The Application of Pressure Sensors in Laboratory Pressure Measurement

In a laboratory setting, precise pressure measurement is crucial for numerous experimental projects. Pressure sensors, with their outstanding performance, can provide reliable and efficient solutions for laboratory pressure measurement.-Laboratory pressure sensor

High-precision measurement ensures the accuracy of experimental data

The source pressure sensor adopts a high-precision silicon piezoresistive core, which has the characteristics of high accuracy and high resolution, ensuring the precise capture of minute pressure changes in the laboratory. Whether it is real-time monitoring of pressure during chemical reactions or precise measurement of pressure variables in physical experiments, this sensor can provide accurate and reliable data, laying a solid foundation for the scientific and effective nature of experimental results. For example, in experiments studying the pressure changes of gases at different temperatures, the PST pressure sensor can accurately measure the subtle changes in pressure for each degree increase in temperature, helping experimental personnel accurately draw the pressure-temperature curve and thus gain a deeper understanding of the physical properties of gases.

Anti-electromagnetic interference ensures measurement stability

In laboratories, there are often various electronic devices that may generate electromagnetic interference, affecting the accuracy of pressure measurement. The Yuanben PST pressure sensor is equipped with an anti-electromagnetic interference system, which can operate stably in complex electromagnetic environments and effectively avoid measurement errors or data fluctuations caused by electromagnetic interference. This enables the sensor to perform pressure measurements normally on experimental tables close to other electronic instruments, ensuring the continuity and stability of experimental data.

The durable housing is suitable for complex laboratory environments. Its housing is made of stainless steel, featuring durability, high-temperature resistance, and low temperature drift. In laboratories, various complex environmental conditions may be encountered, such as chemical reaction experiments under high-temperature conditions and long-term experimental processes. The stainless steel housing of the PST pressure sensor can withstand certain high temperatures while maintaining a small temperature drift, ensuring accurate pressure measurement in different temperature environments. Moreover, the stainless steel housing also has good corrosion resistance, which can resist the erosion of common chemical reagents in laboratories on the sensor, extend the service life of the sensor, and reduce the replacement cost of laboratory equipment.

Convenient installation and electrical connection enhance experimental efficiency

The pressure sensor housing connection ports are M10×1 and M14×1.5. This standardized interface design makes the installation and removal of the sensor in the laboratory extremely convenient. Laboratory personnel can quickly install the sensor onto the experimental device or remove it for maintenance or replacement according to different experimental requirements. In addition, its multi-wire or multi-core plug electrical connection method also provides convenience for electrical connections in the laboratory, enabling rapid and stable connection with various experimental equipment and data acquisition systems, reducing experimental preparation time and improving experimental efficiency. For example, when setting up a complex experimental system involving multiple pressure measurement points, the convenient installation and electrical connection features of the PST pressure sensor allow laboratory personnel to quickly complete the setup and debugging of the entire system and start the experiment in a timely manner.

Moisture-proof treatment ensures long-term stability

In the laboratory, humidity may affect the performance of pressure sensors, especially in some humid experimental environments. Coating the pressure sensors with high-density silicone gel before assembly is a moisture-proof treatment measure that can effectively enhance the moisture resistance of the sensors, preventing internal components from being damaged or experiencing performance degradation due to damp conditions. This ensures that the sensors can maintain stable performance during long-term laboratory use, reducing the frequency of maintenance and replacement caused by environmental factors and ensuring the continuous and stable operation of pressure measurement in the laboratory.

Our company's PST pressure sensors come in multiple specifications, covering a pressure range from 50Pa to 6.0MPa, which can meet the measurement requirements of various pressure ranges in the laboratory. Whether it is the measurement of gas pressure in low-pressure environments, such as monitoring the minute pressure changes in a cell culture box in biological experiments, or the measurement of high-pressure gas pressure in material mechanics experiments under high-pressure conditions, PST pressure sensors can provide suitable products for precise measurement, offering comprehensive solutions for the diverse experimental needs of laboratories.