I am installing an Off-grid system based on a Multi RS Solar 48/6000 in an isolated mountain cottage. The daily energy needs are not high but I need to plan the number of panels and the batteries for the worst case scenario in the winter.
I have two theoretical questions about the loading of the two MMPT of the multi
Q1: I would like to "catch" as much sun as possible in the winter. Beside the orientation/shading issues, Instinctively I would try to have the highest number of panels in series to have the highest voltage so the MPPT would start as early as possible (with of course taking into account maximum voltage in the cold winter and the Float voltage of the batteries). Is that right ?
If the response of Q1 is yes then
Based on the irradiation simulation data (max 750W:m2) and panels characteristics I am limited to 9 panels per string by the float voltage of the pylontech's. I plan to install max 14 to 15 panels – space issue (i.e. 15x 455 Wc = a theoretical 6400-6800 Wc)
Q2: How should I distribute at best the panels to get the max solar prod especially in less sunny period and be technically acceptable during the summer?
- One string of 9 panels on MMPT1 (4 KWc) and 5 ( 2 kWc) on MMPT2
- Two strings of 7 panels on each MPPT ( 3200 Wc x 2)
- Or 9 panels on mmpt 1 and chose another type of panel with higher Voc on mppt 2 in order to get highest voltage possible ? - is that sort of mixing useful (different type of panels on each MPPT )
- Or that kind of issue is irrelevant
Thank you in advance for your answers
