2020 CHRYSLER VOYAGER change wheel

GETTING TO KNOW YOUR VEHICLE73
Faceplate Blower Knob
Touchscreen Blower Buttons Blower Control
Blower Control is used to regulate the amount of air forced through the climate system. There are seven blower speeds
available. The speeds can be selected using either the blower control knob on the faceplate or the buttons on the
touchscreen.
Faceplate: The blower speed increases as you turn the blower control knob clockwise from the lowest blower setting. The
blower speed decreases as you turn the blower control knob counterclockwise.
Touchscreen:
Use the small blower icon to reduce the blower setting and the large blower icon to increase the blower
setting. Blower speed can also be selected by pressing the blower bar area between the icons.
Faceplate Modes Control Knob Modes Control
Faceplate: Push the button in the center of the knob to change the airflow distribution mode.
Touchscreen:
Select Mode by pressing one of the Mode Buttons on the touchscreen. The airflow distribution mode can
be adjusted so air comes from the instrument panel outlets, floor outlets, defrost outlets and demist outlets. The Mode
settings are as follows:
Panel Mode Panel Mode
Air comes from the outlets in the instrument panel. Each of these outlets can be individually adjusted to direct the flow of
air. The air vanes of the center outlets and outboard outlets can be moved up and down or side to side to regulate airflow
direction. There is a shut off wheel located below the air vanes to shut off or adjust the amount of airflow from these
outlets.
Icon
Description
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GETTING TO KNOW YOUR VEHICLE77
Rear Passenger Climate Control OFF Button
Press and release this button to turn the Rear Climate Controls off.
Panel Mode Panel Mode
Press this button on the touchscreen to change the air distribution mode to Panel Mode. In Panel Mode, air comes from the
outlets in the instrument panel. Each of these outlets can be individually adjusted to direct the flow of air. The air vanes of
the center outlets and outboard outlets can be moved up and down or side to side to regulate airflow direction. There is a
shut off wheel located below the air vanes to shut off or adjust the amount of airflow from these outlets.
Bi-Level Mode Bi-Level Mode
Press this button on the touchscreen to change the air distribution mode to Bi-Level Mode. In Bi-Level Mode, air comes
from the instrument panel outlets and floor outlets. A slight amount of air is directed through the defrost and side window
demister outlets.
NOTE:
Bi-Level Mode is designed under comfort conditions to provide cooler air out of the panel outlets and warmer air from the
floor outlets.
Floor Mode Floor Mode
Press this button on the touchscreen to change the air distribution mode to Floor Mode. In Floor Mode, air comes from the
floor outlets. A slight amount of air is directed through the defrost and side window demister outlets.
Icon Description
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GETTING TO KNOW YOUR VEHICLE83
Modes ControlModes Control
The airflow distribution mode can be adjusted so air comes from the instrument panel outlets, floor outlets, defrost outlets
and demist outlets. The Mode settings are as follows:
Faceplate: Push the button in the center of the knob to change the airflow distribution mode.
Touchscreen:
Select Mode by pressing one of the Mode Buttons on the touchscreen.
Panel Mode Panel Mode
Air comes from the outlets in the instrument panel. Each of these outlets can be individually adjusted to direct the flow of
air. The air vanes of the center outlets and outboard outlets can be moved up and down or side to side to regulate airflow
direction. There is a shut off wheel located below the air vanes to shut off or adjust the amount of airflow from these
outlets.
Bi-Level Mode Bi-Level Mode
Air comes from the instrument panel outlets and floor outlets. A slight amount of air is directed through the defrost and
side window demister outlets.
NOTE:
Bi-Level mode is designed under comfort conditions to provide cooler air out of the panel outlets and warmer air from the
floor outlets.
Floor Mode
Floor Mode
Air comes from the floor outlets. A slight amount of air is directed through the defrost and side window demister outlets.
Icon Description
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138GETTING TO KNOW YOUR INSTRUMENT PANEL
Speed Warning — If Equipped

