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The Guardian range of infrared gas monitors offers near-analyser quality
continuous sampling, measurement and display of target gas concentrations at an attractive price.
The Guardian SP is a high accuracy monitor offering increased short term stability in lower ranges than Guardian plus models.
For many years, Edinburgh Sensors has pioneered novel non-dispersive infra-red dual wavelength sensors with a single optical path and without moving parts. This ensures long term stability, without the need for frequent re-calibration and makes the sensor highly gas specific and insensitive to other gases or water vapour.
The Guardian plus uses a robust infra-red source, proven in the Gascard II sensor, to ensure long lifetime and reduced susceptibility to shock. The reliability is further enhanced by the elimination of all moving parts from the sensor head.
The Guardian SP is easily maintained requiring only a few minutes per year to replace the hydrophobic particle filter in the inlet housing and a simple calibration procedure to check the accuracy, typically once a year. Applications include plant physiology, horticulture, fruit storage, leak detection, landfill, ventilation control, process control, furnace applications.
The Guardian SP includes an internal pump, liquid crystal display and temperature correction. It also offers a range of user-selectable bit-switches to control the latching alarms and analogue output options. The input power to the unit is user selectable to cover world-wide voltage and frequency standards.
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With the GD10P, the company has succeeded in establishing an international industry standard for gas detection.
The GD10P has been designed to be interchangeable with catalytic detectors using the existing cabling and a separate bridge interface.
Advantages of GD 10P
• No recalibration during its service life,
• 15 years warranty for IR source,
• 5 years full warranty,
• SimSource™ has an expected in-service life of 65 years,
• Very short response time , T90 < 5 secs,
• No false gas alarms.
The easy installation and operation of the GD10P contribute to its all-round solid economy.
The GD10P does not have any internal functions that require regular monitoring or maintenance.
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The Model IR400 Infrared Point Detector is a hydrocarbon gas detector that continuously monitors combustible gases and vapors within the lower explosive limit (LEL) and provides alarm indication.
All electronics are contained within an explosion-proof housing so that the IR400's detector information can be processed locally. The IR400 operates with a 4-20mA signal, which is proportional to 0 to 100% LEL gas concentration at the detector. Configurations with analog output, Modbus and HART are available. Modbus and HART data can be used for predictive maintenance.
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The Model IR5000 Open-Path Infrared Combustible Gas Monitor is designed for detection of hydrocarbon gases in the 0-5,000 ppm•meter and 0-5 LEL•meter ranges, simultaneously. The IR5000 uses a single beam source and detector to monitor gas concentrations, improving accuracy, reducing drift and improving immunity to false alarms.
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The Tocsin 102 series of gas detectors are designed for cost effective hazardous area gas detection solutions. They incorporate micro processor technology to give a stable 4-20mA process signal output or digital addressable output. The addressable output option allows detectors to be networked on a single cable run giving dramatic reduction in installation costs. Combine with the Tocsin 903 controller for local display and calibration. The in built processor can be used to pre-calibrate the sensor prior to installation. Alternatively calibration can be achieved on site via the Oliver IGD control panel or locally using a handheld PC device or laptop. A range of sensing technologies can be incorporated into the housing to provide the most appropriate detection method.
Available sensor types include
Infra Red
Electrochemical Devices
Gas Detected Include
Flammable Gases
Carbon Dioxide
Carbon Monoxide
Nitric Oxide
Nitrogen Dioxide
Hydrogen Cyanide
Chlorine
Hydrogen Sulphide
Ammonia
Oxygen
Sulphur Dioxide
Hydrogen Chloride
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The LumaSense Photoacoustic Field Gas-Monitor Innova - 1412 is a highly accurate, reliable and stable quantitative gas monitor. Its measurement principle is based on the photoacoustic infra-red detection method. This means that the 1412 can measure almost any gas that absorbs infra-red light.
Appropriate optical filters (up to 5 + water vapor) are installed in the 1412's filter carousel so that it can selectively measure the concentration of up to 5 component gases and water vapor in any air sample. Further, the instrument can compensate for interference between the measured gases, using the unique Cross-compensation feature. The 1412's detection limit is gas-dependent but typically in the 10-² ppm region.
