light FORD WINDSTAR 2003 2.G Workshop Manual

•A slight deceleration of the vehicle
•The TRAC ACTIVE indicator light will illuminate
•If your foot is on the brake pedal, you will feel a vibration in the
pedal.
•If the driving condition is severe and your foot is not on the brake, the
brake pedal will move to apply higher brake forces. You may also hear
a whoosh of air from under the instrument panel during this severe
condition.
All these conditions are normal during AdvanceTrac
operation.
Do not alter or modify your vehicle’s suspension or steering; the
resulting changes to the vehicle’s handling can adversely affect
the AdvanceTrac
system. Also, do not install a stereo
loudspeaker near the front center console or under either front
seat. The speaker vibrations can adversely affect the
AdvanceTrac
sensors located in this area.
Aggressive driving in any road conditions can cause you to lose
control of your vehicle increasing the risk of severe personal
injury or property damage. The occurrence of an AdvanceTrac
event
is an indication that at least some of the tires have exceeded their
ability to grip the road; this may lead to an increased risk of loss of
vehicle control, vehicle rollover, personal injury and death. If you
experience a severe road event, SLOW DOWN.
STEERING
To prevent damage to the power steering system:
•Never hold the steering wheel at its furthest turning points (until it
stops) for more than a few seconds when the engine is running.
•Do not operate the vehicle with a low power steering pump fluid level
(below the MIN mark on the reservoir).
If the power steering system breaks down (or if the engine is turned
off), you can steer the vehicle manually, but it takes more effort.
If the steering wanders or pulls, check for:
•an underinflated tire
•uneven tire wear
•loose or worn suspension
components•loose or worn steering
components
•improper steering alignment
Driving
138

R (Reverse)
With the gearshift lever in R (Reverse), the vehicle will move backward.
Always come to a complete stop before shifting into and out of R
(Reverse).
N (Neutral)
With the gearshift lever in N (Neutral), the vehicle can be started and is
free to roll. Hold the brake pedal down while in this position.
(Overdrive)
The normal driving position for the best fuel economy. The transaxle
operates in gears one through four.
2 (Second)
This position allows for second gear only.
•Provides engine braking.
•Use to start-up on slippery roads.
•To return to
(Overdrive), move the gearshift lever into the
(Overdrive) position.
•Selecting 2 (Second) at higher speeds will cause the transaxle to
downshift to second gear at the appropriate vehicle speed.
1 (First)
•Provides maximum engine braking.
•Allows upshifts by moving gearshift lever.
•Will not downshift into 1 (First) at high speeds; allows for 1 (First)
when vehicle reaches slower speeds.
When parking, do not use the gearshift in place of the parking
brake. Always set the parking brake fully and make sure that the
gearshift is securely latched in Park (P). Turn off the ignition
whenever you leave your vehicle. Never leave your vehicle unattended
while it is running. If you do not take these precautions, your vehicle
may move unexpectedly and injure someone.
If your vehicle gets stuck in mud or snow
If your vehicle gets stuck in mud or snow, it may be rocked out by
shifting from forward and reverse gears, stopping between shifts in a
steady pattern. Press lightly on the accelerator in each gear.
If necessary, try turning the Traction Control
or AdvanceTrac
system
off. This will allow the wheels to spin, which may help to free your stuck
Driving
141

The RSS detects obstacles up to 2
meters (6 ft.) from the rear bumper
with a decreased coverage area at
the outer corners of the bumper,
(refer to the figures for approximate
zone coverage areas). As you move
closer to the obstacle, the rate of
the tone increases. When the
obstacle is less than 25.0 cm
(10 in.) away, the tone will sound
continuously. If the RSS detects a
stationary or receding object further
than 25.0 cm (10 in.) from the side
of the vehicle, the tone will sound
for only three seconds. Once the
system detects an object
approaching, the tone will sound
again.
The RSS automatically turns on
when the gear selector is placed in
R (Reverse) and the ignition is ON.
An RSS control on the instrument
panel allows the driver to turn the
RSS on and off. To turn the RSS off,
the ignition must be ON, and the
gear selector in R (Reverse). An
indicator light on the control will
illuminate when the system is turned off. If the indicator light illuminates
when the RSS is not turned off, it may indicate a failure in the RSS.
Keep the RSS sensors (located on the rear bumper/fascia) free
from snow, ice and large accumulations of dirt (do not clean the
sensors with sharp objects). If the sensors are covered, it will
affect the accuracy of the RSS.
If your vehicle sustains damage to the rear bumper/fascia, leaving
it misaligned or bent, the sensing zone may be altered causing
inaccurate measurement of obstacles or false alarms.
OFF
Driving
143

