Performance Analysis and Comparison of Non-Inverting Buck-Boost Converter Using PI, OCC, and Hybrid OCC-PI Control

Journal of Electrical Technology UMY Pub Date : 2022-11-10 DOI:10.18196/jet.v6i2.15756

A. Karaarslan, Ali Shaibu

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Abstract

The study compares and analyses the performance of the one-cycle control (OCC), hybrid one-cycle-proportional integral control (OCC-PI), and the conventional PI control method applied to the non-inverting buck-boost converter. The hybrid OCC-PI control method combines the OCC and PI control techniques to provide a hybrid non-linear closed-loop control technique for regulating the buck-boost converter. The MATLAB/Simulink equivalent system model was simulated with design parameter variations using a wide input voltage range of 9 – 36 V, a nominal output voltage of 28 V, and a fixed switching frequency of 250 kHz to validate the control response speed, reliability, and robustness of the proposed control technique. The simulation results due to input voltage, output voltage, and load variations were carried out whiles recording the settling time, overshoots, efficiency, output voltage, and inductor current ripples due to each applied control technique. The simulation results indicated that the Hybrid OCC-PI control provides better response speed and a lower output voltage overshoot relative to the PI. It also provides better reference voltage tracking compared to the OCC control method.

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采用PI、OCC和OCC-PI混合控制的非反相Buck-Boost变换器的性能分析与比较

对应用于非逆变升压变换器的单周期控制(OCC)、混合单周期比例积分控制(OCC-PI)和传统PI控制方法的性能进行了比较和分析。混合OCC-PI控制方法将OCC和PI控制技术相结合，为buck-boost变换器的调节提供了一种混合非线性闭环控制技术。在9 ~ 36 V宽输入电压范围、28 V标称输出电压和250 kHz的固定开关频率下，对MATLAB/Simulink等效系统模型进行了仿真，以验证所提出的控制技术的控制响应速度、可靠性和鲁棒性。对输入电压、输出电压和负载变化的仿真结果进行了分析，同时记录了每种控制技术的稳定时间、超调量、效率、输出电压和电感电流纹波。仿真结果表明，OCC-PI混合控制相对于PI具有更好的响应速度和更低的输出电压超调。与OCC控制方法相比，它还提供了更好的参考电压跟踪。

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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Journal of Electrical Technology UMY

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