Fast response NTC thermistor sensor is designed and manufactured from Hefei Jingpu Sensor Technology Co.,Ltd. It consists of epoxy resin, ntc element and lead wire.
|
Item |
Performance |
| Rated resistance |
5.553±1% kΩ |
| B value |
3760 K |
| Time constant |
<15s |
| Max power rating |
Approx.60 mW |
A wide range of single-insulated, fully encapsulated sensors offering up to IP67 waterproof protection. The ntc thermistor sensor is coated with a tough epoxy seal that completely covers the NTC and lead-wire connection. Suitable for general purpose sensing, e.g. air conditioning, battery monitoring, these epoxy-coated sensors ensure a high degree of moisture resistance. Temperature range: -50/+110°C (125°C) Di-electric strength: 3.75kVAC Insulation: Epoxy-coating Cable length: 50mm to 10metres
Mounting & Other Options :A range of stainless steel housings can be added to increase sensor robustness or provide various mounting options.
Features
Low cost, solid state temperature sensor
High sensitivity to changes in temperature
Suitable for temperature measurement, control and compensation
Standard resistance tolerances down to±2%
Excellent mechanical strength
Wide operating temperature range: -50ºC to 150ºC
Suitable for PCB and probe mountings
Available in a wide range of material systems
Overall lengths from 0.71 in to 3.07 in (18mm to 78mm)
Options
Other resistances in the range 2 kΩ to 100 kΩ
Other tolerances, tolerances at other temperatures
Alternative lead lengths, lead materials, insulations
Standard Export Packing for NTC thermistor sensor
Production Process for NTC thermistor sensor
Jingpu Certificates
Thermistor sensor
The thermistor sensor is a type of sensor. This type of sensor is used mostly in the human thermometers.
If there is a change in the temperature. then the electrical current or resistance also changes. The thermistor is prepared by using the semiconductor materials with a resistivity which is especially sensitive to temperature. The resistance of a thermistor decreases with increasing temperature so that when the temperature changes, the resistance change is predictable.
The thermistor sensors are different from the resistance temperature sde
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