Thermocouples
Thermocouples are junctions of two dissimilar metals that produce a very small voltage proportional to the temperature of the junction.
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Thermocouples
A thermoelectric device for measuring temperature, consisting of two wires of different metals connected at two points, a voltage being developed between the two junctions in proportion to the temperature difference.
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Exhaust Gas Thermocouples
HYBRID Series
The AMETEK Hybrid Series Exhaust Gas Thermocouples for Frame 7 and 9 applications have been designed, fully tested and qualified to meet OEM specifications. AMETEK has worked closely with the OEM turbine manufacturer to qualify and engine test this thermocouple as a direct replacement, or for upgrading an older style Exhaust Gas Thermocouple.
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4 Thermocouples/RTD Ch
APCI-3200-4
18-bit resolution, 16-bit accuracyEach channel can be configured either for thermocouples/RTD or as an analog voltage input channel4 analog input channels for thermocouple typesJ, K, T, E, R, S, B, N - or 2 diff. analog input channels for the acquisition of resistance temperature detectors (Pt100)- or 16 SE/8 differential analog voltage input channels, ± 2.5 V8 independent current sources for resistance temperature detectors (RTD) and one current source for cold junction compensationCold junction compensation (on separate screw terminal board PX 3200)Gain and offset calibrationLinearisation through table and calculation for the thermocouple types J, K, T, E, R, S, B, N and RTDsProgrammable gain16-bit accuracy with sample rates of 20, 40, 80 or 160 Hz (other rates on request)4 digital input channels, 24 V and 3 digital output channels, open collector, isolated
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Fine Wire Versatile Thermocouples ANSI
An exposed junction thermocouple is the simplest form of thermocouple. It consists of two pieces of thermocouple wire joined together with a welded bead. Since they can be made very small, an exposed junction thermocouple can provide a very fast response time.
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16 Thermocouples/RTD Ch
APCI-3200-16
18-bit resolution, 16-bit accuracyEach channel can be configured either for thermocouples/RTD or as an analog voltage input channel16 analog input channels for thermocouple typesJ, K, T, E, R, S, B, N - or 8 diff. analog input channels for the acquisition of resistance temperature detectors (Pt100)- or 16 SE/8 differential analog voltage input channels, ± 2.5 V8 independent current sources for resistance temperature detectors (RTD) and one current source for cold junction compensationCold junction compensation (on separate screw terminal board PX 3200)Gain and offset calibrationLinearisation through table and calculation for the thermocouple types J, K, T, E, R, S, B, N and RTDsProgrammable gain16-bit accuracy with sample rates of 20, 40, 80 or 160 Hz (other rates on request)4 digital input channels, 24 V and 3 digital output channels, open collector, isolated
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J-Type Thermocouples Grounded (32 deg F to 900 deg F )
745685-J01
J-Type Thermocouple, 32°F to 900°F Temperature Sensor - The J-Type Thermocouple works with NI measurement devices and software to help you acquire temperature data within a measurement system. You can use LabVIEW or FlexLogger software and NI-DAQmx driver software to configure measurements and predefined scaling coefficients for the J-Type Thermocouple and acquire synchronized temperature data in units of degrees. The J-Type Thermocouple is available in various lengths and configurations including field-cuttable, ready-made sensors, and thermocouple wire extensions with a -20°F to 221°F temperature range.
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Fabricated And Specialist Thermocouples
Fabricated and Specialist Thermocouples to suit a wide range of applications.
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Thermocouple Power Sensors
N8482H
N8480 Series Power Sensors are the replacement solutions for 8480 Series Power Sensors.
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MAX31855 K-Type Thermocouple Sensor Breakout
SEN-30001-KDP
Breakout board for the MAX31855K digital thermocouple interface IC. Measured temperature range is -270C-1372C with known thermal characteristics and output resolution of 0.25C. This sensor supports a larger operating range (specifically in the negative range) than its predecessors, the MAX6674 and MAX6675, though it is not pin-pin compatible. This board is interfaced with a 0.1" 1x5 pin header and four mounting holes for standoffs and 4-40 screws. It does not contain a mini thermocouple connector.
