2020 LINCOLN MKZ HYBRID ECO mode

Note:
If something hits the front end of your
vehicle or damage occurs, the radar sensing
zone may change. This could cause missed
or false vehicle detections. Contact an
authorized dealer to have the radar checked
for proper coverage and operation.
Note: If your vehicle detects excessive heat
at the camera or a potential misalignment
condition, a message may display in the
information display indicating temporary
sensor unavailability. This message
deactivates automatically when operational
conditions return to normal. For example,
when the ambient temperature around the
sensor decreases or the sensor
automatically recalibrates successfully.
DRIVE CONTROL (IF EQUIPPED)
LINCOLN DRIVE CONTROL
Lincoln Drive Control delivers the Lincoln
driving experience through a suite of
sophisticated electronic vehicle systems.
These systems continuously monitor your
driving inputs and the road conditions to
optimize ride comfort, steering and handling. You can preset your preferences for these
systems within the information display.
Lincoln Drive Control will respond to your
preferences based on what gear position
you select. This provides a single location to
control multiple systems performance
settings.
Lincoln Drive Control consists of the
following systems:
•
Adaptive suspension dynamically adjusts
the shock absorbers stiffness in real time
to match the road surface and driver
inputs. This system continuously monitors
your vehicle ’s motion (roll, pitch, bounce),
suspension position, load, speed, road
conditions, and steering to adjust the
suspension damping for optimal vehicle
control.
• Electronically power-assisted steering
adjusts steering effort and feel based on
your vehicle speed and your inputs.
• Electronic stability control and traction
control maintain your vehicle control in
adverse conditions or high performance
driving. These systems have a range of modes which
you can choose from in order to customize
your ideal driving experience:
•
Comfort – Provides a more relaxed
driving experience, maximizing comfort.
Your steering effort decreases and the
suspension movement is more fluid.
Comfort mode is ideal when you desire
enhanced traveling comfort.
• Normal – Delivers a balanced
combination of comfortable, controlled
ride and confident handling. This mode
provides an engaging drive experience
and a direct connection to the road
without sacrificing any of the composure
demanded from a luxury vehicle.
• Sport – Provides a sportier driving
experience. The suspension stiffens, with
an emphasis on handling and control.
Sport mode is ideal for use during more
spirited driving.
254
MKZ (CC9) Hybrid Electric Vehicle (HEV), Canada/United States of America, enUSA, Edition date: 201905, Second-Printing Driving Aids

Using Lincoln Drive Control
You can configure which of the Drive Control
modes are active when your vehicle is in
drive (D). The configuration remains active
until modified from the main menu on the
information display.
You can change your vehicle's Drive Control
settings from the main menu on the
information display. See General
Information (page 110).
Note: Not all settings may be available.
Note: Lincoln Drive Control has diagnostic
checks that continuously monitor the system
to ensure proper operation. Certain types of
system errors will gray out the mode
selections within the information display,
preventing you from changing states when
the gear position is changed. Other types of
errors will produce a temporary message
that states Drive Control Malfunction. If either
condition persists for multiple key cycles,
have your vehicle checked by an authorized
dealer.
255
MKZ (CC9) Hybrid Electric Vehicle (HEV), Canada/United States of America, enUSA, Edition date: 201905, Second-Printing Driving Aids

TOWING A TRAILER
WARNING: Never tow a trailer
with an MKZ Hybrid. This powertrain
is not designed to tow.
TOWING THE VEHICLE ON FOUR
WHEELS
Emergency Towing
In the event your vehicle becomes disabled
(without access to wheel dollies, car-hauling
trailer, or flatbed transport vehicle), it can be
flat-towed (all wheels on the ground,
regardless of the powertrain/transmission
configuration) under the following conditions:
• The vehicle is facing forward so that it is
towed in a forward direction.
• Place the transmission in position
N. If
you cannot move the transmission into
N
, you must override it and enable stay
in neutral mode. Failing to do so may
result in damage to the transmission. See
Transmission
(page 193). •
Maximum speed is
35 mph (56 km/h).
• Maximum distance is
50 mi (80 km).
Recreational Towing
Note: Put your climate control system in
recirculated air mode to prevent exhaust
fumes from entering your vehicle.
See
Climate Control (page 141).
Follow these guidelines if you have a need
for recreational (RV) towing. An example of
recreational towing would be towing your
vehicle behind a motorhome. These
guidelines are designed to ensure that your
transmission is not damaged.
Your vehicle can be towed with all four
wheels on the ground using the Stay in
Neutral mode feature, or with all four wheels
off the ground using a vehicle transport
trailer. If you are using a vehicle transport
trailer, follow the instruction specified by the
equipment provider.
If you tow your vehicle with all four wheels
on the ground:
• Tow only in the forward direction.
• Release the parking brake. •
Place the vehicle in Stay in Neutral mode.
See Automatic Transmission (page 193).
• Do not exceed
65 mph (105 km/h).
Note: If the parking brake is applied, a
message appears in the information display.
Note: Start the engine and allow it to run for
a few minutes at the beginning of each day,
and every six hours or fewer. With the engine
running and your foot on the brake, shift into
drive (D) and then into reverse (R) before
shifting back into neutral (N). BEFORE
CONTINUING TO TOW, YOU MUST
RE-ENABLE STAY IN NEUTRAL MODE.
261
MKZ (CC9) Hybrid Electric Vehicle (HEV), Canada/United States of America, enUSA, Edition date: 201905, Second-Printing Towing

