多晶硅太阳电池是成本和效率之间的折中。
Multi-crystalline silicon solar cell is the trade-off between cost and conversion efficiency.
并对晶体硅太阳电池光谱响应进行了实际测量。
The spectral response measurements for crystalline silicon solar cells were carried out.
用此方法可以获得性能良好的硅太阳电池衬底材料。
Using this approach, ceramic silicon sheets with good performances will be obtained by adjusting sintering condition.
报道了机械刻槽埋栅高效硅太阳电池的实验研究结果。
This paper describes the experiment and the results of the buried contact silicon solar cells with mechanical grooving.
本文以实例介绍晶体硅太阳电池上丝网印刷电极的优化设计。
For example, this paper introduces advantageous design for commercial cSi solar cell electrode.
本文分析研究了铝浆及烧结工艺对晶体硅太阳电池背场的影响。
In this paper, aluminum paste and sintering procedure effect on the BSF of crystalline silicon solar cells have been analyzed.
商业化晶体硅太阳电池生产过程中使用丝网印刷技术制作电极图形。
The screen print is used in the product line of commercial cSi solar cell.
实现高速沉积对于薄膜微晶硅太阳电池产业化降低成本是一个重要手段。
To realize high deposition rate is an important problem in low-cost industrialization of microcrystalline silicon solar cells.
光伏界的专家们曾经认为硅太阳电池转换效率在实际器件上的极限为20%。
A predicted conversion efficiency limitation of 20% for silicon solar cells in practical devices was made by photovoltaic specialists.
目前实验室里的高效单晶硅太阳电池的效率已接近25%,提高的额度有限。
At present, the efficiency of the high-efficient single-crystal solar cell made in laboratory has been close to 25% and the extra scale is already limited.
采用低温等离子体辉光放电技术,用含氟有机单体在硅太阳电池表面聚合成膜。
This paper describes the polymerization of monomer containing fluorine by the low-temperature plasma glow discharge to produce the antireflective films which deposited on textured solar cells.
详尽叙述了 HLRB-TD6A非晶硅太阳电池镀膜机的结构和设计特点。
The features of structure and design of a-Si:H solar cell coater HLRB-TD6A are introduced in detail.
本文的主要内容是介绍晶体硅太阳电池选择性扩散新工艺和表面钝化的理论研究。
It is described that the innovatory technology of selective diffusion and study on surface passivation in theory for crystalline silicon solar cell.
考察了硅太阳电池在光伏产业中所处的地位,分析了薄膜硅太阳电池的发展趋势。
The status of silicon solar cells in photovoltaic industry was reviewed. The trend in developments of thin film silicon solar cells was discussed.
叶子是由一块薄薄的、扁平的、分三层的硅太阳电池组成,硅的两面都涂有催化剂。
The leaf consists of a thin, flat, three-layered silicon solar cell with catalysts bonded to both faces of the silicon.
我们采用该直扫技术,对非晶硅太阳电池硅膜表面绒面处理,可较大提高电池效率。
So we have adopted the laser etching technology to embellish the surface of amorphous silicon solar cells, and the efficiency of solar cells is greatly improved.
而近年来,在晶体硅太阳电池原资料紧缺的状况下,薄膜太阳电池遭到了特别的注重。
In recent years, in the crystal silicon solar battery raw materials shortage, thin film solar cell has been of particular importance.
金属化浆料是晶硅太阳电池的关键辅助材料,约占电池片非硅成本的50- 60%。
Solar cell paste is the key auxiliary material for the production of crystalline silicon solar cell, accounting for about 50-60% of the non-silicon cost of cells.
总结了非晶硅太阳电池在器件物理、制造工艺、大规模生产和应用方面所取得的重大进展。
The great progresses on device physics, manufacturing process, mass production and application on amorphous silicon solar cells were summarized.
当把硅太阳电池放入一杯水中时,硅就会吸收太阳光子,所产生的电子足可以通过硅来传导。
When placed in a beaker of water and exposed to sunlight, silicon absorbs photons of sunlight, generating electrons with enough energy to conduct through the silicon.
在商业化晶体硅太阳电池制造技术中,广泛采用丝网印刷铝浆烧结工艺制作铝背场(BSF)。
Screen-printing (SP) aluminum paste and sintering procedure that make BSF are widely used in mass production of crystalline silicon solar cells.
本文介绍了几种硅太阳电池工程用模型,这些模型考虑了电池温度和日照强度对输出特性的影响。
This paper presents several engineering analytical models of silicon solar cell, these models take into account cell temperature and solar radiation on out put characteristic.
从实际的晶体硅太阳电池电路基本方程出发,推导出晶体硅太阳电池最大功率下负载的函数表达。
Based on the equation of silicon solar cell current intensity, the theoretic expression of silicon solar cell load resistance at maximum power point is deduced.
而单晶硅电池,目前实验室的高效单晶硅太阳电池的效率已大于24%。但工艺复杂,成本较高。
At present, the efficiency of the high-efficient monocrystal si solar cell made in laboratory has been over 24%, but the process is complicated and the cost is expensive.
通过空间环境地面模拟实验方法,研究了低能质子辐照及其与热循环效应协同作用下背场硅太阳电池电性能的变化。
The Change in electric properties of back-field silicon solar cell was investigated under the proton irradiation followed by thermo - cycling by means of ground-based simulation for space environment.
本文讨论了非晶硅太阳电池的标准测试方法和设备,报道了用优选的非晶硅太阳电池经室外标定而获得非晶硅参考太阳电池的方法。
In this paper, we present a method, from which a a-Si reference solar cell can be obtained after the outdoors calibration of the selected, aged cells.
本文从理论上和工艺上论述了高效率硅太阳电池的研制情况,分析了如何提高硅太阳电池的开路电压、填充因子及短路电流密度的措施。
Measures to increase the open circuit voltage, the fill factor and short circuit current density are discussed both theoretically and technologically for an efficient silicon solar cell.
所有这些不仅会使绿色太阳电池因大大减少硅的使用比传统电池更便宜,而且会使其性能变得更好。
Not only does all this make GreenSun's cells cheaper than conventional ones, because they use so much less silicon; it also makes them better.
在现有工艺和条件下,从电池性能上讲,单晶硅是制造太阳电池的比较理想的材料。
As for the living technology and condition, in view of capability, single crystal silicon is the ideal material for solar cell.
在现有工艺和条件下,从电池性能上讲,单晶硅是制造太阳电池的比较理想的材料。
As for the living technology and condition, in view of capability, single crystal silicon is the ideal material for solar cell.
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