Sufficient CHRYSLER PACIFICA 2023 Owners Manual

24GETTING TO KNOW YOUR VEHICLE
POWER SLIDING SIDE DOOR —
I
F EQUIPPED
The power sliding door may be power opened or closed in
several ways:
 Key fob
 Inside or outside handles
 Buttons located:
 In the overhead console
 Just inside the sliding door
 On the outside handle
Push the button on the key fob twice within five
seconds to open, close, or reverse a power
sliding door.
The key fob and the overhead console button will operate
the door when the door is locked. All other ways require
the sliding door to be unlocked. If the vehicle is equipped
with Passive Entry, pushing the button on the outside
handle or Hands-Free feature (if equipped) will unlock and
open the sliding door, with a valid Passive Entry key fob
within 5 ft (1.5 m) of the door handle.

Overhead Console Power Switches

There is a power sliding side door switch located on the
B-pillar trim panel on the driver’s and passenger’s side,
just in front of the power sliding door for the rear seat
passengers.
To operate the sliding door manually with the handles or
to avoid unintentional operation of the power sliding doors
from the rear seats, push the power sliding door power off
button, located in the overhead console, to remove power
to the handles and buttons just inside the sliding doors.
The power off LED, in the overhead console, will be lit
when the handles are manual. When the LED is lit,
pushing the power sliding door power off button will return
the handles to power operation.
NOTE:
 If anything obstructs the power sliding side door while
it is closing or opening, the door will automatically
reverse to the closed or open position and an audible
tone will sound, provided it meets sufficient resistance.
The turn signals will flash with sliding door movements.
 If the power sliding door stops in the middle due to
obstacles, it will power open on the next command.

Power Sliding Side Door Switch (Left Side Shown)

1 — Liftgate
2 — Left Sliding Door
3 — Sliding Door Power Off
4 — Right Sliding Door
WARNING!
Personal injury or cargo damage may occur if caught
in the path of the sliding door. Make sure the door
path is clear before closing the door.
 Before driving off, check the instrument cluster for a
sliding door or door open message or warning indi -
cator. Failure to do this could result in unintentionally
leaving the sliding door open while driving.

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GETTING TO KNOW YOUR VEHICLE25
HANDS-FREE SLIDING DOORS —
I
F EQUIPPED
To open the Hands-Free Sliding Doors, use a straight in
and out kicking motion, move your foot from side to side,
or in a sweeping motion, under the vehicle in the general
location below the door handle(s).

Activation Zone

When a valid kicking motion is completed, the sliding door
will chime, the hazard lights will flash and the sliding door
will open almost instantaneously. This assumes all
options are enabled in the Uconnect Settings.
NOTE:
 To open the Hands-Free Sliding Doors requires a valid
Passive Entry key fob within 5 ft (1.5 m) of the door
handle. If a valid Passive Entry key fob is not within 5 ft
(1.5 m), the door will not respond to any kicks.
 The Hands-Free Sliding Doors will only operate when
the gear selector is in PARK. 
With every movement of the Hands-Free Sliding Doors,
an audible tone will sound and the turn signals will
flash. You can turn these alerts on or off in the
Uconnect system
Úpage 157.
 If anything obstructs the power sliding side door while
it is closing or opening, the door will automatically
reverse to the closed or open position and an audible
tone will sound, provided it meets sufficient resistance.
The turn signals will flash with sliding door movements.
 If the power sliding doors encounter multiple obstruc -
tions within the same cycle, the system will automati -
cally stop.
The Hands-Free Sliding Doors feature may be turned off
through Uconnect Settings
Úpage 157.
NOTE:The Hands-Free Sliding Doors feature should be turned off
during jacking, tire changing, and vehicle service.
CHILD PROTECTION DOOR LOCK
S
YSTEM — REAR DOORS
To provide a safer environment for small children riding in
the rear seats, the sliding doors are equipped with a Child
Protection Door Lock system.
To Engage The Child Protection Door Lock

1. Open the sliding side door.

2. On the rear of the sliding door, slide the Child
Protection Door Lock control inward (toward the
vehicle) to engage the Child Protection Door Lock.

