2020 JEEP COMPASS steering wheel

163
Base Instrument Cluster Display — If Equipped
When the LaneSense system is on, the lane
lines are grey when both of the lane bound-
aries have not been detected and the Lane -
Sense telltale is solid white.
Left Lane Departure — Only Left Lane Detected
When the LaneSense system is on, the
LaneSense telltale is solid white when
only the left lane marking has been
detected and the system is ready to
provide visual warnings in the instrument
cluster display if an unintentional lane
departure occurs.
When the LaneSense system senses the
lane has been approached and is in a lane
departure situation, the left thick lane line
flashes from white to grey, the left thin
line remains solid white and the Lane-
Sense telltale changes from solid white
to flashing yellow.
NOTE:
The LaneSense system operates with the
similar behavior for a right lane departure
when only the right lane marking has been
detected. Left Lane Departure — Both Lanes Detected

When the LaneSense system is on, the
lane lines turn from grey to white to indi-
cate that both of the lane markings have
been detected. The LaneSense telltale
is solid green when both lane markings
have been detected and the system is
“armed” to provide visual warnings in the
instrument cluster display and a torque
warning in the steering wheel if an unin -
tentional lane departure occurs.
When the LaneSense system senses a lane
drift situation, the left thick lane line and
the left thin line turn solid white. The
LaneSense telltale changes from solid
green to solid yellow. At this time torque is
applied to the steering wheel in the oppo-
site direction of the lane boundary.
For example: if approaching the left side
of the lane the steering wheel will turn to
the right.
When the LaneSense system senses the
lane has been approached and is in a lane
departure situation, the left thick lane line
flashes from white to grey, the left thin
line remains solid white and the Lane-
Sense telltale changes from solid yellow to flashing yellow. At this time
torque is applied to the steering wheel in
the opposite direction of the lane
boundary.
For example: if approaching the left side
of the lane the steering wheel will turn to
the right.
NOTE:
The LaneSense system operates with the
similar behavior for a right lane departure.
Premium Instrument Cluster Display — If
Equipped
When the LaneSense system is on, the lane
lines are grey when both of the lane bound -
aries have not been detected and the Lane -
Sense telltale is solid white.
Left Lane Departure — Only Left Lane Detected
When the LaneSense system is on, the
LaneSense telltale is solid white when
only the left lane marking has been
detected and the system is ready to
provide visual warnings in the instrument
cluster display if an unintentional lane
departure occurs.
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STARTING AND OPERATING
164
When the LaneSense system senses the
lane has been approached and is in a lane
departure situation, the left thick lane line
flashes yellow, the left thin line remains
solid yellow and the LaneSense telltale
changes from solid white to flashing
yellow.
NOTE:
The LaneSense system operates with the
similar behavior for a right lane departure
when only the right lane marking has been
detected.
Left Lane Departure — Both Lanes Detected
When the LaneSense system is on, the
lane lines turn from grey to white to indi-
cate that both of the lane markings have
been detected. The LaneSense telltale
is solid green when both lane markings
have been detected and the system is
“armed” to provide visual warnings in the
instrument cluster display and a torque
warning in the steering wheel if an unin -
tentional lane departure occurs.
When the LaneSense system senses a lane
drift situation, the left thick lane line and
left thin line turn solid yellow. The Lane-
Sense telltale changes from solid green to solid yellow. At this time torque is
applied to the steering wheel in the oppo-
site direction of the lane boundary.
For example: if approaching the left side
of the lane the steering wheel will turn to
the right.
When the LaneSense system senses the
lane has been approached and is in a lane
departure situation, the left thick lane line
flashes yellow and the left thin line
remains solid yellow. The LaneSense tell
-
tale stays solid yellow. At this time
torque is applied to the steering wheel in
the opposite direction of the lane
boundary.
For example: if approaching the left side
of the lane the steering wheel will turn to
the right.
NOTE:
The LaneSense system operates with the
similar behavior for a right lane departure.
Changing LaneSense Status
The LaneSense system has settings to adjust
the intensity of the torque warning (Low/
Medium/High) and the warning zone sensi -
tivity (Early/Medium/Late) that you can
configure through the Uconnect system screen. Refer to “Uconnect Settings” in
“Multimedia” in the Owner’s Manual for
further details.
