Inductive sensors from Micro-Epsilon are based on the eddy current principle and designed for non-contact measurement of displacement, distance, position, oscillation and vibrations. They are particularly suitable when high precision is required in harsh industrial environments (pressure, dirt, temperature). Inductive sensors from Micro-Epsilon offer extremely precise measurements where sub-micron accuracy is required.
Non-contact measurement of displacement, distance and position on ferromagnetic and non-ferromagnetic materials
For demanding, industrial environments: dirt, pressure, temperature
High resolution and temperature stability
High frequency response for fast measurements
Customer-specific sensors and controllers
Robust and industrial-grade sensor designs
Versatile application possibilities due to comprehensive product range
Unmatched precision - even for dynamic measurements
Inductive sensors (eddy current) from Micro-Epsilon are often used in applications where harsh ambient conditions are present and where maximum precision is required. Immunity to dirt, pressure and extreme temperature are distinctive features. The sensors even operate in high speed processes, detecting oscillations and vibrations using a maximum frequency response of 100 kHz (-3dB).
World's greatest range of sensors - ideal for harsh industrial environments
Inductive sensors do not recognize non-conductive materials. For this reason, dust, dirt and oil do not affect the measurement. This fact, combined with the sensor’s robust, temperature-compensated design, enable measurements in harsh, industrial environments.