire Status Mode Value (0-11) R Status/Error Indicates Error Bit 8-Bit R Fire Type LFF, HFF or both Bit (1,2,3) R Model Type Identifies the Model FL3102 Decimal 3102 R Software Rev Indicates the Software Revision ASCII 2-Char R COPM Fault UV/IR COPM Fault Bit 2-Bit R EEPROM Set Bit for EEPROM to Override Bit 1-Bit R/W Override DIPswitch Settings Options Indicates Unit Options Bit 8-Bit R/W Comm 1 Address Unit Address (Comm 1) Decimal (1-247) R/W Hex (01- F7) Not Used 000A Comm 1 Baud Rate Comm 1 Data Format Indicates present Baud Rate (Comm 1) (2400, 4800, 9600,19.2K) Indicates present Data Format (Comm 1) (8N-1, 8E-1, 8O-1, 8N-2) Value (0-3) R/W 000B Value (0 3) R/W 000C Not Used 000D 4014 Fire Window Indicates No. of Fire Channel Value 8-Bit R 000E COPM Fault Total Window (Photodiode) Faults Fire Sensor Indicates Total No. of Fire Value 8-Bit R 000F COPM Fault Total Channel Detector COPM Faults Sun COPM Fault Indicates Total No. of Sun Value 8-Bit R Total Channel Window/Detector COPM Faults Remote Reset Remotely Resets the Alarm Bit 1-Bit R/W & Warn Relays Remote Alarm Remotely Activates Alarm Test Bit 1-Bit R/W Test Clear COPM Faults Clears IR COPM Fault Counters Bit 1-Bit R/W Comm 1 & 2 Total Receive Errors Comm 1 & 2 Bus Activity Rate % Comm 1 & 2 Function Code Errors Comm 1 & 2 Starting Address Errors Total # of Receive Errors (Comm 1 & 2) Bus Activity Rate in % of this Addressed Node vs. other Addressed Nodes (Comm 1 or 2) Total # of Function Code Errors (Comm 1 & 2) Total # of Starting Addresses Errors (Comm 1 & 2) Value 8-Bit R Decimal Hex (0-100%) (0-64) R Value 8-Bit R Value 8-Bit R Figure 40 Operational Mode Commands

51 R - indicates Read Only Access R/W - indicates Read/Write Access Parameter Function Type Scale Access Comm 1 Only Total Receive Errors Comm 1 & 2 RXD CRC Lo Errors Comm 1 & 2 RXD CRC Hi Errors Comm 1 Only Overrun Errors Comm 1 Only Noise Flag Errors Comm 1 & 2 Framing Errors Comm 1 & 2 Message Interval Comm 2 Only Total Receive Errors Comm 1 Only SCI Interrupt Errors Total # of Comm 1 Only Receive Errors Total # of RXD CRC Lo Errors (Comm 1 & 2) Total # of RXD CRC Hi Errors (Comm 1 & 2) Total # of Overrun Errors (Comm 1 Only) Total # of Noise Flags Errors (Comm 1 Only) Total # of Framing Errors (Comm 1 & 2) Indicates Comm 1 or 2 Message Interval in Milliseconds Total # of Comm 2 Only Receive Errors Total # of Serial Comm Interface Errors (Comm 1 Only) REG Addr Master I/O Addr Refer to Section Value 8-Bit R Value 8-Bit R Value 8-Bit R Value 8-Bit R Value 8-Bit R Value 8-Bit R Value 8-Bit R 002A Value 8-Bit R 002B Value 8-Bit R 002C Clear Comm Clear All Comm 1 & 2 Bit 1-Bit R/W 002D & 2 Errors Errors Not Used 002E Comm 2 Address Unit Address (Comm 2) Decimal Hex (1-247) (01-F7) R/W 002F Comm 2 Baud Rate Comm 2 Data Format Indicates present Baud Rate (Comm 2) (2400, 4800, 9600, 19.2K) Indicates present Data Format (Comm 2) (8N-1, 8E-1, 8O-1, 8N-2) Value (0-3) R/W Value (0-3) R/W Figure 40 Operational Mode Commands Continued 34

52 7.7 FL3102 Operational Mode Command Register Details Analog A read returns a value, which is proportional to the 0-20mA output current. The current is based on a 16-bit value. The master scaling is decimal, which corresponds to the FL3102 scaling, which is 0-20mA Mode A read returns the fire status mode of the FL3102. Mode Decimal Value Power-up Delay 1 Warn Non-latching Only 2 Warn & Alarm Non-Latching 3 Warn Latching Only 4 Alarm Latching Only 5 Warn & Alarm Latching 6 Ready State (No Fire) 7 Alarm Test 10 COPM Fault Detected 11 Figure 41 Mode Status/Error A read returns the errors that are occurring now, which are indicated by bit position. Byte Function Bit Position EPROM Checksum 8 EEPROM Checksum 7 RAM Test 6 Low Low (24V) Voltage Check 5 Fire Window COPM 4 Fire Sensor COPM 3 Sun COPM 2 Low (12V) Voltage Check 1 High Reset Line Shorted 8 Not Used 7-1 Figure 42 Status/Error 35

53 7.7.4 Fire Type A read indicates the detection of LFF, HFF or a combination of both when using the Model FL3102. LFF Only Detected = 01 (Lo Data Byte) HFF Only Detected = 02 (Lo Data Byte) Combination of Both = 03 (Lo Data Byte) High Data Byte Not Used Model Type A read returns the Decimal Value 3102, which identifies each particular type of unit by model number. Model Version Decimal Value FL3102 DFIR (Digital Frequency Infra-Red) 3102 Figure 43 Model Type Software Revision A read returns the software revision of the FL3102 in 2 ASCII characters. (Usually a blank and then a letter revision ex. A, B, C, etc) COPM Fault A read returns the type of Continuous Optical Path Monitoring (COPM) Fault, which is a Fire Window COPM Fault, Fire Sensor COPM Fault or a Sun COPM Fault. The Fire Window COPM indicates that the Fire window is dirty and needs to be cleaned, or that there is a hardware problem with the Sun Channel detection circuitry. Fire Window COPM Fault = 01 (Lo Data Byte) Sun COPM Fault = 02 (Lo Data Byte) Fire Sensor COPM Fault = 04 (Lo Data Byte) High Data Byte Not Used EEPROM Override A read indicates the status of the EEPROM Override bit. A write command changes the state of the EEPROM Override bit. When the EEPROM Override bit is enabled, the options for the Detector Sensitivity, Relay Delay, Relay Latching/Non-Latching and Relay Energized/Non-Energized features are now controlled by the data stored in the EEPROM and are no longer controlled by the 8-position DIP-switch located on the bottom of the Power/Relay Board. When the EEPROM Override bit is disabled the options are under the control of the 8- position DIP-switch. The EEPROM Override bit is located in the LSB of the Low Data Byte and the High Data Byte is not used. 36

54 Function Bit (LSB) Access Enable 1 Read/Write Disable 0 Read/Write Figure 44 EEPROM Override EXCEPTION - If an EEPROM error occurs, then the Exception Code 04 (Slave Device Failure) is returned. NOTE - By grounding the ALARM TEST input during the first 10 seconds of the 2 minute power-up cycle, the FL3102 will Disable the EEPROM Override and set the Bit = 0, enabling the 8-position Dip-switch. The red and green LED s will flash simultaneously while the ALARM TEST input is grounded. The EEPROM Override bit will be set to zero and the Dip Switch enabled when the red and green LED s flash alternately after approximately10 seconds, at which time the ALARM TEST input can be released from ground Options A read returns the status of the settings for the Detector Sensitivity, Relay Delay, Relay Latching/Non-Latching and Relay Energized/Non-Energized features either from the Options DIP-switch or the EEPROM depending on the setting of the EEPROM Override bit listed above. A write command changes the settings for the EEPROM only when the EEPROM Override bit is set. EXCEPTION - If an attempt to change the EEPROM Options is made while the EEPROM Override bit is not set, then the unit shall return an Exception Code 03 (Illegal Data Value). EXCEPTION If an EEPROM write error occurs, then the Exception Code 04 (Slave Device Failure) is returned. These Functions are indicated on the Low Data Byte and the High Data Byte is not used. 37

