lock Ram 3500 2020 Owners Manual

258STARTING AND OPERATING
(Continued)
OPERATION
Pushing the Alternate Trailer Height (ATH)
button once while at Normal Ride Height (NRH),
will lower the vehicle to Alternate Trailer Height
(ATH) and will illuminate the LED.
NOTE:
The LED will continuously blink until vehicle
Alternate Trailer Height (ATH) has been
achieved and the LED will turn on.
Pushing the Alternate Trailer Height (ATH) again
will raise the vehicle to Normal Ride Height
(NRH).
NOTE:
The LED will continuously blink until Normal
Ride Height (NRH) has been achieved and the
LED will turn off.
Transport Mode – No indicator lamps will be
illuminated. Transport Mode is disabled by
driving the vehicle, or deselecting the mode
via the interface.
Tire/Jack Mode – No indicator lamps will be
illuminated. Tire/Jack Mode is disabled by
driving the vehicle, or by deselecting the
mode via the interface.
Wheel Alignment Mode – No indicator lamps
will be illuminated. Wheel Alignment Mode is
disabled by driving the vehicle, or by dese-
lecting the mode via the interface.
Bed Lowering Mode – Telltale on the cluster
will be illuminated. Bed Lowering Mode is
disabled by driving the vehicle, or deselecting
the mode via the interface.
AXLE LOCKER SYSTEM — POWER WAGON
MODELS ONLY (IF EQUIPPED)
This vehicle is equipped with electronically
locking front and rear differentials. These
differentials, when engaged, mechanically lock
together the axle shafts forcing the wheels to
spin at an equal rate. This allows the vehicle to
maintain its momentum and prevents it from
becoming stuck. The locking front and rear
differentials should only be engaged during
low-speed, extreme off-road situations where
one wheel is likely to not be in contact with the
ground. It is not recommended to drive the
vehicle with the differentials locked on pavement due to the reduced ability to turn and
speed limitations.

Axle Lock Selector

1 — FRONT/REAR LOCK – the front and rear axles
are locked
2 — REAR LOCK – the rear axle is locked
3 — AXLE UNLOCK – the front and rear axles are
unlocked
CAUTION!
Do not lock the front or rear axle on hard
surfaced roads. The ability to steer the
vehicle is reduced and damage to the drive -
train may occur when the axles are locked
on hard surfaced roads.

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STARTING AND OPERATING259
The locking axles are controlled by the axle lock
buttons.
Under normal driving conditions, the vehicle
should be left in the AXLE UNLOCK position.
NOTE:
Even when the axles are in the AXLE UNLOCK
position, the limited slip differential in the rear
axle still provides torque biasing capability for
moderate low traction environments.
During the command to lock the axle, the
indicator light will flash until the axle is locked.
After the lock command has been successfully
executed, the light will remain on solid. To lock the rear axle, place the vehicle in 4WD
LOW, 4WD HIGH or 2WD. Refer to “Four Wheel
Drive Operation” in “Starting And Operating” for
further information. Push the REAR LOCK
button while traveling less than 10 mph
(16 km/h). The REAR LOCK indicator light will
remain on when the rear axle is locked.
NOTE:
Left to right wheel speed difference may be
necessary to allow the axle to fully lock. If the
indicator light is flashing after placing the
vehicle in the REAR LOCK or FRONT/REAR LOCK
position, drive the vehicle in a turn or on loose
gravel to expedite the locking action.
To lock the front axle, push the FRONT/REAR
LOCK button while traveling less than 10 mph
(16 km/h) in 4WD LOW. The FRONT/REAR
LOCK indicator light will be solid when the front
axle is locked.
NOTE:
The rear axle must be locked before the front
axle will lock.
When both the axles are locked, to unlock the
front axle, push the REAR LOCK button while in
4WD LOW. The FRONT/REAR LOCK indicator
light will go out when the axle is unlocked.
NOTE:
The axle lockers could be torque locked due to
side to side loads on the axle. Driving slowly
while turning the steering wheel from a left
hand turn to a right hand turn or driving in
REVERSE for a short distance may be required
to release the torque lock and unlock the axles.
To unlock the rear axle, push the AXLE UNLOCK
button. The REAR LOCK indicator light will go
out when the rear axle is unlocked.
Do not try to lock the rear axle if the vehicle
is stuck and the tires are spinning. You can
damage drivetrain components. Lock the
rear axle before attempting situations or
navigating terrain, which could possibly
cause the vehicle to become stuck.
CAUTION!
(Continued)
WARNING!
Do not use the locked axle position for normal
driving. A locked front axle is intended for
off-road driving only. Locking the front axle
during on-road driving will reduce the steering
ability. This could cause a collision and you
may be seriously injured.
5

