内置充电电路的高效双输入变换器设计

R. Wai, Lian-Sheng Hong
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引用次数: 1

摘要

本研究开发了一种具有内部充电电路的高效率双输入变换器。所提出的基于耦合电感的变换器可以将两个不同低压电平的输入电源升压到一个可控的高压直流母线上。高压直流母线既可以作为高压直流负载的主电源,也可以作为直流-交流逆变器的前端。所提出的双输入变换器内部的充电电路可以将主电源的冗余能量提供给辅助电源(如电池模块),从而节省制造成本。该变换器采用了电压箝位和软开关技术,并充分执行了相应的器件规格。从而实现具有高电压增益的高效率双输入功率转换的目标。通过1.5 kw级样机的实验结果,验证了所提出的双输入变换器在实际应用中的有效性。
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Design of high-efficiency dual-input converter with internal charge circuit
This study develops a high-efficiency dual-input converter with an internal charge circuit. The proposed coupled-inductor-based converter can boost the voltages of two input power sources with different low-voltage levels to a controllable high-voltage dc bus. The high voltage dc bus can be taken as the main power for a high-voltage dc load or the front terminal of a dc-ac inverter. The charge circuit inside the proposed dual-input converter can provide the redundant energy from the major source for the auxiliary power source (e.g., battery module) to save the manufacturing cost. The techniques of voltage clamping and soft switching are employed in this converter, and the corresponding device specifications are adequately performed. Thus, the goal of high-efficiency dual-input power conversion with high voltage gain can be achieved. Some experimental results via a 1.5 kW-level prototype are given to verify the effectiveness of the proposed dual-input converter in practical applications.
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