Zero-Voltage Switching and Natural Voltage Balancing of a 3 kW 1 MHz Input-Series-Output-Parallel GaN LLC Converter

IF 5 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Qingxuan Ma;Qingyun Huang;Alex Q. Huang
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引用次数: 0

Abstract

Input-Series-Output-Parallel (ISOP) LLC converters have the capability to leverage lower voltage semiconductor devices, thereby enabling applications with higher voltage requirements. The primary advantages lie in enhanced efficiency and power density attributed to improved device performance. Given the utilization of multiple modular LLC converters, the potential impact of component parameter mismatch becomes a significant concern. Specifically, issues related to input voltage sharing (IVS) and device zero voltage switching (ZVS) are critical considerations. This paper develops a precise mathematical model during deadtime to determine ZVS boundaries, taking into account parameter mismatches. Within the developed boundaries, all LLC sub-modules are assured of ZVS operation. To assess IVS performance, a mathematical model is formulated using the first harmonic approximation (FHA) equivalent circuit. To validate the proposed modeling and analysis, a 3 kW 1 MHz GaN-based ISOP LLC is constructed, comprising four modular 750W-LLC units. Experimental results showcase successful ZVS operations and natural voltage balancing of the ISOP LLC converter across a broad range of parameter mismatches.
3 千瓦 1MHz 输入-串联-输出-并联 GaN LLC 转换器的零压开关和自然电压平衡
输入-串联-输出-并联(ISOP)LLC 转换器能够利用较低电压的半导体器件,从而实现更高电压要求的应用。其主要优势在于通过改善器件性能来提高效率和功率密度。考虑到多个模块化 LLC 转换器的使用,元件参数失配的潜在影响成为一个重要问题。具体来说,与输入电压共享(IVS)和器件零电压开关(ZVS)相关的问题是需要考虑的关键因素。本文在死区时间内建立了一个精确的数学模型,在考虑参数失配的情况下确定 ZVS 边界。在制定的边界内,所有 LLC 子模块都能确保 ZVS 运行。为了评估 IVS 性能,本文使用一次谐波近似(FHA)等效电路建立了一个数学模型。为了验证所提出的建模和分析,构建了一个基于 GaN 的 3 kW 1 MHz ISOP LLC,由四个模块化 750W-LLC 单元组成。实验结果表明,ISOP LLC 转换器在广泛的参数失配范围内成功实现了 ZVS 操作和自然电压平衡。
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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来源期刊
CiteScore
8.60
自引率
0.00%
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0
审稿时长
8 weeks
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