Abstract
In this paper a digital voltage-mode controller design methodology is proposed for the fourth order split inductor converter load voltage regulation. The salient features of the split-inductor converter are compared with the conventional SEPIC converter and then discrete-time mathematical models are established. Digital single-loop voltage-mode controller is designed using direct digital design approach. A two-pole two-zero compensator is adopted in the design. Compensator design is validated through simulations and then experimental measurements. Load voltage regulation characteristics are obtained against line and load perturbations. A 25 watt 15 to 36 V prototype converter is built and experimental investigations are carried out. The measured results obtained from the prototype converter are in close agreement with those obtained in the analysis.
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