Performance evaluation of single switch high frequency resonant power converter for alternative energy sources

2015 International Conference on Circuits, Power and Computing Technologies [ICCPCT-2015] Pub Date : 2015-03-19 DOI:10.1109/ICCPCT.2015.7159495

S. Soumiah, R. Vengatesh, S. Rajan

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引用次数: 5

Abstract

This paper investigates the performance evaluation of single switch high frequency resonant power converter for solar energy applications. The proposed resonant power converter integrates a single-switch with Zero-Voltage Switching (ZVS) and Zero-Current Switching (ZCS) by an energy-blocking diode. The converter enhances the energy conversion efficiency with less switching losses using single ended structure by achieving soft switching technique. The converter has been demonstrated under different operating modes with an equivalent circuit. Moreover, this converter is conveniently interfaced with Photo-Voltaic (PV) system for promoting the green energy. The sun radiates more photons which is more sufficient to meet the energy demand. But, solar energy has certain intermittency issues, not shining at night and also during daytime there may be cloudy or rainy weather and partial shadow effects which affects the performance of the system. But, due to this Partial Shading Conditions (PSC) there are multiple peaks and multiple steps in the Power-Voltage (P-V) & Current-Voltage (I-V) characteristics curve respectively. One way to enhance the systems performance is by operating the PV system at its Maximum Power Point (MPP). This can be achieved by incorporating a suitable MPPT control algorithm along with the converter circuit. Here, the Incremental Conductance (I&C) and Particle Swarm Optimization (PSO) algorithms have been developed and simulated under Matlab-simulink environment to track the Global Maximum Power Point (GMPP). The main issue in the Incremental Conductance is, struck with the Local Maximum Point (LMP) and it fails to track the GMPP. The simulated results show that the evolutionary technique based PSO MPPT overcomes the drawbacks of I&C algorithm where it tracks the GMPP effectively. The parameters of the PV module have been obtained from the manufacturer datasheet (MS24250) for these analyses.

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替代能源单开关高频谐振功率变换器的性能评价

本文研究了太阳能用单开关高频谐振功率变换器的性能评价。所提出的谐振功率变换器通过能量阻断二极管集成了零电压开关(ZVS)和零电流开关(ZCS)的单开关。该变换器采用单端结构，实现了软开关技术，以更小的开关损耗提高了能量转换效率。用等效电路演示了该变换器在不同工作模式下的性能。此外，该转换器可方便地与光伏系统接口，以促进绿色能源的发展。太阳放射出更多的光子，这更足以满足能源需求。但是，太阳能有一定的间歇性问题，晚上不发光，白天也可能有多云或下雨的天气和部分阴影影响系统的性能。但是，由于这种部分遮阳条件(PSC)，在功率电压(P-V)和电流电压(I-V)特性曲线中分别存在多个峰值和多个步骤。提高系统性能的一种方法是在其最大功率点(MPP)运行光伏系统。这可以通过结合合适的MPPT控制算法以及转换器电路来实现。本文开发了增量电导(I&C)和粒子群优化(PSO)算法，并在Matlab-simulink环境下进行了仿真，用于跟踪全局最大功率点(GMPP)。增量电导的主要问题是，局部最大值点(LMP)被击中，它不能跟踪GMPP。仿真结果表明，基于进化技术的PSO MPPT算法克服了I&C算法有效跟踪GMPP的缺点。这些分析的PV组件参数已从制造商数据表(MS24250)中获得。

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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2015 International Conference on Circuits, Power and Computing Technologies [ICCPCT-2015]

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