欢迎访问全球领先的太阳能电池片产品名录。太阳能电池组件生产商可以在我们的名录中找到所需的太阳能电池片。我们从全球电池片生产商处收集了产品的详细数据并整理到统一的模板中,便于您轻松地进行不同电池片之间的对比。
电池片类型: | TOPCon | 电池片效率: | 24.0 ~ 25.4 % |
功率范围: | 8.39 Wp | 电池片厚度: | 130 µm |
地区: | 中国大陆 | 尺寸: | 182x182 mm |
电池片类型: | 多晶硅 | 电池片效率: | 18.40 ~ 18.90 % |
功率范围: | 4.52 ~ 4.64 Wp | 电池片厚度: | 180 ~ 200 µm |
地区: | 意大利 | 尺寸: | 156.75×156.75 mm |
Through a series of chemical and thermal processes every single silicon wafer is converted into a photovoltaic cell. The cells are the soul of a module and ensure its ability to generate energy. The dimensions of a cell are the same as those of the wafer from which it originates, the typical blue color is due to antireflective process.
电池片类型: | 单晶硅 | 电池片效率: | -- |
功率范围: | Wp | 电池片厚度: | 180 µm |
地区: | 中国大陆 | 尺寸: | 156.75×156.75 mm |
电池片类型: | TOPCon | 电池片效率: | 24.0 ~ 25.4 % |
功率范围: | 8.38 Wp | 电池片厚度: | 130 µm |
地区: | 中国大陆 | 尺寸: | 182x182 mm |
电池片类型: | 异质结 (HJT) | 电池片效率: | 24.2 ~ 25 % |
功率范围: | 5.52 Wp | 电池片厚度: | 130 ~ 150 µm |
地区: | 中国大陆 | 尺寸: | 210x210 mm |
电池片类型: | 异质结 (HJT) | 电池片效率: | 24 ~ 24.7 % |
功率范围: | 6.77 Wp | 电池片厚度: | 140 µm |
地区: | 中国大陆 | 尺寸: | 166×166 mm |
High Efficiency 20%-23%
Wind/Snow Load 2,400Pa/5,400Pa
Lower temperature coefficient and operating temperature -40~+85°C
0~+5 Power Output Tolerance
Resistant to harsh environments such as salt, ammonia, sand, high temperature and high humidity areas
电池片类型: | 背钝化 (PERC) | 电池片效率: | 21 ~ 22.4 % |
功率范围: | 5.13 ~ 5.47 Wp | 电池片厚度: | 180 ~ 200 µm |
地区: | 中国大陆 | 尺寸: | 156.75×156.75 mm |
● High conversion efficiency gives superior Power output performance
● Outstanding Power output even in low light or high temperature conditions
● Optimized design for ease of soldering and lamination
● Long-term stability, reliability and performance
● Low breakage rate
● Uniform color
电池片类型: | 单晶硅 | 电池片效率: | 21.8 ~ 22.8 % |
功率范围: | 5.98 ~ 6.25 Wp | 电池片厚度: | 180 µm |
地区: | 柬埔寨 | 尺寸: | 166×166 mm |
电池片类型: | 单晶硅 | 电池片效率: | 21.6 ~ 22.6 % |
功率范围: | 5.44 ~ 5.69 Wp | 电池片厚度: | 190 µm |
地区: | 中国大陆 | 尺寸: | 158.75×158.75 mm |
1. High conversion efficiencies resulting in superior power output performance
2. Outstanding power output even in low light or high temperature conditions
3. Optimized design for ease of soldering and lamination
4. Long-term stability, reliability and performance
5. Low breakage rate
6. Uniform color