1999 DODGE RAM battery location

STARTER RELAY CIRCUIT TEST
NOTE: Perform STARTER RELAY TEST before testing starter relay
circuit.
1) Ensure battery is fully charged. Remove starter relay from
Power Distribution Center (PDC). Refer to PDC cover for proper relay
location. PDC is located in engine compartment.
2) Connect a jumper wire between starter relay socket
terminal No. 30 and terminal No. 87. See Fig. 1 or 2. If engine does
not crank, go to SOLENOID TEST under BENCH TESTING. If engine cranks,
go to next step.
3) Turn ignition on. Check voltage between ground and starter
relay socket terminal No. 30. If battery voltage is not present,
repair open in circuit between starter relay socket and battery. If
battery voltage is present, go to next step.
4) Check voltage between ground and starter relay socket
terminal No. 86 with ignition switch in START position and clutch
pedal depressed (if equipped with M/T). If battery voltage is present,\
circuit is okay. Go to step 6) if equipped with M/T or step 7) if
equipped with A/T. If battery voltage is not present, repair open in
circuit between ignition switch and starter relay socket (A/T) or go
to next step (M/T).
5) Unplug wiring connector from clutch position switch
mounted on clutch pedal bracket. Connect jumper wire between clutch
position switch connector terminals. Recheck for voltage at starter
relay socket terminal No. 86 with ignition switch in START position.
If battery voltage is present, check clutch position switch adjustment
(if applicable). Adjust switch as necessary. If switch adjustment is
okay, check clutch position switch. See CLUTCH POSITION SWITCH TEST.
If battery voltage is not present, repair wiring between ignition
switch and starter relay socket as necessary.
6) On M/T models, connect voltmeter negative lead to starter
relay socket terminal No. 85 and positive lead to terminal No. 86.
Turn ignition switch to START position and depress clutch pedal. If
battery voltage is present, starter relay socket ground circuit is
good. Replace faulty starter relay. If battery voltage is not present,
repair ground wire circuit.
7) On A/T models, connect voltmeter negative lead to starter
relay socket terminal No. 85 and positive lead to terminal No. 86.
Ensure transmission gear selector is in Park or Neutral position.
Ground circuit runs through Park/Neutral Position (PNP) switch or
Transmission Range (TR) sensor on transmission. Turn ignition switch
to START position. If battery voltage is present, starter relay socket
ground circuit is good. Replace faulty starter relay.
8) If battery voltage is not present, check PNP switch or TR
sensor for loose or damaged connections. Also, check ground to PNP
switch or TR sensor. Repair as necessary. If connections and ground
are okay, check PNP switch or TR sensor. See PARK/NEUTRAL POSITION
(PNP) SWITCH & TRANSMISSION RANGE (TR) SENSOR TEST.
PARK/NEUTRAL POSITION (PNP) SWITCH & TRANSMISSION RANGE (TR)
SENSOR TEST
NOTE: Transmission Range (TR) sensor may be also known as
Park/Neutral Position (PNP) switch or Park/Neutral switch.
NOTE: The following test is for Caravan, Ram Van, Ram Wagon and
Voyager with 3-speed transmission. All other models are
equipped with a Transmission Range (TR) sensor. If TR sensor
or sensor circuit is defective, see appropriate NTC test in
appropriate SELF-DIAGNOSTICS article in ENGINE PERFORMANCE
section.

STE ER IN G C O LU M N S W IT C HES
1999 D odge P ic ku p R 1500
1999 ACCESSORIES & EQUIPMENT
CHRY - Steering Column Switches
Dakota, Durango & Ram Pickup
WARNING: Deactivate air bag system before performing any service
operation involving steering column components. See
appropriate AIR BAG RESTRAINT SYSTEMS article. DO NOT apply
electrical power to any component on steering column without
first disconnecting air bag module. Air bag may deploy. Wait
at least 2 minutes after disconnecting negative battery cable
before servicing air bag system. System reserve capacitor,
integral to ACM, maintains air bag system voltage for about 2
minutes after battery is disconnected. Servicing air bag
system before 2-minute period may cause accidental air bag
deployment and possible personal injury.
DESCRIPTION
Turn signal, hazard flasher, headlight beam selector,
headlight flash-to-pass, windshield wipe, pulse wipe and windshield
wash systems use a common switch assembly (multifunction switch)
mounted within upper steering column housing.
Ignition switch and lock cylinder are incorporated into an
assembly attached to side of steering column. Ignition switch assembly
can be serviced as a separate unit, but requires removal of lock
cylinder.
COMPONENT LOCATIONS
COMPONENT LOCATIONS








