tow DODGE RAM 1999 Service Workshop Manual

Avenger & Sebring Coupe
2.5L
A/C ......................... 110-132 (50-60) ... 66-86 (30-39\
)
Generator & P/S ............. 143-187 (65-85) .. 99-121 (45-55\
)
Cirrus & Stratus 2.5L
A/C & Generator ................. 150 (68) ............. 80 (36\
)
Power Steering .................. 130 (59) ............. 80 (36\
)
Concorde, Intrepid, LHS & 300M
2.7L
All Belts ................... 180-200 (78-91) ........ 120 (54\
)
3.2L & 3.5L
A/C ......................... 140-160 (64-73) ........ 120 (54\
)
Generator & Power Steering ..... 180-200 (78-91) ........ 120 (54\
)
Sebring Convertible
2.5L .......................... 150 (68) ............ 80 (36\
)
(1) - Belt is considered used after 15 minutes of service.









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BELT ADJUSTMENT SPECIFICATIONS - TRUCKS








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Application New Belt (1) Used Belt
Lbs. (kg) Lbs. (kg\
)
Dakota & Durango
2.5L ........................ 180-200 (82-91) .. 140-160 (64-73\
)
3.9L, 5.2L & 5.9L ................. ( 2) .................... ( 2)
FWD Vans
Caravan & Voyager
2.4L
A/C & Generator .............. 190 (86) ............ 115 (52\
)
Power Steering ............... 140 (64) ............. 90 (41\
)
3.0L
A/C .......................... 150 (68) ............. 80 (36\
)
Generator & P/S ................ ( 2) .................... ( 2)
3.3L & 3.8L ...................... ( 2) .................... ( 2)
Town & Country
3.3L & 3.8L ...................... ( 2) .................... ( 2)
Ram Pickup & Ram Van/Wagon
All Engines ....................... ( 2) .................... ( 2)
( 1) - Belt is considered used after 15 minutes of service.
( 2) - Automatic belt tensioner is used. Belt tension adjustment is not
required.









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Fig. 1: Belt Routing (2.0L Avenger, Sebring Coupe & Talon Without
Turbo)
Courtesy of Chrysler Corp.

Fig. 8: Belt Routing (3.0L Caravan & Voyager)
Courtesy of Chrysler Corp.
Fig. 9: Belt Routing (3.3L & 3.8L Caravan, Town & Country, & Voyager)\
Courtesy of Chrysler Corp.

Talon
Coolant Replacement Interval ........... 30,000 Miles Or 24 Months
Coolant Capacity ................................. 7.4 Qts. (7.0L)\
Pressure Cap
VIN F ................................................. 11-15 psi
VIN Y ................................................. 14-18 psi
Thermostat
Starts To Open
VIN F ............................................ 180
F (82C)
VIN Y ............................................ 195F (91C)
Fully Opens
VIN F ............................................ 203
F (95C)
VIN Y ........................................... 216F (102C)








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COOLING SYSTEM SPECIFICATIONS - TRUCKS








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Application Specification
Coolant Replacement Interval ............. 45,000 Miles Or 36 Months
Coolant Capacity ( 1)
Caravan, Town & Country, & Voyager
2.4L ...................................... ( 2) 11.2 Qts. (10.6L)
3.0L ...................................... ( 2) 13.0 Qts. (12.3L)
3.3L & 3.8L ............................... ( 2) 13.2 Qts. (12.5L)
Dakota
2.5L ............................................ 9.8 Qts. (9.3L)\
3.9L .......................................... 14.0 Qts. (13.2L)\
5.2L .......................................... 14.3 Qts. (13.5L)\
5.9L ................................................. 14.6L (13.7L)\
Durango
3.9L .......................................... 14.0 Qts. (13.2L)\
5.2L & 5.9L ...................................... 14.3 Qts. (13.5L)\
Ram Pickup
3.9L, 5.2L & 5.9L (Gasoline) .................. 20.0 Qts. (18.9L\
)
5.9L (Diesel) ................................. 24.0 Qts. (22.7L\
)
8.0L .......................................... 26.0 Qts. (24.6L)\
Ram Van/Wagon
3.9L ........................................... 10.4 Qts. (9.8L)\
5.2L .......................................... 13.1 Qts. (12.4L)\
5.9L
With Rear Heater ............................ 14.1 Qts. (13.3L)\
Without Rear Heater ......................... 13.1 Qts. (12.4L)\
Pressure Cap ............................................. 14-16 psi
Thermostat
Diesel Engines
Starts To Open ..................................... 181
F (83C)
Fully Open ............................................ 203F (95C)
Gasoline Engines
Starts To Open ..................................... 192
F (89C)
Fully Opens ....................................... 220F (104C)
( 1) - Capacities listed are approximate.
( 2) - Capacity includes heater and coolant recovery tank. Add 2 qts.
(1.9L) for models equipped with rear heater.









