Imagine being behind the wheel of a sleek, electric Tesla, effortlessly gliding down the highway, and suddenly, your battery level starts to dwindle. The anxiety sets in – where’s the nearest charging station, and how long will it take to refill your tank? As the world shifts towards a more sustainable future, electric vehicles (EVs) like Tesla are becoming increasingly popular, but the mystery surrounding their charging requirements remains a significant pain point for many owners and would-be buyers.
In today’s eco-conscious era, understanding the intricacies of EV charging is more crucial than ever. With governments worldwide implementing stricter emissions regulations and consumers becoming more environmentally aware, the demand for electric vehicles is skyrocketing. However, the lack of clarity around charging requirements is hindering widespread adoption. One of the most pressing questions on everyone’s mind is – how many kilowatts (kW) does it take to charge a Tesla?
In this article, we’ll delve into the world of Tesla charging, providing you with a comprehensive guide to help you navigate the complexities of kW requirements. You’ll discover the answer to this burning question, as well as learn about the various factors that influence charging times, the different types of charging stations, and how to optimize your Tesla’s battery life. By the end of this journey, you’ll be empowered with the knowledge to confidently own and operate a Tesla, making the transition to sustainable transportation a whole lot smoother.
So, buckle up and get ready to charge ahead! In the following sections, we’ll explore the ins and outs of Tesla charging, covering topics such as the impact of battery size, charging modes, and power output on kW requirements. Whether you’re a seasoned Tesla owner or an EV newbie, this article promises to enlighten and educate, providing valuable insights to help you make the most of your electric driving experience.
Understanding the Basics of Tesla Charging: An Overview of Kilowatt (kW)
Tesla’s electric vehicles have revolutionized the way we think about transportation, offering a cleaner, more efficient alternative to traditional gas-powered cars. However, one of the biggest concerns for potential buyers is understanding how to charge their new vehicle. In this section, we’ll delve into the basics of Tesla charging, specifically focusing on the concept of kilowatt (kW) and how it relates to charging time.
What is Kilowatt (kW)?
Kilowatt (kW) is a unit of power that measures the rate at which energy is transferred. In the context of electric vehicles, kW refers to the rate at which a charger can supply electricity to the vehicle’s battery. Think of it like this: the higher the kW rating, the faster the charging process.
Here’s a simple analogy to help illustrate the concept:
- Imagine a water hose with a low flow rate (e.g., 1 liter per minute). It would take a long time to fill a bucket.
- Now, imagine a high-pressure hose (e.g., 10 liters per minute). It would fill the bucket much faster.
- In the same way, a high kW charger is like the high-pressure hose, supplying more power to the vehicle’s battery and reducing charging time.
How Does kW Affect Charging Time?
The relationship between kW and charging time is straightforward: higher kW ratings result in faster charging times. However, it’s essential to note that the actual charging time also depends on other factors, such as:
- The vehicle’s battery capacity and age
- The type of charger used (e.g., Level 1, Level 2, DC Fast Charger)
- The vehicle’s charging system and software
For example, a Tesla Model 3 with a 75 kWh battery can be charged to 80% in approximately 45 minutes using a 100 kW DC Fast Charger. However, if the same vehicle is charged using a 50 kW Level 2 charger, the charging time would be significantly longer, around 3 hours and 15 minutes.
Types of Chargers and Their kW Ratings
Tesla offers various charging options, each with its kW rating:
- Level 1 (120V): 1.44 kW
- Level 2 (240V): 7.2 kW (standard), 19.2 kW (high-power)
- DC Fast Charger: 50 kW, 100 kW, 150 kW, or 250 kW
It’s essential to note that not all Tesla vehicles are compatible with high-power charging. The vehicle’s onboard charger and charging system determine the maximum kW rating it can accept.
Practical Applications and Actionable Tips
When considering the kW rating of a Tesla charger, keep the following in mind:
- If you have a short commute or frequently charge at home, a Level 2 charger with a lower kW rating (e.g., 7.2 kW) may be sufficient.
- If you need to charge your vehicle quickly, opt for a high-power charger with a higher kW rating (e.g., 100 kW or 150 kW).
- Consider installing a high-power charger at home if you have the necessary infrastructure and budget.
By understanding the basics of kW and its impact on charging time, you can make informed decisions about your Tesla’s charging needs and optimize your charging experience.
