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Small programmable compact Infrared temperature instrument for manifold industrial applications with a very short response time and a minimal measuring spot of only 0,9 mm.
Features:
- 2 Outputs (V, mA, Thermelement J, K) for sensor and object temperatures
- Double laser marking of the measuring field
- separate sensing head and electronics
- Ambient temperature sensing head -20°C...+85 °C (50°C when laser ON)
- Output programmable (mA, V, Thermocouple J, K)
- Programming keys for parameter adjustment
- Spectral range of 8 - 14 µm for general measurement tasks in the range
of -40°C...+975°C
- Measuring range, emissivity, transmissivity adjustable
- MIN, MAX, mean values and HOLD feature adjustable
- Measurement in highly dirty atmosphere possible with the aire purge accessory
Please select the requested sensor!
See more information in our shop:
***www.temperature-shop.de***
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The SR Series Infrared Thermometer is a stand-alone two-color sensor designed to provide a temperature signal directly to process control or monitoring devices. Ratiometric thermometry provides reliable temperature measurements in difficult applications with changing emissivities or unresolved targets. The SR spot pyrometers Do not require a separate indicator/processor, therefore saving on installation space and costs. These IR thermometers are available in focusing single lens reflex or fiber optic versions.
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optris CT:
General purpose miniaturized IR thermometer with programmable electronic box. The IR sensing head is usable under ambient temperatures up to 180°C without cooling.
Measuring range: -40 - 900°C
Wavelength range: 8-14 µm
Spot size: up from 0,6 mm
Response time: 150 ms
Analog outputs: 0/4-20mA, 0-5V, 0-10V, thermocouple
Digital interface optional: USB, RS232, RS485, CAN, Profibus DP, Ethernet
Exchangeable sensing heads M12x1 , 28 mm length
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• Temperature range: -40 to 1200 °C (several models)
• Small sensing head fits where other sensors can’t
• 1% accuracy across the whole temperature range
• 0/4 – 20 mA, 0 – 5 V, J or K thermocouple output
• Ambient head temperatures up to 85°C without cooling
• Interchangeable sensing heads
• Adjustable emissivity, transmissivity, peak hold …
• 5-digit backlit LCD user interface
• Accessories for cooling and air purging
• Optional RS-232 or RS-485 digital communications
• Multidrop Network (max. 32 sensors with RS-485)
• Special models for glass and metals applications
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The new PyroCouple M Series is a range of miniature infrared temperature sensors with separate electronics.
PyroCouple M sensors are capable of measuring temperatures in the range -20°C to 500°C and are available with either a current, voltage or thermocouple output.
The miniature sensing head measures just 18 mm diameter x 45 mm. It is made of stainless steel, sealed to IP65, and will operate in ambient temperatures up to +70°C without additional cooling. This makes the PyroCouple M Series ideal for applications where there is only a small amount of room available to mount the sensor or the ambient temperature around the sensing head is higher than normal.
The electronics module measures 98 mm x 64 mm x 34 mm. It is made of die-cast aluminium, sealed to IP65, and will operate in ambient temperatures up to +70°C. It is powered from a 24 VDC (28 VDC max) power source.
The emissivity setting is fixed at 0.95, making the PyroCouple M Series suitable for the majority of applications where the target is made of a non-reflective material such as paper, plastic, rubber, cloth, food etc. or it can be used to measure metals that are painted, anodised or oxidised.
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The 1100 Series is an accurate, reliable and economical high temperature noncontact temperature sensor. It provides a continuous non-linear temperature-dependent output. This electro-optical transducer allows noncontact temperature measurement of higher temperatures. Measure temperatures from 1000°F (550°C) to 6000°F (3400°C).
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thermoMETER: Precise non-contact temperature measurement from -40 to 1,800°C
The thermoMETER product group is targeted at industrial users. The infrared sensors comprise eleven products for stationary use. Amongst others, this includes products such as thermoMETER CT, which has external electronics. This sensor operates in temperatures from -40°C up to +975°C. This also includes the CT laser, which uses an integrated laser optical system to mark actual spot sizes at every distance. The CTglass version of this laser sensor is designed for use in glass production. The miniature sensors in the thermoMETER CS and CS micro series have integrated electronics located in the sensor head in the case of theCS, and directly integrated in the cable for the CS micro. This is particularly beneficial if space is restricted. The range also includes special sensors for use at high ambient temperatures of up to 250°C and for very high object temperatures of up to 1,800°C. A sensor with a response time of less than 3ms is also available very fast processes. To round off the range, an extensive list of accessories are provided for all sensors. These include various optical systems, air purge units, mounting aids and solid cases.
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With a combination of powerful features, the new portable and rugged OS530 series infrared thermometers offer solutions for many non-contact temperature measurement applications. Emissivity adjustable in 0.01 increments, the OS530 series provides versatility when measuring a variety of surfaces.
A custom backlit LCD display provides dual digital display of both current and max, min, diff or average temperatures simultaneously. This provides the user with more information at a glance. Built-in laser sighting creates a 12-point circle which clearly indicates the target area being measured.
