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Example:
-Platinum-chip temperature sensors in SMD style on epoxy card to EN 60 751, PCSE style (90.6122)
for temperatures from -20 to +150C
Reference values Pt100, Pt500 and Pt1000
standardized nominal values and tolerance
pre-assembled measuring insert
automated processing is possible
SMD temperature sensors offer a price advantage
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From miniature detectors to 100 foot averaging thermometers, from flexible Thermal-Ribbons to heavy duty probe assemblies, our selection lets you choose the best model for your needs. We can supply platinum, nickel, nickel-iron, and copper RTDs with curves to match any instrumentation. Minco also offers thermocouples and thermistors mechanically interchangeable with RTD models to help you standardize installations.
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ColdMark is an environmental indicator. Affixed directly to your products' packaging, this reliable temperature sensor provides indisputable visual evidence of exposure to unacceptable temperature levels, protecting product quality throughout the entire shipping and handling process.
ColdMark is encased in a cylindrical tube, specially formulated fluids turn from clear to violet when exposed to temperatures below the predetermined activation temperature level. Four activation temperatures cover a broad spectrum of applications. Simply peel the release liner off the back of the indicator and apply the pressure-sensitive adhesive backing to any dry surface to activate and apply
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Design and fabrication of our industrial sensors correspond
with the technical standard of DIN 43770. Our sensors can
be divided into two groups, depending on the measurement
method used.
Resistance thermometer
Resistance thermometer have a defined resistance value
at 0C which alters, depending on temperature.
This alteration is presented as temperature value.
Thermo couples
Thermo couples consist of two different metal wires which
are welded together at one point. When the weld spot is
heated, a thermal voltage is generated at the open ends
of the wires which provides the temperature measurement.
The sensors have a modular design and consist of
a connection head
a protective tube
a replaceable measurement insert.
The connection head for wiring is the standard head of shape B. The protective tube and the measurement insert of the sensor vary, depending on application conditions and temperature range.
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Temperature transmitters are fitted with either Pt100 or Pt1000 sensors. Their change in resistance relative to temperature is transformed into an electric output signal or used to control relay contacts.
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A temperature sensor is generally a small diameter cylinder (between 0.5 and 8 mm), varying in length (between 50 mm and several meters), rigid or deformable and immersed in the media to be measured : solid, liquid or gas. The choice depends on the following criteria: temperature range, precision, response time, media to be measured, overall dimensions, pressure, corrosion, attachment and connection.
The PTC technology (PT 100) is totally suited to industrial applications between -50C and 500C, in the absence of excessive vibration.
The thermocouple technology allows very short response times and high temperatures but with a lower precision (+/- 2C on average).
The electrical connection of the sensors is made either using flexible cables or connectors, or on a terminal block inside a small standardised metal case referred to as the "probe head". When the cable is particularly long, it is advisable to use a 4/20 mA measurement converter installed in the probe head.
Some connection devices are ATEX certified in the "d", "e" or "ia" protection modes in a G (gas) or D (dusty) environment.
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The ifm temperature sensors are based on a PT 1000 which converts the measured quantity of temperature into a signal as a result of the change in resistance. A microprocessor controls the evaluation of the electrical signal. For the efector 600 the system temperature is directly indicated on the unit by an LED display.
The electronic circuitry is made in film technology, i.e. a flexible, temperature-stable and extremely resistant polyimide film is used as a carrier for the SMD components. In conjunction with a special potting compound this leads to a high shock and vibration resistance. The microprocessor and the display make the handling of the efector 600 very simple. By means of programming buttons the values for switch point, hysteresis, switching frequency and delay time can be set electronically without the system temperature being present. This enables the installation of the efector 600 in a few minutes. The values are saved in an EEPROM independently of the supply voltage.
