Part 2

Transaxle Operation

Part 2 of 3

Hydraulic Operation
Line pressure hydraulic circuits:
^ Line pressure from the pump is supplied to the low/reverse/overdrive (4, 5, 6) regulator valve.
^ Line pressure is regulated by the pressure regulator valve.
^ The pressure regulator valve is controlled by varying pressure from the LPC solenoid through the LPC circuit.

Torque converter circuits:
^ Regulated line pressure from the pressure regulator valve is directed to the TCC control valve through the CONY FD hydraulic circuit.
^ When the TCC is released, CONY FD pressure is directed to the TCC RELEASE circuit by the TCC control valve. Pressure from the TCC RELEASE circuit releases the TCC.
^ Transmission fluid from the TCC RELEASE returns to the TCC control valve through the TCC APPLY circuit.

Cooler and lubrication hydraulic circuits:
^ The TCC control valve directs transmission fluid from the TCC APPLY circuit (return circuit from the torque converter when the TCC is released) to the COOLER FEED circuit.
^ In the COOLER FEED circuit, transmission fluid flows through the transmission fluid cooler or the thermal bypass valve to the LUBE circuit.

Solenoid hydraulic circuits:
^ The LPC solenoid applies varying pressure to the pressure control valve through the LPC hydraulic circuit. The LPC solenoid regulates line pressure by controlling the position of the pressure regulator valve.
^ SSD applies pressure to the low/reverse/overdrive (4, 5, 6) regulator valve to apply the low/reverse clutch.
^ SSE applies pressure to the multiplex shift valve to position the valve against the spring and direct regulated CBLR/C456 SUPPLY pressure to the low/reverse clutch.

Clutch hydraulic circuits:
^ Line pressure from the pump is supplied to the low/reverse/overdrive (4, 5, 6) regulator valve.
^ Regulated line pressure from the low/reverse/overdrive (4, 5, 6) regulator valve is sent to the multiplex shift valve assembly through the CBLR/C456 SUPPLY hydraulic circuit.
^ The multiplex shift valve directs the fluid to the low/reverse clutch through the CBLR hydraulic circuit.

Electrical Operation
Solenoid operation:

Neutral Position Solenoid Operation Chart

Neutral Position Solenoid Operation Chart:

6F50 NEUTRAL POSITION:

HYDRAULIC DIAGRAM FOLDOUT6F50 NEUTRAL POSITION:

1st Gear Above 5 km/h (3 mph)

NOTE: The transaxle operates differently in 1st gear above and below 5 km/h (3 mph). For transaxle operation below 5 km/h (3 mph), refer to Manual LOW Position and 1st Gear Below 5 km/h (3 mph).

Mechanical Operation
Apply components:
^ Forward (1, 2, 3, 4) clutch
^ Low one-way clutch

Planetary Gearset Operation
Front planetary gearset driven components:
^ Ring gear
^ Planetary carrier

Center planetary gearset driven components:
^ Sun gear
^ Planetary carrier

Rear planetary gearset driven components:
^ None

Front planetary gearset held components:
^ Sun gear Center planetary gearset held components:
^ Ring gear Rear planetary gearset held components:
^ Rear planetary carrier (does not contribute to power flow)

1st Gear Above 5 km/h (3 mph) Clutch Application Chart

1st Gear Above 5 km/h (3 mph) Clutch Application Chart:

For component information, refer to Mechanical Components and Functions.

Power Flow

Power Flow:

Hydraulic Operation
Line pressure hydraulic circuits:
^ Line pressure from the pump is supplied to the manual valve.
^ Line pressure is regulated by the pressure regulator valve.
^ The pressure regulator valve is controlled by varying pressure from the LPC solenoid through the LPC circuit.

Torque converter circuits:
^ Regulated line pressure from the pressure regulator valve is directed to the TCC control valve through the CONY FD hydraulic circuit.
^ When the TCC is released, CONY FD pressure is directed to the TCC RELEASE circuit by the TCC control valve. Pressure from the TCC RELEASE circuit releases the TCC.
^ Transmission fluid from the TCC RELEASE returns to the TCC control valve through the TCC APPLY circuit.

Cooler and lubrication hydraulic circuits:
^ The TCC control valve directs transmission fluid from the TCC APPLY circuit (return circuit from the torque converter when the TCC is released) to the COOLER FEED circuit.
^ In the COOLER FEED circuit, transmission fluid flows through the transmission fluid cooler or the thermal bypass valve to the LUBE circuit.