55 Function Bit Conditions Access Position Alarm Latched 5 1 = Latched 0 = Non-Latched Read/Write Time Delay in Seconds Alarm Time Delay Read/Write Alarm Time Delay Read/Write % Sensitivity Sensitivity Read/Write Sensitivity 1 1 (LSB) Read/Write Figure 45 Options Comm 1 Address A read returns the address of the FL3102. A write changes the address to the requested address. The range of the address is 1 to 247 (01 to F7 Hex). After the address has been changed to the slave unit, the MODBUS communications will cease because the address has changed; therefore the master will have to change its query address to the slave s new address in order to restart the communications. EXCEPTION - If the EEPROM write error occurs, then the Exception Code 04 (Slave Device Failure) is returned. NOTE - By grounding the RESET input during the first 10 seconds of the 2- minute power-up cycle, the FL3102 Address will default to 1. The red and green LED s will flash simultaneously while the RESET input is grounded. The address will be set to a default of 1 when the red and green LED s flash alternately after approximately 10 seconds, at which time the RESET input can be released from ground Comm 1 Baud Rate A read returns the baud rate of the FL3102. A write changes the baud rate to the requested baud rate. After the baud rate has been changed to the addressed unit, the MODBUS communications will cease because the baud rate has changed; therefore the master will have to change its baud rate to the slave s new baud rate in order to restart the communications. Baud Rate Low Data Byte Access 19.2K 03 Read/Write Read/Write Read/Write Read/Write Figure 46 Comm 1 Baud Rate This function is indicated on the Low Data Byte and the High Data Byte is not used. 38

56 EXCEPTION - If an illegal data value is entered which is not listed above, then the Exception Code 03 (Illegal Data Value) is returned. EXCEPTION - If an EEPROM write occurs, then the Exception Code 04 (Slave Device Failure) is returned. Model FL3102 NOTE - By grounding the RESET input during the first 10 seconds of the 2 - minute power-up cycle, the FL3102 Baud Rate will default to 19.2K. The red and green LED s will flash simultaneously while the RESET input is grounded. The Data Format will be set to a default of 8-N-1 when the red and green LED s flash alternately after approximately 10 seconds, at which time the RESET input can be released from ground Comm 1 Data Format A read returns the Comm 1 data format of the FL3102. A write changes the data format to the requested data format. After the data format has been changed to the addressed unit, the MODBUS communications may cease or start producing Comm errors because the data format has changed; therefore the master will have to change its data format to the slave s new data format in order to restart or provide proper communications. Data Parity Stop Format Low Data Byte Access 8 None 1 8-N-1 00 Read/Write 8 Even 1 8-E-1 01 Read/Write 8 Odd 1 8-O-1 02 Read/Write 8 None 2 8-N-2 03 Read/Write Figure 47 Comm 1 Data Format This function is indicated on the Low Data Byte and the High Data Byte is not used. NOTE - By grounding the RESET input during the first 10 seconds of the 2- minute power-up cycle, the FL3102 Data Format will default to 8-N-1. The red and green LED s will flash simultaneously while the RESET input is grounded. The Data Format will be set to a default of 8-N-1 when the red and green LED s flash alternately after approximately 10 seconds, at which time the RESET input can be released from ground Fire Window COPM Fault Total (Photodiode) A read indicates the number of Fire Channel Window COPM Faults that have occurred in the slave device. This fault is usually caused by a dirty Fire Detector Window. The maximum count is 255 and then the counter will roll over to zero and begin counting again. 39

57 Fire Sensor COPM Fault Total A read indicates the total number of Fire Channel Sensor COPM Faults that have occurred in the slave device. This fault is usually caused by a faulty Fire Channel Sensor or Circuitry. The maximum count is 255 and then the counter will roll over to zero and begin counting again Sun COPM Fault Total A read indicates total number of Sun Channel Window or Sensor COPM Faults that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Remote Reset Writing a 1 to the bit activates the Remote Reset function that resets the Alarm and Warn Relays. The function is active momentarily and will reset automatically after being used. Function Bit (LSB) Access Enable 1 Read/Write Disable 0 Read/Write Figure 48 Remote Reset Remote Alarm Test Writing a 1 to the bit activates the Remote Alarm Test function that activates the Warn and Alarm relay turn-on along with the Analog current status. Once the Alarm Test is complete the function should be disabled by writing a zero to Remote Alarm Test and then resetting the Alarm and Warn relays by writing a one to the Remote Reset (referenced above). Function Bit (LSB) Access Enable 1 Read/Write Disable 0 Read/Write Figure 49 Remote Alarm Test Clear COPM Faults Writing a 1 to the bit activates the Clear COPM Faults function that resets all of the Fire Window COPM faults, the Fire Sensor COPM Faults, and the Sun COPM Faults. The bit and enable function is active momentarily and will reset to disable and zero after being used Function Bit (LSB) Access Enable 1 Read/Write Disable 0 Read/Write Figure 50 Clear COPM Faults 40

58 Comm 1 or 2 Total Receive Errors A read indicates the total MODBUS Comm 1 or 2 Receive Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again. The total errors are an accumulation of the individual Comm errors listed below: Comm 1 or 2 Bus Activity Rate % A read indicates the Comm 1 or 2 Bus Activity Rate in percent of this Slave's addressed node versus other addressed nodes. Range of this value is in hex (0-64), which translates to decimal (0-100%) Comm 1 & 2 Function Code Errors A read indicates the number of Comm 1 & 2 Function Code Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Comm 1 & 2 Starting Address Errors A read indicates the number of Comm 1 & 2 Starting Address Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Comm 1 Only Total Receive Errors A read indicates the total MODBUS Comm 1 Only Receive Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Comm 1 & 2 RXD CRC Lo Errors A read indicates the number of Comm 1 & 2 RXD CRC Lo Byte Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Comm 1 & 2 RXD CRC Hi Errors A read indicates the number of Comm 1 & 2 RXD CRC Hi Byte Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Comm 1 Only Overrun Errors A read indicates the number of Comm 1 Only Overrun Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again. NOTE - An overrun error occurs, when the next received byte of data tries to overwrite an existing received data byte, which has not been processed. Therefore, the next received byte of data is lost. This can be controlled by implementing the proper DCS or PLC Error Handling Timing Setting (ex. Reply Timeout Setting, Delay Time, and Number of Retries) and proper Baud Rate Setting. 41

59 Comm 1 Only Noise Flag Errors A read indicates the number of Comm 1 Only Noise Flag Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Comm 1 & 2 Framing Errors A read indicates the number of Comm 1 & 2 Framing Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Comm 1 or 2 Message Interval A read indicates the time interval in milliseconds between Comm 1 or 2 Message Intervals. The maximum time interval indicated is Comm 2 Only Total Receive Errors A read indicates the total MODBUS Comm 1 Only Receive Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Comm 1 Only SCI Errors A read indicates the number of Comm 1 Only SCI (Serial Communications Interface) Errors that occurred in the slave device. The maximum count is 255 and then the counter will rollover to zero and begin counting again Clear Comm 1 & 2 Errors Writing a 1 to the bit activates the Clear Comm 1 & 2 Errors function which resets all of the MODBUS Comm Error counters to zero. The function is active momentarily and will reset automatically after being used. Function Bit (LSB) Access Enable 1 Read/Write Disable 0 Read/Write Figure 51 Comm 1 & 2 Errors 42