Push and release the up or down arrow button
until Speed Warning is highlighted in the
instrument cluster display. Push and release the
OK button to enter speed warning. Use the up or
down arrow button to turn the speed warning ON
or OFF, then push and release the OK button to
confirm the selection. If the ON status is selected,
use the up or down arrow button to set the
desired speed, then push the OK button to set
the speed for the speed warning. A speed
warning telltale will illuminate in the instrument
cluster, with a number matching the set speed,
with a pop up message to inform the driver that
the speed warning has been set to the desired
speed. Each time the set speed is exceeded, a
single chime will sound and a pop up warning
message will display. If the set speed is exceeded
more than 2 mph (3 km/h), a continuous chime
will sound for up to 10 seconds, or until the speed
is no longer exceeded. The telltale in the
instrument cluster will also change from white to
yellow, and a pop up warning message will pop up
on the instrument cluster display.

NOTE:
Speed Warning is unavailable while KeySense
is in use.
Battery Saver On/Battery Saver Mode
Message — Electrical Load Reduction
Actions — If Equipped
This vehicle is equipped with an Intelligent
Battery Sensor (IBS) to perform additional
monitoring of the electrical system and status
of the vehicle battery.
In cases when the IBS detects charging system
failure, or the 12 Volt vehicle battery conditions
are deteriorating, electrical load reduction
actions will take place to extend the driving time
and distance of the vehicle. This is done by
reducing power to or turning off non-essential
12 Volt electrical loads. Load reduction will be
functional when the vehicle propulsion system
is active.
The vehicle may not be running depending on
the HV battery SOC or temperature. It will
display a message if there is a risk of battery
depletion to the point where the vehicle may
stall due to lack of electrical supply, or will not
restart after the current drive cycle.
When 12 Volt load reduction is activated, the
message “Battery Saver On” or “Battery Saver
Mode” will appear in the instrument cluster
display. These messages indicate the vehicle battery
has a low state of charge and continues to lose
electrical charge at a rate that the charging
system cannot sustain.
NOTE:
The charging system is independent from
load reduction. The charging system
performs a diagnostic on the charging
system continuously.
If the Battery Charge Warning Light is on it
may indicate a problem with the charging
system. Refer to “Battery Charge Warning
Light” in this chapter for further information.
The electrical loads that may be switched off (if
equipped), and vehicle functions which can be
effected by load reduction:
Heated Seat/Vented Seats/Heated Wheel
Heated/Cooled Cup Holders — If Equipped
Rear Defroster And Heated Mirrors
HVAC System
115 Volts AC Power Inverter System
Audio and Telematics System

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154SAFETY
brake system is not functioning properly and
that immediate service is required. If the “Brake
System Warning Light” does not come on when
the ignition is turned to the ON/RUN mode,
have the light repaired as soon as possible.
Dynamic Steering Torque (DST)
Dynamic Steering Torque (DST) is a feature of
the ESC and Electric Power Steering (EPS)
modules that provides torque at the steering
wheel for certain driving conditions in which the
ESC module is detecting vehicle instability. The
torque that the steering wheel receives is only
meant to help the driver realize optimal steering
behavior in order to reach/maintain vehicle
stability. The only notification the driver receives
that the feature is active, is the torque applied
to the steering wheel.
NOTE:
The DST feature is only meant to help the driver
realize the correct course of action through
small torques on the steering wheel, which
means the effectiveness of the DST feature is
highly dependent on the driver’s sensitivity and
overall reaction to the applied torque. It is very
important to realize that this feature will not steer the vehicle, meaning the driver is still
responsible for steering the vehicle.
Electronic Brake Force Distribution (EBD)
The Electronic Brake Force Distribution (EBD)
function manages the distribution of the
braking torque between the front and rear axles
by limiting braking pressure to the rear axle.
This is done to prevent overslip of the rear
wheels to avoid vehicle instability, and to
prevent the rear axle from entering the
Anti-Lock Brake System (ABS) before the front
axle.
Electronic Roll Mitigation (ERM)
Electronic Roll Mitigation (ERM) anticipates the
potential for wheel lift by monitoring the driver’s
steering wheel input and the speed of the
vehicle. When ERM determines that the rate of
change of the steering wheel angle and
vehicle’s speed are sufficient to potentially
cause wheel lift, it then applies the appropriate
brake and may also reduce engine power to
lessen the chance that wheel lift will occur. ERM
can only reduce the chance of wheel lift
occurring during severe or evasive driving
maneuvers; it cannot prevent wheel lift due to
other factors, such as road conditions, leaving
the roadway, striking objects or other vehicles.
Electronic Stability Control (ESC)
Electronic Stability Control (ESC) enhances
directional control and stability of the vehicle
under various driving conditions. ESC corrects
for oversteering or understeering of the vehicle
by applying the brake of the appropriate
wheel(s) to assist in counteracting the oversteer
or understeer condition. Engine power may also
be reduced to help the vehicle maintain the
desired path.
WARNING!
Many factors, such as vehicle loading, road
conditions and driving conditions, influence
the chance that wheel lift or rollover may
occur. ERM cannot prevent all wheel lift or roll
overs, especially those that involve leaving
the roadway or striking objects or other
vehicles. The capabilities of an
ERM-equipped vehicle must never be
exploited in a reckless or dangerous manner
which could jeopardize the user's safety or
the safety of others.

