Toyota Debuts Fine-T Fuel Cell Vehicle

The Fine-T's interior features a substantial amount of plant-sourced, 'carbon-neutral' materials.

Published: 12-Jan-2006

Toyota's Fine-T fuel cell hybrid concept will make its U.S. debut at the 2006 North American International Auto Show. The concept vehicle made its world premier at the 2005 Tokyo Motor Show as the Fine-X.

Environment and Safety
Toyota's low emission fuel cell hybrid system demonstrates how close a vehicle can come to having zero effect on the environment. The Fine-T is powered by a new downsized, high-performance Toyota fuel cell stack configuration. The fuel cell stack adopts a new alloy catalyst, which allows a dramatic reduction in the amount of precious metals used. The hybrid components are mounted beneath the vehicle floor, allowing greater cabin space and creating a low center-of-gravity.

The Fine-T's interior features a substantial amount of plant-sourced, "carbon-neutral" materials. These plants are considered "carbon-neutral" because they do not add new carbon dioxide to the environment when disposed.

For added visibility, the Fine-T is equipped with peripheral monitoring video cameras. A front-view camera installed above the license plate, a rear-view camera below the Toyota badge, and side cameras located at each side door handle allow the driver to monitor the periphery of the vehicle for obstacles on large display monitors.

Driving Experience
The Fine-T offers major advancements in handling performance when driving on narrow roads and when parking in tight areas, helping to maximize the driving experience. The concept uses an independent four-wheel large-angle steering system and independent four-wheel drive incorporating in-wheel motors with integrated drive power and wheel turning-angle control.

A drive-by-wire system connects the driver's controls to actuators that operate vehicle functions. In front-axle/rear-axle turning mode, the vehicle can be turned around from the front or rear, which makes maneuverability easier when parallel parking. In directional change mode, continuously variable steering of the front and rear wheels allows a change of direction of almost the entire length of the vehicle in four directions. This feature allows for U-turns while coming out of parallel parking. The on-the-spot turning mode allows for convenient 360-degree turning on the vertical axis.

The Fine-T's independent four-wheel drive system, independent four-wheel steering and under-floor mounting of the fuel-cell system contribute to the concept's low center of gravity, which is lower than most vehicles. This and the vehicle's low movement of inertia add to the Fine-T's driving stability.

Ingress and egress is easy with the Fine-T's wide gull-wing doors and "Welcome Seats." Once the driver is seated, the seat glides back automatically to the driving position. To leave the vehicle, a press of a button moves the seat to the egress position allowing the driver to simply stand up to exit the vehicle. In addition, the drive-by-wire steering system stows away automatically when entering and exiting the vehicle.

Interior comfort is also maximized by the spacious cabin. The battery, motors and other operational components are mounted in the vehicle floor or near the wheels, thereby extending available cabin space almost the entire length of the vehicle.


Length 3,860 mm
Width 1,750 mm
Height 1,550 mm
Wheelbase 2,850 mm
Fuel cell Toyota Fuel Cell stack
Drive system 4WD (in-wheel motors)
Seating capacity 4

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The current prototype fuel cell-powered Tucson has a top speed of 150 kilometers per hour and a cruising range of some 300 kilometers.

The F-Cell vehicle employs a 72-kilowatt fuel cell system. The vehicle can travel up to 100 miles on a full tank of about five pounds of hydrogen.

Under this joint programme, Intelligent Energy will utilise its proprietary Proton Exchange Membrane fuel cell technology in order to deliver a series of advanced, compact and efficient 10kW systems, which will be configured to fit within PSA Peugeot Citroen's electric vehicle architecture.


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