60 Comm 2 Address A read returns the Comm 2 address of the FL3102. A write changes the address to the requested address. The range of the address is 1 to 247 (01 to F7 Hex). After the address has been changed to the slave unit, the MODBUS communications will cease because the address has changed. Therefore, the master will have to change its query address to the slave s new address in order to restart the communications. EXCEPTION - If the EEPROM write error occurs, then the Exception Code 04 (Slave Device Failure) is returned. NOTE - By grounding the RESET input during power-up cycle (approximately 10 seconds), the FL3102 Address will default to Comm 2 Baud Rate A read returns the Comm 2 baud rate of the FL3102. A write changes the baud rate to the requested baud rate. After the baud rate has been changed to the addressed unit, the MODBUS communications will cease because the baud rate has changed. Therefore, the master will have to change its baud rate to the slave s new baud rate in order to restart the communications. Baud Low Data Rate Byte Access 19.2K 03 Read/Write Read/Write Read/Write Read/Write Figure 52 Comm 2 Baud Rate This function is indicated on the Low Data Byte and the High Data Byte is not used. EXCEPTION - If an illegal data value is entered which is not listed above, then the Exception Code 03 (Illegal Data Value) is returned. EXCEPTION - If an EEPROM write occurs, then the Exception Code 04 (Slave Device Failure) is returned. NOTE - By grounding the RESET input during power-up cycle (approximately 10 seconds), the FL3102 Baud Rate will default to 19.2K. 43

61 Comm 2 Data Format A read returns the Comm 2 data format of the FL3102. A write changes the data format to the requested data format. After the data format has been changed to the addressed unit, the MODBUS communications may cease or start producing Comm errors because the data format has changed. Therefore, the master will have to change its data format to the slave s new data format in order to restart or provide proper communications. Data Parity Stop Format Low Data Access Byte 8 None 1 8-N-1 00 Read/Write 8 Even 1 8-E-1 01 Read/Write 8 Odd 1 8-O-1 02 Read/Write 8 None 2 8-N-2 03 Read/Write Figure 53 Comm 2 Data Format This function is indicated on the Low Data Byte and the High Data Byte is not used. NOTE - By grounding the RESET input during power-up cycle (approximately 10 seconds), the FL3102 Data Format will default to 8-N-1. 44

62 8.0 Appendix 8.1 Specifications Model FL System Specifications Detector Location Class I, Division 1 & 2, Groups B, C & D; Class II, Groups E, F & G; Class III Eexd - IIB + H2 - T6 TYPE 4x, IP66/ IR Detector center wavelength (Figure 15) 4.35 microns Typical Response Time* < 2 50 ft Minimum Response Time < 500 ms Field of Vision* (Figure 16) 120 maximum *NOTE Response Times and Field of View data have been derived by testing the Model FL3102 Flame Detector with a 1 square-foot gasoline fire. One cup of unleaded gasoline on top of a one-inch layer of water was ignited for each test. These are typical values and different results may occur depending on the variation of each fire Sensitivity 50 feet (15.2m); Maximum distance for a 1 square foot (.092m 2 ) gasoline fire to be reliably detected. (For settings see Section 3.5 Switch Selectable Options) Maximum Cable Parameters 4-20mA Output Signal 9000 feet (2750 m), maximum 50 Ohms loop, with maximum 250 Ohms input impedance of readout unit. Remote power supply (see NOTE, page 6) 3000 feet (930 m), maximum 20 Ohms loop and 24VDC minimum. (See Section 3-4 Term. Connections) 45

63 Warranty Two Years Mechanical Specifications Enclosure material Material (Aluminum): A-356, Optional (Stainless Steel) Color Finish Dimensions Height Width Depth Weight Red Chemical Film per MIL-C-5541, Epoxy Powder Coated in (15.2cm) in (15.2cm) in (14.0cm) 5 lbs (2.3 kg) AL; 16 lbs (7.3 kg) SS Electrical Specifications Supply voltage range (see NOTE) Nominal supply voltage 24Vdc Range 20 to 36Vdc Maximum supply current 150mA Maximum output signal load VDC Output signal range FAULT signal COPM fault signal Ready signal WARN signal ALARM signal Relay Contact Ratings 250VAC, 30VDC, Resistive MAX RS-485 Output Modbus RTU 128 units in series MAX. (247 units with repeaters) 0 to 20mA 0 to 0.2mA 2.0 ma + 0.2mA mA mA mA Baud Rate 2400, 4800, 9600 or BPS (See Terminal Connections 3-4 for Alarm Output Connections) RFI/EMI Protection Complies with EN , EN Status Indicator Two LED s indicate status, fault conditions. 46

64 8.1.4 Environmental Specifications Operating temperature range -40 F to 176 F -40 C to 75 C Storage temperature range -40 F to 176 F -40 C to 75 C Humidity range 0 to 100% RH, non-condensing Modbus RTU Protocol For detailed information on data format, read commands, write commands, register details, register locations, refer to the Appendix beginning on page Approvals CSA approved, Cenelec & CE Marking pending 8.3 Spare Parts and Accessories Spare Parts When ordering Spare Parts and/or Accessories, please contact your nearest General Monitors Representative or General Monitors directly and give the following information: 1. Part Number 2. Description 3. Quantity Item Description Part # 1 Lamp, IR Source IR Detector, CO IR Detector, Sun Window Cleaning Solution Swivel Elbow Union Bracket Assembly Instruction Manual MANFL TL103 UV/IR Test Lamp TL Optical Air Guard

65 8.3.2 TL103 Test Lamp Due to the advanced discrimination in the Model FL3102, the Model TL103 Test Lamp was developed. The General Monitors TL103 Test Lamp is a battery operated, rechargeable, test source specifically designed to test General Monitors IR Flame Detection Systems. It consists of a high-energy broad band radiation source which emits sufficient energy in the Infra-Red spectra to activate the IR detector. To simulate a fire, the test lamp automatically flashes at one of three DIP-switch selectable rates. The Model TL103, rated explosion proof, is CSA certified for use in Class I, Division 1, Groups C and D areas. The test lamp operates on internal lead-acid batteries which, when fully charged, will operate continuously for 25 to 30 minutes. An internal circuit will prevent operation when the batteries are low. Operating Instructions It is always important to begin a series of flame detector checks with a fully charged TL103. Stand within 10 feet (FL3102) from the unit to be tested and aim the TL103 directly into the detector windows. Press the ON button and be sure the high intensity pulsing beam strikes the detector face squarely. Shaking the lamp from side to side or up and down will increase the simulation of flame flicker, and improve the response of the flame detector to the lamp. If the system is operating normally, the control module will go into a WARNing condition after a few flashes of the Test lamp. If the lamp remains ON for the period set by the Time Delay Adjustment, the controller will go into ALARM. To conserve charge, do not operate the Test Lamp longer than is necessary to test each channel. When the battery level drops below the level required to maintain the proper intensity of the lamp, an internal low voltage circuit will shut the lamp off until the battery has been recharged. Recharging Instructions NOTE Charging must be carried out in a non-hazardous area. The charging receptacle is located inside the housing adjacent to the ON button. To gain access, it is necessary to unscrew the knurled plug from the body of the unit. The plug is secured to the ON button by a safety strap to keep it from being lost. Insert the charging plug into the receptacle. Complete recharging takes fourteen hours, minimum. IMPORTANT: Replace the knurled plug after charging is complete. It is recommended that the TL103 be kept on charge when not in use to prevent excessive battery discharge. The batteries may be charged an average of 500 times and the battery pack is replaceable Mounting Swivel / Union A mounting swivel and union are available to connect ¾ conduit into the base of the Model FL3102. The swivel design allows for optical alignment adjustments for the Model FL3102 when using rigid conduit. 48

