基于二阶拟合模型的SiC双向LLC数字同步整流控制

doi:10.19595/j.cnki.1000-6753.tces.220973

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摘要传统LLC同步整流控制采用高频信号检测的方法,易受高dv/dt影响导致占空比丢失,导通损耗增大;而直接给定占空比的方法,无法跟随负载变化,宽负载范围下导通损耗急剧上升。该文提出基于二阶拟合模型的SiC双向LLC数字同步整流控制,跟踪负载和开关频率的变化,实时计算同步整流导通时间。LLC一次侧和二次侧开关管开通时刻一致,同步整流管关断时刻由所计算的同步整流导通时间决定。在宽负载范围内实现了低导通损耗,无需检测高频信号,抗干扰性强。该文分析当谐振电感和输出等效电阻存在10% 误差时,同步整流导通时间误差最大仅为2.73%。搭建6.6kW SiC双向LLC充电机实验样机,实验验证了所提同步整流控制的有效性。相比于传统LLC同步整流控制,所提控制正向满载6.6kW下效率提高了0.36%,反向满载3.3kW下效率提高了0.29%。

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	李浩然
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关键词 ： LLC变换器, 同步整流, 双向, SiC MOSFET, 拟合模型

Abstract：Conventional LLC synchronous rectifier (SR) typically senses high-frequency signals, easily affected by high dv/dt resulting in duty cycle loss and high conduction loss. The SR method with a given duty cycle cannot track load variations and causes high conduction loss in a wide load range. A two-order fitting model-based digital synchronous rectifier control is proposed for the bidirectional SiC LLC converter, which tracks load variations and switching frequency to calculate the SR on-time online. The turn-on instants between the primary and secondary switching devices are identical, while the calculated SR on-time determines the SR turn-off instants. The proposed control achieves low conduction loss and has high immunity to high switching noise without sensing high-frequency signals. When the resonant inductor and output load have 10% tolerances, the maximum tolerance for the SR on-time is only 2.73%. A prototype of a 6.6kW SiC bidirectional LLC charger was built. Compared with the conventional LLC SR control, the efficiency improvement is up to 0.36% at 6.6kW in the forward mode, and 0.29% at 3.3kW in the reverse mode.

Key words： LLC converter synchronous rectifier bidirectional SiC MOSFET fitting model

收稿日期: 2022-05-31

PACS:

TM461

基金资助:安徽省自然科学基金杰青项目（2108085J24）、安徽省自然科学基金青年项目（2108085QE239）和安徽省高校自然科学研究项目（KJ2021A0007）资助

通讯作者: 胡存刚男,1978年生,教授,博士生导师,研究方向为多电平变换器、光伏发电和微电网。E-mail: hcg@ahu.edu.cn

作者简介: 李浩然男,1991年生,博士,讲师,研究方向为双向DC/DC变换技术、高频功率变换技术。E-mail: haoranli@ahu.edu.cn

引用本文:

李浩然, 崔超辉, 王生东, 张之梁, 胡存刚. 基于二阶拟合模型的SiC双向LLC数字同步整流控制[J]. 电工技术学报, 2022, 37(24): 6191-6203. Li Haoran, Cui Chaohui, Wang Shengdong, Zhang Zhiliang, Hu Cungang. Two-Order Fitting Model-Based Digital Synchronous Rectifier Control for SiC Bidirectional LLC Converter. Transactions of China Electrotechnical Society, 2022, 37(24): 6191-6203.

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