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Supplier: Honeywell Sensing & IoT
Description: 192 Series Thermistors are high quality, low-cost, resistance temperature-matched interchangeable units. They offer additional cost savings by eliminating the need for individual resistance temperature calibration, as well as standardization of circuit components
- Length: 1.5 inch
- Minimum Thermal Time Constant: 15 sec, in air
- Resistance (@25°C): 500 ohms
- Temperature Range: -60 to 150 C
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Supplier: Honeywell Sensing & IoT
Description: 192 Series Thermistors are high quality, low-cost, resistance temperature-matched interchangeable units. They offer additional cost savings by eliminating the need for individual resistance temperature calibration, as well as standardization of circuit components
- Length: 1.5 inch
- Minimum Thermal Time Constant: 15 sec, in air
- Resistance (@25°C): 500 ohms
- Temperature Range: -60 to 150 C
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Supplier: Honeywell Sensing & IoT
Description: 192 Series Thermistors are high quality, low-cost, resistance temperature-matched interchangeable units. They offer additional cost savings by eliminating the need for individual resistance temperature calibration, as well as standardization of circuit components
- Length: 1.5 inch
- Minimum Thermal Time Constant: 15 sec, in air
- Resistance (@25°C): 500 ohms
- Temperature Range: -60 to 150 C
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Supplier: Honeywell Sensing & IoT
Description: 192 Series Thermistors are high quality, low-cost, resistance temperature-matched interchangeable units. They offer additional cost savings by eliminating the need for individual resistance temperature calibration, as well as standardization of circuit components
- Length: 1.5 inch
- Minimum Thermal Time Constant: 15 sec, in air
- Resistance (@25°C): 2252 ohms
- Temperature Range: -60 to 150 C
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Supplier: Littelfuse, Inc.
Description: Littelfuse standard precision interchangeable thermistors are low cost, highly accurate, stable devices designed specifically for temperature sensing and control applications. They are particularly suited for uses where their precision interchangeability eliminates the necessity for
- Lead Style: Leadless
- Minimum Accuracy: 0.1000 ±% Full Scale
- Resistance (@25°C): 100000 ohms
- Temperature Range: -80 to 150 C
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Supplier: Littelfuse, Inc.
Description: Littelfuse standard precision interchangeable thermistors are low cost, highly accurate, stable devices designed specifically for temperature sensing and control applications. They are particularly suited for uses where their precision interchangeability eliminates the necessity for
- Lead Style: Leadless
- Minimum Accuracy: 0.1000 ±% Full Scale
- Resistance (@25°C): 10000 ohms
- Temperature Range: -80 to 150 C
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Supplier: Littelfuse, Inc.
Description: Littelfuse standard precision interchangeable thermistors are low cost, highly accurate, stable devices designed specifically for temperature sensing and control applications. They are particularly suited for uses where their precision interchangeability eliminates the necessity for
- Lead Style: Leadless
- Minimum Accuracy: 0.1000 ±% Full Scale
- Resistance (@25°C): 100000 ohms
- Temperature Range: -80 to 150 C
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Supplier: Littelfuse, Inc.
Description: Littelfuse standard precision interchangeable thermistors are low cost, highly accurate, stable devices designed specifically for temperature sensing and control applications. They are particularly suited for uses where their precision interchangeability eliminates the necessity for
- Lead Style: Leadless
- Minimum Accuracy: 0.1000 ±% Full Scale
- Resistance (@25°C): 5000 ohms
- Temperature Range: -80 to 150 C
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Supplier: Acromag, Inc.