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Component Location
Combination Flasher Relay ........................... Junction Block
Horn ............................... In Right Front Corner Of Engine
Compartment
Horn Relay ............................ In Power Distribution Center
Junction Block ................. Under Left Side Of Instrument Panel
Power Distribution Center ...... In Left Side Of Engine Compartment,
On Left Inner Panel
Relay/Flasher Module ........ Under Right Side Of Instrument Panel,
Behind Glove Box









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TROUBLE SHOOTING
TURN SIGNAL AND HAZARD FLASHER SYSTEM
Bulbs Burn Out Rapidly
Check charging system. See appropriate GENERATORS &
REGULATORS article in STARTING & CHARGING SYSTEMS.
Hazard Flashers Inoperative
Blown fuse. Faulty hazard flasher. Open circuit in feed wire
to hazard switch. Faulty turn signal/hazard switch. Open or grounded
circuit in wiring to external lights.

Hazard Warning Lights Okay To Front Lights Only
Faulty external bulbs. Faulty contact in turn signal/hazard
switch. Open circuit between hazard switch and turn signal switch.
Open or grounded circuit in wiring to rear lights.
Hazard Warning Lights Okay To Rear Lights Only
Faulty external bulbs. Faulty contact in turn signal/hazard
switch. Open or grounded circuit in wiring to front lights.
Indicator Light Inoperative, External Lights Okay
Burned-out indicator bulb in instrument cluster. Faulty
contact. Open circuit.
Indicator Light Okay, External Lights Inoperative
Open circuit in wiring to external light(s).
Indicator Light Okay, External Lights Glow Dimly Or Do Not
Flash
Loose or corroded external light connections. Poor ground
circuit at external light(s).
Turn Signals Do Not Cancel After Turn
Broken canceling pawl on turn signal switch. Improperly
aligned canceling cam. Broken or loose canceling cam.
Turn Signals Inoperative (Both Sides)
Blown fuse. Faulty turn signal flasher. Loose bulkhead
connector. Loose or faulty rear wiring harness or terminals. Open
circuit to turn signal flasher. Open circuit in feed wire to turn
signal switch. Faulty switch connections. Open or grounded circuit in
wiring to external lights.
Turn Signal Inoperative (One Side)
Faulty external bulb. Poor ground at external light. Open
circuit in wiring to external light(s). Faulty turn signal/hazard
switch.
COMPONENT TESTS
CAUTION: When battery is disconnected, vehicle computer and memory
systems may lose memory data. Driveability problems may exist
until computer systems have completed a relearn cycle. See
COMPUTER RELEARN PROCEDURES article in GENERAL INFORMATION
before disconnecting battery.
NOTE: For additional testing procedures, see appropriate CRUISE
CONTROL SYSTEMS and WIPER/WASHER SYSTEMS articles.
NOTE: For component locations, see COMPONENT LOCATIONS.
HORN RELAY
1) Remove horn relay from Power Distribution Center (PDC).
Use label on PDC cover to identify and locate relay. Check continuity
between relay terminals No. 87A and 30. See Fig. 1. If continuity does
not exist, replace relay. If continuity exists, go to next step.
2) Check continuity between relay terminals No. 30 and 87. If
continuity exists, replace relay. If continuity does not exist, check
resistance between relay terminals No. 85 and 86. If resistance is not
70-80 ohms, replace relay. If resistance is 70-80 ohms, go to next
step.
3) Using jumper wires, connect positive battery voltage to