DRIVING THROUGH WATER
If driving through deep or standing water is unavoidable, proceed very
slowly especially if the depth is not known. Never drive through water
that is higher than the bottom of the hubs (for trucks) or the bottom of
the wheel rims (for cars). Traction or brake capability may be limited
and your vehicle may stall. Water may also enter your engine’s air intake
and severely damage your engine.
Once through the water, always dry the brakes by moving your vehicle
slowly while applying light pressure on the brake pedal. Wet brakes do
not stop the vehicle as quickly as dry brakes.Driving through deep
water where the transmission vent tube is submerged may allow
water into the transmission and cause internal transmission
damage.
VEHICLE LOADING
Before loading a vehicle, familiarize yourself with the following terms:
•Base Curb Weight:Weight of the vehicle including any standard
equipment, fluids, lubricants, etc. It does not include occupants or
aftermarket equipment.
•Payload:Combined maximum allowable weight of cargo, occupants
and optional equipment. The payload equals the gross vehicle weight
rating minus base curb weight.
•GVW (Gross Vehicle Weight):Base curb weight plus payload
weight.
•GVWR (Gross Vehicle Weight Rating):Maximum allowable total
weight of the base vehicle, occupants, optional equipment and cargo.
The GVWR is specific to each vehicle and is listed on the Safety
Certification Label on the driver’s door pillar.
•GAWR (Gross Axle Weight Rating):Carrying capacity for each axle
system. The GAWR is specific to each vehicle and is listed on the
Safety Certification Label on the driver’s door pillar.
•GCW (Gross Combined Weight):The combined weight of the
towing vehicle (including occupants and cargo) and the loaded trailer.
•GCWR (Gross Combined Weight Rating):Maximum allowable
combined weight of towing vehicle (including occupants and cargo)
and the loaded trailer.
•Maximum Trailer Weight Rating:Maximum weight of a trailer the
vehicle is permitted to tow. The maximum trailer weight rating is
determined by subtracting the vehicle curb weight for each
Driving
144

Fuse/Relay
LocationFuse Amp
RatingPassenger Compartment Fuse Panel
Description
11 15A Electric brake controller, Brake shift interlock
solenoid, Rear electronic module
12 20A Center high-mounted stop lamp
13 10A Right rear turn lamp, Left stop lamp, Left
rear park lamp
14 10A Autolamp sensor, Transmission overdrive
cancel switch, Front electronic module,
Compass module, Electrochromatic mirror,
PSD overhead console switch
15 20A Console power point
16 10A Cluster
17 20A Cigar lighter/Powerpoint, Datalink connector
18 15A Quarter Window Motors, RH window switch
backlighting, RH lock switch backlighting,
Master control switch (LH) backlighting,
Radio, VCP, Liquid Crystal Display (LCD),
Front electronic module
19 10A Starter interrupt relay (coil)
20—Not used
21—Not used
22 10A Heated Mirrors
23 20A Body power point, Auxiliary blower relay #1
and #2 coils
24—Not used
25 10A Radio (Anti-theft)
26 10A Air bag module, Passenger air bag
deactivated indicator, Passenger seat weight
pressure sensor ECU
27—Not used
28 10A Cluster
29 2A Speed control deactivation switch
Relay 1—Switched system power relay #4
Roadside Emergencies
156

