Manual Third can be used in order to increase the performance
of the vehicle by allowing higher engine RPM for more torque. Manual Third
will also provide vehicle engine compression braking when descending slight
grades. Manual Third can be selected at any vehicle speed. The transmission
will downshift into third gear at any vehicle speed.
Manual Valve: In the Manual Third range, line pressure from the pressure regulator
valve is converted into PRND43, Drive, and D321 pressures. The PRND43 fluid
pressure is directed to the TFP manual valve position switch and to the
manual 2-1 band servo. The Drive fluid pressure is directed
to the TFP manual valve position switch, the forward clutch, the 1-2 shift
valve, and the accumulator valve. The D321 fluid pressure is directed to
the #1 checkball and to the overrun clutch.
Automatic Transmission Fluid Pressure (TFP) Manual Valve Position Switch
Assembly: Drive and PRND43 fluid pressures from the manual valve are directed
to the DR and the PRND43 switches on the TFP manual valve position switch.
This sends a signal to the PCM that the transmission is in manual third.
1-2 Shift Solenoid (1-2 SS) Valve: When the 1-2 SS valve de-energizes, 1-2 signal fluid
pressure exhausts through the solenoid. This allows spring pressure to move
the 3-4 shift valve to the extreme right.
2-3 Shift Solenoid (2-3 SS) Valve: When the 2-3 SS valve energizes, the 2-3 signal fluid
pressure moves the 2-3 shift valve against the spring force to the
extreme left.
1-2 Shift Valve: Spring pressure and 2-3 signal fluid hold the 1-2 shift
valve to the extreme right. Drive fluid pressure from the manual valve is
changed into 2-3 drive fluid pressure at the 1-2 shift valve.
This pressure is directed to the 2-3 shift valve, the TCC PWM
solenoid valve, and the intermediate (second) clutch.
2-3 Shift Valve: The 2-3 fluid pressure from the 1-2 shift valve is
changed into Third Clutch fluid pressure at the 2-3 shift valve. This
fluid seats the #8 checkball, causing the fluid to flow through
an orifice, and toward the third accumulator. Third clutch fluid pressure
also seats the #11 checkball, causing the fluid to flow through an orifice
and toward the third clutch. Third clutch fluid pressure changes into Third/Reverse
fluid pressure at the orifice.
Low and Reverse Band Servo: Second fluid pressure is supplied to the low and reverse band servo
in the same manner as to the second clutch. This fluid pressure is directed
to the inner piston of the low and reverse band servo, which applies the
inner piston.
Manual 2-1 Band Servo: The PRND43 fluid pressure from the manual valve is directed to
the manual 2-1 band servo. This pressure and the force of the
spring hold the manual 2-1 band servo off.
Overrun Clutch: The D321 fluid pressure from the manual valve seats the #1 checkball
in the case. This causes the fluid to flow through an orifice, where the D321
fluid pressure changes into overrun fluid pressure. The overrun fluid pressure
flows through the case and the pump housing, and into the overrun clutch
housing, which applies the overrun clutch. The overdrive roller clutch
becomes ineffective and provides vehicle engine compression braking.
Forward Clutch: Drive fluid pressure from the manual valve applies the forward
clutch.
Direct Clutch: Third/Reverse pressure from the #11 checkball flows through
the case and into the center support in order to apply the inner piston area
of the direct clutch.
Intermediate (Second) Clutch: The Intermediate (Second) Clutch is applied by second fluid pressure
from the 1-2 shift valve. The 2-3 drive fluid pressure from
the 1-2 shift valve seats the #4 checkball in the case, causing
the fluid to flow through two orifices. The 2-3 drive fluid pressure
changes to Second apply fluid pressure at the orifices. The Second apply
fluid flows into the center support, which applies the intermediate (second)
clutch.
Third Clutch Accumulator: Third clutch fluid pressure is also applied to the third clutch
accumulator, which is encased in the accumulator housing. This moves the third
accumulator piston against the spring force and the accumulator pressure,
which smooths the 2-3 shift.
Torque Converter Clutch Pulse Width Modulated (TCC PWM) Solenoid
Valve: When the PCM signal energizes the TCC PWM solenoid valve,
the pressure shifts the converter clutch shift valve, which applies the TCC
solenoid valve. The signal pressure also acts on the torque converter clutch
regulator valve. This regulates the output pressure in order to control
the apply and the release of the TCC.
Manual Third Gear - TCC Applied