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Temperature/Limit Controller
16L
The 16L Series Temperature/Process FM Approved Limit Controls set a new standard in 1/16 DIN limit controls. The 16L offers universal input (10 thermocouple types, 4 RTD types, voltage, and current), single set point or dual set point
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Miniature Digital Panel Meter
CSMS-321
Measuring DCA, DCV, Temperature. 1/32 DIN Size ( 48mmX24mm ). Accuracy: +/- 0.1%(DC), +/- 1%(Thermocouple), +/- 0.2%(Pt100). 3 1/2 Digits Display: 1999. Input Max. 2Adc +/- 10%; 300Vdc, T/C type K: 1200J, Pt100:600J. Aux Power 5Vdc +/- 10%; Isolated Aux. Power 5Vdc, 12Vdc, 24Vdc available in option. Easy to wire, screw type terminal. Outside dimensions is 1/32 DIN Standard ( 48 x 24mm ). High stability & low cost.
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MAX31855 K-Type Thermocouple Sensor Breakout
SEN-30003-K
Breakout board for the MAX31855K digital thermocouple interface ICs by Maxim. Measured temperature range is -270C-1372C with known thermal characteristics and output resolution of 0.25C. This sensor supports a larger operating range (specifically in the negative range) than its predecessors, the MAX6674 and MAX6675, though it is not pin-pin compatible. This board is interfaced with a 0.1" 2x5 pin header (8-pins used), has four vertical mini thermocouple connectors and four mounting holes for standoffs and 4-40 screws.
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Submersible, Thermocouple Based Temperature Data Logger
TCTemp1000
The TCTemp1000 is a rugged, submersible, battery powered, thermocouple based temperature data logger. This is a stand-alone, compact, portable, easy to use device that can measure and record data for up to 16,383 measurements per channel. The storage medium is non-volatile solid state memory, providing maximum data security even if the battery becomes discharged. Its real time clock ensures all data is time and date stamped.
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Basic Quad J-Type Analog Thermocouple Amplifier
SEN-30103-J1
Analog thermocouple amplifier board based on the AD849x from Analog Devices (successor of the AD597). This quad-channel thermocouple board converts the very low voltage signal from a thermocouple to a highly-linear, 0.005V/C output with either 0V or 1.245V offset (both configurations stocked) while removing unwanted noise from the signal. Many supply and output configurations are available with this board, though the PCB was designed with Arduino in mind. Specifically, the output header will plug directly into a standard Arduino Uno or Mega, with a pin-for-pin match for power supply, ground and analog outputs. With a 5V Arduino, temperatures from 0C to 1,000C are possible with the 0V offset board and -249C to 750C with the 1.245V offset board. If using a 3.3V microcontroller (Due, etc), the board must be supplied with no more than 3.3V to avoid damaging the microcontroller. Temperature measurement range is dependent on the supply voltage. It is possible to supply the board with higher voltages to allow temperature measurement over the entire operating range of the K-Type and J-Type thermocouples, allowing use with more capable data acquisition equipment.
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Gauge Type T Thermocouple Wire
W-TW-44P
Most thermocouple wire used in the manufacture of sensors is "Special Limits" wire which, to meet NIST standards, must be accurate to 0.5°C in the range 0-50°C. This means that even with most sophisticated electronics, the best possible accuracy for the system is 0.5°C.
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Thermocouple
This sensor uses a K-type Chromel/Alumel thermocouple and is intended for use in high-temperature, high-vibration environments. Control units and data loggers support K-type thermocouples. The sensor is short and compact to minimise its susceptibility to vibration.
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20 Channel Multiplexer (2/4-wire) Module for DAQ970A and DAQ973A
DAQM901A
20 Channel Multiplexer (2/4-wire) Module. High voltage switching capability of up to 300 V and built-in thermocouple reference junction.
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Temperature Sensors
A temperature sensor is a device that detects and measures hotness and coolness and converts it into an electrical signal. At TE Connectivity (TE), we design and manufacture a broad portfolio of temperature sensors – including our NTC thermistors, RTDs, thermocouples, and thermopiles – designed for efficiency and easy installation, with capacity to reliably integrate technology that responds to human behavior.
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Single Cell Hardware
A Fuel Cell Hardware Assembly consists of a pair of Poco Graphite Blocks with a precision, machined flow-pattern (pattern is serpentine unless otherwise specified by the customer), and a pair of gold plated connectors fastened with aluminum end plates. Gas inputs and outputs are through Swagelok fittings. A thermocouple well and two cartridge heaters are also provided. A single Anode Reference Electrode may be added for an additional cost. The FCT Cell Hardware does not include a Membrane Electrode Assembly (MEA).
