High quality displacement sensors can bring huge benefits in the process of use. At this time, we should know that in the process of selection and use, we should pay attention to the standard operation during use.

Increase the stability of HTD series displacement sensor

To increase the stability of the HTD-200-3 displacement sensor during use, we can do the following:
First, select the appropriate sensor type: different sensor types are applicable to different measurement environments and requirements, and select the appropriate sensor according to the actual needs.
Second, correct installation: the installation position should be correct and firm, and there should be appropriate clearance between the sensor and the measured object.
Third, prevent interference: in the case of interference sources such as electromagnetic interference and mechanical vibration, some measures should be taken, such as increasing shielding and reducing the impact of interference sources.
Fourth, maintenance: regularly check and maintain the sensor, keep the sensor clean and dry, prevent the invasion of dust, oil and other pollutants, and check whether the cable connection is good.
Fifth, select high-quality accessories: such as high-precision signal conditioner, cable and other auxiliary equipment can improve the measurement accuracy and stability of the sensor.
In short, to improve the stability of the HTD series displacement sensor, it is necessary to comprehensively consider various factors, including sensor type, installation, environment, interference source, etc., and regularly check and maintain the sensor to find and solve potential problems in time.

Increase the service life of HTD series LVDT sensor

In addition to increasing the stability of the sensor, it is also worth noting that the service life of the HTD-200-3 LVDT sensor should be increased. The service life of LVDT directly affects the cost and industrial progress, and the displacement sensor with long cycle is also one of the reasons for everyone to choose.
When installing and using the HTD-200-3 LVDT sensor, ensure that its stress is uniform and avoid overload, which can effectively extend its service life; When LVDT sensor is subject to mechanical vibration and impact, it is easy to cause mechanical fatigue and internal components loosening, resulting in sensor failure. Therefore, when installing the LVDT sensor, it should be avoided to install it in the position with large vibration; The LVDT sensor shall be regularly maintained and tested, and the outer surface of the sensor and measuring parts shall be cleaned to avoid the impact of dust, corrosion and pollutants on the sensor; LVDT sensor is prone to failure in high or low temperature environment, so it is necessary to install it at a suitable ambient temperature, and at the same time, pay attention to maintaining temperature stability; Select appropriate power supply: reasonably select the power supply of the sensor to avoid LVDT sensor failure or damage due to high or low power supply voltage; Avoid excessive curvature: During use, avoid excessive bending or stretching of the cable of LVDT sensor to avoid damaging the cable and connector of the sensor.

Achieve high temperature and corrosion resistance

The wide application of HTD series displacement sensor requires it to achieve high temperature and corrosion resistance. This common technical requirement can be achieved through several solutions.
1. Select materials with high temperature and corrosion resistance: the shell and internal parts of the displacement sensor need to be made of materials with high temperature and corrosion resistance. For example, for displacement sensors in high temperature environment, high-temperature alloy materials, such as tungsten, molybdenum, titanium and other metal and ceramic materials, are usually used. These materials have good stability and corrosion resistance at high temperature.
2. Surface treatment: The surface of the displacement sensor can be subject to some special treatment, such as electroplating and coating, to enhance its high temperature and corrosion resistance. For example, for the displacement sensor that needs to be resistant to acid and alkali corrosion, special coating treatment can be carried out to form a protective layer against acid and alkali corrosion on its surface.
3. Design a reasonable sealing structure: the internal circuits and components of the displacement sensor should be protected from high temperature, corrosion and other factors. Therefore, the key is to design a reasonable sealing structure, which is usually achieved by using special sealant and sealing ring.
4. Precision manufacturing and testing: The manufacturing and testing of displacement sensors need to adopt precision processing technology and testing equipment to ensure the accuracy and reliability of the sensors. Especially in high temperature and corrosive environment, the manufacturing and testing of displacement sensors need to be improved to ensure their long-term stable operation.