66 NOTE Swivel is only rated for Class I, Div 1 & 2, Groups C & D areas. For Group B areas, use mounting bracket Mounting Bracket A mounting bracket is available to mount the FL3102 to a wall, pole, etc. The mounting bracket design allows for optical alignment adjustments for the Model FL3102 when installed to a fixed installation Optical Air Guard An optical air guard is available for applications such as paint spray booths, which require a method to keep detector optics clean. This air guard mounts at the front of the FL3102 and has a connection for shop air. The air when turned on creates an air wall to keep optics clean. 49

67 ADDENDUM Product Disposal Considerations This product may contain hazardous and/or toxic substances. EU Member states shall dispose according to WEEE regulations. For further General Monitors product WEEE disposal information please visit: All other countries or states: please dispose of in accordance with existing federal, state and local environmental control regulations. 50

High Temperature Remote Gas Calibrator

High Temperature Remote Gas Calibrator High Temperature Remote Gas Calibrator The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized in writing

More information

FL500 Modbus Communication Operating Manual. Order No.: /00. MSAsafety.com

FL500 Modbus Communication Operating Manual. Order No.: /00. MSAsafety.com FL500 Modbus Communication Operating Manual Order No.: 10193214/00 MSAsafety.com 1000 Cranberry Woods Drive Cranberry Township, PA 16066 A Phone 1-800-MSA-2222 Fax 1-800-967-0398 For your local MSA contacts

More information

Model TL104 MANTL104. Test Lamp for Flame Detection

Model TL104 MANTL104. Test Lamp for Flame Detection Model TL104 Test Lamp for Flame Detection The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized in writing

More information

MODEL FL4000H. Multi-Spectral Infrared Flame Detector

MODEL FL4000H. Multi-Spectral Infrared Flame Detector MODEL FL4000H Multi-Spectral Infrared Flame Detector The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized

More information

FlameGard 5 MSIR. Multi-Spectral Infrared Flame Detector

FlameGard 5 MSIR. Multi-Spectral Infrared Flame Detector FlameGard 5 MSIR Multi-Spectral Infrared Flame Detector The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized

More information

Models FL3110/FL3111. UV/IR and UV only Flame Detectors. Instruction Manual 09/09

Models FL3110/FL3111. UV/IR and UV only Flame Detectors. Instruction Manual 09/09 Models FL3110/FL3111 UV/IR and UV only Flame Detectors The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized

More information

SAFETY MANUAL. FL4000H and FL4000 Multi-Spectral Infrared Flame Detectors

SAFETY MANUAL. FL4000H and FL4000 Multi-Spectral Infrared Flame Detectors SAFETY MANUAL FL4000H and FL4000 Multi-Spectral Infrared Flame Detectors The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent

More information

FlameGard 5 UV/IR HART

FlameGard 5 UV/IR HART FlameGard 5 UV/IR HART HART Communication Manual The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized

More information

FlameGard 5 MSIR HART

FlameGard 5 MSIR HART FlameGard 5 MSIR HART Multi-Spectral Infrared Flame Detector HART Communication with the FlameGard 5 Multi-spectral Infrared Detector The information and technical data disclosed in this document may be

More information

Design Manual Installation Operation Maintenance

Design Manual Installation Operation Maintenance Design Manual Installation Operation Maintenance Model FT194 UV/IR Portable Flame Detector Test Lamp 23282 Mill Creek Drive, Suite 215 Laguna Hills, CA 92653 USA +1.949.583.1857 Phone +1.949.340.3343 Fax

More information

Model 2280A. Four Channel Control Module Hydrogen Sulfide Gas Applications

Model 2280A. Four Channel Control Module Hydrogen Sulfide Gas Applications Four Channel Control Module Hydrogen Sulfide Gas Applications The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically

More information

Model FMD. Field Mounted Display Module

Model FMD. Field Mounted Display Module Field Mounted Display Module The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized in writing by General

More information

SEC 2000 Millenium Infrared Gas Detector

SEC 2000 Millenium Infrared Gas Detector SEC 2000 Millenium Infrared Gas Detector Instruction and Operation Manual Sensor Electronics Corporation 5500 Lincoln Drive Minneapolis, Minnesota 55436 USA (952) 938-9486 Fax (952) 938-9617 Email: sales@sensorelectronic.com

More information

Model 580A. Two Channel Control Module Combustible Gas Applications

Model 580A. Two Channel Control Module Combustible Gas Applications Two Channel Control Module Combustible Gas Applications The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized

More information

Model Gas Alarm Panel APPLICABILITY & EFFECTIVITY. This manual provides instructions for the following Sierra Monitor products:

Model Gas Alarm Panel APPLICABILITY & EFFECTIVITY. This manual provides instructions for the following Sierra Monitor products: Model 2102 Gas Alarm Panel APPLICABILITY & EFFECTIVITY This manual provides instructions for the following Sierra Monitor products: Model Description 2102-00 Alarm Panel 2 Channel 2102-01 Alarm Panel 2

More information

SM3000 Videographic Recorder. User Guide. Modbus (RTU) Communications Option

SM3000 Videographic Recorder. User Guide. Modbus (RTU) Communications Option SM3000 Videographic Recorder User Guide (RTU) Communications Option ABB The Company We are an established world force in the design and manufacture of instrumentation for industrial process control, flow

More information

DET-TRONICS SPECIFICATION DATA. Eagle Quantum EQ2200UVHT For Use With C7050B Continuous Duty High Temperature UV Flame Detector DESCRIPTION

DET-TRONICS SPECIFICATION DATA. Eagle Quantum EQ2200UVHT For Use With C7050B Continuous Duty High Temperature UV Flame Detector DESCRIPTION DET-TRONICS SPECIFICATION DATA Eagle Quantum EQ2200UVHT For Use With C7050B Continuous Duty High Temperature UV Flame Detector DESCRIPTION The EQ2200UVHT UV Flame Detector is used with the Eagle Quantum

More information

FUNCTIONAL SAFETY MANUAL

FUNCTIONAL SAFETY MANUAL FUNCTIONAL SAFETY MANUAL UltraSonic EX-5 Ultrasonic Gas Leak Detector The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent

More information

FUNCTIONAL SAFETY MANUAL. Gassonic Observer-H and Observer-i Ultrasonic Gas Leak Detector

FUNCTIONAL SAFETY MANUAL. Gassonic Observer-H and Observer-i Ultrasonic Gas Leak Detector FUNCTIONAL SAFETY MANUAL Gassonic Observer-H and Observer-i Ultrasonic Gas Leak Detector The information and technical data disclosed in this document may be used and disseminated only for the purposes

More information

SAFETY MANUAL. X2200 UV, X9800 IR, X5200 UVIR SIL 2 Certified Flame Detectors

SAFETY MANUAL. X2200 UV, X9800 IR, X5200 UVIR SIL 2 Certified Flame Detectors SAFETY MANUAL X2200 UV, X9800 IR, X5200 UVIR SIL 2 Certified Flame Detectors SAFETY-CERTIFIED Flame DETECTORs This manual addresses the specific requirements and recommendations applicable to the proper

More information

Replaceable LED modules. Sleep or unattended mode. Auto-silence and auto-acknowledge

Replaceable LED modules. Sleep or unattended mode. Auto-silence and auto-acknowledge Replaceable LED modules 11 Alarm Sequences as per ISA-18.1 standard Each channel/window fully field programmable RS232 or RS485 MODBUS-RTU communication Repeat relay for each window and multifunction relays

More information

FM Approved Fire & Gas Detection System

FM Approved Fire & Gas Detection System H a z a r d W a t c h FM Approved Fire & Gas Detection System State of the Art Fire and Intelligent, Modular and Flexible The HazardWatch Integrated Fire and Gas Detection System from General Monitors

More information

Multi-Spectral, Digital, Infrared Electro-Optical. FSC Model No. s. Unitized, Two Stage, Quick Response Flame Detectors.

