基于简化电流小回路的升压DC-DC变换器快速抗扰方案

Aviti Thadei Mushi, T. Nozaki, A. Kawamura
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引用次数: 7

摘要

升压变换器包含一个右半平面(RHP)零点。这种RHP对控制器的带宽有严重的限制。此外,这种RHP使得设计快速干扰抑制方法变得困难,例如干扰观测器(DOB)。本文研究了基于DOB的升压变换器控制律的设计问题。这是通过设计一个双环反馈控制器来实现的。所设计的控制器称为电流小环(CML)控制。利用CML,可以使电感电流快速响应以跟踪参考电流。在此之后,CML可以重新表述,使电流回路被认为是统一的。进一步,对CML进行简化,使升压变换器成为最小相位(MP)系统。采用PSIM软件进行了仿真验证。最后,在负载电阻性负载的升压变换器上进行了实验验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Proposal for faster disturbance rejection of boost DC-DC converter based on simplified current minor loop
Boost converters contain a right half plane (RHP) zero. This RHP has severe limitations on the bandwidth of controllers. Further, this RHP makes it difficult to design fast disturbance rejection approaches, such as disturbance observers (DOB). This paper tackles the problem of designing a DOB based control law of the boost converter. This is done by designing a dual loop feedback controller. The designed controller is called current-minor-loop (CML) control. With CML, it is possible to make a fast response of inductor current to track reference current. Following that, the CML can be reformulated such that the current loop is considered unity. Further, the CML is simplified to make the boost converter minimum phase (MP) system. The formulated control approach is validated by simulations using PSIM software. Then, this method is verified by experiments on a boost converter loaded with resistive load.
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