Pressure sensors, also known as pressure transducers or transmitters, measure the pressure of liquids and gases. They can convert pressure into electrical signals, which can be read and analysed. The commercial need for these instruments holds severe significance, including pressure monitoring and optimising their performance. Whether it’s automotive, medical, industrial, or consumer and building devices, these devices deliver accurate measurements. If used for a long time, the performance rate of pressure sensors may decline without proper preventative measurement. But don’t worry. There are quite a few precautions you can take, such as booking pressure calibration services in Singapore, regular maintenance, and more.
In this article, we’ll explore how you can boost the performance of pressure sensors and increase employee safety.
How to Boost Your Pressure Sensor’s Performance
The effectiveness of a pressure sensor hinges on its application environment. Consider these factors:- Pressure Type: Identify whether you need a vented or sealed pressure sensor based on your application. Vented sensors use atmospheric pressure as a reference, while sealed sensors measure pressure relative to a sealed reference point.
- Resolution: Pressure sensors are usually set to measure within a standard range. However, deviating from this range can affect the resolution. It’s essential to ensure the sensor’s resolution matches your required pressure range.
- Life Cycle: If your sensor needs to operate for a limited period in a specific environment, many options are available. For continuous, long-term use, options are more limited. Choose a sensor with a suitable life cycle for your needs. You should also consider booking pressure calibration services in Singapore to increase their longevity.
- Operating Temperature: Define the temperature range for optimal sensor performance. Electronic sensors, in particular, may struggle in extreme hot or cold conditions. Consistent output depends on appropriate operating temperatures.
- Measuring Range: The sensor’s upper and lower pressure limits are critical, especially for differential and gauge pressure measurements. Ensure the sensor operates within the necessary range to avoid malfunction.
- Pressure Measurement Method: Some sensors can use various pressure measurement methods, but it’s essential to select one method based on your application to ensure accurate readings. Make sure to regularly follow the right procedure for pressure gauge calibration to avoid any deviation from the result.
- Overpressure Rating: Check the sensor’s overpressure rating to avoid safety risks like bursts or leaks due to excess pressure. Ensuring the sensor can handle occasional pressure spikes is crucial.
- Chemical Resistance: If measuring pressure in chemically active liquids, chemical resistance is essential. Chemical interactions can degrade sensor performance, so select a sensor that can withstand the specific chemicals involved in your application.