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- Monitor water or chemical solution temperature in cooling tower sumps and storage tanks
- True continuous averaging sensor eliminates errors due to temperature stratification
- Stainless steel case is rugged and impervious to most chemicals
- Bend or manipulate the probe to accommodate a variety of sump and tank designs
- You can specify the overall probe length and the length of the temperature sensitive zone to fully immerse the sensitive zone in liquid
- NEMA 4 weatherproof connection head
- Optional 4 to 20 mA temperature transmitter
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Temperature sensors on technology NTC.
REALIZATIONS:
_ Golden and Silver Chips
_ encapsulated in glass
_ encapsulated in resin
_ encapsulated in steel
_ For immersion and not
_ Invasive and not invasive
APPLICATIONS:
_ Medicale
_ Industrial
_ Food
_ Vending
_ HVARC
_ Refrigeration
_ Automotive
_ Aerospace
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The HT-Tip is a universal sensor-tip used to build high-temperature sensors. Its areas of application are the automotive industry, internal combustion engines, exhaust and burners. The tip is characterized by long-term stability, precision over a broad temperature range and compatibility. By using this tip you are able to avoid the most critical steps building thermometers.
Specification HST (Heraeus Sensor Technology)
Temperature Range -70C up to +1000C
Temperature coefficient TCR = 3770 ppm/K
Leads bare wire
Lead length (L) tbd
Environmental conditions depends on installation
Insulation resistance > 100 MOhms at 20C
Self heating tbd
Response time
t0.63 = 8 s at 22 m/s airflow,
300C temperature step
t0.63 = 10 s at 12 m/s airflow,
300C temperature step
Measuring current 5 mA at 20C; 2.7 mA at 1000C
Notes of processing When connecting the sensor,
proper polarisation has to be maintained!!!
Packaging tbd
Status preliminary
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Level measurement instrument in stainless steel 1.4571
with integrated temperature sensor
TN 210
Characteristics:
Analog level signal 4-20 mA, two-wire transmitter
Max. 4 level switches (bistable) pnp-output. Control elements: reed contacts or magnet sensors
Analog temperature signal 4-20 mA, two-wire transmitter
Temperature switches: pnp-output or thermostat for switch action
Advantages:
Reductions of costs: max. 4 different measurements in one measuring instrument
Economy of time, of storage costs, of assembly costs etc.
Areas of application:
IMB combined measuring instruments are suitable even for rough environments and are applicable in the following industries:
plant engineering, off-shore, machine construction, power plants, chemical industrie, ship-building, biochemical industrie, food industrie, petrochemical industrie, pharmaceutics etc.
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Temperature sensors, humidity sensors, pressure sensors, frost protection thermostats, pressostats, explosion proof
Passive, potential free binary and modulating sensors, series ExSens, for temperature, humidity and pressure, with manufacturer certificate, in acc. with ATEX 94/9/EC for use in hazardous areas zone 1, 2, 21 and 22 (in acc. to sensor type), for all kind of gas, mixtures, vapours and dust.
Sensors for room, duct or tube mounting (in acc. to type).
Modulating sensors series ExSens connectable to transducers series ExCos-A, RedCos-A or EXL-IMU-1.
Modulating sensors series ExPro connectable to transducers series ExCos-D and RedCos-D.
Binary sensors series ExSens connectable to switching module series EXL-IRU-1.
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Plug on sensor: humidity and temperature Part No.: 3087
- For ECOLOG THx or ECOLOG-NET LH2, WH2
- Range: temperature: -35..+70C
- rH: 0%..100%
- With calibration certificate
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Relative humidity sensors from Sensirion have become the market standard, since they were launched in 2002. Nowadays the company yearly sells millions of humidity sensors all around the world. The sensor solutions are designed for diverse applications such as data logging, climate control, and antifogging. They hence measure relative humidity and temperature in different kind of products. The digital humidity sensors work with a capacitive measuring principle. Thanks to its unique CMOSens technology, the humidity sensors allow precise humidity and temperature measurement at low cost.
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HITY 2000 is based on impedance measurement rather than the capacitive method used by other systems. This technology offers an extremely high degree of resistance against aggressive chemical gases and provides stability for as long as 5 years, depending on the medium. The sensor reacts to humidity changes much faster than average.
