Zhongya Guo scite author profile

Zhongya Guo

5Publications

31Citation Statements Received

57Citation Statements Given

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Beijing Jiaotong University

Publications

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An Extended Stability Analysis Method for Paralleled DC-DC Converters System With Considering the Periodic Disturbance Based on Floquet Theory

Ren

Liu

et al. 2020

IEEE Access

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Paralleled DC-DC converters system normally is operated with current-sharing control to achieve equal current distribution among the converters connected in parallel. However, the added currentsharing control might make the paralleled DC-DC converters system suffer from potential degradation of stability and dynamic performances. Hence, the stability analysis of paralleled DC-DC converters system is a hot issue. In order to analyze the stability of paralleled DC-DC converters system accurately and effectively, an extended stability analysis method based on Floquet theory is proposed for paralleled DC-DC converters system in this paper with considering the periodic disturbance. And, a paralleled buck converters system with average current-mode control is taken as an analysis object. The extended stability criterion of paralleled buck converters system based on Floquet theory is derived. Finally, the simulation and experimental results verify the correctness and effectiveness of the proposed stability criterion with considering the periodic disturbance. This paper provides a new choice for the stability analysis of paralleled DC-DC converters system. INDEX TERMS Paralleled DC-DC converter, time domain model, Floquet theory, stability analysis.

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A stability analysis method based on Floquet theory for multi-stage DC-DC converters system

Guo

Ren

et al. 2017

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An extensible stability analysis method in time domain for cascaded DC-DC converters in electrical vehicles

Guo

Liu

et al. 2018

Microelectronics Reliability

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Stability-improvement method of cascaded DC-DC converters with additional voltage-error mutual feedback control

Guo

Liu

et al. 2019

Chin. J. Electr. Eng.

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The interaction between the source and load converters in cascaded DC-DC converters may cause instability. Thus, improving the stability of cascaded DC-DC converters is important. To solve the above-mentioned problem, a flowchart to improve the control method is established by calculating the eigenvalue sensitivity of a time-domain model of cascaded DC-DC converters.Further, an additional voltage-error mutual feedback control method is firstly proposed based on the flowchart provided in this study to improve the stability of cascaded DC-DC converters. Subsequently, the influence of the proposed mutual feedback control on the stability of cascaded DC-DC converters is analyzed. Finally, the effectiveness of the proposed control method is verified by simulation and experiment.

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A Time-Domain Stability Analysis Method for Grid-Connected Inverter With PR Control Based on Floquet Theory

Liu

Jiang

et al. 2021

IEEE Trans. Ind. Electron.

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Zhongya Guo

An Extended Stability Analysis Method for Paralleled DC-DC Converters System With Considering the Periodic Disturbance Based on Floquet Theory

A stability analysis method based on Floquet theory for multi-stage DC-DC converters system

An extensible stability analysis method in time domain for cascaded DC-DC converters in electrical vehicles

Stability-improvement method of cascaded DC-DC converters with additional voltage-error mutual feedback control

A Time-Domain Stability Analysis Method for Grid-Connected Inverter With PR Control Based on Floquet Theory

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