Tesla is unquestionably at the forefront of the electric vehicle revolution. A Tesla battery is state-of-the-art and offers fantastic runtimes. When purchasing an electric vehicle, this is a crucial consideration. It’s safe to assume that the battery’s performance will be up to par, given Tesla’s dedication to R&D.
Which Tesla model you drive will determine how long your battery will last. How well you keep up with the battery maintenance on your Tesla will also have a role.
How Long Does a Tesla Battery Last?
The life of a Tesla battery depends on several factors, including driving conditions, charging habits, and temperature. On average, a Tesla battery will last for about 300,000 to 500,000 miles. However, some Tesla batteries have been known to last for up to 1 million miles or more.
In terms of battery degradation, Tesla has a very good track record. The company’s warranty for its batteries states that the battery pack in a Tesla Model S or Model X will retain at least 70% of its capacity after eight years or 125,000 miles, whichever comes first. The battery pack in a Tesla Model 3 is covered by the same warranty, but the capacity retention requirement is at least 70% after eight years or 150,000 miles.
In addition to the warranty, Tesla also offers a Battery Replacement program, which allows owners to purchase a new battery pack at a reduced cost after their current battery reaches a certain level of degradation. This program is designed to help extend the life of Tesla vehicles and make them more affordable to own over the long term.
Overall, Tesla batteries are designed to be very durable and long-lasting, and with proper care and maintenance, they should be able to provide many years of reliable service.
Factors Determining the Battery Life of your Tesla
Tesla’s batteries vary depending on which model you own. These batteries are of a special kind, and not just because of their size or capacity.
Chemistry of Battery Cells
Standard-range electric vehicles and long-range electric vehicles are Tesla’s two primary product lines.
Tesla’s First Batteries Were Nickel-Based.
In the beginning, Tesla produced nickel-cobalt batteries for their EVs. When compared to lithium-ion batteries, these were noticeably less powerful. They were limited in their distances.
The batteries’ reduced capacity and output power came from their decreased voltage. Therefore, nickel batteries do not have a particularly long lifespan.
A Tesla battery with nickel cells can travel nearly 100,000 miles before needing to be replaced. A lot less than what you get with lithium-ion batteries, which is already really low.
Tesla Sifted to Lithium-ion Batteries
Tesla’s Shanghai, China factory has transitioned to manufacture Lithium-ion batteries. Automobiles powered by Tesla’s lithium-ion batteries were a hit in China, Asia, and even some of Europe.
In October 2021, Tesla made the decision to switch all of its standard-range vehicles to lithium-ion batteries. The Tesla Roadster is only one example of a long-range car that uses lithium-ion batteries.
Tesla has outlined the advantages of lithium-ion batteries over nickel and lead-acid variants. The capacity and longevity of lithium-ion batteries have been purposefully increased in their design.
These batteries maximize power, allowing a Tesla to travel far on a single charge and to last longer overall.
Elon Musk stated in 2019 that the range of a Tesla’s lithium-ion battery is 300,000 to 500,000 miles. This is equivalent to roughly 1,500 full and empty charges.
The lithium-ion battery-powered Tesla Model S can travel up to 752 miles on a single charge. When it comes to battery-powered vehicles, this is among the best ranges ever made available.
Unfortunately, lithium-ion batteries are more delicate and vulnerable to high or low temperatures. Because of this, Tesla advises maintaining their batteries on a regular basis.
Tesla still use lead-acid batteries in some of their electric vehicles. When compared to other types of batteries, lead-acid ones have shorter shelf lives and less power. On the other hand, lead-acid batteries are less expensive and more resistant to temperature swings.
Battery Size and Capacity
The capacity of a battery to hold a charge is an indication of its usefulness. A larger battery is required to store more charge, resulting in increased capacity.
Tesla batteries lose some of their power after being completely drained. The battery life will be shortened as a result of this. The capacity of a Tesla battery increases with its size. Consequently, the greater its durability.
Tesla has persistently worked to increase both the size and range of its batteries over the years. In 2015, Tesla focused heavily on expanding the range and efficiency of its batteries. The battery capacity increased from 60kWh to 70kWh.
When the next year rolled along, Tesla had upgraded the identical battery to produce 100 kilowatt-hours instead. With this improvement, the battery life, efficiency, and range were all maximized.
Tesla has been doing the same thing, gradually increasing the capacity of its batteries year after year. As a result, they’ll have a longer lifespan.
Take a look at the data below to see how battery life varies with battery size and capacity (range). Battery size, capacity, and range for the Model S are listed in the table.
