1998 HONDA INTEGRA oil pressure

PGM-FI System
Random Misfire
1T0-500 1 a nd Fo-30ittrrousFF0304-lThB scan tool indicates Diagnostic Trouble Code {DTC) P0300 and some of
P0301 - P0304: Random misfire.
Doscription
Misfir; detection is accomplished by monitoring the crankshaft speed with the crankshaft speed fluciuation sensor which
is attached to the crankshsft.
lf misfiring strong enough to damage the catalyst is detected, the MIL will blink during iho time of its occurrence, and DTC
p0300 and some of DTCS p0301 through P0304 will be stor€d. Then, after misfire has ceased, the MIL will come on.
lf misfiring that increases emissions is detected during two consecutive driving cycles, the MIL will come on, and DTC
PO3O0 and some ot DTCS P0301 through P0304 will be stored
NOTE: lJ some of the DTCS listed below are stored at the same time as a misfire DTC, troubleshoot those DTCS first. then
troubleshoot the misfire DTC.
P0171, P0172: Fuel metering
P0505: ldle Control SYstem
P1361, P1362: TDC sensor
P1381. P1382: CYP sensor
P1508: IAC valve
Possible Cause
. Fuel pump insufficient fuel pressure. amount of flow
. Fuel line clogging, blockage, leakage
. Fuel {ilter clogging
a Fuel pressure regulator stuck open
. Distributormallunction
o lgnition coil wire open, leakage
. lgnition control module malfunction
. Valves carbon deposit
a Compression low
. IAC valve malfunction
. Fast idle thermo valve malfunction
o Fuel does not meet Owner's Manual spec., lackotfu€l
. VTEC system malfunction
Troubleshooting
By test-driving, determine the conditions during which misfire occurs. Depending on these conditions, test in the order
described in the table below.
Fuel
pressure
Distributor
and lgnition
wires
tcMIAC ValveValve
Clearance
wEc
System
11118section 23section 231 1- 100section 6section 6
Only low rpm and
loao@o@@
Only acceleratingo@o
Only high rpm and
loado@@@o
Not specificationo@@@@
NOTE: lf misfire doesn't recur, some possible causes arefuel that doesn't meet owner's manual spec, lackoffuel, carbon
deposits on spark plug, etc.
11-78

Before connecting a new fuel tube/quick-connect fitting
assembly, remove the old retainer from the mating pipe.
With rhetabs pulled
apart, Pullthe retaineroff
New FUEL TUBE/OUICK.CONNECTFTflNG ASSEMBLY
3. Align the quick-connect fittings with the pipe, and
align the retainer locking pawls with the connector
grooves. Then press the quick connect fittings onto
the pipe until both retainer pawls lock with a click-
Ing souno.
NOTE: lf it is hard to connect, put a small amount of
new engine oil on the pipe end.
Connection with new retainer:
5.
Make sure the connection is secure and the pawls
are lirmly locked into place; check visually and by
pulling the connector.
RETAINER
Reconnect the battery negative cable, and turn the
ignition switch ON (ll) the fuel pump wjll run for about
two seconds, and fuel pressure will rise. Repeat two
or three times, and check that there is no leakage in
the fuel supply system.
11-117

I
Fuel Supply System
Fuel Injector (cont'dlFuel Pressure Regulator
Description
The fuel pressure regulator maintains a constant fuel
pressure to the fuel injectors. When the difference
between the fuel pressure and manifold pressure
exceeds 3.0 kgf/cm' (294 kPa,43 psi) IB18C'1,818c5
engines:3.5 kglcm'(343 kPa,50 psi)l, the diaphragm is
Dushed uDward, and the excess fuel is fed back into the
fuel tank through the return line.
CLOSED:
INTAKEMANIFOLDVACUUM
I1{TAKEMANIFOLDVACUUM
DIAPHRAGM
< IFUEL INLET\-
\
OIAPHRAGM
/4_\T-J FUEL INLET
9.
10.
11.
7.
8.
1t
Slide new cushion rings onto the fuel iniectors.
Coat new O-rings with clean engine oil, and put
them on the fuel injectors.
Insert the injectors into the fuel rail first.
Coat new seal rings with clean engine oil, and press
them into rhe intake manifold.
To prevent damage to the O-rings, install the luel
injectors in the fuel rail first, then install them in the
intake manifold.
Align the center line on the connector with the mark
on the fuel rail,
FUEL RAIL
MARKINGS
13.
14.
15.
16.
Install and tighten the retainer nuts.
Connect the vacuum hose and fuel return hose to
the fuel pressure regulator.
lnstall the connectors on the fuel injectors.
Turn the ignition switch ON (ll). but do not operate
the starter. After the fuel pump runs for approxi'
mately two seconds, the fuel pressure in the fuel
line rises. Repeat this two or three times, then check
whether there is any fuel leakage.
FUEL RAIL
FUEL

