The Brake Pressure Modulator Valve (BPMV) mounted on the left side of the engine compartment, provides brake fluid modulation for each of the individual wheel circuits as required during Antilock braking. During the Antilock mode, the BPMV can maintain or reduce brake fluid pressure independent of the pressure generated in the master cylinder. The BPMV does not provide more pressure than is applied by the master cylinder during braking.

With the exception of the EBCM, the Brake Pressure Modulator Valve (BPMV) is an integral, non-serviceable component. The BPMV should never be disassembled.

The BPMV consists of several other components which are described as follows:

Pump Motor

The BPMV contains a motor driven recirculation pump. The pump reduces pressure during ABS events. It transfers fluid from the brake calipers back to the master cylinder circuit. The pump and motor are located within the BPMV and are not serviced separately.

ABS Valves

The ABS valves decrease or maintain brake fluid pressure at the individual wheel circuits. There are three Inlet, and three Outlet solenoid valves. The solenoid valves maintain, increase, or decrease brake fluid pressure to the individual wheel circuits. The EBCM commands the valves to their correct position during an antilock event. During antilock mode, the pressure in each hydraulic circuit can be held or released by activating the appropriate valves. The normal state of the inlet valves is open, while the normal state of the Outlet valves is closed. This allows direct master cylinder pressure to the brakes during normal braking. The ABS valves are located within the BPMV and are not serviced separately.

The Electronic Brake Control Module (EBCM) controls the ABS. A microprocessor controls the EBCM.

The inputs to the system include the following components:

The outputs include the following components:

A serial data line is provided for service diagnostic tools and assembly plant testing.

The EBCM monitors the speed of each wheel.

The EBCM controls the solenoids and pump motor in order to reduce brake pressure to a particular wheel when the wheel is approaching slip.

This cycle will repeat until one of the following conditions exists:

If any system malfunction is detected, the EBCM will store a Diagnostic Trouble Code (DTC) in nonvolatile memory (DTCs will not disappear if the battery is disconnected).

The EBCM is bolted directly to the BPMV located in the engine compartment.

Terminal C11 of the EBCM harness connector is a vent tube that vents the cavity between the EBCM and the BPMV to the atmosphere.

The lamp driver module (LDM) contains electronic components that turn the ABS indicator ON unless the EBCM provides a ground to turn the indicator off . If the EBCM loses power or is disconnected, the LDM commands the ABS indicator ON.

When the ignition switch is turned to the ON position, the EBCM turns the ABS warning indicator ON for about 3 seconds during self test. Whenever a malfunction is detected, the EBCM stores a Diagnostic Trouble Code (DTC) and turns the ABS warning indicator ON.

The LDM is located on the back side of the instrument cluster assembly.

The front wheel speed sensors are of a variable reluctance type. Each sensor is attached to the knuckle assembly in close proximity to a toothed ring. An AC voltage is generated when the toothed ring passes by the sensor. The magnitude and frequency are proportional to the speed of the wheel and both will increase with increasing speed. The sensor is not repairable, nor is the air gap adjustable.

Rear wheel speed sensors are used for this ABS application and are located at each rear brake assembly. They operate in the same manner as the front wheel speed sensors.

The sensors and the toothed rings are not repairable.

The air gap cannot be adjusted.

The Electronic Brake Control Relay is a normally-open contact type.

The Electronic Brake Control Relay has special contact material to handle the high currents required for ABS operation. The relay allows battery voltage and current to be supplied to the solenoids and the pump motor.

The relay is an integral part of the EBCM and cannot be serviced separately.

Refer to Fluid Level Switch in Hydraulic Brakes.

The EBCM uses an accelerometer to sense vehicle motion.

The EBCM provides power (5 volts) and ground to the accelerometer. The accelerometer sends a voltage signal back to the EBCM relative to vehicle motion. This signal is about 2.4 to 2.6 volts at zero speed change (constant motion), the voltage signal decreases when the vehicle is under acceleration, and the voltage signal increases when the vehicle is under deceleration.

The accelerometer is located inside the parking brake lever bezel.

The four-wheel drive switch is used to notify the EBCM when the vehicle is in four-wheel drive mode. Under certain road conditions, a vehicle in four-wheel drive mode requires special measures to support the reference vehicle speed by means of an accelerometer.

The four-wheel drive switch is mounted on the transfer case.

The EBCM uses the Powertrain Control Module (PCM) to increase engine idle speed.

When the transfer case is set in 4H or 4L, the EBCM may command the Powertrain Control Module (PCM) to increase the idle speed during an ABS event.

The reason to increase engine speed above base idle is to reduce engine-induced braking. Engine braking, especially on icy road conditions, tends to reduce ABS performance.

The EBCM logic determines when it is necessary to idle-up. However, the PCM will ignore any requests to idle-up from the EBCM until the vehicle speed has reached at least 20 km/h (12 mph). The reason for this default in vehicle speed is to avoid a fast idle at all times when the idle-up circuit has been shorted to ground due to an electrical problem.

The wiring harness is the mechanism which electrically connects the EBCM to the following components:

And on vehicles equipped with 4WD, the EBCM is also connected to the accelerometer, 4WD switch and PCM.

The wiring harness consists of the following components:

The Electronic Brake Control Module (EBCM) continuously monitors itself and other ABS components.

If the EBCM detects a problem with the system, the amber ABS warning indicator will light continuously (solid indicator) in order to alert the driver of the problem.

Normal (non-antilock) braking will remain. In order to regain ABS braking ability, the ABS must be serviced.

The amber ABS warning indicator will illuminate any time when the EBCM suspects that the ABS operation is degraded because of a system malfunction

The red BRAKE warning indicator illuminates when the following conditions exist:

The red BRAKE warning indicator alerts the driver that a base brake problem may exist.

The power distribution system of the vehicle consists of the fuses and the ignition switch.

The following fuses are:

Fuse Block 1 is located on the RH side of the engine compartment, in front of the battery.

Fuse Block 2 is located under the LH side of the I/P.

Refer to Power Distribution, and Fuse Block Details, in Electrical Diagnosis for fuse locations and additional information.