Transmission Overdrive Switch (A/T Models)
See TRANSMISSION under MISCELLANEOUS CONTROLS.
RELAYS & SOLENOIDS
RELAYS
A/C Clutch Relay
A/C clutch relay may also be referred to as A/C compressor
clutch relay. A/C clutch relay is located in power distribution center
at driver's side front corner of engine compartment, near battery. If
problem exists in A/C clutch relay or wiring circuit, a Diagnostic
Trouble Code (DTC) will be stored in Powertrain Control Module (PCM)\
.
See DTC P0645 in SELF-DIAGNOSTICS - JEEP, TRUCKS & RWD VANS article.
Auto Shutdown (ASD) Relay
ASD relay is located in power distribution center at driver's
side front corner of engine compartment, near battery. If problem
exists in ASD relay or wiring circuit, a Diagnostic Trouble Code (DTC)\
will be stored in Powertrain Control Module (PCM). See SELF-
DIAGNOSTICS - JEEP, TRUCKS & RWD VANS article.
Fuel Heater Relay
1) Fuel heater relay is located in Power Distribution Center
(PDC) next to left battery. Refer to PDC lid for relay location.
Remove relay and note terminal identification on relay. See Fig. 3.
2) Using ohmmeter, check resistance between terminals No. 85
and 86 on relay. Resistance should be 70-80 ohms. If resistance is
within specification, go to next step. If resistance is not within
specification, replace relay.
3) Using ohmmeter, ensure continuity exists between terminals
No. 30 and 87A on relay. If continuity exists, go to next step. If no
continuity exists, replace relay.
4) Using ohmmeter, ensure no continuity exists between
terminals No. 30 and 87 on relay. If no continuity exists, go to next
step. If continuity exists, replace relay.
5) Using jumper wires, connect terminal No. 85 to negative
side of 12-volt power source and terminal No. 86 to positive side of
12-volt power source. Using ohmmeter, ensure no continuity now exists
between terminals No. 30 and 87A on relay. If no continuity exists, go
to next step. If continuity exists, replace relay.
CAUTION: DO NOT allow ohmmeter leads to contact terminals No. 85 and
86 on relay when checking resistance.
6) Using ohmmeter, ensure continuity now exists between
terminals No. 30 and 87 on relay. If continuity exists, disconnect
jumper wires from relay. If no continuity exists, replace relay.
NOTE: For additional information on checking wiring circuit for
fuel heater relay, see TEST NTC-1: NO TROUBLE CODE TEST MENU
and TEST NS-SEL: NO START TEST SELECTION in SELF-DIAGNOSTICS
- JEEP, TRUCKS & RWD VANS article.

Fig. 3: Fuel Heater Relay Terminals
Courtesy of Chrysler Corp.
Intake Manifold Air Heater Relays
1) Intake manifold air heater relays may also be referred to
as intake air heater relays. Intake manifold air heater relays are
mounted on inner wheelwell, below driver's side battery. See Fig. 4.
2) Disconnect negative battery cables. Note location of
wiring on intake manifold air heater relays for reassembly reference.
Disconnect all electrical connectors and cables from intake manifold
air heater relays.
3) Connect ohmmeter between large terminals on intake
manifold air heater relay to check for continuity. Using jumper wires,
momentarily apply battery voltage to relay trigger wire terminals
(small wire terminals) at base of intake manifold air heater relay.
See Fig. 4 . Polarity is not important.
4) Intake manifold air heater relay should click and ohmmeter
should indicate continuity between large terminals when battery
voltage is applied to relay trigger wire terminals. If intake manifold
air heater relay operation is not as specified, replace intake
manifold air heater relay with bracket. Test remaining intake manifold
air heater relay. Remove ohmmeter. Reconnect all electrical connectors
and negative battery cables.
NOTE: For additional information on checking wiring circuit for
intake manifold air heater relay, see DTC P0380: INTAKE AIR
HEATER RELAY NO. 1 CONTROL CIRCUIT and DTC P0382: INTAKE AIR
HEATER RELAY NO. 2 CONTROL CIRCUIT tests in SELF-DIAGNOSTICS
- JEEP, TRUCKS & RWD VANS article.

