A Novel Observer Approach for Self Sensing of Single-Coil Digital Valves

What is it about?

Observer-based self sensing for digital (on–off) single-coil solenoid valves is investigated. Self sensing refers to the case where merely the driving signals used to energize the actuator (voltage and coil current) are available to obtain estimates of both the position and velocity. A novel observer approach for estimating the position and velocity from the driving signals is presented, where the dynamics of the mechanical subsystem can be neglected in the model. Both the effect of eddy currents and saturation effects are taken into account in the observer model. Practical experimental results are shown and the new method is compared with a full-order sliding mode observer.

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Why is it important?

Nonlinear reduced-order observer for position and velocity estimation of solenoid actuators where no model of the mechanical subsystem is required.