Solenoid hydraulic circuits:
^ The LPC solenoid applies varying pressure to the pressure control valve through the LPC hydraulic circuit. The LPC solenoid regulates line pressure by controlling the position of the pressure regulator valve.
^ SSA applies pressure to the forward (1, 2, 3, 4) clutch regulator valve to apply the forward clutch.

Clutch hydraulic circuits:
^ Line pressure from the manual valve is directed to the multiplex shift valve through the DRIVE 1 hydraulic circuit.
^ The multiplex shift valve directs DRIVE 1 pressure to the forward (1, 2, 3, 4) clutch regulator valve through the DRIVE 2, CB26FD/CB1234FD and CB1234 SUP hydraulic circuits.
^ The low/reverse/overdrive (4, 5, 6) clutch regulator valve directs DRIVE 2 pressure to the multiplex shift valve through the VALVE LATCH hydraulic circuit to latch the multiplex shift valve.
^ Regulated CB1234 SUP pressure from the forward (1, 2, 3, 4) clutch regulator valve is directed to the forward (1, 2, 3, 4) clutch through the CB1234 hydraulic circuit to apply the clutch.

Electrical Operation
Solenoid operation:

1st Gear Above 5 km/h (3 mph) Solenoid Operation Chart

1st Gear Above 5 km/h (3 mph) Solenoid Operation Chart:

6F50 1ST GEAR ABOVE 5 km/h (3 mph):

HYDRAULIC DIAGRAM FOLDOUT 6F50 1ST GEAR(ABOVE 5 km/h [3 mph]):

2nd Gear

Mechanical Operation
Apply components:
^ Forward (1, 2, 3, 4) clutch
^ Intermediate (2, 6) clutch

Planetary Gearset Operation
Front planetary gearset driven components:
^ Planetary carrier
^ Ring gear

Center planetary gearset driven components:
^ Sun gear
^ Planetary carrier
^ Ring gear

Rear planetary gearset driven components:
^ Planetary carrier
^ Ring gear

Front planetary gearset held components:
^ Sun gear Center planetary gearset held components:
^ None Rear planetary gearset held components:
^ Sun gear

2nd Gear Clutch Application Chart

2nd Gear Clutch Application Chart:

Power Flow

Power Flow:

Hydraulic Operation
Line pressure hydraulic circuits:
^ Line pressure from the pump is supplied to the manual valve.
^ Line pressure is regulated by the pressure regulator valve.
^ The pressure regulator valve is controlled by varying pressure from the LPC solenoid through the LPC circuit.

Torque converter circuits:
^ Regulated line pressure from the pressure regulator valve is directed to the TCC control valve through the CONY FD hydraulic circuit.
^ When the TCC is released, CONY FD pressure is directed to the TCC RELEASE circuit by the TCC control valve. Pressure from the TCC RELEASE circuit releases the TCC.
^ Transmission fluid from the TCC RELEASE returns to the TCC control valve through the TCC APPLY circuit.

Cooler and lubrication hydraulic circuits:
^ The TCC control valve directs transmission fluid from the TCC APPLY circuit (return circuit from the torque converter when the TCC is released) to the COOLER FEED circuit.
^ In the COOLER FEED circuit, transmission fluid flows through the transmission fluid cooler or the thermal bypass valve to the LUBE circuit.

Solenoid hydraulic circuits:
^ The LPC solenoid applies varying pressure to the pressure control valve through the LPC hydraulic circuit. The LPC solenoid regulates line pressure by controlling the position of the pressure regulator valve.
^ SSA applies pressure to the forward (1, 2, 3, 4) clutch regulator valve to apply the forward clutch.
^ SSC applies pressure to the intermediate (2, 6) clutch regulator valve to apply the intermediate clutch.

