2017 FIAT SPIDER ABARTH wheel

SAFETY SYSTEMS Safety Systems
The vehicle has the following safety
systems:
Anti-lock Braking System (ABS)
Traction Contol System (TCS)
Dynamic Stability Control (DSC)
For the operation of the systems, see
the following pages.
ABS System (Anti-lock
Braking System)
The ABS control unit continuously
monitors the speed of each wheel. If
one wheel is about to lock up, the ABS
responds by automatically releasing
and reapplying that wheel's brake. The
driver will feel a slight vibration in the
brake pedal and may hear a chattering
noise from the brake system. This is
normal ABS system operation.
Continue to depress the brake pedal
without pumping the brakes. The
warning light turns on when the system
has a malfunction. Refer to “Warning
Lights And Messages” in “Getting To
Know Your Instrument Panel” for further
information. Note:
Braking distances may be longer on
loose surfaces (snow or gravel, for
example) which usually have a hard
foundation. A vehicle with a normal
braking system may require less
distance to stop under these
conditions because the tires will build
up a wedge of surface layer when the
wheels skid.
The sound of the ABS operating
may be heard when starting the engine
or immediately after starting the
vehicle; however, it does not indicate a
malfunction.
Warning!The ABS contains sophisticated
electronic equipment that may be
susceptible to interference caused by
improperly installed or high output radio
transmitting equipment. This interference
can cause possible loss of anti-lock braking
capability. Installation of such equipment
should be performed by qualified
professionals.
Pumping of the Anti-Lock Brakes will
diminish their effectiveness and may lead to
a collision. Pumping makes the stopping
distance longer. Just press firmly on your
brake pedal when you need to slow down
or stop. The ABS cannot prevent the natural
laws of physics from acting on the vehicle,
nor can it increase braking or steering
efficiency beyond that afforded by the
condition of the vehicle brakes and tires or
the traction afforded.
The ABS cannot prevent collisions,
including those resulting from excessive
speed in turns, following another vehicle
too closely, or hydroplaning.
The capabilities of an ABS equipped
vehicle must never be exploited in a
reckless or dangerous manner that could
jeopardize the user’s safety or the safety of
others.
TCS System (Traction
Control System)
Warning!The capability of the TCS must never be
tested irresponsibly and dangerously, in
such a way as to compromise personal
safety and the safety of others.
The Traction Control System (TCS)
enhances traction and safety by
controlling engine torque and braking.
When the TCS detects driving wheel
slippage, it can lower engine torque and
operate the brakes to prevent loss of
traction. This means that on a slick
surface, the engine adjusts
automatically to provide optimum
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SAFETY

power to the drive wheels, limiting
wheel spin and loss of traction.
The indicator light turns on when the
system has a malfunction. Refer to
“Warning Lights And Messages” in
“Getting To Know Your Instrument
Panel” for further information.
TCS / DSC Indicator Light
The
indicator light stays on for a few
seconds when the ignition is placed in
the ON mode.
If the TCS or DSC is operating, the
indicator light flashes.
If the
indicator light stays on, the
TCS, DSC or the brake assist system
may have a malfunction and they may
not operate correctly. Contact your
authorized dealer.
Note:
In addition to the indicator light
flashing, a slight sound will come from
the engine. This indicates that the
TCS/DSC is operating properly.
On slippery surfaces, such as fresh
snow, it will be impossible to achieve
high rpm when the TCS is on. DSC System (Dynamic
Stability Control)
The Dynamic Stability Control (DSC)
automatically controls braking and
engine torque in conjunction with
systems such as ABS and TCS to help
control side slip when driving on
slippery surfaces, or during sudden or
evasive maneuvering, enhancing vehicle
safety. Refer to “ABS System (Antilock
Brake System)” and “TCS System
(Traction Control System)” in this
chapter for further information.
DSC operation is possible at speeds
greater than 12 mph (20 km/h).
The indicator light turns on when the
system has a malfunction. Refer to
“Warning Lights And Messages” in
“Getting To Know Your Instrument
Panel” for further information.
Note: The DSC may not operate
correctly unless the following are
observed:
Use tires of the correct size
specified for your vehicle on all four
wheels.
Use tires of the same manufacturer,
brand and tread pattern on all four
wheels.
Do not mix worn tires.
Note: The DSC may not operate
correctly when tire chains are used. TCS / DSC Indicator Light
The
indicator light stays on for a few
seconds when the ignition is placed in
the ON mode. It also illuminates when
the DSC OFF switch is pressed and
TCS/DSC is switched off.
If the light stays on, the TCS, DSC or
the brake assist system may have a
malfunction and they may not operate
correctly. Take your vehicle to an
authorized dealer.
