Optical Flame Detectors

Description: Triple spectrum design, user programmable configuration

• Communication Interface Options: Serial
• Device Classification: Sensor
• Maximum Detector Range (Sensitivity): 200 ft
• Maximum Response Time: 5 seconds

Description: Approved to FM 3260 (2000), the X9800 meets the most stringent requirements worldwide with advanced detection capabilities and immunity to extraneous sources, combined with a superior mechanical design. The detector is equipped with both automatic and manual optical integrity test

• Communication Interface Options: Serial
• Device Classification: Sensor
• Features: Adjustable Time Delay, Automatic Self-test, Explosion Proof, NEMA 4 Rated Enclosure
• Maximum Detector Range (Sensitivity): 2 to 85 ft

Description: The evolution continues with the new X2200 UV Flame Detector. Approved to FM 3260 (2000), the X2200 meets the most stringent requirements worldwide with advanced detection capabilities and immunity to extraneous sources, combined with a superior mechanical design. The detector

• Communication Interface Options: Serial
• Device Classification: Sensor
• Features: Adjustable Time Delay, Automatic Self-test, Explosion Proof, NEMA 4 Rated Enclosure
• Maximum Detector Range (Sensitivity): 85 ft

Description: with a 90-degree cone of vision. When both sensors simultaneously detect the presence of a flame, an alarm signal is generated. The detector has Division and Zone explosion-proof ratings and is suitable for use in indoor and outdoor applications. Automatic, manual or magnetic

• Communication Interface Options: Serial
• Device Classification: Sensor
• Features: Adjustable Time Delay, Automatic Self-test, Explosion Proof, NEMA 4 Rated Enclosure
• Maximum Detector Range (Sensitivity): 85 ft

Description: The Spectrex Military Optical UV/IR Detector is the latest model being installed in military tactical and combat vehicles. The detector is microcontroller based enabling adjustment of sensitivity and other features to a specific application. Detector includes continuous

Description: Fire Sentry SS3 Multi-Spectrum Optical Fire and Flame Detectors are fast reacting, digital, reprogrammable, computerized — smart technology. The Fire Sentry SS3 fast-reacting, Ultraviolet (UV), Wide Band Infrared (IR) and Visible spectral brand electro-optical digital

• Device Classification: Sensor
• Maximum Detector Range (Sensitivity): 30 ft
• Maximum Response Time: 2 to 5 seconds
• Operating Temperature: 32 to 170 F

Description: combining highest level in false alarm rejection. With multiple sensitivity levels and output options, the X3301 is the logical choice for flame detection in a wide range of hazardous applications. From refineries to turbines, offshore exploration/producti on to hangars, FPSO’s to

• Communication Interface Options: Serial
• Device Classification: Sensor
• Features: Adjustable Time Delay, Automatic Self-test, Explosion Proof, NEMA 4 Rated Enclosure
• Maximum Detector Range (Sensitivity): 210 ft

Description: The Fire Sentry SS4 Electro-Optical Digital Fire and Flame Detectors represent leading edge UV and UV/IR technology. FireSentry SS4-A The Fire Sentry SS4-A represents the world’s pre-eminent UV/IR technology for Electro-Optical Flame Detectors with tens of

• Device Classification: Sensor
• Features: Explosion Proof, NEMA 4 Rated Enclosure
• Maximum Detector Range (Sensitivity): 60 ft
• Maximum Response Time: 2 to 5 seconds

Description: The General Monitors® FL500 UV/IR Flame Detector by MSA delivers fast, dependable flame detection with enhanced false alarm immunity-all in a compact, industrial-grade design. By monitoring both ultraviolet (UV) and infrared (IR) radiation, the FL500 provides rapid response to

• Communication Interface Options: Serial
• Device Classification: Sensor
• Display Options: Other
• Features: Adjustable Time Delay, Automatic Self-test, Explosion Proof

Description: R2868 is a UVTRON ultraviolet ON/OFF detector that makes use of the photoelectric effect of metal and the gas multiplication effect. It has a narrow spectral sensitivity of 185 nm to 260 nm, being completely insensitive to visible light. Unlike semiconductor detectors, it dose not

• Device Classification: Sensor
• Operating Temperature: -40 to 257 F
• Sensor Technology: UV Detector Only

Description: The UVTRON ultraviolet ON/OFF detector that makes use of the photoelectric effect of metal and the gas multiplication effect. It has a narrow spectral sensitivity of 185 nm to 260 nm, being completely insensitive to visible light. Unlike semiconductor detectors, it dose not require

• Device Classification: Sensor
• Operating Temperature: -40 to 257 F
• Sensor Technology: UV Detector Only

Description: The UVTRON ultraviolet ON/OFF detector that makes use of the photoelectric effect of metal and the gas multiplication effect. It has a narrow spectral sensitivity of 185 nm to 260 nm, being completely insensitive to visible light. Unlike semiconductor detectors, it dose not require

• Device Classification: Sensor
• Operating Temperature: -40 to 257 F
• Sensor Technology: UV Detector Only

