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⚡ EV Charging Cost Calculator

Calculate charging costs for any EV — home, public, or DC fast charging. Plan road trips, estimate monthly bills, and see your annual savings vs gasoline.

Your EV
Older EVs lose capacity — reduce if your real-world range is lower than rated. 100% = new battery.
Charge Session
Charger Type
L1
1.4 kW
Home L2
7.7 kW
Public L2
11.5 kW
DC Fast
50 kW
DC Fast+
150 kW
Ultra
350 kW
Electricity Rate
Gas Comparison
Charging Cost
kWh Added
Range Added
Cost per Mile
Miles per Hour
Charge Time
vs Gas (same miles)
TOU Savings
Annual Fuel Savings
Cost = kWh × Rate
¢/mi = Rate ÷ Efficiency
Time = kWh ÷ kW
Chart: charger bar chart.
ChargerPowermi/hrTimeCost
Monthly Driving
Typical EV owners charge ~80–90% at home.
Rates
Leave blank or set equal to Home Rate to ignore TOU.
Gas Comparison
Level 2 Charger ROI
Typical range: $600–$1,500 installed. Federal tax credit may offset 30%.
Monthly Charging Cost
kWh / Month
Home Cost
Public Cost
Annual EV Cost
Annual Gas Cost
Annual Savings
TOU Potential Savings
L2 Charger Payback
Chart: monthly donut chart.
Chart: savings line chart.
mi/moMonthly CostAnnual Costvs GasAnnual Savings
Trip Details
Your EV (for this trip)
Highway: subtract ~10–15% from EPA
Charging Strategy
Stop to charge when SOC drops here
80% is optimal (above 80% DC fast charging slows)
DCFC Charger
50 kW
150 kW
250 kW
350 kW
Total Trip Cost
Charging Stops
kWh Added
Charging Time
Driving Time
Total Trip Time
Cost per Mile
Gas Car Cost
EV Savings vs Gas
Trip Route
Charging Stop Details
StopAt MileSOC InSOC OutkWhTimeCost
Charger Speed Impact on This Trip
ChargerStopsCharging TimeTotal TimeTotal Cost
Energy Price Scenarios

How do your savings change if electricity prices spike or gas prices drop?

Sensitivity Matrix — Annual Savings

Annual fuel savings vs gasoline across different electricity rates and monthly mileage. Current scenario highlighted.

Vehicle Comparison

Compare any two EVs side-by-side using your current charger and rates.

vs
Chart: vehicle compare chart.
5-Year Fuel Cost Snapshot

Based on your current inputs — monthly miles, rates, and gas price.

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How to Use This Calculator

1

Select Your EV

Pick your vehicle from the model dropdown — battery size and efficiency auto-fill. Or enter custom values manually.

2

Set Your Electricity Rate

Use the state picker to auto-fill your local rate, or enter it manually from your utility bill. Enable TOU rates for overnight charging savings.

3

Choose Charge Level

Select Level 1, Level 2, or DC Fast Charging. Set your current and target battery percentage for an accurate session cost.

4

Explore All Four Tabs

Tab 1 shows per-session costs and charger comparisons. Tab 2 shows monthly/annual costs and savings vs gas. Tab 3 plans road trips with stop-by-stop charging detail. Tab 4 runs scenario analysis, sensitivity matrices, and 5-year cost projections.

Frequently Asked Questions

Advanced How much does it cost to fully charge an EV at home?
At the US average of ~$0.14/kWh, charging a 75 kWh battery from empty to full costs about $10.50. For a Tesla Model 3 LR (82 kWh), it is $11.48. In California at $0.28/kWh, the same charge costs $22.96. In states with cheap power like Louisiana ($0.096/kWh), it is just $7.87.
Basics What is the cheapest way to charge an EV?
Home Level 2 charging during off-peak hours using a time-of-use (TOU) rate plan is almost always cheapest. Many utilities offer EV-specific rates as low as 5-9 cents/kWh overnight. Public Level 2 costs 2-3x more, and DC fast chargers 3-4x more than home charging.
Advanced How many charging stops do I need on a road trip?
Plan stops every (battery kWh x efficiency x 0.7) miles. The 0.7 factor accounts for the 20-80% window and safety buffer. A Tesla Model 3 LR (82 kWh, 4 mi/kWh) needs a stop roughly every 230 highway miles. Use our Road Trip Planner tab for exact calculations.
Advanced Why is DC fast charging more expensive?
Fast chargers require expensive infrastructure ($30,000-$200,000+ per station) and electricity demand charges from utilities. Operators charge $0.30-$0.60/kWh to cover costs. Despite the premium, DCFC is still typically cheaper per mile than gasoline.
Advanced Is it bad to charge to 100% every day?
Most manufacturers recommend daily charging to 80% to maximize battery health. Lithium-ion batteries degrade faster at high states of charge. Charge to 100% only before long trips. The 20-80% rule can meaningfully extend battery life over 5-10 years.
Advanced How much does an EV save vs a gas car per year?
For 12,000 miles/year: a 4 mi/kWh EV at $0.14/kWh costs ~$420 in electricity. A 28 MPG gas car at $3.50/gal costs ~$1,500 — about $1,080 in annual savings. In low-rate states, savings can exceed $1,400/year.
Basics What is the difference between Level 1, Level 2, and DC fast charging?
Level 1 (120V): 1.4 kW, adds 3-5 miles/hour, full charge in 24-72 hours. Level 2 (240V): 7-11 kW, adds 20-30 miles/hour, full charge in 6-10 hours. DC Fast: 50-350 kW, adds 100-400+ miles/hour, 20 to 80% in 15-45 minutes.
Advanced Does cold weather affect EV charging costs?
Yes. Cold weather reduces range by 20-40% and slows fast charging. Battery conditioning uses additional electricity. In winter, budget 20-30% more for electricity consumption. Reduce your mi/kWh value by 15-30% for winter scenarios.

