KTPT

The KTPT submersible level transmitter operates on the principle that the hydrostatic pressure of the measured liquid is directly proportional to the liquid's height. It utilizes the piezoresistive effect of diffused silicon to convert this hydrostatic pressure into an electrical signal, which then undergoes temperature compensation and linear correction before being transformed into a standard 4–20 mA DC current signal output. The sensor unit of the submersible level transmitter can be directly immersed in the liquid, while the transmitter housing can be securely mounted using either a flange or a bracket, making installation and operation exceptionally convenient.

KTPT-C

The KTPT submersible level transmitter operates on the principle that the hydrostatic pressure of the measured liquid is directly proportional to the liquid's height. It utilizes the piezoresistive effect of diffused silicon to convert this hydrostatic pressure into an electrical signal, which then undergoes temperature compensation and linear correction before being transformed into a standard 4–20 mA DC current signal output. The sensor unit of the submersible level transmitter can be directly immersed in the liquid, while the transmitter housing can be securely mounted using either a flange or a bracket, making installation and operation exceptionally convenient.

KTPT-W

The KTPT submersible level transmitter operates on the principle that the hydrostatic pressure of the measured liquid is directly proportional to the liquid's height. It utilizes the piezoresistive effect of diffused silicon to convert this hydrostatic pressure into an electrical signal, which then undergoes temperature compensation and linear correction before being converted into a standard 4–20 mA DC current signal for output. The sensor unit of the submersible level transmitter can be directly immersed in the liquid, while the transmitter housing can be securely mounted using either a flange or a bracket, making installation and operation exceptionally convenient.