针对光伏充电系统存在的缺陷,提出了一种增强型最大功率点跟踪(MPPT)控制方法。
Aiming at the disadvantages of current PV charging system, an enhanced control method of maximum power point tracking (MPPT) was presented.
当负载较大的时候,为了满足负载的需求,系统将进行最大功率点的跟踪控制。
For the sake of meeting rising need of load, system should perform Maximum Power Point Tracking control.
最大功率点跟踪控制问题是光伏并网发电系统中经常遇见的问题。
Maximum Power Point Tracking is one of the most important problems for the grid-connected photovoltaic system.
在研究太阳能电池板工作原理的基础上,针对太阳能电动车对能量控制系统要求的特殊性,制定了能够进行最大功率点跟踪的实时控制策略并对其进行了改进。
Based on the working principle of solar panel, according to the requirements for the energy control system of solar car, the maximum power point tracking control strategies are presented and improved.
对改进型最大功率跟踪策略进行了仿真,结果表明,该控制策略在本系统设计的前级BOOST电路中可以有效地跟踪太阳能最大功率点。
Simulation about MPPT is also carried out and its results explain that the control strategy designed for the former BOOST circuits of this system can track the max power point effectively.
最大功率点跟踪(MPPT)方法是光伏发电系统中提高系统效率的重要手段。
Maximum Power Point Tracking(MPPT) method is an important means to improve the system efficiency of PV power generation system.
本文主要对并网系统的拓扑结构、能量变换、最大功率点跟踪、控制方案以及并网过程中孤岛效应产生和检测进行了分析和研究。
This paper analyzed the topology of grid-connected system, conversation of energy, maximum Power Point tracing (MPPT), control strategy, islanding effect of grid-connected system.
针对光伏充电系统存在的缺陷,提出了一种增强型最大功率点跟踪(MPPT)控制方法。
Photovoltaic array simulation can be used to find better methods to implement maximum power point tracking (MPPT) control for efficient solar power systems.
最大功率点跟踪(MPPT)是光伏系统中经常遇见的问题。
Maximum Power Point Tracking (MPPT) is one of the most important and well known problems of all photovoltaic systems.
光伏发电系统的最大功率点跟踪控制技术研究。
光伏发电系统的最大功率点跟踪控制技术研究。
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