Multi-Spectral, Digital, Infrared Electro-Optical. FSC Model No. s. Unitized, Two Stage, Quick Response Flame Detectors. Fire Sentry Corporation (FSC) 593 Apollo Street Tel.: 714-671-1100 Brea, California 92821 Fax: 714-671-5821 Multi-Spectral, Digital, Infrared Electro-Optical FSC Model No. s FS10-R and FS10-A Unitized,

More information

SEC Millenium Carbon Dioxide Gas Detector

SEC Millenium Carbon Dioxide Gas Detector SEC Millenium Carbon Dioxide Gas Detector Instruction and Operation Manual Sensor Electronics Corporation 5500 Lincoln Drive Minneapolis, Minnesota 55436 USA (952) 938-9486 Fax (952) 938-9617 Email sales@sensorelectronic.com

More information

Model 3300 Technical Support and Installation Manual

Model 3300 Technical Support and Installation Manual Model 3300 Technical Support and Installation Manual Manual # T15011 Document Revision: A1 1. OVERVIEW 1 2. BASIC OPERATION 1 2.1 General 1 2.2 Field-of-View 2 2.3 Range 2 2.4 Environment 2 2.5 Configuration

More information

SEC Signature Process Gas Analyzer

SEC Signature Process Gas Analyzer SEC Signature Process Gas Analyzer Instruction and Operation Manual Sensor Electronics Corporation 5500 Lincoln Drive Minneapolis, Minnesota 55436 USA (952) 938-9486 Fax (952) 938-9617 email sensor@minn.net

More information

SAFETY MANUAL. Multispectrum IR Flame Detector X3301

SAFETY MANUAL. Multispectrum IR Flame Detector X3301 SAFETY MANUAL Multispectrum IR Flame Detector X3301 SAFETY-CERTIFIED MODEL X3301 MULTISPECTRUM INFRARED DETECTOR This manual addresses the specific requirements and recommendations applicable to the proper

More information

FIREYE C9707A ALL FUEL SCANNER

FIREYE C9707A ALL FUEL SCANNER 65-8065 APRIL 11, 2013 FIREYE C9707A ALL FUEL SCANNER The C9707A All Fuel Scanner is used with the FIREYE R9107A Flame Controller to provide continuous monitoring of burner flames in industrial and utility

More information

Hydrocarbon Gas Detector

Hydrocarbon Gas Detector SEC Millenium Hydrocarbon Gas Detector Instruction and Operation Manual Sensor Electronics Corporation 5500 Lincoln Drive Minneapolis, Minnesota 55436 USA (952) 938-9486 Fax (952) 938-9617 Email: sales@sensorelectronic.com

More information

ACCURATE ELECTRONICS INC PO BOX SW HALL BLVD BEAVERTON OR USA FAX

ACCURATE ELECTRONICS INC PO BOX SW HALL BLVD BEAVERTON OR USA FAX Page 1 of 10 Model 10807800 January 2014 ACCURATE ELECTRONICS INC PO BOX 1654 97075-1654 8687 SW HALL BLVD 97008 BEAVERTON OR USA 503.641.0118 FAX 503.646.3903 WWW.ACCURATE.ORG Practice Section 10807800

More information

Carbon Monoxide Transmitter

Carbon Monoxide Transmitter Introduction The CO Transmitter uses an electrochemical sensor to monitor the carbon monoxide level and outputs a field-selectable 4-20 ma or voltage signal. The voltage signal may also be set to 0-5 or

More information

GAS MONITOR Model Model

GAS MONITOR Model Model Sierra Monitor Corporation 1991 Tarob Court, Milpitas, CA 95035 (408) 262-6611 (800) 727-4377 (408) 262-9042 - Fax E-mail: sierra@sierramonitor.com Web Site: www.sierramonitor.com GAS MONITOR Model 2350-00

More information

Model 2602A. Zero Two Series Control for Hydrogen Sulfide Gas Applications

Model 2602A. Zero Two Series Control for Hydrogen Sulfide Gas Applications Model 2602A Zero Two Series Control for Hydrogen Sulfide Gas Applications The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent

More information

RK-05 Carbon Monoxide Detector Operator s Manual

RK-05 Carbon Monoxide Detector Operator s Manual 65-2433RK-05 Carbon Monoxide Detector Operator s Manual Part Number: 71-0189RK Revision: 0 Released: 5/17/11 RKI Instruments, Inc. www.rkiinstruments.com WARNING Read and understand this instruction manual

More information

GG-CO-EXP CARBON MONOXIDE SENSOR. Installation and Operation Manual

GG-CO-EXP CARBON MONOXIDE SENSOR. Installation and Operation Manual GG-CO-EXP CARBON MONOXIDE SENSOR Installation and Operation Manual 2 GG-CO-EXP Warning Use this product only in the manner described in this manual. If the equipment is used in a manner not specified by

More information

Model 4001 Series Single Channel Controller

Model 4001 Series Single Channel Controller Model 4001 Series Single Channel Controller Sierra Monitor Corporation 1991 Tarob Court, Milpitas, CA 95035 (408) 262-6611 (800) 727-4377 (408) 262-9042 - Fax E-Mail: sales@sierramonitor.com Web site:

More information

FUNCTIONAL SAFETY MANUAL

FUNCTIONAL SAFETY MANUAL f u n c t i o n a l S a f e t y M a n u a l FUNCTIONAL SAFETY MANUAL Gassonic Surveyor and Gassonic Observer Ultrasonic Gas Leak Detectors The information and technical data disclosed in this document

More information

Applying Neural Network Technology to the Next Generation Flame Detector

Applying Neural Network Technology to the Next Generation Flame Detector Applying Neural Network Technology to the Next Generation Flame Detector Breakthrough Neural Network Intelligence for Improved False Alarm Immunity www.generalmonitors.com Innovative Technology for Superior

More information

Model IR4000S CO 2. Single-Point Carbon Dioxide Monitor. Instruction Manual 12-11

Model IR4000S CO 2. Single-Point Carbon Dioxide Monitor. Instruction Manual 12-11 Single-Point Carbon Dioxide Monitor The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized in writing

More information

RED1. Technical Support And Installation Manual. Models ST, E1, E2, E3, E4, and 420. Approved

RED1. Technical Support And Installation Manual. Models ST, E1, E2, E3, E4, and 420. Approved RED1 Models ST, E1, E2, E3, E4, and 420 Technical Support And Installation Manual 210111 FM Approved 1. OVERVIEW 1 2. BASIC OPERATION 3 2.1 General 3 2.2 Field-of-View 4 2.3 Range 4 2.4 Environment 4 2.5

More information

Buzzer Unit. TAN-5000 Series. Operating Manual

Buzzer Unit. TAN-5000 Series. Operating Manual PT1E-1040 Buzzer Unit TAN-5000 Series Operating Manual Request for the Customers Read and understand this operating manual before using the buzzer unit. Use the buzzer unit in accordance with the operating

More information

Remote Relay Module (RRM)

Remote Relay Module (RRM) Remote Relay Module (RRM) Instruction Manual WARNING THIS MANUAL MUST BE CAREFULLY READ BY ALL INDIVIDUALS WHO HAVE OR WILL HAVE THE RESPONSIBILITY FOR INSTALLING, USING OR SERVICING THIS PRODUCT. Like

More information

SEC 5000 IREvolution Gas Detector

SEC 5000 IREvolution Gas Detector SEC 5000 IREvolution Gas Detector Instruction and Operation Manual Sensor Electronics Corporation 12730 Creek View Avenue Savage, Minnesota 55378 USA (952) 938-9486 Fax (952) 938-9617 Email: sales@sensorelectronics.com

More information

Model D12-IR. Digital Gas Transmitter...

