Traction Control and Stability Control Olympia WA

Traction control is a logical evolution of the ABS system's underlying principles, only reversed. While ABS works to maximize traction during braking, the purpose of traction control is to mitigate loss of grip during acceleration.

Harpers Auto Sales
(360) 753-0200
8401 Old Highway 99 SE
Olympia, WA

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Olympia Auto Mall
(360) 705-1636
2125 Carriage Dr SW
Olympia, WA

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Southwest Auto Sales
(360) 709-9272
9809 Blomberg St SW
Olympia, WA

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Chaplins North Bend Chevrolet
(425) 888-0781
106 Main Avenue North
North Bend, WA
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Good Chevrolet Inc Parts Department
(425) 235-2000
325 SW 12th Street
Renton, WA
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Sundance Auto Sales
(360) 956-1830
2400 Carriage Loop SW
Olympia, WA

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Park It Market Incorporated
(360) 459-7275
6504 Martin Way E
Olympia, WA

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BMW Northwest Inc
(253) 922-8700
4011 20th Street East
Tacoma, WA
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South Tacoma Honda
(253) 472-2300
7802 S Tacoma Way
Tacoma, WA
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Hahn Motor CO
(509) 453-9171
1201 S 1st Street
Yakima, WA
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Traction Control and Stability Control

Traction Control and Stability Control By Brian Alexander, Content Editor

Vehicle safety systems have become increasingly advanced over the past few decades. Where the seatbelt and airbag used to be our primary defenses against injury, cars are now equipped with active safety systems to prevent us from losing control of the vehicle in the first place.

The proliferation of onboard electronics in the eighties enabled carmakers to fit vehicles with increasingly advanced safety systems. The idea behind these new "proactive" safety systems was to correct potentially dangerous driver inputs. The first such system developed was antilock braking, which keeps drivers from locking up tires during hard braking by rapidly pulsating the brake calipers, thus safely minimizing braking distance.

Traction control is a logical evolution of the ABS system's underlying principles, only reversed. While ABS works to maximize traction during braking, the purpose of traction control is to mitigate loss of grip during acceleration.

When a vehicle accelerates from a stop or accelerates to pass another car, it does so by transferring power through friction created between the tires and the road. There are limits to how much friction a tire can take however, and once traction is lost, the tire stops accelerating and begins to spin freely. Think of a car doing a burnout - the tires are spinning beyond the limits of traction.

"Traction control systems work by electronically detecting tire slip and overriding the driver's throttle input, which limits torque to the driven wheels," says Alex Cardinali, Product Safety Engineer at Nissan of America.

When wheel spin is detected, the traction control system instantly compensates by correcting the driver inputs to the engine management system and applies less torque. Advanced traction control systems are even capable of applying light braking to slow the tires down to a speed at which they can regain traction. In older systems where the gas pedal is directly connected to the engine injection system via a throttle cable, traction control retards the engine by keeping cylinders from firing, limiting power to the driven wheels.

The next step on the safety ladder then is to gain control of a car's handling, also known technically as its yaw movement. While traction control focuses on the longitudinal (front-to-back) forces the car experiences, stability control focuses on the lateral (side-to-side) forces a car is subjected to and attempts to keep the front and back ends of the car in line through use of yaw sensors.

This means controlling "oversteer," a condition in which the vehicle's rear tires lose traction, as well as "understeer," a condition in which the vehicle's front tires lose traction.

"A stability control system such as Nissan's VDC (Vehicle Dynamic Control) works by controlling the rotational speed of each individual wheel. It does so by applying braking fo...

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