engine FORD TAURUS 1999 3.G Owner's Manual

Engine exhaust, some of its constituents,
and certain vehicle components contain or
emit chemicals known to the State of California to
cause cancer, and birth defects or other
reproductive harm.
Important ventilating information
If the engine is idling while the vehicle is stopped in
an open area for long periods of time, open the
windows at least 2.5 cm (one inch).
Adjust the heating or air conditioning (if equipped)
to bring in fresh air.
Improve vehicle
ventilation by keeping
all air inlet vents clear
of snow, leaves and
other debris.
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106

BRAKES
Your service brakes are self-adjusting. Refer to the
scheduled maintenance guide for scheduled
maintenance.
Occasional brake noise is normal and often does not
indicate a performance concern with the vehicle's
brake system. In normal operation, automotive brake
systems may emit occasional or intermittent squeal
or groan noises when the brakes are applied. Such
noises are usually heard during the first few brake
applications in the morning; however, they may be
heard at any time while braking and can be
aggravated by environmental conditions such as
cold, heat, moisture, road dust, salt or mud. If a
ªmetal-to-metalº, ªcontinuous grindingº or
ªcontinuous squealº sound is present while braking,
the brake linings may be worn-out and should be
inspected by a qualified service technician.
Anti-lock brake system (ABS) (if equipped)
On vehicles equipped with an anti-lock braking
system (ABS), a noise from the hydraulic pump
motor and pulsation in the pedal may be observed
during ABS braking events. Pedal pulsation coupled
with noise while braking under panic conditions or
on loose gravel, bumps, wet or snowy roads is
normal and indicates proper functioning of the
vehicle's anti-lock brake system. The ABS performs a
self-check at 17 km/h (10 mph) after you start the
engine and begin to drive away. A brief mechanical
noise may be heard during this test. This is normal.
If a malfunction is found, the ABS warning light will
come on. If the vehicle has continuous vibration or
shudder in the steering wheel while braking, the
vehicle should be inspected by a qualified service
technician.
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The ABS operates by
detecting the onset of
wheel lockup during
brake applications
and compensating for
this tendency. The
wheels are prevented
from locking even
when the brakes are firmly applied. The
accompanying illustration depicts the advantage of
an ABS equipped vehicle (on bottom) to a non-ABS
equipped vehicle (on top) during hard braking with
loss of front braking traction.
ABS warning lamp
The
ABSwarning lamp in the instrument cluster
momentarily illuminates when the ignition is turned
on and the engine is off. If the light does not
illuminate momentarily at start up, remains on or
continues to flash, the ABS needs to be serviced.
With the ABS light on,
the anti-lock brake
system is disabled and
normal braking is still
effective unless the brake warning light also remains
illuminated with parking brake released. (If your
brake warning lamp illuminates, have your vehicle
serviced immediately).
Using ABS
²In an emergency or when maximum efficiency
from the ABS is required, apply continuous full
force on the brake. The ABS will be activated
immediately, thus allowing you to retain full
steering control of your vehicle and, providing
there is sufficient space, will enable you to avoid
obstacles and bring the vehicle to a controlled
stop.
²The Anti-Lock system does not decrease the time
necessary to apply the brakes or always reduce
P!
BRAKE
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Pull the release lever
to release the brake.
Driving with the
parking brake on will
cause the brakes to
wear out quickly and
reduce fuel economy.
STEERING
Your vehicle is equipped with power steering. Power
steering uses energy from the engine to help steer
the vehicle.
To prevent damage to the power steering pump:
²Never hold the steering wheel to the extreme
right or the extreme left for more than a few
seconds when the engine is running.
²Do not operate the vehicle with a low power
steering pump fluid level.
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, the condition could
be caused by any of the following:
²underinflated tire(s) on any wheel(s)
²high crown in center of road
²high crosswinds
²wheels out of alignment
²loose or worn components in steering linkage
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AUTOMATIC TRANSAXLE OPERATION
Brake-shift interlock
This vehicle is equipped with a brake-shift interlock
feature that prevents the gearshift from being moved
from P (Park) unless the brake pedal is depressed.
If you cannot move the gearshift out of P (Park)
with the brake pedal depressed:
1. Apply the parking brake, turn ignition key to
LOCK, then remove the key.
2. Insert the key and turn it to OFF. Apply the brake
pedal and shift to N (Neutral).
3. Start the vehicle.
If it is necessary to use the above procedure to
move the gearshift, it is possible that a fuse has
blown or the vehicle's brakelamps are not operating
properly. Refer toFuses and relaysin theRoadside
emergencieschapter.
Do not drive your vehicle until you verify
that the brakelamps are working.
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.
Do not rock the vehicle for more than a few
minutes. The transmission and tires may be
damaged or the engine may overheat.
Always set the parking brake fully and make
sure the gearshift is latched in P (Park).
Turn off the ignition whenever you leave your
vehicle.
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To put your vehicle in gear, start the engine, depress
the brake pedal, then move gearshift out of P
(Park).
Hold the brake pedal down while you move
the gearshift lever from P (Park) to another
position. If you do not hold the brake pedal down,
your vehicle may move unexpectedly and injure
someone.
Understanding gearshift positions
P (Park)
Always come to a
complete stop before
shifting into P (Park).
Make sure the gearshift
is securely latched in P
(Park). This locks the
transaxle and prevent
the front wheels from
rotating.