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260STARTING AND OPERATING
STABILIZER/SWAY BAR SYSTEM — POWER
WAGON ONLY
Your vehicle is equipped with an electronic
disconnecting stabilizer/sway bar. This system
allows greater front suspension travel in
off-road situations.
Due to the use of taller springs, this vehicle has
an increased ride height of approximately
1.9 inches (48.3 mm) in the front and
1.5 inches (38.1 mm) in the rear. A major advantage to increasing ride height is the
positive effect it has on approach/departure
and break over angles.
This system is controlled by the electronic
control sway bar switch located below the
instrument panel.

Sway Bar Disconnect Button
Push the SWAY BAR switch to activate the
system. Push the switch again to deactivate the
system. The “Sway Bar Indicator Light” (located
in the instrument cluster) will illuminate when
the bar is disconnected. The “Sway Bar
Indicator Light” will flash during activation
transition, or when activation conditions are not
met. The stabilizer/sway bar should remain in
on-road mode during normal driving conditions.
To disconnect the stabilizer/sway bar, shift to
either 4WD HIGH or 4WD LOW and push the
SWAY BAR button to obtain the Off-Road
position. Refer to “Four Wheel Drive Operation”
in “Starting And Operating” for further
information. The “Sway Bar Indicator Light” will
flash until the stabilizer/sway bar has been fully
disconnected.
NOTE:
The stabilizer/sway bar may be torque locked
due to left and right suspension height differ
-
ences. This condition is due to driving surface
differences or vehicle loading. In order for the
stabilizer/sway bar to disconnect/reconnect,
the right and left halves of the bar must be
aligned. This alignment may require that the
vehicle be driven onto level ground or rocked
from side to side.
To return to the On-Road mode, push the SWAY
BAR button again.
WARNING!
Do not disconnect the stabilizer bar and drive
on hard surfaced roads or at speeds above
18 mph (29 km/h), you may lose control of
the vehicle, which could result in serious
injury or death. The front stabilizer bar
enhances vehicle stability and assists in
maintaining control of the vehicle. The system
monitors vehicle speed and will attempt to
reconnect the stabilizer bar at speeds over
18 mph (29 km/h). This is indicated by a
flashing off road light and solid on road light.
Once vehicle speed is reduced below 14 mph
(22 km/h), the system will attempt to return
to the Off-Road mode.

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STARTING AND OPERATING265
case into 4WD LOW and proceed with
caution. You should use first gear and 4WD
LOW for very steep hills.
Driving Uphill – Once you have determined
your ability to proceed and have shifted into
the appropriate gear, line your vehicle up for
the straightest possible run. Accelerate with
an easy constant throttle and apply more
power as you start up the hill. Do not race
forward into a steep grade, the abrupt
change of grade could cause you to lose
control. If the front end begins to bounce,
ease off the throttle slightly to bring all four
tires back on the ground. As you approach
the crest of the hill ease off the throttle and
slowly proceed over the top. If the wheels
start to slip as you approach the crest of a
hill, ease off the accelerator and maintain
headway by turning the steering wheel no
more than a quarter turn quickly back and
forth. This will provide a fresh "bite" into the
surface and will usually provide enough trac -
tion to complete the climb. If you do not make
it to the top, place the vehicle in REVERSE
and back straight down the grade using
engine resistance along with the vehicle
brakes.
Driving Downhill – Before driving down a
steep hill you need to determine if it is too
steep for a safe descent. What is the surface
traction? Is the grade too steep to maintain a
slow controlled descent? Are there obsta -
cles? Is it a straight descent? Is there plenty
of distance at the base of the hill to regain
control if the vehicle descends too fast? If
you feel confident in your ability to proceed
then make sure you are in 4WD LOW with the
transmission in FIRST gear (manually select
FIRST gear on automatic transmissions) and
proceed with caution. Allow engine braking to
control the descent and apply your brakes if
necessary, but do not allow the tires to lock.
Driving Across An Incline – If at all possible
avoid driving across an incline. If it is neces -
sary, know your vehicle's abilities. Driving
across an incline places more weight on the
downhill wheels, which increases the possi -
bilities of a downhill slide or rollover. Make
sure the surface has good traction with firm
and stable soils. If possible transverse the
incline at an angle heading slightly up or
down.
WARNING!
Never attempt to climb a hill at an angle or
turn around on a steep grade. Driving across
an incline increases the risk of a roll over,
which may result in severe injury or death.
WARNING!

