2429849 - Introduction - A(B.S. ANTI-LOCK BRAKING SYSTEM .)

The vehicle is fitted with an ABS/EBD brake control system.The ABS is fitted in parallel to the hydraulic brake system so that braking is still assured even if the ABS is faulty.The ABS incorporates EBD (Electronic Brakeforce Distribution) to distribute brakeforce over the two electronically managed rear axles.GENERAL VIEW
1 - ABS/EBD control unit( ESP.ASR.HBA.HH.) 2 - Left front wheel sensor 3 - Right front wheel sensor 4 - Right rear wheel door 5 - Left rear wheel sensor 6 - EBD warning light 7 - ABS warning light The ABS control unit implements the ABS/EBD ESP and ASR systems (plus HBA.HH functions where fitted).The ABS control unit is connected to the front wiring. The system wiring harness is part of the engine bay wiring harness.
The PIN OUT of the ABS with EBD control unit is different from control units with ASR.ESP systems. plus the HBA. and HH functions

Structure

The ABS comprises:

  • an electronic control unit built into the hydraulic control unit;
  • an electro-hydraulic control unit which modulates the braking pressure via eight solenoid valves, two for each wheel;
  • four 'active' type sensors which detect the angular rotation speed of the wheels;
  • wiring with specific connector.

Introduction

The electronic control unit processes signals from active sensor and the brake light control switch. The control unit then implements strategies to detect the wheel or wheels that are tending to lock (maximum slip between wheel and road surface). The unit then modulates brake fluid pressure selectively for the front wheels and in tandem for the rear wheels (select-low function).

The ABS system modulates braking pressure in three basic stages:

  • pressure maintenance stage;
  • pressure reduction stage;
  • pressure increase stage.
When the ABS is required to intervene, it remains active until the speed drops to 2.7 km/h but then cuts out to allow the car to stop. After each Key ON and when 6 km/h is exceeded, the control unit carries out a test on the operation of the solenoid valves and the pump motor and the control unit also tests the sensors when 12 km/h is exceeded.The body computer identifies the ABS as a component of the C-CAN network at the first Key ON

Pressure increase stage without ABS intervention

With the brake pedal pressure, the electronic control unit (1):

  • does not supply the pressurizing solenoid valve (N.A.) (2);
  • does not supply the discharge solenoid valve (N.C.) (3).
Therefore, the pressure produced by the brake pump (4) reaches the brake calipers (5) without undergoing variations.

Pressure maintenance stage

The electronic control unit (1):

  • supplies the pressurizing solenoid valve (N.A.) (2);
  • does not supply the discharge solenoid valve (N.C.) (3).
Therefore, the hydraulic connection between the brake pump (4) and the brake caliper (5) is interrupted.The pressure in the brake caliper (5) remains constant even if the pressure on the brake pedal increases.

Pressure reduction stage

The electronic control unit (1):

  • supplies the pressurizing solenoid valve (N.A.) (2);
  • supplies the discharge solenoid valve (N.C.) (3).
The hydraulic connection between the brake pump (4) and the brake caliper (5) is interrupted and the pressurizing solenoid valve (3) opens and places the brake caliper (5) in contact with the low pressure accumulator (6) and the recovery pump (7). The electronic control unit (1) also supplies the recovery pump (7) drive motor (8) to reintroduce the fluid removed from the brake caliper (5) back into the main circuit.The fluid passes through the high pressure accumulator (9) and the restricter (10) which have a damping effect. The system is equipped with a single-acting valve (11) fitted in parallel to the pressurizing valve (2) which allows a rapid reduction in the pressure at the brake caliper (5) when the brake pedal is released.

Pressure increase stage

The electronic control unit (1):

  • does not supply the pressurizing solenoid valve (N.A.) (2);
  • does not supply the discharge solenoid valve (N.C.) (3).
The fluid that was re-introduced into the main circuit is then free to return to brake calipers (5) and increase pressure acting on the brake calipers.

EBD function (Electronic Brake force Distribution)

The EBD function controls the distribution of the brake force and therefore replaces the conventional mechanical load proportioning valve making it possible to:

  • act only on the rear brake calipers;
  • improve the brake force distribution;
  • intervene in an optimum manner in all load conditions (static or dynamic), driving conditions (in a straight line or round bends) and condition of the vehicle (tyres, brakes and suspension worn);
  • implement a strategy which follows the ideal distribution curve.
Fa, front axle brake force Fp, rear axle brake force A, Distribution curve implemented by the braking system B, Ideal distribution curve C, Distribution curve implemented by the conventional hydraulic load proportioning valve D, Distribution curve implemented by the EDB function

EBD function (Electronic Brake force Distribution)

A failure in the EBD function is signalled by the following warning lights coming on simultaneously:

  • ABS warning light;
  • insufficient brake fluid and/or handbrake applied warning light.
It is therefore necessary to drive the vehicle extremely carefully to the nearest authorized workshop to have the system checked.

Recovery

The electronic control unit is equipped with a safety circuit which has the task of safeguarding the efficiency of the A.B.S. system.

With the ignition key inserted, the safety circuit checks the following for 4 seconds:

  • the operation of the electronic control unit;
  • operates the solenoids to monitor operation.
  • verifies the C-CAN network.
Each time the car sets off from a standing start, the safety circuit checks for signals from active sensors.

With the vehicle driving, the safety circuit behaves in the following way:

  • it continuously compares the angular speed of the wheels with the reference speed calculated;
  • it checks the memory conditions;
  • it checks the operation of the two relays, the solenoid valves and the pump motor;
  • it constantly checks the battery voltage;
  • it checks the efficiency of the brake pedal switch.
  • monitors efficiency of the C-CAN

If the safety circuit has detected one or more irregularities with the system components during the checking stage it behaves in the following way:

  • it switches off the A.B.S. system while still ensuring the efficiency of the conventional braking system;
  • it signals the irregular condition to the driver by the warning light in the instrument panel coming on.