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Parallel DC-AC conversion system based on separate solar farms with MPPT control

机译：基于具有MPPT控制的独立太阳能场的并行DC-AC转换系统

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Three separate solar farms that provide 15 kW power for each farm are modelled using Matlab Simulink real-time analysis software in this study. Each solar farm models are constituted by connecting 170W photovoltaic (PV) panels and energy conversion is performed with maximum power point tracking (MPPT) algorithms in each converter. The MPPT algorithm utilized in the control step of converters is developed using Perturb and Observe (P&O) structure. The converters used in the solar farms are designed in boost converter topology while output voltages are collected in DC busbar with parallel connection of converters. The converters are connected to busbar over interphase transformers (IPT). The DC busbar voltage is applied to a full bridge inverter to generate 3-phase AC voltages at the output of inverter. The three-phase inverter is controlled with sinusoidal pulse width modulation (SPWM) scheme, which is developed with phase shifted carrier signals. The load of inverter is set to an adjustable load, which is capable to be increased up to 50 kW. The measurement points seen in the Simulink design are analysed in detail. Each measurement point's definition and screen captures are also evaluated in the study.

机译：在本研究中使用Matlab Simulink实时分析软件建模了为每个农场提供15千瓦电源的三个独立的太阳能电池。每个太阳能农场模型都是通过连接170W光伏（PV）板和能量转换来构成，并且每个转换器中的最大功率点跟踪（MPPT）算法执行能量转换。使用扰动和观察（P＆O）结构开发转换器控制步骤中使用的MPPT算法。太阳能电池场中使用的转换器设计在Boost转换器拓扑中，而输出电压在DC母线中收集，具有转换器的并联连接。转换器通过相互变压器（IPT）连接到母线。直流母线电压施加到全桥式逆变器，以在逆变器的输出端产生3相交流电压。三相逆变器采用正弦脉冲宽度调制（SPWM）方案来控制，其与相移载波信号开发。逆变器的负载设定为可调节的负载，该负载能够增加至50kW。详细分析了Simulink设计中所见的测量点。每个测量点的定义和屏幕捕获也在研究中进行评估。

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《8th International Conference on Power Electronics-ECCE Asia 》|2011年|p.1469-1475|共7页
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作者
Colak Ilhami; Kabalci Ersan; Bal Gungor;
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正文语种
中图分类电工基础理论 ;
关键词
Energy Conversion; Inverter; MPPT Control; Photovoltaic Panel (PV); Solar Farm;

机译：能量转换;逆变器; MPPT控制;光伏面板（PV）;太阳能农场;

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4. Parallel DC-AC Conversion System Based on Separate Solar Farms with MPPT Control [C] . Ilhami Colak, Ersan Kabalci, Gungor BAL International Conference on Power Electronics and ECCE Asia . 2011

机译：基于MPPT控制的单独的太阳能电池的并联DC-AC转换系统
5. Parallel resonant DC link circuit: A novel zero voltage switching topology with minimum voltage stress for DC-AC power conversion [D] . He, Jin 1990

机译：并联谐振直流环节电路：一种新颖的零电压开关拓扑结构，具有最小的电压应力，可用于DC-AC电源转换
6. A Deep Reinforcement Learning-Based MPPT Control for PV Systems under Partial Shading Condition [O] . Bao Chau Phan, Ying-Chih Lai, Chin E. Lin 2020

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7. CONTROL ALGORITHM WITH MPPT OF STAND ALONE WIND- SOLAR HYBRID ENERGY CONVERSION SYSTEM [O] . 2016

机译：单独风力 - 太阳能混合能量转换系统MPPT控制算法

Parallel DC-AC conversion system based on separate solar farms with MPPT control

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