A novel modulation for four-switch Buck-boost converter to eliminate the right half plane zero point

Xiaoyan Yuan, Kun Wang, Zhengtao Yang, Huafeng Cao
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Abstract

The four-switch Buck-Boost (FSBB) converter are widely used in combination with other isolated converter to extend the voltage range capability of the overall structure. When the converter operates in buck-boost mode and boost mode, it exhibits a right half plane zero (RHPZ) in the control to output transfer function. This characteristic would cause negative impact to stability of the converter. In order to eliminate the RHPZ, a novel modulation method is proposed in this paper. The buck mode is introduced to the modulation to adjust the voltage gain, and the corresponding average state space modeling for the FSBB with the proposed modulation is established. The simulation of the converter with the proposed modulation method and traditional modulation are presented. Finally, experiment results by hardware in the loop (HIL) platform is employed to verity the correctness of theoretical analysis results.

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消除右半平面零点的四开关降压-升压转换器新调制方法
四开关降压-升压(FSBB)转换器与其他隔离转换器结合使用,可扩展整体结构的电压范围。当转换器工作在降压-升压模式和升压模式时,其控制到输出的传递函数会出现右半平面零点(RHPZ)。这一特性会对转换器的稳定性产生负面影响。为了消除 RHPZ,本文提出了一种新型调制方法。调制方法中引入了降压模式来调节电压增益,并为采用所提调制方法的 FSBB 建立了相应的平均状态空间模型。本文介绍了采用所提调制方法和传统调制方法的转换器的仿真情况。最后,利用硬件在环(HIL)平台的实验结果验证了理论分析结果的正确性。
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Issue Information Efficient parameter estimation for second order plus dead time systems in process plant control Optimal installation of DG in radial distribution network using arithmetic optimization algorithm To cascade feedback loops, or not? A novel modulation for four-switch Buck-boost converter to eliminate the right half plane zero point
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