I started looking into 24V all in one systems but it seems like many of those are 145V max input.
Maybe I can do those panels is 2s2p ???
73V 13 Amp array output?
Would that work with a Victron 100/50 charge controller?
So I could do…
48V 100AH Battery
(4) 200W BougeRV 16BB N-Type Bifacial High Voltage arranged in 2s2p
Victron 150/35 Charge Controller
Victron 48/1200 Inverter
$850 for the Solar Panels
$330 for the inverter
$170 for charge controller
$650 - $1150 for battery
$2000 - $2500 for Basic 48V...
It’s cool there are so many options these days.
I’d like a very efficient inverter for 2 small chest freezers (one converted to fridge).
I think the Victron 1200VA inverter would work for 2 of these. I’m guessing they each use about 0.375 - 0.500 kWh per day. Probably only a couple hundred...
Which one is 60V to 450V?
I was looking at Li Time 24V AOI but thinking about the 2s2p array for about 77 Voc. The ideal range for the Li Time says 30-105V.
I’d like an input range of < 120V min and over 150V max to run 4 of those panels in series if possible.
Trying to plan out a 48V 800 Watt PV Panel system using (4) 200 Watt BougeRV 16BB N-Type (High Voltage) panels. Working with area about 60” x 120” for panels.
Voc x 4 = 36.4V x 4 = 145V
Vmp x 4 = 31.7V x 4 = 127V
For each panel…
Isc = 6.6A
Imp = 6.3A
Was thinking about All in One EG4...
Are there any other things, besides Solar Charger Voltage and Wattage rating, I should take into account before choosing a 4s vs 2s2p array?
I understand higher voltage systems are usually more efficient.
Since these 16BB bifacial panels are already “shade tolerant” would 4s array be more...