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AC and DC charging estimate
EV Charging Time Calculator
Estimate how long an electric car will take to charge from its current battery percentage to your target. Compare AC, DC fast, rapid and ultra-rapid chargers from 7 kW to 350 kW.
Use the free toolCompare before you plug in
Compare common DC fast-charger speeds
Each option uses the same battery goal and is capped by the car power limit you entered. Your selected charger is highlighted.
How EV charging time is calculated
- 1 Battery energy added equals usable battery capacity multiplied by the change in state of charge.
- 2 Effective power is the lower of station power and the vehicle’s selected AC or DC limit.
- 3 The theoretical time assumes constant power. The realistic DC estimate integrates a clearly labelled generic taper as the battery fills.
- 4 Actual charging can still change with battery temperature, vehicle software, charger load sharing, site power and battery condition.
EV Charging Time Calculator FAQ
Source-backed answers to the questions drivers ask before using this estimate.
How do I calculate EV charging time?
Multiply usable battery capacity by the percentage you want to add, then divide the resulting kWh by effective charging power. Effective power is the lowest of the station’s available output, the car’s AC or DC limit and its charging-curve limit at that battery level. Losses and DC taper make real charging slower than the basic calculation.
Source: US Alternative Fuels Data Center
What is the difference between kW and kWh when charging an EV?
A kilowatt, or kW, measures charging power: the rate at which energy can be transferred. A kilowatt-hour, or kWh, measures energy: the amount stored or delivered. A charger supplying 7 kW for one hour can theoretically deliver 7 kWh before losses.
Source: US Department of Energy
How long do 7 kW, 11 kW and 22 kW chargers take?
For a 60 kWh usable battery charging from 20% to 80%, theoretical times are about 5 hours 9 minutes at 7 kW, 3 hours 16 minutes at 11 kW and 1 hour 38 minutes at 22 kW. Real times are longer, and 22 kW gives no advantage if the vehicle accepts only 11 kW AC.
How long do 50 kW, 150 kW and 350 kW chargers take?
For the same 60 kWh battery charging from 20% to 80%, constant-power mathematical minimums are about 43 minutes at 50 kW, 14 minutes at 150 kW and 6 minutes at 350 kW. Actual DC charging takes longer because the car may not accept the station’s full rating and power changes during the session.
Will a 350 kW charger always charge faster than a 150 kW charger?
No. A 350 kW station only helps when the vehicle can accept more than 150 kW during a meaningful part of its charging curve. The vehicle limit, state of charge, battery temperature and shared station power can remove the expected advantage.
Why does EV charging slow down after 80%?
Battery management systems commonly reduce DC charging power as the battery fills. Charging above about 80% can therefore take disproportionately longer. The exact taper point and curve vary by vehicle, temperature and battery condition.
Source: US EPA charging basics
Why is my charging speed lower than the charger’s advertised power?
The displayed rating is a maximum, not a guaranteed constant rate. The car’s maximum AC or DC rate, current battery level, battery temperature, battery-management system, charger load sharing and available site power can all reduce delivery.
Source: UK Department for Transport
Do AC and DC chargers use the same vehicle charging limit?
Usually not. With AC charging, the car’s onboard charger converts AC electricity to DC, so its onboard AC rating limits speed. DC fast charging bypasses that onboard conversion equipment and is subject to a separate vehicle DC limit and charging curve.
Do charging losses affect charging time?
Yes. Some energy is lost through the cable, power conversion, battery conditioning and heat. The charger must therefore deliver more energy than the amount ultimately stored in the battery. The calculator exposes its efficiency assumption so you can change it.
How accurate is an EV charging-time calculator?
It is an estimate. Accuracy improves when usable battery capacity, AC and DC limits and a vehicle-specific charging curve are known. Actual time can still change with battery level, age and temperature, vehicle configuration, charger condition and site demand.
Source: US Alternative Fuels Data Center
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