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Rapid Exhaust (Figure 7) - The Rapid Exhaust operation
described in the following text occurs when the modulator is
controlling service chamber(s). During a rapid brake release
the quick release modulator will exhaust air differently to a
“slow” brake  release.

An example of this would be the case if the driver made a
severe brake application then lifted his foot from the foot
valve. During a rapid brake release, the air previously delivered
to the brake chamber is vented through the M-32

modulators as follows:

For the M-32QR

 Modulator: The bias valve moves to its

closed position, closing the air return route to the brake
valve’s exhaust.  Air pressure against the exhaust valve within
the M-32

 modulator overcomes the spring force and allows

air to exhaust through the M-32QR

 modulator exhaust port.

Residual air pressure between the bias valve and the brake
pedal flows back to the  brake valve exhaust.

For the M-32

 Modulator: As in the “slow” brake release,

air pressure travels back to the brake valve’s exhaust, but
also the air pressure against the exhaust valve within the
M-32

 modulator overcomes the spring force and allows air

to exhaust through the M-32

 modulator exhaust port.

ANTILOCK OPERATION

GENERAL

If a service brake application is made and the antilock system
detects an impending wheel lockup, the antilock controller
will make a controlled brake application using the modulator.

In order to control the brake application, the coils of the two
solenoid valves contained in the modulator are energized or
de-energized in a preprogrammed sequence by the antilock
controller.  When a solenoid coil is energized, and depending
whether the exhaust or hold solenoid is energized, it either

opens or closes, thereby causing the exhaust or
reapplication of air pressure to the brake actuator. The
solenoids in the modulator are controlled independently by
the antilock controller (ECU).

An experienced driver (of a vehicle without ABS) who
encounters wheel lock-up may sometimes “pump the brakes”
in order to attempt to prevent wheel lock-up and maintain
vehicle control. In the case of an ABS braking system, the
driver does not need to “pump the brakes” since the antilock
controller is able to apply and release the brakes using the
modulators, with far greater speed and accuracy.  Depending
on the number of modulators used, some systems are able
to apply braking power to wheels independently (see page
2).

ANTILOCK EXHAUST 

(Figure 8)

When wheel lock is detected or imminent, the antilock
controller energizes the supply and exhaust solenoids in
the modulator.

Energizing the supply solenoid allows application air to flow
to the control side of the supply diaphragm. Air pressure
acting on the supply diaphragm, along with the spring force,
enables the diaphragm to prevent further delivery of air to
the brake chamber.

Energizing the exhaust solenoid shuts off the air normally
applied to the control side of the exhaust diaphragm to keep
it closed. Air pressure acting on the exhaust diaphragm,
overcomes the spring force, and allows air to exhaust through
the exhaust port.

ANTILOCK HOLD MODE 

(Figure 9)

The antilock controller will place the modulator in the Hold
position when it senses that the correct wheel speed (braking
force) has been attained. The antilock controller will also

FIGURE 7: M-32

 AND M-32QR

 MODULATORS RAPID NON-ANTILOCK EXHAUST OF SERVICE BRAKES

Supply or Hold

Diaphragm

Open

Spring

Brake

Chamber

Brake
Valve

Exhaust

Diaphragm

Exhaust

Valve

Open

Exhaust

Port

M-32

Modulator

M-32QR

Modulator

Bias

Valve

Delivery

Port

Supply

Port

Supply or Hold

Diaphragm

Open

Spring

Brake

Chamber

Brake
Valve

Exhaust

Diaphragm

Exhaust

Valve

Open

Exhaust

Port

Delivery

Port

Supply

Port

Summary of Contents for M32 M32QR ANTILOCK MODULATOR ASSY

Page 1: ...bers on the same side of a tandem axle the modulator is sometimes mounted ahead of a quick release valve which provides quick exhaust of service applications during normal braking In the case of indiv...

Page 2: ...K A wiring harness connects the vehicle modulators to the controller TheABS controller is able to simultaneously and independentlycontroltheindividualmodulators Whenvehicle power is supplied to theABS...

Page 3: ...Hold Diaphragm Spring Brake Chamber Brake Valve Exhaust Diaphragm Exhaust Valve Exhaust Port M 32 Modulator M 32QR Modulator Bias Valve Delivery Port Supply Port Supply or Hold Diaphragm Spring Brake...

Page 4: ...reapplication of air pressure to the brake actuator The solenoids in the modulator are controlled independently by the antilock controller ECU An experienced driver of a vehicle without ABS who encoun...

Page 5: ...solenoid allows application air to flow to the control side of the exhaust diaphragm which then seals the exhaust passage With the exhaust diaphragm seated further exhaust of brake chamber air pressur...

Page 6: ...ice technicians 1 Park the vehicle on a level surface and block or chock the wheels Release the parking brakes and build the air system to governor cut out 2 Turn the engine ignition key to the OFF po...

Page 7: ...it may whip Never remove a component or plug unless you are certain all system pressure has been depleted 8 Use only genuine Bendix replacement parts components and kits Replacement hardware tubing h...

Page 8: ...cation made during VALVE REMOVAL step 5 4 Reconnect the electrical connector to the modulator 5 After installing the valve test all air fittings for excessive leakage and tighten as needed TECHNICAL...

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