太阳能逆变器
- 网络solar inverter;pv inverter;photovoltaic inverter
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本文在某公司太阳能逆变器产品基础上进行升级,包括BOOST试验模块的设计目标和实现思路,然后描述了加入天气预测后的模糊控制算法,最后进行整体软件设计和测试。
This paper upgrade the solar inverter product of a company , including the goal and the realization of BOOST module design . Then , the fuzzy control algorithm with weather forecasts is described . At last , it gives software design and test .
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本文设计和实现的BOOST控制器虽然只是一个原型系统,但验证了模糊控制技术在太阳能逆变器领域的可行性和有效性,对相关的应用有较高的参考价值。
Although the BOOST Controller described in this paper is still a prototype , to a certain extent , it experts the application of the fuzzy control in solar inverter , the implementation of this paper provides valuable reference to the developers in the related fields .
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例如:离网的太阳能逆变器等。
For example : off-grid solar inverter , and so on .
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太阳能逆变器是光伏风力发电系统的核心部件。
Solar photovoltaic wind power inverter is the core of the system components .
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高效率太阳能逆变器的研制
Design of the Solar Inverter With High Efficiency
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太阳能逆变器的消谐控制方法研究
Study on harmonic elimination control in solar inverter
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高效率并网太阳能逆变器研究
Research on High Efficiency Net Grid Photovoltaic Converter
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数字信号控制器在太阳能逆变器中的应用
Apply Digital Signal Controller into Solar Inverter
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另外由于新能源发电成本较高,太阳能逆变器的高效运行也显得非常重要。
Plus , because of new energy cost is higher , the solar energy of the inverter efficient operation also appears very important .
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本文主要讨论了太阳能逆变器技术要求,指出影响逆变器效率的主要因素是变压器及功率开关管的损耗,驱动电路与控制电路的功耗是影响逆变器低负荷运行效率的重要原因。
In this paper the inverter techniques for photovoltaic power supply are discussed and it is pointed out that the main factors which affect inverting efficiency are transformer consumption , power electronic switching transistor consumption as well as driving circuit consumption , control circuit consumption at light load operation .
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本文参照Microchip公司的并网太阳能微型逆变器建立了交错并联反激式光伏并网型逆变器的实验平台,详细分析了实验平台的硬件电路设计,分析了数字控制的软件流程。
According to " Grid-Connected Solar Micro Inverter " of Microchip Inc , the experimental platform is established . The hardware circuit and digital software flow are analyzed .
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太阳能并网逆变器是整个太阳能并网发电系统中必不可少的一部分,其效率的高低、输出电能的质量和可靠性的好坏将直接影响整个太阳能发电系统的性能和投资。
Photovoltaic inverter is a key part of the Photovoltaic power generation system . Its efficiency , quality of power output and reliability are the key factors which affect the performance and investment for the system .
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本文主要介绍WEINVIEW触摸屏在太阳能光伏并网逆变器中的应用。
The introduction in this paper focus on the application of WEINVIEW touch screen in photovoltaic grid-connected inverter .
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实验仿真结果表明,设计的太阳能光伏并网逆变器实现了单位功率因数的运行,输出电流与电网电压同频同相,在理论与实验上满足了并网要求。
The analysis of the simulation and experimental results show that the designed solar photovoltaic inverter output current can be guaranteed the unity power factor operation and in phase with the grid voltage , both in theory and experiment , and can succeed in the grid .
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基于ARM+DSP架构的太阳能光伏智能并网逆变器
Intelligent Photovoltaic Grid-connected Inverter Based on ARM & DSP Architecture
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本系统包括了太阳能组件阵列、逆变器、双向逆变器、蓄电池、交流汇流系统、柴油发电机、监控系统。
This system includes solar module array , inverter , bi-directional inverter , storage battery , AC conflux system , diesel generator , and monitoring system .
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一套基本的光伏发电系统一般是由太阳能电池板、太阳能控制器、逆变器和蓄电池(组)构成。
Generally , a fundamental photovoltaic energy system consists of the solar cell , solar controller , converter and batteries .
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随着太阳能光伏并网发电技术的日趋成熟,太阳能光伏并网逆变器也随之被大量的研发、生产。
With the solar photovoltaic power generation technology becoming matures , more and more solar PV grid-connected inverter has been researched and produced .
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通过该算法,整套太阳能发电系统的太阳能利用效率会得到相当大的提高。其次,太阳能逆变器的核心是控制器算法。
The efficiency of solar energy can be considerably increased in the entire solar power system through this method . Second , the algorithm of the Controller is the key of the solar inverters .