The inductive proximity switch is based on the principle of an attenuated LC-oscillator. The oscillator circuit coil generates a high frequency magnetic field. This scattering field radiates from the proximity switch sensing face. If this field is penetrated by Ferrous or Non-Ferrous metals (pick-up range), energy is reduced and the oscillator will consequently be attenuated. The result of changing current consumption is evaluated
By integrating an Inertial Measurement Unit (IMU), customers know in real-time the vehicle’s position withi respect to inclination. The machine’s ECU (Equipment Control Unit) processes this information and provides feedback to the operator where the machine is sitting with respect to inclination.
Position switches for individual solutions for extreme environmental conditions. The compact design, different actuators and variety of the connection options allow positioning in to many difficult locations.
Serves demands from various industries including telecommunications, medical equipment, computer peripherals and networking equipment, instrumentation and hand-held electronic devices. Also custom configurations are available.
Plunger switches are designed and constructed to meet high vibration requirements. The robust design features IP67 and IP69K environmental sealing and high reliability shaft. Plunger derivatives permit vertical or angular attack. Various housing designs satisfy differing mounting conditions. Electrical interface is made by bayonet DIN 72585 / ISO 15710 connector or circular pins.