Description: with preset curves for popular resistances Universal output connections support ranges up to ±21mA or ±10.5V DC without rewiring Pluggable terminals for convenient wiring High accuracy, linearity, stability, and reliability User-selectable filtering
- Application: General Lab and Industrial
- Communication Interface: USB
- Form Factor: DIN Rail
- Operating Temperature: -40 to 176 F
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Supplier: U.S. Sensor
Description: manufacturing techniques to produce high-quality RTD probes and assemblies that meet or exceed the requirements of our customers. RTDs, or resistance temperature detectors, increase in resistance as the temperature rises. They are useful for: Temperature
- Basic Element Used: RTD
- Probe Configuration: Surface
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Supplier: RS Components, Ltd.
Description: The professional Honeywell 120 and 121 series thermistors highly reliable shock resistant, ruggged, glass-encapsulated units that are usable for a variety of applications. These thermistors are available as standard or mini and have a maximum operating temperature of 300°C.
- Resistance (@25°C): 2000 ohms
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Supplier: ValueTronics International, Inc.
Description: Integrated pressure switch test allows you to capture the set, reset and deadband of a switch Custom RTD curves, add calibration constants for certified RTD probes for enhanced temperature measurement. New voltage input protection design for improved reliability Two separate
- Calibrator Style: Other Specific Calibration?
- Process, Environmental, Thermodynamic Properties: Pressure / Vacuum, Temperature, RTD, Thermistor, Thermocouple
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Supplier: Isotech North America
Description: tables. Select from 7 RTD types to source/read in °C or °F with 0.1 resolution. Or, select O for direct resistance source/read capability. Use the EZ-Check? Switch to quickly switch between three stored temperature/ O outputs. It's easy to customize these values to your
- Calibrator Style: Hand Held, Battery Powered
- Display Type: Digital Readouts
- Local Interface: Digital Front Panel
- Process, Environmental, Thermodynamic Properties: Temperature, RTD, Thermistor
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Supplier: AMETEK Sensors, Test & Calibration
Description: The AMC900 bench calibrator is the solution for high precision signal, temperature, and pressure calibrations. This multi-purpose unit offers laboratory grade accuracy at an industrial calibrator price. The standard is delivered pre-loaded with 13 thermocouple curves and 14 RTD
- Calibrator Style: Fixed
- Computer Interface: Yes
- DC Current: Yes
- DC Current Range: 1.00E-3 amps
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Operating Temperature: -30°C ~ +85°C, -40°C ~ +85°C or specify Thermistor Resistance: 100 KΩ±1% Thermistor B-Constant: 4250K±1% Aging: ±1ppm/Year Max. Applications: WIFI/BLE, GPS Mobile phone Smart watch, TWS earphones, and other wearables (read more)
Browse Resonators Datasheets for Interquip Electronics Co., Ltd. -
The WNT Series NTC thermistor is engineered to provide reliable inrush current suppression, ensuring efficient protection for sensitive electronic components. With its negative temperature coefficient, the thermistor reacts rapidly to temperature changes (read more)
Browse Thermistors Datasheets for Shenzhen Weidy Industrial Development Co., Ltd. -
The WNT Series MF72 NTC Thermistor is designed to efficiently suppress inrush currents in a variety of industrial applications. With a negative temperature coefficient (read more)
Browse Thermistors Datasheets for Shenzhen Weidy Industrial Development Co., Ltd. -
electronics sectors. The product's small footprint and high power capabilities ensure effective surge protection in a wide range of applications. With an impressive operational temperature range from -40°C to +200°C, and a variety of resistance and current handling options, the WNT Series is (read more)
Browse Thermistors Datasheets for Shenzhen Weidy Industrial Development Co., Ltd. -
-on: High initial resistance reduces inrush current at startup Resistance decreases as temperature rises, allowing normal operation (read more)
Browse Thermistors Datasheets for Shenzhen Weidy Industrial Development Co., Ltd. -
Load Capacitance: 7.0pF or specify Operating Temperature: -40°C ~ +85° or specify Equivalent Series Resistance (ESR): 50ΩMax. Aging: ±1ppm/Year Max. Applications: Automotive, smartphones, satellite navigation SSDs,industrial and other applications (read more)
