2011 FORD KUGA Engine control

Instrument Cluster
Refer to
Wiring Diagrams Section 413-01, for
schematic and connector information. General Equipment
The Ford approved diagnostic tool
Inspection and Verification
1. Verify the customer concern.
2. Visually inspect for obvious signs of mechanical
or electrical damage.
Visual Inspection Chart Electrical
Mechanical
– Fuse(s)
– Wiring harness
– Electricalconnector(s)
– Instrument cluster
– Light emitting diode(s) (LED)(s)
– Engine oil filter
– Engine oil level
–
Engine coolant level
– Oil pressure switch
– Engine coolant level
– Coolant thermostat
– Engine coolant temperature (ECT)
sensor
– Fuel gauge
– Collapsed or damaged fuel tank
– Recirculation hose
– Fuel tank filler pipe/hose
– Indicated fuel level
– Fuel lines
– Fuel tank filler cap
– Fuel filter (external to the fuel tank)
– Fuel tank
– Door adjustment
3. If an obvious cause for an observed or reported concern is found, correct the cause (if possible)
before proceeding to the next step.
4. NOTE: If none of the following warning indicators are operating correctly this may
indicate a concern with the central junction
box (CJB). If only one or two of the following
warning indicators are not operating
correctly this may indicate an instrument
cluster concern. Verify the following warning indicators are
working correctly:
• Charging.
• Turn signals.
• Headlamps.
5. If the cause is not visually evident, verify the symptom and refer to the diagnostic tab within
the Ford approved diagnostic tool.
Configuration of the Instrument Cluster
The instrument cluster is a programmable module,
which must be configured by selecting the
Programmable Module Installation Routine on the
Ford approved diagnostic tool.
NOTE: When the new instrument cluster has been
configured with the odometer value, its
configuration cannot be decreased or matched. A
new configuration will result in an increase in the
displayed odometer value by a minimum of two
units.
NOTE: The odometer value must be recorded from
the original instrument cluster before removal.
If the odometer value cannot be obtained from
the original instrument cluster (display failure)
the customer should supply the approximate
value.
The following features will need to be configured
when a new instrument cluster is installed:
• Anti-lock Brake System (ABS)
• All wheel drive
• Keyless vehicle entry
• Electronic power assisted steering
• Trip computer
• Voice control
• Parking aid
• Belt minder
• Safety belt not fastened
• Right hand drive
• Overspeed warning
• Reverse warning
• Turbocharger boost pressure
• Speed control
• Auxiliary heater
• Suspension control
• Washer fluid sensor G1054964en
2008.50 Kuga 8/2011 413-01-7
Instrument Cluster
413-01-7
DIAGNOSIS AND TESTINGTO MODEL INDEX
BACK TO CHAPTER INDEX
FORD KUGA 2011.0MY WORKSHOP REPAIR MANUAL

Oil Change Indicator Reset
1.
Turn the ignition key to position II without
cranking the engine.
2. Simultaneously press and hold the accelerator
pedal and the brake pedal for approximately 15
seconds until the oil change reminder indicator
starts to flash or the "Service Oil Reset
Complete" message appears in the information
and message center (if equipped).
3. Release the pedals.
4. Check that the oil change reminder indicator
has turned off or that there is no "Service Oil"
message in the information and message center
(if equipped). If the oil change reminder indicator
is still illuminated or the "Service Oil" message
is still displayed, turn the ignition key to position
0 and repeat the procedure from Step 1. If it has
turned off or the "Service Oil" message has
disappeared, proceed to Step 5.
5. Turn the ignition key to position 0 and leave it
there for at least 2 minutes so that the
powertrain control module (PCM) fully powers
down and updates the non-volatile memory
(NVM) in the PCM.
6. Turn the ignition key to position II without
cranking the engine and check that the oil
change reminder indicator is not illuminated or
that there is no "Service Oil" message displayed.
7. Turn the ignition key to position 0. G898940en
2008.50 Kuga 8/2011 413-09-4
Warning Devices
413-09-4
GENERAL PROCEDURESTO MODEL INDEX
BACK TO CHAPTER INDEX
FORD KUGA 2011.0MY WORKSHOP REPAIR MANUAL

