Simulation and Modelling of MPPT based PV System Connected with Boost Converter

2020 IEEE Pune Section International Conference (PuneCon) Pub Date : 2020-12-16 DOI:10.1109/PuneCon50868.2020.9362452

Shalini

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引用次数: 3

Abstract

In this paper, another approach is anticipated for examination of tie-line management of grid connected solar system. Anticipated method depends on the management of power in tie-line. Presented method gives low stress on operation of custom-made topology for control. The working principle of described method is that the grid is developed by the solar system for the distribution of energy and tie-line control is developed with the help of two parameters viz. frequency and power. Usage of a boost converter (BC) for controlling the power of photovoltaic (PV) by Maximum power point technique (MPPT) is presented is presented here. Firstly the PV network is evaluated through simulink for the principle point and then the BC is deployed next to a MPP control device. The Maximum power point technique is accountable for finding the utmost power from the PV and give it, by using BC, to the load which in turn increase the voltage to the desired level. The key factor is to track the utmost point of power of the PV module with the objective to obtain supreme plausible power. Solar cell as well as the BC are designed through SIM power system block.

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基于MPPT的升压变换器光伏系统仿真与建模

本文对并网太阳能系统配线管理的研究提出了另一种思路。预期的方法取决于对联络线电力的管理。该方法对自定义拓扑的操作压力小，便于控制。该方法的工作原理是由太阳能系统建立电网进行能量分配，并借助频率和功率两个参数建立联络线控制。本文介绍了升压变换器(BC)利用最大功率点技术(MPPT)控制光伏(PV)功率的方法。首先通过simulink对光伏网的原理点进行评估，然后将BC部署在MPP控制装置旁边。最大功率点技术负责从PV找到最大功率，并通过使用BC将其提供给负载，从而将电压增加到所需的水平。关键是跟踪光伏组件的最大功率点，以获得最大的合理功率。通过SIM电源系统模块设计了太阳能电池和BC。

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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2020 IEEE Pune Section International Conference (PuneCon)

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