EV Charging Time Calculator (with Curve, Costs & Chart)
Enter battery size, start/target SoC, and charging power. The calculator estimates charging time, energy from the outlet (incl. efficiency), costs, and shows a SoC-time curve.
Explanation: How the Charging Time Calculator works
Additionally, efficiency is factored in. Depending on the setup and temperature, a percentage of energy is lost as heat (e.g., in cables, electronics, and battery conditioning). That's why we distinguish between "Energy in Battery" and "Energy from Outlet." Example: If 30 kWh reach the battery and the efficiency is 90%, approximately 33.3 kWh must be drawn from the grid. This serves as the basis for the cost estimation (Electricity Price × Grid Energy).
Optionally, you can activate the charging curve. Many EVs reduce power after reaching about 80% SoC ("taper") to protect the battery and balance cell voltages. The taper factor describes the average power in the range above 80% compared to the effective power before it. A value of 0.55 means: above 80%, we charge on average at only 55% of the previous power. For the SoC-Time curve, we simulate the charging process in small steps and draw a diagram. This way, you can see immediately why 20→80% is often fast, but 80→100% feels like it takes "forever."
FAQ 1: Why is the charging time often longer than "kWh ÷ kW"?
FAQ 2: What values are "typical" for efficiency?
FAQ 3: What should I set for the Taper Factor?
FAQ 4: Can I use multiple calculators on one page?
FAQ 5: Is the result "accurate"?
EV Charging Time Calculator: Charge Duration, Energy Cost & Range per Charger Type
This calculator estimates the time needed to charge an electric vehicle from any starting state-of-charge (SoC) to a target SoC, the total energy drawn, charging cost at your electricity price, and the range gained — for all common charger types from home wallbox to 350 kW ultra-rapid DC. A simulated charging curve accounts for the real-world slowdown above 80% SoC that all lithium-ion batteries exhibit.
All Charger Types
AC home charging (1.4–7.4 kW), wallbox (11–22 kW), public AC (22 kW), DC fast charging (50–150 kW), and ultra-rapid DC (150–350 kW). Enter any custom power if your charger differs.
Charging Curve Simulation
Real charging time above 80% SoC is significantly longer than a linear calculation suggests. The calculator simulates the CCS/CHAdeMO taper curve: full charger power up to ~80%, then gradual reduction to protect battery longevity.
Cost at Your Electricity Price
Enter your home electricity tariff (e.g., €0.31/kWh) or a public charging rate (e.g., €0.49/kWh) to see total charging cost for the session. Comparison panel shows home vs. public cost for the same charge.
Range Added
Calculates range gained (km) based on your vehicle's real-world consumption (kWh/100km). Adjustable for summer/winter mode — cold weather typically reduces range by 20–35% due to battery thermal management and heating load.
SoC Progress Chart
Live chart shows state-of-charge over time during the charging session, with the 80% taper point clearly marked. Useful for planning charging stops on long trips.
EV Charger Types: Speed, Compatibility & Typical Use Cases
| Charger type | Power | 0→100% time (60 kWh battery) | Typical use case |
|---|---|---|---|
| 3-pin household socket | 1.4–2.3 kW AC | 26–43 h | Emergency / very low daily mileage |
| Home wallbox (single phase) | 3.7–7.4 kW AC | 8–16 h | Overnight home charging — most common |
| Home wallbox (3-phase) | 11 kW AC | ~5.5 h | Overnight; faster for larger batteries |
| Wallbox 22 kW / public AC | 22 kW AC | ~3 h | Workplace / destination charging |
| DC fast charger | 50–100 kW DC | 45–75 min (to 80%) | En-route charging stops |
| DC rapid (e.g., Ionity 150 kW) | 150 kW DC | ~25–35 min (to 80%) | Highway charging corridors |
| Ultra-rapid DC (350 kW) | 350 kW DC | ~10–15 min (to 80%) | Hyper-fast stops (requires compatible vehicle) |
Important: Actual charging speed is always limited by the lower of (a) the charger's rated power and (b) the vehicle's maximum AC or DC charge rate. A vehicle with an 11 kW AC onboard charger will charge at maximum 11 kW even if connected to a 22 kW wallbox. For DC charging, vehicles have a separate DC charge rate limit — check your vehicle's specification sheet.