Real-World Examples and Case Studies
Here are a few real-world examples to illustrate the relationship between kW and charging time:
| Vehicle | Charger Type | kW Rating | Charging Time (80%) |
|---|---|---|---|
| Tesla Model 3 (75 kWh) | DC Fast Charger | 100 kW | 45 minutes |
| Tesla Model S (100 kWh) | Level 2 Charger | 19.2 kW | 2 hours and 30 minutes |
| Tesla Model X (100 kWh) | DC Fast Charger | 150 kW | 30 minutes |
These examples demonstrate how the kW rating of a charger can significantly impact charging time, highlighting the importance of choosing the right charger for your Tesla’s needs.
Understanding the Power of Tesla ChargingHow Many Kw Does a Tesla Take to Charge?
The Basics of Tesla Charging
When it comes to charging your Tesla, understanding the power requirements is crucial. The amount of power needed to charge your Tesla depends on several factors, including the type of Tesla model, its battery size, and the charging method used. In this section, we’ll delve into the details of Tesla charging and explore how many kW a Tesla takes to charge.
What is kW and How Does it Relate to Charging?
Before we dive into the specifics of Tesla charging, it’s essential to understand what kW stands for. kW stands for kilowatts, which is a unit of power. In the context of charging, kW measures the rate at which electrical energy is transferred to your Tesla’s battery. Think of it like the speed at which your car is refueling.
To put it simply, a higher kW rating means your Tesla can charge faster and more efficiently. However, the kW rating also depends on the charging method used. For example, a Level 1 (120V) charger may provide a lower kW rating than a Level 2 (240V) charger or a DC Fast Charger.
Tesla Charging Methods and kW Ratings
Tesla offers various charging methods, each with its own kW rating. Here’s a breakdown of the different charging methods and their corresponding kW ratings:
Level 2 (240V): 6-12 kW (See Also: Can You Charge a Leaf at a Tesla Station? – Charging Made Easy)
Destination Charger (DC): 50-120 kW
As you can see, the kW rating varies significantly depending on the charging method. Level 1 charging, for example, provides a relatively slow charge rate of 2-5 kW, while Supercharging can provide up to 250 kW.
How Many kW Does a Tesla Take to Charge?
So, how many kW does a Tesla take to charge? The answer depends on the Tesla model and its battery size. Here’s a rough estimate of the kW requirements for each Tesla model:
Model 3: 6-12 kW (Level 2) or 120-250 kW (Supercharger)
Model X: 6-12 kW (Level 2) or 120-250 kW (Supercharger)
Cybertruck: 6-12 kW (Level 2) or 120-250 kW (Supercharger)
Keep in mind that these estimates are rough and may vary depending on the specific Tesla model, battery size, and charging method used.
Practical Applications and Actionable Tips
Now that you know the basics of Tesla charging and the kW requirements for each model, here are some practical applications and actionable tips to keep in mind:
If you’re on the go, use Tesla’s Supercharger network for faster charging. With over 2,500 Supercharger stations across North America, you’re never far from a charge.
If you’re planning a long road trip, make sure to plan your charging stops accordingly. You can use Tesla’s navigation system to find nearby charging stations and plan your route.
Real-World Examples and Case Studies
To illustrate the importance of kW ratings in Tesla charging, let’s consider a real-world example. Imagine you’re driving a Tesla Model 3 Long Range with a 75 kWh battery. You’re on a road trip and need to charge your car as quickly as possible. If you use a Level 1 charger, it would take around 10 hours to fully charge your car. However, if you use a Level 2 charger, it would take around 4-6 hours to charge your car. And if you use a Supercharger, it would take around 1-2 hours to charge your car.
As you can see, the kW rating plays a crucial role in determining the charging speed and efficiency of your Tesla. By understanding the kW requirements for your Tesla model, you can plan your charging stops accordingly and ensure a smooth and efficient charging experience.
Conclusion
In conclusion, understanding the power of Tesla charging and the kW requirements for each model is essential for a smooth and efficient charging experience. By knowing the kW ratings for each charging method and Tesla model, you can plan your charging stops accordingly and ensure a quick and efficient charge. Whether you’re on a road trip or simply need to charge your car at home, understanding the kW requirements for your Tesla can make all the difference.