Testing
@G Do not smoke during the test. Keep opon
flames away lrom your work ar€a.
1. Attach a fuel pressure gauge to the service port of
the tuel filter (see page 11-118).
Pr€ssurs should be:
8188l €ngine:
27O - 320 kPa 12.8 - 3.3 kgl/cmr. 40 - 47 psil
818C1, 818C5 engines:
320 - 370 kPa (3.3 - 3.8 kgrf/cm,, 47 - 54 psi)
{with tho fuol pfossure regulatot vacuum hose dis-
connected and pinchsd)
FUEL PRESSURE GAUGE074t 6 - 004{1001
ADAPTER BOIT, 12 mm(9txt08-PD6-0101
Reconnect the vacuum hose to the fuel pressure
regulator.
Check that the fuel pressure rises when the vacuum
hose from the fuel pressure regulator is disconnect-
ed again.
lf the fuel pressure did not rise, replace the fuelpressure regulator.
VACUUM
FUEL PRESSURER€place.
AA
,il
I
I
Replacem6nl
@ Do not smoke while working on tucl sys-
tem. Keep open flamc away from your work area.
1. Place a shop towel under the fuel pressure regula-
tor, then relieve fuel pressure (see page 11-1'18).
2. Disconnect the vacuum hose and fuel return hose.
3. Remove the.two 6 mm retainer bolts.
NOTE:
. Replace the O-ring.
o When assembling the fuel pressure regulator,
apply clean engine oil to the O-ring and assem-
ble it into its proper position, taking care not to
damage the O-ring.
r1
i
i
11-121

