Internal Model Control to an Isolated Dual Active Bridge DC-DC Converter

2020 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES) Pub Date : 2020-12-16 DOI:10.1109/PEDES49360.2020.9379892

S. Kumar Reddy, Tarakanath Kobaku, R. Jeyasenthil, V. Agarwal

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Abstract

This work presents an internal model control (IMC) scheme with one degree of freedom applied to regulate the output voltage of isolated dual active bridge DC-DC converter with voltage mode control. Internal model control structure is a model-based control predictive control structure and provides easy tuning to achieve the disturbance rejection and set-point tracking. IMC is designed using the linear model derived using generalized average modelling method around an operating condition. Simulation results are shown for a 100W, 20 kHz converter system to validate the IMC control, with different types of disturbances applied to the power converter to check its performance. Finally, the servo response and regulatory response of IMC are compared with the conventional feedback control approaches, K-factor approach-based controller and Proportional Integral (PI) controller in MATLAB/SIMULINK based simulations. The simulation results obtained reveal the strength and the efficacy of IMC by showing the better dynamic performance.

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隔离双有源桥式DC-DC变换器的内模控制

本文提出了一种单自由度内模控制(IMC)方案，用于电压模式控制的隔离双有源桥式DC-DC变换器的输出电压调节。内模控制结构是一种基于模型的控制预测控制结构，它提供了易于调整的方法来实现抗扰和设定点跟踪。围绕某一工况，采用广义平均建模方法推导出线性模型，设计了内模控制系统。通过100W, 20khz变换器系统的仿真结果验证了IMC控制，并对功率变换器施加了不同类型的干扰来检查其性能。最后，通过MATLAB/SIMULINK仿真，将IMC的伺服响应和调节响应与传统反馈控制方法、基于k因子方法的控制器和比例积分(PI)控制器进行了比较。仿真结果表明，IMC具有较好的动态性能，从而体现了IMC的强度和有效性。

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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来源期刊

2020 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES)

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