Abstract
This paper develops a quasi-behavioral model of a voltage fed inverter that includes the effects of inverter dead-time, parasitic capacitances, flyback diode conduction, and switching and conduction losses. Detailed cycle-by-cycle waveforms are generated using discrete state machines, negating the need to solve device-level or idealised circuit equations. The modular inverter model is constructed in the commercially available MatrixX simulation environment and is then incorporated into closed-loop current controller simulations. Experimental results verify the switching performance of the quasi-behavioral inverter model and indicate its effectiveness as part, of a closed-loop current controlled system. >
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