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TempMatic 4000 Single-Wavelength Sensors
with Visual Aiming are used to measure most common materials in general purpose applications.
Standard Features:
- A wide selection of temperature
- ranges and optics
- A variety of Spectral response options that include
infrared filtering for glass, plastic, and flame insensitivity
- Visual Aiming
- Optional Laser Aiming
- Rugged, corrosion resistant NEMA 4 / IP65 enclosures
- Stand alone and system configurations
- A wide selection of accessories
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Description
The fibre optic temperature probe TP-02 is a high resolution temperature sensor. The sensor makes use of the inherent temperature sensitivity of the Fibre Bragg Grating as well as the thermal expansion of its housing. The packaged FBG is positioned inside a stainless steel tube with a diameter of 6 mm and is terminated with an optical connector. Pigtail length and connector can be specified following the needs of every application.
Features
- The temperature probe TP-02 can measure temperatures with a resolution of 0.04 C and an accuracy of 0,4C. The sensor can be used in harsh environments and is pressure tight up to 150 bar.
- The sensor can also be connectorised at both ends to make series configurations possible.
- There is also the possibility to foresee an integrated adapter at both sides of the temperature probe.
Applications
Pipeline monitoring, process control, ...
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UST R&D Center is specially in high temperature measurement for exhaust gas of motorcar and engine. Along with the IV rules of Europe put in practice, the exhaust gas and complete buring must be controlled by temperature measurement.
Sensitive element: Pt200 (single)
Tolerance: all conform to the requirements of DIN EN 60751
Temperature range: 800--{1200
Shell: can be customized
Wires: 2 -wire
Protective grade: all conform to the requirements of IP 54
Option: connector
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Application: Using protective stainless steel tube for encapsulation, which can be used for inner temperature measurement in medical treatment, foodstuff, liquid, etc.
Sensitive element: Pt 100, Pt200, Pt 500 or Pt 1000 (single or double)
Tolerance: According to DIN EN 60751
Temperature range: For low temperature type: -200--{400
For high temperature type: -50--{1200
Shell:
-- diameter: 2.00 mm, length: 300 mm
-- diameter: 3.00 mm, length: 300 mm
-- diameter: 4.00 mm, length: 400 mm
-- diameter: 5.00 mm, length: 500 mm
Other types can be customized
Wires: 2, 3 and 4-wire or connector
-- length: can be customized
-- type: glass fiber (Max. temperature 650)
PTFE (Max. temperature 300)
FEP (Max. temperature 250)
Silica gel (Max. temperature 125)
PVC (Max. temperature 105)
Protective grade: according to IP 54
Option:
-- Screening wire
-- Protective grade--Ipxx
-- Higher precision ( Glass A, DIN1/3CDIN1/10)
-- Protective tube (According to DGS, DGV)
-- Screwd wire
-- Protective spring
-- Connector
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This type of sensor is used for the following applications in vehicles, for example:
- Engine coolant circuit (coolant temperature)
- Fuel system (fuel temperature)
- Engine air intake
- Applications in the industrial field are the measurement of liquid temperatures in general.
There is a precision resistor made of semi-conductor material with a negative temperature coefficient (NTC) in the housing of the liquid temperature sensors. This precision resistor has a high resistance at lower temperatures, with resistance decreasing as temperature increases.
For more technical information and variants please regard our catalogue.
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The PRO 40 Single-Wavelength Sensors with Visual Alignment are used to measure most common materials in general purpose applications.
The PRO 42 models feature a unique auto null design that enables more accurate measurements on applications such as cold rolled steal and low temperature induction heating processes where the temperatures can go as low as 100F (40C) and the surface has a low or varying emissivity.