DSC OFF Indicator Light
The
indicator light stays on for a few
seconds when the ignition is placed in
the ON mode. It also illuminates when
the DSC OFF switch is pressed and
TCS/DSC is switched off.
If the light remains illuminated and the
TCS/DSC is not switched off, contact
your authorized dealer. The DSC may
have a malfunction.
DSC OFF Switch
Push the switch to turn off the
TCS/DSC. The
indicator light in the
instrument cluster will illuminate. Push
the switch again to turn the TCS/DSC
back on. The indicator light will turn off.
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Note:
When DSC is on and you attempt
to free the vehicle when it is stuck, or
drive it out of freshly fallen snow, the
TCS (part of the DSC system) will
activate. Depressing the accelerator
will not increase engine power and
freeing the vehicle may be difficult.
When this happens, turn off the
TCS/DSC.
If the TCS/DSC is off when the
engine is turned off, it automatically
activates when the ignition is placed in
the ON mode. Warning!Dynamic Stability Control (DSC) cannot
prevent the natural laws of physics from
acting on the vehicle, nor can it increase
the traction afforded by prevailing road
conditions. DSC cannot prevent accidents,
including those resulting from excessive
speed in turns, driving on very slippery
surfaces, or hydroplaning. DSC also cannot
prevent accidents resulting from loss of
vehicle control due to inappropriate driver
input for the conditions. Only a safe,
attentive, and skillful driver can prevent
accidents. The capabilities of an DSC
equipped vehicle must never be exploited
in a reckless or dangerous manner which
could jeopardize the user’s safety or the
safety of others.
Vehicle modifications, or failure to
properly maintain your vehicle, may change
the handling characteristics of your vehicle,
and may negatively affect the performance
of the DSC system. Changes to the
steering system, suspension, braking
system, tire type and size or wheel size
may adversely affect DSC performance.
Improperly inflated and unevenly worn tires
may also degrade DSC performance. Any
vehicle modification or poor vehicle
maintenance that reduces the effectiveness
of the DSC system can increase the risk of
loss of vehicle control, vehicle rollover,
personal injury and death. AUXILIARY DRIVING
SYSTEMS Blind Spot Monitoring
(BSM) System
The Blind Spot Monitoring (BSM)
system is designed to assist the driver
during lane changes by alerting the
driver to the presence of vehicles
approaching from the rear in an
adjacent lane.
The system detects vehicles
approaching from the rear while
traveling in the forward direction at a
speed of 19 mph (30 km/h) or faster,
and will activate the BSM warning lights
equipped within the door mirrors.
If the turn signal lever is operated to
signal a lane change in the direction in
which the warning light is illuminated,
the system warns the driver of a vehicle
in the detection area by flashing the
warning light and activating an audible
alert.
The detection area on this system
covers the driving lanes on both sides
of the vehicle and from the rear part of
the doors to about 164 ft (50 m) behind
the vehicle.05060301-12A-001
DSC OFF Switch
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SAFETY

In the following cases, it may be difficult
to view the illumination/flashing of the
BSM warning lights equipped on the
door mirrors:
Snow or ice adheres to the door
mirrors.
The door glass is fogged or covered
in snow, frost or dirt.
Turn off the RCTA system while pulling
a trailer or while an accessory such as a
bicycle carrier is installed to the rear of
the vehicle.
Otherwise, the sound system waves
emitted by the radar will be blocked
causing the system to not operate
normally. TPMS (Tire Pressure
Monitoring System)
Tire Pressure Monitoring System —
Abarth
The TPMS system monitors the
pressure for each tire.
If tire pressure is too low in one or more
tires, the system will inform the driver
via the
warning light in the
instrument cluster and by the warning
beep sound.
The tire pressure sensors installed on
each wheel send tire pressure data by
radio signal to the receiver unit in the
vehicle.
TPMS does not alleviate your need to
check the pressure and condition of all
four tires regularly.
Each tire, including the spare (if
equipped), should be checked monthly
when cold and inflated to the inflation
pressure recommended by the vehicle
manufacturer on the vehicle placard or
tire inflation pressure label. (If your
vehicle has tires of a different size than
the size indicated on the vehicle placard
or tire inflation pressure label, you
should determine the proper tire
inflation pressure for those tires.)05281200-03A-004
Another Vehicle Approaching
Directly To The Rear Of Your
Vehicle 05281200-03A-005
Your Vehicle Parked On An Incline
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As an added safety feature, your vehicle
has been equipped with a tire pressure
monitoring system (TPMS) that
illuminates a low tire pressure telltale
when one or more of your tires is
significantly under-inflated. Accordingly,
when the low tire pressure telltale
illuminates, you should stop and check
your tires as soon as possible, and
inflate them to the proper pressure.