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is to be serviced, slowly loosen inlet side of fuel fill tube fitting
at check valve. It is normal for approximately 25 psi of residual
natural gas pressure to flow from loosened fitting. At this point, all
fuel tubes are purged of natural gas between fuel cylinders and
engine. It is now okay to open fuel system.
WARNING: Fuel cylinders still contain high-pressure fuel.
Compressed Natural Gas Fuel Cylinder Purging (5.2L)
1) Open manual shutoff valve. Open only fuel control valve(s)\
(counterclockwise) on fuel cylinder(s) to be serviced. Close all oth\
er
control valve(s) (clockwise) on fuel cylinder(s) not being service\
d.
2) Start and operate engine until it runs out of fuel.
Attempt 3 more engine starts. At this point, all fuel tubes and opened
cylinders are purged of natural gas between fuel cylinders and engine.
It is now okay to open fuel system.
WARNING: Fuel cylinders not being serviced still contain high-pressure
fuel.
FUEL LINE DISCONNECT FITTINGS
Removal & Installation (Tab Type Fitting)
1) Release fuel pressure. See FUEL PRESSURE RELEASE.
Disconnect negative battery cable. Ensure area around fuel line and
disconnect fitting is clean. Place shop towel around fuel line.
2) On 2-tab connectors, squeeze retainer tabs together and
pull fuel tube/quick-connect fitting assembly off of fuel tube nipple.
On single-tab connectors, use screwdriver to pry up pull tab. See
Fig. 1 . Raise pull tab until it separates from quick-connect fitting.
Discard old pull tab. Disconnect quick-connect fitting from fuel line.
CAUTION: DO NOT install a quick-connect fitting without retainer being
either in fuel tube or already in quick-connect fitting.
After installing fuel line in disconnect fitting, pull on
fuel line and disconnect fitting to ensure fuel line is
locked in place.
3) To install, coat fuel tube nipple with clean 30W engine
oil. Insert quick-connect fitting into fuel tube until stop on fuel
tube rests against back of quick-connect fitting.
4) On single-tab connectors, obtain NEW pull tab. Push tab
down until it locks into quick-connect fitting. On 2-tab connectors,
firmly pull on fuel tube and fitting to ensure retainer and quick-
connect fitting are locked.
Removal & Installation (Retainer Type Fitting)
1) Release fuel pressure. See FUEL PRESSURE RELEASE.
Disconnect negative battery cable. Ensure area around fuel line and
disconnect fitting is clean. Place shop towel around fuel line.
2) Pull backward on disconnect fitting while depressing
plastic ring into disconnect fitting. See Fig. 2. Separate fuel line
from disconnect fitting.
NOTE: Plastic retainer ring must be pressed squarely into fitting
body. If retainer is cocked during removal, it may be
difficult to disconnect fitting. Use open-end wrench on
shoulder of plastic retainer to ease disconnection.
3) To install, ensure plastic ring is in outward position
(away from disconnect fitting). If plastic ring is in inward position
(toward disconnect fitting), disconnect fitting must be replaced.
4) Lubricate end of fuel line with 30W engine oil. Insert