Child Protection Door Locks

3. Repeat Steps 1 and 2 on the opposite sliding door.
NOTE:
After engaging the Child Protection Door Lock, always
test the inside door handle with the sliding door closed
to make certain the Child Protection Door Lock is in the
locked position.
 After disengaging the Child Protection Door Lock,
always test the inside door handle with the sliding door
closed to make certain the Child Protection Door Lock
is in the unlocked position.
 The inside door handle will not open the sliding door
when the Child Protection Door Lock is engaged.
 The power sliding door will operate from the switch
located just inside the sliding door, regardless of the
Child Protection Door Lock lever position.
2

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GETTING TO KNOW YOUR VEHICLE77
POWER INVERTER — IF EQUIPPED
There is a 115 Volt, 150 W Power Inverter outlet located
on the right side of the vehicle, before the third row of
seats to convert DC current to AC current. The Power
Inverter can power cellular phones, electronics and other
low power devices requiring up to 150 W. Certain video
game consoles will exceed this power limit, as will most
power tools.

Power Inverter

The Power Inverter turns on when the device is plugged in,
and the ignition is in ON/RUN position. It turns off when
the device is unplugged or the ignition is no longer in ON/
RUN position.
The Power Inverter is designed with built-in overload
protection. If the power rating of 150 W is exceeded, the
Power Inverter shuts down. Once the electrical device has
been removed from the Power Inverter, it resets. To avoid
overloading the circuit, check the power ratings on
electrical devices prior to using the Power Inverter.
WIRELESS CHARGING PAD —
I
F EQUIPPED

Wireless Charging Pad Location

Your vehicle may be equipped with a 15W 3A Qi wireless
charging pad located inside of the storage area below the
climate controls. This charging pad is designed to
wirelessly charge your Qi enabled mobile phone. Qi is a
standard that allows wireless charging of your mobile
phone.
Your mobile phone must be designed for Qi wireless
charging. If the phone is not equipped with Qi wireless
charging functionality, an aftermarket sleeve or a
specialized back plate can be purchased from your mobile
phone provider or a local electronics retailer. Please see
your phone’s owner’s manual for further information.
The wireless charging pad is equipped with an anti-slip
mat to hold your mobile phone in place, and an LED
indicator light.
CAUTION!
 Many accessories that can be plugged in draw power
from the vehicle's battery, even when not in use (i.e.,
cellular phones, etc.). Eventually, if plugged in long
enough, the vehicle's battery will discharge suffi -
ciently to degrade battery life and/or prevent the
engine from starting.
 Accessories that draw higher power (i.e., coolers,
vacuum cleaners, lights, etc.) will degrade the
battery even more quickly. Only use these intermit -
tently and with greater caution.
 After the use of high power draw accessories, or long
periods of the vehicle not being started (with acces -
sories still plugged in), the vehicle must be driven a
sufficient length of time to allow the generator to
recharge the vehicle's battery.
WARNING!
To avoid serious injury or death:
 Do not insert any objects into the receptacles.
 Do not touch with wet hands.
 Close the lid when not in use.
 If this outlet is mishandled, it may cause an electric
shock and failure.
2

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120STARTING AND OPERATING
DRIVE (D)
This range should be used for most city and highway
driving. It provides the smoothest upshifts and downshifts,
and the best fuel economy. The transmission
automatically upshifts through all forward gears. The
DRIVE position provides optimum driving characteristics
under all normal operating conditions.
If the transmission temperature exceeds normal operating
limits, the transmission controller may modify the
transmission shift schedule, reduce engine torque, and/or
expand the range of torque converter clutch engagement.
This is done to prevent transmission damage due to
overheating.
If the transmission becomes extremely hot, the
Transmission Temperature Warning Light will illuminate, a
warning message will appear in the instrument cluster,
and the transmission may operate differently until the
transmission cools down.

During cold temperatures, transmission operation may be
modified depending on engine and transmission temperature
as well as vehicle speed. This feature improves warm-up time
of the engine and transmission to achieve maximum efficiency.
Engagement of the torque converter clutch, and shifts into
EIGHTH or NINTH gear, are inhibited until the transmission fluid
is warm

Ú
page 120. Normal operation will resume once the
transmission temperature has risen to a suitable level.

