- Geotab data shows average annual EV battery degradation rate of 2.3%, indicating modern batteries continue to perform well over long service lives
- Vehicles relying on high-power DC fast charging above 100 kW experience degradation rates of up to 3.0% per year, roughly double that of vehicles primarily using lower-power charging
- EVs operating in hot climates degrade around 0.4% faster per year than those in mild conditions, though charging power has a greater overall impact on battery health
- Increased daily use leads to higher degradation, but the impact is modest and outweighed by gains in fleet productivity and return on investment
- Degradation accelerates only when vehicles spend more than 80% of their time at very high or very low states of charge
LONDON, Jan. 13, 2026 (GLOBE NEWSWIRE) — Updated electric vehicle (EV) battery health data from Geotab, a global leader in connected vehicle and asset management solutions, shows that modern EV batteries continue to perform strongly through their operational lifespan, even as fast charging becomes more common.
In its updated EV battery health study, the company analysed real-world battery health data from more than 22,700 electric vehicles across 21 makes and models, drawing on several years of aggregated telematics information. The updated analysis shows an average annual battery degradation rate of 2.3%, compared to 1.8% in Geotab’s 2024 findings.
The increase reflects changes in how EVs are being used, most notably a growing reliance on high-power DC fast charging. EV lifespan can be a concern for both individual drivers and fleet operators, particularly as adoption accelerates across commercial and public-sector fleets. By understanding how batteries age under different charging, climate, and utilisation conditions, operators can better manage EV performance, protect battery health, and make more informed decisions about vehicle deployment and charging strategy over the life of the vehicle.
“EV battery health remains strong, even as vehicles are charged faster and deployed more intensively,” said Charlotte Argue, Senior Manager, Sustainable Mobility at Geotab. “Our latest data shows that batteries are still lasting well beyond the replacement cycles most fleets plan for. What has changed is that charging behaviour now plays a much bigger role in how quickly batteries age, giving operators an opportunity to manage long-term risk through smart charging strategies.”
Charging power emerges as the dominant factor
The analysis shows that charging power is now the strongest operational influence on EV battery health. Vehicles that relied heavily on DC fast charging above 100 kW experienced faster degradation, averaging up to 3.0% per year, compared with around 1.5% for vehicles that primarily used AC or lower-power charging.
Other factors, such as climate, showed a smaller independent effect. Vehicles operating in hotter regions degraded around 0.4% faster per year than those in mild climates.
Strict charging rules less critical than once believed
The data also challenges the need for strict day-to-day charging constraints. Vehicles that regularly used a wider state-of-charge range did not show meaningfully higher degradation unless they spent prolonged, habitual periods near full or near empty charge levels.
Higher-use vehicles showed slightly faster degradation, increasing by around 0.8% per year compared to the lowest-use group, but this is an acceptable tradeoff relative to the operational and cost benefits gained from keeping vehicles in service. For many fleets, these productivity gains directly translate into a lower cost per mile over the vehicle’s life.
“For fleets, the focus should be balance,” Argue added. “Using the lowest charging power that still meets operational needs can make a measurable difference to long-term battery health without limiting vehicle availability.”
EV battery degradation explained
Battery degradation is a natural process that reduces the amount of energy a battery can store over time.
Battery condition is measured as state of health (SOH). Batteries begin their life at 100% SOH and deteriorate gradually. For example, a 60 kWh battery operating at 80% SOH effectively behaves like a 48 kWh battery.
Geotab’s data shows that while degradation rates vary by model, charging behaviour, and usage patterns, the majority of modern EV batteries remain fit for purpose well beyond typical ownership and fleet replacement timelines.
Pay attention to EV battery data
Accurate state-of-health information, made possible by comprehensive telematics data, is key to helping people make the best use of electric vehicles. Telematics data insights, which can be found in Geotab’s EV Battery Health report, allows fleets to know the real battery capacity of their EVs, understand the rate of degradation and get the most value throughout their life-cycle.
About Geotab:
Geotab is a global leader in connected vehicle and asset management solutions, with headquarters in Oakville, Ontario and Atlanta, Georgia. Our mission is to make the world safer, more efficient, and sustainable. We leverage advanced data analytics and AI to transform fleet performance and operations, reducing cost and driving efficiency. Backed by top data scientists and engineers, we serve approximately 100,000 global customers, processing 100 billion data points daily from more than 5 million vehicle subscriptions. Geotab is trusted by Fortune 500 organisations, mid-sized fleets, and the largest public sector fleets in the world, including the US Federal government. Committed to data security and privacy, we hold FIPS 140-3 and FedRAMP authorisations. Our open platform, ecosystem of outstanding partners, and Geotab Marketplace deliver hundreds of fleet-ready third-party solutions. This year, we’re celebrating 25 years of innovation. Learn more at www.geotab.com/uk and follow us on LinkedIn or visit our blog.
GEOTAB and GEOTAB MARKETPLACE are registered trademarks of Geotab Inc. in Canada, the United States and/or other countries.
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