交直流负载光伏系统混合变流器的设计与实现

2019 International Conference on Recent Advances in Energy-efficient Computing and Communication (ICRAECC) Pub Date : 2019-03-01 DOI:10.1109/ICRAECC43874.2019.8995003

Ajin R. L, P. Raghavendran, V. Surendar

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引用次数: 0

摘要

本文提出了一种可以从单直流输入同时提供交流和直流负载的混合变换器。混合变换器的这些拓扑结构是通过用电压源逆变器代替升压变换器的控制开关形成的。随后的混合转换器需要较少数量的开关来产生交流和直流负载，可靠性更高，并且在逆变器运行中具有穿透保护。这种多输出变换器具有更高的功率工艺密度和可靠性，通常适用于具有直流和交流负载的系统。这种混合式变换器克服了标准器件的不足。我们使用太阳能电池板作为直流电压源，将其提供给升压转换器以增加直流电压，并提供给混合设备。这种混合装置既可以输出交流，也可以输出直流。采用合适的脉宽调制(PWM)技术。通过MATLAB Simulink验证了所设计装置的有效性和控制性能。

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Design and Implementation of Hybrid Converter for PV System for Both AC and DC Load

This paper proposes a hybrid converter which can offer both AC and DC loads from single DC input. These topologies of the hybrid converter are formed by replacing the control switch of the boost converter with a voltage source inverter. This ensuing hybrid converter needs a lesser number of switches to produce AC and DC loads with more reliability and has shoot-through protection within the inverter operation. Such multiple output converters with higher power process density and dependability are often compatible for systems with both DC and AC loads. This Hybrid converter will overcome the shortage of standard device. We use a solar panel as a source of DC voltage which will be given to a boost converter to increase the DC voltage and is given to a hybrid device. The hybrid device can turn out both AC and DC as output. A suitable pulse width modulation (PWM) technique is used. The validity and effectiveness of the projected device and its control performance are verified by MATLAB Simulink.

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2019 International Conference on Recent Advances in Energy-efficient Computing and Communication (ICRAECC)

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