User's Manual

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FIGURE 8: M-32

™

MODULATOR ANTILOCK EXHAUST OF BRAKES

Supply or Hold

Diaphragm

Closed

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

Spring

Brake

Chamber

Brake

Valve

Exhaust

Diaphragm

Exhaust

Valve

Exhaust

Port

Delivery

Port

Supply

Port

FIGURE 9: M-32

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AND M-32QR

™

MODULATORS ANTILOCK APPLICATION HELD POSITION

Supply or Hold

Diaphragm

Closed

Spring

Brake

Chamber

Brake

Valve

Exhaust

Valve

Closed

Exhaust

Port

M-32

™

Modulator

M-32QR

™

Modulator

Bias

Valve

Delivery

Port

Supply

Port

Supply or Hold

Diaphragm

Spring

Brake

Chamber

Brake

Valve

Exhaust

Diaphragm

Exhaust

Valve

Exhaust

Port

Delivery

Port

Supply

Port

place the modulator in the hold position, prior to entering

the reapply mode, when it detects recovery from a locked

wheel condition. In this mode of operation, the modulator

supply/hold solenoid remains energized while the exhaust

solenoid returns to its normal position. The exhaust 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 pressure is prevented. Because the supply

solenoid remains energized, the supply diaphragm remains

seated, thus preventing application air from flowing to the

delivery port and out to the brake chamber. The modulator

can enter both the antilock exhaust or reapply mode from

the antilock hold mode depending on the needs of the

antilock controller.

ANTILOCK “REAPPLY” MODE

If the antilock controller senses that wheel speed has

increased sufficiently enough to allow re-application of braking

pressure, without further wheel lock-up, it de-energizes the

supply solenoid. With both solenoids de-energized, the

modulator re-applies air to the brakes in the same manner it

did during a non-antilock event.

Solenoid

Energized:

Moves to

Down

Position

Solenoid

Energized:

Moves to

Down

Position

Solenoid

Energized:

Moves to

Down Position

Solenoid

Energized:

Moves to

Down

Position

Exhaust

Diaphragm

Solenoid

Energized:

Moves to

Down Position

Solenoid

Energized:

Moves to

Down

Position

Solenoid

Returns

to Up

Position

Solenoid

Returns

to Up

Position