FUEL DELIVERY
Fuel Filter/Water Separator
1) A restricted fuel filter/water separator may cause engine
starting problems, prevent engine from accelerating, low power or
White exhaust smoke.
2) When ignition is first turned on, WATER-IN-FUEL (WIF)
warning light should come on for 2 seconds to perform bulb and wiring
circuit test and then go off. WATER-IN-FUEL (WIF) warning light is
located on instrument panel, just below tachometer.
3) If WATER-IN-FUEL (WIF) warning light stays on, water
should be drained from fuel filter/water separator. To drain water
from fuel filter/water separator, ensure engine is not running. Place
drain pan below drain tube at fuel filter/water separator.
4) Rotate handle on drain valve forward, toward front of
vehicle to DRAIN position. Drain valve is located near top of fuel
filter/water separator.
5) If no water exists and a clean flow of diesel fuel exists,
rotate handle on drain valve back to CLOSE position. Go to next step.
If water exists, allow water to drain until clean flow of diesel fuel
exists. Rotate handle on drain valve back to CLOSE position. Go to
next step.
6) Verify fuel filter/water separator has been serviced
according to proper service schedule. See SERVICE & ADJUSTMENT
SPECIFICATIONS - TRUCKS article. Ensure pre-filter was cleaned when
fuel filter/water separator was serviced. Pre-filter is located at
bottom of fuel heater on driver's side of engine. No other testing
information is available from manufacturer.
Fuel Heater
1) Malfunctioning fuel heater may cause excessive wax build-
up in fuel filter/water separator during cold ambient temperatures.
Wax build-up may cause hard starting, prevent engine from
accelerating, low power, or Blue or White smoke.
2) Disconnect electrical connector at fuel heater. Fuel
heater is located in top of fuel filter housing. Using ohmmeter, check
resistance between electrical terminals on fuel heater.
3) Resistance should be about one ohm when fuel is cold, and
about 1000 ohms when fuel is warm. Replace fuel heater if resistance
is not within specification.
NOTE: Fuel heater receives battery voltage from fuel heater relay.
Fuel heater relay is located in Power Distribution Center
(PDC), next to left battery. Refer to PDC lid for relay
location. For testing of fuel heater relay, see RELAYS under
RELAYS & SOLENOIDS. Consult wiring diagram for wiring circuit
testing. See appropriate wiring diagram in WIRING DIAGRAMS
article.
Fuel Transfer Pump Preliminary Inspection
1) Check for restricted or leaking fuel supply line to fuel
transfer pump or fuel return line located on driver's side of engine.
Repair fuel supply line or fuel return line if restricted or leaking.
2) Check for fuel leaking from weep hole on housing of fuel
transfer pump. Replace fuel transfer pump if fuel is leaking from weep
hole. Check fuel transfer pump for output pressure, pressure drop,
supply restriction, and air leaks.
NOTE: Separate pressure tests are necessary because transfer pump
operates at 2 pressure cycles, depending on whether engine is
running or cranking.

Fuel Transfer Pump Output Pressure
1) Remove 2 existing filter plug fittings at top of fuel
filter housing. Install 2 spring-loaded one-way check valve fittings
at inlet and outlet port. Install Fuel Pressure Test Gauge (6828) to
inlet port fitting. Prevent engine from starting by removing fuel
injection pump relay. Relay is located in Power Distribution Center
(PDC) next to left battery. Relay location is notated on PDC lid.
2) Crank engine while observing fuel pressure test gauge.
Fuel pressure should be 5-7 psi (0.35-0.49 kg/cm

). Reinstall fuel
system relay to PDC. Start engine. Fuel pressure should be minimum of
10 psi (0.7 kg/cm

). Because fuel injection pump relay was removed, a
Diagnostic Trouble Code (DTC) may have been set. Use DRB scan tool to
erase DTC. Go to PRESSURE DROP test.
Pressure Drop
Turn engine off. Remove Fuel Pressure Test Gauge (6828) from
inlet port and attach to outlet port. Start engine and note fuel
pressure. Pressure should not be more than 5 psi (0.35 kg/cm

