独立逆变器接口清洁可再生能源的分步全阶滑模控制器设计

Mostafa Barzegar-Kalashani , Md Apel Mahmud , Behrouz Tousi , Mohammad Farhadi-Kangarlu
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引用次数: 1

摘要

电力电子逆变器是清洁能源系统集成的最重要组件之一,对这些电力电子接口的适当控制有助于提高电能质量。本文提出了一种适用于可与清洁可再生能源接口的独立单相逆变器的稳健分步全阶滑模电压控制策略。所提出的控制器通过外环和内环采用级联方法,以便于跟踪所需的负载电压。与用于连接这些清洁能源的最常用的滑模技术(通常利用系统状态空间模型的规范形式)不同,所设计的控制器使用块可控模型来减轻不需要的噪声。为了设计控制器,测量了LC滤波器的电容器电压和电感电流,分别用于外部二阶滑模电压控制回路和内部一阶滑模电流控制回路。在每一步中使用这种全阶滑动表面有效地减少了控制信号中的抖振,并促进了具有较小谐波失真的瞬态和稳态响应,从而促进了可再生能源的有效集成。为了验证所提出的控制器在各种负载条件下作为外部扰动的性能,使用MATLAB/Simulink平台和基于微控制器的处理器通过数字信号处理对2.2kW独立单相逆变器进行了仿真。在内部扰动方面,还对所提出的控制器在更宽范围内不同滤波器参数的变化下进行了测试。结果表明,与清洁能源的耦合具有更好的对准性,与其他控制技术的比较表明,所提出的控制器具有更好的性能。
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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A step-by-step full-order sliding mode controller design for standalone inverter-interfaced cleaner renewable energy sources

Power electronic inverters are one of the most significant components for the integration of clean energy systems and the proper control of these power electronic interfaces helps to enhance power quality. This paper presents a robust step-by-step full-order sliding mode voltage control strategy for standalone single-phase inverters that can be interfaced with cleaner renewable energy sources. The proposed controller employs a cascaded method through outer- and inner-loops to facilitate tracking of the desired load voltage. In contrast to the most commonly used sliding mode techniques for interfacing these cleaner energy sources, which usually utilize the canonical-form of the system’s state-space model, the designed controller uses a block-controllable model that mitigates unwanted noises. To design the controller, the capacitor voltage and the inductor current of the LC filter are measured to be employed in the outer second-order sliding mode voltage control loop and the inner first-order sliding mode current control loop, respectively. The utilization of such full-order sliding surfaces in each step effectively reduces the chattering in the control signals as well as facilitates the transient and steady-state responses with less harmonic distortion and thereby, promoting the effective integration of renewable energy sources. To verify the performance of the proposed controller under various loading conditions as external disturbances, a 2.2 kW standalone single-phase inverter is simulated using MATLAB/Simulink platform along with a microcontroller-based processor-in-loop through the digital signal processing. In terms of internal disturbances, the proposed controller is also tested under different filter parameters’ variations over a wider range. The results indicate a better alignment for coupling with clean energy sources and the comparisons with other control techniques show better performance of the proposed controller.

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