2019 Leaf Plus Battery Capacity: Specs, Performance Insights, and Real Range Review

The 2019 Nissan Leaf Plus has a 62 kWh lithium-ion battery. This battery capacity allows for a range of up to 226 miles. The vehicle uses a 214-hp permanent-magnet synchronous AC motor. For fast charging, it includes a CHAdeMO port, enabling quick and efficient recharging of the battery.

In terms of charging, the 2019 Leaf Plus supports both Level 2 home charging and DC fast charging. With DC fast charging, drivers can recharge up to 80% of the battery in approximately 40 minutes. The regenerative braking system further contributes to efficiency, capturing energy during deceleration and extending the vehicle’s range.

Real-world performance insights show that actual mileage can vary based on driving conditions and habits. Some drivers report averages closer to 200 miles, particularly in colder climates.

Overall, the 2019 Leaf Plus battery capacity demonstrates a notable upgrade over its predecessor, providing users with enhanced range and practicality for everyday use.

Next, we will explore how driving habits and environmental factors affect the real-world range of the 2019 Leaf Plus.

What is the Battery Capacity of the 2019 Leaf Plus?

The battery capacity of the 2019 Nissan Leaf Plus is 62 kilowatt-hours (kWh). This capacity enables the vehicle to store and supply energy for its electric motor, facilitating a longer driving range compared to the standard Leaf model.

According to Nissan’s official specifications, the Leaf Plus offers an improved battery capacity designed for enhanced performance and efficiency. This enables a more extended travel range for electric vehicle (EV) users.

The 62 kWh capacity directly impacts the vehicle’s driving range. It allows the Leaf Plus to travel approximately 226 miles on a single charge under ideal conditions. This makes it an appealing choice for those seeking both performance and eco-friendliness in an electric vehicle.

The U.S. Department of Energy defines battery capacity as the total amount of energy that can be stored, typically measured in kilowatt-hours (kWh). This capacity influences how far an electric vehicle can travel before requiring a recharge.

Factors affecting battery capacity include temperature, driving habits, and the condition of the battery over time. Both hot and cold weather can reduce effective range, and aggressive driving can deplete the battery more quickly.

In 2021, the U.S. electric vehicle market saw a growth rate of about 37%, with projections anticipating that 7 million EVs will be sold annually in the U.S. by 2025, highlighting the growing demand for vehicles like the Leaf Plus.

The advancements in battery technology contribute to reduced greenhouse gas emissions and lower dependence on fossil fuels. Electric vehicles also offer economic savings through reduced fuel costs and lower maintenance requirements.

Electric vehicles, including the Leaf Plus, play a significant role in improving urban air quality. They contribute to climate change mitigation by reducing the carbon footprint associated with traditional gasoline-powered vehicles.

For optimal battery health, experts recommend regular charging habits, minimizing fast charging, and maintaining moderate temperatures. Organizations, including the Electric Vehicle Association, advocate for consumer education on proper battery management.

Implementing battery management systems and investing in new charging infrastructure can further support electric vehicle proliferation. This ensures that users can recharge conveniently, enhancing the overall electric vehicle experience.

How Does the Battery Capacity of the 2019 Leaf Plus Compare to Other Electric Vehicles?

The 2019 Nissan Leaf Plus has a battery capacity of 62 kWh. Below is a comparison of its battery capacity with several other electric vehicles:

Electric Vehicle	Battery Capacity (kWh)
Nissan Leaf Plus (2019)	62
Tesla Model 3 Standard Range Plus	54
Tesla Model 3 Long Range	75
Chevrolet Bolt EV	66
Hyundai Kona Electric	64
Ford Mustang Mach-E (Standard Range)	68
Volkswagen ID.4	82
Porsche Taycan 4S	79.2

What are the Key Specifications of the 2019 Leaf Plus Battery?

The 2019 Leaf Plus battery features advanced specifications designed for enhanced efficiency and performance.

1. Battery Capacity: 62 kWh
2. Range: Up to 226 miles (364 km) on a single charge
3. Charging Time: Approximately 7.5 hours with Level 2 (240V) charger
4. Power Output: 214 horsepower
5. Battery Chemistry: Lithium-ion technology
6. Voltage: 350 V
7. Weight: Approximately 800 lbs (363 kg)

The specifications of the 2019 Leaf Plus battery highlight several noteworthy attributes that distinguish it from other electric vehicles, forming a significant bridge to understanding its performance context.