Do not descend a steep grade in NEUTRAL. Use
vehicle brakes in conjunction with engine
braking. Descending a grade too fast could
cause you to lose control and be seriously
injured or killed.

WARNING!
Driving across an incline increases the risk of
a rollover, which may result in severe injury.
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266STARTING AND OPERATING
If You Stall Or Begin To Lose Headway – If you
stall or begin to lose headway while climbing
a steep hill, allow your vehicle to come to a
stop and immediately apply the brake.
Restart the engine and shift into REVERSE.
Back slowly down the hill allowing the
compression braking of the engine and trans -
mission to help regulate your speed. If the
brakes are required to control vehicle speed,
apply them lightly and avoid locking or skid-
ding the tires.DRIVING THROUGH WATER
Extreme care should be taken crossing any type
of water. Water crossings should be avoided if
possible and only be attempted when
necessary, in a safe responsible manner. You
should only drive through areas which are
designated and approved. You should tread
lightly and avoid damage to the environment.
You should know your vehicle's abilities and be
able to recover it if something goes wrong. You
should never stop or shut a vehicle off when
crossing deep water unless you ingested water
into the engine air intake. If the engine stalls do
not attempt to restart it. Determine if it has
ingested water first. The key to any crossing is
low and slow. You want to use FIRST gear in
4WD LOW and proceed very slowly with a
constant slow speed (3-5 mph [5–8 km/h]
maximum) and light throttle. Keep the vehicle
moving; do not try to accelerate through the
crossing. After crossing any water higher than
the bottom of the axle differentials, you should
inspect all of the vehicle fluids for signs of water
ingestion.
Before You Cross Any Type Of Water – As you
approach any type of water you need to
determine if you can cross it safely and
responsibly. If necessary, get out and walk
through the water or probe it with a stick. You
need to be sure of its depth, approach angle,
current and bottom condition. Be careful of
murky or muddy waters, check for hidden
obstacles. Make sure you will not be
intruding on any wildlife and you can recover
the vehicle if necessary. The key to a safe
crossing is the water depth, current and
bottom conditions. On soft bottoms the
vehicle will sink in, effectively increasing the
water level on the vehicle. Be sure to
consider this when determining the depth
and the ability to safely cross.
WARNING!
If the engine stalls or you lose headway or
cannot make it to the top of a steep hill or
grade, never attempt to turn around. To do so
may result in tipping and rolling the vehicle,
which may result in severe injury. Always back
carefully straight down a hill in REVERSE.
Never back down a hill in NEUTRAL using only
the vehicle brakes. Never drive diagonally
across a hill, always drive straight up or down.
CAUTION!
Water ingestion into the axles, transmission,
transfer case, engine or vehicle interior can
occur if you drive too fast or through too deep
of water. Water can cause permanent
damage to engine, driveline or other vehicle
components and your brakes will be less
effective once wet and/or muddy.

