Table
The table below highlights, for batteries that provide 12 Volts DC, their capacity and energy absorbed in time, as well as the time of use. By using 24 Volts DC batteries, the usage time is doubled.
| 50Ah | 75Ah | 100Ah | 200Ah | 400Ah | |
|---|---|---|---|---|---|
| 50 W | 9 hours | 14 hours | 20 hours | 40 hours | 80 hours |
| 100 W | 4 hours | 7 hours | 10 hours | 20 hours | 40 hours |
| 200 W | 2 hours | 3 hours | 4.5 hours | 10 hours | 20 hours |
| 300 W | 1.3 hours | 2.2 hours | 3 hours | 6 hours | 12 hours |
| 400 W | 1 hour | 1.5 hours | 2 hours | 4.5 hours | 10 hours |
| 600 W | - | - | 1 hour | 2.5 hours | 6 hours |
| 800 W | - | - | 50 minutes | 2.5 hours | 4 hours |
| 1000 W | - | - | 40 minutes | 1.5 hours | 3 hours |
| 1500 W | - | - | - | 30 minutes | 2 hours |
| 2500 W | - | - | - | 12 minutes | 48 minutes |
This table is given as an example and it is not guaranteed that it is accurate in all cases. Multiple external events, e.g., peak power, temperature, load state, battery conservation and use, may influence the usage time.
Practical case
| Connected devices |
By adding the daily consumption of each device, you obtain the total daily energy required. In our case: 660+250+150+270=1330 Wh With the formula Watt/Volt = Ampere, you deduct the total daily intesity required. With a 12 Volts DC: 1300/12=110,83 A. You therefore need, at minimum, a 110 Ah battery. If all these devices are used at the same time the consumption will be 1560W. As a minimum multiplier factor of 3 is required to choose the best-adapted inverter, it is therefore necessary to provide a 4500W inverter. With a 12V battery you will need a capacity of 400Ah and with a 24V battery you will need a capacity of 200Ah. |
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