Model D12-IR. Digital Gas Transmitter... Model D12-IR Digital Gas Transmitter... ATI s Series D12 gas transmitter line now includes a versatile Infrared system that can be configured for LEL or select toxic gases. The D12-IR utilizes a compact

More information

21-light Remote Annunciator. Owner s Manual

21-light Remote Annunciator. Owner s Manual 21-light Remote Annunciator Owner s Manual Annunciator Description... Inside Font Cover Detailed Specifications... 1 Environmental Specifications... 1 Power Supply Requirements... 1 Communication With

More information

Beacon 800 Gas Monitor Operator s Manual

Beacon 800 Gas Monitor Operator s Manual Beacon 800 Gas Monitor Operator s Manual Part Number: 71-0037RK Revision: F Released: 4/18/17 www.rkiinstruments.com Product Warranty RKI Instruments, Inc. warrants gas alarm equipment sold by us to be

More information

Bench Top Ionizer Installation, Operation and Maintenance

Bench Top Ionizer Installation, Operation and Maintenance TECHNICAL BULLETIN TB-5512 Bench Top Ionizer Installation, Operation and Maintenance Made in America common plastics), and moving personnel who cannot use wrist or heel straps or ESD control flooring and

More information

Instruction Manual WARNING

Instruction Manual WARNING Controllers Instruction Manual WARNING THIS MANAUL MUST BE CAREFULLY READ BY ALL INDIVIDUALS WHO HAVE OR WILL HAVE THE RESPONSIBILITY FOR INSTALLING, USING OR SERVICING THIS PRODUCT. Like any piece of

More information

GASGUARD H2S EXP. Hydrogen Sulfide Sensor OPERATING & INSTALLATION MANUAL

GASGUARD H2S EXP. Hydrogen Sulfide Sensor OPERATING & INSTALLATION MANUAL GASGUARD H2S EXP Hydrogen Sulfide Sensor OPERATING & INSTALLATION MANUAL Operating and Installation Manual Warning Use this product only in the manner described in this manual. If the equipment is used

More information

Controllers. Instruction Manual WARNING

Controllers. Instruction Manual WARNING Controllers Instruction Manual WARNING THIS MANUAL MUST BE CAREFULLY READ BY ALL INDIVIDUALS WHO HAVE OR WILL HAVE THE RESPONSIBILITY FOR INSTALLING, USING OR SERVICING THIS PRODUCT. Like any piece of

More information

SAFETY MANUAL. IR5000 Open Path Hydrocarbon Gas Monitoring System

SAFETY MANUAL. IR5000 Open Path Hydrocarbon Gas Monitoring System SAFETY MANUAL Open Path Hydrocarbon Gas Monitoring System The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically

More information

1040 Gas Monitor INSTALLATION AND OPERATING INSTRUCTIONS AMC-1040 WITH INTEGRAL ELECTROCHEMICAL SENSOR

1040 Gas Monitor INSTALLATION AND OPERATING INSTRUCTIONS AMC-1040 WITH INTEGRAL ELECTROCHEMICAL SENSOR 1040 Gas Monitor INSTALLATION AND OPERATING INSTRUCTIONS AMC-1040 WITH INTEGRAL ELECTROCHEMICAL SENSOR IMPORTANT: Please read these installation and operating instructions completely and carefully before

More information

ACCURATE ELECTRONICS INC

ACCURATE ELECTRONICS INC ACCURATE ELECTRONICS INC Page 1 of 7 Model 108078 2 Sept 09 WWW.ACCURATE.ORG PO BOX 1654 97075-1654 8687 SW Hall Blvd 97008 BEAVERTON OR USA 503.641.0118 FAX 503.646.3903 Practice Section 108078 Rev A

More information

ModSync Sequencing System Installation & Operation Manual. For use with Fulton Steam Boilers.

ModSync Sequencing System Installation & Operation Manual. For use with Fulton Steam Boilers. ModSync Sequencing System Installation & Operation Manual For use with Fulton Steam Boilers. Revision 3.0 8/21/2008 - 2 - Table of Contents Introduction Page 4 Features Page 4 Sequence of Operation Page

More information

FIRERAY 5000 range USER GUIDE

FIRERAY 5000 range USER GUIDE FIRERAY 5000 range USER GUIDE 0044-003-04 IMPORTANT PLEASE NOTE: The beam path MUST be kept clear of obstructions at all times! Failure to comply may result in the Detector initiating a Fire or Fault signal.

More information

RK / RK Methane Detector Operator s Manual

RK / RK Methane Detector Operator s Manual 61-1006RK / 61-0192RK Methane Detector Operator s Manual Part Number: 71-0228RK Revision: 0 Released: 10/29/18 www.rkiinstruments.com WARNING Read and understand this instruction manual before operating

More information

F500 Elite. FIELDBUS ADAPTER. Watchdog NTC to Modbus RTU communications. (Software Version 3.3.0)

F500 Elite. FIELDBUS ADAPTER. Watchdog NTC to Modbus RTU communications. (Software Version 3.3.0) F500 Elite. FIELDBUS ADAPTER. Watchdog NTC to Modbus RTU communications. (Software Version 3.3.0) Approvals: Suitable for use in Hazardous Locations CL II Div 1 GPS E, F & G (CANADA ONLY) CL II Div 2 GPS

More information

SEC Millenium Hydrocarbon Gas Detector

SEC Millenium Hydrocarbon Gas Detector SEC Millenium Hydrocarbon Gas Detector Instruction and Operation Manual Sensor Electronics Corporation 12730 Creek View Avenue Savage, Minnesota 55378 USA (952) 938-9486 Fax (952) 938-9617 Email: sales@sensorelectronic.com

More information

RS485 MODBUS Module 8AI

RS485 MODBUS Module 8AI Version 1.4 15/04/2013 Manufactured for Thank you for choosing our product. This manual will help you with proper support and proper operation of the device. The information contained in this manual have

More information

Two-Channel Gas Controller

Two-Channel Gas Controller Two-Channel Gas Controller Specifications subject to change without notice. USA 09 Page of DESCRIPTION Highly configurable, UL 0 performance-tested and -certified, and wall-mounted gas monitor; continuously

More information

Carbon Dioxide Sample-Draw Detector Operator s Manual

Carbon Dioxide Sample-Draw Detector Operator s Manual 35-3001-05-03 Carbon Dioxide Sample-Draw Detector Operator s Manual Part Number: 71-0413 Revision: 0 Released: 8/4/17 www.rkiinstruments.com WARNING Read and understand this instruction manual before operating

More information

Combustible Gas Sample-Draw Detector Operator s Manual

Combustible Gas Sample-Draw Detector Operator s Manual 35-3001-01 Combustible Gas Sample-Draw Detector Operator s Manual Part Number: 71-0282RK Revision: A Released: 8/3/17 www.rkiinstruments.com WARNING Read and understand this instruction manual before operating

More information

RK-02 Multi Point Detector Operator s Manual

RK-02 Multi Point Detector Operator s Manual 65-2485RK-02 Multi Point Detector Operator s Manual Part Number: 71-0237RK Revision: A Released: 11/26/14 RKI Instruments, Inc. www.rkiinstruments.com WARNING Read and understand this instruction manual

More information

Model 4802A. Zero Two Series Control Module

Model 4802A. Zero Two Series Control Module Zero Two Series Control Module The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized in writing by General

More information

Global Water Instrumentation, Inc.

