Unified Discrete-time Modeling and Digital Control of Bidirectional Chopper Converter

2021 11th International Conference on Power, Energy and Electrical Engineering (CPEEE) Pub Date : 2021-02-26 DOI:10.1109/CPEEE51686.2021.9383412

Yaoqin Jia, Biao Jia, Yijie Hou, Junjie Xiao, W. Zhao, Po Huang, Anle Xia

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引用次数: 1

Abstract

Bidirectional DC/DC converter is widely used in battery charge/discharge systems. The traditional state space average analysis method is not accurate enough when digital control is adopted. The separate analysis of the circuit from charge and discharge modes and design two sets of controllers will evidently reduce reliability and increase complexity of the system. Based on the discrete time modelling method, this paper establishes a unified discrete time model for current reversible chopper circuit. Then based on bilinear transformation method, design digital PI controller that can be directly applied according to the frequency domain index. By utilizing a unified current controller, accurate, fast and stable constant current charging/discharging control and switch can be realized. Voltage controller is used to realize constant voltage charging control. Finally, the validity and accuracy of the unified discrete-time model, unified current control strategy and digital controller design method proposed in this paper are further verified by simulation and experiments.

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双向斩波变换器的统一离散建模与数字控制

双向DC/DC变换器广泛应用于电池充放电系统中。当采用数字控制时，传统的状态空间平均分析方法不够精确。将电路与充放电模式分开分析，设计两套控制器，会明显降低系统的可靠性，增加系统的复杂性。基于离散时间建模方法，建立了电流可逆斩波电路的统一离散时间模型。然后基于双线性变换方法，设计了可根据频域指标直接应用的数字PI控制器。采用统一的电流控制器，实现准确、快速、稳定的恒流充放电控制和开关。采用电压控制器实现恒压充电控制。最后，通过仿真和实验进一步验证了本文提出的统一离散时间模型、统一电流控制策略和数字控制器设计方法的有效性和准确性。

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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2021 11th International Conference on Power, Energy and Electrical Engineering (CPEEE)

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