diagram DODGE RAM 2003 Service Manual PDF

(35) Remove the passenger battery ground cable
from the engine block. Remove the driver side bat-
tery ground cable from the engine block.
(36) Remove power steering pump from engine by
removing 3 bolts.
(37) Remove accelerator linkage cover.
(38)
Disconnect cables from APPS if early model build
(39) If late model build,
(40) Disconnect the ECM power connector.
(41) Disconnect the ECM ground wire from the
hydroform screw.
(42) Disconnect the fuel supply and return hoses.
(43) Remove the cylinder head cover. (Refer to 9 -
ENGINE/CYLINDER HEAD/CYLINDER HEAD
COVER(S) - REMOVAL).
(44) Disconnect the 3 injector harness connectors
at the rocker housing. Disconnect the wire harnesses
from the injectors.
(45) Remove the rear engine lift bracket.
(46) Remove cylinder #4, #5, and #6 intake and
exhaust rocker arms, pedestals, and push tubes. Note
the original location for re-assembly.
(47) Loosen #6 fuel line shield bolts and rotate
shield out of the way.
(48)
Remove cylinder #5 and #6 high pressure fuel
lines. Remove the fuel connector tube nut and fuel con-
nector tube. 46. Remove cylinder #5 and #6 fuel injector.
(49) Remove rocker housing.
(50) Remove two cylinder head bolts in location 4
and 12 according to the diagram below and install
Tool # 9009 (Fig. 3).(51) Loosen but do not remove engine mount
through bolts and nuts.
(52) Disconnect hood support struts and position
hood out of the way.
(53) Attach a chain with two hooks to the engine
lift brackets.
(54) While keeping engine level, lift straight up
out of the mounts.
(55) Rotate nose of engine upward and pull out of
chassis.
REMOVALÐCRANKCASE BREATHER
(1) Remove the oil fill cap.
(2) Remove the breather cover bolts (Fig. 4).
(3) Remove breather cover.
(4) Disconnect breather tube and lube oil drain
tube from breather.
(5) Remove breather mounting bolts.
(6) Remove breather from cylinder head cover.
INSTALLATION
INSTALLATIONÐENGINE
(1) Remove cylinder head bolts in locations 4 and
12 according to the diagram below. Install special
Tool 9009.Fig. 3 ENGINE LIFT BRACKET
1 - Head bolt
2 - Engine Lift Bracket
3 - Head Bolt
Fig. 4 Crankcase Breather Vapor Canister
1 - BREATHER COVER BOLT
2 - BREATHER COVER
3 - BREATHER TUBE
4 - ROCKER COVER
5 - BREATHER TUBE MOUNTING BRACKET
6 - LUBE OIL DRAIN TUBE
7 - O-RING
8 - BREATHER
9- BREATHER MOUNTING BOLT
DRENGINE 5.9L DIESEL 9 - 291
ENGINE 5.9L DIESEL (Continued)

(10) Remove ignition switch mounting screw.
(11) Using a small screwdriver, push on locking
tab and remove switch from steering column.
INSTALLATION
The ignition key must be in the key cylinder for
cylinder removal. The key cylinder must be removed
first before installing ignition switch.
(1) Before installing ignition switch, rotate the slot
in the switch to the ON position.
(2) Connect the electrical connector to rear of the
ignition switch. Make sure that locking tabs are fully
seated into wiring connector.(3) Position switch to column and install the
mounting screw. Tighten screw to 3 N´m (26 in. lbs.).
(4) Install the tilt lever bracket mounting screws.
Tighten screws to 4.5 N´m (40 in. lbs.).
(5) If the column is non-tilt install the bracket.
Tighten screws to 4.5 N´m (40 in. lbs.) (Fig. 10)
(6) Position the wire retainer into the tilt lever
bracket.
(7) Reconnect the lower clockspring connectors.
(8) Install the key cylinder.
(9) Install steering column upper and lower
shrouds.
(10) Enable the airbag system. (Refer to 8 - ELEC-
TRICAL/RESTRAINTS/DRIVER AIRBAG - INSTAL-
LATION).
