Float Level Sensor Principle

The principle behind magnetic mechanical cable and other float level sensors often involves the opening or closing of a mechanical switch either through direct contact with the switch or magnetic operation of a reed.

Float level sensor principle.

Float level sensor operating principle the fpi sensors float level sensor operates with an internal magnetic reed switch and an external magnetic field mounted in the float. The position of a floating ball with a magnet floating ball for short in the measured medium is affected by buoyancy. The sensor probes actually act as their own sensors and do not pass electricity through the probes which keeps them from fouling degrading and deteriorating. Water level control s new float switches work by using probes instead of floats to detect or sense.

Float level sensor is designed and produced based on the principle of buoyancy and static magnetic field. Also all of the electronics are built into the head so you can. In other instances such as magnetostrictive sensors continuous monitoring is possible using a float principle. For example water level controls is a float switch manufacturer that is revolutionizing the way float switches are used for water level sensing.

All float operated liquid level controls operate on the basic buoyancy principle which states the buoyancy force action on an object is equal to the mass of liquid displaced by the object as a result floats ride on the liquid surface partially submerged and move the same distance the liquid. Float operated level switches. Water level control s float switches work by using probes instead of float switches. Inside the stem there is an individual hermetically sealed electrically insulated magnetically activated dry contact reed switch.