Global Water Instrumentation, Inc. Instrumentation, Inc. 11390 Amalgam Way Gold River, CA 95670 T: 800-876-1172 Int l: (916) 638-3429, F: (916) 638-3270 High Water Alarm WA400-DC WA400-AC WA400-BU WA400-FS WA400-AL 10/23/06 P/N: 01-527

More information

Mark 25 Ultrapure Water Conductivity Analyzer

Mark 25 Ultrapure Water Conductivity Analyzer Martek Instruments, Inc. Mark 25 Ultrapure Water Conductivity Analyzer Instruction Manual WARRANTY POLICY Unless otherwise stated, MARTEK INSTRUMENTS, INC. warrants this equipment to be free from defects

More information

RK-HC-04 M2A Transmitter Operator s Manual

RK-HC-04 M2A Transmitter Operator s Manual 65-2649RK-HC-04 M2A Transmitter Operator s Manual Part Number: 71-0327 Revision: B Released: 9/20/18 RKI Instruments, Inc. www.rkiinstruments.com WARNING Read and understand this instruction manual before

More information

Dräger Flame 2100 Flame Detection

Dräger Flame 2100 Flame Detection Dräger Flame 2100 Flame Detection Working in areas with combustible gases, vapors, or materials requires fire/ flame detection as a life-saving necessity. The best solutions must combine state-of-the-art

More information

1022 R/T Remote Monitor

1022 R/T Remote Monitor 1022 R/T Remote Monitor INSTRUCTIONS AMC-1022R/T WITH REMOTE SENSOR OR TRANSMITTER INSTALLATION AND OPERATING INSTRUCTIONS FOR THE AMC-1022R/T UNIT IMPORTANT: Please read these installation and operating

More information

Series Temperature Controller Instruction Sheet

Series Temperature Controller Instruction Sheet Series Temperature Controller Instruction Sheet Thank you very much for purchasing DELTA A Series. Please read this instruction sheet before using your A series to ensure proper operation and please keep

More information

GasScanner 4C. Four Channel Monitor. Operator s Manual. MINT-0280-XX Rev. A 02/25/08

GasScanner 4C. Four Channel Monitor. Operator s Manual. MINT-0280-XX Rev. A 02/25/08 GasScanner 4C Four Channel Monitor Operator s Manual MINT-0280-XX Rev. A 02/25/08 Product Warranty Matheson Tri-Gas., warrants gas alarm equipment sold by us to be free from defects in materials, workmanship,

More information

GG-NH3 AMMONIA GAS SENSOR. Installation and Operation Manual

GG-NH3 AMMONIA GAS SENSOR. Installation and Operation Manual GG-NH3 AMMONIA GAS SENSOR Installation and Operation Manual 2 GG-NH3 Warning Use this product only in the manner described in this manual. If the equipment is used in a manner not specified by Calibration

More information

Design Manual Installation Operation Maintenance

Design Manual Installation Operation Maintenance Design Manual Installation Operation Maintenance Model F120 Triple-Mode UV/IR Flame Detector 70053 23282 Mill Creek Drive, Suite 215 Laguna Hills, CA 92653 USA +1.949.583.1857 Phone +1.949.340.3343 Fax

More information

DC VOLTMETER DCV-10 / 10A / 10C / 10S / 10CS / 11 / 11A / 11C / 11S / 11CS. A4741 / Rev.1

DC VOLTMETER DCV-10 / 10A / 10C / 10S / 10CS / 11 / 11A / 11C / 11S / 11CS.  A4741 / Rev.1 DC VOLTMETER DCV-10 / 10A / 10C / 10S / 10CS / 11 / 11A / 11C / 11S / 11CS User Manual and Menu Map A4741 / Rev.1 www.entes.com.tr ATTENTION -Disconnect all power before connecting the device. -Don t remove

More information

GG-NO2 NITROGEN DIOXIDE GAS SENSOR. Installation and Operation Manual

GG-NO2 NITROGEN DIOXIDE GAS SENSOR. Installation and Operation Manual GG-NO2 NITROGEN DIOXIDE GAS SENSOR Installation and Operation Manual 2 GG-NO2 Warning Use this product only in the manner described in this manual. If the equipment is used in a manner not specified by

More information

Certificate of Compliance

Certificate of Compliance FF0 001 Certificate of Compliance Certificate: 70116279 (LR 025993_0_000) Issued to: General Monitors, Incorporated 26776 Simpatica Circle Lake Forest, California 92630 USA Attention: Larry Vlagea The

More information

MBCE-110/230UV Flame Sensor Module

MBCE-110/230UV Flame Sensor Module MBCE-1002 FEBRUARY 3, 2017 MBCE-110/230UV Flame Sensor Module DESCRIPTION The MBCE-110/230UV modules provide visual indication and electrical outputs that signal the user regarding flame presence in a

More information

Safe T Net 210. Instruction Manual Part Number Mar2010

Safe T Net 210. Instruction Manual Part Number Mar2010 Safe T Net 210 Instruction Manual Part Number 71-0012 31Mar2010 2007 Thermo Fisher Scientific Inc. All rights reserved. Specifications, terms and pricing are subject to change. Not all products are available

More information

GG-LEL2 COMBUSTIBLE GAS SENSOR. Installation and Operation Manual

GG-LEL2 COMBUSTIBLE GAS SENSOR. Installation and Operation Manual GG-LEL2 COMBUSTIBLE GAS SENSOR Installation and Operation Manual 2 GG-LEL2 Warning Use this product only in the manner described in this manual. If the equipment is used in a manner not specified by Calibration

More information

RK Hydrogen Sulfide Transmitter Operator s Manual

RK Hydrogen Sulfide Transmitter Operator s Manual 65-2331RK Hydrogen Sulfide Transmitter Operator s Manual Part Number: 71-0176RK Revision: B Released: 11/26/14 RKI Instruments, Inc. www.rkiinstruments.com WARNING Read and understand this instruction

More information

GASGUARD NH 3. Ammonia Sensor OPERATING & INSTALLATION MANUAL

GASGUARD NH 3. Ammonia Sensor OPERATING & INSTALLATION MANUAL GASGUARD NH 3 Ammonia Sensor OPERATING & INSTALLATION MANUAL Operating and Installation Manual 2 Table of Contents GasGuard NH 3 Operating and Instruction Manual General description. 4 Installation.. 4

More information

RK-OXY Oxygen Sample-Draw Detector Operator s Manual Part Number: RK Revision: P1 Released: 7/18/02

RK-OXY Oxygen Sample-Draw Detector Operator s Manual Part Number: RK Revision: P1 Released: 7/18/02 35-3000RK-OXY Oxygen Sample-Draw Detector Operator s Manual Part Number: 71-0071RK Revision: P1 Released: 7/18/02 RKI Instruments Inc. 1855 Whipple Road Hayward, CA 94544 PH: 800-754-5165 Fax: 510-441-5650

More information

Series DCT1000DC Dust Collector Timer Controller Specifications Installation and Operating Instructions

Series DCT1000DC Dust Collector Timer Controller Specifications Installation and Operating Instructions Series DCT1000DC Dust Collector Timer Controller Specifications Installation and Operating Instructions Bulletin E-97DC Thank you for purchasing the Dwyer DCT1000DC Dust Collector Timer Controller. You

More information

GG-EM ENTRANCE MONITOR. Installation and Operation Manual

GG-EM ENTRANCE MONITOR. Installation and Operation Manual GG-EM ENTRANCE MONITOR Installation and Operation Manual 2 GG-EM Warning Use this product only in the manner described in this manual. If the equipment is used in a manner not specified by Calibration

More information

! "! # Please read these installation and operating instructions completely and carefully before starting.

