Tesla has been at the leading edge of electric vehicle technology, offering drivers the capability to reduce their carbon footmark while enjoying top-notch performance. One of the ways Tesla has continued to introduce is by furnishing battery upgrades to its vehicles, allowing drivers to enjoy indeed longer range on a single charge.
Tesla battery upgrade refers to the process of upgrading the battery capacity of a Tesla vehicle, either by replacing the battery with a larger one or by installing a fresh battery pack. The battery upgrade can affect raised range, bettered acceleration, and better overall performance of the vehicle.
So do you want to explore the Tesla battery upgrade options, how they work, and what benefits they offer? Lets see Tesla battery upgrade 60 kwh to 100 kwh and 75 kwh to 100 kwh options.
Tesla Model S Battery Upgrade Options
| Model | Original Battery | Upgraded Battery | Increase in Range |
| S 60 | 60 kWh | 100 kWh | Up to 130 miles |
| S 75 | 75 kWh | 100 kWh | Up to 98 miles |
Tesla Model X Battery Upgrade Options
| Model | Original Battery | Upgraded Battery | Increase in Range |
| X 60 | 60 kWh | 100 kWh | Up to 130 miles |
| X 75 | 75 kWh | 100 kWh | Up to 98 miles |
Tesla Model 3 Battery Options (Long Range)
| Model | Original Battery | Upgraded Battery | Increase in Range |
| 3 LR | 75 kWh | 82 kWh | Up to 31 miles |
Tesla Battery Upgrade: Boosting Range from 75kWh to 100kWh
Tesla also offers an option to upgrade the 75kWh battery in the Model S and Model X to a 100kWh battery. Depending on the vehicle’s model and driving conditions, this upgrade may extend the vehicle’s range by over 98 miles. The 75kWh to 100kWh upgrade, like the 60kWh to 100kWh upgrade, requires modifying the software of the vehicle and replacing the original battery with one with a larger capacity.
Upgrading a Tesla to a larger battery pack isn’t just about range, it’s also about performance. The larger battery pack provides more power to the electric motors, allowing for faster acceleration and overall better performance.
Fred Lambert, Electrek
Tesla Battery Upgrade Options: Long Range and Standard Range
Tesla vehicles can upgrade their batteries in one of two ways Standard Range and Long Range.
The Standard Range battery has a lower capacity but offers a lower range, whereas the Long Range battery has a larger capacity and provides a lesser range.
On a single charge, the Tesla Model S, for illustration, can travel up to 405 miles with a Long Range battery, while the Model S, on the other hand, can travel up to 326 miles with a Standard Range battery.
Several of Tesla’s models, including the Model S, Model X, and Model 3, can have their batteries upgraded. Tesla offers a 100-kWh battery option for the Model S and Model X, replacing the original 60-kWh battery. Depending on the model and driving conditions, this upgrade can extend the vehicle’s range by over 130 miles.
| Model year | Trim | Battery capacity | Range |
| 2017 | Standard | 75 kWh | 259 miles |
| 2018 | Standard | 75 kWh | 315 miles |
| 2019 | Long Range | 100 kWh | 370 miles |
| 2020 | Long Range | 100 kWh | 402 miles |
| 2021 | Standard Range Plus | 50 kWh | 275 miles |
The original battery will be replaced with a brand-new battery with a lesser capacity as part of the upgrade. The vehicle’s longer range is due to the larger battery’s capacity to store further energy. The update also incorporates changes to the vehicle’s product, which improves the battery’s presentation and guarantees that the vehicle can deal with the expanded power and reach.
Benefits of Tesla Battery Upgrades
The primary benefit of a Tesla battery upgrade is the raised range it provides. With a larger capacity battery, drivers can travel further on a single charge, reducing the need for frequent charging stops. This can be especially helpful for long road passages or for drivers who regularly travel long distances.
In addition to the increased range, a Tesla battery upgrade can also give a bettered performance. With further power available, drivers can enjoy faster acceleration and better overall performance.
