Inspection
INSPECTION1. ARMATURE
1. Check the commutator for any sign of burns of rough surfaces or stepped wear. If wear is of a minor nature, correct it by using sand paper.
2. Run-out test
Check the commutator run-out, and then replace if it exceeds the limit.
Commutator run-out:
Standard: 0.05 mm (0.0020 in)
Service limit: Less than 0.10 mm (0.0039 in)
3. Depth of segment mold
Check the depth of segment mold.
Depth of segment mold: 0.5 mm (0.020 in)
4. Armature short-circuit test
Check the armature for short-circuit by placing it on a growler tester. Hold an iron sheet against the armature core while slowly rotating armature. A short-circuited armature will cause the iron sheet to vibrate and to be attracted to core. If the iron sheet is attracted or vibrates, the armature, which is short-circuited, must be replaced or repaired.
5. Using a circuit tester, touch one probe to the commutator segment and the other to shaft. There should be no continuity. If there is continuity, the armature is grounded.
Replace the armature if it is grounded.
2. YOKE
Make sure the pole is set in position.
3. OVERRUNNING CLUTCH
Inspect the teeth of pinion for wear and damage. Replace if it is damaged. It is normal if the pinion rotates smoothly in direction of rotation (counterclockwise) and does not rotate in the opposite direction.
CAUTION: Do not clean the overrunning clutch with oil to prevent grease from flowing out.
4. BRUSH AND BRUSH HOLDER
1. Brush length
Measure the brush length, and then replace if it is worn down to under the service limit.
Replace if abnormal wear or cracks are noticed..
Brush length:
Standard: 12.3 mm (0.484 in)
Service limit: 7.0 mm (0.276 in)
2. Brush movement
Be sure the brush moves smoothly inside brush holder.
3. Brush spring force
Measure the brush spring force with a spring scale. If it is less than the service limit, replace the brush holder.
Brush spring force:
Standard
Except DOHC turbo MT model
15.9 - 19.5 N (1.62 - 1.99 kgf, 3.57 - 4.38 lb) (when new)
DOHC turbo MT model
21.6 N (2.2 kgf, 4.9 lb) (when new)
Service limit
Except DOHC turbo MT model
2.5 N (0.25 kgf, 0.56 lb)
DOHC turbo MT model
5.9 N (0.6 kgf, 1.3 lb)
5. SWITCH ASSEMBLY
Using a circuit tester (set in "ohm"), check that there is continuity between terminals S and M, and between terminal S and ground
Also check to be sure there is no continuity between terminals M and B.
Terminal/Specified resistance:
S - M/Less than 1 ohm
S - Ground/Less than 1 ohm
M - B/More than 1 Mohm
6. SWITCH ASSEMBLY OPERATION
1. Connect the terminal S of switch assembly to positive terminal of battery with a lead wire, and starter body to ground terminal of battery. The pinion should be forced endwise on shaft.
CAUTION: With the pinion forced endwise on shaft, the starter motor may rotate because current flows through the pull-in coil to motor, however, this is not a problem.
2. Disconnect the connector from terminal M, and then connect the positive terminal of battery and terminal M using a lead wire and ground terminal to starter body.
In this test set up, the pinion should return to its original position even when it is pulled out with a screwdriver.
7. PINION GAP
Measure the pinion gap while the pinion is pulled out as shown in the figure.
Pinion gap: 0.5 - 2.0 mm (0.020 - 0.079 in)
If the motor is running with the pinion forced endwise on shaft, disconnect the connector from terminal M of switch assembly, and then connect terminal M to ground terminal (-) of battery with a lead wire. Next, gently push the pinion back with your fingertips, and then measure the pinion gap.
8. PERFORMANCE TEST
The starter should be submitted to performance tests whenever it has been overhauled, to assure its satisfactory performance when installed on the engine.
Three performance tests, no-load test, load test, and lock test, are presented here; however, if the load test and lock test cannot be performed, carry out at least the no-load test.
For these performance tests, use the circuit shown in figure.
1. No-load test
With switch on, adjust the variable resistor to obtain 11 V, take the ammeter reading, and then measure the starter speed. Compare these values with the specifications.
No-load test (standards):
Voltage/Current
Non-turbo, MT model
MAX. 11 V/95 A
Turbo, MT model
MAX. 11 V/90 A
AT model
MAX. 11 V/90
Rotating speed
Non-turbo, MT model
More than 2,500 rpm
Turbo, MT model
More than 2,860 rpm
AT model
More than 2,000 rpm
2. Load test
Apply the specified braking torque to starter. The condition is satisfactory if the current draw and starter speed are within the specifications.
Load test (standards):
Voltage/Load Non-turbo, MT model
8 V/8.5 N.m (0.87 kgf-m, 6.3 ft-lb)
Turbo, MT model
8 V/9.3 N.m (0.95 kgf-m, 6.9 ft-lb)
AT model
8 V/9.8 N.m (1.0 kgf-m, 7.2 ft-lb)
Current/Speed
Non-turbo, MT model
More than 280 A/970 rpm
Turbo, MT model
More than 280 A/860 rpm
AT model
More than 280 A/1,000 rpm
3. Lock test
With the starter stalled, or not rotating, measure the torque developed and current draw when the voltage is adjusted to the specified voltage.
Lock test (standards):
Voltage/Current
Non-turbo, MT model
Less than 4 V/680 A
Turbo, MT model
Less than 4 V/515 A
AT model
Less than 3.5 V/960 A
Torque
Non-turbo, MT model
17 N.m (1.73 kgf-m, 12.5 ft-lb)
Turbo, MT model
16 N.m (1.63 kgf-m, 11.8 ft-lb)
AT model
31 N.m (3.16 kgf-m, 22.9 ft-lb)