Formula & Methodology

Session Charging Cost
Cost = Battery (kWh) x (Target% - Current%) x Rate ($/kWh) + Session Fee
A 75 kWh battery from 20% to 80% adds 45 kWh. At $0.14/kWh that is $6.30.
Cost per Mile
Cost/mile = Rate ($/kWh) / Efficiency (mi/kWh)
At $0.14/kWh and 4 mi/kWh: 3.5 cents/mile. A 28 MPG gas car at $3.50/gal costs 12.5 cents/mile.
Charge Time
Time (hrs) = kWh Added / Charger Power (kW)
Adding 45 kWh on a 7.7 kW Level 2 charger takes 5.8 hours. On a 150 kW DC fast charger: 18 minutes.
Annual Fuel Savings
Savings = (Miles / MPG x Gas Price) - (Miles / mi_per_kWh x Elec Rate)
Compares your yearly gas cost against your yearly electricity cost for the same mileage.
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Key Terms Explained

kWh (Kilowatt-hour) The unit of energy used for both battery capacity and electricity billing. A 75 kWh battery stores 75 kilowatt-hours of energy.
SOC (State of Charge) The percentage of your battery's capacity that is currently charged. Charging from 20% to 80% SOC adds 60% of the total capacity.
Level 1 Charging Standard 120V outlet, ~1.4 kW. Adds 3-5 miles per hour. Best for low daily mileage or as a backup.
Level 2 Charging Dedicated 240V circuit, 7-11 kW. Adds 20-30 miles per hour. The standard home setup for most EV owners.
DC Fast Charging (DCFC) Direct current at 50-350 kW. Charges 0 to 80% in 15-45 minutes. Costs 2-3x home charging rates.
TOU (Time-of-Use) Rates Utility pricing that varies by time of day. Off-peak rates (overnight) are 30-60% cheaper than peak rates.
Efficiency (mi/kWh) How far your EV travels per kilowatt-hour. Higher is better. Ranges from ~1.4 (Hummer EV) to ~5.5 (Lucid Air).
MPGe Miles Per Gallon Equivalent. EPA metric comparing EV efficiency to gas vehicles. 33.7 kWh = 1 gallon of gasoline energy.
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Real-World Examples

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Daily Commuter — Home Level 2

Tesla Model 3 LR (82 kWh, 4.2 mi/kWh), 40 miles/day, $0.13/kWh. Daily energy: 40 / 4.2 = 9.5 kWh. Daily cost: 9.5 x $0.13 = $1.24. Annual: $453. Gas equivalent (28 MPG, $3.50/gal): $1,825/yr. Annual savings: $1,372.
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The Complete Guide to EV Charging Costs

Home Level 2 charging is almost always the most economical option, typically costing $0.10-$0.28/kWh depending on your state. Public Level 2 stations average $0.25-$0.40/kWh, and DC fast chargers range from $0.30-$0.60/kWh. For a driver doing 1,000 miles/month with a 4 mi/kWh EV, switching from 100% public charging to 80% home charging saves roughly $420/year.

Most EV owners do not realize that calling their utility and asking for an EV or time-of-use rate plan can cut their charging costs by 30-60%. Overnight off-peak rates as low as $0.05-$0.09/kWh are available in many regions. A Level 2 home charger ($600-$1,500 installed) lets you take full advantage of overnight rates and also qualifies for the federal 30% tax credit (up to $1,000) under the Inflation Reduction Act.

Most modern EVs with 200+ miles of range can handle the majority of US highway corridors using DC fast charger networks such as Tesla Supercharger, Electrify America, ChargePoint, and EVgo. The key to efficient road trip charging: target 20 to 80% at each stop (above 80%, charging slows dramatically), use in-car navigation to pre-condition the battery before arriving, and look for stations near amenities to make the 20-30 minute stop productive.

Fuel savings are only part of the EV cost advantage. EVs have no oil changes ($100-$200/year), fewer brake jobs due to regenerative braking, no spark plugs or timing belts, and simpler drivetrains. Consumer Reports estimates EV owners spend about half as much on maintenance as gas vehicle owners. Combined with fuel savings of $1,000-$1,500/year, the total annual operating cost advantage can be $2,000-$2,500, often offsetting the higher purchase price within 4-6 years.

The cost per mile for EV charging varies significantly by location and method. In states like Washington and Louisiana where electricity is cheap, an EV costs just 2-2.5 cents per mile compared to 10-15 cents for a gas car. Even in expensive electricity states, EVs still cost less per mile in most scenarios. The key variables are your local electricity rate, whether you can charge at home, and whether you have access to time-of-use pricing.

Battery degradation is a common concern but rarely affects charging costs significantly. Modern EV batteries lose about 1-2% capacity per year under normal use. After 10 years, a battery retaining 80-85% capacity means slightly more frequent charging but negligibly higher costs. The much larger cost factor is where and when you charge, not battery age.