1999 DODGE RAM check engine

VERIFICATION TEST VER-1A after each repair.
CAUTION: Always turn ignition switch to OFF position prior to
disconnecting or connecting any module connector.
1) Clear trouble codes as needed. See BODY CONTROL COMPUTER -
INTRODUCTION article. Using scan tool, read I/O's door unlock switch
status. If scan tool displays RELEASED, system is currently
functioning properly. If scan tool does not display RELEASED, go to
next step.
2) Disconnect left door lock switch connector. If scan tool
displays RELEASED, replace left door lock switch. If scan tool does
not display RELEASED, go to next step.
3) Disconnect right door lock switch connector. If scan tool
displays RELEASED, replace right door lock switch. If scan tool does
not display RELEASED, go to next step.
4) Locate Central Timer Module (CTM). CTM is located under
left side of instrument panel. Disconnect CTM 18-pin connector C2.
Using an external voltmeter, measure voltage between ground and CTM
18-pin connector C2 terminal No. 4 (Orange/Dark Green wire). If
voltage is more than 1.5 volts, repair short to voltage in Orange/Dark
Green wire between CTM and door lock switch. If voltage is 1.5 volts
or less, replace CTM.
IDENTIFYING VTSS PROBLEMS
NOTE: For connector terminal identification and wiring diagrams,
see BODY CONTROL COMPUTER - INTRODUCTION article. Perform
VERIFICATION TEST VER-1A after each repair.
CAUTION: Always turn ignition switch to OFF position prior to
disconnecting or connecting any module connector.
1) Using scan tool, select BODY SYSTEM then VTSS and read
Central Timer Module (CTM) DTCs. If any VTSS DTCs are displayed,
perform appropriate procedure. See VTSS DTC table. If no VTSS DTCs are
displayed, go to next step.
VTSS DTC









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DTC Message Perform
DOOR DISARM SWITCH FAILURE .............. DOOR DISARM SWITCH FAILURE
DOOR LOCK SWITCH FAILURE .................. DOOR LOCK SWITCH FAILURE
DOOR UNLOCK SWITCH FAILURE .............. DOOR UNLOCK SWITCH FAILURE
EEPROM CHECKSUM FAILURE ................................ Replace CTM
INTERNAL ROM TEST FAILURE .............................. Replace CTM









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2) Select VTSS then MONITORS. If scan tool displays, OK TO
RUN, NOT OK TO ARM, PCM has not recorded more than 20 starts. Start
engine 20 times and retest. If message does not change to OK TO ARM,
replace PCM. If scan tool displays NO RESPONSE TO PCM, see appropriate
VEHICLE COMMUNICATIONS article. If scan tool does not display OK TO
RUN, NOT OK TO ARM or NO RESPONSE TO PCM, go to next step.
3) Using scan tool, actuate horn, headlights and VTSS light
to flash. If horn does not sound, go to next step. If headlights do
not flash, go to step 6). If VTSS light does not flash, go to step 9).\
If all function properly, go to step 12).
4) Press horn button. If horn does not sound, go to
appropriate STEERING COLUMN SWITCHES article. If horn sounds, go to
next step.
5) Locate Central Timer Module (CTM). CTM is located behind

1) Start engine, and check booster vacuum hose connections. A
hissing noise indicates a vacuum leak. Repair any vacuum leaks before
proceeding. Stop engine, and shift transmission into Neutral. Pump
brake pedal until all vacuum reserve in booster is depleted.
2) Hold brake pedal under light pressure. If pedal does not
hold firm and falls away, master cylinder may be faulty. Bleed system
using appropriate method, and repeat step 1). See BLEEDING PROCEDURES
under BLEEDING BRAKE SYSTEM.
3) If pedal still does not hold firm, master cylinder is
faulty. If pedal holds firm, start engine and observe pedal height. If
pedal height change is not apparent, power booster or vacuum check
valve is faulty. Install good check valve, and repeat steps 1) and 2).\
If pedal falls away slightly under light pressure and then holds firm,
go to next step .
4) Start engine. Release brake pedal. Increase engine speed
to 1500 RPM. Close throttle and immediately turn off ignition. Wait at
least 90 seconds, and try brake action again. Booster should provide 2
or more vacuum assisted pedal applications. If vacuum assist is not
provided, perform booster and check valve vacuum tests.
POWER BRAKE BOOSTER VACUUM TEST
Connect vacuum gauge to booster check valve using "T"
fitting. Start engine, and run at idle speed for one minute. Clamp
hose shut between vacuum source and check valve. Stop engine, and
observe vacuum gauge. If vacuum drops more than one in. Hg within 15
seconds, booster diaphragm or check valve is faulty.
POWER BRAKE BOOSTER CHECK VALVE TEST
Disconnect vacuum hose from check valve. Remove check valve
and valve seal from booster. Use a hand-operated vacuum pump for
testing. Apply 15-20 in. Hg at large end of check valve. Vacuum should
hold steady. If gauge on pump indicates vacuum loss, check valve is
faulty and should be replaced.
COMBINATION VALVE METERING VALVE TEST
Metering valve operation can be checked visually with aid of
an assistant. While an assistant applies and releases brake pedal,
observe metering valve stem. If valve is operating correctly, stem
will extend slightly when brakes are applied, and contract when brakes
are released. If valve is faulty, replace combination valve assembly.
COMBINATION VALVE PRESSURE DIFFERENTIAL SWITCH TEST
1) Using an assistant, apply brake pedal. Observe brake
warning light. Raise and support vehicle, and connect a bleed hose to
one rear wheel cylinder. Submerge other end of hose into container
partially filled with brake fluid. Have assistant press and hold brake
pedal down while observing brake warning light. Open bleeder screw. If
warning light glows, switch is operating properly.
2) If warning light fails to glow, check circuit fuse, bulb
and wiring. Repair as necessary. Repeat step 1). If warning light
fails to glow, check brakelight, parking brake switches and related
wiring. Repair as necessary. Repeat step 1). If warning light fails to
glow, pressure differential switch is faulty. Replace combination
valve assembly, and bleed brake system. Verify proper valve operation.
REMOVAL & INSTALLATION