The OS530 Series also features a high alarm setpoint, providing both audible and visual indication of the alarm status. The standard 1 mV per degree analog output allows interfacing with data acquisition equipment, including chart recorders, dataloggers and computers.
All Models Feature: Adjustable Emissivity, Backlit Dual Display, Differential Temperature, Min/Max Temperature, Average Temperature, High Alarm, Audible Buzzer & Indicator, Analogue Output (1mV/Deg), Laser Sight (Built-In), Trigger Lock, Last Temperature Recall. OS532 Adds Thermocouple Input, OS533 Adds Low Alarm, Ambient Target Temperature Compensation, RS-232 Outpput, Thermoucouple Input. OS534 Adds all of the OS533 Features plus Data Storage.
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Ther FOT-L and FOT-H are fiber optic temperature sensors perfectly suited for harsh environmental conditions such as in cryogenics, nuclear, microwave, and strong RF applications. They combine all the desired characteristics you would expect from the ideal sensor. These temperature sensors offer accuracy and reliability in extreme temperature and hostile environments.
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The Luxtron I652 is a fiber optic temperature measurement system designed with two measurement channels and easy to read LED display. The I652 can easily be incorporated into an industrial control scheme through the RS-232 or Analog Output ports.
Benefits
Immune and Strong :
- Fluoroptic® fiber optic temperature sensors for the I652 are immune to EMI, RF, and microwave interference
- All three types of fiber optic sensors are Kevlar® strengthened sandwiched between chemically resistant PFA Teflon®.
Field Proven and Long Lasting :
- Thousands of Luxtron Fluoroptic fiber opitc temperature measurement systems installed worldwide
- Luxtron Fluoroptic fiber optic temperature sensors been continuously working in field equipment for over 25 years.
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Temperature control plays a leading role in most heating applications, both in heat treatment processes and in brazing with soldering material.
CEIA offers a wide range of infrared optical sensors equipped with low-intensity laser aiming which cover a reading range from 75°C, for applications using tin-based alloys, to 1200°C, for brazing carried out with silver, brass or copper.
The CEIA SH Infrared Sensors can be connected to the Power and Master Controller v2 Units to accurately stabilize the heating process at the required temperature values.
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GeoSil™ Pure Silica Core Optical Fibers are now available in single-mode or multimode designs for Distributed Temperature Sensing (DTS) and other geophysical well applications. The pure core design is critical to the performance of optical fibers deployed down oil or gas wells where conditions include temperatures that routinely exceed 250°C with high pressure and hydrogen gas. GeoSil fibers are coated with PYROCOAT® polyimide, a specialty coating that allows temperature performance to 300°C and imparts abrasion and chemical resistance plus a small form factor (155 µm diameter) to the sensing fiber in a DTS system. When conventional fibers with germanium-doped cores are exposed to hydrogen at high temperatures, permanent defects can occur. These defects can result in a rise in attenuation which significantly limits the lifetime of the fiber sensor. Optical fiber with a pure silica core is extremely resistant to this phenomenon and can perform far longer in the downhole environment limiting the expense associated with replacement of new sensors. These fibers are part of the GeoFibers™ family of products optimized for geophysical applications.
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Measuring range : from 0/+10 Pa to -10 000/+10 000 Pa
Configurable intermediary and central zero ranges
Air velocity and airflow functions
Interchangeable measuring sensor (SPI technology)
Simultaneous display of 1 to 4 parameters
External transmitter unputs (KIMO class 200 and 300) and thermocouple K
2 output 4-20 mA or 0-10 V (4 wires), RS 232, 2 RCR relays 6A/230 Vac
2 visual (dual color LED) and audible (buzzer) alarms
Software, keypad or remote control configuration
MODBUS network RS 485 system (optional)
ABS or ALU IP 65 housing, with or without backlit gaphic display
Mounting with the 1/4 turn system with wall-mount plate
CP301 : -100/+100 Pa (resolution : 0.1 Pa)
CP302 : -500/+500 Pa
CP303 : -1000/+1000 mbar
CP304 : -10 000/+10 000 mbar
• Barbed fittings Ø 5,2 mm
• Unit of measurement : Pa, mmH2O, mbar, inWG, mmHG
• Power supply : 24 Vac /Vdc, 115 Vac or 230 Vac
• Outputs : 2 x 4-20 mA or 2 x 0-10 V
• Functions : pressure, air velocity, airflow with Pitot tubes, Debimo and other coefficients, integration of measure, self-calibration, measuring correction factor, temperature compensation : manual or automatic (thermocouple K input).
Join our distribution network all over the word....Contact us !
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ComfortSense
Thermal comfort measurement according to EN 13182, ISO 7736 and ASHRAE standard 113
Dantec Dynamics’ ComfortSense system is designed for research and development of heating and air conditioning systems requiring multi-point measurements of air velocity and temperature. Draught measurements require omnidirectional sensors with a frequency response of at least 2 Hz, which is fulfilled by the present system.