KEY-IN IGNITION SWITCH
DESCRIPTION
The key-in ignition switch is integral to the igni-
tion switch, which is mounted on the left side of the
steering column. It closes a path to ground for the
Central Timer Module (CTM) when the ignition key
is inserted in the ignition key cylinder and the driver
door ajar switch is closed (driver door is open). The
key-in ignition switch opens the ground path when
the key is removed from the ignition key cylinder.
The ground path is also opened when the driver door
ajar switch is open (driver door is closed).
The key-in ignition switch cannot be repaired and,
if faulty or damaged, the entire ignition switch must
be replaced, (Refer to 19 - STEERING/COLUMN/IG-
NITION SWITCH - REMOVAL).
DIAGNOSIS AND TESTING - IGNITION SWITCH
AND KEY LOCK CYLINDER
ELECTRICAL DIAGNOSIS
For ignition switch electrical schematics, refer to
Ignition Switch in the appropriate section of Electri-
cal Wiring Diagrams.
MECHANICAL DIAGNOSIS (KEY DIFFICULT TO
ROTATE)
(Refer to 19 - STEERING/COLUMN/IGNITION
SWITCH - DIAGNOSIS AND TESTING).
Fig. 10 IGNITION SWITCH WITHOUT TILT
1 - Ignition Switch Mounting Screws
2 - Non-Tilt Mounitng Bracket Screws
Fig. 11 IGNITION SWITCH
1 - Ignition Switch
2 - Ignition Switch Mounting Screws
DRCOLUMN 19 - 11
IGNITION SWITCH (Continued)

AUTOMATIC TRANSMISSION - 46RE
TABLE OF CONTENTS
page page
AUTOMATIC TRANSMISSION - 46RE
DESCRIPTION........................131
OPERATION..........................133
DIAGNOSIS AND TESTING
DIAGNOSIS AND TESTING - AUTOMATIC
TRANSMISSION.....................139
DIAGNOSIS AND TESTING - PRELIMINARY. . 139
DIAGNOSIS AND TESTING - ROAD
TESTING...........................139
DIAGNOSIS AND TESTING - HYDRAULIC
PRESSURE TEST....................140
DIAGNOSIS AND TESTING - AIR TESTING
TRANSMISSION CLUTCH AND BAND
OPERATION........................143
DIAGNOSIS AND TESTING - CONVERTER
HOUSING FLUID LEAK................143
DIAGNOSIS AND TESTING - DIAGNOSIS
CHARTS...........................144
STANDARD PROCEDURE - ALUMINUM
THREAD REPAIR.....................156
REMOVAL............................156
DISASSEMBLY........................158
CLEANING...........................164
INSPECTION.........................165
ASSEMBLY...........................165
INSTALLATION........................173
SCHEMATICS AND DIAGRAMS
HYDRAULIC SCHEMATICS.............175
SPECIFICATIONS
TRANSMISSION.....................187
SPECIAL TOOLS
RE TRANSMISSION..................189
ACCUMULATOR
DESCRIPTION........................191
OPERATION..........................192
INSPECTION.........................192
BANDS
DESCRIPTION........................193
OPERATION..........................193
ADJUSTMENTS
ADJUSTMENT - BANDS...............193
BRAKE TRANSMISSION SHIFT INTERLOCK
SYSTEM
DESCRIPTION........................194
OPERATION..........................194
DIAGNOSIS AND TESTING - BRAKE
TRANSMISSION SHIFT INTERLOCK......195
ADJUSTMENTS - BRAKE TRANSMISSION
SHIFT INTERLOCK...................195ELECTRONIC GOVERNOR
DESCRIPTION........................196
OPERATION..........................196
REMOVAL............................198
INSTALLATION........................199
EXTENSION HOUSING BUSHING
REMOVAL............................200
INSTALLATION........................200
EXTENSION HOUSING SEAL
REMOVAL............................200
INSTALLATION........................200
FLUID AND FILTER
DIAGNOSIS AND TESTING
DIAGNOSIS AND TESTING - EFFECTS OF
INCORRECT FLUID LEVEL.............201
DIAGNOSIS AND TESTING - CAUSES OF
BURNT FLUID.......................201
DIAGNOSIS AND TESTING - FLUID
CONTAMINATION....................201
STANDARD PROCEDURE
STANDARD PROCEDURE - FLUID LEVEL
CHECK............................201
STANDARD PROCEDURE - FLUID AND
FILTER REPLACEMENT...............203
STANDARD PROCEDURE - TRANSMISSION
FILL...............................203
FRONT CLUTCH
DESCRIPTION........................204
OPERATION..........................204
DISASSEMBLY........................205
INSPECTION.........................206
ASSEMBLY...........................206
FRONT SERVO
DESCRIPTION........................207
OPERATION..........................208
DISASSEMBLY........................208
CLEANING...........................208
INSPECTION.........................208
ASSEMBLY...........................209
GEARSHIFT CABLE
DIAGNOSIS AND TESTING - GEARSHIFT
CABLE.............................209
REMOVAL............................209
INSTALLATION........................210
ADJUSTMENTS
GEARSHIFT CABLE...................211
OIL PUMP
DESCRIPTION........................212
OPERATION..........................212
DISASSEMBLY........................212
DRAUTOMATIC TRANSMISSION - 46RE 21 - 129

TORQUE CONVERTER LEAK POINTS
Possible sources of converter leaks are:
²Leaks at the weld joint around the outside diam-
eter weld.
