Abstract
Power electronic circuits which contain nonlinear inductances are described by a set of nonlinear state equations. A sampled-data model is presented for the circuit from which a set of linear state equations can be formulated. In the sampled-data model, the nonlinear inductor is modeled by an ideal sampler, a variable gain, and a clamp. The state variables for the circuit are updated during simulation using a three-step procedure. One step involves the solution of the linear state equations using a technique such as the state transition matrix approach. Two additional steps are employed to account for the effects of the ideal sampler, clamp, and variable gain. >
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