1. Battery Capacity:
The 2019 Leaf Plus battery capacity is defined as 62 kWh. This value indicates the amount of energy the battery can store, with higher capacity typically translating into greater driving range. For comparison, the standard Leaf model has a 40 kWh battery. The increased capacity in the Leaf Plus allows for longer trips without recharging, making it more suitable for longer commutes or travel.

2. Range:
The range of the Leaf Plus reaches up to 226 miles (364 km) on a full charge. This figure represents the maximum distance the vehicle can travel under ideal conditions. Independent tests confirm that real-world conditions may yield slightly lower ranges, but the Leaf Plus’s range remains competitive against other electric vehicles in its class, like the Chevrolet Bolt.

3. Charging Time:
The charging time for the Leaf Plus using a Level 2 (240V) charger is approximately 7.5 hours. This duration indicates how long it takes to fully recharge from a depleted state. Many electric vehicle users appreciate a lower charging time for convenience, though rapid charging options can reduce this time significantly.

4. Power Output:
The power output of the Leaf Plus is 214 horsepower. This specification influences the vehicle’s acceleration and overall driving experience. In comparison to the standard Leaf, which has a lower output, consumers may find the Leaf Plus offers a more spirited performance that aligns with different driving preferences.

5. Battery Chemistry:
The Leaf Plus uses lithium-ion technology for its battery. Lithium-ion batteries are favored in electric vehicles for their high energy density and longevity. This choice contributes to better performance and durability compared to older battery types.

6. Voltage:
The voltage of the Leaf Plus battery is 350 V. A higher voltage allows for more efficient energy transfer and better power management within the vehicle. This trait enhances the car’s ability to accelerate quickly while maximizing the use of stored energy during drives.

7. Weight:
The weight of the Leaf Plus battery is approximately 800 lbs (363 kg). Battery weight can significantly affect a vehicle’s handling and efficiency. Lighter batteries generally improve performance metrics, but the Leaf Plus balances weight with capacity to provide desirable range and power outputs.

In conclusion, the combination of these specifications makes the 2019 Leaf Plus a viable option for those seeking an electric vehicle with enhanced capabilities.

How Does the 2019 Leaf Plus Perform in Real-World Driving Conditions?

The 2019 Leaf Plus performs well in real-world driving conditions. Its electric motor delivers smooth acceleration and a quiet ride. The Leaf Plus has a 62 kWh battery, which offers a range of approximately 215 miles on a full charge under typical driving conditions. Drivers report that the vehicle maintains strong performance in city driving, with quick responses to throttle inputs. Highway driving tends to consume battery more quickly, so drivers should plan for reduced range at higher speeds. Overall, the Leaf Plus combines efficiency with practicality, making it a solid choice for daily commuting and moderate road trips.

How Far Can You Drive on a Full Charge of the 2019 Leaf Plus?

The 2019 Leaf Plus can drive up to approximately 226 miles on a full charge. This figure is based on the vehicle’s 62-kilowatt-hour battery capacity, which provides an improved driving range compared to the standard Leaf model. The range can vary depending on driving conditions, weather, and driving habits. Factors such as speed, terrain, and use of climate control can also affect the total distance achievable on a single charge. Overall, the 2019 Leaf Plus offers an efficient option for those looking to reduce their environmental impact while enjoying a practical driving range.

What Factors Impact the Battery Life of the 2019 Leaf Plus?

The battery life of the 2019 Leaf Plus is impacted by several factors. These include:

1. Battery Capacity
2. Driving Habits
3. Climate and Weather Conditions
4. Use of Climate Control Systems
5. Terrain and Route Type
6. Charging Habits
7. Maintenance and Battery Health

Understanding these factors provides deeper insight into how they affect overall battery performance.

1. Battery Capacity: The 2019 Leaf Plus features a 62 kWh battery, offering an extended driving range compared to its predecessor. Battery capacity refers to the amount of energy stored, influencing how far the vehicle can travel on a single charge. Greater battery capacity generally results in longer range. According to Nissan, the Leaf Plus achieves an EPA-estimated range of up to 226 miles, thanks to its larger battery compared to the standard Leaf’s 40 kWh battery.

2. Driving Habits: Driving style significantly affects battery life. Aggressive acceleration and frequent hard braking can decrease efficiency. Studies conducted by the Electric Power Research Institute (EPRI) indicate that more moderate driving can extend battery life. Drivers who adopt smoother acceleration and braking patterns may experience improved range.

3. Climate and Weather Conditions: Extreme temperatures can adversely impact battery performance. Cold weather reduces the battery’s effective range by increasing energy consumption for heating. Conversely, high temperatures can lead to quicker battery degradation. According to a study by the United States Department of Energy, battery efficiency can drop by up to 40% in freezing conditions.

