Hydrostatic Float Level Sensor, Liquid Level Pressure 0~2m. Made of stainless steel.
The product is shipped within 24 hours.
We complete the order within 24 hours.
The product is covered by a one-year warranty.
You can return the product within 14 days.
Power supply: | 24 VDC |
Output: | 0-10 V |
Range: | 0 ~ 2m |
Accuracy of measurement: | +/- 0,5% |
Sensor wire: | Rubber |
Material of execution: | Stainless Steel |
Mounting: | Brak |
Measurement: | Water |
Degree of Protection: | IP 68 |
Wire lengh: | 3 m |
Working Conditions: | -10 ~ 85 °C |
This water pressure sensor is a submersible pressure sensor. The pressure of the water on the sensor is converted into a voltage signal (0 ~ 10 V). The hydrostatic pressure is directly proportional to the immersion. The sensor is designed for use in water. The pressure level sensor is usually mounted in a vertical position (e.g. in a well), hanging on a cable. If the sensor may be exposed to movement during measurement, the position of the sensor must be secured to prevent errors. This can be done with a tube or a weight placed on the probe.
Dedicated meters for sensors are: meter/regulator MG14 with four alarm relays and a large display and panel meter/regulator SD8V with two alarm outputs from Termipol. Thanks to the connection of the measuring result display devices and the sensor, it is possible to continuously control the level using one sensor. The sensor can be used in water, e.g. in a well.
Example of application with pressure sensor and meter MG14.
Step 1
Set the input signal type Sn = 12 (0~10 V) → see instruction point 3.
Step 2
Set the minimum display value for the minimum input signal value PUL (we will set the display value for 0 V e.g. 0).
Set the maximum display value for the maximum input signal value PUH (we will set the display value for 10 V e.g. 200).
Reading and monitoring the water level in the tank using the MG14 Panel Meter and the PS-05-010 hydrostatic sensor.
Example of application with a pressure sensor and an SD8V meter.
Step 1
Setting the type of input signal 1nP = 0_10 (0~10 V) → see instruction point 1.
Step 2
Setting the minimum display value for the minimum input signal value FL = 0 (we will set the display value for 0 V e.g. 0).
Setting the maximum display value for the maximum input signal value FH = 3000 (we will set the display value for 10 V e.g. 3000).