Jaguar Land Rover to lead a S$32.6 million collaborative research project
07 Sep 2013|3,132 views
The U.K. automaker will also lead a group of 12 selected partners, eight from within the industry like Williams Advanced Engineering, Delta Motorsport, Tata Steel, and three universities, Bristol University, Cranfield University and Newcastle University.
Starting from October 2013, the group will design, develop and build three research vehicles showcasing advanced, next generation powertrain concepts for a mild hybrid electric vehicle (MHEV), a Plug-In Hybrid (PHEV) and a full Battery Electric Vehicle (BEV).
Peter Richings, Jaguar Land Rover Director Hybrids and Electrification said, "The aim of the project is to develop technology platforms which are configurable and compatible within the architecture of an existing production vehicle. The modular technologies include single and multi-speed axle drives, modular battery packs and integrated power electronics, multi-machine, advanced control development and torque vectoring."
Jaguar Land Rover has announced an advanced powertrain research and development programme for ground breaking, next generation hybrid and battery-electric powertrain technologies - based on the Range Rover Evoque platform.
The U.K. automaker will also lead a group of 12 selected partners, eight from within the industry like Williams Advanced Engineering, Delta Motorsport, Tata Steel, and three universities, Bristol University, Cranfield University and Newcastle University.
Starting from October 2013, the group will design, develop and build three research vehicles showcasing advanced, next generation powertrain concepts for a mild hybrid electric vehicle (MHEV), a Plug-In Hybrid (PHEV) and a full Battery Electric Vehicle (BEV).
Peter Richings, Jaguar Land Rover Director Hybrids and Electrification said, "The aim of the project is to develop technology platforms which are configurable and compatible within the architecture of an existing production vehicle. The modular technologies include single and multi-speed axle drives, modular battery packs and integrated power electronics, multi-machine, advanced control development and torque vectoring."
The U.K. automaker will also lead a group of 12 selected partners, eight from within the industry like Williams Advanced Engineering, Delta Motorsport, Tata Steel, and three universities, Bristol University, Cranfield University and Newcastle University.
Starting from October 2013, the group will design, develop and build three research vehicles showcasing advanced, next generation powertrain concepts for a mild hybrid electric vehicle (MHEV), a Plug-In Hybrid (PHEV) and a full Battery Electric Vehicle (BEV).
Peter Richings, Jaguar Land Rover Director Hybrids and Electrification said, "The aim of the project is to develop technology platforms which are configurable and compatible within the architecture of an existing production vehicle. The modular technologies include single and multi-speed axle drives, modular battery packs and integrated power electronics, multi-machine, advanced control development and torque vectoring."
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