世界で最も先進的な太陽電池セル製品のディレクトリへようこそ。ソーラパネルメーカーは、ニーズに完全に適合する太陽電池セル製品を見つけるために、弊社の先進的なテクニカルフィルターを利用することができます。弊社は全世界の太陽電池セルメーカーから詳細情報を収集し、共通のテンプレートにまとめていますので、太陽電池セルの比較が容易に可能となります。
セルタイプ: | 超高効率ヘテロ接合 (HJT) | 変換効率: | 22.70 ~ 24.70 % |
出力領域: | 5.72 ~ 5.97 Wp | 電池厚み: | 180 µm |
地域: | 中国 | 外形寸法: | 158.75×158.75 mm |
1. PERC+SE Technique
2. Both sides can generate electricity
3. High conversion efficiency, average cell efficiency is 22.3%, highest efficiency is 22.8%
4. Long term efficiency, stability and excellent reliability
5. Low breakage rate and Low LID rate
6. Good color uniformity
セルタイプ: | PERC | 変換効率: | 21.5 ~ 22.4 % |
出力領域: | 5.42 ~ 5.65 Wp | 電池厚み: | 190 µm |
地域: | 中国 | 外形寸法: | 158.75×158.75 mm |
1. PID Free/PERC
2. High conversion efficiency,average cell efficiency is 22.2%,highest efficiency is 22.7%
3. Excellent solder-ability through high quality
4. Long term efficiency stability and excellent reliability
5. Low breakage rate and Low LID rate
6. Good color uniformity
セルタイプ: | 両面受光型 | 変換効率: | 21.90 ~ 22.70 % |
出力領域: | 6.01 ~ 6.22 Wp | 電池厚み: | 190 µm |
地域: | 中国 | 外形寸法: | 166×166 mm |
1. PERC+SE Technique
2. Both sides can generate electricity
3. High conversion efficiency, average cell efficiency is 22.3%, highest efficiency is 22.8%
4. Long term efficiency, stability and excellent reliability
5. Low breakage rate and Low LID rate
6. Good color uniformity
セルタイプ: | PERC | 変換効率: | 21.70 ~ 22.60 % |
出力領域: | 5.95 ~ 6.2 Wp | 電池厚み: | 190 µm |
地域: | 中国 | 外形寸法: | 166×166 mm |
1. PID Free
2. PERC Technique
3. High conversion efficiency,average cell efficiency is 22.5%,highest efficiency is 23.0%
4. Long term efficiency stability and excellent reliability
5. Low breakage rate and Low LID rate
6. Good color uniformity
セルタイプ: | PERC | 変換効率: | 20.5 ~ 22.5 % |
出力領域: | 5.033 ~ 5.47 Wp | 電池厚み: | 200 µm |
地域: | 中国 | 外形寸法: | 156.75×156.75 mm |
1. PID Free
2. Diamond wire PERC+SE Technique
3. High conversion efficiency, average cell efficiency is 22.0%, highest efficiency is 22.6%
4. Long term efficiency, stability and excellent reliability
5. Low breakage rate and Low LID rate
6. Good color uniformity
セルタイプ: | 両面受光型 | 変換効率: | 21.1 ~ 22.1 % |
出力領域: | 5.16 ~ 5.4 Wp | 電池厚み: | 200 µm |
地域: | 中国 | 外形寸法: | 156.75×156.75 mm |
Excellent anti-PID performance to ensure stability of the module power
5%-20% power gain from rear side at suitable installation
High conversion efficiency, average cell efficiency (front side) is 21.8%, highest efficiency is 22.6%
Long term efficiency, stability and excellent reliability
Low breakage rate and Low LID rate
Good color uniformity
セルタイプ: | 両面受光型 | 変換効率: | 21.50 ~ 22.40 % |
出力領域: | 5.42 ~ 5.65 Wp | 電池厚み: | 190 µm |
地域: | 中国 | 外形寸法: | 158.75×158.75 mm |
セルタイプ: | 両面受光型 | 変換効率: | 21.80 ~ 22.70 % |
出力領域: | 5.49 ~ 5.72 Wp | 電池厚み: | 190 µm |
地域: | 中国 | 外形寸法: | 158.75×158.75 mm |
セルタイプ: | PERC | 変換効率: | -- |
出力領域: | 7.2 ~ 7.49 Wp | 電池厚み: | 175 µm |
地域: | 中国 | 外形寸法: | 182x182 mm |
セルタイプ: | 両面受光型 | 変換効率: | 22.00 ~ 23.00 % |
出力領域: | 9.69 ~ 10.13 Wp | 電池厚み: | 180 µm |
地域: | 中国 | 外形寸法: | 210x210 mm |