LOW (L)
Use this range for engine braking when descending very
steep grades. In this range, the transmission will
downshift for increased engine braking. To access the
LOW position, push down on the gear selector and rotate
it fully clockwise.
Transmission Limp Home Mode
Transmission function is monitored electronically for
abnormal conditions. If a condition is detected that could
result in transmission damage, Transmission Limp Home
Mode is activated. In this mode, the transmission may
operate only in a fixed gear, or may remain in NEUTRAL.
The Malfunction Indicator Light (MIL) may be illuminated.
Limp Home Mode may allow the vehicle to be driven to an
authorized dealer for service without damaging the
transmission.
In the event of a momentary problem, the transmission
can be reset to regain all forward gears by performing the
following steps:

1. Stop the vehicle.

2. Shift the transmission into PARK, if possible. If not, shift the transmission to NEUTRAL.
3. Push and hold the ignition switch until the engine turns off.
4. Wait approximately 30 seconds.
5. Restart the engine.
6. Shift into the desired gear range. If the problem is no longer detected, the transmission will return to
normal operation.
NOTE:Even if the transmission can be reset, we recommend that
you visit an authorized dealer at your earliest possible
convenience. An authorized dealer has diagnostic
equipment to assess the condition of your transmission. If
the transmission cannot be reset, authorized dealer
service is required.
Torque Converter Clutch
A feature designed to improve fuel economy has been
included in the automatic transmission on your vehicle. A
clutch within the torque converter engages automatically
at calibrated speeds. This may result in a slightly different
feeling or response during normal operation in the upper
gears. When the vehicle speed drops or during some
accelerations, the clutch automatically disengages.
NOTE:The torque converter clutch will not engage until the
engine and/or transmission is warm (usually after 1 to
3 miles [2 to 5 km] of driving). Because the engine speed
is higher when the torque converter clutch is not engaged,
it may seem as if the transmission is not shifting properly
when the vehicle is cold. This is normal. The torque
converter clutch will function normally once the powertrain
is sufficiently warm.
ALL-WHEEL DRIVE (AWD) — IF EQUIPPED
This feature provides on-demand All-Wheel Drive (AWD).
The system is automatic with no driver inputs or additional
driving skills required. Under normal driving conditions,
the front wheels provide most of the traction. If the front
wheels begin to lose traction, power is shifted
automatically to the rear wheels. The greater the front
wheel traction loss, the greater the power transfer to the
rear wheels.
Additionally, on dry pavement under heavy throttle input
(where one may have no wheel spin), torque will be sent to
the rear in a preemptive effort to improve vehicle launch
and performance characteristics.

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122STARTING AND OPERATING
POSSIBLE REASONS THE ENGINE DOES
N
OT AUTOSTOP
Prior to engine shut down, the system will check many
safety and comfort conditions for Stop/Start and ensure
they are fulfilled. Detailed information about the operation
of the Stop/Start system may be viewed in the instrument
cluster display Stop/Start screen. Situations when the
engine will not stop include (but not limited to):
 If Stop/Start is manually disabled by the Stop/Start
OFF button.
 Driver’s seat belt is not buckled.
 Driver’s door is not closed.
 Battery temperature is too warm or cold.
 Battery charge is low. During this time a message will
display “Stop/Start Not Ready Battery Charging”.
 The vehicle is on a steep grade.
 Cabin heating or cooling is in process and an accept -
able cabin temperature has not been achieved.
 HVAC is set to full defrost mode at a high blower speed.
 HVAC is set to MAX A/C.
 Engine has not reached normal operating temperature.
 The transmission is not in a forward gear.
 Hood is open.
 Brake pedal is not pressed with sufficient pressure.
 Accelerator pedal input.
 Engine temperature is too high. 
5 mph (8 km/h) threshold has not been achieved from
previous Autostop.
 Steering angle is beyond threshold.
 Vehicle is at too high of an altitude.
 Ambient temperature is beyond operating range.
 Stop/Start related system malfunction.
 Adaptive Cruise Control (ACC) is on and speed is set.
It may be possible for the vehicle to be driven several
times without the Stop/Start system going into a STOP/
START READY state under more extreme conditions of the
items listed.
TO START THE ENGINE WHILE IN
A
UTOSTOP
While in a forward gear, the engine will start when the
brake pedal is released or the accelerator pedal is
pressed. The transmission will automatically re-engage
upon engine restart.
Conditions That Will Cause The Engine To Start
Automatically While In Autostop:
 The transmission selector is moved out of DRIVE.
 To maintain cabin temperature comfort.
 HVAC is set to full defrost mode.
 HVAC system temperature or fan speed is manually
adjusted. 
Battery voltage drops too low. During this time a
message will display “Stop/Start Not Ready Battery
Charging”.
 Stop/Start OFF switch is pushed.
 Stop/Start related system malfunction.
 Steering wheel is turned beyond threshold.
TO MANUALLY TURN OFF THE STOP/
S
TART SYSTEM

