'Traction control' systems, abbreviated TCS, on current production
vehicles, are typically (but not necessarily)
electro-hydraulic systems designed to prevent loss of
traction (and therefore the control of the vehicle) when excessive throttle or steering is applied by the driver. Although similar to
Electronic Stability Control systems, Traction Control systems do not have the same goal.
The intervention can consist of any, or all, of the following:
★ Retard or suppress the spark to one or more
cylinders
★ Reduce fuel supply to one or more cylinders
★ Brake one or more wheels
★ Close the throttle, if the vehicle is fitted with drive by wire throttle.
★ In turbo-charged vehicles, the boost control solenoid can be actuated to reduce boost and therefore engine power.
Typically, the Traction Control system shares the brake actuator and the wheel speed sensors with the
anti-lock braking system.
History of Traction Control
The predecessor of modern electronic traction control systems can be found in high-torque, high-power rear-wheel drive cars as a
limited slip differential, known as
Positraction. As this system worked mechanically to transfer power to the individual rear wheel slipping the least, it still allowed some wheel spin to occur.
Mercedes-Benz pioneered and introduced electronic traction control to market. In 1971, the
Buick division of GM introduced
MaxTrac, which used an early computer system to detect rear wheel spin and modulate engine power to those wheels to provide the most traction. A Buick-exclusive at the time, it was an option on all fullsize models, including the Riviera, Estate Wagon, Electra 225, Centurion, and popular LeSabre family sedan.
Use of traction control
★ In road cars: Traction Control has traditionally been a safety feature in high-performance cars, which would otherwise need very sensitive throttle input to keep them from spinning when accelerating, especially in wet or snowy conditions. In recent years, Traction Control systems have become widely available in non-performance cars, minivans, and light trucks.
★ In race cars: Traction Control is used as a performance enhancement, allowing maximum traction under acceleration without wheel spin. When accelerating out of turn, it keeps the tires at the optimum
slip angle.
★ In
off road vehicles: Traction Control is used instead or in addition to the mechanical limited slip or
locking differential. It is often implemented with
an electronic limited slip differential, as well as other computerized controls of the engine and transmission. The spinning wheel is slowed down with short applications of brakes, diverting more torque to the non-spinning wheel. This form of traction control has an advantage over a locking differential as steering and control of a vehicle is easier, so the system can be continuously enabled. It also creates less stress on the drivetrain, which is particularly important to the vehicles with an
independent suspension that is generally weaker compared to
solid axles. On the other hand, only half of the available torque will be applied to a wheel with traction, compared to a locked differential, and handling is less predictable.
It is widely thought that TC removes some skill and control from the driver. As such it is unpopular with many
motorsports fans. Some motorsports series have given up trying to outlaw TC. With current state of technology, it is possible to implement TC as a part of
software in
ECU, and as such it is very hard to detect by scrutineers. Very effective yet small units are also available through a company in the US, Davis Technologies
[1], that allow the driver to remove the traction control system after an event if desired. In
Formula One, an effort to ban TC has led to the change of rules for
2008: every car must have a standard (but custom mappable) ECU, issued by
FIA, which is relatively basic and does not have TC capabilities.
Traction control in cornering
Traction control is not just used for moving a vehicle from stationary without slippage. During hard maneuvers in a front wheel drive car there is a point where the wheels cannot both steer and drive the car at the same time without losing traction. With traction control, it's less likely for this loss of control to occur. There is a limit though, when the tires lose grip. The car will not corner as sharply as indicated by the front wheels, this is
Understeer. In some front wheel drive cars, Traction Control can induce
Lift-off oversteer due to its throttle retarding capabilities. This can keep some cars stable in long maneuvers. In rear wheel drive cars, traction control can prevent
Oversteer
All car manufacturers strongly point out in vehicle manuals that the Traction Control system is not to be taken for granted and that its presence should not encourage dangerous driving or situations beyond the driver's control.
See also
★
Car safety
External links
★
Motorsport site claiming its use is rife.
★
How Stuff Works.com explains Traction Control a bit more indepth.
★
Traction control in Formula One
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