Complete Powertrain System Integration
XING Mobility provides complete powertrain solutions inclusive of fully integrated motors, gearboxes and motor controllers developed for electric vehicle applications. Our team of experts deliver a range of transmissions capable of achieving extremely high power density, fine-tuned control and automotive-grade reliability as well as torque vectoring capabilities.
Inline Gearbox Mounted Motor Solutions
Comprising of an electric motor mounted inline to the gearbox, this solution can be deployed alongside both dedicated EV transmissions and existing internal combustion engine transmission systems, making it an ideal solution for quick retrofitting and cost-effective vehicle electrification.
Differential Mounted Motor Solutions
A compact, highly efficient solution, this setup allows EV motors to be mounted directly to the differential, conserving more space for battery systems and making it ideal for blank sheet design. Available for both single motor (front wheel or rear wheel drive) or dual motor options (enabling front and rear to be driven independently).
Transverse Gearbox Mounted Motor Solutions
XING Mobility's unique integrated transverse motor and gearbox solution delivers one motor per wheel transmission, achieving seamless full-range torque vectoring while offering extremely advantageous packaging to allow space for the battery system. A choice of dual-motor (front wheel drive or rear wheel drive) or quad-motor (all wheel drive) packages are available.
More technologies coming soon…
Torque Vectoring Gearbox ("TVG")
XING Mobility’s torque vectoring technology delivers one-motor-per-wheel transmission solutions. The system acheives “tank steering” for low-speed wheeled and tracked vehicles, improves cornering and stability in high-speed vehicles and can deliver “V-drive” in marine applications.
Integrated Electric Propulsion System
XING Mobility’s unique motor technology comprises of induction motors, axial flux motors and motors with integrated motor controllers. The systems have been developed to include direct cooling design, advanced control software and robust mechanical design.