The way you drive your Tesla might also affect the battery’s capacity and lifespan.
The greater the vehicle’s weight, the more frequently the Tesla’s batteries must be charged.
As the number of people increases and the amount of luggage increases, the Tesla’s battery will have to work harder to support everyone. The battery’s capacity is diminished as a result of this strain. So, the battery won’t last as long as it otherwise would have.
Acceleration for Long Periods of Time
Fast driving is dangerous, as is driving with frequent acceleration changes. It is a quick drain on the Tesla’s battery. Because of this, your Tesla’s battery would drain more faster than usual.
Your Driving Route
These days, lithium-ion batteries are standard in Tesla automobiles. These batteries easily overheat because of their delicate design. Your Tesla’s battery life/charge will be shortened if it has to climb numerous steep inclines.
This reduces the total battery life expectancy over time.
Advantages abound when using lithium-ion batteries. Their temperature sensitivities, however, are a drawback.
If you start driving while the battery is still cold, without first allowing it to warm up, you will get less mileage out of the battery overall.
Additionally, your battery could die if you drove in extreme heat. The entire battery life/charge will reduce if you don’t let it rest and cool down.
If you want your battery to last longer and have more range this winter, follow these guidelines.
There is a correlation between humidity and battery degradation. Some battery connections may deteriorate if you drive in the weather for multiple days straight. There will be a decrease in the battery’s charge life expectancy over time.
When driving into a high wind, the battery will drain faster than if you were driving with the breeze. Therefore, the time between charges is shortened.
Short Trips and Frequent Brakes
Restarting your Tesla repeatedly for short trips isn’t practical. Additional battery power is consumed with each restart of your Tesla.
Additionally, repeated braking places strain on the battery. So, shorter excursions and lots of stopping and starting drain the battery faster.
Battery Charging and Discharging
Charging and Discharging
The lifespan of your electric vehicle is directly related to how frequently you charge it.
In an electric vehicle, the battery’s entire capacity diminishes each time it is completely depleted. This shortens the battery’s ability to hold a charge and shortens its useful life.
The Tesla’s charging range is practically perfect. Charge between 20% and 90%, as suggested by Elon Musk himself. Reduced battery life is expected at these levels of charge, but will also occur at lower and higher charges.
The battery’s lifespan is shortened when it is discharged for extended periods of time.
Charging in Extreme Conditions
If the Tesla battery’s temperature is abnormal, you shouldn’t charge it.
Your driving habits can be analyzed with the help of the car’s built-in energy app. It also offers recommendations for how much to charge and when.
Battery life may decrease if the energy app’s recommendations are disregarded.
How to Make Your Tesla Batteries Last Longer?
There are several things you can do to help extend the life of your Tesla battery:
- Charge the battery properly: It’s important to charge your Tesla battery correctly to ensure that it lasts as long as possible. Avoid charging the battery to 100% all the time, as this can cause it to degrade faster. Instead, aim to charge the battery to 80% or 90% and then let it drop to a lower level before recharging it again. This can help reduce the strain on the battery and improve its overall lifespan.
- Avoid extreme temperatures: Extreme temperatures can be hard on a Tesla battery. Try to avoid leaving the battery in very hot or very cold conditions for long periods of time. If you can, park your Tesla in a garage or covered area to help protect it from the elements.
- Use the right charging equipment: Make sure to use only Tesla-approved charging equipment to ensure that your battery is charged safely and efficiently. Using non-approved chargers or cables can damage the battery or even cause a fire.
- Follow regular maintenance schedules: Just like any other car, a Tesla needs regular maintenance to keep it running smoothly. This includes things like keeping the battery clean, checking the charging system, and replacing worn parts. By following the recommended maintenance schedule, you can help ensure that your Tesla battery stays in good working order.
- Drive responsibly: Finally, try to be mindful of how you drive your Tesla. Aggressive driving and harsh braking can put extra strain on the battery and cause it to degrade faster. Instead, try to drive smoothly and efficiently to help extend the life of your battery.
When it comes to electric cars, Tesla continues to dominate the market. It has revolutionized expectations regarding battery life and performance.
Variables such as battery capacity, driving style, and age all affect how long a single charge lasts and how long a Tesla can be driven before needing to be replaced. If you don’t take good care of it, you may end up needing an expensive transplant. Batteries can last longer and perform better with a few simple upkeep procedures. Some of these habits include maintaining a regular charging schedule and driving at moderate speeds.