Torque JEEP RENEGADE 2017 1.G Owners Manual
[x] Cancel search | Manufacturer: JEEP, Model Year: 2017, Model line: RENEGADE, Model: JEEP RENEGADE 2017 1.GPages: 516, PDF Size: 5.73 MB
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WARNING!(Continued)
•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.
ABS is designed to function with the OEM tires. Modifica-
tion may result in degraded ABS performance.
Anti-Lock Brake Warning Light
The yellow “Anti-Lock Brake Warning Light” will turn on
when the ignition is turned to the ON/RUN mode and
may stay on for as long as four seconds.
If the “Anti-Lock Brake Warning Light” remains on or
comes on while driving, it indicates that the anti-lock
portion of the brake system is not functioning and that
service is required. However, the conventional brake sys-
tem will continue to operate normally if the “Brake System
Warning Light” is not on.
If the “Anti-Lock Brake Warning Light” is on, the brake
system should be serviced as soon as possible to restore the benefits of anti-lock brakes. If the “Anti-Lock Brake Warn-
ing Light” does not come on when the ignition is turned to
the ON/RUN mode, have the light repaired as soon as
possible.
Electronic Brake Control System
Your vehicle is equipped with an advanced Electronic
Brake Control system (EBC). This system includes Anti-
Lock Brake System (ABS), Brake Assist System (BAS), Hill
Start Assist (HSA), Traction Control System (TCS), Elec-
tronic Stability Control (ESC), and Electronic Roll Mitiga-
tion (ERM). These systems work together to enhance both
vehicle stability and control in various driving conditions.
Your vehicle may also be equipped with Trailer Sway
Control (TSC), Dynamic Steering Torque (DST), and Hill
Descent Control (HDC).
Brake Assist System (BAS)
The BAS is designed to optimize the vehicle’s braking
capability during emergency braking maneuvers. The sys-
tem 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
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Electronic Roll Mitigation (ERM)
This system 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 will only
intervene during very severe or evasive driving maneu-
vers. ERM can only reduce the chance of wheel lift occur-
ring during severe or evasive driving maneuvers. It cannot
prevent wheel lift due to other factors, such as road
conditions, leaving the roadway, or striking objects or other
vehicles.
NOTE:ERM is disabled anytime the ESC is in “Full Off”
mode. Refer to Electronic Stability Control (ESC) in this
section for a complete explanation of the available ESC
modes.
WARNING!
Many factors, such as vehicle loading, road conditions,
and driving conditions, influence the chance that
(Continued)
WARNING! (Continued)
wheel lift or rollover may occur. Electronic Roll Miti-
gation (ERM) cannot prevent all wheel lift or rollovers,
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.
Traction Control System (TCS)
This system monitors the amount of wheel spin of each of
the driven wheels. If wheel spin is detected, brake pressure
is applied to the slipping wheel(s) and engine power is
reduced to provide enhanced acceleration and stability. A
feature of the TCS system, 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 engine torque to be applied to the wheel
that is not spinning. This feature remains active even if TCS
and ESC are in the “Partial Off” mode or the “Full Off”
mode. Refer to “Electronic Stability Control (ESC)” in this
section for further information.
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Dynamic Steering Torque (DST)
The DST function uses the integration of the ESC system
with the electric power steering to increase the safety level
of the whole car. In critical situations (understeering,
oversteering, braking with different grip conditions),
through the DST function the ESC system controls the
steering to implement an additional torque contribution on
the steering wheel, to suggest the most correct maneuver to
the driver. The coordinated action of brakes and steering
increases the safety and car control feeling.
NOTE:The DST is a driving aid system and does not
replace the driver ’s actions while driving the car.
Hill Descent Control (HDC) — If Equipped
HDC is intended for low speed off road driving while in
4WD Low Range. HDC maintains vehicle speed while
descending hills during various driving situations. HDC
controls vehicle speed by actively controlling the brakes.
HDC has three states:
1. Off (feature is not enabled and will not activate).
Hill Descent Control (Trailhawk)
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If the transmission temperature exceeds normal operating
limits, the transmission controller may modify the trans-
mission shift schedule, reduce engine torque, and/or ex-
pand the range of torque converter clutch engagement.
This is done to prevent transmission damage due to
overheating.
If the transmission becomes extremely hot, the “Transmis-
sion Temperature Warning Light” may illuminate and the
transmission may operate differently until the transmission
cools down.
During cold temperatures, transmission operation may be
modified depending on engine and transmission tempera-
ture as well as vehicle speed. This feature improves warm
up time of the engine and transmission to achieve maxi-
mum efficiency. Engagement of the torque converter
clutch, and shifts into 8th or 9th gear, are inhibited until the
transmission fluid is warm. Normal operation will resume
once the transmission temperature has risen to a suitable
level.
AutoStick
AutoStick is a driver-interactive transmission feature pro-
viding manual shift control, giving you more control of the
vehicle. AutoStick allows you to maximize engine braking,eliminate undesirable upshifts and downshifts, and im-
prove overall vehicle performance. This system can also
provide you with more control during passing, city driv-
ing, cold slippery conditions, mountain driving, trailer
towing and many other situations.
Operation
When the gear selector is in the AutoStick position (beside
the DRIVE position), it can be moved forward and rear-
ward. This allows the driver to manually select the trans-
mission gear being used. Moving the gear selector forward
(-) triggers a downshift, and rearward (+) an upshift. The
current gear is displayed in the instrument cluster.