Removal
Remove air cleaner. Remove rocker arms. See ROCKER ARMS.
Remove intake manifold. See INTAKE MANIFOLD. Remove yoke retainer and
aligning yoke. Use Valve Lifter Remover/Installer (C-4129-A) to remove\
valve lifter(s).
NOTE: Cylinder block must be marked to indicate oversize valve
lifters. See SPECIAL ENGINE MARKS under ENGINE
IDENTIFICATION.
Inspection
Inspect components for damage. Measure lifter O.D. and bore
diameter in cylinder block. Determine oil clearance. Clearance must be
within specification. See VALVE LIFTERS table under ENGINE
SPECIFICATIONS. Cylinder block can be bored for oversize lifters.
CAUTION: DO NOT allow engine RPM to exceed fast idle until valve
lifters have filled with oil and become quiet.
Installation
1) Lubricate valve lifters and push rods before installing in
original locations. Ensure valve lifter is installed so oil feed hole
in side of valve lifter is facing upward, away from crankshaft.
2) Align yokes with arrow pointing toward camshaft. Install
yoke retainer, and tighten bolts to specification. See TORQUE
SPECIFICATIONS table.
CAMSHAFT
Removal
1) Remove engine. See ENGINE. Remove front cover and timing
chain. See FRONT COVER and TIMING CHAIN.
2) Remove valve lifters. See VALVE LIFTERS. Remove
distributor and distributor drive shaft. Remove camshaft thrust plate,
noting location of oil tab for installation reference. See Fig. 9.
Remove camshaft.
Fig. 9: Positioning Oil Tab
Courtesy of Chrysler Corp.
Inspection
Inspect camshaft and camshaft bearings for wear. Measure

Removal & Installation
1) Use Camshaft Bearing Remover/Installer (C-3132-A) for
camshaft bearing replacement. Replace camshaft bearing if damaged or
if I.D. is not within specification. See CAMSHAFT table under ENGINE
SPECIFICATIONS.
2) Ensure oil holes are aligned. Ensure oil hole in No. 2
bearing aligns with oil hole to left cylinder head, and oil hole in
No. 3 bearing (3.9L) or No. 4 bearing (5.2L and 5.9L) aligns with oi\
l
hole to right cylinder head. Install NEW camshaft plug at rear of
cylinder block.
DISTRIBUTOR DRIVE SHAFT BUSHING
Removal
1) Rotate crankshaft so No. 1 cylinder is at TDC on
compression stroke. Remove distributor and distributor drive shaft.
Insert Bushing Puller (C-3052) into bushing, and thread down until
tight.
2) Hold bushing puller bolt, and rotate bushing puller nut
until distributor drive shaft bushing is removed.
Installation
1) Install NEW distributor drive shaft bushing over
burnishing end of Bushing Installer (C-3053). Insert bushing installer\
and distributor drive shaft bushing into cylinder block.
CAUTION: DO NOT ream distributor drive shaft bushing.
2) Using hammer, drive bushing installer and distributor
drive shaft bushing into cylinder block. Tighten nut to pull bushing
installer through distributor drive shaft bushing. Tightening nut
expands bushing tight in cylinder block and burnishes it to correct
size.
3) Ensure No. 1 cylinder is at TDC on compression stroke.
Install distributor drive shaft so slot is aligned toward left front
intake manifold bolt as viewed from rear of engine. Install
distributor with rotor positioned to No. 1 cylinder in distributor
cap.
REAR CRANKSHAFT OIL SEAL
Removal & Installation (Crankshaft Installed)
1) Remove oil pan. See OIL PAN. Remove oil pump. Remove rear
main bearing cap and discard lower rear crankshaft oil seal. Carefully
remove upper rear crankshaft oil seal and discard seal.
2) Lubricate new oil seal. Rotate upper rear crankshaft oil
seal in cylinder block with Yellow paint toward rear of engine.
Install lower rear crankshaft oil seal in main bearing cap with Yellow
paint toward rear of engine.
3) To prevent oil leakage, apply one drop of Loctite 515
sealant next to oil seal on main bearing cap surface before
installing. Apply silicone adhesive sealant at bearing cap-to-cylinder
block joint. See Fig. 11. Install main bearing cap, and tighten bolts
to specification. See TORQUE SPECIFICATIONS table. To install
remaining components, reverse removal procedure.
Removal & Installation (Crankshaft Removed)
1) Remove rear crankshaft oil seals from cylinder block and
main bearing cap. Lubricate oil seal. Install rear crankshaft oil
seals with Yellow paint toward rear of engine.
2) To prevent oil leakage, apply one drop of Loctite 515
sealant next to oil seal on main bearing cap surface before
installing. Apply silicone adhesive sealant at bearing cap-to-cylinder

