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用于非车载充电机现场测试的能馈型充电负载方案 被引量:1
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作者 王吉 柴志超 +4 位作者 胡珊珊 钱斌 王玲 颜湘武 刘子胜 《南方电网技术》 CSCD 北大核心 2020年第7期81-89,共9页
传统的能耗型直流电子负载存在体积大、质量大,受到空间限制,能量损耗大,无法实现动力电池特性等缺点。针对上述问题,结合能馈型直流电子负载和模拟电池技术提出了一种用于非车载充电机现场测试的能馈型充电负载方案。该方案可以大大减... 传统的能耗型直流电子负载存在体积大、质量大,受到空间限制,能量损耗大,无法实现动力电池特性等缺点。针对上述问题,结合能馈型直流电子负载和模拟电池技术提出了一种用于非车载充电机现场测试的能馈型充电负载方案。该方案可以大大减小电子负载的体积和重量,电能回馈效率可以达到90%以上,并且可以实现实际的动力电池特性。同时设计的控制策略,可以实现4种典型的控制模式:恒定输入电压、恒定输入电流、恒定输入功率和恒定电阻,并且能够在一定范围内连续调节其工作参数。最后,通过MATLAB/Simulink仿真验证了所提出充电负载的可行性和有效性。 展开更多
关键词 非车载充电机 现场测试 能馈型充电负载 模拟电池技术
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Analysis of microcrystal formation in DS-silicon ingot 被引量:3
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作者 ZHANG ZhiQiang HUANG Qiang +2 位作者 HUANG ZhenFei LI BiWu CHEN Xue 《Science China(Technological Sciences)》 SCIE EI CAS 2011年第6期1475-1480,共6页
The DS(directional solidification) polycrystalline silicon ingot is the most important photovoltaic material today,and the conversion efficiency of solar cells is affected by the morphology and organization of the cry... The DS(directional solidification) polycrystalline silicon ingot is the most important photovoltaic material today,and the conversion efficiency of solar cells is affected by the morphology and organization of the crystal.Uniform grains with larger size are conducive to get high-quality wafer,so improving the cell conversion efficiency.However,grains sizes that are less than 1 mm2 can be observed frequently in the central district of mc-Si ingots,which bring negative effect to the quality of the mc-Si ingot and decrease the electrical performance of wafer.In this paper,we make an attempt to explain the formation mechanism and influence factors of microcrystal in mc-Si ingot with computer simulation technology and theory of component supercooling.It was found that:to avoid production of microcrystal,it's better to increase the value of G/V(V is the growth rate and G is the near-interface temperature gradient),strengthen the melt convection front in the solidification interface and keep a fairly flat solid/melt interface in producing mc-Si ingot. 展开更多
关键词 polycrystalline silicon ingot MICROCRYSTAL G/V melt convection solidification interface shape
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