engine FORD E-150 2002 Owner's Manual
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effectiveness. This loss of effectiveness does not affect normal driving
and should not be noticeable to the driver.
To reduce the risk of injury, never run the engine with one wheel
off the ground, such as when changing a tire.
PREPARING TO DRIVE YOUR VEHICLE
Utility vehicles have a significantly higher rollover rate than
other types of vehicles.
In a rollover crash, an unbelted person is significantly more likely
to die than a person wearing a seat belt.
Your vehicle has special design and equipment features to make it
capable of performing in a wide variety of circumstances. These special
design features, such as larger tires and increased ground clearance, give
the vehicle a higher center of gravity than a passenger car.
Vehicles with a higher center of gravity such as utility and
four-wheel drive vehicles handle differently than vehicles with a
lower center of gravity. Utility and four-wheel drive vehicles arenot
designed for cornering at speeds as high as passenger cars any more
than low-slung sports cars are designed to perform satisfactorily under
off-road conditions. Avoid sharp turns, excessive speed and abrupt
maneuvers in these vehicles. Failure to drive cautiously could result in
an increased risk of loss of vehicle control, vehicle rollover, personal
injury and death.
Loaded vehicles, with a higher center of gravity, may handle
differently than unloaded vehicles. Extra precautions, such as
slower speeds and increased stopping distance, should be taken when
driving a heavily loaded vehicle.
Your vehicle has the capability to haul more cargo and people than most
passenger cars. Depending upon the type and placement of the load,
hauling people and cargo may raise the center of gravity of the vehicle.
Use extra caution while becoming familiar with your vehicle. Know the
capabilities and limitations of both you as a driver and your vehicle.
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AUTOMATIC TRANSMISSION OPERATION
Brake-shift interlock
This vehicle is equipped with a brake-shift interlock feature that prevents
the gearshift lever from being moved from P (Park) when the ignition is
in the ON position unless the brake pedal is depressed.
If you cannot move the gearshift lever out of P (Park) with ignition in
the ON position and 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).
In the ignition OFF position, the automatic transmission shift
lever can be moved from the P (Park) position without the brake
pedal depressed. To avoid unwanted vehicle movement, always set the
parking brake.
3. Start the vehicle.
If it is necessary to use the above procedure to move the gearshift lever,
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 if the engine is not at normal operating
temperature or damage to the transmission may occur.
Do not rock the vehicle for more than a few minutes or damage
to the transmission and tires may occur or the engine may
overheat.
Always set the parking brake fully and make sure the gearshift is
latched in P (Park). Turn the ignition to the LOCK position and
remove the key whenever you leave your vehicle.
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If the parking brake is fully released, but the brake warning lamp
remains illuminated, the brakes may not be working properly.
See your dealer or a qualified service technician.
Driving with a 4–speed automatic transmission
Understanding gearshift positions
To put your vehicle in gear, start the engine, depress the brake pedal,
then move gearshift lever 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.
P (Park)
Always come to a complete stop
before shifting into P (Park). Make
sure the gearshift lever is securely
latched in P (Park). This position
locks the transmission and prevents
the rear wheels from turning.
Always set the parking brake fully and make sure the gearshift
lever is latched in P (Park). Turn off the ignition whenever you
leave your vehicle.
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 gear.
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(Overdrive)
The normal driving position for the
best fuel economy. Transmission
operates in gears one through four.
(Overdrive) can be deactivated
by pressing the transmission control
switch (TCS) on the end of the
gearshift lever.
The transmission control indicator
light (TCIL) (the word OFF) on the
end of the gearshift lever will
illuminate.
Drive–Not shown on the display. Activate by pressing the transmission
control switch (TCS) on the end of the gearshift lever with the gearshift
in the
position. The TCIL (the word OFF) will illuminate on the
gearshift lever. Transmission operates in gears one through three.
(Drive) provides more engine braking than(Overdrive) and is useful
when:
•driving with a heavy load.
•towing a trailer up or down steep hills.
•additional engine downhill braking is desired. If towing a trailer, refer
toDriving while you towin theTrailer towingsection.
To return to
(Overdrive) mode, press the transmission control switch
(TCS). The TCIL (the word OFF) will no longer be illuminated.
Each time the vehicle is started, the transmission will automatically
return to normal overdrive mode.
Every time the vehicle is shut off and restarted, you must press the
transmission control switch to cancel overdrive operation if driving in
overdrive is not desired.
2 (Second)
Use 2 (Second) to start-up on
slippery roads or to provide
additional engine braking on
downgrades.