Clutch hydraulic circuits:
^ Line pressure from the manual valve is directed to the multiplex shift valve through the DRIVE 1 hydraulic circuit.
^ The multiplex shift valve directs DRIVE 1 pressure to the forward (1, 2, 3, 4) clutch and the intermediate (2, 6) clutch regulator valves through the DRIVE 2 and CB26FD/CB1234FD hydraulic circuits. The CB26FD/CB1234FD circuit feeds the CB1234 SUP hydraulic circuit which feeds the forward (1, 2, 3, 4) clutch regulator valve.
^ The low/reverse/overdrive (4, 5, 6) clutch regulator valve directs DRIVE 2 pressure to the multiplex shift valve through the VALVE LATCH hydraulic circuit to latch the multiplex shift valve.
^ Regulated DRIVE 2 pressure from the forward (1, 2, 3, 4) clutch regulator valve is directed to the forward (1, 2, 3, 4) clutch through the CB1234 hydraulic circuit to apply the clutch.
^ Regulated DRIVE 2 pressure from the intermediate (2, 6) clutch regulator valve is directed to the intermediate (2, 6) clutch through the CB26 hydraulic circuit to apply the clutch.

Electrical Operation
Solenoid operation:

2nd Gear Solenoid Operation Chart

2nd Gear Solenoid Operation Chart:

6F50 2ND GEAR:

HYDRAULIC DIAGRAM FOLDOUT6F50 2ND GEAR:

3rd Gear Torque Converter Clutch (TCC) Released

Mechanical Operation
Apply components:
^ Forward (1, 2, 3, 4) clutch
^ Direct (3, 5, R) clutch

Planetary Gearset Operation
Front planetary gearset driven components:
^ Planetary carrier
^ Ring gear

Center planetary gearset driven components:
^ Sun gear
^ Planetary carrier
^ Ring gear

Rear planetary gearset driven components:
^ Sun gear
^ Planetary carrier
^ Ring gear

Front planetary gearset held components:
^ Sun gear Center planetary gearset held components:
^ None Rear planetary gearset held components:
^ None

3rd Gear Clutch Application Chart

3rd Gear Clutch Application Chart:

For component information, refer to Mechanical Components and Functions.

Power Flow

Power Flow:

Hydraulic Operation
Line pressure hydraulic circuits:
^ Line pressure from the pump is supplied to the manual valve.
^ Line pressure is regulated by the pressure regulator valve.
^ The pressure regulator valve is controlled by varying pressure from the LPC solenoid through the LPC circuit.

Torque converter circuits:
^ Regulated line pressure from the pressure regulator valve is directed to the TCC control valve through the CONY FD hydraulic circuit.
^ When the TCC is released, CONY FD pressure is directed to the TCC RELEASE circuit by the TCC control valve. Pressure from the TCC RELEASE circuit releases the TCC.
^ Transmission fluid from the TCC RELEASE returns to the TCC control valve through the TCC APPLY circuit.

Cooler and lubrication hydraulic circuits:
^ The TCC control valve directs transmission fluid from the TCC APPLY circuit (return circuit from the torque converter when the TCC is released) to the COOLER FEED circuit.
^ In the COOLER FEED circuit, transmission fluid flows through the transmission fluid cooler or the thermal bypass valve to the LUBE circuit.

Solenoid hydraulic circuits:
^ The LPC solenoid applies varying pressure to the pressure control valve through the LPC hydraulic circuit. The LPC solenoid regulates line pressure by controlling the position of the pressure regulator valve.
^ SSA applies pressure to the forward (1, 2, 3, 4) clutch regulator valve to apply the forward clutch.
^ SSB applies pressure to the direct (3, 5, R) clutch regulator valve to apply the direct clutch.

Clutch hydraulic circuits:
^ Line pressure from the manual valve is directed to the multiplex shift valve through the DRIVE 1 hydraulic circuit.
^ The multiplex shift valve directs DRIVE 1 pressure to the forward (1, 2, 3, 4) clutch regulator valve through the DRIVE 2, CB26FD/CB1234FD and CB1234 SUP hydraulic circuits. The DRIVE 2 hydraulic circuit also feeds the C35R SUPPLY hydraulic circuit which supplies the direct (3, 5, R) clutch regulator valve with pressure.
^ The low/reverse/overdrive (4, 5, 6) clutch regulator valve directs DRIVE 2 pressure to the multiplex shift valve through the VALVE LATCH hydraulic circuit to latch the multiplex shift valve.
^ Regulated CB1234 SUP pressure from the forward (1, 2, 3, 4) clutch regulator valve is directed to the forward (1, 2, 3, 4) clutch through the CB1234 hydraulic circuit to apply the clutch.
^ Regulated C35R SUPPLY pressure from the direct (3, 5, R) clutch regulator valve is directed to the direct (3, 5, R) clutch through the C35R hydraulic circuit to apply the clutch.