Description: The UVTRON ultraviolet ON/OFF detector that makes use of the photoelectric effect of metal and the gas multiplication effect. It has a narrow spectral sensitivity of 185 nm to 300 nm, being completely insensitive to visible light. Unlike semiconductor detectors, it dose not require

• Device Classification: Sensor
• Operating Temperature: -40 to 257 F
• Sensor Technology: UV Detector Only

Description: The Fire Sentry FS20X is the latest generation high technology Multi-Spectrum (UV/Dual IR/VIS) Fire and Flame Detector, which is part of the FSX family of advanced technology Electro-Optical Flame detectors. Based on the foundation of the highly successful and

• Communication Interface Options: Serial
• Device Classification: Sensor
• Features: NEMA 4 Rated Enclosure
• Maximum Detector Range (Sensitivity): 200 ft

Description: The MSA General Monitors® FL5000 MSIR Flame Detector sets a high standard in industrial fire protection with advanced multi-spectrum IR sensing and AI-driven flame recognition. It detects fires up to 310 feet away while minimizing false alarms from sources like sunlight or

• Communication Interface Options: Serial, Other
• Device Classification: Sensor
• Display Options: Other
• Features: Adjustable Time Delay, Automatic Self-test, Explosion Proof

Description: The General Monitors® FL500-H2 UVIR Flame Detector by MSA delivers high speed flame detection with increased false alarm immunity in a compact design for hydrogen flame detection. The FL500-H2 UV/IR Flame Detector monitors for radiation emitted by a hydrogen

• Communication Interface Options: Serial
• Device Classification: Sensor
• Display Options: Other
• Features: Adjustable Time Delay, Automatic Self-test, Explosion Proof

Description: family of advanced technology Electro-Optical fire detectors. Using our patented* WideBand IR™, WideBand 4.3 micron IR™, and Visible detection technology, the Fire Sentry FS24X is a quantum leap in flame and fire detection. Sophisticated software algorithms and dual

• Communication Interface Options: Serial
• Device Classification: Sensor
• Features: NEMA 4 Rated Enclosure
• Maximum Detector Range (Sensitivity): 200 ft

Description: The ideal monitoring system for wet benches, exhaust fume lines, and other potentially hazardous cleanroom equipment involving volatile chemicals Multi-spectral IR flame detector senses all types of fires, even through gases and vapors Electro-optical sensor design meets

• Communication Interface Options: Serial
• Device Classification: Sensor System
• Display Options: Video Display Terminal
• Maximum Detector Range (Sensitivity): 8 ft

Description: , leaving intact all wiring and alignment of system. A sight-through optical system and selection of various spot sizes enables the QUASAR to be positioned as far as 1300 feet from the stack being monitored, allowing for flame movement, varying luminosity and most climate conditions.

• Device Classification: Sensor
• Display Options: Non-electrical Visual / Audio Output
• Features: Explosion Proof, NEMA 4 Rated Enclosure, Cooling Air Required
• Maximum Detector Range (Sensitivity): 1312 ft

Description: smoke emissions within EPA mandated levels. Key Features Flame detection up to 400 m Detection of hydrocarbon as well as hydrogen flames CSA/US and ATEX explosion-proof housing Safety and environmental protection Automatic gain control for

• Device Classification: Sensor
• Display Options: Non-electrical Visual / Audio Output
• Features: Explosion Proof, NEMA 4 Rated Enclosure, Cooling Air Required
• Maximum Detector Range (Sensitivity): 1312 ft

Description: Non-Contact Infrared Pyrometer Flare Monitor (FM): Multi-wavelength infrared thermometer sensitive to all flames including Hydrogen. The QUASAR Model M8100FM-EXP Flare Stack Flare Monitor provides continuous monitoring of flared gases from remote locations up to ¼ mile (400 m) away

• Device Classification: Sensor
• Display Options: Non-electrical Visual / Audio Output
• Features: Explosion Proof, NEMA 4 Rated Enclosure, Cooling Air Required
• Maximum Detector Range (Sensitivity): 1312 ft

Description: Electro Optical Components offers high performance pyroelectric and thermopile detectors as well as IR sources. Detectors that measure radiation by means of the change of temperature of an absorbing material are classified as thermal detectors, often referred to as

• Detectivity: 3.44 10^8cmHz^(½)/W
• Device Category: Sensor / Transducer
• Operating Temperature: -4 to 185 F
• Technology: Thermal Pyrometer / Detector

Description: 1.1 This practice is intended as a guide for the use of a flame photometric detector (FPD) as the detection component of a gas chromatographic system. 1.2 This practice is directly applicable to an FPD that employs a hydrogen-air flame burner, an optical filter for

Description: Electro Optical Components offers high performance pyroelectric and thermopile detectors as well as IR sources. Detectors that measure radiation by means of the change of temperature of an absorbing material are classified as thermal detectors, often referred to as

• Detectivity: 2.95 to 3.5 10^8cmHz^(½)/W
• Device Category: Sensor / Transducer
• Operating Temperature: -4 to 158 F
• Technology: Thermal Pyrometer / Detector

Description: Electro Optical Components offers high performance pyroelectric and thermopile detectors as well as IR sources. Detectors that measure radiation by means of the change of temperature of an absorbing material are classified as thermal detectors, often referred to as