²Leaks at the converter hub weld.
CONVERTER HOUSING AREA LEAK CORRECTION
(1) Remove converter.
(2) Tighten front band adjusting screw until band
is tight around front clutch retainer. This prevents
front/rear clutches from coming out when oil pump is
removed.
(3) Remove oil pump and remove pump seal.
Inspect pump housing drainback and vent holes for
obstructions. Clear holes with solvent and wire.
(4) Inspect pump bushing and converter hub. If
bushing is scored, replace it. If converter hub is
scored, either polish it with crocus cloth or replace
converter.
(5) Install new pump seal, O-ring, and gasket.
Replace oil pump if cracked, porous or damaged in
any way. Be sure to loosen the front band before
installing the oil pump, damage to the oil pump seal
may occur if the band is still tightened to the front
clutch retainer.
(6) Loosen kickdown lever pin access plug three
turns. Apply LoctiteŸ 592, or PermatextNo.2toplug threads and tighten plug to 17 N´m (150 in. lbs.)
torque.
(7) Adjust front band.
(8) Lubricate pump seal and converter hub with
transmission fluid or petroleum jelly and install con-
verter.
(9) Install transmission and converter housing
dust shield.
(10) Lower vehicle.
DIAGNOSIS AND TESTING - DIAGNOSIS
CHARTS
The diagnosis charts provide additional reference
when diagnosing a transmission fault. The charts
provide general information on a variety of transmis-
sion, overdrive unit and converter clutch fault condi-
tions.
The hydraulic flow charts in the Schematics and
Diagrams section of this group, outline fluid flow and
hydraulic circuitry. Circuit operation is provided for
PARK, NEUTRAL, FIRST, SECOND, THIRD,
FOURTH, MANUAL FIRST, MANUAL SECOND,
and REVERSE gear ranges. Normal working pres-
sures are also supplied for each of the gear ranges.
21 - 144 AUTOMATIC TRANSMISSION - 46REDR
AUTOMATIC TRANSMISSION - 46RE (Continued)

SCHEMATICS AND DIAGRAMS
HYDRAULIC SCHEMATICS
HYDRAULIC FLOW IN PARK
DRAUTOMATIC TRANSMISSION - 46RE 21 - 175
AUTOMATIC TRANSMISSION - 46RE (Continued)

OPERATION
NOTE: Refer to the Hydraulic Schematics for a visual
aid in determining valve location, operation and design.
CHECK BALLS
CHECK BALL
NUMBERDESCRIPTION
1 Allows either the manual valve to put line pressure on the 1-2 governor plug or the KD Valve to
put WOT line pressure on the 1-2 governor plug.
2 Allows either the manual valve to put line pressure on the 2-3 governor plug or the KD Valve to
put WOT line pressure on the 2-3 governor plug.
3 Allows either the Reverse circuit or the 3rd gear circuit to pressurize the front clutch.
4 Allows either the Manual Low circuit from the Manual Valve or the Reverse from the Manual
Valve circuit to pressurize the rear servo.
5 Directs line pressure to the spring end of the 2-3 shift valve in either Manual Low or Manual
2nd, forcing the downshift to 2nd gear regardless of governor pressure.