Stop/Start OFF Button

Push the Stop/Start OFF switch (located on the switch
bank). The light on the switch will illuminate. The “STOP/
START OFF” message will appear in the instrument cluster
display and the Autostop mode will be disabled
Úpage 102.
NOTE:The Stop/Start system will reset itself back to the ON
mode every time the ignition is turned OFF and back ON.

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128STARTING AND OPERATING
NOTE:When you override and push the SET (+) button or SET (-)
buttons, the new set speed will be the current speed of the
vehicle.
When ACC Is Active
 When you use the SET (-) button to decelerate, if the
engine’s braking power does not slow the vehicle suffi -
ciently to reach the set speed, the brake system will
automatically slow the vehicle.
 The ACC system decelerates the vehicle to a full stop
when following the vehicle in front. If your vehicle
follows the vehicle in front to a standstill, after two
seconds the driver will either have to push the RES
(resume) button, or apply the accelerator pedal to reen -
gage the ACC to the existing set speed.
 The ACC system maintains set speed when driving
uphill and downhill. However, a slight speed change on
moderate hills is normal. In addition, downshifting may
occur while climbing uphill or descending downhill. This
is normal operation and necessary to maintain set
speed. When driving uphill and downhill, the ACC
system will cancel if the braking temperature exceeds
normal range (overheated).
Setting The Following Distance In ACC
The specified following distance for ACC can be set by
varying the distance setting between four bars (longest),
three bars (long), two bars (medium) and one bar (short).
Using this distance setting and the vehicle speed, ACC
calculates and sets the distance to the vehicle ahead. This
distance setting displays in the instrument cluster display.

Distance Settings

To increase the distance setting, push the Distance
Increase button and release. Each time the button is
pushed, the distance setting increases by one bar (longer).
To decrease the distance setting, push the Distance
Decrease button and release. Each time the button is
pushed, the distance setting decreases by one bar
(shorter).
If there is no vehicle ahead, the vehicle will maintain the
set speed. If a slower moving vehicle is detected in the
same lane, the instrument cluster displays the ACC Set
With Target Detected Indicator Light, and the system
adjusts vehicle speed automatically to maintain the
distance setting, regardless of the set speed. The vehicle will then maintain the set distance until:

The vehicle ahead accelerates to a speed above the
set speed.
 The vehicle ahead moves out of your lane or view of the
sensor.
 The distance setting is changed.
 The system disengages
Úpage 126.
The maximum braking applied by ACC is limited; however,
the driver can always apply the brakes manually, if
necessary.
NOTE:The brake lights will illuminate whenever the ACC system
applies the brakes.
A Proximity Warning will alert the driver if ACC predicts that
its maximum braking level is not sufficient to maintain the
set distance. If this occurs, a visual alert “BRAKE!” will
flash in the instrument cluster display and a chime will
sound while ACC continues to apply its maximum braking
capacity.
NOTE:The “BRAKE!” screen in the instrument cluster display is a
warning for the driver to take action and does not neces -
sarily mean that the Forward Collision Warning system is
applying the brakes autonomously.
Overtake Aid
When driving with Adaptive Cruise Control (ACC) engaged
and following a vehicle, the system will provide an
additional acceleration up to the ACC set speed to assist
in passing the vehicle. This additional acceleration is
triggered when the driver utilizes the left turn signal and
will only be active when passing on the left hand side.
1 — Longest Distance Setting (Four Bars)
2 — Medium Distance Setting (Two Bars)
3 — Long Distance Setting (Three Bars)
4 — Short Distance Setting (One Bar)

