Great information on solar system install and sizing. I learned a lot. One suggestion - if you can slow down your presentation a little in the first half, it would be greatly appreciated by the less technical savvy viewers. Thanks.
What about safety factors, it's not clear where you provided for them. Still, thanks. Very detailed approach and content. Very helpful. Thank you very much.
Good question! We use a standard factor for all solar panels output boosting circumstances like a sunny day with a very clear snowpack ( additional light reflected off the snow). The factor is 1.3 or 130 %. For example, consider 260w solar panels used to change a 12v battery. System voltage 12v. Current rating = (solar panels (w)/ system voltage ) × safety factor (1.3) So, the current rating is = (260 × 12v) × 1.3 = 28.16 amps I hope you understand these points.thanks.
Good explanation, one of the better ones I have seen
Glad it was helpful!
Great information on solar system install and sizing. I learned a lot. One suggestion - if you can slow down your presentation a little in the first half, it would be greatly appreciated by the less technical savvy viewers. Thanks.
Noted! Thanks for tips
What about safety factors, it's not clear where you provided for them.
Still, thanks. Very detailed approach and content. Very helpful.
Thank you very much.
Good question! We use a standard factor for all solar panels output boosting circumstances like a sunny day with a very clear snowpack ( additional light reflected off the snow). The factor is 1.3 or 130 %.
For example, consider 260w solar panels used to change a 12v battery.
System voltage 12v.
Current rating = (solar panels (w)/ system voltage ) × safety factor (1.3)
So, the current rating is = (260 × 12v) × 1.3 = 28.16 amps
I hope you understand these points.thanks.
@akelectricdiy
Better.
Thank you very much.
Thanks 👍👍👍👍
Welcome 👍
No more to say bro than i like abd subscribe💪👍
So nice thanks sir
Most welcome
❤❤