Automatic Transmission
Special Tools ................ '14-2
Descraption .................... 14-3
Clutches ............ ...... 14-6
Power Flow ..,........... 14-8
Electronic Control System ..................... 1 4-1 8
Hydraulic Control ...... 14-23
Hydraulic Flow .........- 14-28
Lock-up System ........ 14-38
Electrical System
Component Location -................................ 1 4-45
Circuit Diagram ............. 14-46
TCM Terminal Voltage/
Measuring Conditions ......,.................... 1 4-48
Troubleshooting Procedures .. . ... ........ ...... ... 14-50
Symptom-to-Component Chart
Electrical System ...... 14-54
Electrical Troubleshooting
Troubleshooting Flowcharts .......... ... ...,.. 14-56
Lock-up Control Solenoid Valve A/B Assembly
Test .................. ...... 14-A7
Replacement ............. 14-a7
Shilt Control Solenoid Valve A/B Assembly
Test .................. ...... '14-88
Replacement .,..,........ 14-88
lvlainshaf t/Countershaft Speed Sensors
Replacement ....-......,. 14-89
Transmission Control Module (TCM)
Replacement ............. 14-89
Hydraulic System
Symptom-to-Component Chart
Hydraulic System ...... 14-90
Road Test ,................... 14-94
Stall Speed
Test .................. ...... 14-97
Fluid Level
Checking/Changing .... 14-98
Pressure Testing ........... 14-99
Transmission
Transmission
Removal ............. ...... 14-104
lllustrated lndex
Transmission/Right Side Cover ............... 1 4-1 08
Transmission Housin9 ................,..,....... 1 4-1'1 O
Torque Converter Housing/ValveBody .................. .. 14-112
Right Side Cover
Removal ............. ...... 14-114
Transmission Housing
Removal ............. ...... 14-1 l6
Torque Converter Housing/Valve Body
Removal ............. ...... l4-1 18
Valve Caps
Description ...........-... 14-120
Valve Body
Repair ................ ...... 14-12'l
Valve
Assembly
ATF Pump
Inspeclton
Main Valve Body
Disassembly/lnspection/Reassembly
Regulator Valve Body
Disassembly/lnspection/Reassembly
Lock-up Valve Body
Disassembly/lnspection/Reassembly
Secondary Valve Body
Disassembly/lnspection/Reassembly
Servo Body
....... 14-124
....... 14-126
....... 14-127
....... 14 124
Disassembly/lnspection/Reassembly .......
1st-hold Accumulator/Right Side Cover
Disassembly/lnspection/Reassembly .......
Mainsha{t
14-130
14-132
Disassembly/lnspection/Reassembly ....... 14-133
Inspection ................. 14-134
Countershaft
Disassembly/lnspection/Reassembly,..,.., l4-136
Disassembly/Reassembly ..,...,..,.........,,.. 1 4-1 37
Inspection ......,...,..,... 14-138
One-way Clutch
Disassembly/lnspection/Reassembly ....,.. 14-141
Sub-shaft
Disassembly/lnspection/Reassembly ...,,..'14-142
Disassembly/Reassembly ....................... 1 4- l 43
Sub-shaft Bearings
Replacement ,..,,.,,..,.. 14-144
Clutch
lllustrated Index ................................... I 4-1 45
Disassembly ............. 14-144
Reassembly .............. 14-150
Torque Converter Housing Bearings
Mainshaft Bearing/Oil Seal
Replacement ......... 14-154
Countershaft Bearing Replacement ......... 1 4- 1 55
Transmission Housing Bearings
Mainshaft/Countershaft BearingReplacement ......,.. 14-'156
Sub-shaft Bearing Replacement .,............ 1 4-1 57
Reverse ldler Gear
Installation .........-..... 14-158
Parking Brake Stop
Inspection/Adjustment .......................... 1 4-1 58
Transmission
Reassembly .............. 14-160
Torque Converler/Drive Plate ..............,.,,.,, 1 4-1 67
Transmission
Installation ............... 14-168
Cooler Flushing ......... 14-172
ATF Cooler Hoses
Connection ,..,,,....,,.,, '14-'174
*shift cable
Removal/lnstallation . . .. .... ... .... ... .... .. . ... .. 14-'l75
Adjustment ,..,...,,,,.,, 14-'116*Shilt lever
Disassembly/Reassembly ....................... 1 4-'17 7'Shift Indicator Panel
Adjustment .............. 14-178
\l
)g

Description
\J
t{
{
14-3
The automatic transmission is a combination of a 3-element torque converter and triple-shalt electronically controlled
automatic transmission which provides 4 speeds forward and 1 speed reverse. The entire unit is positioned in line with
the engrne.
Torque Converter, Gears, and Clutches
The torque converter consists of a pump, turbine, and stator, assembled in sigle unit. The torque converter is connected to
the engine crankshaft so they turn torether as a unit as the engine turns. Around the outside of the torque convener is a
ring gear which meshes with the starter pinion when the engine is being started. The entire torque converter assembly
serves as a flywheel while transmitting power to the transmission mainshaft.
The transmission has three parallel shafts; the mainshaft. the countershaft, and the sub shaft. The mainshaft is in-line with
the engine crankshaft.
The mainshaft includes the 1st, and 2ndl4th clutches,and gear for 3rd, 2nd, 4th, reverse, and 1st. (3rd gear is integral with
the mainshaft, while reverse gear is integral with the 4th gear.)
The countershaft includes the 3rd clutch and gears for 3rd,2nd, 4th, reverse, 1st, and parking. Reverse and 4th gears can
be loched to the countershaft at its center,providing 4th gear or reverse, depending on which way the selector is moved.
The sub-shaft includes the 1st-hold clutch and gears fo 1st and 4th.
The gears on the mainshaft are in constant mesh with those on the countersahft and sub-shaft.When certain combinations
of gears in the transmission are engaged by clutches. power in transmitted from the mainshaft to the countershaft via the
sub-shaft to orovude oil, lo'1. E, E. and E.
Electronic Control
The electronic control svstem consists of the Transmission Control Module (TCM), sensors, and four solenoid valves.
Shilting and lock-up are electronically controlled for comfortable driving under all conditions.
The TCM is located below the dashboard, behind the lelt side kick panel on the driver's side.
Hydraulic Control
The valve bodies include the main valve body, the secondary valve body, the regulator valve body, the serbvo body, and
the lock-up valve body, through the respective separator plates, They are bolted to the torque converter housing,
The main valve body contains the manual valve, the 1-2 shift valve, the 2-3 shitt valve, the Clutch Pressure Control
lCPC) valve, the 4th exhaust valve, the reliel valve, and the ATF pump gears.
The secondary valve body contains the 4-3 kick-down valve, the 3-2 kick-down valve, the 2-3 orifice control valve, the
3-4 shift valve, the orilice control valve, the modulator valve, and the servo control valve.
The regulator valve body contains the pressure regulator valve, the lock-up control valve, the torque converter check
valve, and the cooler check valve.
The servo body contains the servo valve, which is integrated with shift fork shaft, the throttle valve B, and the accumula-
tors.
The lock-up valve body contains the lock-up shift valve and the lock-up timing B valve, and is bolted to the regulator valve
ooqy.
Fluid from the regulator passes through the manual valve to the various control valves.
Shift Control Mechanism
Input to the TCM from various sensors located throughout the car determines which shift control solenoid valve should
be activated. Activating a shitt control solenoid valve changes modulator pressure, causing a shift valve to move. This
pressurizes a line to one ol the clutches, engaging that clutch and its corresponding gear.
Lock-uD Mechanism
In @ position, in 2nd, 3rd and 4th, and @ position in 3rd, pressurized fluid can be drained lrom the back oI the tor-
que converter through a fluid passage, causing the lock-up piston to be held against the torque converter cover. As this
takes place, the mainshaft rotates at the same speed as the engine crankshaft. Together with hydraulic control, the TCM
optimizes the timing of the lock-up mechanism.
The lock-up valves controlthe range of lock-up according to lock-up control solenoid valves A and B, and throttle valve B.
When lock-up control solenoid valves A and B activate, modulator pressure changes. Lock-up control solenoid valves
A and B are mounted on the torque converter housing, and are controlled by the TCM.
(cont'd)

