load capacity FORD FOCUS ELECTRIC 2015 3.G Owners Manual

GENERAL INFORMATION
WARNINGS
This battery pack shall only be
serviced by an authorized electric
vehicle technician. Improper handling
can result in personal injury or death. Your vehicle consists of various high
voltage components and wiring. All
high voltage cables are labeled and
covered with a solid orange covering or
orange striped tape. Do not touch these
components. Failure to follow this warning
could result in serious personal injury or
death. The high voltage battery system is a high
voltage, lightweight lithium-ion battery
which has two individual packs. One pack
is located in the rear cargo area behind the
second row seats, the other is located
underneath the vehicle. The high voltage
battery system uses an advanced active
liquid heating and cooling system to
regulate high voltage battery temperature
and help maximize the life of the high
voltage battery.
Note:
The high voltage battery does not
require regular service maintenance.
Note: The high voltage battery will
experience gradual capacity loss with time
and usage. This is normal.
CHARGING THE HIGH
VOLTAGE BATTERY WARNINGS
Do not use the 120 volt convenience
cord with an extension cord,
two-prong adapter, surge protector,
timer or other adapter. In Canada, do not use the 120 volt
convenience cord in commercial
garages. WARNINGS
This equipment has arcing or
sparking parts, do not expose to
flammable vapors. Position this
equipment at least 18 inches (80
millimeters) above the floor. The AC wall plug must fit firmly into
the AC outlet. If the connection feels
loose, worn or the AC outlet is
damaged, please have a qualified
electrician replace the AC outlet. Using a
convenience cord with a worn outlet may
cause burns, property damage and
increase the risk of electric shock. Charging Equipment
Your vehicle is equipped with a standard
120 volt convenience cord. Lift the load
floor carpet in the rear of your vehicle to
access the 120 volt convenience cord.
Note:
The 120 volt convenience cord allows
you to charge the high voltage battery using
a standard 120 volt household outlet. It
takes approximately 18 hours to completely
charge an empty battery using the standard
120 volt convenience cord.
We recommend upgrading to the optional
240 volt charging station for faster more
efficient charging.
Note: The electrical source must meet
certain requirements for the high-voltage
batteries to charge. The AC outlet must be
a three-prong 110-120 volt AC outlet that is
properly grounded, 15– 20 amps (or greater)
and in good condition. You must use a
dedicated line, which means you cannot
have other appliances connected to the
same circuit. If you do not use dedicated
circuit, the circuit breaker could trip or open.
If you do not have a dedicated circuit,
contact a licensed professional electrician
for proper installation.
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Payload - is the combined weight
of cargo and passengers that the
vehicle is carrying. The maximum
payload for your vehicle can be
found on the Tire Label on the
B-Pillar or the edge of the driver
door (vehicles exported outside
the US and Canada may not have
a Tire Label). Look for
“THE
COMBINED WEIGHT OF
OCCUPANTS AND CARGO
SHOULD NEVER EXCEED XXX
kg OR XXX lb. ” for maximum
payload. The payload listed on the
Tire Label is the maximum
payload for the vehicle as built by
the assembly plant. If you install
any aftermarket or authorized-dealer installed
equipment on the vehicle, you
must subtract the weight of the
equipment from the payload listed
on the Tire Label in order to
determine the new payload. WARNING
The appropriate loading
capacity of your vehicle can
be limited either by volume
capacity (how much space is
available) or by payload capacity
(how much weight the vehicle
should carry). Once you have
reached the maximum payload of
your vehicle, do not add more
cargo, even if there is space
available. Overloading or
improperly loading your vehicle
can contribute to loss of vehicle
control and vehicle rollover. Example only:
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2.
Determine the combined
weight of the driver and
passengers that will be riding
in your vehicle.
3. Subtract the combined weight
of the driver and passengers
from XXX kg or XXX lb.
4. The resulting figure equals the
available amount of cargo and
luggage load capacity. For
example, if the “XXX” amount
equals 1,400 lb. and there will
be five 150 lb. passengers in
your vehicle, the amount of
available cargo and luggage
load capacity is 650 lb.
(1400-750 (5 x 150) = 650 lb.)
5. Determine the combined
weight of luggage and cargo
being loaded on the vehicle.
That weight may not safely
exceed the available cargo and
luggage load capacity
calculated in Step 4.
6. If your vehicle will be towing a
trailer, load from your trailer
will be transferred to your
vehicle. Consult this manual to
determine how this reduces the
available cargo and luggage
load capacity of your vehicle.
The following gives you a few
examples on how to calculate the
available amount of cargo and
luggage load capacity: *Suppose your vehicle has a
1400-pound (635-kilogram) cargo
and luggage capacity. You decide
to go golfing. Is there enough load
capacity to carry you, four of your
friends and all the golf bags? You
and four friends average 220
pounds (99 kilograms) each and
the golf bags weigh approximately
30 pounds (13.5 kilograms) each.
The calculation would be: 1400 -
(5 x 220) - (5 x 30) = 1400 - 1100
- 150 = 150 pounds. Yes, you have
enough load capacity in your
vehicle to transport four friends
and your golf bags. In metric units,
the calculation would be: 635
kilograms - (5 x 99 kilograms) -
(5 x 13.5 kilograms) = 635 - 495 -
67.5 = 72.5 kilograms.
*Suppose your vehicle has a
1400-pound (635-kilogram) cargo
and luggage capacity. You and
one of your friends decide to pick
up cement from the local home
improvement store to finish that
patio you have been planning for
the past two years. Measuring the
inside of the vehicle with the rear
seat folded down, you have room
for twelve 100-pound
(45-kilogram) bags of cement. Do
you have enough load capacity to
transport the cement to your
home? If you and your friend each
weigh 220 pounds (99 kilograms),
the calculation would be: 1400 -
(2 x 220) - (12 x 100) = 1400 - 440
- 1200 = - 240 pounds. No, you do
not have enough cargo capacity
to carry that much weight. In
metric units, the calculation would
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be: 635 kilograms - (2 x 99
kilograms) - (12 x 45 kilograms) =
635 - 198 - 540 = -103 kilograms.
You will need to reduce the load
weight by at least 240 pounds
(104 kilograms). If you remove
three 100-pound (45-kilogram)
cement bags, then the load
calculation would be: 1400 - (2 x
220) - (9 x 100) = 1400 - 440 -
900 = 60 pounds. Now you have
the load capacity to transport the
cement and your friend home. In
metric units, the calculation would
be: 635 kilograms - (2 x 99
kilograms) - (9 x 45 kilograms) =
635 - 198 - 405 = 32 kilograms.
The above calculations also
assume that the loads are
positioned in your vehicle in a
manner that does not overload
the Front or the Rear Gross Axle
Weight Rating specified for your
vehicle on the Safety Compliance
Certification Label. The label shall
be affixed to either the door hinge
pillar, door-latch post, or the door
edge that meets the door-latch
post, next to the driver's seating
position.
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