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In this paper a digital PID controller is designed for an H-bridge soft-switching boost converter. The digital PID controller is designed analytically using the discrete-time transfer function of the converter. Using this method, the PID controller gain range is obtained as a set of inequalities in two variables for a fixed third variable. By plotting the region enclosed by the inequalities the controller...
Digital PID compensator for the coupled inductor boost converter is proposed and designed in this paper. Mathematical models are formulated, using state-space averaging technique, and then discrete compensator is designed using digital redesign approach. Salient features of the coupled inductor topology are compared with the conventional boost topology. Compensator design is validated, through simulations,...
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