基于Arduino的光伏模块最大功率点的扰动与观测跟踪

2019 International Conference on Mechatronics, Robotics and Systems Engineering (MoRSE) Pub Date : 2019-12-01 DOI:10.1109/MoRSE48060.2019.8998643

Alfredo Oliver Batu, Harsono Soepardjo, P. Prajitno

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引用次数: 3

摘要

利用光伏组件，通过转换太阳照射的能量获得电能。然而，使用光伏组件的缺点是当太阳照射发生变化时，会移动P- V曲线上的最大功率点，导致获得的输出功率不在其最大功率处。以太阳能光伏组件为例，从变化的能源中提取最大功率的方法被称为最大功率点跟踪(MPPT)。其中一种MPPT技术被称为扰动和观察。当功率的导数除以电压的导数结果为零时达到的最大功率。使用Arduino Uno作为微控制器，处理电压和电流传感器的读数，同时控制DC-DC升压器，可以移动系统的工作电压。实验结果表明，在不使用MPPT的情况下，系统的输出功率大于光伏组件的输出功率，这是系统在存在最大功率电压时工作在工作电压下的结果。

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Arduino Uno-Based Maximum Power Point Tracking for PV Module Using Perturb and Observe Algorithm

Using photovoltaic module, electrical energy obtained by converting energy from the irradiation of the sun. However, the disadvantages using photovoltaic module is when irradiation from the sun changes which moves the maximum power point in P- V curve resulting in output power obtained become not at its maximum power. The method to extract maximum power available from changing energy source in example solar photovoltaic module are known as Maximum Power Point Tracking (MPPT). One of MPPT techniques is called Perturb and Observe. Maximum power achieved when the derivative of power over the derivative of voltage results in zero. Arduino Uno used as microcontroller which process the readings from voltage and current sensor while also controlling DC-DC Booster which able to move the operating voltage of the system. Experimental results yield the output power from system greater than output power from photovoltaic module without using MPPT as result from the system working at operating voltage when the voltage of maximum power exists.

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来源期刊

2019 International Conference on Mechatronics, Robotics and Systems Engineering (MoRSE)

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