1996 CHRYSLER VOYAGER engine

Fig. 7 Engine Compartment SplicesÐ3.3L, 3.8L, LHD
NS/GS8W - 95 SPLICE LOCATIONS 8W - 95 - 9
DESCRIPTION AND OPERATION (Continued)

SPLICE LOCATIONS (RHD)
Splice Number Location Fig.
BS01 Near Split for Tail Lamps 11
BS02 Near Fuel Tank T/O 11
BS03 Near I/P Bulkhead
Connector T/O8
BS05 Near Left Door T/O N/S
BS06 Near Left Door T/O N/S
BS08 Near Clutch Interlock switch
T/O8
BS16 Near RT Park Lamp T/O 1
BS17 Near Split for Tail Lamps 11
BS31 Near Left Headlamp
Leveling Motor T/O1
CS01 Above Right Rear Door 10
CS02 Above Right Rear Door 10
CS03 Right B-Pillar 10
CS04 Right B-Pillar 10
DS01 Near LT Power WDO T/O 9
ES01 In TCM T/O 6
ES02 (2.0L) Near Camshaft Position
Sensor T/O3
ES02 (2.4L) In Throttle Body T/O 4
ES02 (3.3L, 3.8L) Near Transmission T/O 5
ES03 (2.0L) Near Distributor Coil T/O 2
ES03 (2.4L) Near PDC T/O 4
ES03 (3.3L, 3.8L) Near Body Ground T/O 6
ES05 (2.4L) Near Knock Sensor T/O 4
ES05 (3.3L, 3.8L) Near Transmission T/O 5
ES06 Near Transmission T/O N/S
ES07 (2.0L) Near Engine Ground T/O 2
ES07 (2.4L) Near Body Ground T/O 4
ES07 (3.3L, 3.8L) Near Battery Negative
Terminal T/O6
ES08 (2.4L) Near Transmission T/O 4,6
ES09 (2.0L) Near Battery Positive
TerminalN/S
ES09 (2.4L) Near Battery Positive
Terminal4
ES09 (3.3L, 3.8L) Near Battery Positive
Terminal6
ES10 (2.4L) Near Knock Sensor T/O 6
ES10 (3.3L, 3.8L) Near Transmission T/O 5
ES11 (2.0L) Near Battery Positive
TerminalN/SSplice Number Location Fig.
ES11 (2.4L) Near Battery Negative
Terminal T/O4
ES11 (3.3L, 3.8L) Near Battery Negative
Terminal5,6
ES12 (2.0L) Near Engine Ground T/O 2
ES12 (2.4L) Near Throttle Body T/O 4
ES12 (3.3L, 3.8L) Near Battery Positive
Terminal T/O6
ES13 (2.4L) Near Generator T/O 4
ES13 (3.3L, 3.8L) Near Battery Negative
Terminal4
ES14 (2.4L) Near Generator Field T/O 4
ES14 (3.3L, 3.8L) Near Battery Negative
Terminal4
ES17 (2.0L) Near Camshaft Position
Sensor T/O3
ES17 (2.4L) Near Engine Ground T/O 4
ES17 (3.3L, 3,8L) Near Battery Negative
Terminal4
ES18 (2.0L) Near Camshaft Position
Sensor T/O3
ES18 (2.4L) Near Engine Ground T/O 4
ES18 (3.3L, 3.8L) Near Engine Ground T/O 6
ES21 (2.0L) Near Body Ground T/O N/S
ES21 (2.4L) Near Back Up Lamp Switch
T/O4
ES21 (3.3L, 3.8L) Near A/C Clutch T/O 5
ES23 (2.0L) Near Radiator Fan T/O N/S
ES23 (2.4L) Near Radiator Fan T/O 4
ES23 (3.3L, 3.8L) Near Body Ground T/O 6
ES24 Near Transmission T/O 4,6
ES24 (3.3L, 3.8L) Near Transmission T/O 5
ES99 (2.0L) Near Knock Sensor T/O 2
FS01 (2.4L) Near ECT Sensor T/O N/S
FS01 (3.3L, 3.8L) Near Injector #5 T/O N/S
FS02 (2.4L) Near Inj #2 T/O N/S
FS02 (3.3L, 3.8L) Between Inj's 4 and 6 N/S
FS03 (2.4L) Between Inj #2 and #3 N/S
PS01 Near Steering Column T/O 7
PS02 Near Steering Column T/O 7
RFS01 Near Radiator Fan #2 N/S
RFS02 Near Radiator Fan #1 N/S
NS/GS8W - 95 SPLICE LOCATIONS 8W - 95 - 15
DESCRIPTION AND OPERATION (Continued)