Understanding the Charging Capacity of Tesla Vehicles
Tesla vehicles have revolutionized the electric vehicle (EV) industry with their impressive range, performance, and innovative features. However, one of the most common questions potential buyers and existing owners have is how many kilowatts (kW) does a Tesla take to charge. In this section, we will delve into the world of Tesla’s charging capacity, exploring the factors that influence it, and providing you with a comprehensive understanding of what to expect.
The Basics of Tesla’s Charging System
Tesla’s charging system is designed to work seamlessly with their vehicles, ensuring a safe and efficient charging experience. The company uses a combination of on-board charging systems and external charging stations to deliver power to the vehicle’s battery. The charging capacity of a Tesla vehicle is measured in kilowatts (kW), which represents the rate at which the vehicle can accept energy from the charging station.
Types of Charging: Level 1, Level 2, and DC Fast Charging
Tesla vehicles can be charged using three types of charging methods: Level 1, Level 2, and DC Fast Charging. Each type of charging has its own advantages and disadvantages, and the charging capacity varies depending on the type of charging used.
Level 1 charging is the most basic type of charging, which uses a standard household outlet to deliver power to the vehicle. The charging capacity of Level 1 charging is typically around 2-3 kW, making it the slowest type of charging. Level 2 charging, on the other hand, uses a 240-volt charging station to deliver power to the vehicle, with a charging capacity of up to 7.2 kW. DC Fast Charging is the fastest type of charging, which can deliver power at rates of up to 250 kW.
Factors that Influence Charging Capacity
Several factors influence the charging capacity of a Tesla vehicle, including the type of charging used, the vehicle’s battery size, and the ambient temperature. Here are some key factors to consider: (See Also: Don’t Panic Tesla? Safety Essentials)
- Vehicle Battery Size: The size of the vehicle’s battery directly affects its charging capacity. Larger batteries require more power to charge, which means they have a higher charging capacity.
- Type of Charging: As mentioned earlier, the type of charging used affects the charging capacity of a Tesla vehicle. DC Fast Charging, for example, has a much higher charging capacity than Level 1 charging.
- Ambient Temperature: Extreme temperatures can affect the charging capacity of a Tesla vehicle. In cold temperatures, the vehicle’s charging capacity may decrease, while in hot temperatures, it may increase.
- Charging Station Quality: The quality of the charging station used can also affect the charging capacity of a Tesla vehicle. High-quality charging stations can deliver more power to the vehicle, increasing its charging capacity.
Real-World Examples: Charging Times and Capacities
To give you a better understanding of the charging capacity of Tesla vehicles, let’s look at some real-world examples:
Assuming a Tesla Model 3 with a 75 kWh battery, here are the estimated charging times and capacities for each type of charging:
| Type of Charging | Charging Capacity (kW) | Charging Time (hours) |
|---|---|---|
| Level 1 | 2-3 kW | 24-36 hours |
| Level 2 | 7.2 kW | 8-10 hours |
| DC Fast Charging | 250 kW | 30 minutes |
Actionable Tips: Maximizing Charging Efficiency
To maximize charging efficiency and ensure your Tesla vehicle charges quickly and safely, follow these actionable tips:
- Use a high-quality charging station: Invest in a high-quality charging station that can deliver more power to your vehicle.
- Charge during off-peak hours: Charging during off-peak hours can help you save money on electricity costs and reduce strain on the grid.
- Monitor your charging: Keep an eye on your charging progress and adjust your charging schedule as needed to ensure efficient charging.
- Maintain your vehicle: Regular maintenance can help ensure your vehicle’s charging system is functioning optimally, reducing charging times and improving overall efficiency.
Expert Insights: Tesla’s Charging Strategy
Tesla’s charging strategy is designed to provide a seamless and efficient charging experience for their vehicles. According to Tesla’s website, the company aims to provide “a network of fast and convenient charging stations that make it easy to own an electric vehicle.” To achieve this goal, Tesla has implemented several strategies, including:
- Expanding their Supercharger network: Tesla is continuously expanding its Supercharger network, providing more charging stations across the country.
- Improving charging speeds: Tesla is working to improve charging speeds, with the goal of delivering power at rates of up to 250 kW.
- Offering a range of charging options: Tesla offers a range of charging options, including Level 1, Level 2, and DC Fast Charging, to cater to different customer needs.
