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Range Rover Electric: 'Don't change it, just make it better"
Range Rover Electric: 'Don't change it, just make it better"

The Advertiser

timea day ago

  • Automotive
  • The Advertiser

Range Rover Electric: 'Don't change it, just make it better"

JLR is well down the path of introducing its first electric Range Rover, which is expected sometime next year, but the company's approach is as notable for how long it has taken to come to market as it is about the philosophical debate around electrification. With JLR's previous electric vehicle (EV), the Jaguar I-Pace, not having performed well in both the sales and reliability charts, the company is adamant that this time it will wait until it's ready to release the Range Rover EV. Rather than reimagining an all-new Range Rover, the company has opted to adapt its existing design and platform to accommodate an electric powertrain, a move summarised by its internal philosophy: "Don't change it, just make it better." Hundreds of new car deals are available through CarExpert right now. Get the experts on your side and score a great deal. Browse now. The electric variant sits on the same flexible platform as the petrol, diesel, and plug-in hybrid Range Rovers and come down the same production line. It features a substantial 118kWh usable battery – comprising 344 prismatic cells using NMC (nickel manganese cobalt) chemistry – supplying energy to the dual-motor setup producing 404kW of power and 850Nm of torque. The company claims the battery and the motors are designed and manufactured in-house, although the cells themselves likely come from BYD (Land Rover wouldn't confirm its battery supplier). Despite the new drivetrain, key characteristics such as cabin layout, boot space, and off-road geometry remain unchanged. There's also no front boot, which the engineers told is deliberate as to not add elements customers don't need. "This is about integrating electric propulsion into what is an established Range Rover design," said Lynfel Owen, chief engineer of vehicle engineering. "So you know, the target was always, how do we look at today's cars, our combustion engines and everything we do today? How do we make that better with EV propulsion?" The engineering team focused on maintaining performance and ride quality. According to Mr Owen, the Range Rover Electric benefits from upgraded suspension components – including dual-valve air springs and revised bushings – specifically tuned to handle the demands of an electric setup. Torsional rigidity is also up, with this model claiming the title of the stiffest Range Rover to date. While many EVs introduce entirely new driving experiences (like Mercedes-Benz's electric G-Wagen), Land Rover is banking on familiarity. Terrain modes from combustion models have been retained, and the company has developed its own intelligent traction control system (ITM) to manage torque across all four wheels. The ITM system allows for millisecond-level torque vectoring between wheels, with cross-axle capability and the ability to emulate both two-wheel and four-wheel drive. It replaces traditional mechanical driveline components with software precision, providing finer control in both on- and off-road environments. "We've optimised all of the terrain modes for Range Rover Electric," Mr Owen explained. "It's about making it actually comfortable off-road and reducing driver demand in challenging conditions." The model also includes adaptive thermal management with a proprietary heat pump system designed to improve efficiency and comfort. Land Rover says the system can operate in temperatures as low as -15°C, recovering waste heat to reduce energy consumption by up to 40 per cent compared with the brand's previous electric vehicle, the Jaguar I-Pace. While other manufacturers often borrow EV components from shared platforms, Land Rover's vertically integrated approach reflects its aim to control the Range Rover Electric experience end to end. It may look familiar, but beneath the skin, this is the most technologically advanced model the company has built. With more than 62,000 customers already expressing interest globally, the Range Rover Electric appears to be landing well with buyers looking for electrification without dramatic change. MORE: Explore the Range Rover showroom Content originally sourced from: JLR is well down the path of introducing its first electric Range Rover, which is expected sometime next year, but the company's approach is as notable for how long it has taken to come to market as it is about the philosophical debate around electrification. With JLR's previous electric vehicle (EV), the Jaguar I-Pace, not having performed well in both the sales and reliability charts, the company is adamant that this time it will wait until it's ready to release the Range Rover EV. Rather than reimagining an all-new Range Rover, the company has opted to adapt its existing design and platform to accommodate an electric powertrain, a move summarised by its internal philosophy: "Don't change it, just make it better." Hundreds of new car deals are available through CarExpert right now. Get the experts on your side and score a great deal. Browse now. The electric variant sits on the same flexible platform as the petrol, diesel, and plug-in hybrid Range Rovers and come down the same production line. It features a substantial 118kWh usable battery – comprising 344 prismatic cells using NMC (nickel manganese cobalt) chemistry – supplying energy to the