Showing product results. 1651 - 1665 of 3279 products found.
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W-TW-44 - Physitemp Instruments
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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W-TW-24 - Physitemp Instruments
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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W-TW-40 - Physitemp Instruments
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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W-TW-36 - Physitemp Instruments
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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W-TW-44TEF - Physitemp Instruments
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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W-TW-40P2 - Physitemp Instruments
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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W-TW-36P2 - Physitemp Instruments
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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W-TW-30 - Physitemp Instruments
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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W-TW-40P - Physitemp Instruments
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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W-TW-26 - Physitemp Instruments
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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Knick Elektronische Messgeräte GmbH & Co. KG.
Isolation Amplifier for DC voltage and current measurement with galvanic isolation, active and passive standard signal isolation amplifier, supply isolation amplifier for supplying 2-wire sensors, transmitter for temperature and AC signals, isolating amplifiers for high voltages and shunt applications. T
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Sens'it - Sigfox
Sens’it Discovery is a customizable IoT solution that combines the Sens’it 3 device with the sensit.io application, along with Sigfox connectivity. It comes with 6 different sensors (thermometer, hygrometer, light meter, accelerometer, magnetometer, reed switch) and a central button for multiple use cases.
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AW Gear Meters
Operating much like a turbine flow meter, the paddle wheel flow meter consists of a freely rotating wheel which is outfitted with magnets on the blades or “paddles” of the wheel. As the fluid flows through the meter, spinning the wheel, sensors detect the magnets with each pass.
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Medusa - ThirdEye Systems Ltd.
Meduza system uses two thermal imaging sensors working side by side to stereoscopically detect hostile drones. technology used in Meduza seeks to detect its target within a single frame, with the sensor using algorithms to understand the kind of shapes it is looking for.
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Futek Advanced Sensor Technology, Inc.
The Rotary Hex Drive Torque Sensor category has Torque Sensors which are used in slip ring and non contact rotary torque measurements. The most common utilization for these models is for inline/reaction applications, where measurements can be made in both clockwise and counterclockwise directions.