! ! # Please read these installation and operating instructions completely and carefully before starting. ! "! # $% Please read these installation and operating instructions completely and carefully before starting. File name:3009405d Revised,20/10/2008 Copyright, July 2004 The Armstrong Monitoring Corporation

More information

CONsOlIDATOR 4 & 8. MulTI- C h ANNEl CONTROllERs. ConsoliDator 4 Model PD940 ConsoliDator 4 Features. ConsoliDator 8 Features.

CONsOlIDATOR 4 & 8. MulTI- C h ANNEl CONTROllERs. ConsoliDator 4 Model PD940 ConsoliDator 4 Features. ConsoliDator 8 Features. CONsOlIDATOR 4 & 8 MulTI- C h ANNEl CONTROllERs ConsoliDator 4 Model PD940 ConsoliDator 4 Features Four 4-20 Four 4-20 Outputs ConsoliDator 8 Features Eight 4-20 Two 4-20 Outputs Common Features Four Pulse

More information

Model S4000C. Intelligent Sensor for Combustible Gas Detection

Model S4000C. Intelligent Sensor for Combustible Gas Detection Model S4000C Intelligent Sensor for Combustible Gas Detection The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically

More information

MODEL ZAC ZONE ANNUNCIATOR/CONTROLLER DESIGNED FOR ZONE ANNUNCIATION AND MONITORING

MODEL ZAC ZONE ANNUNCIATOR/CONTROLLER DESIGNED FOR ZONE ANNUNCIATION AND MONITORING MODEL ZAC-32 32 ZONE ANNUNCIATOR/CONTROLLER DESIGNED FOR ZONE ANNUNCIATION AND MONITORING 32 HARD WIRED ZONES CAN BE NORMALLY-OPEN OR NORMALLY-CLOSED ZONE WIRING RUNS CAN BE AS FAR AS 10,000 FEET FROM

More information

RK Multi Point Detector Operator s Manual

RK Multi Point Detector Operator s Manual 65-2480RK Multi Point Detector Operator s Manual Part Number: 71-0198RK Revision: C Released: 11/26/14 RKI Instruments, Inc. www.rkiinstruments.com WARNING Read and understand this instruction manual before

More information

SEC SIGNATURE ETO MONITOR TRAINING SENSOR ELECTRONICS CORPORATION

SEC SIGNATURE ETO MONITOR TRAINING SENSOR ELECTRONICS CORPORATION SEC SIGNATURE ETO MONITOR TRAINING SENSOR ELECTRONICS CORPORATION SEC SIGNATURE ETO MONITOR SIGETO1420597 PRODUCT INTRODUCED TO ETHYLENE OXIDE STERILIZATION INDUSTRY IN 2001. OVER 850 UNITS IN FIELD WORLDWIDE

More information

SAFETY MANUAL. Intelligent Sensors for H 2 S Gas Applications

SAFETY MANUAL. Intelligent Sensors for H 2 S Gas Applications SAFETY MANUAL Intelligent Sensors for H 2 S Gas Applications The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically

More information

DPR-145 TEMPERATURE PROTECTION RELAY. DPR-145 User Manual V-2.0 ( ) PT100 INPUTS: 4 RELAY OUTPUTS: 4 RS-485 MODBUS PORT VDC SUPPLY -1-

DPR-145 TEMPERATURE PROTECTION RELAY. DPR-145 User Manual V-2.0 ( ) PT100 INPUTS: 4 RELAY OUTPUTS: 4 RS-485 MODBUS PORT VDC SUPPLY -1- DPR-45 User Manual V-2.0 (2..206) DPR-45 TEMPERATURE PROTECTION RELAY PT00 INPUTS: 4 RELAY OUTPUTS: 4 RS-485 MODBUS PORT 9-50VDC SUPPLY DESCRIPTION DPR-45 is a precision unit designed for the temperature

More information

GASGUARD Cl 2. Chlorine Sensor OPERATING & INSTALLATION MANUAL

GASGUARD Cl 2. Chlorine Sensor OPERATING & INSTALLATION MANUAL GASGUARD Cl 2 Chlorine Sensor OPERATING & INSTALLATION MANUAL Operating and Installation Manual 2 Table of Contents GasGuard Cl 2 Operating and Instruction Manual General description. 4 Installation..

More information

RK-04 M2 Transmitter Operator s Manual

RK-04 M2 Transmitter Operator s Manual 65-2610RK-04 M2 Transmitter Operator s Manual Part Number: 71-0294RK Revision: 0 Released: 12/27/13 RKI Instruments, Inc. www.rkiinstruments.com WARNING Read and understand this instruction manual before

More information

LUMA-NET 804CP / 808CP REMOTE CONTROL PANEL

LUMA-NET 804CP / 808CP REMOTE CONTROL PANEL LUMA-NET 804CP / 808CP REMOTE CONTROL PANEL INSTALLATION AND OPERATION GUIDE INTRODUCTION The NSI 804CP and 808CP represents a key part of a state of the art, total lighting control system. Combined with

More information

GASGUARD SO2 Sulfur Dioxide Sensor OPERATING & INSTALLATION MANUAL

GASGUARD SO2 Sulfur Dioxide Sensor OPERATING & INSTALLATION MANUAL GASGUARD SO2 Sulfur Dioxide Sensor OPERATING & INSTALLATION MANUAL Operating and Installation Manual Warning Use this product only in the manner described in this manual. If the equipment is used in a

More information

LINEAR HEAT DETECTION CABLE DURÁN-SAFE

LINEAR HEAT DETECTION CABLE DURÁN-SAFE LINEAR HEAT DETECTION CABLE DURÁN-SAFE Installation & User Manual 2018 DURAN ELECTRONICA S.L. - All rights reserved www.duranelectronica.com I-manSAFECABLE-v05 TABLE OF CONTENTS Pages 1. INTRODUCTION...

More information

Danfoss gas detection units

Danfoss gas detection units Data sheet Danfoss gas detection units Types GD Premium, Premium+, Premium Duplex, Premium Remote, Premium Flex and Premium Uptime The Premium line gas detection units are used for monitoring and warning

More information

Model IR4000M. Multi-Point Monitor. Instruction Manual 12-10

Model IR4000M. Multi-Point Monitor. Instruction Manual 12-10 Multi-Point Monitor The information and technical data disclosed in this document may be used and disseminated only for the purposes and to the extent specifically authorized in writing by General Monitors.

More information

GasScanner 8C. Eight Channel Monitor. Operator s Manual. MINT-0281-XX Rev. A 01/29/08

GasScanner 8C. Eight Channel Monitor. Operator s Manual. MINT-0281-XX Rev. A 01/29/08 GasScanner 8C Eight Channel Monitor Operator s Manual MINT-0281-XX Rev. A 01/29/08 Product Warranty Matheson Tri-Gas, Inc., warrants gas alarm equipment sold by us to be free from defects in materials,

More information