For most applications, the selection of the sensor is based on the temperature range and the optics that meet the requirements of the application. However, some applications require careful selection of the sensor's operating wavelength in order to obtain accurate measurements. Frequently, the selection of a specific narrow band filter will result in a narrower temperature range for the sensor, but the benefit can be dramatic improvements in the accuracy and repeatability of temperature measurements.
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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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The PRO 50 Single-Wavelength Sensors with Fiber Optics are used to measure most common materials in general purpose applications. With the fiber optic configuration, it is possible to view a target and mount the sensor electronics in a remote or more convenient location. This provides greater durability and flexibility with sensor installations that involve confined spaces and/or severe environments.
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These sensor families offer a variety of options for measuring most common materials in low temperature (0-1000F / 0-500C) applications.
Standard Features:
- Broad temperature ranges -40 to 932F (-40 to 500C)
- 8-14um operating wavelength
- Line of Site and (optional Laser Sighting Tool)
- D/2 and D/20 optics
- Two-Wire 4-20mA output
- Compact design with a rugged stainless steel enclosure (NEMA 4 / IP65)
- A wide selection of accessories
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Our innovative temperature sensor products include:
Full range of industry-standard temperature sensors and temperature switches
The fastest-growing line of thermal-management products
Temperature sensors with accuracy from 0.5C to 3C
Temperature sensors for accurately measuring temperature of up to six remote diodes, such as those found in industry-standard CPUs, GPU (VGA) and High-density FPGAs and ASICs.
Wide range of temperature sensors with industry-standard bus interfaces: I2C, SMBus, SPI, PWM, Analog, 1-Wire, etc.
The world's most comprehensive line of low-cost thermal switches
Highly integrated temperature sensor solutions for notebook PCs, industrial control and automotive applications
Comprehensive array of temperature sensor application notes
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LM94022Q is AEC-Q100 Grade 0 qualified and is manufactured on an Automotive Grade Flow.
•Low 1.5V operation
•Push-pull output with 50A source current capability
•Four selectable gains
•Very accurate over wide temperature range of −50C to +150C
•Low quiescent current
•Output is short-circuit protected
•Extremely small SC70 package
•Footprint compatible with the industry-standard LM20 temperature sensor
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The XC31B series are ultra small CMOS temperature sensor ICs. As a bandgap type temperature sensor is built-into the
XC31B, linearity, in comparison to thermistor type temperature sensors, is much better.
The operating temperature range of the series is from -30c to +80c.
The XC31B comes in a mini molded SOT-25 and
USP-6B packages with a supply current of only 7A
(@VOUT=2.0V) and as such, is suitable for use with various portable devices. Output voltage is selectable in 100mV
increments within a range of 2.0V to 6.0V (at 25c).
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Description:
As a precision CMOS temperature sensor, the FM20 is cost-effective for accurate low-power temperature monitoring applications. Output voltage versus temperature is extremely linear. With no load, the supply current is
typically 1A. For normal operation, the load on V OUT should be 5MOhm
or less.
In a typical application, a remotely mounted FM20 is monitored by a microcontroller with an analog A/D converter input. Alternatively, the FM20 can drive a comparator with a high impedance input.
Accuracy is typically 0.5C at room temperature, and better than 2C from 0 to 75C.
FM50 is available in a 3-pin SOT-23 package.
Features
- Analog Output: 10mV/C
- Range: -40 to 125C Range
- Accuracy: 2C at 25C
- Supply Current: 170A Maximum
- Output Drive: 25A
- Self-heating: <0.1C
- Operating Voltage: +2.4V to 6V
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ATEX or PED pyrometer assemblies
Different ranges of temperature assemblies specially developed for the chemical and petrochemical industries.
Temperature assemblies with or without thermowell
IP54 to IP67 ingress protection
Simple protection or EEx "i", "e" or "d" safety protection
DAN, DAN V, PSX V type connection head, etc.
Platinum resistance from -200 C to +450 C
Standard material - 316L stainless steel. Various materials and coatings available as an option
ATEX and PED directives: see the ATEX/PED and EMC chapter, on the right-hand side of the home page.
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