NOTE:
The system will not apply torque to the
steering wheel whenever a safety system
engages (Anti-Lock Brakes, Traction
Control System, Electronic Stability
Control, Forward Collision Warning, etc.).
Use of the turn signals and Hazard
Warning flashers also suppresses the
warnings.
PARKVIEW REAR BACK UP
CAMERA — IF EQUIPPED
You can see an on-screen image of the rear
of your vehicle whenever the transmission is
shifted into REVERSE. The ParkView Rear
Back Up Camera image will be displayed on
the Uconnect Display, located on the center
stack of the instrument panel.
If the Uconnect Display appears foggy, clean
the camera lens located on the rear of the
vehicle above the rear license plate
Refer to “ParkView Back Up Camera” in
“Starting And Operating” in your Owner's
Manual for further information.
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172
Tongue Weight (TW)
The tongue weight is the downward force
exerted on the hitch ball by the trailer. You
must consider this as part of the load on your
vehicle.
Trailer Frontal Area
The frontal area is the maximum height
multiplied by the maximum width of the
front of a trailer.
Trailer Sway Control
The trailer sway control can be a mechanical
telescoping link that can be installed
between the hitch receiver and the trailer
tongue that typically provides adjustable fric-
tion associated with the telescoping motion
to dampen any unwanted trailer swaying
motions while traveling.
If equipped, the electronic Trailer Sway
Control (TSC) recognizes a swaying trailer
and automatically applies individual wheel
brakes and/or reduces engine power to
attempt to eliminate the trailer sway.
Weight-Carrying Hitch
A weight-carrying hitch supports the trailer
tongue weight, just as if it were luggage
located at a hitch ball or some other
connecting point of the vehicle. These kinds
of hitches are the most popular on the
market today and they are commonly used to
tow small and medium sized trailers.
Weight-Distributing Hitch
A weight-distributing system works by
applying leverage through spring (load) bars.
They are typically used for heavier loads to
distribute trailer tongue weight to the tow
vehicle's front axle and the trailer axle(s).
When used in accordance with the manufac -
turer's directions, it provides for a more level
ride, offering more consistent steering and
brake control thereby enhancing towing
safety. The addition of a friction/hydraulic
sway control also dampens sway caused by
traffic and crosswinds and contributes posi -
tively to tow vehicle and trailer stability. Trailer sway control and a weight distributing
(load equalizing) hitch are recommended for
heavier Tongue Weights (TW) and may be
required depending on vehicle and trailer
configuration/loading to comply with Gross
Axle Weight Rating (GAWR) requirements.
WARNING!
An improperly adjusted Weight Distrib
-
uting Hitch system may reduce
handling, stability, braking performance,
and could result in a collision.
Weight Distributing Systems may not be
compatible with Surge Brake Couplers.
Consult with your hitch and trailer manu -
facturer or a reputable Recreational
Vehicle dealer for additional informa-
tion.
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STARTING AND OPERATING
174
(Continued)
(Continued)
WARNING!
Make certain that the load is secured in
the trailer and will not shift during travel.
When trailering cargo that is not fully
secured, dynamic load shifts can occur
that may be difficult for the driver to
control. You could lose control of your
vehicle and have a collision.
When hauling cargo or towing a trailer,
do not overload your vehicle or trailer.
Overloading can cause a loss of control,
poor performance or damage to brakes,
axle, engine, transmission, steering,
suspension, chassis structure or tires.
Safety chains must always be used
between your vehicle and trailer. Always
connect the chains to the hook retainers
of the vehicle hitch. Cross the chains
under the trailer tongue and allow
enough slack for turning corners.

Vehicles with trailers should not be
parked on a grade. When parking, apply
the parking brake on the tow vehicle. Put
the tow vehicle transmission in PARK. For
four-wheel drive vehicles, make sure the
transfer case is not in NEUTRAL. Always,
block or "chock" the trailer wheels.

WARNING! (Continued)
GCWR must not be exceeded.
Total weight must be distributed between
the tow vehicle and the trailer such that the
following four ratings are not exceeded
:
GVWR
GTW
GAWR
Tongue weight rating for the trailer
hitch utilized.