Fuse/Relay
LocationFuse Amp
RatingPower Distribution Box Description
20 15A* Ignition coil, Intake Air Control (IAC) valve,
Fuel injectors, Mass Air Flow (MAF) sensor,
Fuel pump relay coil, Intake manifold runner
control, High-speed cooling fan relay coil,
Low-speed cooling fan relay coil, PCM,
Passive anti-theft receiver
21—Not used
22—Not used
23—Not used
24—Not used
101 40A** Anti-lock Brake System (ABS) module or IVD
Module
102 40A** ABS module or IVD module
103 40A** SSP4 Relay, SSP4 Relay (coil)
104 30A** Left-hand power seat motors, Left-hand
power lumbar motor, Driver seat memory
module
105 30A** Starter motor solenoid, Ignition switch
106 30A** Delayed accessory relay, Delayed accessory
relay coil, FEM- right-hand front window
motor
107 50A** Engine cooling fan motors, Cooling fan
dropping resistor
108—Not used
109 30A** Heated seat modules
110 50A** Right-hand Power Sliding Door (PSD) module
111 40A** Fuse junction box
112 30A** Trailer tow, Electric brake controller
113 30A** FEM - left-hand window motor
114 40A** SSP3 relay, SSP3 relay coil
115 50A** Fuse junction box bus #2
116 30A** Heated backlight relay
Roadside Emergencies
159

•If your low tire warning light is on, refer toLow tire warningin the
Maintenance and specificationschapter.
The use of tire sealants is not recommended and may
compromise the integrity of your tires. The use of tire sealants
may also affect your tire pressure monitoring system (if equipped).
Temporary spare tire information
Your vehicle may have a temporary spare tire. The temporary spare tire
for your vehicle is labeled as such. It is smaller than a regular tire and is
designed for emergency use only. Replace this tire with a full-size tire as
soon as possible.
Note:The Low Tire Warning system
will detect the temporary spare tire
and illuminate the low tire warning
light until the spare tire is replaced
with a proper full-size tire.
If you use the temporary spare tire continuously or do not follow
these precautions, the tire could fail, causing you to lose control
of the vehicle, possibly injuring yourself or others.
When driving with the temporary spare tiredo not:
•use more than one temporary spare tire at a time
•exceed 80 km/h (50 mph) or drive further than 3,200 km (2,000
miles) total under any circumstances
•load the vehicle beyond maximum vehicle load rating listed on the
Safety Compliance Label
•tow a trailer
•use tire chains
•drive through an automatic car wash, because of the vehicle’s reduced
ground clearance
•try to repair the temporary spare tire or remove it from its wheel
•use the wheel for any other type of vehicle
Roadside Emergencies
161

3. Turn the wrench
counterclockwise until tire is
lowered to the ground and the cable
is slightly slack.
4. Remove the retainer from the
spare tire.
To install the spare tire:
1. Reverse the removal steps 2
through 4. When the tire is raised to
the stowed position underneath the
vehicle, the hex nut ratchets and will not allow you to overtighten.
2. Check seating position of tire for looseness against the underbody
supports and retighten if necessary.
Ensure the position of the tire is not too far forward to avoid
contact with the axle.
Tire change procedure
When one of the front wheels is off the ground, the transaxle
alone will not prevent the vehicle from moving or slipping off the
jack, even if the vehicle is in P (Park).
To prevent the vehicle from moving when you change a tire, be
sure the parking brake is set, then block (in both directions) the
wheel that is diagonally opposite (other side and end of the vehicle) to
the tire being changed.
If the vehicle slips off the jack, you or someone else could be
seriously injured.
Roadside Emergencies
163

Connecting the jumper cables
1. Connect the positive (+) booster cable to the positive (+) terminal of
the discharged battery.
Note:In the illustrations,lightning boltsare used to designate the
assisting (boosting) battery.
2. Connect the other end of the positive (+) cable to the positive (+)
terminal of the assisting battery.
+–+–
+–+–
Roadside Emergencies
168

3. Once the disabled vehicle has been started, run both engines for an
additional three minutes before disconnecting the jumper cables.
Removing the jumper cables
Remove the jumper cables in the reverse order that they were
connected.
1. Remove the jumper cable from thegroundmetal surface.
Note:In the illustrations,lightning boltsare used to designate the
assisting (boosting) battery.
2. Remove the jumper cable on the negative (-) connection of the
booster vehicle’s battery.
+–+–
+–+–
Roadside Emergencies
170