Conclusion
In conclusion, the charging capacity of a Tesla vehicle is influenced by several factors, including the type of charging used, the vehicle’s battery size, and the ambient temperature. By understanding these factors and following actionable tips, you can maximize charging efficiency and ensure your Tesla vehicle charges quickly and safely. Whether you’re a seasoned owner or a new buyer, this knowledge will help you make informed decisions about your charging needs and ensure a seamless ownership experience.
Understanding the Charging Capacity of Tesla Electric Vehicles
In the world of electric vehicles, charging capacity is a crucial aspect to consider when purchasing a Tesla. The kilowatt (kW) rating of a Tesla’s charging system determines how quickly the vehicle can recharge its battery. In this section, we will delve into the world of Tesla charging, exploring the different kW ratings and how they impact the charging experience.
Understanding Kilowatt Ratings
A kilowatt (kW) is a unit of power that measures the rate at which electrical energy is transferred. In the context of electric vehicles, a higher kW rating indicates a faster charging speed. For example, a Tesla with a 7.4 kW charger can charge its battery faster than a Tesla with a 3.3 kW charger.
To put this into perspective, here are some common kW ratings found in Tesla vehicles:
- 3.3 kW: Entry-level Tesla models, such as the Model 3 and Model Y, typically come equipped with a 3.3 kW charger.
- 7.4 kW: Mid-range Tesla models, such as the Model 3 Long Range and Model S, often feature a 7.4 kW charger.
- 11 kW: High-performance Tesla models, such as the Model S P100D and Model X P100D, typically boast an 11 kW charger.
- 22 kW: Tesla’s Supercharger network, which allows for rapid charging, operates at a maximum capacity of 22 kW.
Charging Time and Capacity
When it comes to charging time, the kW rating plays a significant role. The table below illustrates the estimated charging times for a Tesla Model 3 Long Range with a 7.4 kW charger:
| Charging Power (kW) | Charging Time (hours) |
|---|---|
| 3.3 kW | 8-10 hours |
| 7.4 kW | 4-6 hours |
| 11 kW | 3-4 hours |
As you can see, the charging time decreases as the kW rating increases. However, it’s essential to note that the actual charging time may vary depending on several factors, including the vehicle’s battery size, the charging station’s capacity, and the ambient temperature.
Practical Applications and Actionable Tips
When choosing a Tesla, it’s crucial to consider your daily driving habits and charging needs. Here are some practical applications and actionable tips to keep in mind:
- For commuters with short drives, a 3.3 kW charger may be sufficient.
- For those who need to charge their vehicle frequently, a 7.4 kW charger may be a better option.
- For long-distance drivers, a 11 kW charger or access to Tesla’s Supercharger network may be necessary.
- When charging at home, consider installing a 7.4 kW or higher charger to reduce charging time.
- When using public charging stations, look for stations with higher kW ratings to maximize charging speed.
Charging Capacity and Battery Size
Battery size and charging capacity are closely linked. Larger batteries require more power to charge, which can impact charging time. Here’s a breakdown of the battery sizes and charging capacities found in various Tesla models:
| Model | Battery Size (kWh) | Charging Capacity (kW) |
|---|---|---|
| Model 3 | 50-75 kWh | 3.3-7.4 kW |
| Model S | 75-100 kWh | 7.4-11 kW |
| Model X | 75-100 kWh | 7.4-11 kW |
As you can see, larger batteries require more power to charge. This is why high-performance Tesla models often feature higher kW ratings to accommodate their larger batteries.
Conclusion
In conclusion, understanding the charging capacity of your Tesla is crucial for optimizing your charging experience. By considering your daily driving habits, charging needs, and the kW rating of your vehicle, you can ensure a smooth and efficient charging process. Remember to take into account the battery size and charging capacity of your Tesla when choosing a charging station or installing a home charger. With this knowledge, you’ll be well-equipped to navigate the world of Tesla charging and enjoy a seamless driving experience.
Key Takeaways
Charging a Tesla can be a complex process, but understanding the basics can make it more manageable. Here are some key takeaways to keep in mind.
First, it’s essential to understand that the time it takes to charge a Tesla depends on several factors, including the type of charger, the car’s battery size, and the starting charge level. Additionally, Tesla’s Supercharger network offers faster charging speeds than Level 2 or Level 1 charging stations.
