Charge Controllers aren't sized with Amps alone. There is a maximum Expected PV Power input (Current x Voltage) for each Charge Controller, hence dictating the number and wattage of Total Panels it can work with. Also 24 hours Light guarantee is quite subjective and depends on a lot of factors. Its not a given, especially in Rainy seasons like this, or Geographical Location and Total hours of good sunlight, and also the availability or non availability of Grid Power to augment. It also depends on how deep you want to drain the batteries to guarantee a Longer service Life especially as what we have in this setup are not Lithium Iron Batteries. So, if not carefully planned, you might be using 24 hours light for the whole system to pack up in 6 months and the product quality is erroneously Blamed.
The higher the Battery Bank Voltage or inverter voltage, the lower the current draw required to power loads and the cheaper the gauge of wires required. Although i worry for the Maximum Power Input of the Charge controller especially with 14 Panels. They must definitely be low wattage panels else he has a system here that can burst into flames when the rainy season is over and we have longer hours of hot sunlight
@@taiwoayomide5341 Absolutely depends on whether they are in series, or Parallel. This is why the higher the operating Voltage of your inverter, the lower the current required and lighter the wires you can actually use for your components (Not Talking of the post inverter AC connections side). Do your research. Not like the system is going to draw the entire battery bank amperage in one go anyways.
@@LexionKing you should have mention these earlier that why most solar hybrid inv with high PV capacity will work fine with small gauge cable since all the panel are connected in parallel