A basic inductive speed sensor, also known as an inductive proximity sensor or an inductive proximity switch, is a type of non-contact sensor used to detect the speed of rotating equipment. It operates on the principle of electromagnetic induction and is commonly used in industrial applications for speed sensing and position detection.
Here's how a basic inductive speed sensor detects the speed of rotating equipment:
Operating Principle: The sensor consists of an oscillator circuit that generates a high-frequency electromagnetic field around its sensing face. When the sensor is powered on, this electromagnetic field is continuously emitted.
Target Material: The rotating equipment needs to have a metal target (e.g., gear tooth, shaft, or blade) that is within close proximity to the sensor's sensing face. The target material must be ferrous (containing iron or iron alloys) for the inductive sensor to work effectively.
Eddy Currents: As the metal target moves closer to the sensing face of the inductive sensor, it disturbs the electromagnetic field. This disturbance creates eddy currents in the metal target.
Changes in Inductance: The presence of eddy currents in the metal target causes a change in the inductance of the inductive sensor's coil. The inductance is a measure of the opposition to changes in the electric current flowing through the coil.
Detection: The inductive sensor detects these changes in inductance. The sensor's internal electronics process the signal and provide an output that corresponds to the speed of the rotating equipment. The output can be a voltage signal, a current signal, or a digital signal, depending on the sensor's design and application.
Calibration: To determine the actual speed of the rotating equipment, the inductive speed sensor needs to be calibrated. Calibration involves relating the sensor's output to the actual rotational speed using known reference values.
It's essential to note that inductive speed sensors have limitations. They typically work best with metallic targets, are sensitive to the distance between the sensor and the target, and might experience interference from other electromagnetic sources. However, they are reliable and widely used in various industrial applications where non-contact speed sensing is required.