Electrical Operation
Solenoid operation:

3rd Gear (TCC Released) Solenoid Operation Chart

3rd Gear (TCC Released) Solenoid Operation Chart:

6F50 3RD GEAR TORQUE CONVERTER CLUTCH (TCC) RELEASED:

HYDRAULIC DIAGRAM FOLDOUT 6F50 3RD GEARTORQUE CONVERTER CLUTCH (TCC) RELEASED:

3rd Gear TCC Applied

Mechanical Operation
Apply components:
^ Forward (1, 2, 3, 4) clutch
^ Direct (3, 5, R) clutch
^ TCC

Planetary Gearset Operation
Front planetary gearset driven components:
^ Planetary carrier
^ Ring gear

Center planetary gearset driven components:
^ Sun gear
^ Planetary carrier
^ Ring gear

Rear planetary gearset driven components:
^ Sun gear
^ Planetary carrier
^ Ring gear

Front planetary gearset held components:
^ Sun gear Center planetary gearset held components:
^ None Rear planetary gearset held components:
^ None

3rd Gear TCC Applied Clutch Application Chart

3rd Gear TCC Applied Clutch Application Chart:

Power Flow

Power Flow:

Hydraulic Operation
Line pressure hydraulic circuits:
^ Line pressure from the pump is supplied to the manual valve.
^ Line pressure is regulated by the pressure regulator valve.
^ The pressure regulator valve is controlled by varying pressure from the LPC solenoid through the LPC circuit.

Torque converter circuits:
^ Line pressure from the manual valve is directed to the multiplex shift valve through the DRIVE 1 hydraulic circuit.
^ The multiplex shift valve directs DRIVE 1 pressure to the TCC regulator apply valve through the DRIVE 2 hydraulic circuit.
^ When the TCC is applied, the TCC regulator apply valve directs regulated DRIVE 2 pressure to the TCC control valve through the REG APPLY hydraulic circuit. The TCC control valve directs DRIVE 2 pressure to the TCC APPLY hydraulic circuit to apply the TCC.
^ Transmission fluid from the TCC APPLY circuit returns to the TCC control valve unpressurized through the TCC RELEASE circuit and returns to the sump through the EXH port.

Cooler and lubrication hydraulic circuits:
^ Regulated line pressure from the pressure regulator valve is directed to the TCC control valve through the CONV FD hydraulic circuit.
^ The TCC control valve directs transmission fluid from the CONV FD circuit to the COOLER FEED circuit.
^ In the COOLER FEED circuit, transmission fluid flows through the transmission fluid cooler or the thermal bypass valve to the LUBE circuit.

Solenoid hydraulic circuits:
^ The LPC solenoid applies varying pressure to the pressure control valve through the LPC hydraulic circuit. The LPC solenoid regulates line pressure by controlling the position of the pressure regulator valve.
^ SSA applies pressure to the forward (1, 2, 3, 4) clutch regulator valve to apply the forward clutch.
^ SSB applies pressure to the direct (3, 5, R) clutch regulator valve to apply the direct clutch.
^ The TCC solenoid applies pressure to the TCC control valve and the TCC regulator apply valve to apply the TCC.

Clutch hydraulic circuits:
^ Line pressure from the manual valve is directed to the multiplex shift valve through the DRIVE 1 hydraulic circuit.
^ The multiplex shift valve directs DRIVE 1 pressure to the forward (1, 2, 3, 4) clutch regulator valve through the DRIVE 2, CB26FD/CB1234FD and CB1234 SUP hydraulic circuits. The DRIVE 2 hydraulic circuit also feeds the C35R SUPPLY hydraulic circuit which supplies the direct (3, 5, R) clutch regulator valve with pressure.
^ The low/reverse/overdrive (4, 5, 6) clutch regulator valve directs DRIVE 2 pressure to the multiplex shift valve through the VALVE LATCH hydraulic circuit to latch the multiplex shift valve.
^ Regulated CB1234 SUP pressure from the forward (1, 2, 3, 4) clutch regulator valve is directed to the forward (1, 2, 3, 4) clutch through the CB1234 hydraulic circuit to apply the clutch.
^ Regulated C35R SUPPLY pressure from the direct (3, 5, R) clutch regulator valve is directed to the direct (3, 5, R) clutch through the C35R hydraulic circuit to apply the clutch.