Another important consideration is the Tesla’s onboard charger, which can limit the charging speed. Upgrading the onboard charger can improve charging times, but it’s not necessary for most users.
- The Tesla Model S and Model X can charge up to 170 miles in 30 minutes using a Supercharger.
- Level 2 charging can take up to 12 hours to fully charge a Tesla, depending on the car’s battery size.
- Tesla’s Supercharger V3 can charge up to 250 kW, making it one of the fastest charging networks in the world.
- Using a Level 1 charger can take up to 24 hours to fully charge a Tesla, making it the slowest charging option.
- The Tesla Model 3 and Model Y can charge up to 170 miles in 30 minutes using a Supercharger, but the Model 3 Standard Range can take up to 45 minutes.
- It’s essential to plan your charging route in advance, especially for long trips, to ensure you have access to charging stations.
- As Tesla continues to improve its charging technology, it’s likely that charging times will continue to decrease, making electric vehicles an even more viable option for daily use.
In conclusion, understanding how many kW a Tesla takes to charge is crucial for planning and executing a successful road trip. By considering the factors mentioned above, you can make informed decisions about your charging needs and enjoy a seamless electric vehicle experience.
Frequently Asked Questions
What is kW, and how does it relate to Tesla charging?
kW (kilowatt) is a unit of power that measures the rate at which energy is used or produced. When it comes to Tesla charging, kW refers to the maximum power output of the vehicle’s onboard charger. This is different from the total energy capacity of the battery, which is measured in kWh (kilowatt-hours). Think of it like the speed of a car versus its fuel tank capacity. A higher kW rating means the vehicle can charge faster, but it doesn’t necessarily mean it can hold more energy. For example, a Tesla Model 3 Long Range has a 7.4 kW onboard charger, while a Model S Long Range has an 11 kW charger. This means the Model S can charge faster, but they both have similar battery capacities. (See Also: Can Mach E Use Tesla Charger? – Charging Essentials)
How does Tesla’s charging speed affect my daily driving?
Tesla’s charging speed, measured in kW, can significantly impact your daily driving experience. A faster charger means you can replenish your battery more quickly, which is ideal for long road trips or frequent daily commutes. For instance, a 7.4 kW charger can fully charge a Tesla Model 3 in around 30-45 minutes, while an 11 kW charger can do the same in 20-30 minutes. This can be a huge time-saver, especially during rush hour or when you’re running low on charge. Additionally, faster charging can also reduce the stress of driving with a low battery, giving you more confidence and peace of mind on the road.
Why should I consider upgrading to a higher kW charger?
Upgrading to a higher kW charger can provide several benefits, including faster charging times, reduced stress, and increased convenience. With a higher kW charger, you’ll be able to top off your battery more quickly, which is perfect for daily drivers who need to get back on the road ASAP. Additionally, a higher kW charger can also reduce the need for frequent charging stops, making long road trips more manageable. For those with limited charging infrastructure at home, a higher kW charger can also be a smart investment, as it can take advantage of available charging capacity and reduce charging times.
How do I start using a higher kW charger with my Tesla?
To start using a higher kW charger with your Tesla, you’ll need to ensure your vehicle is compatible with the charger’s voltage and amperage ratings. Check your owner’s manual or contact Tesla support to confirm compatibility. Next, you’ll need to install the charger at your home or public charging station. Tesla recommends hiring a licensed electrician to ensure a safe and proper installation. Once installed, simply plug in your Tesla and follow the charging instructions on the vehicle’s touchscreen. Make sure to also check your local electrical grid’s capacity to handle the increased power draw, as some areas may have specific requirements or restrictions.
What if I encounter issues with my Tesla’s charging speed?
If you’re experiencing issues with your Tesla’s charging speed, there are several troubleshooting steps you can take. First, check the vehicle’s charging settings to ensure they’re set to the correct mode. Next, verify that the charger is properly installed and configured. If you’re using a public charging station, try restarting the charging session or contacting the station’s operator for assistance. If the issue persists, consult your owner’s manual or contact Tesla support for further guidance. In some cases, a software update may be required to resolve the issue, so be sure to keep your vehicle’s software up to date to ensure optimal charging performance.
Which is better, a higher kW charger or a higher capacity battery?
