20 Eylül 2010 Pazartesi

electric cars-- in-wheel motor--lithium ion battery--fuel cell/hybrid based power



In-wheel motor: is an electric motor that is incorporated into a hub of a wheel and drives it directly.
The advantage of in-wheel motor makes it possible to regulate drive torque and braking force independently at each wheel without the need for any transmission, drive shaft or other complex mechanical components.

"The fact that the drive system is housed inside the wheel itself offers significantly greater design freedom and also makes it easier to locate such space-consuming components as the battery system, fuel cell stacks and hydrogen tanks used in hybrid and fuel cell vehicles.

Lithium-ion battery technology offers superior specific energy, specific power, and life over other types of rechargeable batteries and as such is expected to contribute to higher top speeds, extended cruising ranges and to greater weight reductions in vehicles' body.

Mitsubishi Motors was one of the first automakers to start research into and development of the electric vehicle as an alternative fuel vehicle. In recent years, the company has turned its attention to the practical application of high-performance lithium-ion battery power to propel EV 8electric vehicle).

Exploiting the benefits of lithium-ion battery and in-wheel motor technology, the MIEV concept opens up new possibilities in terms of alternative fuel vehicle development. As well as seeking further possibilities for the EV, Mitsubishi Motors is also looking at the application of the MIEV concept to hybrid and fuel cell vehicles.



The main concept benefits:
(1) In-wheel motor
I. Further evolution of all-wheel control technology
A major benefit of the in-wheel motor is that it enables drive torque and braking force to be regulated with high precision on an individual wheel basis in both two- and four-wheel drive systems without requiring transmissions, drive shafts, differential gears or other complex and heavy components. The in-wheel motor therefore holds great promise in terms of the contribution to the further evolution of Mitsubishi's all-wheel control technology that enjoys high critical acclaim on such production models as the Lancer Evolution and Pajero.
II. Greater freedom in layout design
Housing the drive system in the wheels gives greater freedom in designing the layout. This will facilitate the conversion of IC engine-powered vehicles into hybrid vehicles without requiring the introduction of complex hybrid power systems. It will also make it easier to provide room for space-consuming components such as fuel cell stacks and hydrogen tanks in fuel cell vehicles. The space-saving benefits of the in-wheel motors also offer exciting possibilities in terms of body design. Designers will be able to create innovative exteriors, improve dynamic performance through weight distribution optimization, provide roomier interior space and improve crash worthiness through optimization of the structural framework.

(2) Lithium-ion battery
Lithium-ion battery technology offers advantages of specific energy, specific power, and life over other types of rechargeable batteries. Mitsubishi Motors has already built several test vehicles using lithium-ion battery systems, including the Mitsubishi HEV in 1996, the FTO-EV in 1998 and the Eclipse EV in 2000. The FTO-EV set a multiple-charge 24-hour distance world record on a proving ground, while the Eclipse EV covered over 400 km on public roads on a single battery charge."



drive train,chassis,weight lightening,mechanism-concept details

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