NOTE:
In AutoStick mode, the transmission will only shift
up or down when the driver moves the gear selector
rearward (+) or forward (-), except as described below.
• The transmission will automatically upshift when nec-
essary to prevent engine overspeed.
• The transmission will automatically downshift as the
vehicle slows (to prevent engine lugging) and will
display the current gear.
• The transmission will automatically downshift to first or
second gear (depending on model) when coming to a
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CAUTION!
•ParkSense is only a parking aid and it is unable to
recognize every obstacle, including small obstacles.
Parking curbs might be temporarily detected or not
detected at all. Obstacles located above or below the
sensors will not be detected when they are in close
proximity.
• The vehicle must be driven slowly when using
ParkSense in order to be able to stop in time when an
obstacle is detected. It is recommended that the
driver looks over his/her shoulder when using
ParkSense.
If it’s necessary to keep the trailer hitch and hitch ball
assembly mounted for a long period, it is possible to filter
out the trailer hitch and hitch ball assembly presence in
sensor field of view. The filtering operation must be
performed only by an authorized dealer.
LANESENSE — IF EQUIPPED
LaneSense Operation
The LaneSense system is operational at speeds above
37 mph (60 km/h) and below 112 mph (180 km/h). The LaneSense system uses a forward looking camera to detect
lane markings and measure vehicle position within the
lane boundaries.
When both lane markings are detected and the driver
unintentionally drifts out of the lane (no turn signal
applied), the LaneSense system provides a haptic warning
in the form of torque applied to the steering wheel to
prompt the driver to remain within the lane boundaries. If
the driver continues to unintentionally drift out of the lane,
the LaneSense system provides a visual warning through
the instrument cluster display to prompt the driver to
remain within the lane boundaries.
The driver may manually override the haptic warning by
applying torque into the steering wheel at any time.
When only a single lane marking is detected and the driver
unintentionally drifts across the lane marking (no turn
signal applied), the LaneSense system provides a visual
warning through the instrument cluster display to prompt
the driver to remain within the lane. When only a single
lane marking is detected, a haptic (torque) warning will not
be provided.
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•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 gray, the left thin
line remains solid white 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 gray to white to indicate 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 unintentional lane departure
occurs.
Lane Approached (Flashing White To Gray Thick
Line/Flashing Yellow Telltale)
Lanes Sensed (White Lines/Green Telltale)
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•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 opposite 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 gray, the left thin line remains solid white and the LaneSense 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.
Lane Sensed (Solid White Thick Line, Solid White Thin
Line/Solid Yellow Telltale)
Lane Approached (Flashing White To Gray Thick Line,Solid White Thin Line/Flashing Yellow Telltale)
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Left Lane Departure — Both Lanes Detected
•When the LaneSense system is on, the lane lines turn
from gray to white to indicate 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 unintentional 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 LaneSense telltale changes from solid green to 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.
• When the LaneSense system senses the lane has been
approached and is in a lane departure situation, the left
thick lane line flashes yellow (on/off) and the left thin
line remains solid yellow. The LaneSense 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.
Lanes Sensed (White Lines/Green Telltale)
Lane Sensed (Solid Yellow Thick Line, Solid Yellow Thin
Line/Solid Yellow Telltale)
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•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 and the warning zone sensitivity
(early/late) that you can configure through the Uconnect
system screen. Refer to “Uconnect Settings” in “Multime-
dia” for further information. NOTE:
•
When enabled the system operates above 37 mph
(60 km/h) and below 112 mph (180 km/h).
• Use of the turn signal suppresses the warnings.
• The system will not apply torque to the steering wheel
whenever a safety system engages. (anti-lock brakes,
traction control system, electronic stability control, for-
ward collision warning, etc.).
REAR BACK UP CAMERA — IF EQUIPPED
The Rear Back Up Camera allows you to see an on-screen
image of your vehicle’s rear surroundings when the gear
selector is put into REVERSE. The image will be displayed
on the touchscreen display along with a note to “Check
Entire Surroundings” across the top of the screen. After five
seconds, this note will disappear. The camera is located
above the rear license plate.
Lane Approached (Flashing Yellow Thick Line, Solid
Yellow Thin Line/Flashing Yellow Telltale)
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NOTE:If snow, ice, mud, or any foreign substance builds
up on the camera lens, clean the lens, rinse with water, and
dry with a soft cloth. Do not cover the lens.
WARNING!
Drivers must be careful when backing up even when
using the Rear Back Up Camera. Always check care-
fully behind your vehicle, and be sure to check for
pedestrians, animals, other vehicles, obstructions, or
blind spots before backing up. You are responsible for
the safety of your surroundings and must continue to
pay attention while backing up. Failure to do so can
result in serious injury or death.
CAUTION!
• To avoid vehicle damage, Rear Back Up Camera
should only be used as a parking aid. The Rear Back
Up Camera is unable to view every obstacle or object
in your drive path.
• To avoid vehicle damage, the vehicle must be driven
slowly when using the Rear Back Up Camera to be
able to stop in time when an obstacle is seen. It is
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CAUTION! (Continued)
recommended that the driver look frequently over
his/her shoulder when using the Rear Back Up
Camera.
FOUR WHEEL DRIVE — JEEP ACTIVE DRIVE
(4WD) AND JEEP ACTIVE DRIVE LOW (4WD LOW)
Your vehicle may be equipped with a Power Transfer Unit
(PTU). This 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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