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STARTING AND OPERATING269
30 feet (6 to 9 meters) between the vehicles
to allow for a safe recovery. If necessary join
two tow straps together using a 1.5 inch hard
wood dowel. This will keep the straps from
becoming knotted and is safer than using a
clevis pin if the strap breaks. Next have the
tow vehicle backup, leaving two to three feet
worth of slack in the strap. Then the tow
vehicle, using light throttle, should accelerate
tightening the strap providing the pulling
force needed to free the vehicle. The vehicle
being recovered should assist in the
recovery, at the time of the snap, by slowly
spinning the tires in the same direction as
the pulling vehicle. After the vehicle becomes
free, the driver of the previously stuck vehicle
should signal they are free and should hit
their brakes stopping both vehicles. The
driver of the pulling vehicle should let off the
throttle without using the brakes, once
signaled by the other driver. This sequence is
important to avoid having the recovered
vehicle hit the pulling vehicle.
Winching (Refer To “Winch Operation” For
Additional Information) – Winching is most
commonly used in the following situations:
there is no support vehicle available, a high
controlled force is required to recover the
vehicle, there is a high risk of environmental
or vehicle damage, or where nothing else
seems to work. A winch can deliver a high
pulling force with a great deal of control. It
allows you to walk the vehicle out of the situ -
ation in a slow controlled manner. This
control works well for avoiding further vehicle
damage. Once you decide it is time to use the
winch look for a good anchor point. It needs
to be strong enough to hold more than the vehicle's weight and provide a direction of
pull as straight as possible. Use block and
tackle if necessary to improve the angle of
pull or increase the winch's pulling force. If
the anchor point is a tree use a strap around
its base and hook the cable to the strap. If it
is another vehicle, then place that vehicle in
PARK and block the front tires. If you cannot
find an anchor point within reach try using
your spare tire by burying it. Once you have
determined an anchor point hook up the
cable, ensuring there are a least five wraps of
cable left on the drum, and place a floor mat
or something else over the strung out cable.
Placing something over the strung out cable
helps keep the cable on the ground if it
breaks. Next, place the vehicle in FIRST gear
and apply a very light throttle as you power
the winch in. Be careful not to allow slack in
the cable as you recover the vehicle. Do not
try to guide the cable into the drum. If it starts
to bunch up on one end, let it. You can
re-spool the cable afterwards. Never use a
winch cable as a tow strap and always stand
back while winching.
WARNING!
Never use tow straps with end hooks or link
two straps with a clevis pin. These heavy
metal objects could become projectiles if a
strap breaks, which could cause severe
injury. Never leave more than 2 to 3 feet
(0.60 to 1 meter) of slack in the strap. More
slack than this greatly increases the risk of
injury and vehicle damage. Always keep
everyone at least 30 feet (9 meters) away
from a strapping or winching situation.
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272STARTING AND OPERATING
2.Remote Socket: The remote socket (which
will be located on the bumper assembly)
allows the remote control to be attached to
the control pack to allow the winch to
function.
3. Winch Drum With Integral Brake: The winch
drum allows the rope to be stored on the
winch and transmits force to the rope. The
winch is equipped with an integral brake
that will stop rotation of the winch drum if
the winch motor is stopped.
4. Synthetic Rope: The synthetic rope allows
the winch to be connected to an anchor to
provide a pulling force. This synthetic rope is
highly flexible, lightweight, and it floats.
5. Clutch Lever: The clutch lever allows the
winch drum to be disconnected from the
winch motor to allow the rope to be pulled
from the winch by hand.
6. Remote Control: The remote control
provides the interface between the winch
operator and the winch. The remote control
provides the ability to power the winch in,
out, and stop the winch. To operate the
winch, the toggle switch is pressed down to power the winch in and up to power the
winch out. The winch will stop if the switch
is left in the neutral (center) position.
Fairlead: The hawse fairlead acts as a guide for
the synthetic rope and minimizes damage to the
rope.
WINCH ACCESSORIES
The following accessories are necessary to
attach the winch to anchors, change direction of
pull, and for safe winching.
Gloves: It is extremely important to
wear protective gloves while
operating the winch or handling the
winch rope. Avoid loose fitting clothes
or anything that could become entangled in the
rope and other moving parts.
Snatch/Block Pulley: Used properly,
the multi-purpose snatch block allows
you to (1) increase the winch's pulling power; and (2) change your pulling direction
without damaging the winch rope. Proper use of
the snatch block is covered in "Before You Pull."
Clevis/D-Shackles: The D-Shackle is
a safe means of connecting the
looped ends of cables, straps and
snatch blocks. The shackle's pin is
threaded to allow easy removal.
Tree Trunk Protector: Typically made
of tough, high-quality nylon, it
provides the operator an attachment
point for the winch rope to a wide
variety of anchor points and objects, as well as
protect living trees.
Abrasion Sleeve: The abrasion sleeve is
provided with the synthetic rope and must be
used with the synthetic rope at all times to
protect the rope from potential abrasion wear.
The sleeve has a loose fit so it can easily be
positioned along the synthetic rope to protect
from rough surfaces and sharp corners.
CAUTION!
If not installed, the hook strap must be
placed on the hook.

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STARTING AND OPERATING275
5. Pull the wire to the anchor point. Pull out
enough wire rope to reach your anchor
point. To prevent losing the end, hold the
hook strap while you work.

Pulling Synthetic Rope

6. Secure to the anchor point. Once you have established your anchor point, secure the
tree-trunk protector or choker-chain around
the object.
Tree Trunk Protector

NOTE:
How to choose an anchor point: A secure
anchor is critical to winching operations. An
anchor must be strong enough to hold while
winching. Natural anchors include trees,
stumps and rocks. Hook the cable as low as
possible. If no natural anchors are available
when recovering another vehicle, your vehicle
becomes the anchor point. In this case, be sure
to put the transmission in NEUTRAL, apply the
hand brake and block its wheels to prevent your
vehicle from moving. Ideally, you'll want an
anchor point that will enable you to pull straight in the direction the vehicle will move. This
allows the synthetic rope to wind tightly and
evenly onto the spooling drum. An anchor point
as far away as possible will provide the winch
with its greatest pulling power.
7. Attach the Clevis/D-Shackle and Tree Trunk
Protector. Attach the shackle to the two
ends of the strap or chain and through the
hook, being careful not to over tighten
(tighten and back-off 1/2 turn).

