B57452V5104J062 Sensors, Transducers |
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Allicdata Part #: | 495-76310-2-ND |
Manufacturer Part#: |
B57452V5104J062 |
Price: | $ 0.15 |
Product Category: | Sensors, Transducers |
Manufacturer: | EPCOS (TDK) |
Short Description: | THERM NTC 100KOHM 4386K 0805 |
More Detail: | NTC Thermistor 100k 0805 (2012 Metric) |
DataSheet: | B57452V5104J062 Datasheet/PDF |
Quantity: | 1000 |
3000 +: | $ 0.14077 |
6000 +: | $ 0.13027 |
9000 +: | $ 0.12186 |
15000 +: | $ 0.11892 |
30000 +: | $ 0.11556 |
Series: | -- |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Resistance in Ohms @ 25°C: | 100k |
Resistance Tolerance: | ±5% |
B Value Tolerance: | ±3% |
B0/50: | -- |
B25/50: | 4386K |
B25/75: | -- |
B25/85: | 4455K |
B25/100: | 4480K |
Operating Temperature: | -40°C ~ 150°C |
Power - Max: | 210mW |
Length - Lead Wire: | -- |
Mounting Type: | Surface Mount |
Package / Case: | 0805 (2012 Metric) |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
NTC (Negative Temperature Coefficient) thermistors are temperature sensitive resistors manufactured with the highest quality temperature sensing elements and ceramic-metal materials to ensure accurate sensing and reliable operation. These thermistors are temperature-sensitive semiconductors that exhibit a decrease in resistance with increasing temperature. As a result, they can be used to detect temperature changes and monitor chances in temperature to provide temperature regulation. The B57452V5104J062 is an NTC thermistor and is widely used in a range of applications.
The B57452V5104J062 thermistor is typically used for applications such as temperature sensing, over-temperature protection, temperature compensation, temperature measurement, thermal protection and heat detection. This device is anatase type of NTC thermistor pack that is highly stable and accurate for temperature sensing applications. It features a wide operating temperature range and a wide sensing range. The B57452V5104J062 thermistor is also shock and vibration-resistant and has a high thermal sensitivity. Moreover, it has a small size, low cost and is easy to install.
The working principle of the B57452V5104J062 thermistor is based on the change in electrical resistance experienced by n-type semiconductors due to a change in temperature. This process, known as the PTC (positive temperature coefficient) effect, describes the change in resistance that occurs as temperatures increase. As the temperature rises, the resistance increases, following a semi-logarithmic curve. This increase in resistance is caused by an increase in the electrons’ energy, which in turn produces a larger number of holes in the semiconductor crystal structure. When the temperature falls, these semiconductors experience a decrease in resistance due to a reduction in electron energy and a decrease in the number of holes in the crystal structure.
The B57452V5104J062 thermistor is able to accurately measure temperatures over a wide range due to its high thermal sensitivity and low temperature coefficient. This type of precise temperature measurement is essential for applications such as over-temperature protection, temperature compensation, thermal protection and heat detection. In addition, the combination of low cost and the ability to be used within tight spaces makes the B57452V5104J062 thermistor an incredibly useful device for a number of applications.
In conclusion, the B57452V5104J062 thermistor is a reliable, low-cost and accurate temperature sensitive device that is widely used in a range of applications. It features a wide temperature range and a small size, making it a perfect device for applications such as temperature sensing, over-temperature protection, temperature compensation, temperature measurement, thermal protection and heat detection. The working principle of the B57452V5104J062 thermistor is based on the PTC (positive temperature coefficient) effect, which describes the change in resistance that occurs as temperatures increase. As temperatures rise, the resistivity of the semiconductor increases, and as temperatures decrease, the resistivity decreases.
The specific data is subject to PDF, and the above content is for reference
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