Value HONDA CIVIC 1998 6.G Owner's Manual

O ATF DIPSTICK
O o-RING Replace.
.' SOLENOID HARNESS CONNECTOR
@ LOWER VALVE BODY ASSEMBLY
O DOWEL PIN
O LINE BOLT
.i ATTf COOUR IruIET LINE B8ACKET BOLT
€] lrr cooua truler LINE ASSEMBLY
O SEALING WASHER RePIACE'
G, ATF COOLER OUTLET PIPE
6) o-RING Replace.
@ ATF FILTER
fO o-RING Replace.
@ ATF PAN(3 DOWEL PIN(D O-RING Replace.
E) ATF STRAINER
@ ATF MAGNET(9 ATF PAN GASKET RePIACE'
O ATF MAGNET
€t oRAIN PLUG
@ SEALING wAStlER Replace.
TOROUE SPECIFICATIONS
Bolt/Nut No.Torque ValueSizeRemarks
8F
12J
18D
12 N.m {1.2 kgf m, 8.7 lbf'ft}
26 N.m (2.7 kgim,20 lbf'ft)
28 N.m (2.9 kgf'm,21 lbf'ft)
49 N.m (5.0 kgf'm, 36 lbf'ft)
6x1.0mm
8 x 1.25 mm
12 x 1.25 mm
18 x 1.5 mm
Line bolt
Drain plug
14-309

System Description
Steering Gearbox
The rack-and-pinion type steering gearbox has a valve body unit incorporated with the pinion to control the steering fluidpressure. Steering fluid from the pump is regulated by a rotary valve in the valve body unit and is sent through the cylin,der line to the power cylinder, where hydraulic pressure is applied. The steering fluid in the other side of the power cylin,der returns through the cylinder line and valve body unit to the reservoii.
VALVE EODY UNIT
CYLINDER LINE
To RESERVOm +-From PUMP -;
POWER CYLINDER
Valve Body Unit
Inside the valve body unit is the valve, which is coaxial with the pinion shaft, and controls the steering fluid pressure. Thevalve housing is connected with the fluid line from the pump, the return line to the reservoir, and the two cylinder linesfrom the respective power cylinder. The pinion shaft is double - structured with the input shaft connected to the piniongear, both of which are interconnected with the torsion bar.
The pin inserted in the valve and the pinion shaft groove engage; this allows the pinion shaft to rotate together with thevalve. Because of this construction, the difference in angle in the circumferential direction between the input shaft and thevalve becomes larger according to the torsional strength of the pinion or steering resistance. However, maximum torsionbetween the shafts is regulated by the engaged splines of the shafts at the pin engagement section to hold the torsion barwithin the set value,
This allows the steering system to function as an ordinary rack-and-pinion type steering if the steering fluid is not pressur-
ized because of a faulty pump,
VALVE
Difforence in angle botwoon theinput shaft and pinion shsft
PINION SHAFT
lo
INPUT SHAFT
-l
a
17-20
INPUT SHAFT

Inspection and Adjustment
Pump Belt
NOTE: When using a new belt, first adjust the deflection
or tension to the values for the new belt, then readjust
the deflection or tension to the values for the used beltafter running engine for five minutes.
Inspection
Attach the special tool to the belt and measure the ten-sion of the belt.
Tension:'99 -'00 mod€ls: B1642 Engin. Type onlyUsed Bsh: 390 - 540 N lao - 55 kgt.88 - 120 tbf)New Belt:740 - 880 N {75 - 90 kgf, 170 - 200 tbt}'96 - '00 models: Other Engine Types
Used Beh: 340 - 490 N (35 - 50 kgf, 77 - ilO tbflNew Belt:640 - 780 N 165 - 80 ksf, 1& - 176 tbf)NOTE:
. lf there are cracks or any damage evident on the belt,reDlace it with a new one.. Follow the manufacturer's instructions for the tensiongauge.
BELT TENSION GAUGE07JGG _ 001010A
Inspect the pump belt for cracks or any damage.Replace the belt with a new one if necessary.
Measuremont without Beh Tension Gauga:
Apply a force of 98 N (10 kgt,22 lbfl and measure thedeflection between the power steering pump and thecrankshaft pulleys.
Dsflectior:'99 -'00 model3: 816A2 Engine Typ€ ontyUsed Beh: 7.5 - 11.0 mm t0.30 - 0.43 inlNew Beh:5.0 - 7.0 mm (0.20 - 0.28 in)'96 - '00 models: Othor Engine Typos
Used Behi 10.5 - 14.0 mm (0.ial - 0.59 inlNow Beh:7.5 - 10.0 mm (0.30 - 0.39 inl
POWER STEERING PULUY
CRANKSHAFT PULLEY
17-32
Adiustment
1. Loosen the power steering pump mounting bolts.
2. Adjust the belt tension.
'99 - '00 mod€ls: 816A2 Engin€ Typo only
. Turn the adjusting bolt by hand to get the proper belttension, then retighten the mounting bolts,
ADJUSNNG BOLT
PUMP MOUNNNG BOLTS24 N.m (2.4 kgf'm, 17 tbtftlPOWER STEERINGPUMP
'96 -'00 modek: Othcr Engins Typos
. Pry power steering pump away from the engine witha wrench to get the proper belt tension, then retight-en the mounting bolts.
PUMP MOUNTING BOLT24 N.m (2,4 kgf.m, 17 lbl.ftl
PUMP MOUNTING BOLT24 N.m {2.a kgt m, 17 tbtftl
Start the engine and turn the steering wheel fromlock-to-lock several times, then stop the engine andrecheck the deflection of the belt,