This is a common debate among Tesla owners, and the answer ultimately depends on your specific needs and driving habits. A higher kW charger can provide faster charging times and increased convenience, while a higher capacity battery can offer longer driving ranges and reduced anxiety. If you frequently take long road trips or have limited access to charging infrastructure, a higher capacity battery might be the better choice. However, if you’re a daily driver who needs to top off their battery quickly, a higher kW charger could be the way to go. Consider your specific needs and priorities to make an informed decision.
How much does it cost to install a higher kW charger at home?
The cost of installing a higher kW charger at home can vary depending on several factors, including the charger’s wattage, installation complexity, and local electrical grid requirements. On average, you can expect to pay between $500 to $2,000 for a home charger installation, depending on the specific requirements of your home and the charger’s specifications. Tesla recommends hiring a licensed electrician to ensure a safe and proper installation, which can add to the overall cost. However, with the increasing adoption of electric vehicles, many homeowners are choosing to upgrade their charging infrastructure to take advantage of faster and more convenient charging times.
Can I install a higher kW charger at a public charging station?
Public charging stations typically have limited capacity and infrastructure, so installing a higher kW charger might not be feasible or practical. However, many public charging station operators are upgrading their infrastructure to support faster charging speeds, so it’s worth checking with your local charging station to see if they offer higher kW charging options. Additionally, some public charging stations offer dynamic charging, which can adapt to the vehicle’s charging needs and provide faster charging speeds. Be sure to check with your charging station operator to see what options are available and to plan your charging sessions accordingly.
What are the benefits of having a higher kW charger for my Tesla?
Having a higher kW charger for your Tesla can provide several benefits, including faster charging times, increased convenience, and reduced stress. With a higher kW charger, you’ll be able to top off your battery more quickly, which is perfect for daily drivers who need to get back on the road ASAP. Additionally, a higher kW charger can also reduce the need for frequent charging stops, making long road trips more manageable. For those with limited charging infrastructure at home, a higher kW charger can also be a smart investment, as it can take advantage of available charging capacity and reduce charging times. Overall, a higher kW charger can enhance your overall Tesla ownership experience and provide a more convenient and stress-free driving experience.
Can I charge my Tesla with a higher kW charger at a friend’s house?
Yes, you can charge your Tesla with a higher kW charger at a friend’s house, but there are some important considerations to keep in mind. First, ensure that the charger is compatible with your vehicle’s charging system and that the electrical grid can handle the increased power draw. Next, check with your friend to ensure they’re comfortable with you using their charger and that they’re aware of any potential electrical safety concerns. Finally, be respectful of your friend’s electrical infrastructure and avoid overloading the circuit, as this can cause safety issues and damage to the electrical system. With proper planning and communication, charging your Tesla with a higher kW
Conclusion
In conclusion, understanding how many kW a Tesla takes to charge is crucial for electric vehicle owners and enthusiasts alike. We’ve delved into the world of Tesla charging, exploring the various factors that influence charging speed, including the type of Tesla model, charging method, and power output. By grasping these essential concepts, you’re now better equipped to make informed decisions about your Tesla’s charging needs.
Recall that Tesla’s charging capabilities range from 3 kW to 250 kW, with the latter being the maximum capacity of the V3 Supercharger. We’ve also discussed how different Tesla models have varying maximum charging speeds, with the Long Range models being the most efficient. Additionally, we touched on the importance of understanding the different charging methods, including Level 1, Level 2, and DC Fast Charging.
The benefits of comprehending Tesla’s charging requirements are multifaceted. Not only will you be able to optimize your charging routine, but you’ll also be able to plan your road trips more efficiently, reduce range anxiety, and make the most of your Tesla’s capabilities. By doing so, you’ll be contributing to a more sustainable future, as electric vehicles continue to play a vital role in reducing our carbon footprint.
So, what’s next? Take the knowledge you’ve gained and apply it to your daily life. Whether you’re a current Tesla owner or considering purchasing one, remember to always keep your vehicle’s charging needs in mind. Plan your charging sessions, take advantage of Tesla’s extensive Supercharger network, and enjoy the many benefits that come with owning an electric vehicle.
In a world where sustainability and innovation converge, the importance of understanding Tesla’s charging requirements cannot be overstated. As we continue to drive towards a cleaner, greener future, remember that every kilowatt-hour counts. So, go ahead, charge up, and hit the road – the future is electric, and it’s waiting for you!