Edmunds Tested: Electric Car Range and Consumption | Edmunds
*Range tested at maximum battery charge to align with EPA estimates. Manufacturer recommends a lower battery charge level for daily use to preserve battery life.
What is EPA estimated range?
In short, this is the approximate number of miles that a vehicle can travel in combined city and highway driving (using a mix of 55% highway and 45% city driving) before needing to be recharged, according to the EPA’s testing methodology.
But what exactly is that methodology? First, the vehicle is fully charged and parked overnight. The following day, the vehicle is driven on a dynamometer — it’s like a treadmill for cars — over successive simulated city and highway routes until the battery is depleted. The total distance traveled is then multiplied by a correction factor that the EPA has determined will more accurately reflect what drivers can expect to achieve in the real world. The value of this correction factor, which is always less than 1 but greater than 0, is determined by the number of drive cycles a vehicle is tested on.
In short, there’s certainly a method to the EPA’s madness, but the process is laboratory-based, and EV owners don’t drive their cars in a lab. So what’s the real-world version? That’s where Edmunds’ EV range testing comes in.
What is EPA estimated consumption?
Akin to miles per gallon (mpg) for fuel-burning vehicles, this metric represents electric vehicles’ energy consumption in kilowatt-hours per hundred miles (kWh/100 miles). A battery stores energy in kilowatt-hours much like a gas tank stores fuel in gallons. This value tells you how much energy in kilowatt-hours a vehicle would use to travel 100 miles.
Unlike mpg, however, where a larger number is better (for example, a vehicle that gets 30 mpg is better than one that gets 20 mpg), a smaller number is better in kWh/100 miles because you are using less battery energy per mile. So a vehicle that uses 20 kWh/100 miles is more efficient than one that uses 30 kWh/100 miles.
In EPA testing, once a vehicle battery is depleted, it is recharged using the manufacturer-supplied charger for that vehicle. The energy consumption is then determined mathematically from the recharging energy, the energy-discharge data from the vehicle, and the distance traveled for each cycle. The recharge energy includes any charging losses due to inefficiencies in the manufacturer’s charger.
What is Edmunds tested range?
Edmunds begins with full battery charge and drives an electric vehicle on a mix of city and highway roads (approximately 60% city, 40% highway) until the battery is almost entirely empty. (We target 10 miles of remaining range for safety.) The miles traveled and the indicated remaining range are added together for the Edmunds total tested range figure. We prefer to use a higher percentage of city road driving because we believe it’s more representative of typical EV use.
What is Edmunds tested consumption?
After a vehicle completes its road loop and the battery is nearly empty, it’s charged back to full capacity. The kilowatt-hours used from plug-in to a full charge are tracked and then we calculate the consumption based on the miles traveled (less the remaining range). This process takes into account charging losses in the Edmunds tested consumption number.
What is Range % difference EPA vs. Edmunds?
This figure is the difference between the EPA’s range estimate and the range tested in Edmunds’ real-world testing. A positive percentage (in green) means Edmunds exceeded the range estimated by the EPA, while a negative percentage (in red) means a vehicle fell short of its EPA range during our test.
What is Consumption % difference EPA vs. Edmunds?
This figure is the difference between the EPA’s energy consumption estimate and the energy consumption Edmunds calculated based on our real-world testing. A positive percentage (in green) means a vehicle used that much less energy than its EPA estimate and was more efficient in Edmunds’ testing. A negative percentage (in red) means a vehicle used that much more energy than its EPA estimate and was less efficient in Edmunds’ testing. Remember, a lower kWh/100 miles number is better if you’re talking EVs.
What is ambient temperature and why does it matter?
Ambient temperature — how cold or hot it is outside — matters a whole lot when it comes to electric vehicle range, so we list the daily average temperature on the day of testing. California, and more specifically Los Angeles, has one of the more temperate climates in the world, which helps keep our testing conditions relatively consistent throughout the year. But since we can’t control the weather, we thought we’d at least report it.
How does Edmunds conduct its testing?
The roads
Edmunds drives on specific road routes that cover both highway and city driving around the greater Los Angeles area. We aim for a mix of 60% city driving and 40% highway, assuming that most electric vehicle owners will likely spend more time in stop-and-go traffic than they will on the open highway. Since no electric vehicle has exactly the same range, the route length is adapted to suit each vehicle.
The methodology
In EPA tests, a vehicle is run in the default settings at startup. If there are more efficient drive modes available, or if you can increase the level of regenerative braking, but the vehicle doesn’t default to these settings, they won’t be utilized. Edmunds’ standard practice is to use the most efficient drive mode as long as it doesn’t affect safety or practical comfort levels, such as deactivating the climate control system or significantly reducing power for accelerating or maintaining appropriate highway speeds.
We run with windows up and the climate control set to auto at 72 degrees, and we maximize regenerative braking during stops. We follow the posted speed limits and keep within 5 mph of them, traffic and conditions permitting.
Which number is more accurate, EPA or Edmunds?
The short answer is neither. So many factors contribute to how far an electric vehicle will travel on a single charge that to come up with a single figure for every situation is impossible. The EPA’s testing is highly controlled and standardized, but as we’ve found in our testing, the real-world correlation can vary dramatically depending on the vehicle.
Because Edmunds’ testing uses a more conservative driving style and puts greater emphasis on city driving over highway driving (compared to the EPA’s mix), our figures will often be on the higher end for range, which usually equates to better efficiency. But that’s not always the case. Overall, our figures are intended to provide EV owners and potential customers with an additional data point so that they can make more informed decisions.