WARNING! (Continued)
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IN CASE OF EMERGENCY
188
On the Rear Cargo Fuse/Relay Distribution Unit bracket, there is a Maxi Fuse holder for the Power Liftgate and an ATO / UniVal fuse holder
for the HIFI Audio System.F6
7.5 Amp Brown Power Lumbar (Power Seats)
F7 15 Amp Blue Heated Steering Wheel / Ventilated Seats
F8 20 Amp Yellow Heated Seats
Fuse Holder No. 2
CavityMini Fuse Description
F110 Amp RedTTM IGN Feed
F5 15 Amp Blue Controller Exterior Lighting Lights (Drivers Side)
F6 15 Amp Blue Controller Exterior Lighting Lights (Passenger Side)
F7 10 Amp RedTTM Jumper Battery Feed (*)
Cavity Maxi Fuse Description
F0130 Amp Green Power Liftgate
CavityATO / UniVal Fuse Description
F0225 Amp Clear HIFI Audio System
Fuse Holder No. 1
CavityMini Fuse Description
2020_JEEP_M6_UG_UK.book Page 188

199
3. After pushing the Power Button, thesealant (white fluid) will flow from the
Sealant Bottle through the Sealant Hose
and into the tire.
NOTE:
Sealant may leak out through the puncture in
the tire.
If the sealant (white fluid) does not flow within
0 – 10 seconds through the Sealant Hose:
1. Push the Power Button to turn the Tire Service Kit off. Disconnect the Sealant
Hose from the valve stem. Make sure the
valve stem is free of debris. Reconnect
the Sealant Hose to the valve stem.
Check that the Mode Select Knob is in
the Sealant Mode position and not Air
Mode. Push the Power Button to turn the
Tire Service Kit on.
2. Connect the Power Plug to a different 12 Volt power outlet in your vehicle or
another vehicle, if available. Make sure
the vehicle is running before turning the
Tire Service Kit on.
3. The Sealant Bottle may be empty due to previous use. Call for assistance. If the sealant (white fluid) does flow through the
Sealant Hose:
1. Continue to operate the pump until
sealant is no longer flowing through
hose (typically takes 30 - 70 seconds).
As the sealant flows through the Sealant
Hose, the Pressure Gauge can read as
high as 70 psi (4.8 Bar). The Pressure
Gauge will decrease quickly from
approximately 70 psi (4.8 Bar) to the
actual tire pressure when the Sealant
Bottle is empty.
2. The pump will start to inject air into the tire immediately after the Sealant Bottle
is empty. Continue to operate the pump
and inflate the tire to the cold tire infla -
tion pressure found on the tire and
loading information label located in the
driver-side door opening. Check the tire
pressure by looking at the Pressure
Gauge.
If the tire does not inflate to at least 26 psi (1.8
Bar) pressure within 15 minutes:
The tire is too badly damaged. Do not
attempt to drive the vehicle further. Call
for assistance. If the tire inflates to the recommended pressure
or is at least 26 psi (1.8 Bar) pressure within
15 minutes:
NOTE:
If the tire becomes over-inflated, push the
Deflation Button to reduce the tire pressure
to the recommended inflation pressure
before continuing.
1. Push the Power Button to turn off the
Tire Service Kit.
2. Remove the speed limit label from the Tire Service Kit and place sticker on the
steering wheel.
3. Immediately disconnect the Sealant Hose from the valve stem, reinstall the
cap on the fitting at the end of the hose,
and place the Tire Service Kit in the
vehicle storage location. Proceed to
“Drive Vehicle.”
Drive Vehicle:
Immediately after injecting sealant and
inflating the tire, drive the vehicle 5 miles
(8 km) or 10 minutes to ensure distribution
of the Tire Service Kit Sealant within the tire.
Do not exceed 50 mph (80 km/h).
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IN CASE OF EMERGENCY
200
After Driving:
Pull over to a safe location. Refer to “When-
ever You Stop To Use Tire Service Kit” in this
section before continuing.
1. Uncoil the Sealant Hose, and then remove the cap from the fitting at the end
of the hose.
2. Place the Tire Service Kit flat on the ground next to the deflated tire.
3. Remove the cap from the valve stem, and then screw the fitting at the end of the
Sealant Hose onto the valve stem.
4. Uncoil the power plug and insert the plug into the vehicle's 12 Volt power outlet. 5. Uncoil the Hose and screw the fitting at
the end of the hose onto the valve stem.
