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Our motion detectors' line of products offers a large selection of detectors:
Infrared
Microwave
Dual technology |
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| This infrared barrier is ideal for all situations being protected against and immune to all envoirmental conditions; it is also equiped with thermostatically controlled heaters so that it can be used in extreem weather conditions. Sandor model, thanks to its unique system whereby each transmitter is "seen" by each receiver produces a intricate web giving a high security beam with an extremely high level of detection and efficiency. Specifically designed to reduce false alarms, the beam towers give diffentiated alarm responses; one broken beam will give a delayed alarm whereas two or more beams interrupted at the same time will give an immediate alarm. |
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| ... products without technical information |
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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 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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The Model FL3100 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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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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| 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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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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The GasAlertMicro 5 IR, is a portable gas detector that simultaneously monitors atmospheric levels of up to five gases including carbon dioxide (CO2), oxygen (O2), hydrogen sulphide (H2S), combustibles (%LEL) and a range of toxic gases. Compact and lightweight, the GasAlertMicro 5 IR activates audible, visual and vibrating alarms in the event of a low, high, TWA or STEL alarm condition.
Utilizing a non-dispersive infrared (NDIR) CO2 sensor, the GasAlertMicro 5 IR offers premium accuracy and reliability. Suitable for personal protection in a wide range of applications, the GasAlertMicro 5 IR can dependably detect CO2 hazards in wineries and breweries, agriculture, food processing or any confined space entry application. |
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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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X-Ray Sensors offer a number of advantages over beta and gamma sensors, including greater precision, better streak detection, long-term stability and non-nuclear technology.
Since the X-ray sensor's energy output can be changed via digital power regulation, it can be optimized to run very efficiently over a wide range of product weights and thicknesses. |
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X-Ray Fluorescence Gauges are used to measure coatings containing quantities of metal or heavy elements, on plastic or paper substrates. The sensor energy level is selected for the application, such that the photons striking the material cause it to fluoresce. The returned fluorescence energy provides the information necessary to precisely calculate the coatweight. This selective technique has significant advantages in simplicity of operation, accuracy, and reduced equipment costs.
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