dual-motor setup producing 404kW of power and 850Nm of torque. The company claims the battery and the motors are designed and manufactured in-house, although the cells themselves likely come from BYD (Land Rover wouldn't confirm its battery supplier). Despite the new drivetrain, key characteristics such as cabin layout, boot space, and off-road geometry remain unchanged. There's also no front boot, which the engineers told is deliberate as to not add elements customers don't need. "This is about integrating electric propulsion into what is an established Range Rover design," said Lynfel Owen, chief engineer of vehicle engineering. "So you know, the target was always, how do we look at today's cars, our combustion engines and everything we do today? How do we make that better with EV propulsion?" The engineering team focused on maintaining performance and ride quality. According to Mr Owen, the Range Rover Electric benefits from upgraded suspension components – including dual-valve air springs and revised bushings – specifically tuned to handle the demands of an electric setup. Torsional rigidity is also up, with this model claiming the title of the stiffest Range Rover to date. While many EVs introduce entirely new driving experiences (like Mercedes-Benz's electric G-Wagen), Land Rover is banking on familiarity. Terrain modes from combustion models have been retained, and the company has developed its own intelligent traction control system (ITM) to manage torque across all four wheels. The ITM system allows for millisecond-level torque vectoring between wheels, with cross-axle capability and the ability to emulate both two-wheel and four-wheel drive. It replaces traditional mechanical driveline components with software precision, providing finer control in both on- and off-road environments. "We've optimised all of the terrain modes for Range Rover Electric," Mr Owen explained. "It's about making it actually comfortable off-road and reducing driver demand in challenging conditions." The model also includes adaptive thermal management with a proprietary heat pump system designed to improve efficiency and comfort. Land Rover says the system can operate in temperatures as low as -15°C, recovering waste heat to reduce energy consumption by up to 40 per cent compared with the brand's previous electric vehicle, the Jaguar I-Pace. While other manufacturers often borrow EV components from shared platforms, Land Rover's vertically integrated approach reflects its aim to control the Range Rover Electric experience end to end. It may look familiar, but beneath the skin, this is the most technologically advanced model the company has built. With more than 62,000 customers already expressing interest globally, the Range Rover Electric appears to be landing well with buyers looking for electrification without dramatic change. MORE: Explore the Range Rover showroom Content originally sourced from: JLR is well down the path of introducing its first electric Range Rover, which is expected sometime next year, but the company's approach is as notable for how long it has taken to come to market as it is about the philosophical debate around electrification. With JLR's previous electric vehicle (EV), the Jaguar I-Pace, not having performed well in both the sales and reliability charts, the company is adamant that this time it will wait until it's ready to release the Range Rover EV. Rather than reimagining an all-new Range Rover, the company has opted to adapt its existing design and platform to accommodate an electric powertrain, a move summarised by its internal philosophy: "Don't change it, just make it better." Hundreds of new car deals are available through CarExpert right now. Get the experts on your side and score a great deal. Browse now. The electric variant sits on the same flexible platform as the petrol, diesel, and plug-in hybrid Range Rovers and come down the same production line. It features a substantial 118kWh usable battery – comprising 344 prismatic cells using NMC (nickel manganese cobalt) chemistry – supplying energy to the dual-motor setup producing 404kW of power and 850Nm of torque. The company claims the battery and the motors are designed and manufactured in-house, although the cells themselves likely come from BYD (Land Rover wouldn't confirm its battery supplier). Despite the new drivetrain, key characteristics such as cabin layout, boot space, and off-road geometry remain unchanged. There's also no front boot, which the engineers told is deliberate as to not add elements customers don't need. "This is about integrating electric propulsion into what is an established Range Rover design," said Lynfel Owen, chief engineer of vehicle engineering. "So you know, the target was always, how do we look at today's cars, our combustion engines and everything we do today? How do we make that better with EV propulsion?" The engineering team focused on maintaining performance and ride quality. According to Mr Owen, the Range Rover Electric benefits from upgraded suspension components – including dual-valve air springs and revised bushings – specifically tuned to handle the demands of an electric setup. Torsional rigidity is also up, with this model claiming the title of the stiffest Range Rover to date. While many EVs introduce entirely new driving experiences (like Mercedes-Benz's electric G-Wagen), Land Rover is banking on familiarity. Terrain modes from combustion models have been retained, and the company has developed its own intelligent traction control system (ITM) to manage torque across all four wheels. The ITM system allows for millisecond-level torque vectoring between wheels, with cross-axle capability and the ability to emulate both two-wheel and four-wheel drive. It replaces traditional mechanical driveline components with software precision, providing finer control in both on- and off-road environments. "We've optimised all of the terrain modes for Range Rover Electric," Mr Owen explained. "It's about making it actually comfortable off-road and reducing driver demand in challenging conditions." The model also includes adaptive thermal management with a proprietary heat pump system designed to improve efficiency and comfort. Land Rover says the system can operate in temperatures as low as -15°C, recovering waste heat to reduce energy consumption by up to 40 per cent compared with the brand's previous electric vehicle, the Jaguar I-Pace. While other manufacturers often borrow EV components from shared platforms, Land Rover's vertically integrated approach reflects its aim to control the Range Rover Electric experience end to end. It may look familiar, but beneath the skin, this is the most technologically advanced model the company has built. With more than 62,000 customers already expressing interest globally, the Range Rover Electric appears to be landing well with buyers looking for electrification without dramatic change. MORE: Explore the Range Rover showroom Content originally sourced from: JLR is well down the path of introducing its first electric Range Rover, which is expected sometime next year, but the company's approach is as notable for how long it has taken to come to market as it is about the philosophical debate around electrification. With JLR's previous electric vehicle (EV), the Jaguar I-Pace, not having performed well in both the sales and reliability charts, the company is adamant that this time it will wait until it's ready to release the Range Rover EV. Rather than reimagining an all-new Range Rover, the company has opted to adapt its existing design and platform to accommodate an electric powertrain, a move summarised by its internal philosophy: "Don't change it, just make it better." Hundreds of new car deals are available through CarExpert right now. Get the experts on your side and score a great deal. Browse now. The electric variant sits on the same flexible platform as the petrol, diesel, and plug-in hybrid Range Rovers and come down the same production line. It features a substantial 118kWh usable battery – comprising 344 prismatic cells using NMC (nickel manganese cobalt) chemistry – supplying energy to the dual-motor setup producing 404kW of power and 850Nm of torque. The company claims the battery and the motors are designed and manufactured in-house, although the cells themselves likely come from BYD (Land Rover wouldn't confirm its battery supplier). Despite the new drivetrain, key characteristics such as cabin layout, boot space, and off-road geometry remain unchanged. There's also no front boot, which the engineers told is deliberate as to not add elements customers don't need. "This is about integrating electric propulsion into what is an established Range Rover design," said Lynfel Owen, chief engineer of vehicle engineering. "So you know, the target was always, how do we look at today's cars, our combustion engines and everything we do today? How do we make that better with EV propulsion?" The engineering team focused on maintaining performance and ride quality. According to Mr Owen, the Range Rover Electric benefits from upgraded suspension components – including dual-valve air springs and revised bushings – specifically tuned to handle the demands of an electric setup. Torsional rigidity is also up, with this model claiming the title of the stiffest Range Rover to date. While many EVs introduce entirely new driving experiences (like Mercedes-Benz's electric G-Wagen), Land Rover is banking on familiarity. Terrain modes from combustion models have been retained, and the company has developed its own intelligent traction control system (ITM) to manage torque across all four wheels. The ITM system allows for millisecond-level torque vectoring between wheels, with cross-axle capability and the ability to emulate both two-wheel and four-wheel drive. It replaces traditional mechanical driveline components with software precision, providing finer control in both on- and off-road environments. "We've optimised all of the terrain modes for Range Rover Electric," Mr Owen explained. "It's about making it actually comfortable off-road and reducing driver demand in challenging conditions." The model also includes adaptive thermal management with a proprietary heat pump system designed to improve efficiency and comfort. Land Rover says the system can operate in temperatures as low as -15°C, recovering waste heat to reduce energy consumption by up to 40 per cent compared with the brand's previous electric vehicle, the Jaguar I-Pace. While other manufacturers often borrow EV components from shared platforms, Land Rover's vertically integrated approach reflects its aim to control the Range Rover Electric experience end to end. It may look familiar, but beneath the skin, this is the most technologically advanced model the company has built. With more than 62,000 customers already expressing interest globally, the Range Rover Electric appears to be landing well with buyers looking for electrification without dramatic change. MORE: Explore the Range Rover showroom Content originally sourced from:

