它的模型有一个双面镜像系统。该系统直接把阳光投射进一块小型(1平方厘米大小)光伏电池的光学感应棒上。
Its model involves a two-mirrored system that directs sunlight down an optical rod onto a small (1 square centimeter) photovoltaic cell.
这个模型使用与树木布局模型一样、数量相同的PV(光伏)太阳能电池,因此有同样的输出峰值。
It had the same type and number of PV solar panels as the tree design, and the same peak voltage.
同时利用该模型可以求解出不同内阻特征的光伏电池并联导致系统发电效率损失的数值。
Simultaneously, the model can calculate the loss of power generation efficiency result from different resistance characteristics PV cells in parallel.
在此基础上,通过分析光伏阵列和光伏电池的关系及电路等效变换,建立任意功率级的PV仿真模型。
On the basis of this model, PV-array simulation model with any power output has been built by equivalent conversion of circuit according to the relation between PV cell and PV array.
最后,本文利用光伏模拟器代替传统的光伏电池,建立了单级式光伏并网发电系统,在RT-LAB仿真平台中搭建实时仿真模型,对系统进行了仿真研究。
The Real-time simulation model based on the RT-LAB software platform has been built. It can overcome the limits of real conditions of the PV experiment in the laboratory.
最后,本文利用光伏模拟器代替传统的光伏电池,建立了单级式光伏并网发电系统,在RT-LAB仿真平台中搭建实时仿真模型,对系统进行了仿真研究。
The Real-time simulation model based on the RT-LAB software platform has been built. It can overcome the limits of real conditions of the PV experiment in the laboratory.
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