Removal & Installation
1) Disconnect and plug primary and secondary brakelines from
master cylinder. Remove master cylinder-to-power brake booster nuts.
Slide master cylinder straight out and away from power brake booster
unit.
2) Ensure reservoir is empty. Install master cylinder in
soft-jaw vise. Pry gently upward between reservoir ports while working
reservoir side to side. Remove reservoir and grommets. See Fig. 6.
3) Install NEW grommets in master cylinder ports. Lubricate
grommets with brake fluid. Firmly and evenly, press reservoir into
grommets by hand.
4) To complete installation, position master cylinder over
studs of power brake booster. Align power cylinder brake push rod with
cylinder piston. Install master cylinder nuts, and tighten to
specification. See TORQUE SPECIFICATIONS table. Connect both
brakelines. Bleed system. See BLEEDING BRAKE SYSTEM.
Fig. 6: Exploded View Of Master Cylinder (Ram Pickup)
Courtesy of Chrysler Corp.
POWER BRAKE BOOSTER
Removal
1) Disconnect vacuum hose from booster check valve. Remove
nuts attaching master cylinder, and move cylinder away from booster.
Inside vehicle, remove booster push rod-to-brake pedal clip. Pry clip
off pedal pivot pin.
2) Remove lock nuts from booster mounting studs. Slide
booster away from dash and out of engine compartment. If booster is

CLUTCH HOUSING (RAM PICKUP)
NOTE: Only NV4500 clutch housing can be checked using the following
bore and face runout procedures. The NV1500, NV3500 and
NV5600 clutch housings are an integral part of transmission
front case and can only be checked off vehicle.
Clutch Housing Bore Runout (NV4500)
1) Remove clutch housing. Remove clutch cover and disc. See
CLUTCH ASSEMBLY under REMOVAL & INSTALLATION. Replace one flywheel
bolt with a threaded rod. See Fig. 2. Remove release fork from clutch
housing. Reinstall clutch housing. Tighten housing bolts nearest
alignment dowels first. Mount dial indicator on threaded rod and
position indicator plunger on surface of clutch housing bore. See
Fig. 4 .
2) Rotate crankshaft until indicator plunger is at top center
of housing bore. Zero dial indicator. Rotate crankshaft and record
indicator readings at 8 points, 45 degrees apart, around bore. See
Fig. 5 .
3) Repeat measurement at least twice. Subtract each reading
from one 180 degrees opposite to determine magnitude and direction of
runout. For example: 0.000" minus (-0.007") = 0.007", 0.002" minus (-\
0.010") = 0.01", 0.004" minus (-0.005") = 0.009" or -0.001" minus (0\
.
001") = -0.002" which will be 0.002". In this example, largest
difference is 0.012" (total indicator reading). This means housing
bore is offset from crankshaft centerline by 0.006" (1/2 of 0.012").
4) On gas engines, acceptable total indicator reading is 0.
010". If measured total indicator reading is more than 0.010", bore
runout will have to be corrected using offset dowels. Offset dowels
are available in 0.007", 0.014" and 0.021". See DOWEL SELECTION table.
If total indicator reading is 0.053" or greater, replace clutch
housing. If dial indicator reads positive when plunger moves inward
(toward indicator) and negative when moves outward away from
indicator), lowest or most negative reading determines direction of
housing bore offset (runout).
5) On diesel engines, offset dowels are not available to
correct runout. If total indicator reading exceeds bore runout of 0.
015", replace either clutch housing, or transmission adapter plate. On
gas engines, if bore is offset, remove housing and original dowels,
install new offset dowels in direction need to center bore with
crankshaft centerline. Install new dowels with slotted side facing
out. Using a screwdriver, rotate dowels until total indicator reading
is less than 0.010". Ensure clutch housing face runout is within
specification.
DOWEL SELECTION









