Caution: Unless directed otherwise, the ignition and start switch must be in the OFF or LOCK position, and all electrical loads must be OFF before servicing
any electrical component. Disconnect the negative battery cable to prevent an electrical spark should a tool or equipment come in contact with an exposed electrical terminal. Failure to follow these precautions may result in personal injury and/or damage to
the vehicle or its components.
Caution: This vehicle is equipped with a Supplemental Inflatable Restraint (SIR) System. Failure to follow the correct procedure could cause the following conditions:
• | Unnecessary SIR system repairs |
In order to avoid the above conditions, observe the following guidelines:
• | Refer to SIR Component Views in order to determine if you are performing service on or near the SIR components or the SIR wiring. |
• | If you are performing service on or near the SIR components or the SIR wiring, disable the SIR system. Refer to Disabling the SIR System. |
- Secure the starting motor in a vise or suitable test stand.
- Turn OFF the carbon pile and open the switch.
Caution: Keep fingers, tools, and any other objects away from the opening in
the drive end housing while making electrical connections. The strong shifting
action of the starter solenoid can cause severe personal injury
or damage to components as the drive pinion moves into the cranking position.
- Connect a voltmeter from the starter motor terminal to the starter motor
frame (ground), as shown.
- Connect the starter motor and an ammeter in series, from the positive
terminal of a fully charged 12 V battery.
- Connect a switch from the S terminal of the starter solenoid to
the starter motor terminal.
Notice: Never operate the starter motor for more than 30 seconds at a time.
Allow it to cool for at least two minutes. Overheating, caused by too much
cranking, will damage the starter motor.
- Close the switch.
- Adjust the carbon pile load to obtain 10 V on the voltmeter.
- Note the following meter readings:
• | The armature speed on an RPM indicator. |
• | The current draw on an ammeter. |
- Turn OFF carbon pile and open the switch.
- Compare the measurements with the specifications. Refer to Starter
Motor Usage.
The test results indicate the following conditions:
• | Rated current draw (amps) and rated no-load speed (RPM) indicate
the normal condition of the starter motor. |
• | Low, no load speed (RPM) and high current draw (amps) indicates
too much friction, causing the armature to drag. This can result from any
of the following conditions: |
- | Tight, dirty, or worn bushings or bearings |
- | A grounded or shorted armature |
• | Failure to operate (no RPM), with high current draw (amps), indicates
the following conditions: |
- | A direct short to ground in the starter terminal or in the fields. |
- | Seized bearings (This should have been determined by turning the
armature by hand). |
• | Failure to operate (no RPM), with low or no current draw (amps),
indicates the following conditions: |
- | An open in the armature coils |
- | High insulation between the commutator bars or other causes which
would prevent contact between brushes and commutator. |
• | Low, no load speed (RPM) and low current draw (amps), indicates
a high internal resistance caused by the following conditions: |
- | Poor electrical connections |
- | Defective electrical leads |
- | Other causes listed under Failure to operate (no RPM), with low
or no current draw (amps), above. |
• | High, no load speed (RPM) and high current draw (amps) normally
indicates shorted fields. |