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The Tocsin 102 series of gas detectors are designed for cost effective hazardous area gas detection solutions. They incorporate micro processor technology to give a stable 4-20mA process signal output or digital addressable output. The addressable output option allows detectors to be networked on a single cable run giving dramatic reduction in installation costs. Combine with the Tocsin 903 controller for local display and calibration. The in built processor can be used to pre-calibrate the sensor prior to installation. Alternatively calibration can be achieved on site via the Oliver IGD control panel or locally using a handheld PC device or laptop. A range of sensing technologies can be incorporated into the housing to provide the most appropriate detection method.
Available sensor types include
Infra Red
Electrochemical Devices
Gas Detected Include
Flammable Gases
Carbon Dioxide
Carbon Monoxide
Nitric Oxide
Nitrogen Dioxide
Hydrogen Cyanide
Chlorine
Hydrogen Sulphide
Ammonia
Oxygen
Sulphur Dioxide
Hydrogen Chloride
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The FX-IR Single Gas Transmitter uses dual infrared technology to detect combustible gases. This unique transmitter is available for the detection of hexane, methane or propane gases in lower explosive limits (LEL) or parts per million (ppm) ranges. This dual infrared design provides excellent long-term stability, eliminating the need for frequent calibration and providing additional sensitivity for the harshest environment.
Features:
- Dual detector infrared technology to monitor combustible gases in virtually any environment
- Immune a catalyst poisons such as silcone & chlorinated combustibles
- Can operate in oxygen deficient or inert atmospheres
- Excellent long term stability
- Non-intrusive calibration via a magnetic wand eliminates the need to declassify hazardous areas
- Housed in rugged copper-free aluminum enclosure (weather & explosion proof)
- Housing suitable for indoor and outdoor installation in hazardous environment
- Liquid Crystal Display (LCD) with backlight
- Minimum 5-year expected sensor life
- Connect to Thermo GasTech's controllers, PLC (Programmable Logic Controllers) or DCS (Distributive Control System)
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Dräger‘s IR gas detectors provide state of the art technology. They perform reliable measurements even in harshest environments and come with a lot of configuration options. Continuous self test routines result in fail-safe operation.
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Open Path Gas Detectors measure combustible hydrocarbons along a line of sight, between an optical transmitter and a receiver. The well proven measurement principle is based on IR absorption.
Path lengths up to 200 metres can be monitored with Dräger Safety Open Path Systems. Only this technology is measuring the amount of released gases and thus gives a direct measure of the hazard.
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The automated early fire detection system WASTE-SCAN is based on the principle of infrared thermography. It provides a continuous, non-contact temperature measurement at the surface of a waste collection, even over large distances.
Main item of the system is the high-resolution thermographic camera VarioCAM® hr head manufactured by the German company JENOPTIK Laser, Optik, Systeme GmbH. It is based on an uncooled microbolometer detector FPA.
The thermographic camera VarioCAM® hr head has the following performance parameters:
(384 x 288) or (640 x 480) pixels for high geometrical resolution
high-contrast, low-noise thermal image
localisation of hot spots, even under dusty or smokey conditions
spectral range (7.5 ... 14) µm
real-time data acquisition at 50 / 60 Hz frame rate
internal automatic calibration.
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With the fire detection system PYROVIEW/PYROSOFT WBFDS DIAS Infrared GmbH, VdS certified manufacturer of infrared cameras, offers you a complete system for supervision of your plants. Certified infrared cameras PYROVIEW are the heart of the automatic fire detection system. Infrared cameras PYROVIEW are based on state-of-the-art microbolometer arrays with up to 384 x 288 pixel and are well suited for industrial use with their robust housings and optional cooling and air purge systems.
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The Model FL3100H is an Ultraviolet / Infrared flame detector designed to detect fires and provide alarm outputs directly from the detector while maintaining false alarm immunity. It detects fires by monitoring in both the ultraviolet (UV) and infrared (IR) spectral ranges, making it highly immune to false alarms. There is also a hydrogen-specific detector available that detects hydrogen fires.
FL3100 Series flame detectors' electronics are integral within their explosion-proof housings, allowing detector information to be processed at the point of detection. The detectors also provide a 4-20mA stepped output signal indicating detector status. The COPM (Continuous Optical Path Monitoring) self-test feature checks the optical path integrity (window cleanliness) and the detectors' electronic circuitry once every minute.