Front Suspension
L
Lower Ball Joint Replacement
Remove the knuckle (see page 18-11).
Remove the boot by prying the set ring off.
Check the boot for deterioration and damage.
replace if necessary.
Install the special tools onto the ball joint and tight-
en the casfle nut.
Position the special tools over
shown. then set the assembly in
ball joint out of the knuckle,
BALL JOINT REMOVER/INSTALLER07965 - SB00r00
CASTLE NUT
the ball joint as
a vise. Press the
lf
7.
BALL JOINT REMOVER BASE07JAF - SH20200
Place the ball joint in position by hand.
Install the special tools over the ball joint as shown,
then press the ball joint in.
BALL JOINT INSTALLEB BASE07965 - 5800200
BALL JOINT HOUSING SURFACE
18-16
8. Install the ball joint boot and set ring using the spe-
cial tool (see page 18-16).
ADJUSTING BOLTAdjust rhe depth byturning the bolt.
Install the knuckle in the reverse order of removal,
and pay particular attention to the following items:
. Be careful not to damage the ball joint boots
when installing the knuckle,
. Torque all mounting hardware to the specified
torque values.
. Torque the castle nuts to the lower torque speci-
fications. then tighten them only far enough to
align the slot with the pin hole. Do not align the
castle nut by loosening.
. Install new cotter pins into the castle nuts after
torquang.
. Avoid twisting the sensor wires when installing
the wheel sensor.
. Before installing the brake disc. clean the mating
surfaces of the front hub and the inside of the
brake disc.
. Before installing the wheel, clean the mating sur-
face of the brake disc and the inside of the wheel.. Check the front wheel alignment, and adjust it if
necessary {see page 18-4).

l}tWheel Sensor Replacement
NOTE:
. Becareful when installingthe sensors to avoid twisting the wires.
. The torque value of the bolts is 9.8 N.m (1.0 kgf.m, 7 lbf.ft).
Front
FRONT WHEEL SENSOR
Rear
1. Remove the hub bearing unit (see section 18).
2. Remove the four backing plate bolts.
3, Pull the backing plate away from the trailing arm, then remove the wheel sensor. lt is not necessary to disconnect the
brake line.
NOTE: This illustration is drum brake type. The torque value of the disk type is same as drum type.
REAR WHEEL SENSOR
J\
It
19-77

Precautions/ Procedures
)General Precautions
r Carefully inspect any SRS part before you install it Do
not install any part that shows signs of being dropped
or improperly handled' such as dents, cracks or defor-
mation:
- Airbags- Cable reel
- SRS unit
-
Use only a digital multimeter to check the system lf
it's not a Honda multimeter, make sure its output ls
1O mA (0.01 A) or less when switched to the smallest
value in the ohmmeter range. A tester with a higher
output could damage the airbag circuit or cause acci-
dental deployment and possible injury'
I Do not install used SRS parts from another vehicle
When making SRS repairs, use only new pans'
) Except when performing electrical inspections'
always disconnect both the negative cable and posl-
tive cable from the battery, and wait at least three
minutes before beginning work
r Replacement of the combination light and wiper/
washer switches and cruise control switch can be
done without removing the steering wheel:
- Combinalion light and wiper/washer switch replace
ment, see section 23
- Cruise control sevresume switch replacement' see
section 23.
. Whenever the ignition switch is ON {ll), or has been
turned OFF for less than three minutes' be careful not
to bump the SRS unit; the airbag(s) could accidental-
ly deploy and cause damage or injury'
. Whenever the airbag{s) has(have) been activated'
replace the SRS unit.l,
2+7
Airbag Handling and Storage
Do not try to disassemble the airbag assembly. lt has no
serviceable parts Once an airbag has been operated
(deployed). it cannot be repaired or reused'
For temporary storage of the airbag assembly during ser-
vice. olease observe the following precauttons:
. store the .emoved airbag assemblv with the pad sur-
face uo The driver's (and front passenger's) airbag
connecto''s'-as {have) a built.in short contact (see
page 2a-l 1
: | ..r r-+r-a k imninncrlv slorcd lace down,-""dd.r6t dtatltt-,tl could propel the unit whh enough
force lo c.usa 3a.ix! intury
AIRBAG CONNECTORS(With built in shon contact)
. Store the removed airbag assembly on a secure flat
surface away from any high heat source {exceeding
212"FI1OO"CJ and free of any oil' grease, detergent or
water.
CAUTION: lmproper handling or storage can intern'lJy
damage the airbag assembly, making it inoperativo
lf you suspect the airbag assembly has been dam€cd'
inslall a new unit. and relsr lo the Deployment/DisPG'l
olocedules for disposing ol the damaged airbag

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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