DESIGN AND SIMULATION OF A BUCK CONVERTER WITH A DC TO DC PROCESS

Authors: B.PRASHANTHI, D.VENKATACHAKRI, S.RAJESWAR REDDY, K.MOUNIKA, B.NADIYA

Country: India

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Abstract: As an improved PQ-primarily based charger for electric powered cars, a BUCK converter with fewer switching factors in keeping with switching cycle is proposed. By the usage of a voltage remarks electricity supply, the proposed PFC BUC converter achieves the first-rate PFC overall performance in DCM mode. As a result, the plate size is reduced. The proposed topology eliminates the unnecessary capacitive coupling loop and useless transport through the internal passive diode bypass formerly hooked up within the BL BUC converter. This significantly improves the charging performance. Improved PQ-primarily based EV batteries, which use a sinusoidal enter voltage with a excessive electricity issue and feature a compelled voltage at a constant price, have been broadly studied inside the literature to cope with these troubles. In the literature on EV batteries, numerous PFC enter converter topologies had been discussed, relying on whether or not they're external or integrated. Various batteries were introduced for electric powered motors, all of which gain from high energy density and efficiency.

Keywords: Battery chargers; Software packages; resonant converters; DC-DC power converters; Mathematical models.

Paper Id: 232362

Published On: 2025-04-10

Published In: Volume 13, Issue 2, March-April 2025

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