4.
Shift gear at each position.
Fig 1) "P,N"
Fig 2) "R"
Fig 3) "1st" grar
Fig 4) "2nd" gear
Fig 5) "3rd" gear
Fig 6) "4th" gear
Variable Foced Solenoid (Linear Solenoid) : With the duty control which uses higher frequency(600Hz), instead of the existing PWM type which adapts low frequency(60Hz) to control,spool valve can be conrolled precisely.
In PWM control,the amount of oil flow is determined by the duration of "ON"signal among continuously repeated ON/OFF signals.
In VFS, the amount is decided by how widely spool valve open the passage of going through.
The TCM checks the VFS Control Signal by monitoring the feedback signal from the solenoid valve drive circuit. If an unexpected signal is monitored (for example, high voltage is detected when low voltage is expected, or low voltage is detected when high voltage is expected), the TCM judges that the Low and Reverse control solenoid circuit is malfunctioning and sets this code.
Item | Detecting Condition | Possible Cause |
DTC Strategy | ● Check feed back period | ● Open or short in circuit ● Faulty VF SOLENOID VALVE ● Faulty PCM/TCM |
Enable Conditions | ● 16V > Actuator(TCU) power supply voltage >10V | |
Threshold Value | ● Circuit open or short to ground | |
Diagnostic Time | ● More than 1sec | |
Fail Safe | ● Locked in 3 rd gear. |
Solenoid Valve for Pressure Control
Sensor type : Normal open 3-way
Operating temperature : -30℃∼130℃
Frequency :PCSV-A,B,C,D :50Hz (at the ATF temp. -20℃ above)
VFS : 400~1000
※ KM series : 35Hz
Internal resistance : 3.5 ± 0.2 Ω(20℃)
Surge voltage : 56 V
Fig 1) Wave form of "VFS"
Connect scantool to data link connector(DLC)
Engine "ON" .
Monitor the "VF SOL. VALVE" parameter on the scantool.
Shift gear at each position.
Fig 1) "P,N"
Fig 2) "R"
Fig 3) "1st" grar
Fig 4) "2nd" gear
Fig 5) "3rd" gear
Fig 6) "4th" gear
Does "VF SOL DUTY " follow the referance data?
 | ▶ Fault is intermittent caused by poor contact in the sensor's and/or PCM/TCM's connector or was repaired and PCM/TCM memory was not cleared. Throughly check connectors for looseness, poor connection, bending, corrosion, contamination, deterioration or damage.Repair or replace as necessary and go to "Verification Vehicle Repair" procedure . |
 | ▶ Go to "W/Harness Inspection " procedure. |
Many malfunctions in the electrical system are caused by poor harness and terminals. Faults can also be caused by interference from other electrical systems, and mechanical or chemical damage.
Thoroughly check connectors for looseness, poor connection, bending, corrosion, contamination, deterioration, or damage.
Has a problem been found?
| ▶ Repair as necessary and go to "Verification vehicle Repair" procedure |
| ▶ Go to "Power Circuit Inspection" procedure. |
Connect "A/T SOLENOID VALVE" connector and install device for measuring wave form.
Turn on the Engine and operate Damper clutch.
Measure wave form between teminal"9" of the sensor harness connector and chassis ground.
Is measured normally operating wave form?
| ▶ Go to "Signal circuit inspection" procedure. |
| ▶ Check for open in harness. Repair as necessary and Go to "Verification Vehicle Repair" procedure. |
Ignition "OFF".
Disconnect "A/T SOLENOID VALVE" connector and "PCM/TCM" connector.
Measure resistance between terminal "9" of the ATM SOLENOID VALVE harness connector and terminal "14" of the PCM/TCM harness connector.
Specification : Approx. 0 Ω
Is resistance within specifications?
| ▶ Go to "Check signal circuit short Inspection" procedure . |
| ▶ Check for open in harness. Repair as necessary and Go to "Verification Vehicle Repair" procedure. |
Ignition "OFF"".
Disconnect "A/T SOLENOID VALVE" connector and "PCM/TCM" connector.
Measure resistance between terminal "9" of the ATM SOLENOID VALVE harness and chassis ground.
Specification: Infinite
Is resistance within specifications?
| ▶ Go to "signal circuit ground inspection" procedure. |
| ▶ Check for short to ground in harness. Repair as necessary and Go to "Verification Vehicle Repair" procedure. |
Ignition "OFF".
Disconnect "A/T SOLENOID VALVE" connector and "PCM/TCM" connector.
Measure voltage between terminal "10" of the ATM SOLENOID VALVE harness and chassis ground.
Specification : Approx. 0 Ω
Is resistance within specifications?
| ▶ Go to "Component Inspection" procedure. |
| ▶ Check for short to ground in harness. Repair as necessary and Go to "Verification Vehicle Repair" procedure. |
Ignition "OFF".
Disconnect "A/T SOLENOID VALVE" connector.
Measure resistance between terminal "9" and terminal "10" of the ATM SOLENOID VALVE harness connector.
Specification : Approximately 3.5 ± 0.2 Ω (25℃)
Is resistance within specifications?
| ▶ Go to "CHECK PCM/TCM " as below. |
| ▶ Replace "VF SOL VALVE" as necessary and go to "Verification Vehicle Repair" procedure. |
Connect scantool to data link connector(DLC)
Ignition "ON" & Engine "OFF".
Select A/T Solenoide valve Actuator test and Operate Actuator test.
Can you hear operating sound for "VF SOL VALVE" Actuator Testing Function ?
| ▶ Go to "Verification Vehicle Repair" procedure. |
| ▶ Replace PCM/TCM as necessary and Go to "Verificaiton Vehicle Repair" procedure. |
ACTUATOR TEST CONDITION
IG SWITCH ON
TRANSAXLE RANGE SWITCH is normal
P RANGE
Vehicle Speed 0km/h
Throttle position sensor < 1V
IDLE SWITCH ON
ENGINE RPM 0
After a repair, it is essential to verify that the fault has been corrected.
Connect scan tool and select "Diagnostic Trouble Codes(DTCs)" mode.
Using a scantool, Clear DTC.
Operate the vehicle within DTC Enable conditions in General information.
Are any DTCs present ?
| ▶ Go to the applicable troubleshooting procedure. |
| ▶ System performing to specification at this time. |
