Modeling and Analysis of Coexisting Slow- and Fast-Scale Instabilities in Current-Mode PI-Controlled H-Bridge Inverter

机译：在电流模式PI控制H桥逆变器中共存缓慢和快速稳定性的建模与分析

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The characteristic of current-mode H-bridge inverter under PI-control is much more complex than under P-control. When system parameters are not properly designed, the system not only has the potential of slow-scale instability (Hopf), but also has the possibility of fast-scale instability (Period-doubling). In previous works on discrete-time modeling and analysis, P-controller is always taken as object of study for simplicity, which is different from practical applications where PI-controller is often adopted. In this paper, a simplified discrete-time model of current-mode H-bridge inverter under PI-control is derived. Based on analysis of the proposed model, coexisting slow- and fast-scale instability phenomenon and mechanism have been revealed. Moreover, high accuracy stability boundary has been derived and verified by experiment.

机译：PI控制下电流模式H桥式逆变器的特性比P控制更复杂得多。当系统参数未正确设计时，系统不仅具有慢尺度不稳定（HOPF）的可能性，而且还具有快速稳定的可能性（周期加倍）。在以前的方法上是在离散时间建模和分析的过程中，P-Controller始终被视为简单性的研究对象，这与经常采用PI-Controller的实际应用不同。本文推导了PI控制下电流模式H桥逆变器的简化离散时间模型。基于对所提出的模型的分析，已经揭示了共存缓慢和快速的不稳定现象和机制。此外，通过实验导出和验证了高精度稳定性边界。

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《Annual IEEE Applied Power Electronics Conference and Exposition》|2018年|2861-3597p|共4页
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Xuanlyu Wu; Weilin Li; Ruihong Zhang; Xiaohua Wu; Xiaobin Zhang; Bei Wang; Guochun Xiao; Shuai Zhang;
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中图分类 TM1-53;
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Discrete-time model; Bifurcation; Digital control; State-space average;

机译：离散时间模型;分叉;数字控制;状态空间平均值;

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1. Coexisting Fast-Scale and Slow-Scale Instability in Current-Mode Controlled DC/DC Converters: Analysis, Simulation and Experimental Results [J] . Chen Y., Tse C. K., Qiu S.-S., IEEE transactions on circuits and systems . I , Regular papers . 2008,第10期

机译：电流模式控制的DC / DC转换器中同时存在的快速和慢速不稳定性：分析，仿真和实验结果
2. Slow-Scale and Fast-Scale Instabilities in Parallel-Connected Single-Phase H-Bridge Inverters: A Design-Oriented Study [J] . International journal of bifurcation and chaos in applied sciences and engineering . 2020,第1期

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3. Fast-Scale Bifurcation Analysis in One-Cycle Controlled H-Bridge Inverter [J] . Yang Fang, Yang Lihui, Ma Xikui International journal of bifurcation and chaos in applied sciences and engineering . 2016,第12期

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4. Modeling and Analysis of Coexisting Slow- and Fast-Scale Instabilities in Current-Mode PI-Controlled H-Bridge Inverter [C] . Xuanlyu Wu, Weilin Li, Ruihong Zhang, Annual IEEE Applied Power Electronics Conference and Exposition . 2018

机译：在电流模式PI控制H桥逆变器中共存缓慢和快速稳定性的建模与分析
5. Reduced-Order Modeling and Analysis of Droop-Controlled, Inverter-Based Distributed Generation Networks [D] . Hart, Philip J. 2017

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6. Inverted Low-Copy Repeats and Genome Instability—A Genome-Wide Analysis [O] . Piotr Dittwald, Tomasz Gambin, Claudia Gonzaga-Jauregui, -1

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7. Coexisting fast-scale and slow-scale instability in current-mode controlled DC/DC converters : analysis, simulation and experimental results [O] . Chen, Y, Tse, CKM, Qiu, S, 2008

机译：电流模式控制的DC / DC转换器中同时存在的快速和慢速不稳定性：分析，仿真和实验结果

Modeling and Analysis of Coexisting Slow- and Fast-Scale Instabilities in Current-Mode PI-Controlled H-Bridge Inverter

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