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Application - In. (mm) Offset Dowel - In. (mm\
)
0.011-0.021 (0.2794-0.5334) ......................... 0.007 (0.1778\
)
0.022-0.035 (0.5588-0.8890) ......................... 0.014 (0.3556\
)
0.036-0.052 (0.9144-1.3208) ......................... 0.021 (0.5334\
)









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Fig. 3: Manufactured Stud Or Threaded Rod
Courtesy of Chrysler Corp.

CAUTION: Clutch disc may contain asbestos fibers which can cause
serious health risk. DO NOT sand clutch components. DO NOT
clean components using compressed air. To clean components,
use a water-dampened cloth.
Removal
With transmission and clutch housing removed, mark pressure
plate and flywheel for reassembly reference. Install clutch aligner in
clutch disc to prevent disc from falling. Loosen pressure plate bolts
evenly and in rotation to avoid warping pressure plate. Remove
pressure plate and disc from flywheel. See Fig. 10.
Inspection
1) Check for oil leakage through engine rear main bearing oil
seal and transaxle input shaft seal. Check flywheel and pressure plate
for burned areas, discoloration, cracks, grooves or ridges. Replace as
necessary.
2) Use medium sandpaper (80-180 grade) to clean flywheel
surface, then wipe with mineral spirits. DO NOT flat-machine flywheel
surface. Check facing surfaces for grease or oil contamination. Check
clutch disc for wear. Clutch disc face-to-rivet head distance should
be at least .008" (.20 mm). Check splines of disc hub and transaxle
input shaft.
3) Using straightedge, check pressure plate. Friction area
should be flat to slightly concave, with the inner diameter about 0-.
0039" (0-0.1 mm) less than outer diameter. Using surface plate, check
clutch cover for flatness. Sections around bolt holes should contact
surface plate within .015" (.38 mm). Ensure cover-to-flywheel dowel
fit is snug. Replace clutch assembly as necessary.
NOTE: Before installing clutch disc, ensure flywheel mating
surface, pilot bearing/bushing and clutch release bearing are
in satisfactory condition. Repair and/or replace components
as necessary.
Installation
To install, reverse removal procedure using clutch aligner.
Ensure reference marks are aligned. Tighten pressure plate retaining
bolts evenly a few threads at a time to prevent warpage. See TORQUE
SPECIFICATIONS table.
Fig. 10: Exploded View Of Clutch Assembly (Typical)
Courtesy of Chrysler Corp.
PILOT BEARING, CLUTCH RELEASE BEARING & FORK

COMPONENT LOCATIONS
COMPONENT LOCATIONS








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Component Location
ABS Control Module
Ram Pickup ....................... Left Side Of Engine Compartment
Ram Van/Wagon ...................................... Under Battery
Data Link Connector (DLC) ...... Lower Left Side Of Instrument Panel\
Output Shaft Speed Sensor (OSS) .......... Left Side Of Transmission\
Park/Neutral Position (PNP) Switch ....... Left Side Of Transmission\
Powertrain Control Module (PCM)
Dakota & Durango ............... Right Front Of Engine Compartment
Ram Pickup ............... Right Rear Corner Of Engine Compartment
Ram Van/Wagon ..................... Under Hood Next To Wiper Motor
Vehicle Speed Sensor (VSS) ........ On Transmission Or Transfer Case\
Extension Housing









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TROUBLE SHOOTING
ROAD TEST
Perform a road test to verify speed control malfunctions.
Ensure speedometer operation is smooth without flutter at all speeds.
Speedometer fluttering may cause surging in speed control system. For
speedometer diagnosis, see appropriate INSTRUMENT PANELS article. If
road test verifies a surge following speed control set and speedometer
operates smoothly, see OVERSHOOT/UNDERSHOOT FOLLOWING SPEED CONTROL
SET.
If road test verifies an inoperative system, and speedometer
operates smoothly, check for:
* Diagnostic Trouble Codes (DTCs). See SELF-DIAGNOSTIC
SYSTEM.
* Misadjusted brake switch. See BRAKE SWITCH under REMOVAL &
INSTALLATION.
* Poor electrical connections at servo.
* Leaking vacuum reservoir, check valve, hoses or connections.
See VACUUM SUPPLY under COMPONENT TESTS.
* Secure attachments of S/C servo cable.
* Smooth operation of throttle linkage.
* Defective PCM or wiring.
* Defective servo. See SPEED CONTROL SERVO under COMPONENT
TESTS.
To verify a speed control electronic malfunction, use scan
tool to check for DTCs. See SELF-DIAGNOSTIC SYSTEM. A speed control
malfunction may occur without setting a FTC. If no DTCs are stored, go
to CHECKING SPEED CONTROL OPERATION under SYSTEM TESTS.
OVERSHOOT/UNDERSHOOT FOLLOWING SPEED CONTROL SET
If operator repeatedly presses and releases set button with
their foot off accelerator (lift foot set) to begin speed control
operation, vehicle may accelerate and exceed desired set speed by 5
MPH and then decelerate to less than desired set speed before
achieving desired set speed.
Speed Control (S/C) has as adaptive strategy that compensates\
for variations in S/C cable lengths. When S/C is set with vehicle