The valve bodies include the main valve body, the secondary valve body, the regulator valve body, the servo body andthe lock-up valve bodv.
The ATF pump is driven by splines behind the torque converter which is attached to the engine, Fluid {lows through
the regulator valve to maintain specified pressure through the main valve body to the manual valve, directing pressure
to each of the clutches.
SHIFT CONTROL SOLENOIDVALVE ASSEMBLY
RIGHT SIDE COVER
LOCK'UP VALVE BODYSERVO BODY
SECONDARY VALVEBODY
VALVE BODY
REGULATOR VBODY
LOCK-UPOIL PUMP GEARS
SOLENOID VALVEASSEMBLYTOROUEHOUSING
{cont'd)
%<->--::/ )C)
IrY,
14_23
'

Unev€n or rough steering.Adjust rack guid€ (see page 17-21).
It the problem is not corrocted byadjusting the rack guid€, replacethe g€a.box.
Adjust b6ll tension. Ropl6ce theb6lt, it necossary {s€e p€ge 17-20).
lfth€ engine stalls when the wheelis turned while the vehic16 isstopped or moving at low speed.adjust idl6 sp6od (s€e s€ction 111.
ldle spoed low or €rratic.
Check powsr st6oring fuid lovel. lfthe lovel is exceggively low, ch6cktor leaks in the svstem. Add fluidto the sD6cilied l6v6l,
Air in r€gervoir, or check powsr
steering fluid lovel.
lf fluid level is OK, chock O-ringsand seals on both 6nds ot thepump suction hose. and the P/Spump housing mating surfacesand tho oumo shaft oil seal forsuction lgakr. Roplaco parts asn6c6ssary.
Pump b€lt slipping on pulloy(pump stops momentarily).Adiust b6lt t€nsion {s6e page '17-
20) or r6olac€ b€lt.
Chock if pump pressure is normaland the gauge needle trav€l is 500kPa (5 kgl/cm', 71 psi) or lesB.Ch€ck the flow control valvo if theno€dl€ trav€l oxco€ds 500 kPa {5kg7cml, 71 p6i). lf the flow controlvalve is normal. roplace the pumpas an assemDtv.
Install the power st66ring pr6s-
su16 gaug6. Close th6 prossure
control valve lully and m6asurethe pump prossure (see page'17-22t.
Ste€ring wheol kicks backduring wide turns.
7-13