© 2011 Pearson Education, Inc. All Rights Reserved Automotive Technology, Fifth Edition James Halderman CRANKING SYSTEM DIAGNOSIS AND SERVICE 53.

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© 2011 Pearson Education, Inc. All Rights Reserved Automotive Technology, Fifth Edition James Halderman CRANKING SYSTEM DIAGNOSIS AND SERVICE 53

CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure 53-1 A theft deterrent indicator lamp on the dash. A flashing lamp usually indicates a fault in the system, and the engine may not start.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure 53-2 Voltmeter hookups for voltage drop testing of a solenoid-type cranking circuit.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved TECH TIP: Voltage Drop Is Resistance Many technicians have asked, “Why measure voltage drop when the resistance can be easily measured using an ohmmeter?” Think of a battery cable with all the strands of the cable broken, except for one strand. If an ohmmeter were used to measure the resistance of the cable, the reading would be very low, probably less than 1 ohm. However, the cable is not capable of conducting the amount of current necessary to crank the engine. In less severe cases, several strands can be broken, thereby affecting the operation of the starter motor. Although the resistance of the battery cable will not indicate an increase, the restriction to current flow will cause heat and a drop of voltage available at the starter. Because resistance is not effective until current flows, measuring the voltage drop (differences in voltage between two points) is the most accurate method of determining the true resistance in a circuit. How much is too much? According to Bosch Corporation, all electrical circuits should have a maximum of 3% loss of the circuit voltage to resistance. Therefore, in a 12 volt circuit, the maximum loss of voltage in cables and connections should be 0.36 volt (12 X 0.03 = 0.36 volt). The remaining 97% of the circuit voltage (11.64 volts) is available to operate the electrical device (load). Just remember: Low-voltage drop = Low resistance High-voltage drop = High resistance

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved TECH TIP: A Warm Cable Equals High Resistance If a cable or connection is warm to the touch, there is electrical resistance in the cable or connection. The resistance changes electrical energy into heat energy. Therefore, if a voltmeter is not available, touch the battery cables and connections while cranking the engine. If any cable or connection is hot to the touch, it should be cleaned or replaced.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure 53-3 Voltmeter hookups for voltage drop testing of a Ford cranking circuit.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure 53-4 To test the voltage drop of the battery cable connection, place one voltmeter lead on the battery terminal and the other voltmeter lead on the cable end and crank the engine. The voltmeter will read the difference in voltage between the two leads, which should not exceed 0.20 volt (200 mV).

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure 53-5 A starter amperage tester uses an amp probe around the positive or negative battery cables.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved TECH TIP: Watch the Dome Light When diagnosing any starter-related problem, open the door of the vehicle and observe the brightness of the dome or interior light(s). The brightness of any electrical lamp is proportional to the voltage of the battery. Normal operation of the starter results in a slight dimming of the dome light. If the light remains bright, the problem is usually an open in the control circuit. If the light goes out or almost goes out, there could be a problem with the following: - A shorted or grounded armature of field coils inside the starter - Loose or corroded battery connections or cables - Weak or discharged battery

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure 53-6 The starter is located under the intake manifold on this Cadillac Northstar engine.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure 53-7 An exploded view of a typical solenoid-operated starter.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure 53-8 GM solenoid ohmmeter check. The reading between 1 and 3 (S terminal and ground) should be 0.4 to 0.6 ohm (hold-in winding). The reading between 1 and 2 (S terminal and M terminal) should be 0.2 to 0.4 ohm (pull-in winding).

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure 53-9 Measuring an armature shaft for runout using a dial indicator and V-blocks.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure Replacement starter brushes should be installed so the beveled edge matches the rotation of the commutator.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved Figure A shim (or half shim) may be needed to provide the proper clearance between the flywheel teeth of the engine and the pinion teeth of the starter.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved TECH TIP: Most GM starter motors use a pad mount and attach to the engine with bolts through the drive-end (nose) housing. Many times when a starter is replaced on a GM vehicle, the starter makes noise because of improper starter pinion-to-engine flywheel ring gear clearance. Instead of spending a lot of time shimming the new starter, simply remove the drive-end housing from the original starter and install it on the replacement starter. Service the bushing in the drive-end housing if needed. Because the original starter did not produce excessive gear engagement noise, the replacement starter will also be okay. Reuse any shims that were used with the original starter. This is preferable to removing and reinstalling the replacement starter several times until the proper clearance is determined.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 1 This dirty and greasy starter can be restored to useful service.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 2 The connecting wire between the solenoid and the starter is removed.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 3 An old starter field housing is being used to support the drive-end housing of the starter as it is being disassembled. This rebuilder is using an electric impact wrench to remove the solenoid fasteners.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 4 A Torx driver is used to remove the solenoid attaching screws.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 5 After the retaining screws have been removed, the solenoid can be separated from the starter motor. This rebuilder always replaces the solenoid.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 6 The through-bolts are being removed.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 7 The brush end plate is removed.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 8 The armature assembly is removed from the field frame.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 9 Notice that the length of a direct-drive starter armature (top) is the same length as the overall length of a gearreduction armature except smaller in diameter.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 10 A light tap with a hammer dislodges the armature thrust ball (in the palm of the hand) from the center of the gear reduction assembly.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 11 This figure shows the planetary ring gear and pinion gears.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 12 A close-up of one of the planetary gears, which shows the small needle bearings on the inside.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 13 The clip is removed from the shaft so the planetary gear assembly can be separated and inspected.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 14 The shaft assembly is being separated from the stationary gear assembly.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 15 The commutator on the armature is discolored and the brushes may not have been making good contact with the segments.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 16 All of the starter components are placed in a tumbler with water-based cleaner. The armature is installed in a lathe and the commutator is resurfaced using emery cloth.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 17 The finished commutator looks like new.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 18 Starter reassembly begins by installing a new starter drive on the shaft assembly. The stop ring and stop ring retainer are then installed.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 19 The gear-reduction assembly is positioned along with the shift fork (drive lever) into the cleaned drive-end housing.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 20 After gear retainer has been installed over the gear reduction assembly, the armature is installed.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 21 New brushes are being installed into the brush holder assembly.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 22 The brush end plate and the through-bolts are installed, being sure that the ground connection for the brushes is clean and tight.

53 CRANKING SYSTEM DIAGNOSIS AND SERVICE Automotive Technology, Fifth Edition James Halderman © 2011 Pearson Education, Inc. All Rights Reserved STARTER OVERHAUL 23 This starter was restored to useful service by replacing the solenoid, the brushes, and the starter drive assembly plus a thorough cleaning and attention to detail in the reassembly.