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SAFETY155
(Continued)

ESC uses sensors in the vehicle to determine the
vehicle path intended by the driver and compares
it to the actual path of the vehicle. When the actual
path does not match the intended path, ESC
applies the brake of the appropriate wheel to
assist in counteracting the oversteer or understeer
condition.
Oversteer — when the vehicle is turning more
than appropriate for the steering wheel position.
Understeer — when the vehicle is turning less
than appropriate for the steering wheel position.
The “ESC Activation/Malfunction Indicator Light”
located in the instrument cluster will start to flash
as soon as the ESC system becomes active. The
“ESC Activation/Malfunction Indicator Light” also
flashes when the TCS is active. If the “ESC
Activation/Malfunction Indicator Light” begins to
flash during acceleration, ease up on the
accelerator and apply as little throttle as possible.
Be sure to adapt your speed and driving to the
prevailing road conditions.

WARNING!

Electronic Stability Control (ESC) cannot
prevent the natural laws of physics from
acting on the vehicle, nor can it increase the
traction afforded by prevailing road condi -
tions. ESC cannot prevent accidents,
including those resulting from excessive
speed in turns, driving on very slippery
surfaces, or hydroplaning. ESC also cannot
prevent accidents resulting from loss of
vehicle control due to inappropriate driver
input for the conditions. Only a safe, atten -
tive, and skillful driver can prevent acci -
dents. The capabilities of an ESC equipped
vehicle must never be exploited in a reckless
or dangerous manner which could jeopar -
dize 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 ESC system. Changes to the steering
system, suspension, braking system, tire
type and size or wheel size may adversely
affect ESC performance. Improperly
inflated and unevenly worn tires may also
degrade ESC performance. Any vehicle
modification or poor vehicle maintenance
that reduces the effectiveness of the ESC
system can increase the risk of loss of
vehicle control, vehicle rollover, personal
injury and death.
WARNING! (Continued)
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158SAFETY
Towing With HSA
HSA will also provide assistance to mitigate roll
back while towing a trailer.
Disabling And Enabling HSA
This feature can be turned on or turned off. To
change the current setting, proceed as follows:
If disabling HSA using Uconnect Settings,
refer to “Uconnect Settings” in “Multimedia”
for further information.
Rain Brake Support (RBS)
Rain Brake Support (RBS) may improve braking
performance in wet conditions. It will
periodically apply a small amount of brake
pressure to remove any water buildup on the
front brake rotors. It functions when the
windshield wipers are in LO or HI speed. When
RBS is active, there is no notification to the
driver and no driver interaction is required.
Ready Alert Braking (RAB)
Ready Alert Braking (RAB) may reduce the time
required to reach full braking during emergency
braking situations. It anticipates when an
emergency braking situation may occur by
monitoring how fast the throttle is released by
the driver. The Electronic Brake Control (EBC)
system will prepare the brake system for a
panic stop.
Traction Control System (TCS)
The Traction Control System (TCS) monitors the
amount of wheel spin of each of the driven
wheels. If wheel spin is detected, the TCS may
apply brake pressure to the spinning wheel(s)
and/or reduce vehicle power to provide
enhanced acceleration and stability. A feature
of the TCS, Brake Limited Differential (BLD),
functions similar to a limited slip differential
and controls the wheel spin across a driven
axle. If one wheel on a driven axle is spinning
faster than the other, the system will apply the
brake of the spinning wheel. This will allow more
vehicle torque to be applied to the wheel that is
not spinning. BLD may remain enabled even if
TCS and the Electronic Stability Control (ESC)
are in a reduced mode.
Trailer Sway Control (TSC)
Trailer Sway Control (TSC) uses sensors in the
vehicle to recognize an excessively swaying
trailer and will take the appropriate actions to
attempt to stop the sway. TSC will become
active automatically once an excessively
swaying trailer is recognized. Note that TSC
cannot stop all trailers from swaying. Always
use caution when towing a trailer and follow the
trailer tongue weight recommendations. Refer
WARNING!