BREAKING-IN
You need to break in new tires for
approximately 300 mi (480 km). During this
time, your vehicle may exhibit some unusual
driving characteristics.
Avoid driving too fast during the first 1,000 mi
(1,600 km)
. Vary your speed frequently and
change up through the gears early. Do not
labor the engine.
Do not tow during the first
1,000 mi
(1,600 km).
REDUCED ENGINE PERFORMANCE WARNING:
If you continue to drive
your vehicle when the engine is
overheating, the engine could stop without
warning. Failure to follow this instruction
could result in the loss of control of your
vehicle. If the engine coolant temperature gauge
needle moves to the upper limit position, the
engine is overheating.
See Gauges (page
102).
You must only drive your vehicle for a short
distance if the engine overheats. The
distance you can travel depends on ambient
temperature, vehicle load and terrain. The
engine continues to operate with limited
power for a short period of time.
If the engine temperature continues to rise,
the fuel supply to the engine reduces. The
air conditioning switches off and the engine
cooling fan operates continually.
1. Gradually reduce your speed and stop your vehicle as soon as it is safe to do
so.
2. Immediately switch the engine off to prevent severe engine damage.
3. Wait for the engine to cool down.
4. Check the coolant level.
See Engine
Coolant Check (page 305).
5. Have your vehicle checked as soon as possible. ECONOMICAL DRIVING
Fuel economy is affected by several things
such as how you drive, the conditions you
drive under and how you maintain your
vehicle.
There are some things to keep in mind that
may improve your fuel economy:
•
Accelerate and slow down in a smooth,
moderate fashion.
• Drive at steady speeds.
• Anticipate stops; slowing down may
eliminate the need to stop.
• Combine errands and minimize
stop-and-go driving (When running
errands, go to the furthest destination
first and then work your way back home).
• Close the windows for high-speed
driving.
• Drive at reasonable speeds.
• Keep the tires properly inflated and use
only the recommended size.
• Use the recommended engine oil.
• Perform all regularly scheduled
maintenance.
262
MKZ (CC9) Hybrid Electric Vehicle (HEV), Canada/United States of America, enUSA, Edition date: 201905, Second-Printing Driving Hints

The fuel pump shutoff stops the flow of fuel
to the engine in the event of a moderate to
severe crash. Not every impact causes a
shutoff.
Should your vehicle shut off after a crash,
you may restart your vehicle.
If your vehicle has a key system:
1. Switch off the ignition.
2. Switch to start position.
3. Switch off the ignition.
4. Switch on the ignition to re-enable the
fuel pump.
5. If the vehicle does not start, repeat steps
1 through 4.
If your vehicle has a push button start
system:
1. Press START/STOP to switch off your
vehicle.
2. Press the brake pedal and
START/STOP
to switch on your vehicle.
3. Remove your foot from the brake pedal and press
START/STOP to switch off
your vehicle. 4. You can attempt to start the vehicle by
pressing the brake pedal and
START/STOP
, or press START/STOP
without pressing the brake pedal.
5. If the vehicle does not start, repeat steps
1 through 4.
JUMP STARTING THE VEHICLE WARNING:
Batteries normally
produce explosive gases which can cause
personal injury. Therefore, do not allow
flames, sparks or lighted substances to
come near the battery. When working near
the battery, always shield your face and
protect your eyes. Always provide correct
ventilation. WARNING:
Keep batteries out of
reach of children. Batteries contain sulfuric
acid. Avoid contact with skin, eyes or
clothing. Shield your eyes when working
near the battery to protect against possible
splashing of acid solution. In case of acid
contact with skin or eyes, flush immediately
with water for a minimum of 15 minutes and
get prompt medical attention. If acid is
swallowed, call a physician immediately. WARNING:
Use only adequately
sized cables with insulated clamps.
Preparing Your Vehicle
Do not attempt to push-start your automatic
transmission vehicle.
Note: Attempting to push-start a vehicle with
an automatic transmission may cause
transmission damage.
Note: Use only a 12-volt supply to start your
vehicle.
267
MKZ (CC9) Hybrid Electric Vehicle (HEV), Canada/United States of America, enUSA, Edition date: 201905, Second-Printing Roadside Emergencies

