BorgWarner is first-to-market with its electric Torque Vectoring and Disconnect (eTVD) system for battery electric vehicles (BEVs) with launches for Polestar and an additional major European OEM. The eTVD is part of BorgWarner’s electric torque management system (eTMS) solutions portfolio, which is designed to intelligently control wheel torque to increase stability, provide superior dynamic performance, and improve traction during launch and acceleration. The eTVD is currently in production on the Polestar 3 SUV, and production for the major European OEM will follow later this year.
“Our new electric vehicle torque management systems showcase our multidisciplinary expertise, system integration capabilities, and the exceptional work of our BorgWarner team,” said Volker Weng, Vice President of BorgWarner Inc. and President and General Manager, BorgWarner Drivetrain and Battery Systems.
“With the market transitioning to more software-defined modules and vehicles, it is critical to have sophisticated systems in place, like our eTVD, that can precisely and quickly calculate, predict and control vehicle behavior across a wide range of situations. We have received exceptionally positive feedback from customers regarding their test drive experiences and look forward to addressing further market needs with our software, controls, and calibration expertise,” added Weng.
The high performing eTVD offers a 3-in-1 system, replacing the differential and featuring both torque vectoring and an on-demand disconnect function. In contrast to brake-based systems, torque vectoring prevents unnecessary brake interventions, therefore reducing harshness and vibration. This also leads to less wear and tear on brakes and tires, with the added benefit of lower particle emissions.
BorgWarner’s eTVD systems offer high-level software and controls that can be customised by OEMs to align with their own platform needs and specific brand characteristics. The higher weight of BEVs can reduce agility, but BorgWarner’s eTVD systems enable a much lighter feel of the vehicle while increasing overall safety. Smart design and intuitive software minimize the risk of undesired driving characteristics and enables superior traction regardless of road and weather conditions. Torque response is instantaneous in challenging and demanding scenarios, ensuring smooth, safe rides.
BorgWarner Secures Additional eMotor Business with XPeng
Meanwhile, the company also announced two high-voltage hairpin (HVH) eMotor business wins with XPeng, a Chinese Smart EV manufacturer, for use on two upcoming SUV models. The recently secured contracts include BorgWarner’s advanced oil-cooled 800V eMotor systems, comprising stator and rotor components customized for the vehicles. Start of production is planned for 2025.BorgWarner’s HVH220 eMotor offers high power and torque density, enhanced efficiency, and superior durability.
“We are thrilled to expand our eMotor business with XPeng and build upon our years-long partnership with them,” said Dr. Stefan Demmerle, President and General Manager of BorgWarner Power Drive Systems, adding that “As we continuously evolve our HVH technology, we are dedicated to delivering maximum efficiency for our customer's two future SUV models.”
The HVH220 eMotor, featuring BorgWarner’s patented high-voltage hairpin winding technology, operates within an 800V propulsion system. With a stator outer diameter of 220 mm, this motor solution integrates a permanent magnet rotor and proprietary stator insulation enhancements, ensuring unparalleled durability and reliability. Capable of generating up to 300kW of power and reaching a maximum speed of 18,000 rpm, BorgWarner’s HVH220 achieves peak efficiencies exceeding 97%.
Addressing the need for enhanced performance in high-power motors, BorgWarner has engineered oil-cooled solutions. By utilising gearbox oil to cool the motor, this technology optimizes heat transfer and overall thermal management efficiency. Additionally, direct rotor oil cooling efficiently extracts heat from the electric motor core, facilitating higher torque and power density, further enhancing performance capabilities.