세계에서 가장 진보적인 태양광전지모듈 제품디렉토리에 오신 것을 환영 합니다. 태양광발전 시스템 설치자 그리고 솔라 제품 판매자는 모두 저희의 솔라 모듈 제품디렉토리에 필터를 사용하여 관한 지원을 받을 수 있습니다. 저희가 당신이 쉽게 모듈을 비교할 수 있도록 전세계 솔라 모듈 생산업체에서 데이터를 수집했습니다.
유형: | 단결정 | 모듈 호률: | 22.11 ~ 22.86 % |
공율범위: | 585 ~ 605 Wp | 무게: | 31 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 2172x1303x35 mm |
유형: | 단결정 | 모듈 호률: | 19.9 ~ 21 % |
공율범위: | 390 ~ 410 Wp | 무게: | 22 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 1722x1134x35 mm |
유형: | 단결정 | 모듈 호률: | 20.7 ~ 21.5 % |
공율범위: | 530 ~ 550 Wp | 무게: | 27 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 2279x1134x35 mm |
• High module efficiency through superior manufacturing technology
• Solar Module Efficiency up to 21.5%
• No power loss thanks to improved temperature co-efficient caused by MBB Perc solar cell
• Strictly control the micro-crack of solar cells and the other non visible defect of internal modules
• Module can bear snow loads up to 5,400Pa and wind loads up to 2,400Pa
유형: | 단결정 | 모듈 호률: | 15.37 ~ 19.67 % |
공율범위: | 250 ~ 320 Wp | 무게: | -- |
지역: | 중국 | 모듈 외형 (H/W/D): | 1640x992x35 mm |
유형: | 단결정 | 모듈 호률: | 16.49 ~ 19.84 % |
공율범위: | 300 ~ 385 Wp | 무게: | 22 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 1956x992x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 다결정 | 모듈 호률: | 15.46 ~ 17.52 % |
공율범위: | 300 ~ 340 Wp | 무게: | 22 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 1956x992x3 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 단결정 | 모듈 호률: | 18.94 ~ 20.45 % |
공율범위: | 320 ~ 345 Wp | 무게: | -- |
지역: | 중국 | 모듈 외형 (H/W/D): | 1684x1002x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 단결정 | 모듈 호률: | 20 ~ 20.9 % |
공율범위: | 400 ~ 420 Wp | 무게: | 22.5 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 2008x1002x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 다결정 | 모듈 호률: | 17.45 ~ 18.66 % |
공율범위: | 290 ~ 310 Wp | 무게: | 18.5 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 1684x1002x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 다결정 | 모듈 호률: | 16.9 ~ 17.9 % |
공율범위: | 340 ~ 360 Wp | 무게: | 22.5 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 2008x1002x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 단결정 | 모듈 호률: | 18.44 ~ 19.05 % |
공율범위: | 300 ~ 310 Wp | 무게: | 17 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 1640x992x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 단결정 | 모듈 호률: | 18.04 ~ 19.23 % |
공율범위: | 350 ~ 370 Wp | 무게: | 22 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 1956x992x40 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 단결정 | 모듈 호률: | 19.2 ~ 20.3 % |
공율범위: | 350 ~ 370 Wp | 무게: | 22.5 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 1755x1038x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 단결정 | 모듈 호률: | 19.8 ~ 21.2 % |
공율범위: | 430 ~ 460 Wp | 무게: | 23.5 kg |
지역: | 중국 | 모듈 외형 (H/W/D): | 2094x1038x35 mm |
Using MBB higher efficiency 166mm Mono cell and half cell technology. Power can be 430w-460w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 단결정 | 모듈 호률: | 14.93 % |
공율범위: | 100 Wp | 무게: | -- |
지역: | 중국 | 모듈 외형 (H/W/D): | 1000x670x30 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 단결정 | 모듈 호률: | 15.06 ~ 17.23 % |
공율범위: | 200 ~ 220 Wp | 무게: | -- |
지역: | 중국 | 모듈 외형 (H/W/D): | 1580x808x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 단결정 | 모듈 호률: | 14.91 ~ 18.88 % |
공율범위: | 150 ~ 190 Wp | 무게: | -- |
지역: | 중국 | 모듈 외형 (H/W/D): | 1480x680x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | PERC | 모듈 호률: | 18.89 ~ 20.38 % |
공율범위: | 315 ~ 340 Wp | 무게: | -- |
지역: | 중국 | 모듈 외형 (H/W/D): | 1640x992x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 다결정 | 모듈 호률: | 14.92 % |
공율범위: | 100 Wp | 무게: | -- |
지역: | 중국 | 모듈 외형 (H/W/D): | 1000x670x30 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.
유형: | 다결정 | 모듈 호률: | 15.06 ~ 17.07 % |
공율범위: | 150 ~ 170 Wp | 무게: | -- |
지역: | 중국 | 모듈 외형 (H/W/D): | 1480x680x35 mm |
Using MBB higher efficiency 158.75mm Mono cell and half cell technology. Power can be 390w-420w. By cutting solar cell into halves, the internal power loss will be lower and hot spot effect will also be reduced. This design effectively deals with the mismatch happened between cells caused by shadow, out of sync performance degradation, etc.