) less
than inlet port pressure in Fuel Transfer Pump Outlet Pressure test.
See FUEL TRANSFER PUMP OUTPUT PRESSURE test. If fuel pressure is not
to specification, replace fuel filter. Go to FUEL SUPPLY RESTRICTION
test.
NOTE: Following test requires use of DRB scan tool and Periphal
Expansion Port (PEP) module. Ensure transfer pump pressure is\
okay before performing following test.
Fuel Supply Restriction
1) Disconnect fuel supply line quick-connect fitting at left
rear side of engine compartment. After disconnecting fuel line,
plastic clip will remain attached to metal fuel line at engine. Remove
clip from metal line. Snap clip into fuel supply hose. Install Rubber
Adapter Hose (6631) into ends of disconnected fuel supply line.
2) Install transducer from PEP module to brass "T" fitting on
rubber adapter hose. Connect DRB scan tool to transducer. Start engine
and record vacuum reading with engine speed at wide open throttle.
3) If vacuum reading is less than 6 in. Hg, check for
restriction in fuel supply line or fuel tank module. Repair fuel
supply line or module for restrictions as necessary. Also check fuel
pump inlet filter at bottom of module for obstructions. Go to AIR LEAK
IN FUEL SUPPLY LINE test.
NOTE: Following test requires use of a 3-foot section of 1/4" I.D.
clear tubing and 1/8" fitting.
Air Leak In Fuel Supply Line
1) Locate 2 test port plug fittings at top of fuel filter
housing. Clean fitting area. Remove test port fitting at fuel inlet
side of housing toward rear of filter housing. Install 1/8" fitting
with 1/4" O.D. nipple in place of test port. Clamp clear tubing to
fitting nipple. Place other end of hose into clear container.
2) To put fuel transfer pump into a 25 second run mode, turn
ignition switch to CRANK position, then release back to RUN position
without starting engine. Wait for air to purge from empty hose before
checking whether air bubbles are present. If bubbles are present,
check for leaks in supply line to fuel tank. If supply line is not
leaking, remove fuel tank module. Remove filter at bottom of module.
Check for leaks between supply nipple at top of module and filter
opening at bottom of module. Replace module as necessary.
Overflow Valve
1) Clean area around overflow valve and fuel return line at
injection pump. Remove overflow valve from pump and banjo fitting.


E - T H EO RY/O PER ATIO N - R W D - G ASO LIN E

1999 D odge P ic ku p R 1500
1999 ENGINE PERFORMANCE
CHRY - Theory & Operation - Trucks & RWD Vans - Gasoline
Dakota, Durango, Ram Pickup, Ram Van, Ram Wagon
INTRODUCTION
This article covers the basic description and operation of
engine performance related systems and components. Read this article
before working on unfamiliar systems.
COMPUTERIZED ENGINE CONTROLS
POWERTRAIN CONTROL MODULE (PCM)
The PCM is a digital computer that controls ignition timing,
air/fuel ratio, fuel injector pulse width, ignition coil(s), spark
advance, emission control devices, cooling fan, charging system, idle
speed, cruise control (if equipped), fuel pump and tachometer. For PCM\
location, see PCM LOCATION. PCM uses data from various input sources
to control output devices in order to achieve optimum engine
performance for all operating conditions.
PCM has voltage converters that convert battery voltage to
regulated 5-volt output. The 5-volt output powers battery temperature
sensor, Camshaft Position (CMP) sensor on models equipped with
Distributorless Ignition System (DIS) or distributor on models without\
DIS, Crankshaft Position (CKP) sensor, Engine Coolant Temperature
(ECT) sensor, Intake Air Temperature (IAT) sensor, logic circuits,
Manifold Absolute Pressure (MAP) sensor, Throttle Position (TP) sens\
or
and Vehicle Speed Sensor (VSS) on some models.
PCM LOCATION









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Application Location
Dakota & Durango ................. Right Front Fender, Near Firewall
Ram Pickup, Ram Van & Ram Wagon .... On Firewall, Near Wiper Motor









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NOTE: Components are grouped into 2 categories. The first category,
INPUT DEVICES, includes components that control or produce
voltage signals monitored by the PCM. The second category,
OUTPUT SIGNALS, includes components controlled by the PCM
(this is accomplished by the PCM grounding individual
circuits).
INPUT DEVICES
Vehicles are equipped with different combinations of input
devices. Not all devices are used on all models. To determine
component location and input usage on a specific model, see
appropriate wiring diagram in WIRING DIAGRAMS article. Available input
signals include:
A/C Switch
Switch signals PCM that A/C has been selected. PCM then
activates A/C compressor clutch relay and maintains idle speed at a
preprogrammed RPM. This is done through control of Idle Air Control