Analysis and Simulation of Overmodulation Modes of a Three-Inverter Block of the Photovoltaic Installation

IF 0.3 Q4 ENERGY & FUELS Problemele Energeticii Regionale Pub Date : 2022-08-01 DOI:10.52254/1857-0070.2022.3-55.02
V. Oleschuk
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引用次数: 1

Abstract

The purpose of this work is to modernize the control scheme of a transformer-based photovoltaic system with three inverters controlled by the modified algorithms of synchronous spacevector PWM in order to ensure linear regulation of the system in the overmodulation zone of the inverter block in the process of forming a symmetrical and synchronized (with the operating frequency of the system) voltage on the inverter-side windings of a power transformer. This goal is achieved by the fact that the process of two-stage control of the system in the zone of overmodulation of inverters is carried out on the basis of synchronized phase shifts between the control signals of inverters (a constant phase shift, as well as an additional adjustable phase shift between the inverter signals as a function of the duration of clock subintervals), with an appropriate modification of the algorithms of synchronous PWM of inverters due to the inclusion of two specialized correction factors in the basic functional dependencies. The most significant results of the work include the fact that in a system with a modified control scheme and modulation of the inverter block in the overmodulation zone, the resulting voltage on the inverter-side windings of the power transformer is characterized by quarterwave symmetry, and its spectrum contains no even-order harmonics, as well as subharmonics, including regimes of fluctuations in the operating frequency of the system connected to a three-phase network, thereby helping to reduce losses in the transformer windings and improve the efficiency of photovoltaic systems.
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光伏三逆变器模块过调制模式分析与仿真
本工作的目的是对具有三个逆变器的基于变压器的光伏系统的控制方案进行现代化改造,该逆变器由同步空间矢量PWM的修改算法控制,以确保系统在逆变器块的过调制区内形成对称和同步(与系统的工作频率)的过程中进行线性调节电力变压器的逆变器侧绕组上的电压。该目标是通过以下事实实现的:在逆变器的过调制区域中的系统的两阶段控制过程是基于逆变器的控制信号之间的同步相移(恒定相移以及作为时钟子间隔的持续时间的函数的逆变器信号之间的附加可调相移)来执行的,由于在基本函数相关性中包括两个专门的校正因子,对逆变器的同步PWM的算法进行了适当的修改。这项工作最重要的结果包括,在具有修改的控制方案和过调制区逆变器块调制的系统中,电力变压器逆变器侧绕组上产生的电压具有四分之一波对称性,其频谱不包含偶次谐波和次谐波,包括连接到三相网络的系统的操作频率的波动状态,从而有助于减少变压器绕组中的损耗并提高光伏系统的效率。
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来源期刊
CiteScore
0.70
自引率
33.30%
发文量
38
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