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130STARTING AND OPERATING
“CLEAN FRONT WINDSHIELD” WARNING
The “ACC/AEB Limited Functionality Clean Front
Windshield” warning will display and a chime will sound
when conditions temporarily limit system performance.
This most often occurs at times of poor visibility, such as
in snow or heavy rain and fog. The ACC system may also
become temporarily blinded due to obstructions, such as
mud, dirt, or ice on windshield, driving directly into the sun
and fog on the inside of glass. In these cases, the
instrument cluster display will show “ACC/AEB Limited
Functionality Clean Front Windshield” and the system will
have degraded performance.
The “ACC/AEB Limited Functionality Clean Front
Windshield” message can sometimes be displayed while
driving in adverse weather conditions. The ACC/FCW
system will recover after the vehicle has left these areas.
Under rare conditions, when the camera is not tracking
any vehicles or objects in its path this warning may
temporarily occur.
If weather conditions are not a factor, the driver should
examine the windshield and the camera located on the
back side of the inside rearview mirror. They may require
cleaning or removal of an obstruction.
When the condition that created limited functionality is no
longer present, the system will return to full functionality.
NOTE:If the “ACC/AEB Limited Functionality Clean Front Wind -
shield” message occurs frequently (e.g. more than once
on every trip) without any snow, rain, mud, or other
obstructions, have the windshield and forward facing
camera inspected at an authorized dealer.
SERVICE ACC/FCW WARNING
If the system turns off, and the instrument cluster displays
“ACC/FCW Unavailable Service Required” or “Cruise/FCW
Unavailable Service Required”, there may be an internal
system fault or a temporary malfunction that limits ACC
functionality. Although the vehicle is still drivable under
normal conditions, ACC will be temporarily unavailable. If
this occurs, try activating ACC again later, following an
ignition cycle. If the problem persists, see an authorized
dealer.
Precautions While Driving With ACC
In certain driving situations, ACC may have detection
issues. In these cases, ACC may brake late or
unexpectedly. The driver needs to stay alert and may need
to intervene. The following are examples of these types of
situations:
TOWING A TRAILER
Towing a trailer is not recommended when using ACC.
OFFSET DRIVING
ACC may not detect a vehicle in the same lane that is
offset from your direct line of travel, or a vehicle merging
in from a side lane. There may not be sufficient distance
to the vehicle ahead. The offset vehicle may move in and
out of the line of travel, which can cause your vehicle to
brake or accelerate unexpectedly.

Offset Driving Condition Example

TURNS AND BENDS
When driving on a curve with ACC engaged, the system
may increase or decrease the vehicle speed for stability,
with no vehicle ahead detected. Once the vehicle is out of
the curve, the system will resume your original set speed.
This is a part of normal ACC system functionality.
NOTE:On tight turns ACC performance may be limited.

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STARTING AND OPERATING131
USING ACC ON HILLS
ACC performance may be limited when driving on hills.
ACC may not detect a vehicle in your lane depending on
the speed, vehicle load, traffic conditions, and the
steepness of the hill.

ACC Hill Example

LANE CHANGING
ACC may not detect a vehicle until it is completely in the
lane in which you are traveling. In the following lane
changing example, ACC has not yet detected the vehicle
changing lanes and it may not detect the vehicle until it's
too late for the ACC system to take action. ACC may not
detect a vehicle until it is completely in the lane. There
may not be sufficient distance to the lane-changing
vehicle. Always be attentive and ready to apply the brakes
if necessary.

Lane Changing Example

NARROW VEHICLES
Some narrow vehicles traveling near the outer edges of
the lane or edging into the lane are not detected until they
have moved fully into the lane. There may not be sufficient
distance to the vehicle ahead.

Narrow Vehicle Example

STATIONARY OBJECTS AND VEHICLES
ACC does not react to stationary objects or vehicles. For
example, ACC will not react in situations where the vehicle
you are following exits your lane and the vehicle ahead is
stopped in your lane. It will consider this stopped vehicle a
stationary object as it did not previously detect movement
from it. Always be attentive and ready to apply the brakes
if necessary.

