General electricity production Q=aW
a is the efficiency coefficient and W is the light intensity.
This appears to be directly proportional. In fact, for the same battery, the coefficient a itself is linked to light intensity and temperature, etc., so it is not directly proportional.
The efficiency curve is generally used to obtain the efficiency coefficient a
What is the maximum light intensity that solar panels can generally support and what is the intensity general light on earth (near 30 degrees north latitude)?
General energy production Q=aW
a is the efficiency coefficient, W is the light intensity.
This appears to be directly proportional. on the same battery, the coefficient a itself is linked to the light intensity and the temperature, so it is not proportional.
Usually the efficiency curve is used to obtain thee efficiency coefficient a
< p>1 The photogenerated current increases linearly with light intensity Yes, but the voltage will drop due to temperature, but in general there is no problem if the battery panel is directly proportional to the light intensity. This range should be between 200W/. ㎡---1500W/㎡? Time, as shown in the I-V curve below, it seems I've never heard that there is an upper limit for the light intensity a solar panel can accept. bigger is better In the range mentioned above, it is not clear that a situation exceeds 1500 W/㎡. However, somewhere on earth the light intensity will exceed 1500 W/㎡. However, if the temperature is too high, the battery board will be damaged. 2. The spectral range accepted by the battery panel is based on the spectral response range of the battery sheet. The spectral response range of the batt sheeterie is also attached below. This is basically all colored light and some near-infrared light. 3. A significant increase in light intensity will increase the power output of the panel will not increase the efficiency, which is fixed. “It looks like I can post a picture, but I won't post the one on the spectral response, which is almost all visible light and some near-infrared light. I would like to add that the so-called light intensity at ? 30° north latitude makes no sense anywhere. The climatic conditions are different and the average radiation intensity of each place in the world can be found on NASA.