Driving on a significantly under-inflated
tire causes the tire to overheat and can
lead to tire failure. Under-inflation also
reduces fuel efficiency and tire tread life,
and may affect the vehicle's handling
and stopping ability. Please note that
the TPMS is not a substitute for proper
tire maintenance, and it is the driver's
responsibility to maintain correct tire
pressure, even if under-inflation has not
reached the level to trigger illumination
of the TPMS low tire pressure telltale.
Your vehicle has also been equipped
with a TPMS malfunction indicator to
indicate when the system is not
operating properly. When the system
detects a malfunction, the telltale will
flash for approximately one minute and
then remain continuously illuminated.
This sequence will continue upon
subsequent vehicle start-ups as long as
the malfunction exists. When the
malfunction indicator is illuminated, the
system may not be able to detect or
signal low tire pressure as intended.
TPMS malfunctions may occur for a
variety of reasons, including the installation of replacement or alternate
tires or wheels on the vehicle that
prevent the TPMS from functioning
properly. Always check the TPMS
malfunction telltale after replacing one
or more tires or wheels on your vehicle
to ensure that the replacement or
alternate tires and wheels allow the
TPMS to continue to function properly.
System Error Activation
When the
warning light flashes,
there may be a system malfunction.
Contact your authorized dealer.
A system error activation may occur in
the following cases:
When there is equipment or a device
near the vehicle using the same radio
frequency as that of the tire pressure
sensors.
When a metallic device such as a
non-genuine navigation system is
equipped near the center of the
dashboard, which may block radio
signals from the tire pressure sensor to
the receiver unit.
When using the following devices in
the vehicle that may cause radio
interference with the receiver unit.
A digital device such as a personal
computer.
A current converter device such as a
DC-AC converter. When excess snow or ice adheres to
the vehicle, especially around the
wheels.
When the tire pressure sensor
batteries are discharged.
When using a wheel with no tire
pressure sensor installed.
When using tires with steel wire
reinforcement in the side walls.
When using tire chains.
Tires And Wheels
Note: When inspecting or adjusting the
tire air pressures, do not apply
excessive force to the stem portion of
the wheel unit. The stem portion could
be damaged.
Changing Tires And Wheels
The following procedure allows the
TPMS to recognize a tire pressure
sensor's unique ID signal code
whenever tires or wheels are changed,
such as changing to and from winter
tires.
Note:
Each tire pressure sensor has a
unique ID signal code. The signal code
must be registered with the TPMS
before it can work. The easiest way to
do it is to have your authorized dealer
change your tire and complete ID
signal code registration.
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SAFETY

When your authorized dealer
changes your vehicle's tires, they will
complete the tire pressure sensor ID
signal code registration.
If you or someone else changes tires,
you or someone else can also
undertake the steps for the TPMS to
complete the ID signal code
registration:
After tires have been changed, place
the ignition in the ON mode, then back
to ACC or OFF modes.
Wait for about 15 minutes.
After about 15 minutes, drive the
vehicle at a speed of at least 16 mph
(25 km/h) for 20 minutes and the tire
pressure sensor ID signal code will be
registered automatically.
Note: If the vehicle is driven within
about 15 minutes of changing tires, the
warning light will flash because the
sensor ID signal code would not have
been registered. If this happens, park
the vehicle for about 15 minutes, after
which the sensor ID signal code will
register upon driving the vehicle for
20 minutes.
Replacing Tires And Wheels
Note:
When replacing/repairing the tires or
wheels or both, have the work done by
your authorized dealer, or the tire
pressure sensors may be damaged. The wheels equipped on your
vehicle are specially designed for
installation of the tire pressure sensors.
Do not use non-genuine wheels,
otherwise it may not be possible to
install the tire pressure sensors.
Be sure to have the tire pressure
sensors installed whenever tires or
wheels are replaced.
When having a tire or wheel or both
replaced, the following types of tire
pressure sensor installations are
possible:
The tire pressure sensor is removed
from the old wheel and installed to the
new one.
The same tire pressure sensor is
used with the same wheel. Only the tire
is replaced.
A new tire pressure sensor is
installed to a new wheel.
Note:
The tire pressure sensor ID signal
code must be registered when a new
tire pressure sensor is purchased. For
purchase of a tire pressure sensor and
registration of the tire pressure sensor
ID signal code, consult your authorized
dealer.
When reinstalling a previously
removed tire pressure sensor to a
wheel, replace the grommet (seal
between valve body/sensor and wheel)
for the tire pressure sensor. Caution! The TPMS has been optimized for the
original equipment tires and wheels. TPMS
pressures and warning have been
established for the tire size equipped on
your vehicle. Undesirable system operation
or sensor damage may result when using
replacement equipment that is not of the
same size, type, and/or style. The TPM
sensor is not designed for use on
aftermarket wheels and may contribute to a
poor overall system performance or sensor
damage. Customers are encouraged to
use OEM wheels to assure proper TPM
feature operation.
