The Best Solar Power System Design in World

The Best Solar Power System Design in World

Solar power system is one of renewable energy system which uses PV modules to convert sunlight into electricity. The electricity generated can be either stored or used directly, fed back into grid line or combined with one or more other electricity generators or more renewable energy source. Solar PV system is very reliable and clean source of electricity that can suit a wide range of applications such as residence, industry, agriculture, livestock. This video give you the Best Solar Power Design in the World, which can help you to create your personal solar panel and save yourself huge electricity bills. If like this video kindly SUBSCRIBE to this Channel. Give us your feedback by commenting below. Like or Dislike.

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20 Comments on “The Best Solar Power System Design in World”

  1. Great effort went into this. But as other people have commented VERY confusing.Working up a solar system to run a 100 watt light bulb for 2 hours a day is crazy.Buy 1 100 amp battery 1 10 amp charge controller 1 100 watt solar panel and run 9 WATT 12 volt led bulbs 8 hours a day no inverter needed.WOW.All for under 500.00

  2. Very bad video. 12 volt solar system is crap. Inverter actually connects to your batteries not charge controller.
    If you want to power just a light bulb, than use a 12vdc light bulb and connect straight to the load output on the charge controller (No Inverter needed).

  3. The inverter or 12v devices are connected to the battery bank via fuses.
    The charge controller is separate from power usage so you only need one controller.
    The video maker is wrong.

  4. You can't use 2 charge controllers on the same battery bank. Because when one is charging the bank the voltage is high in the bank, so the other controller is reading that the batteries are charged because of the high voltage, so one of the controllers will not be charging while the other is. Also just hook up your inverter to the battery bank, by passing the controller, then you don't have to worry about the output of the charge controller. Just use the controller to charge the batteries.

  5. Don't understand how you know that the power out of the charge controller is 200 watts. There is written that it has 10A max. with 100% efficiency. Doesn't it depends on how much energy solar panels gives at that moment and minus what is needed to charge batteries?

  6. You're basic system architecture is OK for a "DC" centric system but using 12V is amateur hour. Step up to 48V on the DC side. Smaller wiring, less charge controller capacity required, easier wiring on the panels. This is not even close to the being "best solar system design in the world".

  7. If you want to make your own woodworking yourself just look for inplix website. There is all you need to make it 🙂

  8. Thanks for the very basic stuff. You did an excellent job. For the first time I can do all the calculations for myself and do not have to rely on 'cleaver' sales people to advise me.

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