Approx. 5% more power output per m²
Higher conversion efficiency - higher capacity and power output performance per unit area.
Note: Data is based on the comparison of the JAP6-72/4BB module (320W) and similar products on the market (305W).
Higher conversion efficiency,lower system cost per watt
1. Reduction of transportation costs 4%
2. Reduction of land costs 3%
3. Reduction of installation costs 2.5%
4. Reduction of BOS-costs 1.5%
Note: Data is based on the comparison of the JAP6-72/4BB module (320W) and similar products on the market (305W).
High Reliability
1. Triple International Electrical Commission (IEC) test guarantees long-term reliability
2. Excellent anti-PID performance
3. Double electroluminescence (EL) tests guarantee fault-free modules
4. Lower contact resistance and optimized soldered connections as well as reduced grid breakage of cell conductor
tracks through double-printing technology
5. 100% automated production facilities using state-of-the-art plant technology
6. 4-busbar cell design
7. Higher conversion efficiency and higher reliability
PRODUCT PARAMETER
| MECHANICAL SPECIFICATION of Poly solar panel | |
| Format | 1960mm x 991mm x 40mm |
| Weight | 23kg ±3% |
| Cell | 6 x 12 polycrystalline cells |
| Junction Box | Protection class IP67 |
| Cable | 4mm² Solar cable |
| Connector | MC4 Compatible |
| ELECTRICAL CHARACTERISTICS | ||||
| Minimum performance at standard test conditions,stc1 (power tolerance 0-3%) | ||||
| Power Class | [W] | 335 | 340 | |
| Power at MPP2 | PMPP | [W] | 335 | 340 |
| Short Circuit | ISC | [A] | 9.23 | 9.31 |
| Open Circuit | VOC | [V] | 47.28 | 47.45 |
| Current at MPP* | IMPP | [A] | 8.66 | 8.75 |
| Voltage at MPP* | IMPP | [V] | 38.68 | 38.86 |
REAL SHOT
