Flush Diaphragm Pressure Measurement; Meets 3-A Sanitary Standards
Excellent Reverse polarity, instantaneous
Overcurrent and Overvoltage protection, Applied to High stability and sensitivity for high temperature, high viscosity and the medium are prone to clogging, or Food, Pharmaceuticals and Biotechnology
Clamp flush diaphragm meets 3-A Sanitary Standards
Stainless steel shell can be used in width Measured Medium
Output signals 4～20mA, 0～5VDC, 0~10VDC, 1-5VDC
Reverse polarity, instantaneous Overcurrent and Overvoltage protection
Applied to High stability and sensitivity for high temperature, high viscosity and the medium are prone to clogging, or Food, Pharmaceuticals and Biotechnology
Customized structure diversification is available.
Flush Diaphragm Pressure Transmitter XY-PTGP Brief Introduction
XUYAN XY-PTGP Stainless steel Pressure Transmitter, with stainless steel shell and laser-welded construction, is designed to suit 3-A sanitary standards; IP65 Ingress Protection, and Safety Explosion-proof, these performances makes it able to withstand harsh rugged application environments.in addition, this flush diaphragm pressure transducer also has the following advantages: high precision, fast response, small size, light weight, stable and reliable, strong overload capacity.
High stability and sensitivity for high temperature, high viscosity and the medium is prone to clogging, all this performance makes XY-PTGP flush diaphragm pressure transmitter/transducer can be used in food and beverage, pharmaceuticals and biotechnology, chemical glue, mobile working machine and tunneling application, such as air, oil, water and others fluid; Thoughtful specialized electric circuit design; ultra-high precision absolute pressure calibration equipment calibration; Accuracy class 0.25%; 0.5%. 4～20mA, 0～5VDC, 0~10DC standard electrical signal output with remote transmission alternative; Measurement Range: -100KPa~60 MPa., other measurement range is optional. Temperature Stability Index can be increased to 0.02%/FS/℃ by using sensor temperature self-compensation and specialized circuit debugging.