6 Provides a by-pass around the front servo orifice so that the servo can release quickly.
7 Provides a by-pass around the rear clutch orifice so that the clutch can release quickly.
8 Directs reverse line pressure through an orifice to the throttle valve eliminating the extra
leakage and insuring that Reverse line pressure pressure will be sufficient.
9 Provides a by-pass around the rear servo orifice so that the servo can release quickly.
10 Allows the lockup clutch to used at WOT in 3rd gear by putting line pressure from the 3-4
Timing Valve on the interlock area of the 2-3 shift valve, thereby preventing a 3rd gear Lock-up
to 2nd gear kickdown.
REGULATOR VALVE
The pressure regulator valve is needed to control
the hydraulic pressure within the system and reduce
the amount of heat produced in the fluid. The pres-
sure regulator valve is located in the valve body near
the manual valve. The pressure regulator valve train
controls the maximum pressure in the lines by
metering the dumping of fluid back into the sump.
Regulated pressure is referred to as ªline pressure.º
The regulator valve (Fig. 271) has a spring on one
end that pushes the valve to the left. This closes a
dump (vent) that is used to lower pressure. The closing
of the dump will cause the oil pressure to increase. Oil
pressure on the opposite end of the valve pushes the
valve to the right, opening the dump and lowering oil
pressure. The result is spring pressure working against
oil pressure to maintain the oil at specific pressures.
With the engine running, fluid flows from the pump to
the pressure regulator valve, manual valve, and the
interconnected circuits. As fluid is sent through pas-
sages to the regulator valve, the pressure pushes the
valve to the right against the large spring. It is also
sent to the reaction areas on the left side of the throttle
pressure plug and the line pressure plug. With the gearselector in the PARK position, fluid recirculates through
the regulator and manual valves back to the sump.
Meanwhile, the torque converter is filled slowly. In
all other gear positions (Fig. 272), fluid flows
between two right side lands to the switch valve and
torque converter. At low pump speeds, the flow is
controlled by the pressure valve groove to reduce
pressure to the torque converter. After the torque
converter and switch valve fill with fluid, the switch
valve becomes the controlling metering device for
torque converter pressure. The regulator valve then
begins to control the line pressure for the other
transmission circuits. The balance of the fluid pres-
sure pushing the valve to the right and the spring
pressure pushing to the left determines the size of
the metering passage at land #2 (land #1 being at
the far right of the valve in the diagram). As fluid
leaks past the land, it moves into a groove connected
to the filter or sump. As the land meters the fluid to
the sump, it causes the pressure to reduce and the
spring decreases the size of the metering passage.
When the size of the metering passage is reduced,
the pressure rises again and the size of the land is
increased again. Pressure is regulated by this con-
stant balance of hydraulic and spring pressure.
21 - 272 AUTOMATIC TRANSMISSION - 46REDR
VALVE BODY (Continued)

AUTOMATIC TRANSMISSION - 48RE
TABLE OF CONTENTS
page page
AUTOMATIC TRANSMISSION - 48RE
DESCRIPTION........................312
OPERATION..........................314
DIAGNOSIS AND TESTING
DIAGNOSIS AND TESTING - AUTOMATIC
TRANSMISSION.....................320
DIAGNOSIS AND TESTING - PRELIMINARY. . 320
DIAGNOSIS AND TESTING - ROAD
TESTING...........................320
DIAGNOSIS AND TESTING - HYDRAULIC
PRESSURE TEST....................321
DIAGNOSIS AND TESTING - AIR TESTING
TRANSMISSION CLUTCH AND BAND
OPERATION........................324
DIAGNOSIS AND TESTING - CONVERTER
HOUSING FLUID LEAK................324
DIAGNOSIS AND TESTING - DIAGNOSIS
CHARTS...........................325
STANDARD PROCEDURE - ALUMINUM
THREAD REPAIR.....................337
REMOVAL............................337
DISASSEMBLY........................339
CLEANING...........................345
INSPECTION.........................345
ASSEMBLY...........................346
INSTALLATION........................353
SCHEMATICS AND DIAGRAMS
