What is the real range of the VW id4?
The battery of the Volkswagen ID. Pro Performance has a total capacity of 82 kWh. The usable capacity is 77 kWh. A range of about 255 miles is achievable on a fully charged battery. Depending on your battery and drivetrain configuration, the 2024 Volkswagen ID. EPA-estimated range with its larger 82 kWh battery and rear-wheel drive. Opting for all-wheel drive adds traction and performance but adjusts the range slightly to approximately 263 miles.With a maximum range of up to 223 miles from their 52kWh battery, Pure and Pure Performance cars are best-suited for those looking to spend almost all of their time driving around town. Step up to the 77kWh Pro and Pro Performance models and this figure is boosted to nearly 330 miles.If you buy the 2021, 2022, or 2023 Volkswagen ID. Electrify America station in the U. S. Given that it takes between 30 and 36 minutes to bring your vehicle from 10% to 80% battery, we think that’s a pretty great deal!Depending on your battery and drivetrain configuration, the 2024 Volkswagen ID. EPA-estimated range with its larger 82 kWh battery and rear-wheel drive. Opting for all-wheel drive adds traction and performance but adjusts the range slightly to approximately 263 miles.
What is the range of the VW ID 4 52kWh?
The usable capacity is 52 kWh. A range of about 175 miles is achievable on a fully charged battery. The actual range will however depend on several factors including climate, terrain, use of climate control systems and driving style. Average Miles per kWh for UK Electric Cars (2025) On UK roads, most EVs achieve between 3–4 mi/kWh in real-world driving. Smaller, aerodynamic EVs can push above 5 mi/kWh. Real-World Range (approx. On average, UK EVs achieve 3–4 mi/kWh, while 5+ mi/kWh is considered highly efficient.Contrary to popular belief, electric cars can last just as long, if not longer, than traditional vehicles. Most EVs can achieve 100,000 to 200,000 miles, or a life span of 10 to 20 years, before needing significant battery replacements, depending on driving habits and maintenance.Wh battery with RWD or AWD setups. Both options can allow you to travel well over 200 miles on a single charge. However, the former is optimized for distance, at 291 miles. The latter reaches 263 miles2 and is designed for more power, reaching a 0-60 mph time of 4.In an electric car, the miles per kWh figure tells you how many miles the car will go on 1 kWh, or unit, of electricity. So if your EV has a battery size of 50 kWh and an efficiency rating of 3 miles per kWh, then on average it can travel 150 miles on a fully charged battery (50 kWh x 3 miles per kWh).
What is the range of the 52 kWh battery?
This city car offers up to 410 km range with its 52 kWh battery. The electric motor delivers between 95 and 150 hp depending on the version, ensuring performance for both city and longer trips. Its spacious interior and 326-liter trunk make it a versatile vehicle. How often you charge your EV depends on your personal needs and preferences. Ideally, you should keep your battery between 20 and 80% to maintain good battery health and prolong battery life. It’s also better to charge as little as possible, while keeping your battery above the recommended 20% and below 80%.In short, electric car batteries may lose a small amount of charge while parked, typically around 2-3% per month, as some systems remain active. Despite this, most electric vehicles can be safely parked for weeks or months without major issues. To further protect your EV battery, park in a covered area.The findings revealed no significant difference in battery capacity loss between vehicles that fast charged more than 90% of the time and those that did so less than 10%. These results suggest that frequent fast charging of an EV does not lead to notable battery degradation.Performance from the 52kWh battery and rear-wheel drive EV powertrain is perfectly adequate. In line with most EVs, the car feels quicker than the 0-62mph time of nine seconds suggests, thanks to the surge of power that’s available from low speeds.
What is the range of the ID 4 in KM?
It is powered by a 62 kWh or 82 kWh battery pack (gross capacity) positioned in the underbody. The 82 kWh battery pack offers a range of 245–280 mi (394–451 km) on a full charge on the EPA cycle, depending on version. The 62 kWh battery pack is rated at 209 miles (336 km) by the EPA. Range, Charging, and Battery Life In our testing, the all-wheel drive version delivered a real-world range of 240 miles. EPA estimates for the ID. Wh battery pack sit at 206 miles.The usable capacity is 52 kWh. A range of about 175 miles is achievable on a fully charged battery. The actual range will however depend on several factors including climate, terrain, use of climate control systems and driving style.The battery of the Volkswagen ID. Pro Performance has a total capacity of 82 kWh. The usable capacity is 77 kWh. A range of about 255 miles is achievable on a fully charged battery.Wh battery with RWD or AWD setups. Both options can allow you to travel well over 200 miles on a single charge. However, the former is optimized for distance, at 291 miles.So if your EV has a battery size of 50 kWh and an efficiency rating of 3 miles per kWh, then on average it can travel 150 miles on a fully charged battery (50 kWh x 3 miles per kWh).
What is the range of the VW ID 4 2025?
Id. Pro epa estimated total range is 291 miles. Actual mileage and range will vary and depend on several factors including driving and charging habits, accessory use, temperature and topography, battery age, load, and vehicle condition. Battery capacity decreases with time and use. The volkswagen id4 can be had with either a 52kwh or 77kwh battery, and power outputs range from 146hp to 295hp with ranges from 220 miles to 328 miles.The battery of the Volkswagen ID. Pro Performance has a total capacity of 82 kWh. The usable capacity is 77 kWh. A range of about 255 miles is achievable on a fully charged battery.
Is 20 kWh per 100 km good?
The higher the charging power, the higher the price per kWh—but even at the top end, EVs remain cost-effective. Average consumption ranges from 15 to 22 kWh/100 km depending on the model and driving conditions. Reaching full capacity puts considerable strain on the battery’s chemical reactions, while staying at a lower charge level like 80% creates less stress. By minimizing stress, charging to 80% helps to slow down the natural process of battery capacity loss over time.Battery degradation is a common concern among EV owners and the ID. Over time, lithium-ion batteries lose capacity, affecting the vehicle’s range and overall performance.Reduced battery degradation Charging your EV up to 80% can help your vehicle’s battery last longer because the battery finds it easier to charge when it is slightly empty rather than nearly full. Therefore, causing less stress within its charging cycle.EV battery lifespan: Most EV batteries last 15-20 years, with an average degradation rate of about 1. Impact of charging methods: Frequent use of DC fast charging can accelerate battery degradation, especially in hot climates.