I'm trying to overbuild the panels a bit so I can store some extra energy in batteries for longer run times. Then dissipate additional in heat... Need to learn how to dissipate all that extra energy in the summer to cooling!!
2x24=48v they actually put out 80v and I'm using them at 70v so... High voltage low amps = thinner wire. Just like those guys on the high wire 155,000 to 765,000 volts 😳those guys are nuts.
Man, you're crazy confident with those wires! Be safe my friend.
Thanks, always as safe as possible 🙂
been working in and around the juice all my life, zapped enough times to know what NOT to do 🙃
man wish i had the confidence to do this stuff haha I went to school for this too 🤣 just got too lazy to try to do mini projects
Utube gives me too much courage 🙃
Thanks 4 checking in 🙂
Looks like all your nems are finding each other. That’s interesting.
They're organizing! getting scary... 🙃
So, 165W / 2 = 82.5W × 3 = 247.5 watts that you're saving. Nice!
I should check how many watts are being pulled on the blues that are left...
Thanks 4 watching 🙂
Curious how many hours of usable sun you get over there, will it be enough?
I'm trying to overbuild the panels a bit so I can store some extra energy in batteries for longer run times. Then dissipate additional in heat... Need to learn how to dissipate all that extra energy in the summer to cooling!!
How can you get enough current at 24 volts through those tiny wires to run those huge lights? I must have missed something. Thanks.
2x24=48v they actually put out 80v and I'm using them at 70v so... High voltage low amps = thinner wire. Just like those guys on the high wire 155,000 to 765,000 volts 😳those guys are nuts.
Boom, I've been schooled by V=IR. I knew I missed something, just had a birthday and am still in shock, I'll get better. Thanks.
@@lkapitan8232 🤣😂😅