This can be especially conspicuous in the Model S and Model X, which are known for their emotional acceleration and handling. Another benefit of a Tesla battery upgrade is the possibility of future software updates. With a larger capacity battery, drivers may be suitable to take advantage of new software features that bear further power or range.
Tesla Superchargers: How They Work and Their Impact on EV Charging Infrastructure
As more and more people borrow electric vehicles, one of the most burning enterprises is structure. While charging stations are growing decreasingly common, one of the crucial challenges is ensuring that EV owners can quickly and easily recharge their vehicles, especially during long road passages. This is where Tesla’s Superchargers come into play. In this composition, We’ll take a near look at how these chargers work and the impact they’re having on the overall EV charging structure.
What are Tesla Superchargers?
Tesla Superchargers are a personal network of DC fast-charging stations designed specifically for Tesla vehicles. These chargers can give up to 170 kW of power, allowing Tesla drivers to recharge their vehicles in a matter of minutes. Superchargers are generally located near highways and other major trip routes, making them ideal for long-distance trips.
How do Tesla Superchargers work?
Tesla Superchargers use a DC fast-charging system that can deliver high situations of power to a vehicle’s battery. When a Tesla vehicle is plugged into a Supercharger, it communicates with the bowl to determine the ideal charging rate based on factors similar to the battery’s current state of charge and temperature. Once the charging rate is determined, the Supercharger delivers the necessary amount of power to the battery.
Unlike utmost other EV charging stations, Tesla Superchargers have a liquid-cooled cable that allows for advanced charging rates and more effective charging. This cable also helps to minimize heat buildup, which can extend the life of the charger.
Tesla Superchargers are also equipped with a unique cooling system that circulates water through the charger to dissipate heat. This helps to maintain the charger’s performance over time and reduces the risk of overheating.
Impact on EV charging infrastructure
Tesla Superchargers have had a significant impact on the overall EV charging structure. By supplying a fast and accessible way to recharge EVs, these chargers have helped to ease some of the range anxiety that can be a concern for new EV owners. In addition, the Supercharger network has helped to make the long-distance trip in an EV more doable.
The Supercharger network is also designed to be expandable, allowing Tesla to add new stations as demand grows. Tesla has plans to double the number of Supercharger stations worldwide by the end of 2021. This expansion will help to further increase the availability and convenience of Superchargers for Tesla owners.
Another impact of the Supercharger network is that it has prodded other automakers to invest in their fast-charging networks. This is because Tesla’s Superchargers have demonstrated that fast-charging stations can be profitable and can help to drive EV embracement. As a result, other automakers are now investing in their charging networks, which will help to increase the overall availability of fast-charging options for EV owners.
Tesla Superchargers are a crucial element of the overall EV charging structure. These chargers give a fast and accessible way for Tesla owners to recharge their vehicles and have helped to ease some of the concerns around range anxiety.
In addition, the Supercharger network has had a significant impact on the overall EV industry, prodding other automakers to invest in their fast-charging networks. With plans to expand the Supercharger network even further, Tesla is well deposited to continue leading the way in the EV industry.
The Future of Electric Vehicles: What Advances Can We Expect in Battery Technology?
Electric vehicles( EVs) have become progressively popular in recent times, thanks in part to advancements in battery technology that have led to advanced range and performance. But as EV adoption continues to grow, numerous are looking to the future and wondering what advances we can anticipate in battery technology. In this article, we’ll explore some of the crucial advancements that are on the horizon.
Solid-state batteries
One of the most promising advancements in battery technology is the development of solid-state batteries. Unlike the liquid electrolyte used in traditional lithium-ion batteries, solid-state batteries use a solid electrolyte that’s more stable and less ignitable. This results in a safer and further energy-thick battery that could give a longer range and faster charging times.
Several companies, including Toyota, BMW, and Volkswagen, are working on developing solid-state batteries. Toyota has published plans to introduce a solid-state battery-powered EV by 2025.