block. Determine oil clearance. Clearance must be within
specification. See VALVE LIFTERS table under ENGINE SPECIFICATIONS.
Cylinder block can be bored for oversize lifters.
CYLINDER BLOCK ASSEMBLY
Piston & Rod Assembly
Install piston with notch or groove on top of piston toward
front of engine (timing chain end) with larger chamfer of connecting
rod bore toward crankshaft journal fillet.
Fitting Pistons
1) Measure piston diameter at top of piston skirt at 90-
degree angle to piston pin axis. Measure cylinder bore diameter below
top surface of cylinder bore, middle of bore and bottom of cylinder
bore.
NOTE: Piston diameter and cylinder bore should be measured at room
temperature of 70
F (21C).
2) Ensure piston diameter and clearance are within
specification. See PISTONS, PINS & RINGS table under ENGINE
SPECIFICATIONS.
Piston Rings
1) Ensure ring end gap and side clearances are within
specification. See PISTONS, PINS & RINGS table under ENGINE
SPECIFICATIONS.
2) Position piston ring gaps in proper location. See Fig. 16.
Compression ring gaps must be staggered so they do not align with oil
ring rail gap. Ensure identification marks (drill point, letter "O",
an oval depression or the word TOP) on compression rings face upward.
Fig. 16: Positioning Piston Rings
Courtesy of Chrysler Corp.
Rod Bearings
1) Crankshaft is marked to indicate undersize rod bearings.
See SPECIAL ENGINE MARKS. When replacing connecting rod bearings,
ensure connecting rod is installed with larger chamfer of connecting
rod bore toward crankshaft journal fillet.
2) Apply light coat of engine oil to connecting rod bolt
threads before tightening nut to specification. See TORQUE
SPECIFICATIONS table. Ensure oil clearance and side play are within
specification. See CRANKSHAFT, MAIN & CONNECTING ROD BEARINGS table
under ENGINE SPECIFICATIONS.
Crankshaft & Main Bearings
1) Crankshaft is marked to indicate undersize main bearings.
See SPECIAL ENGINE MARKS. Main bearing cap location and direction of
installation should be marked before removal.

over connecting rod bolts. Install piston and connecting rod assembly.
Ensure piston notch, arrow or "FRONT" mark is toward front of engine.
See Fig. 17 .
Fig. 17: Installing Piston & Connecting Rod Assembly - Typical
This Graphic For General Information Only
Carefully tap piston into cylinder until rod bearing is
seated on crankshaft journal. Remove protectors. Install rod cap and
bearing. Lightly tighten connecting rod bolts. Repeat procedure for
remaining cylinders. Check bearing clearance. See
MAIN & CONNECTING ROD BEARING CLEARANCE in this article.
Once clearance is checked, lubricate journals and bearings.
Install bearing caps. Ensure marks are aligned on connecting rod and
cap. Tighten rod nuts or bolts to specification. Ensure rod moves
freely on crankshaft. Check connecting rod side clearance. See
CONNECTING ROD SIDE CLEARANCE in this article.
CONNECTING ROD SIDE CLEARANCE
Position connecting rod toward one side of crankshaft as far
as possible. Using feeler gauge, measure clearance between side of
connecting rod and crankshaft. See Fig. 18. Clearance must be within
specifications.

