Downloaded from www.Manualslib.com manuals search engine Differential: 3B-42
14) Set dial gauge to bevel pinion mounting dummy and
make 0 (zero) adjustment on surface plate.
NOTE
• When setting dial gauge to mounting
dummy, tighten screw lightly. Be careful
not to overtighten it, which will cause
damage to dial gauge.
• With dial gauge set, turn dummy back and
forth by hand a couple of times and attain
accurate 0 (zero) adjustment.
• It is desirable that short pointer indicates
beyond 2 mm when long one is at 0 (zero).
15) Place zero-adjusted mounting dummy (1) and dial
gauge set on pinion dummy (2) and take
measurement between zero position and extended
dial gauge measuring tip.
NOTE
• Repeat turning back and forth of dummy
and measure distance as far as top surface
of pinion dummy accurately.
• When dial gauge measuring tip extends
from 0 (zero) position, pointer turns
counterclockwise.
16) Necessary adjusting shim thickness is the same
value as measured value by dial gauge.
17) Select adjusting shim(s) (2) closest to obtained value
from among the following available sizes and put it in
place and then press-fit rear bearing (1) to bevel
pinion (3).
Available shim thickness
0.30, 0.60, 0.63, 0.66, 0.69, 0.72, 0.75, 0.78, 0.81,
0.84 and 0.87 mm (0.012, 0.023, 0.024, 0.026,
0.027, 0.028, 0.030, 0.031, 0.032, 0.033 and 0.034
in.)
Special tool
(D): 09925–18011
18) With new pinion spacer (2) inserted as shown in
figure, install front bearing (1) to differential carrier
(3).
NOTE
Apply differential oil to front and rear
bearings.
I5RW0A320051-01
1
2
I5RW0A320052-01
Necessary shim thickness
“e”= Dial gauge measured
value “c”
I3RH01322055-01
I5RW0A320053-01
Downloaded from www.Manualslib.com manuals search engine 10C-18 Immobilizer Control System:
Reference Waveform
NOTE
When ECM cannot read the transponder code at the first try, ECM tries to read the transponder code
repeatedly up to 8 times. The second waveform is the example showing that ECM read the transponder
code successfully at the second try.
Terminal Circuit Normal Voltage Condition
G17-1 Power supplyAbout 12.0 V Ignition switch at ON position
0.0 V Ignition switch at OFF position
G17-2 Ground 0.0 V —
G17-3 Serial communication lineSee the reference
waveform.—
0.0 V Ignition switch at OFF position
G17-4 Clock lineSee the reference
waveform.—
0.0 V Ignition switch at OFF position
G17-5 Illumination ring control (if equipped)0 V• Ignition key not inserted to the key cylinder
• Door opened
0 V → 12 V• Ignition key at OFF position
• From the time door is closed to the time
interior light faded out completely
(As the interior light fades out, the voltage
increases.)
0 V → 12 V• Door closed
• From the ignition switch is turned ON to the
time interior light is completely faded out
(As the interior light fades out, the voltage
increases.)
G17-6Illumination ring power supply
(if equipped)About 12.0 V —
I6RW0CA30003-01
[A]: The transponder code read successfully at the first try. 2. Clock line
[B]: The transponder code read successfully at the second try. 3. First try
1. Serial communication line 4. Second try
Measurement terminals CH1: G17-3 to G17-2
CH2: G17-4 to G17-2
Oscilloscope settings CH1: 5 V/DIV
CH2: 5 V/DIV
TIME: 20 ms
Measurement condition Right after the ignition switch is turned ON, the waveform can be read.