Fig. 2 Engine SplicesÐ2.0L, RHD
NS/GS8W - 95 SPLICE LOCATIONS 8W - 95 - 17
DESCRIPTION AND OPERATION (Continued)

Fig. 3 Engine SplicesÐ2.0L, RHD
8W - 95 - 18 8W - 95 SPLICE LOCATIONSNS/GS
DESCRIPTION AND OPERATION (Continued)

Fig. 4 Engine SplicesÐ2.4L, RHD
NS/GS8W - 95 SPLICE LOCATIONS 8W - 95 - 19
DESCRIPTION AND OPERATION (Continued)

Fig. 5 Engine SplicesÐ3.3L, 3.8L, RHD
8W - 95 - 20 8W - 95 SPLICE LOCATIONSNS/GS
DESCRIPTION AND OPERATION (Continued)

Fig. 6 Engine Compartment SplicesÐ3.3L, 3.8L, RHD
NS/GS8W - 95 SPLICE LOCATIONS 8W - 95 - 21
DESCRIPTION AND OPERATION (Continued)

ENGINE
CONTENTS
page page
2.4L ENGINE............................ 14
3.0L ENGINE............................ 61
3.3/3.8L ENGINE........................ 93ENGINE DIAGNOSIS....................... 7
STANDARD SERVICE PROCEDURES.......... 1
STANDARD SERVICE PROCEDURES
INDEX
page page
GENERAL INFORMATION
CRANKSHAFT SPROCKET BOLT ACCESS
PLUG................................ 2
ENGINE CORE PLUGS.................... 2
ENGINE OIL SERVICE..................... 5
ENGINE OIL............................. 5
ENGINE PERFORMANCE.................. 2FORM-IN-PLACE GASKETS................. 1
HONING CYLINDER BORES................ 3
HYDROSTATIC LOCKED ENGINE............ 5
MEASURING MAIN BEARING AND
CONNECTING ROD BEARING
CLEARANCES......................... 3
REPAIR OF DAMAGED OR WORN THREADS . . . 4
GENERAL INFORMATION
FORM-IN-PLACE GASKETS
There are numerous places where form-in-place
gaskets are used on the engine. Care must be taken
when applying form-in-place gaskets.Do not use
form-in-place gasket material unless specified.
Bead size, continuity, and location are of great impor-
tance. Too thin a bead can result in leakage while too
much can result in spill-over, a continuous bead of
the proper width is essential to obtain a leak-free
joint.
Two types of form-in-place gasket materials are
used in the engine.MopartSilicone Rubber Adhe-
sive Sealant andMopartGasket Maker, (anaerobic)
each have different properties and cannot be used
interchangeably.
CAUTION: Silicone sealer and anaerobic sealers
each will inhibit the cure of the other and care
should be taken to keep usages separated as much
as possible.
MOPARTSILICONE RUBBER ADHESIVE
SEALANT
MopartSilicone Rubber Adhesive Sealant or
equivalent, normally black in color, is available in
three ounce tubes. Moisture in the air causes the
MopartSilicone Rubber Adhesive Sealant material
to cure. This material is normally used on flexible
metal flanges. It has a shelf life of one year and will
not properly cure if over age. Always inspect the
package for the expiration date before use.
MOPARTGASKET MAKER
MopartGasket Maker is an anaerobic type gasket
material normally red in color. The material cures in
the absence of air when squeezed between two metal-
lic surfaces. It will not cure if left in the uncovered
tube. It is normally red in color. The anaerobic mate-
rial is for use between two machined surfaces. Do not
use on flexible metal flanges.
MOPARTTORQUE CURE GASKET MAKER
MopartTorque Cure Gasket Maker is a unique
anaerobic type gasket material to be usedONLY
between the bedplate and engine block. The material
cures in the absence of air when torqued between
two metallic surfaces. It will not cure if left in the
uncovered tube. This anaerobic material is specially
NSENGINE 9 - 1