ABS prevents the wheels from locking up, thus avoiding uncontrolled skidding of the vehicle and decreases the distance travelled without slipping.
Driving on expressways can be fun and thrill-inducing, as many of you surely know. One gets to unleash a car’s full potential. The city roads keep us grounded, but as soon as you hit the highway, there’s no looking back. You’ll almost never see a car going below 100 km/hr.
The situation gets particularly tricky during monsoons, as cruising in a car at such high speeds is a perfect recipe for a disaster if the roads are slick. Even so, it does happen, so what do you do in a situation on a slippery road when you have to suddenly apply the brakes of your car? Without an anti-lock brake system, the wheels of your car stop spinning and the car will begin to skid. You’ll completely lose control over the car and the results can be deadly.
Anti-lock braking systems (ABS) take a lot of the challenge out of this sometimes nerve-wrecking event. In fact, on slippery surfaces, even professional drivers can’t stop as quickly without ABS as an average driver can with ABS.
What is Anti-lock braking system (ABS) in cars?
As the name signifies, the anti-lock braking system is a safety system in cars and other automobiles that keeps their wheels from locking up and helps their drivers to maintain steering control. Also referred to as anti-skid braking system sometimes, it enables the wheels of a vehicle to maintain tractive contact with the ground so that they don’t go into an uncontrolled skid.
With ABS, you have more control on your car during situations such as sudden braking. Basically, it is designed to help the driver maintain some steering ability and avoid skidding while braking.
ABS Working principle
The basic theory behind anti-lock brakes is simple. It prevents the wheels from locking up, thus avoiding uncontrolled skidding. ABS generally offers improved vehicle control and decreases stopping distances on dry and slippery surfaces.
A skidding wheel (where the tire contact patch is sliding relative to the road) has less traction (grip of the tire on the road) than a non-skidding wheel. For example, if your car drives over a road covered in ice, it is unable to move forward and the wheels will keep spinning, since no traction is present. This is because the contact point of the wheel is sliding relative to the ice.
ABS modifies the brake fluid pressure, independent of the amount of pressure being applied on the brakes, to bring the speed of the wheel back to the minimum slip level that is mandatory for optimal braking performance.
ABS has four major components:
- Speed Sensor
This sensor monitors the speed of each wheel and determines the necessary acceleration and deceleration of the wheels. It consists of an exciter (a ring with V-shaped teeth) and a wire coil/magnet assembly, which generates the pulses of electricity as the teeth of the exciter pass in front of it.
- Valves
The valves regulate the air pressure to the brakes during the ABS action. There is a valve in the brake line of each brake that is controlled by the ABS. In the first position, the brake valve is open and it allows the pressure from the master cylinder to be transferred to the brakes. In the second position, the brake valve remains closed and pressure from the master cylinder to the brakes is constrained. In the third position, the valve releases some of the pressure on the brakes.
The third step is repeated until the car comes to a halt. The resistance that you feel when braking suddenly at high speeds is actually the brake valves controlling the pressure that is being transferred to the brakes from the master cylinder.
- Electronic Control Unit (ECU)
The ECU is an electronic control unit that receives, amplifies and filters the sensor signals for calculating the wheel rotational speed and acceleration. The ECU receives a signal from the sensors in the circuit and controls the brake pressure, according to the data that is analyzed by the unit.
- Hydraulic Control Unit
The Hydraulic Control Unit receives signals from the ECU to apply or release the brakes under the anti-lock conditions. The Hydraulic Control Unit controls the brakes by increasing the hydraulic pressure or bypassing the pedal force to reduce the braking power.
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