Calculate your charging time depending of the installed power
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Battery capacity of your EV kWh 1 Calculate |
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|---|---|---|---|---|---|
| Type of charging point | Tension (V) | Phases | Ampère (A) | Power (kVA) 3 | Your charging time 4 |
| Normal 2 | 230 | Mono | 16 | 3,7 | 0 h |
| 32 | 7,4 | 0 h | |||
| Semi-quick | 400 | Tri | 16 | 11,1 | 0 h |
| 32 | 22,2 | 0 h | |||
| Quick | 400 | Tri | 63 | 43,6 | 0 h |
1 Examples battery capacity:
- Renault Zoe: 22 kWh
- Nissan Leaf: 24 or 30 kWh
- BMW i3: 22 or 33 kWh
- Tesla S: 60, 75 or 90 kWh
2 Normal charging is also possible with 400V connections
3 By comparison, the standard power for domestic use is usually 10 kVA.
4 These charging times are indicative. Multiple parameters can influence this (stationtype, cable, power outlet, battery, ...)
Good to know
After circa 50% of charging time, the battery will be for 80% full.