Note:
Make sure you remove the cap from
the positive prong on your vehicle before
connecting the cables.
1. Connect the positive (+) jumper cable to the positive (+) terminal of the discharged
battery.
2. Connect the other end of the positive (+)
cable to the positive (+) terminal of the
booster vehicle battery.
3. Connect the negative (-) cable to the negative (-) terminal of the booster
vehicle battery.
4. Make the final connection of the negative
(-) cable to an exposed metal part of the
stalled vehicle's engine, away from the
battery and the fuel injection system, or
connect the negative (-) cable to a ground
connection point if available.
Jump Starting
1. Start the engine of the booster vehicle and rev the engine moderately, or press
the accelerator gently to keep your
engine speed between 2000 and 3000
RPM, as shown in your tachometer. 2. Start the disabled vehicle.
3. Check the instrument cluster for the
Ready to Drive light as the gasoline
engine may not start, but the electric
motor may be running.
4. Once you start the disabled vehicle, run both vehicles for an additional three
minutes before disconnecting the jumper
cables.
Removing the Jumper Cables
Note: After you disconnect the jumper
cables, let the disabled vehicle sit in Ready
to Drive mode for several minutes to charge
the 12V battery. The disabled vehicle
charges the 12V battery even if the gasoline
engine may be off. The 12V battery receives
power from the high-voltage battery instead.
Remove the jumper cables in the reverse
order that they were connected. 1. Remove the negative (-) jumper cable
from the disabled vehicle.
269
MKZ (CC9) Hybrid Electric Vehicle (HEV), Canada/United States of America, enUSA, Edition date: 201905, Second-Printing Roadside Emergencies4
1
3
2
E142665

2. Remove the jumper cable on the
negative (-) terminal of the booster
vehicle battery.
3. Remove the jumper cable from the positive (+) terminal of the booster vehicle
battery.
4. Remove the jumper cable from the positive (+) terminal of the disabled
vehicle battery. COLLISION, DAMAGE OR FIRE
EVENT
Guidance for Ford Motor Company
Electric and Hybrid-Electric Vehicles
Equipped With High Voltage Batteries
(Vehicle Owner/Operator/General Public)
Electric and Hybrid-Electric Vehicle
Considerations
In the event of damage or fire involving an
electric vehicle or hybrid-electric vehicle:
•
Always assume the high-voltage battery
and associated components are
energized and fully charged.
• Exposed electrical components, wires,
and high-voltage batteries present
potential high-voltage shock hazards.
• Venting high-voltage battery vapors are
potentially toxic and flammable.
• Physical damage to the vehicle or
high-voltage battery may result in
immediate or delayed release of toxic,
flammable gases and fire. Vehicle information and general safety
practices:
•
Know the make and model of your
vehicle.
• Review the owner’ s manual and become
familiar with your vehicle ’s safety
information and recommended safety
practices.
• Do not attempt to repair damaged
electric and hybrid-electric vehicles
yourself.
Contact an authorized dealer.
270
MKZ (CC9) Hybrid Electric Vehicle (HEV), Canada/United States of America, enUSA, Edition date: 201905, Second-Printing Roadside Emergencies

Note:
Do not use stop leak pellets, cooling
system sealants, or non-specified additives
as they can cause damage to the engine
cooling or heating systems. Resulting
component damage may not be covered by
the vehicle Warranty.
It is very important to use prediluted coolant
approved to the correct specification in order
to avoid plugging the small passageways in
the engine cooling system. See Capacities
and Specifications (page 364). Do not mix
different colors or types of coolant in your
vehicle. Mixing of engine coolants or using
an incorrect coolant may harm the engine or
cooling system components and may not be
covered by the vehicle Warranty.
Note: If prediluted coolant is not available,
use the approved concentrated coolant
diluting it to 50/50 with distilled water.
See
Capacities and Specifications (page 359).
Using water that has not been deionized
may contribute to deposit formation,
corrosion and plugging of the small cooling
system passageways. Note:
Coolants marketed for all makes and
models may not be approved to Ford
specifications and may cause damage to
the cooling system. Resulting component
damage may not be covered by the vehicle
Warranty.
If the coolant level is at or below the
minimum mark, add prediluted coolant
immediately.
To top up the coolant level do the following:
1. Unscrew the cap slowly. Any pressure escapes as you unscrew the cap.
2. Add prediluted coolant approved to the correct specification. See Capacities and
Specifications
(page 359).
3. Add enough prediluted coolant to reach
the correct level.
4. Replace the coolant reservoir cap, turn it clockwise until you feel a strong
resistance.
5. Check the coolant level in the coolant reservoir the next few times you drive
your vehicle. If necessary, add enough
prediluted engine coolant to bring the
coolant level to the correct level. If you have to add more than
1.1 qt (1 L) of
engine coolant per month, have your vehicle
checked as soon as possible. Operating an
engine with a low level of coolant can result
in engine overheating and possible engine
damage.
In case of emergency, you can add a large
amount of water without engine coolant in
order to reach a vehicle service location. In
this instance, qualified personnel:
1. Must drain the cooling system.
2. Chemically clean the cooling system.
3. Refill with prediluted coolant as soon as possible.
Water alone, without coolant, can cause
engine damage from corrosion, overheating
or freezing.
Do not use the following as a coolant
substitute:
• Alcohol.
• Methanol.
• Brine.
• Any coolant mixed with alcohol or
methanol antifreeze.
307
MKZ (CC9) Hybrid Electric Vehicle (HEV), Canada/United States of America, enUSA, Edition date: 201905, Second-Printing Maintenance