Always set the
parking brake
fully and make sure
the gearshift is
latched in P (Park).
Turn off the ignition
whenever you leave
your vehicle.
PRNDD1
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fourth gear will increase your fuel economy when
you travel at cruising speeds.
Overdrive may not be appropriate for certain
terrains. If the transaxle shifts back and forth
between third and fourth gears while you are driving
hilly roads or if your vehicle requires additional
power for climbing hills, shift into D (Drive).
When to use D (Drive)
The D (Drive) position
eliminates the needless
shifting back and forth
between third and
fourth gears that your
vehicle may do when
driving on hilly terrain.
It also gives more
engine braking than
overdrive to slow your
vehicle on downgrades.
1 (First)
Use 1 (First) for when
added engine braking is
desired when
descending steep hills.
The automatic
transaxle will shift to
the proper gear to
ascend any grade
without any need to
shift to 1 (First).
Do not go faster than 61 km/h (38 mph) when in
this gear. You can upshift from 1 (First) to overdrive
at any time.
PRNDD1
PRNDD1
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²GCWR (Gross Combined Weight Rating):
Maximum combined weight of towing vehicle
(including passengers and cargo) and the trailer.
The GCWR indicates the maximum loaded weight
that the vehicle is designed to tow.
²Maximum 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
engine/transmission combination, any required
option weight for trailer towing and the weight of
the driver from the GCWR for the towing vehicle.
²Maximum Trailer Weight: maximum weight of a
trailer the loaded vehicle (including passengers
and cargo) is permitted to tow. It is determined
by subtracting the weight of the loaded trailer
towing vehicle from the GCWR for the towing
vehicle.
²Trailer Weight Range: Specified weight range
that the trailer must fall within that ranges from
zero to the maximum trailer weight rating.
Remember to figure in the tongue load of your
loaded trailer when figuring the total weight.
Do not exceed the GVWR or the GAWR
specified on the certification label.
Do not use replacement tires with lower load
carrying capacities than the originals because they
may lower the vehicle's GVWR and GAWR
limitations. Replacement tires with a higher limit
than the originals do not increase the GVWR and
GAWR limitations.
The Certification Label, found on the inside pillar of
the driver's door, lists several important vehicle
weight rating limitations. Before adding any
additional equipment, refer to these limitations. If
you are adding weight to the front of your vehicle,
(potentially including weight added to the cab), the
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weight added should not exceed the Front Axle
Reserve Capacity (FARC). Additional frontal weight
may be added to the front axle reserve capacity
provided you limit your payload in other ways (i.e.
restrict the number of passengers or amount of
cargo carried).
You may add equipment throughout your vehicle if the
total weight added is equal to or less than the Total
Axle Reserve Capacity (TARC) weight. You should
NEVER exceed the Total Axle Reserve Capacity.
Always ensure that the weight of passengers, cargo
and equipment being carried is within the weight
limitations that have been established for your
vehicle including both Gross Vehicle Weight and
Front and Rear Gross Axle Weight Rating limits.
Under no circumstance should these limitations be
exceeded. Exceeding any vehicle weight rating
limitation could result in serious damage to the
vehicle and/or personal injury.
DRIVING THROUGH WATER
Do not drive quickly through standing water,
especially if the depth is unknown. Traction or brake
capability may be limited and if the ignition system
gets wet, your engine may stall. Water may also
enter your engine's air intake and severely damage
your engine.
If driving through deep or standing water is
unavoidable, proceed very slowly. Never drive through
water that is higher than the bottom of the hubs.
Once through the water, always try the brakes. Wet
brakes do not stop the vehicle as effectively as dry
brakes. Drying can be improved by moving your
vehicle slowly while applying light pressure on the
brake pedal.
Driving through deep water where the
transmission is submerged may allow water
into the transmission and cause internal
transmission damage.
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TRAILER TOWING
Your vehicle is classified as a light duty towing
vehicle. The amount of weight you can safely tow
depends on the type of engine you have in your
vehicle. Your vehicle does not come from the factory
fully equipped to tow. No towing packages are
available through Ford or Mercury/Lincoln dealers.
Do not tow a trailer until your vehicle has been
driven at least 800 km (500 miles). If towing with a
station wagon, inflate the rear tires to 35 psi.
Towing a trailer places an additional load on your
vehicle's engine, transaxle, brakes, tires and
suspension. Inspect these components carefully after
towing.
In order to identify your vehicle's engine, refer to
Identifying components in the engine
compartmentin the Maintenance and Care chapter.
The amount of weight that you can tow depends on
the type of engine in your vehicle. See the following
charts:
3.0L 2-Valve Vulcan Engine
Model Passenger
Load-#/kg
(lbs.)Luggage
Load-kg
(lbs.)Max Trailer
Wt.-kg (lbs.)
Sedan 5/340 (750) 0 365 (800)
4/270 (600) 70 (150) 365 (800)
2/135 (300) 70 (150) 500 (1 100)
2/135 (300) 0 565 (1 250)
Wagon 4/270 (600) 0 365 (800)
2/135 (300) 70 (150) 430 (950)
2/135 (300) 0 500 (1 100)
The above chart is based on the specified vehicle at
a maximum GCW (Vehicle weight + Trailer weight)
equal to 2 245 kg (4 950 lbs.).
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