Bidirectional Battery Interface in Standalone Solar PV System for Electrification in Rural Areas

IJITEE (International Journal of Information Technology and Electrical Engineering) Pub Date : 1900-01-01 DOI:10.22146/ijitee.63471

Yuwono Bimo Purnomo, F. D. Wijaya, E. Firmansyah

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Abstract

In a standalone photovoltaic (PV) system, a bidirectional DC converter (BDC) is needed to prevent the battery from damage caused by DC bus voltage variation. In this paper, BDC was applied in a standalone solar PV system to interface the battery with a DC bus in a standalone PV system. Therefore, its bidirectional power capability was focused on improving save battery operation while maintaining high power quality delivery. A non-isolated, buck and boost topology for the BDC configuration was used to interface the battery with the DC bus. PID controller-based control strategy was chosen for easy implementation, high reliability, and high dynamic performance. A simulation was conducted using MATLAB Simulink program. The simulation results show that the implementation of the BDC controller can maintain the DC bus voltage to 100 V, have high efficiency at 99.18% in boost mode and 99.48% in buck mode. To prevent the battery from overcharging condition, the BDC stops the charging process and then works as a voltage regulator to maintain the DC bus voltage at reference value.

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用于农村地区电气化的独立太阳能光伏系统的双向电池接口

在独立光伏系统中，为了防止直流母线电压变化对电池的损坏，需要采用双向直流变换器(BDC)。本文将BDC应用于独立式太阳能光伏系统中，实现独立式光伏系统中蓄电池与直流母线的接口。因此，其双向供电能力的重点是提高节能电池的运行，同时保持高质量的供电。BDC配置的非隔离、降压和升压拓扑用于将电池与直流总线连接。采用基于PID控制器的控制策略，实现简单、可靠性高、动态性能好。利用MATLAB Simulink程序进行了仿真。仿真结果表明，所实现的BDC控制器能够将直流母线电压维持在100 V，在升压模式和降压模式下的效率分别为99.18%和99.48%。为了防止电池过度充电，BDC停止充电过程，然后作为稳压器将直流母线电压维持在参考值。

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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IJITEE (International Journal of Information Technology and Electrical Engineering)

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