System Description

By preventing wheel lock through brake force (brake fluid pressure) control that is electronically controlled by detecting wheel speed during braking, stability during emergency braking is improved so that obstacles can be easily bypassed by steering operation.
During braking, control units calculates wheel speed and pseudo-vehicle speed, and transmits pressure increase, hold or decrease signals to actuator portion according to wheel slip status.
The following effects are obtained by preventing wheel lock during braking.

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- Vehicle tail slip is prevented during braking when driving straight.
- Understeer and oversteer tendencies are moderated during braking driving on a corner.
- Obstacles may be easily bypassed by steering operation during braking.
CONSULT can be used to diagnose the system diagnosis.
Fail-safe function is adopted. When a malfunction occurs in ABS function, the control is suspended for VDC function, TCS function, ABS function, Brake limited slip differential (BLSD) function, Brake assist function, hill start assist function and Brake force distribution function. The vehicle status becomes the same as models without VDC function, TCS function, ABS function, Brake limited slip differential (BLSD) function, Brake assist function, hill start assist function and Brake force distribution function. However, EBD function is operated normally. Refer to Fail-safe .

NOTE:

ABS has the characteristic as described here, This is not the device that helps reckless driving.
To stop vehicle efficiently, ABS does not operate and ordinary brake operates at low speed [approximately 10 km/h (6 MPH) or less, but differs subject to road conditions].
Self-diagnosis is performed immediately after when engine starts and when vehicle initially is driven [by vehicle speed approximately 15 km/h (9 MPH)]. Motor sounds are generated during self-diagnosis. In addition, brake pedal may be felt heavy when depressing brake pedal lightly. These symptoms are not malfunctions.

SYSTEM DIAGRAM

NOTE: Steering force control module is applied to models with Direct adaptive steering system.

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INPUT SIGNAL AND OUTPUT SIGNAL

Major signal transmission between each unit via communication lines is shown in the following table.

Component	Signal description
Steering force control module*	Mainly transmits the following signals to ABS actuator and electric unit (control unit) via CAN communication. Steering pinion angle signal Direct adaptive steering malfunction signal
Combination meter	Mainly transmits the following signals to ABS actuator and electric unit (control unit) via CAN communication. Brake fluid level switch signal Parking brake switch signal Mainly receives the following signals from ABS actuator and electric unit (control unit) via CAN communication. ABS warning lamp signal VDC warning lamp signal VDC OFF indicator lamp signal
Steering angle sensor	Mainly transmits the following signals to ABS actuator and electric unit (control unit) via CAN communication. Steering angle sensor signal Steering angle sensor malfunction signal

Component

Signal description

Steering force control module*

Mainly transmits the following signals to ABS actuator and electric unit (control unit) via CAN communication.

Combination meter

Mainly transmits the following signals to ABS actuator and electric unit (control unit) via CAN communication.

Mainly receives the following signals from ABS actuator and electric unit (control unit) via CAN communication.

Steering angle sensor

Mainly transmits the following signals to ABS actuator and electric unit (control unit) via CAN communication.

*: Models with Direct adaptive steering system.