Nowadays, through the use of NTC thermistor, it can play an important role in the use of electronic components. Therefore, in the design and production of the thermistor, many different factors have been taken into consideration, including the use of cobalt, nickel, manganese, and copper, as well as the selection and application of different materials. Among the selected metal materials, they can have the practical application performance of semiconductors, so they have been widely used in semiconductor components. For example, new semiconductor materials such as silicon and germanium are now available.
At present, in the selection and use of NTC thermistors, it is very important to introduce and understand the performance of NTC thermistors, so a simple analysis will be made below.
1. The working principle of ntc thermistor.
In the introduction and use of NTC thermistor performance, it will be affected by the actual temperature. Due to the design characteristics of its own structure, the value of the NTC thermistor will be higher. In the process of use, due to the rise in temperature, the number of carriers is continuously increased, and the resistance value is gradually decreased. Among them, NTC thermistors have a certain range of room temperature change requirements under normal use, generally between 10O-1 million ohms, and their temperature coefficients also have a certain reference application range. For this kind of practical application performance, NTC thermistors can be used in temperature control, temperature measurement and temperature compensation.
2. The performance and life of ntc thermistor.
The thermistor that can extend the service life is an improved product, which emphasizes the importance of the resistor performance in the application, and also enhances the service life of the NTC thermistor. Because the service life is an important performance of the thermistor, and is dialectically related to the sensitivity and accuracy and other parameters. Because NTC thermistor products must have a long service life, so as to ensure the performance in actual applications, and the technology and level generated will also affect the performance of the NTC thermistor.
3. The performance of ntc thermistor in different environments.
Among the current high-tech electronic products, when used under severe conditions such as ultra-high temperature and ultra-high pressure, the relevant requirements for electronic components will also be particularly strict, including the temperature control and temperature of the NTC thermistor Measurement function.