The 2026 Range Rover EV Signals a New Chapter in Luxury SUVs
The 2026 Range Rover EV Signals a New Chapter in Luxury SUVs

ArabGT

time28-04-2025

  • Automotive
  • ArabGT

The 2026 Range Rover EV Signals a New Chapter in Luxury SUVs

The 2026 Range Rover Electric marks a major leap for Jaguar Land Rover (JLR), blending the brand's renowned luxury with cutting-edge electric vehicle innovation. This upcoming SUV aims to reshape the high-end EV market, driven by a robust 117 kWh battery developed and built entirely by JLR. Utilizing 344 prismatic cells arranged in a two-layer setup, the battery is engineered for higher energy density, extended driving range, and quicker charging capabilities. Although the official U.S. Environmental Protection Agency (EPA) range has not been confirmed, early projections suggest the vehicle will cover approximately 300 miles (483 kilometers) per charge, positioning it alongside luxury rivals like the Tesla Model X and Rivian R1S. Performance and Mechanical Highlights The 2026 Range Rover EV features an all-wheel-drive system powered by two electric motors delivering a combined output of 542 horsepower and 850 Nm of torque. This setup is designed to surpass the performance of JLR's twin-turbo V8 engines, offering rapid acceleration and refined handling dynamics. Central to its capabilities is JLR's Intelligent Driveline Dynamics technology, a highly responsive torque vectoring system that reacts to changes in surface traction within just 50 milliseconds. True to its off-road heritage, the Range Rover EV is engineered to tackle a variety of terrains, from slippery ice to shifting sands, providing exceptional off-road versatility. The SUV also introduces several innovations aimed at boosting efficiency and range. Among them is the ThermAssist thermal management system, which can lower heating energy use by up to 40% by recycling heat and pre-conditioning the interior. This feature not only enhances cold-weather range but also aligns with JLR's push toward greater sustainability. The vehicle's 800-volt electrical system enables ultra-fast charging, though specific charge times have yet to be disclosed. Testing prototypes have already clocked more than 45,000 miles (72,420 kilometers) across extreme climates, from arctic conditions to scorching deserts, to validate the vehicle's endurance and resilience. Design and Interior Expectations Maintaining the iconic aesthetic of its combustion-engine counterparts, the 2026 Range Rover EV features elegant contours, a signature floating roof, and a streamlined grille optimized for aerodynamic efficiency. Inside, the cabin is expected to showcase an array of sustainable materials, a panoramic glass roof, and JLR's latest Pivi Pro infotainment platform. Luxury remains a priority, with anticipated features including customizable ambient lighting, premium upholstery options, and sophisticated driver assistance technologies. Production is set to commence in late 2025, with initial deliveries beginning in 2026. Reservations will open later in 2025. While final pricing details have not been announced, estimates suggest a starting price north of $100,000 (around SAR 375,000), consistent with the Range Rover's high-end market position. With its blend of electric performance and unmatched luxury, the 2026 Range Rover EV is poised to redefine expectations for premium electric SUVs.

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