NOTE: Always refer to appropriate engine overhaul article in the
ENGINES section for complete overhaul procedures and
specifications for the vehicle being repaired.
CLEANING & INSPECTION
Clean camshaft with solvent. Ensure all oil passages are
clear. Inspect cam lobes and bearing journals for pitting, flaking or
scoring. Using micrometer, measure bearing journal O.D.
Support camshaft at each end with "V" blocks. Position dial
indicator with tip resting on center bearing journal. Rotate camshaft
and note reading. If reading exceeds specification, replace camshaft.
Check cam lobe lift by measuring base circle of camshaft
using micrometer. Measure again at 90 degrees to tip of cam lobe. Cam
lift can be determined by subtracting base circle diameter from tip of
cam lobe measurement.
Different lift dimensions are given for intake and exhaust
cam lobes. Reading must be within specifications. Replace camshaft if
cam lobes or bearing journals are not within specifications.
Inspect camshaft gear for chipped, eroded or damaged teeth.
Replace gear if damaged. On camshafts using thrust plate, measure
distance between thrust plate and camshaft shoulder. Replace thrust
plate if not within specification.
CAMSHAFT BEARINGS
Removal & Installation
Remove the camshaft rear plug. The camshaft bearing remover
is assembled with its shoulder resting on the bearing to be removed
according to manufacturer's instructions. Tighten puller nut until
bearing is removed. Remove remaining bearings, leaving front and rear
bearings until last. These bearings act as guide for camshaft bearing
remover.
To install new bearings, puller is rearranged to pull
bearings toward the center of block. Ensure all lubrication passages
of bearing are aligned with cylinder block. Coat new camshaft rear
plug with sealant. Install camshaft rear plug. Ensure plug is even
in cylinder block.
CAMSHAFT INSTALLATION
Lubricate bearing surfaces and cam lobes with ample amount of
Molykote or camshaft lubricant. Carefully install camshaft. Use care
not to damage bearing journals during installation. Install thrust
plate retaining bolts (if equipped). Tighten bolts to specification.
On overhead camshafts, install bearing caps in original location.
Tighten bolts to specification. Check end play.
CAMSHAFT END PLAY
Using dial indicator, check end play. Position dial indicator
on front of engine block. Position indicator tip against camshaft.
Push camshaft toward rear of engine and adjust indicator to zero.
Move camshaft forward and note reading. Camshaft end play
must be within specification. End play may be adjusted by relocating
gear, shimming thrust plate or replacing thrust plate depending on
manufacturer.
TIMING CHAINS & BELTS

FUEL TANKS
GAS CAPS
GASKETS
GROMMETS (VALVE COVER)
HARMONIC DAMPERS
HEATER CONTROL VALVES
HEATER CORES
HOSE AND TUBE COUPLERS, CONNECTORS AND CLAMPS
HOSE CLAMPS
HOSE CONNECTORS
HOSE COUPLERS
HOSES AND TUBES (FUEL LINES, RADIATOR, VACUUM, BY PASS,
HEATER, RECOVERY TANK AND OIL COOLERS)
HOUSINGS
IDLE AIR CONTROLS
IDLE SPEED CONTROL ACTUATORS
IGNITION BOOTS
IGNITION COIL TOWERS
IGNITION COILS
IGNITION CONTROL MODULES (ICM)
IGNITION SWITCHES
IGNITION TERMINALS
IGNITION WIRES, BOOTS, COIL TOWERS AND TERMINALS (SECONDARY)
IN-TANK FUEL STRAINERS
INERTIA FUEL SHUT-OFF SWITCHES
INTAKE AIR TEMPERATURE SENSORS
INTAKE MANIFOLDS
INTERCOOLERS
KNOCK SENSORS
LIQUID VAPOR SEPARATORS
MANIFOLD ABSOLUTE PRESSURE (MAP) SENSORS
MASS AIR FLOW (MAF) SENSORS
METAL AIR MANIFOLDS AND PIPES
METAL AIR PIPES
MIX CONTROL SOLENOIDS
MOTOR MOUNTS
O-RINGS, GASKETS, SEALS AND SPRING LOCKS
O2 SENSORS
OIL PRESSURE SENDING UNITS
OIL PUMP PICK-UP SCREENS
OIL PUMPS
PARK NEUTRAL POSITION SWITCHES
PCV BREATHER ELEMENTS
PCV ORIFICES
PCV VALVES
PICK-UP ASSEMBLIES (INCLUDES MAGNETIC, HALL EFFECT AND
OPTICAL)
POWER STEERING PRESSURE SENSORS
POWERTRAIN CONTROL MODULES (PCM) AND PROM
POWERTRAIN CONTROL PROM
PRESSURIZED EXPANSION TANK CAPS
RADIATOR CAPS AND PRESSURIZED EXPANSION TANK CAPS
RADIATOR FAN BLADES
RADIATOR FAN CLUTCHES
RADIATORS
ROLL OVER VALVES
SEALING COMPOUNDS
SEALS
SECONDARY AIR INJECTION SYSTEM MANAGEMENT DEVICES
SENSORS AND ACTUATORS
SHROUDS, BAFFLES AND DEFLECTORS
SPARK PLUGS
SPRING LOCKS