OVERDRIVEOFF
OVERDRIVE
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1 (First)
Use 1 (Low) to provide maximum
engine braking on steep
downgrades. Upshifts can be made
by shifting to 2 (Second) or to
(Overdrive). Selecting 1 (Low) at higher speeds causes the transmission
to shift to a lower gear, and will shift to 1 (Low) after vehicle decelerates
to the proper speed.
Forced Downshifts
To gain acceleration in
(Overdrive) or Drive (O/D OFF) when
passing another vehicle, push the accelerator to the floor. The
transmission will downshift to the appropriate gear: third, second or first
gear.
Shift strategy (4R100 automatic transmission)
To account for customer driving habits and conditions, your 4R100
automatic transmission electronically controls the shift quality by using
an adaptive learning strategy. The adaptive learning strategy is
maintained by power from the battery. When the battery is disconnected
or a new battery is installed, the transmission must relearn its adaptive
strategy. Optimal shifting will resume within a few hundred kilometers
(miles) of operation.
If the shift quality does not improve within a few hundred
kilometers (miles) of operation, or if the downshifts and other
throttle conditions do not function normally, see your dealer or a
qualified service technician as soon as possible.
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 (for trucks) or the bottom of the wheel rims (for cars).
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 vent tube is
submerged may allow water into the transmission and cause
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internal transmission damage. Have the fluid checked and, if
water is found, replace the fluid.
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. The GVW is not a limit or a specification.
•GVWR (Gross Vehicle Weight Rating):Maximum permissible 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 permissible
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
engine/transmission combination, any required option weight for trailer
towing and the weight of the driver from the GCWR for the towing
vehicle.
•Maximum Trailer Weight:Maximum weight of a trailer the loaded
vehicle (including occupants 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.
•Trailer 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.
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Calculating the load your vehicle can carry/tow
1. Use the appropriate maximum gross combined weight rating (GCWR)
chart (in theTrailer Towingsection) to find the maximum GCWR for
your type engine and rear axle ratio.
2. Weigh your vehicle as you customarily operate the vehicle without
cargo. To obtain correct weights, try taking your vehicle to a shipping
company or an inspection station for trucks.
3. Subtract your loaded vehicle weight from the maximum GCWR on the
following charts. This is the maximum trailer weight your vehicle can tow
and must fall below the maximum shown under maximum trailer weight
on the chart.
TRAILER TOWING
Refer to7.3 Liter Power Stroke Direct Injection Turbo Diesel Owner’s
Guide Supplementfor diesel engine towing information.
Your vehicle may tow a class I, II or III trailer provided the maximum
trailer weight is less than or equal to the maximum trailer weight listed
for your engine and rear axle ratio on the following charts.
GCWR (Gross Combined Weight Rating)/Trailer Weights
EngineRear
axle
ratioMaximum
GCWR - kg
(lbs.)Trailer weight
range - kg
(lbs.)
(0-Maximum)Maximum
frontal area of
trailer - m
2
(ft2)
Regular Van E-150
4.2L 3.55 4536 (10000) 2313 (5100) 5.52 (60)
4.6L 3.55 5216 (11500) 2993 (6600) 5.52 (60)
5.4L 3.55 5443 (12000) 3130 (6900) 5.52 (60)
Regular Van E-250
4.2L 3.73 4763 (10500) 2359 (5200) 5.52 (60)
5.4L 3.73 5897 (13000) 3402 (7500) 5.52 (60)
Regular Van E-250 HD
4.2L 4.09 4990 (11000) 2586 (5700) 5.52 (60)
5.4L 3.73 5897 (13000) 3402 (7500) 5.52 (60)
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GCWR (Gross Combined Weight Rating)/Trailer Weights
EngineRear
axle
ratioMaximum
GCWR - kg
(lbs.)Trailer weight
range - kg
(lbs.)
(0-Maximum)Maximum
frontal area of
trailer - m
2
(ft2)
Super Van E-250
4.2L 3.73 4763 (10500) 2313 (5100) 5.52 (60)
5.4L 3.73 5897 (13000) 3357 (7400) 5.52 (60)
Super Van E-250 HD
4.2L 4.09 4990 (11000) 2540 (5600) 5.52 (60)
5.4L 3.73 5897 (13000) 3356 (7400) 5.52 (60)
Regular Van E-350
5.4L 3.55 5443 (12000) 2948 (6500) 5.52 (60)
5.4L 4.10 5897 (13000) 3402 (7500) 5.52 (60)
6.8L 3.73 6804 (15000) 4218 (9300) 5.52 (60)
6.8L 4.10 8392 (18500) 4536 (10000) 5.52 (60)
Super Van E-350
5.4L 3.55 5443 (12000) 2858 (6300) 5.52 (60)
5.4L 4.10 5897 (13000) 3311 (7300) 5.52 (60)
6.8L 3.73 6804 (15000) 4173 (9200) 5.52 (60)
6.8L 4.10 8392 (18500) 4536 (10000) 5.52 (60)
E-150 8 passenger Wagon
4.2L 3.55 4536 (10000) 2132 (4700) 5.52 (60)
4.6L 3.55 5216 (11500) 2767 (6100) 5.52 (60)
5.4L 3.55 5443 (12000) 2948 (6500) 5.52 (60)
E-350 7 passenger Wagon
5.4L 3.73 5443 (12000) 2812 (6200) 5.52 (60)
6.8L 3.73 6804 (15000) 3992 (8800) 5.52 (60)
6.8L 4.10 8392 (18500) 4536 (10000) 5.52 (60)
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GCWR (Gross Combined Weight Rating)/Trailer Weights
EngineRear
axle
ratioMaximum
GCWR - kg
(lbs.)Trailer weight
range - kg
(lbs.)