Electrical Operation
Solenoid operation:

3rd Gear (TCC Applied) Solenoid Operation Chart

3rd Gear (TCC Applied) Solenoid Operation Chart:

6F50 3RD GEAR TORQUE CONVERTER CLUTCH (TCC) APPLIED:

HYDRAULIC DIAGRAM FOLDOUT 6F50 3RD GEARTORQUE CONVERTER CLUTCH (TCC) APPLIED:

4th Gear Torque Converter Clutch (TCC) Released

Mechanical Operation
Apply components:
^ Forward (1, 2, 3, 4) clutch
^ Overdrive (O/D) (4, 5, 6) clutch

Planetary Gearset Operation
Front planetary gearset driven components:
^ Planetary carrier
^ Ring gear

Center planetary gearset driven components:
^ Sun gear
^ Planetary carrier
^ Ring gear

Rear planetary gearset driven components:
^ Planetary carrier Front planetary gearset held components:
^ Sun gear Center planetary gearset held components:
^ None Rear planetary gearset held components:
^ None

4th Gear Clutch Application Chart

4th Gear Clutch Application Chart:

Power Flow

Power Flow:

Hydraulic Operation
Line pressure hydraulic circuits:
^ Line pressure from the pump is supplied to the manual valve.
^ Line pressure is regulated by the pressure regulator valve.
^ The pressure regulator valve is controlled by varying pressure from the LPC solenoid through the LPC circuit.

Torque converter circuits:
^ Regulated line pressure from the pressure regulator valve is directed to the TCC control valve through the CONY FD hydraulic circuit.
^ When the TCC is released, CONY FD pressure is directed to the TCC RELEASE circuit by the TCC control valve. Pressure from the TCC RELEASE circuit releases the TCC.
^ Transmission fluid from the TCC RELEASE returns to the TCC control valve through the TCC APPLY circuit.

Cooler and lubrication hydraulic circuits:
^ The TCC control valve directs transmission fluid from the TCC APPLY circuit (return circuit from the torque converter when the TCC is released) to the COOLER FEED circuit.
^ In the COOLER FEED circuit, transmission fluid flows through the transmission fluid cooler or the thermal bypass valve to the LUBE circuit.

Solenoid hydraulic circuits:
^ The LPC solenoid applies varying pressure to the pressure control valve through the LPC hydraulic circuit. The LPC solenoid regulates line pressure by controlling the position of the pressure regulator valve.
^ SSA applies pressure to the forward (1, 2, 3, 4) clutch regulator valve to apply the forward clutch.
^ SSD applies pressure to the low/reverse/overdrive (4, 5, 6) clutch regulator valve to apply the O/D clutch.

Clutch hydraulic circuits:
^ Line pressure from the manual valve is directed to the multiplex shift valve through the DRIVE 1 hydraulic circuit.
^ The multiplex shift valve directs DRIVE 1 pressure to the forward (1, 2, 3, 4) clutch regulator valve through the DRIVE 2, CB26FD/CB1234FD and CB1234 SUP hydraulic circuits. The DRIVE 2 hydraulic circuit also feeds the CBLR/C456 clutch regulator valve.
^ Regulated CB1234 SUP pressure from the forward (1, 2, 3, 4) clutch regulator valve is directed to the forward (1, 2, 3, 4) clutch through the CB1234 hydraulic circuit to apply the clutch.
^ Line pressure from the pump is supplied to the low/reverse/overdrive (4, 5, 6) regulator valve.
^ Regulated line pressure from the low/reverse/overdrive (4, 5, 6) regulator valve is sent to the multiplex shift valve assembly through the CBLR/C456 SUPPLY hydraulic circuit.
^ The multiplex shift valve directs the transmission fluid to the multiplex manual valve through the C456 SUPPLY hydraulic circuit.
^ The multiplex manual valve directs pressure from the C456 SUPPLY circuit to the O/D (4, 5, 6) clutch through the C456 hydraulic circuit to apply the clutch.
^ The C456 hydraulic circuit supplies pressure to the VALVE LATCH circuit to latch the multiplex shift valve and also supplies pressure to the intermediate (2, 6) clutch regulator valve.

Electrical Operation
Solenoid operation:

4th Gear (TCC Released) Solenoid Operation Chart

4th Gear (TCC Released) Solenoid Operation Chart (Part 1):

NC = Normally closed
NH = Normally high
NL = Normally low