6. Turn the Mode Select Knob and turn to the Air Mode position.
7. Check the pressure in the tire by reading the Pressure Gauge.
If tire pressure is less than 19 psi (1.3 Bar):
The tire is too badly damaged. Do not
attempt to drive the vehicle further. Call for
assistance.
If the tire pressure is 19 psi (1.3 Bar) or higher:
1. Push the Power Button to turn on Tire Service Kit and inflate the tire to the cold
tire inflation pressure found on the tire
and loading information label located in
the driver-side door opening.
NOTE:
If the tire becomes over-inflated, push the
Deflation Button to reduce the tire pressure
to the recommended inflation pressure
before continuing.
2. Disconnect the Tire Service Kit from the valve stem, reinstall the cap on the valve
stem and unplug from 12 Volt outlet. 3. Place the Tire Service Kit in its proper
storage area in the vehicle.
4. Have the tire inspected and repaired or replaced at the earliest opportunity at an
authorized dealer or tire service center.
5. Remove the Speed Limit sticker from the steering wheel after the tire has been
repaired.
6. Replace the Sealant Bottle at an autho -
rized dealer as soon as possible. Refer to
“Sealant Bottle Replacement”.
NOTE:
When having the tire serviced, advise the
authorized dealer or service center that the
tire has been sealed using the Tire Service
Kit.
WARNING!
The Tire Service Kit is not a permanent flat
tire repair. Have the tire inspected and
repaired or replaced after using the Tire
Service Kit. Do not exceed 50 mph
(80 km/h) until the tire is repaired or
replaced. Failure to follow this warning
can result in injuries that are serious or
fatal to you, your passengers, and others
around you. Have the tire checked as soon
as possible at an authorized dealer.
WARNING!
You must always indicate that the tire was
repaired using the Tire Service Kit. Give
the booklet to the technicians who will be
handling the tire that was treated using
the Tire Service Kit.
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IN CASE OF EMERGENCY
206
FREEING A STUCK VEHICLE
If your vehicle becomes stuck in mud, sand
or snow, it can often be moved using a
rocking motion. Turn the steering wheel right
and left to clear the area around the front
wheels. For vehicles with automatic trans-
mission, push and hold the lock button on
the gear selector. Then shift back and forth
between DRIVE (D) and REVERSE (R) (for
automatic transmission) or SECOND GEAR
and REVERSE (for manual transmission)
while gently pressing the accelerator.
NOTE:
For vehicles with automatic transmission,
shifts between DRIVE (D) and REVERSE (R)
can only be achieved at wheel speeds of
5 mph (8 km/h) or less. Whenever the trans -
mission remains in NEUTRAL (N) for more
than two seconds, you must press the brake
pedal to engage DRIVE or REVERSE.
Use the least amount of accelerator pedal
pressure that will maintain the rocking
motion without spinning the wheels or racing
the engine. NOTE:
Push the “ESC Off” switch (if necessary), to
place the Electronic Stability Control (ESC)
system in “Partial Off” mode, before rocking
the vehicle. Refer to “Electronic Brake
Control System” in “Safety” in the Owner’s
Manual for further information. Once the
vehicle has been freed, push the “ESC Off”
switch again to restore “ESC On” mode.
WARNING!
Fast spinning tires can be dangerous.
Forces generated by excessive wheel
speeds may cause damage, or even failure,
of the axle and tires. A tire could explode
and injure someone. Do not spin your
vehicle's wheels faster than 30 mph
(48 km/h) or for longer than 30 seconds
continuously without stopping when you
are stuck and do not let anyone near a
spinning wheel, no matter what the speed.
CAUTION!
Racing the engine or spinning the wheels
may lead to transmission overheating
and failure. Allow the engine to idle with
the transmission in NEUTRAL for at
least one minute after every five
rocking-motion cycles. This will mini
-
mize overheating and reduce the risk of
clutch or transmission failure during
prolonged efforts to free a stuck vehicle.
When “rocking” a stuck vehicle by
shifting between DRIVE/SECOND gear
and REVERSE, do not spin the wheels
faster than 15 mph (24 km/h), or drive -
train damage may result.
Revving the engine or spinning the
wheels too fast may lead to transmission
overheating and failure. It can also
damage the tires. Do not spin the wheels
above 30 mph (48 km/h) while in gear
(no transmission shifting occurring).
2020_JEEP_M6_UG_UK.book Page 206