Clevis/D-Shackles

8. Lock the clutch. Lock the winch drum by rotating the clutch lever on the winch to
engage.
NOTE:
Always ensure the clutch is fully engaged or
disengaged.
WARNING!
Never touch winch rope or hook while
someone else is at the control switch or
during winching operation.
Never touch winch rope or hook while
under tension or under load.
CAUTION!
Always be certain the anchor you select will
withstand the load.5

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STARTING AND OPERATING277
In certain situations you may decide to
throw a heavy blanket or similar object over
the rope. A heavy blanket can absorb ener -
gy should the synthetic rope break. Place it
on the rope midway between the winch and
the anchor point. Do this before the rope is
put under tension. Do not approach or move
the blanket once tension is applied. Do not
allow it to get pulled into the fairlead. If it is
necessary to move or remove the blanket,
slack the tension on the rope first.
13. Establish "no people" zones: Make your
intentions clear. Be sure that everyone in
the immediate vicinity surrounding the
winching operation is completely aware of
your intentions before you pull. Declare
where the spectators should not stand —
never behind or in front of the vehicle and
never near the synthetic rope or snatch
block. Your situation may have other "no
people" zones.
No People Zones

14. Begin winching. With the winching vehicles engine on and light tension already on the
synthetic rope, begin winching slowly and
steadily. Be sure that the rope is winding
evenly and tightly around the spooling
drum. For additional assistance, the
winched vehicle can be slowly driven while
being pulled by the winch. Continue pulling
until the vehicle is on stable ground. If you
are able to drive the vehicle, the winching
operation is complete.
Using The Remote Control

NOTE:
Avoid overheating the winch motor. For
extended winching, stop at reasonable inter -
vals to allow the winch motor to cool down.
What to look for under load: The synthetic
rope must always spool onto the drum as
indicated by the drum rotation decal on the
winch. As you power-in, make sure the
synthetic rope winds evenly and tightly on the
drum. This prevents the outer rope wraps
from drawing into the inner wraps, binding
and damaging the synthetic rope. Avoid
shock loads by using the control switch inter -
mittently to take up rope slack. Shock loads
can momentarily far exceed the winch and
synthetic rope ratings. During side pulls the
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STARTING AND OPERATING279
NOTE:
Always store the remote control in a protected,
clean, dry area.
RIGGING TECHNIQUES
Various winching situations will require
application of other winching techniques. These
could range from too little distance to achieve
maximum pull using straight line rigging, simply
increasing pulling power, or maintaining a
straight-line pulling situation. You will have to
assess what technique is correct for your
situation. Think "safety" at all times.
How To Change The Pulling Direction

Change Pulling Directions

All winching operations should have a straight
line from the winch to the object being pulled. This minimizes the synthetic rope collecting on
one side of the drum affecting pulling efficiency
and damaging synthetic rope. A snatch block,
secured to a point directly in front of the vehicle
will enable you to change your pulling direction
while still allowing the synthetic rope to be at
90° to wind properly onto the spooling drum.
Increasing Pulling Power
In some cases, you may find yourself needing
more pulling power. The use of snatch blocks
increases mechanical advantage and that
increases your pulling power.
Double Line

Wire Rope Routing

Because pulling power decreases with the
number of layers of synthetic rope on the winch drum, you can use a snatch block to double line
out more rope. This decreases the number of
layers of synthetic rope on the drum, and
increases pulling power. Start by feeding out
enough synthetic rope to free the winch hook.
Attach the hook to your vehicle's frame/tow
hook and run the rope through a snatch block.
Disengage the clutch and, using the snatch
block, pull out enough synthetic rope to reach
your anchor point. Do not attach the hook to the
mounting kit. Secure to the anchor point with a
tree trunk protector or choker chain. Attach the
clevis/shackle. Attach the shackle to the two
ends of the strap/chain, being careful not to
over tighten (tighten and back-off 1/2 turn).
FUEL SAVER TECHNOLOGY — GAS ENGINE
(IF EQUIPPED)
This feature offers improved fuel economy by
shutting off four of the engine's eight cylinders
during light load and cruise conditions. The
system is automatic with no driver inputs or
additional driving skills required.
NOTE:
This system may take some time to return to full
functionality after a battery disconnect.
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