Using aftermarket tire sealants may
cause the Tire Pressure Monitoring System
(TPMS) sensor to become inoperable. After
using an aftermarket tire sealant it is
recommended that you take your vehicle to
an authorized dealership to have your
sensor function checked.
After inspecting or adjusting the tire
pressure always reinstall the valve stem
cap. This will prevent moisture and dirt
from entering the valve stem, which could
damage the TPMS sensor.
121

Warning!Never place a rear-facing child restraint
in front of an air bag. A deploying
passenger Advanced Front Air Bag can
cause death or serious injury to a child
12 years or younger, including a child in a
rear-facing child restraint.
Only use a rear-facing child restraint in a
vehicle with a rear seat.
An incorrectly anchored tether strap
could lead to increased head motion and
possibly injury to the child. Use only the
anchorage position directly behind the child
seat to secure a child restraint top tether
strap. SUPPLEMENTARY
RESTRAINT SYSTEM
SRS — AIR BAG Description
The front and side Supplementary
Restraint Systems (SRS) include
different types of Air Bags.
Note: Please verify which kinds of Air
Bags are equipped on your vehicle by
locating the “SRS AIR BAG” location
indicators.
These indicators are visible in the area
where the Air Bags are installed.
The Air Bags are installed in the
following locations:
The steering wheel hub (Driver Air
Bag)
The passenger dashboard
(Passenger Air Bag)
The outer sides of the seat backs
(Side Air Bags)
This vehicle has front air bags and
lap/shoulder belts for both the driver
and front passenger. The front air bags
are a supplement to the seat belt
restraint systems.
The Air Bag supplementary restraint
systems are designed to provide
supplementary protection in certain
situations so seat belts are always
important in the following ways.
Without seat belt usage, the Air Bags
cannot provide adequate protection during an accident. Seat belt usage is
necessary to:
Keep the occupant from being
thrown into an inflating Air Bag.
Reduce the possibility of injuries
during an accident that is not designed
for Air Bag inflation, such as roll-over or
rear impact.
Reduce the possibility of injuries in
frontal, near frontal or side collisions
that are not severe enough to activate
the Air Bags.
Reduce the possibility of being
thrown from your vehicle.
Reduce the possibility of injuries to
lower body and legs during an accident
because the Air Bags provide no
protection to these parts of the body.
Hold the driver in a position which
allows better control of the vehicle.
Warning!In order for the Side Air Bags to work as
intended, do not install any accessory
items in your vehicle which could alter the
roof. Do not add an aftermarket sunroof to
your vehicle. Do not add roof racks that
require permanent attachments (bolts or
screws) for installation on the vehicle roof.
Do not drill into the roof of the vehicle for
any reason.06070400567567
Passenger Air Bag Deactivation
Light
131

How The SRS Air Bags
Work
This vehicle has front air bags and
lap/shoulder belts for both the driver
and front passenger. The front air bags
are a supplement to the seat belt
restraint systems. The SRS Air Bags are
designed to provide further protection
for passengers in addition to the seat
belt functions. Be sure to wear seat
belts properly.
Seat Belt Pretensioners
The seat belt pretensioners are
designed to deploy in moderate or
severe frontal, near frontal collisions. In
addition, during a side collision, the
pretensioner operates on the side in
which the collision occurs.
The pretensioners operate differently
depending on what types of air bags
are equipped. For details on the seat
belt pretensioner operation, refer to the
“SRS Air Bag Deployment Criteria”.
Driver Air Bag
The driver's air bag is mounted in the
steering wheel. When Air Bag crash sensors detect a
frontal impact of greater than moderate
force, the driver's Air Bag inflates
quickly helping to reduce injury mainly
to the driver's head or chest caused by
directly hitting the steering wheel. For
more details about Air Bag deployment,
refer to "SRS Air Bag Deployment
Criteria" in this chapter for further
information.
(With Passenger Occupant
Classification System)
The driver's dual-stage air bag controls
air bag inflation in two energy stages.
During an impact of moderate severity,
the driver's air bag deploys with lesser
energy, whereas during more severe
impacts, it deploys with more energy. Passenger Air Bag
(Dual Stage)
The passenger Air Bag is mounted in
the passenger dashboard.
The inflation mechanism for the
passenger Air Bag is the same as the
driver's Air Bag, as mentioned above.
For more details about Air Bag
deployment, refer to "SRS Air Bag
Deployment Criteria" in this chapter.
For further details about air bag
deployment, refer to "SRS Air Bag
Deployment Criteria" in this chapter. 06010203-126-123
Driver Side Air Bags 06010204-126-123
Passenger Side Air Bag
135