EN
Sharp ND-AF330C is a photovoltaic panel manufactured using polycrystalline cells. Two technologies dominate the market: polycrystalline and monocrystalline cells. Monocrystalline cells are usually more efficient, but more expensive to produce, and polycrystalline cells can be produced at an affordable price, but have a slightly lower performance. After all, it depends on the roof surface which technology will be more beneficial for you. If you have limited space, you can achieve the highest energy production with monocrystalline cells.
Features / filters | |
Power (W) | 330 |
Electrical data (STC) [1] | |
Maximum power Pmax | 330W |
Open circuit voltage Voc | 45.96V |
Closed circuit current Isc | 8.91A |
Voltage at maximum power point Vmpp | 39.11V |
Current intensity at maximum point. of power Impp | 8.45A |
Module performance ηm | 17.0% |
Electrical data (NMOT) [2] | |
Maximum power Pmax | 246.90W |
Open circuit voltage Voc | 43.56V |
Closed circuit current Isc | 7.22A |
Voltage at maximum power point Vmpp | 36.46V |
Current intensity at maximum point. of power Impp | 6.77A |
Mechanical data | |
Length | 1960 mm |
Width | 992 mm |
Depth | 40 mm |
Mass | 22.5 kg |
Temperature coefficients | |
Pmax | -0.38%/°C |
Uoc | -0.28%/°C |
Isc | 0.039%/°C |
Limits | |
Maximum system voltage | 1500 VDC |
Surge protection | 15 A |
Temperature range | -40 to 85 °C |
Maximum mechanical load (snow/wind) | 2400 Pa |
General information | |
Links | polycrystalline, 157 mm × 157 mm, 2 thongs 72 cells connected in series |
Windscreen | Anti-reflective tempered glass with high transmission and low content iron (low iron), 3,2 mm |
Box | Anodized aluminium alloy, silver |
Back panel | White |
Junction box | Protection class IP67, 3 bypass LEDs |
Cable | length 1100mm |
The link | C1 Series, IP67 |
[1] STC = standard test conditions: exposure 1 000 W/m², AM 1.5, cell temperature 25 °C. Rated electrical characteristics are within ±10% of the indicated Isc, Voc and 0 to +5% Pmax (power measurement tolerance ±3%). The reduction in performance when changing from 1 000 W/m² to 200 W/m² (Tmodel = 25°C) is less than 5%.
[2] NMOT = Module operating temperature: 45 °C, at 800 W/m² exposure, 20 °C air temperature, wind speed 1 m/s.