A Robust Control for Five-level Inverter Based on Integral Sliding Mode Control

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY
Vinh-Quan Nguyen, Thanh-Lam Le
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引用次数: 0

Abstract

The limitations of classical carrier wave-based pulse width modulation (PWM) techniques prevent themfromensuringgoodoutputqualityformulti-levelinverters.Thispaperproposesanewslidingmodecontrol(NSMC)method for controlling cascaded H-bridge multi-level inverters (CHB-MLIs) to improve the output quality of theinverter, reduce the common-mode (CM) voltage with high-order harmonics, and achieve stable and robustnesscontrolfortheCHB-MLIs.TheNSMCmethodmodulatesthePWMpulsesforthemulti-levelinverterbycomparingthecontrolsignalu(t)andthecomparatorlevelswithoutusingcarrierwavetechniques.Thisapproachfacilitatestheformation of a control signal u(t) which can be flexibly adjusted to optimize the generation of PWM pulses. Toreducethechatteringproblemaroundthesliding-modesurfaceathighfrequenciesandtoincreasespeedconvergence, the integral sliding-mode surface integrated with a continuous control law is used to design thecontroller. Additionally, a first-order low-pass filter (LPF) with a variable cut-off frequency is added to the controllawtoimprovestabilityandreduceoscillationcausedbyrapidandlargechangesintheloadcurrentamplitude.ThestabilityofthecontrolsystemisvalidatedbytheLyapunovtheory.Simulationandexperimentaltestswereperformedon the same cascaded H-bridge five-level inverter (CHB-5LI) with an R-L load. The results show that the proposedNSMC method is robust and performs better efficiently for multi-level inverter control systems. Furthermore, theoutput quality of the inverter is significantly improved compared to classical carrier wave-based PWM techniques,with a reduced CM voltage and fewer high-order harmonics, resulting in reduced losses and switching frequency. Therefore, the stability and strong robustness of the CHB-MLIs can b eachieved by the proposed NSMC method.
基于积分滑模控制的五电平逆变器鲁棒控制
本文提出了一种新的滑模控制(NSMC)方法,用于控制级联h桥多电平逆变器(CHB-MLIs),以提高逆变器的输出质量,降低高次谐波共模电压,该方法在不使用载波技术的情况下,通过比较控制信号(t)和比较电平来调制多电平逆变器的pwm脉冲。这种方法有助于形成一个控制信号u(t),可以灵活调整以优化PWM脉冲的产生。为了减少滑模表面的高频抖动问题,提高速度收敛性,采用连续控制律集成的积分滑模表面设计控制器。此外,在控制律中加入了一个具有可变截止频率的一阶低通滤波器(LPF),以提高控制系统的稳定性,并减少因负载电流幅值的快速和大变化而引起的振荡。结果表明,该方法具有较强的鲁棒性,对多电平逆变器控制具有较好的效果。此外,与传统的基于载波的PWM技术相比,逆变器的输出质量显着提高,具有更低的CM电压和更少的高次谐波,从而降低了损耗和开关频率。因此,所提出的NSMC方法可以实现CHB-MLIs的稳定性和较强的鲁棒性。
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来源期刊
International Journal of Integrated Engineering
International Journal of Integrated Engineering ENGINEERING, MULTIDISCIPLINARY-
CiteScore
1.40
自引率
0.00%
发文量
57
期刊介绍: The International Journal of Integrated Engineering (IJIE) is a single blind peer reviewed journal which publishes 3 times a year since 2009. The journal is dedicated to various issues focusing on 3 different fields which are:- Civil and Environmental Engineering. Original contributions for civil and environmental engineering related practices will be publishing under this category and as the nucleus of the journal contents. The journal publishes a wide range of research and application papers which describe laboratory and numerical investigations or report on full scale projects. Electrical and Electronic Engineering. It stands as a international medium for the publication of original papers concerned with the electrical and electronic engineering. The journal aims to present to the international community important results of work in this field, whether in the form of research, development, application or design. Mechanical, Materials and Manufacturing Engineering. It is a platform for the publication and dissemination of original work which contributes to the understanding of the main disciplines underpinning the mechanical, materials and manufacturing engineering. Original contributions giving insight into engineering practices related to mechanical, materials and manufacturing engineering form the core of the journal contents.
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