HYDRAULIC SCHEMATICS.............355
SPECIFICATIONS
TRANSMISSION.....................368
SPECIAL TOOLS
RE TRANSMISSION..................370
ACCUMULATOR
DESCRIPTION........................372
OPERATION..........................373
INSPECTION.........................373
BANDS
DESCRIPTION........................373
OPERATION..........................374
ADJUSTMENTS
ADJUSTMENT - BANDS...............374
BRAKE TRANSMISSION SHIFT INTERLOCK
SYSTEM
DESCRIPTION........................375
OPERATION..........................375
DIAGNOSIS AND TESTING - BRAKE
TRANSMISSION SHIFT INTERLOCK......375
ADJUSTMENTS - BRAKE TRANSMISSION
SHIFT INTERLOCK...................376ELECTRONIC GOVERNOR
DESCRIPTION........................376
OPERATION..........................377
REMOVAL............................378
INSTALLATION........................379
EXTENSION HOUSING SEAL
REMOVAL............................380
INSTALLATION........................380
FLUID AND FILTER
DIAGNOSIS AND TESTING
DIAGNOSIS AND TESTING - EFFECTS OF
INCORRECT FLUID LEVEL.............381
DIAGNOSIS AND TESTING - CAUSES OF
BURNT FLUID.......................381
DIAGNOSIS AND TESTING - FLUID
CONTAMINATION....................381
STANDARD PROCEDURE
STANDARD PROCEDURE - FLUID LEVEL
CHECK............................381
STANDARD PROCEDURE - FLUID AND
FILTER REPLACEMENT...............383
STANDARD PROCEDURE - TRANSMISSION
FILL...............................383
FRONT CLUTCH
DESCRIPTION........................384
OPERATION..........................384
DISASSEMBLY........................384
INSPECTION.........................385
ASSEMBLY...........................386
FRONT SERVO
DESCRIPTION........................387
OPERATION..........................387
DISASSEMBLY........................388
CLEANING...........................388
INSPECTION.........................388
ASSEMBLY...........................388
GEARSHIFT CABLE
DIAGNOSIS AND TESTING - GEARSHIFT
CABLE.............................389
REMOVAL............................389
INSTALLATION........................390
ADJUSTMENTS
GEARSHIFT CABLE..................391
OIL PUMP
DESCRIPTION........................392
OPERATION..........................392
DISASSEMBLY........................393
CLEANING...........................393
INSPECTION.........................393
ASSEMBLY...........................393
21 - 310 AUTOMATIC TRANSMISSION - 48REDR

TORQUE CONVERTER LEAK POINTS
Possible sources of converter leaks are:
²Leaks at the weld joint around the outside diam-
eter weld.
²Leaks at the converter hub weld.
CONVERTER HOUSING AREA LEAK CORRECTION
(1) Remove converter.
(2) Tighten front band adjusting screw until band
is tight around front clutch retainer. This prevents
front/rear clutches from coming out when oil pump is
removed.
(3) Remove oil pump and remove pump seal.
Inspect pump housing drainback and vent holes for
obstructions. Clear holes with solvent and wire.(4) Inspect pump bushing and converter hub. If
bushing is scored, replace it. If converter hub is
scored, either polish it with crocus cloth or replace
converter.
(5) Install new pump seal, O-ring, and gasket.
Replace oil pump if cracked, porous or damaged in
any way. Be sure to loosen the front band before
installing the oil pump, damage to the oil pump seal
may occur if the band is still tightened to the front
clutch retainer.
(6) Loosen kickdown lever pin access plug three
turns. Apply LoctiteŸ 592, or PermatextNo.2to
plug threads and tighten plug to 17 N´m (150 in. lbs.)
torque.
(7) Adjust front band.
(8) Lubricate pump seal and converter hub with
transmission fluid or petroleum jelly and install con-
verter.
(9) Install transmission and converter housing
dust shield.
(10) Lower vehicle.
DIAGNOSIS AND TESTING - DIAGNOSIS
CHARTS
The diagnosis charts provide additional reference
when diagnosing a transmission fault. The charts
provide general information on a variety of transmis-
sion, overdrive unit and converter clutch fault condi-
tions.
The hydraulic flow charts in the Schematics and
Diagrams section of this group, outline fluid flow and
hydraulic circuitry. Circuit operation is provided for
PARK, NEUTRAL, FIRST, SECOND, THIRD,
FOURTH, MANUAL FIRST, MANUAL SECOND,
and REVERSE gear ranges. Normal working pres-
sures are also supplied for each of the gear ranges.
