Analysis of discharge energy on deep and non-deep cycle accumulator on solar cell-based power source

Abstract Standard battery usually used for solar cell storage is an industrial type of battery that has a deep cycle battery. However, the disadvantage is that the price is too expensive for the public compared to no-deep cycle batteries in the market. With 300-Watt peak solar panels the average charge energy of 1.2 kWh non deep cycle is equal to 405.19 Watt-h and deep cycle is equal to 457.28 Watt-h. For boiling 2.5 litters of water with an induction cooker in steam setting the average discharge energy of non-deep cycle is 514.8 Watt-h and deep cycle is 503 Watt-h. The percentage of SoC charge energy non-deep cycle from 49 to 98 percent and deep cycle from 71 to 98 percent, discharge energy non-deep cycle from 98 to 32 percent and deep cycle from 98 to 71 percent My paper observer comparative discharge energy on deep and non-deep cycle accumulator on solar cell-based power source. We found the gap decrease SoC in non-deep cycle is equal to 66 percent is bigger than the non-deep cycle and it is equal to 27 percent. The percentage of SoC charge and discharge deep cycle accumulator is more stable.