The Lotus Eletre stands as the latest emblem of innovation from Lotus, continuing the lineage of E-named road cars while signifying a new era. The name, derived from some Eastern European languages, translates to ‘Coming to Life,’ aptly reflecting the car’s role as Lotus’s inaugural accessible electric vehicle (EV) and its foray into the SUV category.
The immersive encounter with the Lotus Eletre commences even before reaching the vehicle. Activating the key or smartphone app triggers a unique automotive spectacle: exterior lights perform a brief dance, the active front grille ‘breathes,’ and flush door handles illuminate and deploy. This captivating experience extends inside the car as the door seals the occupant within.
Ben Payne, Head of Studio at LTCC, describes this walk-up sequence as a ‘peacock moment,’ a visual expression of the Eletre’s lively character symbolizing the rebirth of the Lotus brand. From the initial discussions, the Eletre was conceived as a showcase, emphasizing performance-oriented driving pleasure and sophistication beyond traditional sports car boundaries.
- Lotus Eletre Design
- Lotus Eletre Features
- Lotus Eletre Interior
- Lotus Eletre Dashboard
- Lotus Eletre Platform
- Lotus Eletre Price
‘Born British Raised Globally’ goes beyond a slogan, shaping a collaborative development process defining the next generation of Lotus performance cars. Rooted in Hethel, UK, Lotus established a new research and development facility in China in 2020, utilizing cutting-edge technologies for Eletre production.
The Lotus Tech Innovation Centre in Germany and engineering expertise in Sweden further contributed to the EV’s design, systems integration, aerodynamics, and overall driver satisfaction.
The exterior design, spearheaded by Ben Payne, introduces a bold and dramatic model with a cab-forward stance, short overhangs, and a visual lightness akin to a high-riding sports car rather than an SUV. The ‘carved by air’ design ethos, reminiscent of the Evija and Emira, is evident. Notably, the Eletre embraces ‘porosity,’ allowing air to flow through and around the vehicle, enhancing efficiency, range, and performance.
Front and Features
The front end features a sharp leading edge, slim technical light clusters, and an active front grille with interconnecting triangular petals. The rear boasts a full-width ribbon light strip, a cantilevered carbon fiber roof spoiler, and a floating D-pillar. The electrically opening cover for the charging port and deployable LIDAR sensors showcase pioneering technology.
Internally, the Eletre raises Lotus interiors to unprecedented levels. Sustainability is a focal point, with premium, durable materials such as man-made microfibers and recycled carbon fibers contributing to a lighter interior. The driver-focused cockpit, inspired by the Emira and Evija, exhibits a layered, premium feel, with a triangular theme extending throughout the cabin.
The infotainment system sets new standards, featuring a blade of light as part of the human-machine interface (HMI), a ribbon of technology, OLED touch-screen technology, and augmented reality (AR) head-up display.
The car’s intelligent Advanced Driver Assistance Systems (ADAS) utilize deployable LIDAR sensors, supporting end-to-end autonomous driving technology and future-proofing through Over The Air (OTA) updates.
The Lotus Eletre is underpinned by an all-new 800v EV platform, offering exceptional dynamics, ride comfort, and true Lotus performance. The flat battery pack, integrated electric motors, and an efficient three-in-one electric drive system contribute to a low center of gravity and outstanding dynamic performance.
The Lotus Eletre is constructed on an innovative 800v electric vehicle platform specifically designed for electric propulsion, featuring an integrated high-voltage power distribution system. This structural framework employs a combination of aluminum and high-tensile steel, meticulously chosen to ensure optimal rigidity. The ‘skateboard-style’ battery pack and electric motors are strategically positioned close to the ground, emphasizing a low center of gravity in alignment with Lotus’s unwavering commitment to exceptional dynamic performance.
This advanced architecture incorporates a flat battery pack, resembling a skateboard in design, and houses two electric motors—one dedicated to propelling the front wheels and the other driving the rear wheels. A streamlined three-in-one electric drive system seamlessly integrates each motor with a controller and reducer, embodying an efficient design philosophy that results in a more compact and lighter unit. This approach exemplifies the distinctive Lotus approach to engineering challenges, prioritizing ingenuity and performance optimization.
The battery pack’s notable high energy density strikes an ideal balance between performance and driving range, further accentuating the Eletre’s prowess. In essence, the Lotus Eletre’s electric propulsion system epitomizes the brand’s commitment to cutting-edge solutions, offering an unparalleled fusion of power and efficiency.
The car features air suspension, Continuous Damping Control (CDC), active ride height, active rear axle steering, and torque vectoring via braking. Four drive modes – Range, Tour, Sport, Off-Road, and Individual – enhance versatility and cater to diverse driving preferences.
Price: Rs.2.55 – 2.99 Cr*
What is an electric car?
An electric car, or EV (Electric Vehicle), is a type of automobile that is powered by electricity stored in rechargeable batteries. Unlike traditional cars that rely on internal combustion engines fueled by gasoline or diesel, electric cars use electric motors for propulsion.
How do electric cars work?
Electric cars use electricity stored in high-capacity batteries to power an electric motor, which then drives the vehicle’s wheels. When the battery is depleted, it is recharged by plugging the car into an electrical outlet or a dedicated charging station.
How far can electric cars travel on a single charge?
The range of electric cars varies widely depending on the model and battery capacity. Entry-level EVs may have a range of around 100 miles, while high-end models can exceed 300 miles on a single charge. Advancements in battery technology continue to improve range capabilities.
How long does it take to charge an electric car?
Charging times depend on the charging infrastructure and the electric car’s battery capacity. Charging at home using a standard household outlet may take several hours, while fast-charging stations can provide a significant charge in around 30 minutes. Charging times are continually decreasing with technological advancements.
Where can I charge my electric car?
Electric cars can be charged at home using a standard electrical outlet or a dedicated home charging station. Public charging infrastructure, including fast-charging stations, is becoming more widespread, available at locations such as shopping centers, parking lots, and along major travel routes.
Are electric cars more expensive than traditional cars?
Initially, the upfront cost of electric cars can be higher than that of traditional cars. However, factors like government incentives, reduced fuel costs, and decreasing battery prices are making electric cars increasingly cost-competitive over the vehicle’s lifecycle.
What is the maintenance like for electric cars?
Electric cars generally require less maintenance than traditional vehicles because they have fewer moving parts. There’s no need for oil changes, and brake wear is reduced due to regenerative braking systems. Regular checks on the battery, electric motor, and other components are recommended.
Can I drive an electric car in cold climates?
Electric cars can operate in cold climates, but extreme temperatures can affect battery performance and range. Some electric cars come equipped with thermal management systems to mitigate temperature-related issues. Preconditioning the car while it’s still plugged in can help optimize performance in cold weather.
Are electric cars environmentally friendly?
Electric cars produce zero tailpipe emissions, making them environmentally friendly, especially when charged using renewable energy sources. However, the overall environmental impact also depends on factors like battery production, electricity generation, and end-of-life recycling.
Are there government incentives for electric car buyers?
Many countries and regions offer incentives to promote the adoption of electric vehicles, including tax credits, rebates, and reduced registration fees. Check with local authorities to understand the incentives available in your area.