4. Use of Climate Control Systems: Using air conditioning or heating can draw additional power from the battery. This extra energy consumption can diminish the overall range. A study from the Georgia Institute of Technology highlights that using climate control can reduce driving range by about 20% in electric vehicles.

5. Terrain and Route Type: Driving on hilly terrains can strain the battery more than flat routes. Energy efficiency varies significantly based on elevation changes. Navigating through city traffic with frequent stops and starts also impacts battery use. A report by the International Council on Clean Transportation (ICCT) explains that stop-and-go driving can lead to higher energy consumption compared to highway driving.

6. Charging Habits: Frequent charging, particularly using high-speed chargers, affects battery health over time. Charging to 100% regularly can lead to battery stress and degradation. According to the Battery University, maintaining a state of charge between 20% and 80% is often recommended to prolong battery life.

7. Maintenance and Battery Health: Regular maintenance checks can identify issues that affect battery performance. Monitoring battery health, including checking for any software updates or firmware issues, ensures optimal functioning. Nissan offers monitoring tools through its mobile app to assist drivers in keeping their vehicle’s battery healthy.

By considering these factors, 2019 Leaf Plus owners can better manage their vehicle’s battery life and ensure optimized performance on the road.

How Does Temperature Affect the Performance of the 2019 Leaf Plus Battery?

Temperature affects the performance of the 2019 Leaf Plus battery by influencing its efficiency and capacity. Battery performance tends to decrease in extreme temperatures. In cold conditions, the battery may not deliver its full capacity. This happens because cold temperatures slow down the chemical reactions within the battery. As a result, drivers may experience reduced range.

Conversely, high temperatures can also negatively impact battery performance. Heat can lead to increased internal resistance and may accelerate battery degradation over time. When temperatures rise too high, the battery management system may limit performance to protect the battery. This protective measure helps prevent overheating and potential damage.

In moderate temperatures, the Leaf Plus battery operates optimally. It delivers better range and faster charging speeds. Thus, maintaining a temperature within the recommended range is crucial for maximizing battery performance and lifespan. Overall, temperature plays a vital role in the battery’s efficiency, capacity, and longevity.

What Charging Options are Available for the 2019 Leaf Plus Battery?

The 2019 Leaf Plus battery offers several charging options to accommodate different needs.

1. Level 1 Charging (Standard 120V)
2. Level 2 Charging (240V)
3. DC Fast Charging (CHAdeMO)
4. Charging Network Access
5. Home Charging Station Installation
6. Public Charging Locations

These options cater to various user preferences and situations, from home charging to quick public options. Now, let’s explore each charging option in detail.

1. Level 1 Charging (Standard 120V):
   Level 1 charging for the 2019 Leaf Plus uses a standard household outlet. This method delivers approximately 4-5 miles of range per hour of charging. It is convenient for overnight charging. However, it is the slowest option and may not be sufficient for daily commuters who need quick replenishment.

2. Level 2 Charging (240V):
   Level 2 charging utilizes a dedicated 240V outlet, such as those found in home charging stations or public charging spots. This option can provide around 20-25 miles of range per hour. It is suitable for daily usage and ideal for users who can charge overnight or during work hours. In 2019, many Leaf Plus owners found this to be the most efficient method for regular use, striking a balance between speed and accessibility.

3. DC Fast Charging (CHAdeMO):
   DC fast charging allows for rapid charging at public stations. This option can charge the Leaf Plus from 0% to 80% in approximately 40 minutes. CHAdeMO connectors are widely available in many locations, making it ideal for long-distance travel. Though this method offers the fastest replenishment, frequent use of fast charging can lead to battery wear over time.

4. Charging Network Access:
   Many 2019 Leaf Plus owners have access to various charging networks, including ChargePoint, EVgo, and Blink. These networks provide both Level 2 and DC fast charging options. Some services offer subscription plans that can reduce costs for frequent users. However, access to charging networks can vary based on geographic location, potentially limiting their utility for some users.

5. Home Charging Station Installation:
   Installing a home charging station, particularly a Level 2 unit, improves convenience and charging speed. Many owners opt for this investment to ensure they can charge quickly overnight or when parked at home. The installation typically involves hiring an electrician, adding to the initial cost, but offering notable long-term benefits.

6. Public Charging Locations:
   Public charging locations are increasingly common in urban and suburban areas. They often include a mix of Level 2 and DC fast chargers. While they provide flexibility for charging on the go, users may encounter varying availability and charging fees that can impact the overall cost of ownership.