ComfortSense elements
The ComfortSense system consists of a main frame with anemometer circuits for up to 16 probes. The omnidirectional probes measure both air velocity and temperature. Six frames can be connected so that up to 96 probes can be monitored simultaneously. The ComfortSense main frame has a built-in A/D converter with USB 2.0 interface.
Easy-to-use
It is easy for the user to setup a measurement sequence and make a measurement grid with selection of probes from a user library. The software delivers statistical results based on user-defined measurement cycles. The ruggedly designed probes and cables are perfectly suited for large test rooms.
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The Activa Sensor Array provides fl ow,
temperature and pressure signals in a compact
unit that requires only one hydraulic line break.
Each sensor transmits an output signal that is
easily integrated with PCs, PLCs, recorders or
panel displays. Signals can also be transmitted to
Flo-tech’s F6700/F6750 Series digital displays.
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Conax Technologies Type J Thermocouple temperature sensor assemblies have proven their durablility and reliability in a variety of high pressure and high temperature environments. Our extensive knowledge of the science of temperature measurement and the physical properties of materials, enables our engineers to recommend the most effective solutions for your application needs. Conax has the in-house equipment to proof pressure test and certify units for these extreme applications.
High Pressure Special Limits of Error Type J Thermocouple:
*Hastelloy C276 sheath and high pressure tube connector fitting
*Design conditions: 20,000 PSI @ 400°F
*Proof Pressure Tested to: 30,000 PSI @ 68°F (20°C)
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Conax Technologies high pressure special limits of error type J thermocouple temperature sensor assemblies have proven their durability and reliability in a variety of high pressure and high temperature environments. Our extensive knowledge of the science of temperature measurement and the physical properties of materials, enables our engineers to recommend the most effective solutions for your application needs. Conax has the in-house equipment to proof pressure test and certify units for these extreme applications.
High Pressure Special Limits of Error Type J Thermocouple:
*316SST Sheath and High Pressure Tube Connector Fitting
*Design conditions: 40,000 PSI @ 600°F
*Proof Pressure Tested to 60,000 PSI @ 68°F (20°C)
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Conax Technologies High Pressure LDPE Reactor Type K Thermocouple temperature sensor assemblies have proven their durability and reliability in a variety of high pressure and high temperature environments. Our extensive knowledge of the science of temperature measurement and the physical properties of materials, enables our engineers to recommend the most effective solutions for your application needs. Conax has the in-house equipment to proof pressure test and certify units for these extreme applications.
High Pressure LDPE Reactor, Type K Thermocouple:
*For high pressure low-density polyethylene (LDPE) plants available with a
carbide coated tip for additional wear resistance.
*Proof Pressure Tested to: 80,000 PSI @ 68°F (20°C)
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Conax Technologies' thermocouples for this application meet the operational and performance requirements per the OEM specifications as replacements on heavy duty gas turbines. These cost effective thermocouples are designed to be hermetically sealed to provide a more reliable product that eliminates IR failures. The positive stop at the tip of the thermocouple eliminates any fretting problems. Conax's wheelspace, disc cavity and C.D.T. thermocouples are manufactured using a stainless steel sheath, MgO insulation with type K conductors to ensure the robust design needed in this application.
All specifications qualified thermocouples are manufactured from ASTM E585 thermocouple material utilizing the highest purity insulation materials yielding superior insulation resistance at elevated temperatures. The thermocouples are manufactured and tested at various points during the manufacturing cycle, ensuring the highest possible level of quality.
Production testing includes helium leak testing, calibration, thermal shock, insulation resistance and hermeticity testing of sealing points. Conax Technologies also manufactures these type thermocouples using other configurations. Simply supply the drawing number you have and utilize our short cycle turn around time.
The Wheelspace thermocouples, like all of our products, are manufactured in the United States of America.
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Retrofit Exhaust Gas Sensors for older frame 5, 6, 7 & 9.
If you have an older GE Frame turbine we are offering improved replacement exhaust gas thermocouple sensors that fit older radiation shields with base GE P/N's 351A3711, 238A7864, 219B6376, or 205B3060. This upgrade kit provides a longer lasting sensor that also features lower maintenance time at change out. There is no need to replace the existing radiation shields when using this upgraded exhaust gas sensor.
Product Features and Benefits
*Superior Quality
*Hermetically sealed for high accuracy and long life
*Simple quick installation saves time
*Talented technical support
Cable assemblies that are purchased with this sensor may be manufactured to the customer desired length. Cables remain fixed in the Turbine hot box and only the sensor needs to be removed. Cable assemblies are made from 18 Awg stranded conductors with PFA insulation and are jacketed with Stainless Steel overbraid.
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Magnetic surface thermocouple
Magnetic surface probe
Calibration Type K.
Measures surface temperature of ferrous materials such as bearings on induction heaters.
Magnet diameter Ø 14mm.
Response time 7 sec.
Maximum temperature at tip 220°C
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