(0-Maximum)Maximum
frontal area of
trailer - m
2
(ft2)
E-350 8 passenger Wagon
5.4L 3.73 5443 (12000) 2858 (6300) 5.52 (60)
6.8L 3.73 6804 (15000) 4037 (8900) 5.52 (60)
6.8L 4.10 8392 (18500) 4536 (10000) 5.52 (60)
E-350 12 passenger Wagon
5.4L 3.55 5443 (12000) 2722 (6000) 5.52 (60)
5.4L 3.73 5443 (12000) 2812 (6200) 5.52 (60)
5.4L 4.10 5897 (13000) 3175 (7000) 5.52 (60)
6.8L 3.73 6804 (15000) 4037 (8900) 5.52 (60)
6.8L 4.10 8392 (18500) 4536 (10000) 5.52 (60)
Super E-350 15 passenger Wagon
5.4L 3.55 5443 (12000) 2586 (5700) 5.52 (60)
5.4L 4.10 5897 (13000) 3039 (6700) 5.52 (60)
6.8L 3.73 6804 (15000) 3901 (8600) 5.52 (60)
6.8L 4.10 8392 (18500) 4536 (10000) 5.52 (60)
E-350 Cutaway (dual rear wheel)
5.4L 4.10 5897 (13000) * 5.52 (60)
6.8L 4.10 8392 (18500) * 5.52 (60)
E-450 Cutaway (dual rear wheel)
6.8L 4.56 9072 (20000) * 5.52 (60)
E-250/350 Stripped Chassis (single rear wheel; 124wheelbase
for E-250 only)
4.2L 4.10 4990 (11000) 1090 (2400) 5.52 (60)
5.4L 4.10 5897 (13000) 1542 (3400) 5.52 (60)
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GCWR (Gross Combined Weight Rating)/Trailer Weights
EngineRear
axle
ratioMaximum
GCWR - kg
(lbs.)Trailer weight
range - kg
(lbs.)
(0-Maximum)Maximum
frontal area of
trailer - m
2
(ft2)
E-350 Stripped Chassis (dual rear wheel)
5.4L 4.10 5897 (13000) 1361 (3000) 5.52 (60)
E-450 Stripped Chassis (dual rear wheel)
5.4L 4.10 5897 (13000) 1361 (3000) 5.52 (60)
6.8L 4.56 9072 (20000) * 5.52 (60)
E-550 Cutaway (dual rear wheel)
6.8L 4.88/5.38 9072 (20000) * 5.52 (60)
* Maximum trailer weight for all cutaway (E-350 and E-450) vehicles
must be calculated by subtracting the weight of the vehicle (including
incomplete vehicle weight, and payload which includes second unit
body weight, cargo, and passengers) from the GCW. Otherwise,
maximum trailer weight is 4536 kg (10000 lbs).
For high altitude operation reduce GCWR by 2% per 300 meters (1000
ft) elevation.
To determine the maximum trailer weight designed for your particular
vehicle as equipped, follow the sectionCalculating the load your
vehicle can tow/carryearlier in this chapter.
Your vehicle’s load capacity is designated by weight, not by volume, so
you cannot necessarily use all available space when loading a vehicle.
Distribute the load so that only 10 to 15% of the total is on the tongue.
Tie down the load so that it does not shift and change the weight on the
hitch.
Towing a trailer places an additional load on your vehicle’s engine,
transmission, axle, brakes, tires and suspension. Inspect these
components carefully after any towing operation.
Note:Do not exceed the GVWR or the GAWR specified on the
certification label.
Towing trailers beyond the maximum recommended gross trailer
weight exceeds the limit of the vehicle and could result in
engine damage, transmission damage, structural damage, loss of vehicle
control, vehicle rollover and personal injury.
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