一种低成本的独立光伏方案,用于机动混合负载

A. Sharaf, A.R.N.M. Reaz
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引用次数: 12

摘要

针对一种低成本户用电能方案,提出了一种基于误差驱动的光伏-太阳能最大利用率在线搜索与跟踪控制器。提出了一种最大光伏太阳能跟踪和高效能源/电力利用控制方案,以应对不断变化的电阻性负载和电机转矩变化。所提出的控制器只需要光伏阵列输出电压和电流的在线值,这些值可以通过电压和电流传感器轻松测量。所提出的动态跟踪控制器对电阻性负载和永磁直流电动机都取得了满意的效果。本文提出了一种基于动态电压或电流误差信号激活比例加积分(PI)控制器的新型动态搜索控制器。对于电阻型负载,采用基于PV电源、电压和电流的三回路跟踪控制器。这足以确保最大功率跟踪,但对于驱动鼓风机/风扇/泵型机械负载的电动负载,也使用速度动态误差而不是光伏电压动态误差作为输入。提出的独立方案适用于低成本的家庭电力可再生能源方案,可以通过低成本的pic16微控制器实现经济规模(150瓦-1500瓦)。
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A low cost stand alone photovoltaic scheme for motorized hybrid loads
This paper presents a novel error driven online search and tracking controller for maximum PV-solar energy utilization for a low cost cottage electric energy scheme. It proposes a maximum photovoltaic solar energy tracking and efficient energy/power utilization control scheme to cope with changing resistive loads and motor torque variations. The proposed controller requires only the online value of the PV array output voltage and current that can be easily measured with voltage and current transducer. Satisfactory results are obtained with the proposed dynamic tracking controller for resistive load as well as for a permanent magnet DC motor. In this paper the novel dynamic search controller was developed by the first author and is based on dynamic voltage or current error-signals activating a proportional plus integral (PI) controller. For resistive type load the tri loop based PV power, voltage and current tracking controller. This is adequate in ensuring maximum power tracking but for a motorized load driving a blower/fan/pump type mechanical load, the speed dynamic error is also used as input instead of the photovoltaic voltage dynamic error. The proposed stand-alone scheme is a suitable for low cost cottage electricity renewable energy scheme and can be implemented by a low cost PIC 16 micro controller for economic sizes (150 watts-1500 watts).
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