Mitsubishi Lancer Evolution 7. Manual — part 231
ENGINE ELECTRICAL -
Starting System
16-23
REASSEMBLY SERVICE POINT
"
AA STOP RING/SNAP RING INSTALLATION
Using a suitable pulling tool, pull overrunning clutch stop ring
over snap ring.
INSPECTION
COMMUTATOR CHECK
1. Place the armature in a pair of “V” blocks and check
the runout with a dial indicator.
Standard value: 0.05 mm
Limit: 0.1 mm
2. Measure the commutator outer diameter.
Standard value: 29.4 mm
Limit: 28.8 mm
3. Check the undercut depth between segments.
Standard value: 0.5 mm
Limit: 0.2 mm
BRUSH HOLDER CHECK
Confirm that the spring is activated when the brush is pressed
into the brush holder by hand.
Replace the brush holder if the spring is not activated.
Stop ring
Overrunning
clutch
Stop ring
Snap ring
Undercut
Segment
Mica
ENGINE ELECTRICAL -
Starting System
16-24
OVERRUNNING CLUTCH CHECK
1. While holding clutch housing, rotate the pinion. Drive
pinion should rotate smoothly in one direction, but should
not rotate in opposite direction. If clutch does not function
properly, replace overrunning clutch assembly.
2. Inspect pinion for wear or burrs. If pinion is worn or burred,
replace overrunning clutch assembly. If pinion is damaged,
also inspect ring gear for wear or burrs.
FRONT AND REAR BRACKET BUSHING CHECK
Inspect bushing for wear or burrs. If bushing is worn or burred,
replace front bracket assembly or rear bracket assembly.
BRUSH REPLACEMENT
1. Check the surface contacting the commutator for
roughness and the brush length.
Limit value: 7.0 mm
2. If the limit is exceeded, replace the brush holder.
ARMATURE TEST
ARMATURE COIL SHORT-CIRCUIT TEST
1. Check that the armature coil is not grounded.
2. Place armature in a growler.
3. Hold a thin steel blade parallel and just above while rotating
armature slowly in growler. A shorted armature will cause
blade to vibrate and be attracted to the core. Replace
shorted armature.
ARMATURE COIL EARTH TEST
Check the insulation between each commutator segment and
armature coil core.
If there is no continuity, the insulation is in order.
Free
Lock
Length
Growler
ENGINE ELECTRICAL -
Starting System
16-25
ARMATURE COIL OPEN-CIRCUIT INSPECTION
Check the continuity between segments. If there is continuity,
the coil is in order.
MAGNETIC SWITCH
COIL DISCONNECTION TEST
D
Confirm that there is continuity between the “M” terminal
and body A.
D
If there is no continuity, replace the magnetic switch.
CONTACT CONTACTING STATE CHECK
D
Confirm that there is no continuity between the “B” terminal
and “M” terminal.
D
If there is continuity, replace the magnetic switch.
CONTACT CONTACTING STATE CHECK
D
Press the end of the magnetic switch in with force, and
close the internal contact. Confirm that there is continuity
between the “B” terminal and “M” terminal in this state.
D
If there is no continuity, replace the magnetic switch.
“M” terminal
A
“M” terminal
“B” terminal
“M” terminal
“B” terminal
ENGINE ELECTRICAL -
Ignition System
16-26
IGNITION SYSTEM
GENERAL INFORMATION
This system is equipped with two ignition coils (A
and B) with built-in power transistors for the No.
1 and No. 4 cylinders and the No. 2 and No. 3
cylinders respectively.
Interruption of the primary current flowing in the
primary side of ignition coil A generates a high
voltage in the secondary side of ignition coil A.
The high voltage thus generated is applied to the
spark plugs of No. 1 and No. 4 cylinders to generate
sparks. At the time that the sparks are generated
at both spark plugs, if one cylinder is at the
compression stroke, the other cylinder is at the
exhaust stroke, so that ignition of the compressed
air/fuel mixture occurs only for the cylinder which
is at the compression stroke.
In the same way, when the primary current flowing
in ignition coil B is interrupted, the high voltage
thus generated is applied to the spark plugs of
No. 2 and No. 3 cylinders.
The Engine-ECU turns the two power transistors
inside the ignition coils alternately on and off. This
causes the primary currents in the ignition coils
to be alternately interrupted and allowed to flow
to fire the cylinders in the order 1-3-4-2.
The Engine-ECU determines which ignition coil
should be controlled by means of the signals from
the camshaft position sensor which is incorporated
in the camshaft and from the crank angle sensor
which is incorporated in the crankshaft. It also
detects the crankshaft position in order to provide
ignition at the most appropriate timing in response
to the engine operation conditions. It also detects
the crankshaft position in order to provide ignition
at the most appropriate timing in response to the
engine operation conditions.
When the engine is cold or operated at high
altitudes, the ignition timing is slightly advanced
to provide optimum performance.
When the automatic transmission shifts gears, the
ignition timing is also retarded in order to reduce
output torque, thereby alleviating shifting shocks.
SYSTEM DIAGRAM
Barometric pressure sensor
Intake air temperature sensor
Engine coolant temperature sensor
Camshaft position sensor
Crank angle sensor
Ignition switch-ST
Vehicle speed signal
Engine-ECU
Ignition coil A
Ignition coil B
Ignition switch
Spark plug
Battery
To tachometer
Cylinder No.
Air flow sensor
1
4
2
3
Detonation sensor
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