Browse Crystals Datasheets for Interquip Electronics Co., Ltd. -
specify Operating Temperature: -30°C ~ +85°C, -40°C ~ +85°C or specify Thermistor Resistance: 100 KΩ±1% Thermistor B-Constant: 4250K±1% Aging: ±1ppm/Year Max. Applications: WIFI/BLE, GPS Smartphone Smart watch, TWS earphones, and other wearables (read more)
Browse Oscillators Datasheets for Interquip Electronics Co., Ltd. -
Resonator features an ultra-small design and achieves industry-leading levels in both technical craftsmanship and reliability. Its successful adaptation to the Qualcomm SA525M platform demonstrates that its frequency stability, shock resistance, temperature drift performance, and long-term reliability fully (read more)
Browse Crystals Datasheets for Interquip Electronics Co., Ltd. -
MHz ~ 76.8MHz Frequency Tolerance, Ta=25°C ± 3°C: ±10ppm Load Capacitance: 7pF, 9pF or specify Operating Temperature: -30°C ~ +85°C, -40°C ~ +85°C or specify Thermistor Resistance: 100 KΩ±1% (read more)
Browse Resonators Datasheets for Interquip Electronics Co., Ltd. -
switching on a motor or turning on the lights in your home. Specialized sensors such as NTC (negative temperature coefficient) thermistors, are used to measure ambient temperature using temperature-sensitive resistive elements. These devices can be implemented in IoT, HVAC systems, industrial (read more)
Browse Sensor Chips Datasheets for DigiKey
More Information Top
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Digital temperature compensation of a thermistor flowmeter
2 x The thermistor resistance - temperature curve was obtained in a well stirred water bath using a Brooklyn Thermometer Co., Inc. thermometer, catalogue no 3522RMAFC, -1 to 50°C range in 0.05 OC divisions.
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An electronically switched flowmeter and temperature sensor employing a single thermistor probe
The thermistor resistance - temperature curve was obtained in a well stirred bath using a Brooklyn Thermometer Co., Inc. thermometer, catalogue no 3522RMAFC.
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Methods for the assessment of the effects of drugs on coronary blood flow in man.
Each resistance is converted to temperature from the relevant thermistor resistance - temperature curve before coronary flow is calculated.
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Fundamental Study into the Governing
Conditions of Rotor Thermal Bows in
Hydrodynamic Bearings
Figure 111 Typical thermistor temperature - resistance curve ........................
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Temperature Sensing Technologies
Over the lower portion of the resistance versus temperature curve the thermistor resistance if fairly constant.
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Miniaturized implantable sensors for in vivo localized temperature measurements in mice during cold exposure
Calibration of the sensors has been carried out according to the Steinhart-Hart equation (Steinhart and Hart 1968) that fits most accurately the temperature vs resistance curve for therm- istors (Alexander and MacQuarrie 2005): .
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Water temperatures within spawning beds in two chalk streams and implications for salmonid egg development
METHODS Water temperatures in the water column and within the stream bed were recorded at half-hour intervals using ®ve resistance - temperature curve matched thermistors (RS Components Ltd.) mounted at 10 cm intervals in a probe constructed from glass-®lled polyester tubing…
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Innovations in instrumentation and data acquisition systems
The constants can be determined by calibrating the thermistors at three known temperatures; how- ever, manufacturers typically develop temper- ature resistance curves for each thermistor batch and guarantee curve accuracy over spec- ified temperature ranges.
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LONG-TERM PAVEMENT PERFORMANCE SEASONAL MONITORING PROGRAM: INSTRUMENTATION SELECTION AND INSTALLATION
The constants can be determined by calibrating the thermistors at three known temperatures; how- ever, manufacturers typically develop temper- ature resistance curves for each thermistor batch and guarantee curve accuracy over spec- ified temperature ranges.
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Vadose zone monitoring system installation report for McClellan AFB
Nominal Resistance versus Temperature Curve for Thermistor .
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