GKN Automotive unveiledthe first battery-electric vehicle (BEV) with a two-speed transmission and torque vectoring on the front axle. Based on a standard Jeep Renegade, the GTD19 demonstrator vehicle is undergoing testing at GKN’s annual winter testing program in Arjeplog, Sweden, and showcases how automakers can use drivetrain innovations to achieve industry-leading standards of efficiency, -safety and driving dynamics in BEV models.
The GTD19 is equipped with an optimized two-speed Seamless shift eTransmission and smart shifting strategy, which has the potential to extend vehicle range as well as provide greater torque, acceleration and a higher top speed. Efficiency is further enhanced by the GTD19’s eAxle’s coaxial format, while exceptional stability and dynamic performance is possible due to the torque vectoring capability of GKN’s eTwinster system. (Earlier post.)
This new technology demonstrator showcases how we are evolving and improving integrated eDrive technologies to help OEMs further improve efficiency, safety and driving dynamics.
Within the last year, we have seen a 40% increase in the value of our eDrive order book, rising from £2 billion at the end of 2017 to confirmed business now worth £3 billion. Our dedicated focus on production and development of electrified drivelines will enable us to support the rapid acceleration in demand for BEVs equipped with all-wheel drive systems in the coming years.—Hannes Prenn, COO of GKN ePowertrain
The technology in the GTD19 is related to the two-speed technology in last year’s GTD18 Mercedes-AMG GLA 45 test vehicle, which demonstrated the benefits of an eTwinster rear axle e-motor, two-speed eTransmission and torque vectoring by twin clutches; paired with a mechanical Twinster on the front axle.
The set-up in GTD19 provides pure electric power with two-speeds. The electric two-speed gearbox is configured to ensure the shifts are seamless, with minimal losses in power and torque and the potential for faster acceleration, improved efficiency and a higher top speed.
GKN’s award-winning Twinster torque vectoring technology delivers specific advantages for vehicle stability, agility and safety. Aiding modulation of the high initial torque of the electric motor, Twinster governs acceleration making it swift and smooth, while also providing greater lateral control and optimized front-wheel driving dynamics for both safety and driver satisfaction.
The advanced eDrive system in the GTD19 replaces the Jeep Renegade’s internal combustion engine with a 120kW GKN e-motor, delivering maximum torque of 3,500 N·m and vectoring of up to 2,000 N·m to either of the front wheels when required.
Front-wheel drive applications of torque vectoring provide more noticeable benefits than rear- or all-wheel drive configurations, due to the relative ease of breaking traction in a front-wheel drive car. Not only can the Twinster system keep the front wheels in check during acceleration, it can correct an understeer yaw moment experienced by a driver entering a corner at speed.
The system prioritizes torque delivery to the outer wheel helping to correct the natural understeer characteristic typically associated with a front drive vehicle.
Significantly smaller than systems with equivalent power outputs, the eTwinster two-speed coaxial system can be easily integrated into existing vehicle platforms. It is readily adaptable for use in front-wheel drive, rear-wheel drive or all-wheel drive applications extending from entry-level electric city cars to plug-in hybrid luxury SUVs and fully electric all-wheel drive hypercars.
For the GTD19, all the drivetrain technology was integrated with ease into the existing vehicle platform without major modification, including both a GKN-derived electric motor and GKN-developed inverter controls, supplementing the company’s advanced eAxle. All software is programmed by GKN to enable seamless shifting of the two-speed transmission and torque control on the front axle, with minimal power and torque loss during changes.
GKN has pioneered advanced eDrive technology since 2002, acquiring systems integration and production experience to transfer the technology from niche vehicles to high-volume mass-market applications. It has already supplied complete eDrive systems to plug-in hybrid programs for OEMs including BMW, Mitsubishi, Porsche and Volvo.