Overall, these charging options are designed to accommodate the diverse needs of Leaf Plus users, balancing convenience, speed, and accessibility.

What is the Estimated Charging Time for the 2019 Leaf Plus Battery?

The estimated charging time for the 2019 Nissan Leaf Plus battery depends on the charging method. Using a Level 1 charger, full charge time is approximately 35 hours, while a Level 2 charger reduces this to around 7.5 hours. A DC fast charger can recharge the battery to about 80% in approximately 45 minutes.

According to Nissan’s official specifications, the Leaf Plus features a larger battery capacity of 62 kWh, providing an extended driving range compared to previous models. This battery is designed for efficiency and ease of use in everyday commuting.

Charging times vary based on several factors. These include the battery’s current state of charge, the power output of the charging station, and the ambient temperature, which can affect battery performance. Additionally, using a lower voltage charger may significantly extend charging times.

The U.S. Department of Energy confirms that electric vehicle (EV) charging times differ significantly among types of stations. Fast chargers utilize higher voltage and currently allow faster access to power, decreasing downtime for users.

Understanding charging time is crucial for EV users. Longer charging periods may influence daily planning and trips, pushing drivers to consider alternative transportation or different charging solutions during long journeys.

The Electric Power Research Institute notes that as of 2021, there were over 100,000 public charging stations in the U.S. Growth projections indicate that EV infrastructure will need to expand considerably by 2030 to accommodate rising electric vehicle adoption.

Knowledge of charging times influences consumer behavior regarding electric vehicle purchases. Adoption of EVs promotes electric-only cars, affecting fossil fuel reliance and inspiring broader societal shifts toward renewable energy sources.

To address charging time concerns, stakeholders recommend increased investments in fast-charging infrastructure and development of home charging solutions. Enhancing public charging access equitably addresses range anxiety and encourages wider EV adoption.

Effective strategies include promoting solar charging at homes, improving battery technology, and encouraging partnerships for building widespread charging networks. These actions can help mitigate charging time challenges facing consumers today.

What Are the Benefits of the 2019 Leaf Plus Battery Technology?

The 2019 Leaf Plus features advanced battery technology that offers several benefits, enhancing the electric vehicle’s performance and usability.

Key benefits of the 2019 Leaf Plus battery technology include:

1. Increased range.
2. Enhanced energy density.
3. Improved battery life.
4. Faster charging capabilities.
5. Eco-friendliness through reduced carbon footprint.
6. Cost savings on fuel and maintenance.

The benefits of the 2019 Leaf Plus battery technology create a compelling case for its adoption among electric vehicle users.

1. Increased Range:
   The 2019 Leaf Plus offers an increased range of approximately 226 miles on a single charge, thanks to its larger 62 kWh battery pack. This extension allows drivers to travel longer distances without frequent recharging.

2. Enhanced Energy Density:
   The battery technology used in the Leaf Plus features enhanced energy density, meaning it can store more energy in the same physical space. This improvement leads to better overall efficiency and lower weight, positively impacting vehicle performance.

3. Improved Battery Life:
   The battery in the 2019 Leaf Plus is designed with durability in mind. With a sophisticated thermal management system, it helps to maintain optimal operating temperatures, leading to a prolonged battery lifespan. Nissan estimated that under normal usage, drivers can expect significant longevity from the Leaf Plus battery.

4. Faster Charging Capabilities:
   The 2019 Leaf Plus supports both standard Level 2 charging and optional DC fast charging. This system can recharge the battery to about 80% in approximately 40 minutes with a fast charger. This feature is especially beneficial for long road trips, allowing for less downtime.

5. Eco-friendliness Through Reduced Carbon Footprint:
   The Leaf Plus promotes sustainability due to its zero emissions during operation. By utilizing renewable energy sources for charging, users can further decrease their carbon footprint. A life cycle analysis indicates that electric vehicles like the Leaf Plus contribute to lower overall greenhouse gas emissions compared to traditional gasoline-powered cars.

6. Cost Savings on Fuel and Maintenance:
   Electric vehicles generally incur lower fuel costs compared to gasoline alternatives. According to the U.S. Department of Energy, charging an electric vehicle is often less expensive than filling up a traditional car. Additionally, the Leaf Plus has fewer moving parts, leading to lower maintenance expenses over time.

Overall, the 2019 Leaf Plus battery technology represents a significant step forward in electric vehicle design, offering practical benefits for users and contributing to environmental sustainability.

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