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UV/IR FLAME DETECTOR
Net Safety's Ultra-violet/Infrared ( UV/IR ) flame detector delivers high performance security with functions and features that set it apart. The flame detection reacts to both UV and IR flame radiation delivering accurate and reliable fire monitoring, yet is immune to arc welding, hot body radiation, lightning or sunlight. Two spectrums of radiation must be recognized and confirmed by precisely tuned sensors for the UV/IR to initiate a fire condition, greatly reducing false alarms while providing critical safety performance to your site and personnel.
Enclosed in a rugged, explosion-proof housing, the Net Safety UV/IR flame detectors use the latest in modular microprocessor and UV/IR sensor technology — delivering accurate and reliable monitoring for hydrocarbon fires. It's capable of stand-alone operation or can be connected to a variety of control devices to create a dependable fire monitoring system. The user can define sensitivity and time delay settings and the built-in testing routines ensure continous operation.
The UV/IR Flame Detector has a extra wide field of view - up to 120 degrees, it has one of the lowest power consumption levels available on the market and a wide voltage range - all of these factors can lower your overall cost of ownership during design, installation and power draw requirements. This can add up to thousands of dollars PER DETECTOR over it's installation.
Net Safety has engineered a superior and affordable, UV/IR flame detector that is simple to operate and maintain while delivering all the security and performance required for high-risk, industrial installations!
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The design of this new generation of detectors provides 3 main features :
• Performances
• Guaranteed detection
• Easy installation, use and maintenance.
The efficiency of SIMTRONICS flame detectors offers :
• High sensitivity,
• Very short response time,
• Reliability,
• Immunity from interferences
It also guarantees protection against fire risks in industrial environments and enables the control of fire fighting.
The housings are treated specifically to resist corrosive factors (stainless steel or aluminium housings).
These TV63 UV / 2xIR detectors have a wide viewing angle (110°) and a range higher than 45 m.
The integrated relays and a 4-20mA output enable the control of the TV63 by the control units or by PLC.
The detectors are equipped with an automatic test control, which regularly checks the functionality of detection, as well as the optical and electronic integrity of the system.
The detector’s non-stop auto-tests & intrinsic quality feature SIL 2.
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95ir/95uv/95ds insight scanners
The Fireye InSight Type 95IR, 95UV, and 95DS flame scanners are microprocessor based flame scanners utilizing solid state infrared (IR), ultraviolet (UV) or dual (IR and UV) sensors.
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The Model FL4000 is an advanced multi-spectral infrared (MSIR) flame detector designed to provide superior false alarm immunity with the widest field of view. The FL4000 employs a multi-spectral optical IR sensing array with a sophisticated Neural Network Technology (NNT) system to reliably discriminate between actual flames and the vast majority of false alarm sources (such as arc welding). The FL4000 is designed to detect typical fires such as alcohol, n-heptane, gasoline, jet fuels and hydrocarbons. In addition, the FL4000 can see through dense smoke produced by diesel, rubber, plastics and lube oil fires.
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PHOENIX TRIPLE IR (MULTISPECTRUM FLAME DETECTOR
Very serious risks to human life, productivity and equipment are always present at industrial facilities that store, transport and process flammable or explosive chemicals. Automatic flame detection and protective action must be initiated within seconds whenever a fire ignites. Net Safety's Phoenix Triple IR Multi-spectrum flame detector provides the reliable and instantaneous flame detection response that is required in high-risk environments while utilizing advanced technologies to reduce false alarm events and provide rock-solid performance in any environment.
The Phoenix will only alarm when input conditions from three distinct IR wavelengths found in fires are satisfied. The Phoenix also incorporates our unique Automatic Digital Zoom (ADZ) technology which provides accurate detection of small and massive flames in the most difficult working situations where other detectors fail. Three precisely tuned IR sensors, ADZ technology, Automatic Visual Integrity, user selectable sensitivity and time delay provide unparalleled false alarm immunity and detection performance.
The Phoenix Triple IR is the ONLY flame detector on the market that does not have an external reflector or light source. Experience has shown that external reflectors and light sources often become obscured by industrial dirt and corrosion which causes unwanted fault alarms that requires difficult and costly maintenance to correct. The Phoenix Triple IR flame detector completely eliminates these issues in applications where salt, dust, petroleum vapor, heavy rain, snow or blowing sand are present.