Fig. 11 Converter Housing Leak Paths
1 - PUMP SEAL
2 - PUMP VENT
3 - PUMP BOLT
4 - PUMP GASKET
5 - CONVERTER HOUSING
6 - CONVERTER
7 - REAR MAIN SEAL LEAK
DRAUTOMATIC TRANSMISSION - 48RE 21 - 325
AUTOMATIC TRANSMISSION - 48RE (Continued)

SCHEMATICS AND DIAGRAMS
HYDRAULIC SCHEMATICS
HYDRAULIC FLOW IN PARK
DRAUTOMATIC TRANSMISSION - 48RE 21 - 355
AUTOMATIC TRANSMISSION - 48RE (Continued)

OPERATION
NOTE: Refer to the Hydraulic Schematics for a
visual aid in determining valve location, operation
and design.
CHECK BALLS
CHECK BALL
NUMBERDESCRIPTION
1 Allows either the manual valve to put line pressure on the 1-2 governor plug or the KD Valve to
put WOT line pressure on the 1-2 governor plug.
3 Allows either the Reverse circuit or the 3rd gear circuit to pressurize the front clutch.
4 Allows either the Manual Low circuit from the Manual Valve or the Reverse from the Manual
Valve circuit to pressurize the rear servo.
5 Directs line pressure to the spring end of the 2-3 shift valve in either Manual Low or Manual
2nd, forcing the downshift to 2nd gear regardless of governor pressure.
6 Provides a by-pass around the front servo orifice so that the servo can release quickly.
7 Provides a by-pass around the rear clutch orifice so that the clutch can release quickly.
8 Directs reverse line pressure through an orifice to the throttle valve eliminating the extra
leakage and insuring that Reverse line pressure pressure will be sufficient.
9 Provides a by-pass around the rear servo orifice so that the servo can release quickly.
10 Allows the lockup clutch to used at WOT in 3rd gear by putting line pressure from the 3-4
Timing Valve on the interlock area of the 2-3 shift valve, thereby preventing a 3rd gear Lock-up
to 2nd gear kickdown.
REGULATOR VALVE
The pressure regulator valve is needed to control
the hydraulic pressure within the system and reduce
the amount of heat produced in the fluid. The pres-
sure regulator valve is located in the valve body near
the manual valve. The pressure regulator valve train
controls the maximum pressure in the lines by
metering the dumping of fluid back into the sump.
Regulated pressure is referred to as ªline pressure.º
The regulator valve (Fig. 255) has a spring on one
end that pushes the valve to the left. This closes a
dump (vent) that is used to lower pressure. The clos-
ing of the dump will cause the oil pressure to
increase. Oil pressure on the opposite end of the
valve pushes the valve to the right, opening the
dump and lowering oil pressure. The result is spring
pressure working against oil pressure to maintain
the oil at specific pressures. With the engine run-
ning, fluid flows from the pump to the pressure reg-
ulator valve, manual valve, and the interconnected
circuits. As fluid is sent through passages to the reg-
ulator valve, the pressure pushes the valve to the
right against the large spring. It is also sent to the
reaction areas on the left side of the throttle pressure
plug and the line pressure plug. With the gear selec-tor in the PARK position, fluid recirculates through
the regulator and manual valves back to the sump.
Meanwhile, the torque converter is filled slowly. In
all other gear positions (Fig. 256), fluid flows
between two right side lands to the switch valve and
torque converter. At low pump speeds, the flow is
controlled by the pressure valve groove to reduce
pressure to the torque converter. After the torque
converter and switch valve fill with fluid, the switch
valve becomes the controlling metering device for
torque converter pressure. The regulator valve then
begins to control the line pressure for the other
transmission circuits. The balance of the fluid pres-
sure pushing the valve to the right and the spring
pressure pushing to the left determines the size of
the metering passage at land #2 (land #1 being at
the far right of the valve in the diagram). As fluid
leaks past the land, it moves into a groove connected
to the filter or sump. As the land meters the fluid to
the sump, it causes the pressure to reduce and the
spring decreases the size of the metering passage.
When the size of the metering passage is reduced,
the pressure rises again and the size of the land is
increased again. Pressure is regulated by this con-
stant balance of hydraulic and spring pressure.
21 - 450 AUTOMATIC TRANSMISSION - 48REDR
VALVE BODY (Continued)