operator's foot off accelerator pedal, S/C compensates for excessive
S/C cable slack. If lift foot sets are continually used, speed control
overshoot/undershoot condition will develop.
To "unlearn" overshoot/undershoot condition, operator must
press and release set button while maintaining desired speed with
accelerator pedal, then turn S/C switch to OFF position after waiting
10 seconds. This procedure must be repeated 10-15 times to completely
unlearn overshoot/undershoot condition.
COMPONENT TESTS
WARNING: Vehicle is equipped with an air bag. Air bag must be
deactivated before servicing speed control components on or
around steering column. See appropriate AIR BAG RESTRAINT
SYSTEMS article.
NOTE: For component locations, See COMPONENT LOCATIONS. For
connector terminal identification, see CONNECTOR
IDENTIFICATION. For wiring diagram, see WIRING DIAGRAMS.
BRAKE SWITCH
Disconnect brake switch 6-pin connector. Using an ohmmeter,
check for continuity at brake switch. See Fig. 1. If continuity is not
as specified in BRAKE SWITCH CONTINUITY table, check brake switch
adjustment. See BRAKE SWITCH under REMOVAL & INSTALLATION. If brake
switch adjustment is okay, replace defective brake switch.
BRAKE SWITCH CONTINUITY








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Switch Plunger  Check Between  Continuity 


Position  Terminals  










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Released  5 & 6  Yes 










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Depressed  1 & 2  Yes 











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 3 & 4  Yes 











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SPEED CONTROL SERVO
1) Start engine. Disconnect Speed Control (S/C) servo 4-pin
connector. Turn S/C on. Using a voltmeter, check voltage at S/C servo
connector terminal No. 3 (Dark Blue/Red wire). Battery voltage should
exist when brake pedal is not depressed. If battery voltage exists, go
to next step. If battery voltage does not exist, check circuit between
brake switch and S/C servo. See WIRING DIAGRAMS.
2) Connect a jumper wire between S/C servo pin No. 3 and S/C
servo connector terminal No. 3. Check voltage at S/C servo pins No. 1,
2 and 4. If battery voltage does not exist, replace S/C servo. If
battery voltage exists, go to next step.
3) Turn ignition off. Check for continuity between S/C servo
connector terminal No. 4 and ground. If continuity exists, test is
complete. If continuity does not exist, repair open ground circuit as
necessary.
VACUUM SUPPLY
Gasoline Engines
1) Disconnect vacuum hose at speed control servo. Install
vacuum gauge to disconnected vacuum hose. Start engine and observe

gauge. Vacuum reading should be a minimum of 10 in. Hg. Turn engine
off. Vacuum should continue to hold at a minimum of 10 in. Hg.
2) If vacuum is not as specified, check for kinked or leaking
vacuum lines, defective check valve, defective vacuum reservoir or
poor engine performance. If no problems are found, check speed control
servo. See SPEED CONTROL SERVO.
Diesel Engines
1) Disconnect vacuum hose at speed control servo. Install
vacuum gauge to disconnected vacuum hose. Start engine and observe
gauge. Vacuum reading should be a minimum of 25 in. Hg. A vacuum
reservoir is not used on diesel vehicles.
2) If vacuum is not as specified, disconnect vacuum supply
hose from vacuum pump. Install vacuum gauge to vacuum pump. Start
engine and observe gauge. If vacuum reading is not 25 in. Hg or more,
replace vacuum pump. If vacuum reading 25 in. Hg or more, go to next
step.
3) Check all vacuum hoses to speed control servo, vacuum pump
and heater-A/C system for leaks. Check vacuum check valve for leaks
and proper operation. Vacuum check valve is located in vacuum hose
between speed control servo and vacuum pump. If no problems are found,
check speed control servo. See SPEED CONTROL SERVO.
CONNECTOR IDENTIFICATION
Fig. 1: Identifying Brake Switch Terminals
Courtesy of Chrysler Corp.