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The design of this new generation of detectors provides 3 main features :
• Performances
• Guaranteed detection
• Easy installation, use and maintenance.
The efficiency of SIMTRONICS flame detectors offers :
• High sensitivity,
• Very short response time,
• Reliability,
• Immunity from interferences
It also guarantees protection against fire risks in industrial environments and enables the control of fire fighting.
The housings are treated specifically to resist corrosive factors (stainless steel or aluminium housings).
These TV63 detectors have a wide viewing angle (110°) and a range higher than 85 m.
The integrated relays and a 4-20mA output enable the control of the TV63 by the control units or by PLC.
The detectors are equipped with an automatic test control, which regularly checks the functionality of detection, as well as the optical and electronic integrity of the system.
The detector’s non-stop auto-tests & intrinsic quality feature SIL 2.
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A combination of independant UV (ultraviolet) and IR (infrared) flame detection plus a direct visual sight to the scanned flame in a single scanner head.
The advantages of the WINDOW 141 head are:
Pure UV detection (220nm peak): not affected by visible and sunlight radiations like a Si UV enhanced system would.
IR detection (1 550nm peak) very stable: not affected by visible radiations and temperature variations like for the Ge, PbS or other IR cells.
For easy installation, a ball swivel mounting on the burner front allows adjustment of the viewing angle. Standard 1'' NPT connections are used for the ball swivel and scanner head.
The visible section of the radiation is only for visual observation through the WINDOW (patented).The following can be observed:
Sight alignment
Flame quality
Lens cleanness
Operation of the shutter
Inside UV and IR LEDs
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Infra-red Flame Monitor D-IR 55
Infra-red flame monitor for intermittent operation.
Analyses flame intensity (flickering) in conjunction with the D-LE 55 ISF-CG flame sensor
Features
monitoring of gas and oil burners of any load
suitable for intermittent operation
simple installation on TS 35 DIN-rail
Application
Chemical industry
Refineries
Cement plants
Waste incinerators
Steam generator
Heating plants
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The self-checking SAFYR PACKSCAN flame detectors are designed for monitoring solid or liquid fuel burners (oil, pulverised coal, heavy liquid residues). They are adapted for multi-burner installations by facilitating flame discrimination.
A binary safety signal is transmitted in the presence or absence of a flame. The output signal is also available on terminals for recording or remote display purposes.
Operation of the SAFYR PACKSCAN flame detector is based on the characteristic flickering phenomena of flames, generally between 0 to 150HZ. It uses a silicium photodiode cell, adapted to the combustion frequency in the visible light band (320 to 1100nm).
A display indicates all the configured parameters, as well as the detection level.
30 years of experience in the field of flame detection gives the SAFYR PACKSCAN the following advantages :
• An ‘all in one concept’ with an integrated amplifier in the scanner head for easy installation.
• Two microprocessors for increased safety and reliability.
• Approved by APAVE to meet all safety criteria requirements
• Detection level indicator to simplify commissioning
• Various standard confi guration methods by internal switches, by remote and by serial link, to simplify configuration
• Two SPDT output switches to indicate flame presence and proper detector operation
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SIMPLIFIED INFRA-RED LEAK DETECTION SYSTEM THAT CAN EASILY BE INSTALLED ON THE VEHICLE DEVELOPED FOR THE DETECTION ON METHANE GASPIPES; TAKES ADVANTAGE OF THE ABSORPTION CHARACTERISTICS OF CH4; THE VEHICLE DRIVES DOWN THE STREET AND ABSORBES THE AIR FROM THE GROUND; THE ABSORBED AIR IS ANALYZED BY THE LASER DEVICE
; THE MEASURING AND CONTROL UNIT CONSIST OF EASILY INTERCHANGEABLE RACK; MODULES WITH VERY RELIABLE INDUSTRIAL POWER CONNECTORS; USES A LASER INFRARED SYSTEM FOR THE SELECTIVE DETECTION OF METHANE GAS WITH A PRECISION OF 1 PPM;
EASY TO INSTALL; LOW MAINTENANCE; EASY TO USE
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