If you use a trailer brake controller with your
trailer, the trailer brakes may be activated
and deactivated with the brake switch. If so,
there may not be enough brake pressure to
hold both the vehicle and the trailer on a hill
when the brake pedal is released. In order to
avoid rolling down an incline while resuming
acceleration, manually activate the trailer
brake or apply more vehicle brake pressure
prior to releasing the brake pedal.

HSA is not a parking brake. Always apply
the parking brake fully when exiting your
vehicle. Also, be certain to place the trans -
mission in PARK.
Failure to follow these warnings can result
in a collision or serious personal injury.

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SAFETY159
to “Trailer Towing” in “Starting And Operating”
for further information. When TSC is
functioning, the “ESC Activation/Malfunction
Indicator Light” will flash, the engine power may
be reduced and you may feel the brakes being
applied to individual wheels to attempt to stop
the trailer from swaying. TSC is disabled when
the ESC system is in the “Partial Off” mode.
AUXILIARY DRIVING SYSTEMS
Blind Spot Monitoring (BSM) — If Equipped
The Blind Spot Monitoring (BSM) system uses
two radar-based sensors, located inside the
rear bumper fascia, to detect highway licensable vehicles (automobiles, trucks,
motorcycles, etc.) that enter the blind spot
zones from the rear/front/side of the vehicle.

Rear Detection Zones

When the vehicle is started, the BSM warning
light will momentarily illuminate in both outside
rear view mirrors to let the driver know that the
system is operational. The BSM system sensors
operate when the vehicle is in any forward gear
or REVERSE (R) and enters stand-by mode when
the vehicle is in PARK (P). The BSM detection zone covers approximately
one lane width on both sides of the vehicle 12 ft
(3.7 m). The zone length starts at the outside
rear view mirror and extends approximately
10 ft (3 m) beyond the rear bumper of the
vehicle. The BSM system monitors the
detection zones on both sides of the vehicle
when the vehicle speed reaches approximately
6 mph (10 km/h) or higher and will alert the
driver of vehicles in these areas.
NOTE:
The BSM system DOES NOT alert the driver
about rapidly approaching vehicles that are
outside the detection zones.

The BSM system detection zone DOES NOT
change if your vehicle is towing a trailer. There
-
fore, visually verify the adjacent lane is clear
for both your vehicle and trailer before making
a lane change. If the trailer or other object (i.e.,
bicycle, sports equipment) extends beyond the
side of your vehicle, this may result in false
detections. The BSM warning light may even
remain illuminated the entire time the vehicle
is in a forward gear.

WARNING!
If TSC activates while driving, slow the vehicle
down, stop at the nearest safe location, and
adjust the trailer load to eliminate trailer
sway.4

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