• Detectivity: 3.6 to 7.2 10^8cmHz^(½)/W
• Device Category: Sensor / Transducer
• Operating Temperature: -4 to 185 F
• Technology: Thermal Pyrometer / Detector

Description: SENSOR PIR FLAME DIGITAL SMD

• Type: Passive Infrared, PIRs

Description: Electro Optical Components offers high performance pyroelectric and thermopile detectors as well as IR sources. Detectors that measure radiation by means of the change of temperature of an absorbing material are classified as thermal detectors, often referred to as

• Accuracy: 2 ±% Full Scale
• Detectivity: 7.2 10^8cmHz^(½)/W
• Device Category: Sensor / Transducer
• Electrical Outputs: Current, Voltage, Serial, Other

Description: flame that can be used for, e.g., determining the flame-front's propagation speed [Aleiferis et al., Combust. Flame 136 (2004) 283-302]. However, on one hand such optical engines are limited in their speed and load range, on the other, typical UV endoscopes make

Description: inclement weather, wind direction, leak direction or any potential gas dilution. When utilized together with Net Safety Monitoring's advanced point gas detection and our optical flame detection, a complete and comprehensive safety system is ensured.

• Application: Ambient Air Monitoring
• Electrical Outputs: Analog Current, Switch
• Features: Hazardous Environments
• General Gas Types: Toxic Gas, Combustible Gas

Description: molecules. A characteristic spectral band is emitted by the OH radical, which is created in the flame front and corresponds to the number of reactants that are burned. A research engine was equipped with an access for an optical measurement system for chemiluminescence and light

Description: through glass ports, flames, and products of combustion. High temperature range: 900° to 3200°F (482° to 1760°C). Narrow spectral range for general purpose, high temperature measurement through glass. Small target resolution and long telescopic range. Aim through ports in

• Technology Type: Thermal Pyrometer / Detector

Description: Non-contact infrared thermometer custom-designed for accurate preform temperature measurements in optical fiber manufacture. The temperature of the preform in the burner zone, where the deposition takes place, is one of the critical control parameters which determines fiber strength and

• Celsius Scale: 1000 to 2500 C
• Fahrenheit Scale: 1830 to 4530 F
• Scale: Fahrenheit, Celsius
• Technology Type: Thermal Pyrometer / Detector, Other

Description: furnace and even in the presence for flames and smoke. UNIQUE DESIGN The SPOT+ TMT has been specifically designed for this application with a precise optical design and high sensitivity for a wide range of tube temperatures and sizes. HAZARDOUS AREA OPTION Many

• Celsius Scale: 300 to 1800 C
• Fahrenheit Scale: 572 to 3272 F
• General Features: Application Software Included
• Scale: Fahrenheit, Celsius

Description: The MDGC/GCMS-2010 is a MDGC system which gives you a excellent separation performance and high reproducibility with the multi-deans switching technology, and supports analyses of complex matrixes like petroleum products, aromas, and optical isomers, with intuitive operation, and ease of

• Additional Output Options: Switch or Relay Contact
• Application Software Included: Yes
• Applications: Agricultural Chemicals / Pesticides, Industrial Gases, Inorganic Chemicals, Organic Chemicals, Petroleum
• Built in Chromatogram: Yes

Description: is designed to pass higher wavelengths in one band and reflect shorter wavelengths, while the short wave pass filter is designed to pass a shorter wavelength and reflect higher wavelengths. ICC in the 5.0µm and 5.5µm IR long pass filters for PIR sensors and radiation monitors, and the short pass for

• Type: Specialty / Other

Description: using standard metal detection methods. It is also visible to those systems that rely on optical inspection equipment due to the addition of blue colored pigment. All additives are suitable for food contact. Main Features: Detectable via metal detector Very good chemical

• Chemical / Polymer System Type: PEEK
• Electrical Resistivity: 1.00E14 ohm-cm
• Elongation: 4 %
• Filler Material: Metal

Description: using standard metal detection methods. It is also visible to those systems that rely on optical inspection equipment due to the addition of blue colored pigment. All additives are suitable for food contact. Facts Chemical designation: PEEK (Polyetheretherketon e

• Chemical / Polymer System Type: PEEK, Specialty / Other
• Elongation: 4 %
• Filler Material: Metal
• Tensile Modulus: 624 to 638 ksi

Description: Laser-Induced Incandescence (LII) has traditionally been considered a straightforward and reliable optical diagnostic technique for in-cylinder soot measurements. As a result, it is nowadays even possible to buy turn-key LII measurement systems. During recent years, however, attention has

Description: 60079-28: Gas and dust - Protection of equipment and transmission systems using optical radiation - IEC 60079-29-1: Gas detectors - Performance requirements of detectors for flammable gases - IEC 60079-29-4: Gas detectors - Performance requirements of open path

Description: 60079-26: Gas – Equipment with equipment protection level (EPL) Ga – IEC 60079-28: Gas and dust – Protection of equipment and transmission systems using optical radiation – IEC 60079-29-1: Gas detectors – Performance requirements of detectors for flammable