利用载波信号的周期调制驱动pwm控制系统达到单稳定状态

2022 IEEE 4th International Conference on Modern Electrical and Energy System (MEES) Pub Date : 2022-10-20 DOI:10.1109/MEES58014.2022.10005723

Vitalii Atamaniuk, Oleksiy Kuznyetsov, H. Lunkova

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引用次数: 0

摘要

在几种情况下，PWM驱动的功率级的正常(“标称”)工作模式只能是同一组参数下共存的多个稳定模式之一;这种现象被称为多稳定性。“非标称”模式通常具有较低的效率和较高的波纹，并且是不希望的。这就引导我们去寻找控制这些非线性现象的策略。我们的建议是基于利用载波信号的周期调制将系统转移到单稳态行为。利用分岔图研究了所提控制的适用性和调制强度的适宜范围。此外，如果控制应该在控制目标实现后返回到不受控制的状态，我们证明了实现应该包括调制强度的平滑衰减，以确保控制被禁用后的“标称”操作。

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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Driving the PWM-Controlled System to Monostable Behavior by Periodic Modulation of a Carrier Signal

The normal (“nominal)” mode of operation of a PWM -driven power stage under several circumstances can be only one of multiple coexisting stable modes for the same set of parameters; that phenomenon is referred to as multistability. The “non-nominal” modes are most often characterized by lower efficiency and higher ripples and are undesired. That leads us to the search of the strategies to control those nonlinear phenomena. Our proposal is based on transferring the system to a monostable behavior utilizing a periodic modulation of a carrier signal. The applicability of the proposed control and the suitable ranges of the modulation strength are studied using the bifurcation diagram. In addition, if the control should provide a return to an uncontrolled state after the control goal is achieved, we demonstrate that an implementation should include smooth attenuation of the modulation strength to ensure the “nominal” operation after the control is disabled.

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2022 IEEE 4th International Conference on Modern Electrical and Energy System (MEES)

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