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Test readings, control module connections

Test readings, control module connections





Scope

The following pages contain specified values and directions for measuring signals and levels on the automatic transmission control module.

Points to remember:


Observe the test conditions, use your common sense when judging the readings obtained.

The specified values are with the ignition in position ON unless stated otherwise.

First check that the control module is supplied with current and grounded.

Then check all sensor inputs and signals from other systems.

Finally, check the control module inputs. Remember that the test readings do not indicate whether or not the actuator is in working order.

If any reading is not OK, consult the wiring diagram to trace the leads, connectors or components which ought to be checked more thoroughly.

The specified test readings refer to those obtained with a calibrated Fluke 88/97.

Test readings %(+) and ms(+) indicate the signal's pulse ratio and pulse duration. A test instrument capable of measuring pulse ratio and pulse width must be used. The sign denotes a positive trigger pulse, TRIG+.


Table connector A



Pin, connector A

Component/ Function

In/Out

Test conditions

Test between

Test reading

See

1

no connection

2

no connection

3

no connection

4

no connection

5

no connection

6

no connection

8

Up and down gear changing

In

8 - 23

0 - 5V

9

No connection

10

No connection

11

No connection

12

No connection

13

No connection

14

No connection

15

No connection

16

No connection

17

Switch Sport

In

18

No connection

19

No connection

20

No connection

21

No connection

22

Battery voltage (+15 circuit)

In

Ignition ON

23

Ground





24

No connection

25

Bus +

lead 1

in/out



26

Bus -

lead 1

in/out



27

No connection

28

No connection

29

No connection

30

No connection

31

Battery voltage (+15 circuit)

In

Ignition ON

32

Ground

33

Battery voltage (+30 circuit)

In

34

No connection

35

No connection





36

No connection



37

No connection

38

No connection



*A vehicle speed reading can be obtained with the diagnostics instrument, command menu "Read functions" and "Output speed”.

Table connector B

Pin, connector B

Component/ Function

In/Out

Test conditions

Test between

Test reading

See

1

no connection

2

no connection

3

no connection

4

no connection

5

no connection

6

Gear selector, position A

In

Ignition ON

The signal is grounded in positions P, R, and M

6 - 23

Selector lever position P, R, M: 0-0.5V

Other positions: 0-2V

7

Gear selector, position C

In

Ignition ON

The signal is grounded in positions D, M, and L

7-23

Selector lever position: D, M, L: 0-0.5V

8

Solenoid S3

Out

A voltage is present at the solenoid when it is activated by the TCM in gears 1, 2, and 3

Signal activated: 0-2V

Not activated: Low

9

No connection

10

No connection

11

No connection

12

Solenoid Lock-Up, SLU ground

In

Signal = Low

13

Solenoid S5

Out

Ignition ON

A voltage is present at the solenoid when it is activated by the TCM in position R and when changing from 2 to 3

Activated: 0-2V

Not activated=Low

14

Solenoid S4

Out

Ignition ON

A voltage is present at the solenoid when it is activated by the TCM in gears 3, 4, and 5

Activated: 0-2V

Not activated=Low

15

Solenoid System pressure, SLT ground

In

Signal = Low

16

Gear selector, position B

In

Ignition ON

The signal is grounded in positions R, N, D, M

16 - 23

Selector lever position R, N, D, M: 0-0.5V

Other positions: 0-2V

17

Gear selector, position PA

In

Ignition ON

The signal is grounded in positions P, N, M, and L

17 - 23

Selector lever position P, N, M, L: 0-0.5V

Other positions: 0-2V

18

No connection

19

No connection

20

No connection

21

Oil temp. sensor +

Out

The voltage decreases with increasing temperature

Cold transmission (+20°C): 3.4V ±10%

Warm transmission (100°C): 0.7V ± 10%

22

Sensor input speed signal

In

When the toothed wheel rotates the sensor generates a square wave signal. The frequency increases with speed.

Tooth aligned with sensor: 14mA

Gap aligned with sensor: 7mA

23

Sensor output speed signal

In

When the toothed wheel rotates the sensor generates a square wave signal. The frequency increases with speed.

Tooth aligned with sensor: 14mA

Gap aligned with sensor: 7mA

24

Solenoid S2

Out

Ignition ON

A voltage is present at the solenoid when it is activated by the TCM in gears 1 and 5

Activated: 0-2V

Not activated = Low

25

Solenoid Lock-Up, SLU +

Out

A voltage is present at the solenoid when it is activated by the TCM

PWM=300 Hz. The frequency is independent of the driving conditions. It is the duty cycle of the signal which changes during control of the system pressure.

26

Solenoid system pressure clutch SLS +

Out

A voltage is present at the solenoid when it is activated by the TCM

PWM=300 Hz. The frequency is independent of the driving conditions. It is the duty cycle of the signal which changes during control of the system pressure.

27

No connection

28

No connection

29

No connection

30

No connection

31

Oil temp. sensor, ground

In

Signal = Low

32

Sensor input speed, voltage measurement

In



Signal = B+

33

Sensor output speed, voltage measurement

In



Signal = B+

34

Solenoid S1

Out

Ignition ON

A voltage is present at the solenoid when it is activated by the TCM in gear 1

Activated: 0-2V

Not activated: Low

35

Solenoid system pressure SLT +

Out

A voltage is present at the solenoid when it is activated by the TCM

PWM=300 Hz. The frequency is independent of the driving conditions. It is the duty cycle of the signal which changes during control of the system pressure.

36

Solenoid system pressure clutch SLS ground

In

Signal = Low

37

No connection

38

No connection