Stationary Object And Stationary Vehicle Example

4

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STARTING AND OPERATING155
6. Properly secure the front wheels to the dolly, following
the dolly manufacturer's instructions.
7. Turn the ignition to the ON/RUN position, but do not start the vehicle.
8. Press and hold the brake pedal.
9. Release the parking brake.
10. Turn the ignition OFF.
11. Release the brake pedal.
All-Wheel Drive (AWD) Models
Recreational towing (with all four wheels on the ground, or
using a towing dolly) is NOT ALLOWED. The only
acceptable method for towing this vehicle (behind another
vehicle) is on a vehicle trailer with all four wheels OFF the
ground.DRIVING TIPS
DRIVING ON SLIPPERY SURFACES
Information in this section will aid in safe controlled
launches in adverse conditions.
Acceleration
Rapid acceleration on snow covered, wet, or other slippery
surfaces may cause the driving wheels to pull erratically to
the right or left. This phenomenon occurs when there is a
difference in the surface traction under the front (driving)
wheels.
Traction
When driving on wet or slushy roads, it is possible for a
wedge of water to build up between the tire and road
surface. This is hydroplaning and may cause partial or
complete loss of vehicle control and stopping ability. To
reduce this possibility, the following precautions should be
observed:
 Slow down during rainstorms or when the roads are
slushy.
 Slow down if the road has standing water or puddles.
 Replace the tires when tread wear indicators first
become visible.
 Keep tires properly inflated.
 Maintain sufficient distance between your vehicle and
the vehicle in front of you to avoid a collision in a
sudden stop.
CAUTION!
Towing this vehicle with ANY of its wheels on the ground
can cause severe transmission and/or power transfer
unit damage. Damage from improper towing is not
covered under the New Vehicle Limited Warranty.
WARNING!
Rapid acceleration on slippery surfaces is dangerous.
Unequal traction can cause sudden pulling of the front
wheels. You could lose control of the vehicle and
possibly have a collision. Accelerate slowly and carefully
whenever there is likely to be poor traction (ice, snow,
wet, mud, loose sand, etc.).
4

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188SAFETY
ELECTRONIC BRAKE CONTROL (EBC)
S
YSTEM
Your vehicle is equipped with an advanced Electronic
Brake Control (EBC) system. This system includes
Anti-Lock Brake System (ABS), Brake Assist System (BAS),
Electronic Brake Force Distribution (EBD), Electronic Roll
Mitigation (ERM), Electronic Stability Control (ESC), Hill
Start Assist (HSA), and Traction Control System
(TCS).These systems work together to enhance both
vehicle stability and control in various driving conditions.
Your vehicle may also be equipped with Dynamic Steering
Torque (DST), Ready Alert Braking (RAB), Rain Brake
Support (RBS) and Trailer Sway Control (TSC).
Brake Assist System (BAS)
The BAS is designed to optimize the vehicle’s braking
capability during emergency braking maneuvers. The
system detects an emergency braking situation by sensing
the rate and amount of brake application and then applies
optimum pressure to the brakes. This can help reduce
braking distances. The BAS complements the Anti-Lock
Brake System (ABS). Applying the brakes very quickly
results in the best BAS assistance. To receive the benefit
of the system, you must apply continuous braking
pressure during the stopping sequence (do not “pump”
the brakes). Do not reduce brake pedal pressure unless
braking is no longer desired. Once the brake pedal is
released, the BAS is deactivated.
Brake System Warning Light
The red Brake System Warning Light will turn on when the
ignition is placed in the ON/RUN mode and may stay on for
as long as four seconds.
If the Brake System Warning Light remains on or comes on
while driving, it indicates that the 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 placed in the ON/RUN mode,
have the light repaired as soon as possible.
Dynamic Steering Torque (DST)
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 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)
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.
WARNING!
The Brake Assist System (BAS) cannot prevent the
natural laws of physics from acting on the vehicle, nor
can it increase the traction afforded by prevailing road
conditions. BAS cannot prevent collisions, including
those resulting from excessive speed in turns, driving
on very slippery surfaces, or hydroplaning. The
capabilities of a BAS-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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