rotor HONDA CIVIC 1997 6.G Owner's Manual
[x] Cancel search | Manufacturer: HONDA, Model Year: 1997, Model line: CIVIC, Model: HONDA CIVIC 1997 6.GPages: 2189, PDF Size: 69.39 MB
Page 1593 of 2189
JRotor Slip Ring Test
1. Check the resistance betlveen the slip rings
There should be 1 8 - 3 0 ohms
. lf resistance meets the specification, go to step 2.
. lf resistance does not meet the specification,
reolace the alternator'
SLIP BINGS
2. Check that there is no continuity between the slip
rings and the rotor or rotor shaft.
3. lf the rotor fails either continuity check, replace the
alternator.
Stator Test
'1. Check that there is continuity between each pair of
leads.
CORE
Check that there is no continuity between each lead
and the coil core.
lf the coil fails either continuity check, replace the
alternator.
ROTOR SHAFT
LEADS
1.
Alternator Brush InsPection
Separate the drive-end housing from the rear hous-
ing as described on page 23-121
Separate the rear housing from the stator/rectifier
assembly by removing the four screws and the ter-
minal nutfrom the rear housing {see page 23-121}
lvleasure the length of the brushes with vernrer
calrpers.
Alternator Brush Length:
O Standard {NEW} @ Service Limit
19.0 mm (0.75 in) 1 5.0 mm (0 20 in)
lf the brushes are less than the service limit, replace
them.
23-123
Page 1594 of 2189
Gharging System
Rear Bearing Replacement
1. Pull offthe rear bearing,
. Make sure the tips of the bearing puller jaws arethin enough to fit between the bearing and theslip rings.
. Do not reuse the bearing.
SLIP RINGSBEARING PULLER
Use a hand press to install the new bearing. Applypressure only on the inner race to avoid damaging
the bearino.
REAB BEARING
23-124
Alternator Reassembly
1. Push the brushes in, then insert a pin or drill bit(about 1.8 mm diameter) to hold them there.
Heat the rear bearing seat in the rear housing asdescribed on page 23-121. After heating, continueimmediately with assembling before the rear bear-ing seat cools completely,
Put the rear housing/stator assembly and drive-endhousing/rotor assembly together. tighten the fourthrough bolts and pull out the pin.
REARSTATOR ASSEMBLY
After assembling the alternator, turn the pulley byhand to make sure the rotor rotates smoothlv andwithout noise.
BRUSHES
THROUGH BOLT
Iq
%*z
BRUSH AOCESS HOI."E
Page 1980 of 2189
Gauges (cont'd)
- How the Gircuit Works
When the ignition switch is in ON (ll) or START (lll),
battery voltage is supplied through fuse 25 to the
gauges in the gauge assembly.
Speedometer and Odometer
The odometer and soeedometer drive circuits
receive pulses from the vehicle speed sensor
(VSS). The pulse rate increases as the car
accelerates. The frequency and duration of these
input pulses are measured and displayed by the
speedometer, odometer and tripmeter.
Tachometer
The tachometer drive circuit receives pulses from
the ignition control module (lCM) in the distributor
assembly or the ECM/PCM. The solid-state
lachometer then displays these pulses as engine
speed. For each 200 pulses per minute from the
ignition control modul€ (lCM) or the ECM/PCM, the
tachometer displays 100 RPM.
Engine Coolant Temperature Gauge
The engine coolant temperature gauge has two
intersecting coils wound around a permanent
magnet rotor. Voltage applied to the coils, through
fuse 25, generates a magnetic lield. The magnetic
field, controlled by the coolant temperature sending
unit, causes the rotor to rotate and the gauge
needle to move. As the resistance in the sending
unit varies, current through the gauge coils
changes. The gauge needle moves toward the coil
with the strongest magnetic field.
The 6ngine coolant temperature sending unit's
resistance varies from about 137 ohms at low
engine temperature to between 3H6 ohms at high
temperature (radiator fan running).
Refer to the Service Manual (Section 23, Electrical)
for specific tests or troubleshooting procedures.
81-2
(
Fuel Gauge (All except cX)
The fuel gauge has two intersecting coils wound
around a permanent magnet rotor. Voltage applied
to the coils, through tuse 25, generates a magnetic
field. The magnetic field, controlled by the fuel
gauge sending unit, causes the rotor to rotate and
the gauge needle to move. As the resislance in the
sending unit varies, current through the gauge coils
changes. The gauge needle moves toward the coil
with the strongest magnetic field.
The fuel gauge sending unit's resistance varies
from about 2-5 ohms at full, to about 110 ohms at
empty. When you turn the ignition switch off, the
gauge remains at the last reading until you turn the
ignition switch to ON (ll) or START (lll) again,
Refer to the Service Manual (Section 23, Electrical)
for specific tests or troubleshooting procedures.
Fuel Gauge (GX)
The fuel gauge has two intersecting coils wound
around a permanent magnet rotor. Voltage applied
to the coils, through fuse 25, generates a magnetic
field. The magnetic field, controlled by the PCM,
causes the rotor to rotate and the gauge needle to
move. The PCM calculates the gas quantity in the
fuel tank by using the fuel pressure value detected
by the tuel tank pressure sensor and the fuel
temperature value detected by the fuel tank
temperalure sensor, and outputs the signal to the
gauge assembly. The gauge needle moves toward
the coil with the strongest magnetic field.
When you turn the ignition switch off , the gauge
remains at the last reading until you turn the ignition
switch to ON (ll) or START (lll) again. When the
PCM detects a malfunction with the fuel pressure or
temperature, or detects a gas leak, the PCM
reduces the fuel meter to 0.
Refer to the Service Manual GX Supplement
(Section 11 , Fuel and Emissions) for specific tests
or troubleshooting procedures.
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