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3-Slot Data Acquisition Mainframe With GPIB And Three 20-Channel Multiplexer Modules
DAQ973MB
The DAQ973MB Better Multiplexer Bundle offer includes a DAQ973A three-slot data acquisition mainframe and three 20-channel DAQM901A multiplexer modules. This bundle provides the following:3-slot mainframe with USB, LAN, and GPIB6.5-digit (22-bit) internal DMM60 channels of multiplexer switches6 channels of dedicated current measurements2- and 4-wire scanning300 V switching80 channels/s scanningbuilt-in thermocouple reference junctionbuilt-in signal conditioning to measure thermocouples, RTDs and thermistors, AC / DC volts and current; resistance, frequency / period, diode test, and capacitance
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Gauge Type T Thermocouple Wire
W-TW-36P2
Most thermocouple wire used in the manufacture of sensors is "Special Limits" wire which, to meet NIST standards, must be accurate to 0.5°C in the range 0-50°C. This means that even with most sophisticated electronics, the best possible accuracy for the system is 0.5°C.
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Thermocouple Power Sensors
N8482B
N8480 Series Power Sensors are the replacement solutions for 8480 Series Power Sensors.
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Oxygen Analyzer
Rapidox 2100
The Rapidox 2100 is a high-performance oxygen (O2) analyser fitted with a rugged long-life zirconia sensor on a remote cable, together with a type K thermocouple sensor; allowing direct in-process measurement of oxygen and temperature in the sample gas. The sensors provide fast and accurate analysis over the low ppm oxygen range in harsh environments up to 650°C.
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E-Type Thermocouple, 32°F to 900°F Temperature Sensor
745690-E002
E-Type Thermocouple, 32°F to 900°F Temperature Sensor - The E-Type Thermocouple works with NI measurement devices and software to help you acquire temperature data within a measurement system. You can use LabVIEW or FlexLogger software and NI-DAQmx driver software to configure measurements and predefined scaling coefficients for the E-Type Thermocouple and acquire synchronized temperature data in units of degrees. The E-Type Thermocouple is available in various lengths and configurations including field-cuttable, ready-made sensors, and thermocouple wire extensions with a -20°F to 221°F temperature range.
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Thermocouple Power Sensors
N8488A
N8488A power sensor has the widest frequency range among N8480 power sensors offering from Keysight.
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Thermal Testing And Analysis
Response Dynamics Vibration Engineering, Inc.
We have consulted on thermal issues ranging from conduction issues in TECs, thermal radiation modeling, and countless air cooled system issues relating to system performance, vibration, and acoustics noise. We use a wide array of thermocouple instrumentation, thermal imaging, flow measurements, as well as finite element analysis and analytic modeling to measure, design, and debug thermal and related issues. We often work on customer products in our Response Dynamics lab where we characterize the system, engineer solution options, and prototype solutions. We then work with the customer to work the winning solution into their quality control and manufacturing process.
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12:1 IR Thermometer w/ K-Type Thermocouple Input
INF195C
UEi Test & Measurement Instruments
The INF195C offers the unique circular laser targeting showing users the exact spot being measured. This 12:1 Infrared Thermometer also offers advanced features including a wider temperature range, K-Type input, selectable emissivity levels, Min/Max, average, differential, a user adjustable alarm and backed by a 1-Year limited warranty.
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PXI Isolated Millivolt Thermocouple Simulator - 32 Channel
41-761-001
The 41-761-001 is a low voltage 32-channel output module ideal for simulating theoperation of a thermocouple, also available with 24, 16 or 8 channels. Each channel of the 41-761 provides a low voltage output across two connector pins capable of providing ±20mV with 0.7μV resolution, ±50mV with 1.7μV resolution and ±100mV with 3.3μV resolution, covering most thermocouple types.
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Portable Temperature Monitor
PTM1
The Model PTM1 is a high performance, precision hand-held instrument for the measurement of temperature using Physitemp’s Type T (copper-constantan) thermocouples (will also accept J & K). This versatile instrument measures temperature in both °C and °F. The internal memory of the microcomputer stores the minimum and maximum measured temperature range for instant recall via the LCD display.
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LXI Low Thermal EMF Matrix 1-pole 56x33
60-510-001
The 60-510 is a high density 1-pole matrix module controlled via LXI. It has excellent thermal stability and substantially reduced thermal EMF figures when compared to a conventional switching matrix. Typical applications include signal routing in ATE, selecting thermocouple inputs, switching amplifier gain circuits and high accuracy DC micro-volt measurements. Ruthenium reed switches are used because of their good low level switching capability. They also have a very long life with excellent contact resistance stability, minimal wetting current and low thermal offset.