Graphene batteries
Graphene is a form of carbon that’s known for its strength and conductivity. It’s also a promising material for use in batteries. Graphene batteries can give advanced energy density, faster charging times, and longer life cycles than traditional lithium-ion batteries.
Researchers at the University of Manchester have developed a graphene-based battery prototype that’s said to be suitable to charge an EV in just 10- 20 minutes, while also providing a range of over 300 miles.
Silicon anodes
The anode is one of the crucial factors of a lithium-ion battery. Traditionally, anodes are made from graphite, but silicon has surfaced as a promising alternative. Silicon has a much more advanced theoretical energy capacity than graphite, which means that batteries with silicon anodes could give advanced energy density and longer range.
Several companies, including Tesla, are working on developing silicon anode technology. Tesla has filed several patents related to silicon anodes, suggesting that the company sees this technology as a crucial area of focus for unborn battery development.
Battery recycling
Another area of focus for battery technology advancement is reclaiming. As EV adoption continues to grow, there will be a significant increase in the number of batteries that need to be reclaimed. Developing more effective and cost-effective recycling forms will be pivotal to ensuring that these batteries are disposed of safely and sustainably.
Several companies, including Tesla and Panasonic, are formerly working on developing battery recycling technologies. Tesla has blazoned plans to make a battery recycling factory at its Gigafactory in Nevada.
Advancements in battery technology are a crucial driver of the growth of the EV industry. The development of solid-state batteries, graphene batteries, silicon anodes, and more effective recycling methods all have the eventuality to significantly improve the performance and sustainability of EVs.
It is delicate to forecast exactly when these advancements will become commercially available, it’s clear that the future of EVs is bright and that battery technology will continue to be a crucial area of focus for invention and enhancement.
Conclusion
Upgrading your Tesla battery is an excellent means to enhance your electric vehicle’s range and performance. Tesla owners have the option to upgrade from 60kWh to 100kWh and 75kWh to 100kWh, enabling them to enjoy an even more expansive range on a single charge. This upgrade involves switching the original battery with the advanced-capacity battery and tweaking the vehicle’s software to optimize its performance. The advantages of a Tesla battery upgrade include increased range, bettered performance, and access to forthcoming software updates.
FAQs
How much does a Tesla battery upgrade from 60kWh or 75kWh to 100kWh cost?
The cost of a Tesla battery upgrade varies depending on the model and time of the vehicle. As of 2021, the cost of upgrading a Model S or Model X from 60kWh or 75kWh to 100kWh is around $16,550 to $22,500. Still, the cost may be advanced for aged models or vehicles with significant wear and tear and tear.
How does a Tesla battery upgrade affect the range of the vehicle?
Upgrading to a 100kWh battery can significantly increase the range of a Tesla vehicle. For illustration, a Model S with a 60kWh battery has a range of around 210 miles, while a Model S with a 100kWh battery has a range of around 373 miles. also, a Model X with a 75kWh battery has a range of around 259 miles, while a Model X with a 100kWh battery has a range of around 371 miles.
Can a Tesla battery upgrade be done on any Tesla vehicle?
No, not all Tesla vehicles are eligible for a battery upgrade. Only certain models and times can be upgraded from a 60kWh or 75kWh battery to a 100kWh battery. Also, the battery upgrade may not be possible for vehicles with significant wear and tear or other issues.
Does a Tesla battery upgrade impact the vehicle’s performance?
In addition to adding the range of the vehicle, a Tesla battery upgrade can also enhance the performance of the vehicle. Upgraded vehicles may have better acceleration and overall performance compared to their original configuration.
Can a Tesla battery upgrade be reversed or undone?
No, once a Tesla battery upgrade is completed, it can not be reversed or undone. The upgraded battery is integrated into the vehicle’s electrical system and can not be removed or replaced with a lower battery. Thus, it’s important to consider the long-term implications of a battery upgrade before committing to the process.
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