Usually, a transmitter will calibrate two temperature ranges, namely the normal operating temperature range and the temperature compensable range. The normal operating temperature range refers to the temperature range of the transmitter when it is not damaged during operation. If it exceeds the temperature compensation range, it may not meet its performance indicators for application. The temperature compensation range is a typical range that is smaller than the operating temperature range. Working within this range, the transmitter will definitely achieve its expected performance indicators. The temperature change affects its output from two aspects, one is zero drift; Secondly, it affects the full-scale output. For example:+/- X%/℃ of full scale,+/- X%/℃ of reading,+/- X% of full scale when outside the temperature range, and+/- X% of reading within the temperature compensation range. Without these parameters, it will lead to uncertainty in use. Is the change in transmitter output caused by pressure changes or temperature changes. The temperature effect is the most complex part of understanding how to use a transmitter.

Usually, a transmitter will calibrate two temperature ranges, namely the normal operating temperature range and the temperature compensable range. The normal operating temperature range refers to the temperature range of the transmitter when it is not damaged during operation. If it exceeds the temperature compensation range, it may not meet its performance indicators for application. The temperature compensation range is a typical range that is smaller than the operating temperature range. Working within this range, the transmitter will definitely achieve its expected performance indicators. The temperature change affects its output from two aspects, one is zero drift; Secondly, it affects the full-scale output. For example:+/- X%/℃ of full scale,+/- X%/℃ of reading,+/- X% of full scale when outside the temperature range, and+/- X% of reading within the temperature compensation range. Without these parameters, it will lead to uncertainty in use. Is the change in transmitter output caused by pressure changes or temperature changes. The temperature effect is the most complex part of understanding how to use a transmitter.