Common EV Battery & Charging Specs (Europe Market, 2025–2026)
| Vehicle | Battery (usable) | Max AC charge | Max DC charge | WLTP range |
|---|---|---|---|---|
| Tesla Model 3 LR (2024) | 75 kWh | 11 kW | 250 kW | 629 km |
| VW ID.4 Pro (2024) | 77 kWh | 11 kW | 135 kW | 531 km |
| Hyundai Ioniq 6 LR RWD | 77.4 kWh | 11 kW | 240 kW | 614 km |
| BMW iX1 xDrive30 | 64.7 kWh | 11 kW | 130 kW | 440 km |
| Renault Megane E-Tech EV60 | 60 kWh | 22 kW | 130 kW | 450 km |
| Dacia Spring (entry level) | 26.8 kWh | 7 kW | 30 kW | 220 km |
| Mercedes EQS 450+ | 107.8 kWh | 22 kW | 200 kW | 780 km |
Frequently Asked Questions
Why does charging slow down after 80% SoC?
All lithium-ion batteries — including those in electric vehicles — use a two-stage charging process. In stage 1 (constant current / CC phase), the charger delivers maximum power up to approximately 80% SoC, filling the battery quickly. In stage 2 (constant voltage / CV phase), the charger reduces current to protect the battery cells from overcharging, which degrades lithium-ion chemistry rapidly. This taper is not a bug or a charger limitation — it is a deliberate battery protection measure. The practical consequence: charging from 0–80% takes roughly the same time as charging from 80–100%, even though it is only half the energy. For road trips, most EV planning apps recommend charging to 80% at fast chargers and continuing — it is much more time-efficient than waiting for 100%.
How much does it cost to charge an EV at home vs. public charging in Germany?
Home charging (2026 average German household tariff ~€0.29–0.34/kWh): charging a 60 kWh battery from 20% to 80% costs approximately €10.50–12.20 (48 kWh × price), giving roughly 250–300 km of range — equivalent to about €3.50–4.50/100km. Public AC charging (~€0.35–0.55/kWh): same 48 kWh charge costs €16.80–26.40. DC rapid charging at highway stops (€0.49–0.89/kWh depending on network): €23.50–42.70 for the same session. The cost difference between home and public DC rapid is roughly 3–4×, which is why EV owners who can charge at home do 80–90% of their charging there. With home solar PV, the effective charging cost can drop to near €0 during peak generation hours.
Does cold weather significantly affect charging speed?
Yes — cold batteries charge significantly more slowly than warm ones. Below approximately 10°C, DC fast charging speed can be reduced by 30–70% until the battery management system (BMS) has warmed the battery to its optimal operating range (typically 25–35°C). Most modern EVs include battery pre-conditioning: when you set a DC charging station as your navigation destination, the car begins warming the battery 15–20 minutes before arrival, ensuring you arrive with the battery ready for full charging speed. Without pre-conditioning (or in vehicles without this feature), arriving at a DC charger in winter can mean starting at 20–30 kW instead of the rated 150+ kW, with speed gradually increasing as the battery warms. The charging time calculator includes a winter mode that applies a conservative thermal management correction factor.
What wallbox power should I install at home?
For most households, an 11 kW three-phase wallbox is the optimal choice. It charges a 60–80 kWh battery overnight in 5–8 hours — more than fast enough for typical daily mileage of 40–80 km. A 22 kW wallbox charges twice as fast but most EVs only accept 11 kW AC anyway (check your vehicle's AC charge rate limit), so the extra power is wasted. A 3.7 kW single-phase wallbox is sufficient only for low daily mileage or plug-in hybrids with small batteries. Installation cost for a standard 11 kW wallbox in Germany (2026): typically €800–1,500 including KEBA/Mennekes/Heidelberg hardware, electrical work, and connection to your home circuit. If you have a PV system, choose a wallbox with solar charging integration to maximise cheap self-generated electricity for vehicle charging.
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