2006 INFINITI FX35 diagram

A/T CONTROL SYSTEM AT-37
D E
F
G H
I
J
K L
M A
B
AT
Revision: 2006 December 2006 FX35/FX45
Lock-up ControlNCS001B4
The torque converter clutch piston in the torque converter is engaged to eliminate torque converter slip to
increase power transmission efficiency.
The torque converter clutch control valve operation is controlled by the torque converter clutch solenoid valve,
which is controlled by a signal from TCM, and the torque converter clutch control valve engages or releases
the torque converter clutch piston.
Lock-up Operation Condition Table
TORQUE CONVERTER CLUTCH CONTROL VALVE CONTROL
Lock-up Control System Diagram
Lock-up Released
In the lock-up released state, the torque converter clutch control valve is set into the unlocked state by the
torque converter clutch solenoid and the lock-up apply pressure is drained.
In this way, the torque converter clutch piston is not coupled.
Lock-up Applied
In the lock-up applied state, the torque converter clutch control valve is set into the locked state by the torque
converter clutch solenoid and lock-up apply pressure is generated.
In this way, the torque converter clutch piston is pressed and coupled.
SMOOTH LOCK-UP CONTROL
When shifting from the lock-up released state to the lock-up applied state, the current output to the torque con-
verter clutch solenoid is controlled with the TCM. In this way, when shifting to the lock-up applied state, the
torque converter clutch is temporarily set to the half-clutched state to reduce the shock.
Half-clutched State
The current output from the TCM to the torque converter clutch solenoid is varied to gradually increase the
torque converter clutch solenoid pressure.
In this way, the lock-up apply pressure gradually rises and while the torque converter clutch piston is put into
half-clutched status, the torque converter clutch piston operating pressure is increased and the coupling is
completed smoothly.
Slip Lock-up Control
In the slip region, the torque converter clutch solenoid current is controlled with the TCM to put it into the half-
clutched state. This absorbs the engine torque fluctuation and lock-up operates from low speed.
selector lever D position M5 position M4 position M3 position
Gear position 54543
Lock-up ×–×××
Slip lock-up ××–––
PCIA0014E

AT-52
TROUBLE DIAGNOSIS
Revision: 2006 December 2006 FX35/FX45
Circuit DiagramNCS001BG
TCWM0495E

DTC U1000 CAN COMMUNICATION LINE AT-105
D E
F
G H
I
J
K L
M A
B
AT
Revision: 2006 December 2006 FX35/FX45
Wiring Diagram — AT — CANNCS001BX
TCWM0496E

AT-108
DTC P0615 START SIGNAL CIRCUIT
Revision: 2006 December 2006 FX35/FX45
Wiring Diagram — AT — STSIGNCS001C4
TCWM0247E

DTC P0705 PARK/NEUTRAL POSITION SWITCH AT-113
D E
F
G H
I
J
K L
M A
B
AT
Revision: 2006 December 2006 FX35/FX45
Wiring Diagram — AT — PNP/SWNCS001CG
TCWM0248E

AT-120
DTC P0720 VEHICLE SPEED SENSOR A/T (REVOLUTION SENSOR)
Revision: 2006 December 2006 FX35/FX45
Wiring Diagram — AT — VSSA/TNCS001CN
TCWM0249E

DTC P1710 A/T FLUID TEMPERATURE SENSOR CIRCUIT AT-135
D E
F
G H
I
J
K L
M A
B
AT
Revision: 2006 December 2006 FX35/FX45
Wiring Diagram — AT — FTSNCS001DY
TCWM0251E

DTC P1815 MANUAL MODE SWITCH AT-167
D E
F
G H
I
J
K L
M A
B
AT
Revision: 2006 December 2006 FX35/FX45
Wiring Diagram — AT — MMSWNCS001GI
TCWM0498E