Coupled-Inductors Boost Converter With Quasi-Square-Wave Zero-Voltage-Switching

IF 5 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE open journal of power electronics Pub Date : 2025-04-16 DOI:10.1109/OJPEL.2025.3561671

Mahmoud Nassary;Enric Vidal-Idiarte;Ignacio Galiano Zurbriggen;Oswaldo Lopez-Santos;Javier Calvente

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Abstract

In this article, the Quasi-Square-Wave (QSW) mode with Zero-Voltage Switching (ZVS) in the Coupled Inductors Boost (CIB) converter is thoroughly analyzed to provide design guidelines and compare the obtained performance with the QSW-ZVS boost converter. The studied mode is used to enforce output voltage regulation employing a nested loop architecture with an inner current loop and an outer voltage loop providing the reference for the inner loop. The current controller is an innovative hysteresis control in which the upper limit compares the secondary inductor current with the reference provided by the outer loop and the lower limit compares the primary inductor current with a constant value defined to ensure ZVS. This configuration allows the elimination of the right-half-plane zeros inherently widening the bandwidth of the frequency response. As it is demonstrated, the CIB exhibits two times faster dynamic response in front of load perturbations at the cost of a small reduction of the efficiency at high power loads and the inclusion of two additional components. Theoretical predictions and feasibility of the QSW-ZVS CIB are confirmed by means of simulated and experimental results.

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具有准方波零电压开关的耦合电感升压变换器

本文对耦合电感升压（CIB）变换器中具有零电压开关（ZVS）的准方波（QSW）模式进行了深入分析，为设计提供指导，并将其性能与QSW-ZVS升压变换器进行了比较。所研究的模式采用嵌套环路结构，其中一个内电流环和一个外电压环为内环提供参考，用于强制输出电压调节。电流控制器是一种创新的迟滞控制，其上限将次级电感电流与外环提供的参考电流进行比较，下限将初级电感电流与定义的恒定值进行比较，以确保ZVS。这种配置允许消除右半平面的零，固有地扩大频响的带宽。正如所证明的那样，CIB在负载扰动前表现出两倍快的动态响应，其代价是在高功率负载下的效率略有降低，并且包含两个额外的组件。仿真和实验结果验证了QSW-ZVS CIB的理论预测和可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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