The well-known all-wheel-drive brand will be adding a little hybrid to itself next month at the 2009 Tokyo Motor Show. Subaru announced today that it will show the Hybrid Tourer Concept in Tokyo next month – a concept that features “Subaru’s latest evolutions in handling agility, riding comfort and superior safety performance.” It also shows Subaru’s vision for a hybrid grand touring model.
The Subaru Hybrid Tourer Concept is powered by a 2.0L Horizontally-Opposed direct fuel-injection turbo gasoline engine mated to symmetrical AWD system and a unique hybrid two-motor system with a power/drive motor in the front and a drive motor in the rear.
Make the jump for the press release for more details.
Subaru Hybrid Tourer Concept:
SUBARU HYBRID TOURER CONCEPT
Subaru has condensed its DNA, developed over many years around the Subaru’s core technology of “Symmetrical All-Wheel Drive (AWD)” and “Horizontally-Opposed Boxer Engine”, into the integration of a luxurious and high-quality cabin atmosphere and an eye-catching sculpted body. The concept car features Subaru’s latest evolutions in handling agility, riding comfort and superior safety performance. It proposes Subaru’s vision of a future grand touring car that excels in environmental friendliness thanks to Subaru’s unique hybrid system.
2. Design and packaging
Subaru imagined wings with a feeling of freedom and confidence for driving far and wide in any environment. A luxurious and comfortable cabin, and advanced driving performance are contained within a sculpted aerodynamic form. The design features a combination of bright, open glass areas with a solid, reliable body.
The original point of the ideal grand touring car is its interior design, featuring four independent and comfortably positioned seats. Passengers are enclosed within an atmosphere that provides a surpassing feeling of openness and stress-free reassurance, through the further pursuit of a human-centered philosophy, the essence of Subaru car design, and the incorporation of functions that are friendly to passengers.
The top of the dashboard is movable up and down to provide an optimal driving environment for the driver according to driving conditions.
A flat floor in the rear seat was achieved even with the implementation of AWD, for improved use and movement inside the cabin.
Specialized shielding is incorporated in the windshield to reduce eyestrain on the driver.
New leather covering developed with superior breathability and a ventilation function is used in the seats for improved comfort and texture.
In addition to refinements to Subaru’s core technology such as Symmetrical AWD and Horizontally-Opposed Boxer Engine, further enhancements were made for improved environmental friendliness, driving performance and high safety performance by offering a next-generation power unit system and advanced safety technologies.
(1) Next-generation power unit system
2.0-liter Horizontally-Opposed direct fuel-injection turbo gasoline engine
The Horizontally-Opposed turbo gasoline engine, with a reputation for powerful acceleration, is combined with a direct fuel-injection system for improvements in fuel efficiency and reduced emissions, and improved torque and response in practical range. This evolution in Subaru turbo technology excels in both environmental friendliness and engine performance.
Lineartronic, Subaru’s new generation automatic transmission, achieves further improvements in both fuel efficiency and driving performance by reinforcing parts for use with the high-power output of a turbo engine.
To further enhance the appeal of the Symmetrical AWD system, this unique hybrid two-motor system features a power/drive motor in the front and a drive motor in the rear.
* At start-up and extremely low speeds when fuel efficiency is low, such as when driving the car into a garage, the rear motor is used primarily to allow driving without utilizing the power of the engine.
* During normal driving, the front engine is primarily used. The direct fuel-injection turbo gasoline mated with the Symmetrical AWD offers a whole new, Subaru driving experience.
* During acceleration, the rear motor assists the driving power of the engine to achieve advanced driving performance.
* Further, when accelerating uphill, the front motor, which is normally used as a power generator, assists to drive the front axle for improved performance.
* The implementation of a non-idling function that stops the engine when the car comes to a halt reduces unnecessary fuel consumption.
* The use of a high-performance lithium battery is based on experience and know-how achieved with the Subaru Plug-in STELLA electric vehicle, launched this summer. This includes the use of a precise energy management system and regenerative brake controls, for improvements in excellent fuel efficiency.
Length x Width x Height: 4,630 x 1,890 x 1,420mm
Engine type: 2.0-liter Horizontally-Opposed direct fuel-injection turbo
Max output of Motor: 10kW (Front) / 20kW (Rear)
Transmission type: Lineartronic
Drive train: Symmetrical All-Wheel Drive with 2 motors assist
Battery type: Lithium-ion battery
– By: Kap Shah