Generator
General information
The powertrain control module (PCM) controls the
alternator charging voltage. The connection
between the PCM and the generator is made via
the control module subnetwork (LIN) bus.
If the load on the alternator is high, the PCM can
increase the idle speed.
The alternator is temporarily deactivated during
engine starting so that the engine drag moment is
minimized and it is reactivated again after the
starting procedure.
The PCM controls the charge control lamp in the
instrument cluster via the controller area network
(CAN) bus.
Smart Charge system
In addition to the familiar functions, the Smart
Charge system also performs the following
functions:
•
Automatic deactivation of non-critical high power
electrical consumers when the battery voltage
is low in order to reduce the level of current
drawn.
• Automatic activation of non-critical high power electrical consumers when the battery voltage
is excessively high in order to protect
components which are sensitive to increased
voltages.
The battery charging current is optimized through
continuous calculation of the battery temperature
and monitoring of the alternator output voltage.
By receiving the forwarded alternator load signal,
the PCM is given early warning whenever an
electric consumer is switched on or off. This means
that the PCM receives information about imminent
changes in the torque drawn by the alternator. By
evaluating this information the PCM can provide a
higher level of idling stability.
The two remaining functions of the Smart Charge
System are controlled by the GEM.
Electrical consumers are switched off due to low
voltage when the GEM determines (on the basis
of the message received from the PCM on the CAN
bus via the instrument cluster) that the battery
voltage has dropped below the threshold.
When the threshold for low battery voltage is
reached the GEM automatically deactivates the following consumers - in this order and with a gap
of 5 seconds between each:
• Electric booster heater (vehicles with diesel
engines)
• Heated exterior mirrors
• Heated rear window
• Heated windscreen
If the battery voltage rises back above the lower
threshold then the GEM re-enables all of the
electrical consumers which were previously
disabled. They then have switched off status and
must be switched back on by the driver.
Electrical consumers are switched on due to
excessively high voltage if the GEM determines
that the battery voltage is above the threshold for
overvoltage and the charge control lamp has been
switched on.
When the threshold is reached the GEM
automatically activates the following consumers -
in this order and with a gap of 5 seconds between
each:
• Heated rear window
• Heated exterior mirrors
• Electric booster heater (vehicles with diesel engines)
• Blower motor
If the battery voltage drops back below the
threshold then the GEM automatically deactivates
any consumers that were switched on. However,
if they were switched on by the driver before the
automatic activation, they will then be switched on
again in turn with a 5-second time interval. G964174en
2008.50 Kuga 8/2011 414-02-2
Generator and Regulator
414-02-2
DESCRIPTION AND OPERATIONTO MODEL INDEX
BACK TO CHAPTER INDEX
FORD KUGA 2011.0MY WORKSHOP REPAIR MANUAL

Description
Item
Control module for mobile electronic
auxiliary equipmentRefertoComponentDescription:(page
415-01-18)
1
DVD navigation system with touchscreen
2
Radio remote controlRefertoComponentDescription:(page
415-01-9)
3 Description
Item
AUX portRefer to Component Description: USB
port/AUXsocket(page 415-01-9)
4
Speakers
5
Microphone.
6
USB jackRefer to Component Description: USB
port/AUXsocket(page 415-01-19)
7
System Operation
Overview
NOTE: In order to prevent discharge of the battery,
if the vehicle is stationary, the Bluetooth mobile
phone and the voice control should only be used
for long periods when the engine is running.
NOTE: For certain mobile phones with the Symbian
operating system, a particular file must be installed
to allow full access to the telephone directory via
Bluetooth. This file is referred to as an SIS file and
can be downloaded from the Ford website. You
can obtain more detailed information from your
Ford dealer.
The system allows the driver to use a Bluetooth
equipped cellular phone handset through the
vehicles Information and Entertainment system.
A physical connection (adapter) between the phone
handset and the telephone control module is not
necessary and is therefore not available.
Communications between the two components are
purely Bluetooth. This can limit the available
functions dependant on the handset used.
The mobile phone system comprises the following
components:
• Control module for mobile electronic auxiliary equipment
• Microphone.
The control module for the mobile electronic
auxiliary equipment is connected to the
Infotainment system via the CAN bus and the audio
line. This enables audio and control signals to be
passed to and from the auxiliary equipment. The
mobile electronic auxiliary equipment control
module is equipped with a built-in Bluetooth
antenna.
Using Bluetooth it is possible to transfer audio files
from Bluetooth compatible storage media to the audio system and replay them (audio streaming).
This function will however only be available at a
later date.
Voice Control
Voice control makes it possible to operate the audio
system without the driver being distracted from the
traffic situation.
When the system is active, if the driver issues a
pre-defined order, the voice recognition system
converts this command into a control signal for the
various multimedia systems. The input can take
the form of dialogues or commands. The driver is
guided through the dialogues by announcements
or questions.
The following systems can be controlled using the
voice recognition system:
• Mobile phone
• Radio function
• CD player/CD changer
•
EATC (electronic automatic temperature control)
• DVD navigation system with touchscreen – Voice control via the mobile electronicauxiliary equipment control module is
unnecessary for the DVD navigation system
with touchscreen because this system has
its own integrated voice control function. G1055659en
2008.50 Kuga 8/2011 415-01-17
Information and Entertainment System
415-01-17
DESCRIPTION AND OPERATION
TO MODEL INDEX
BACK TO CHAPTER INDEX
FORD KUGA 2011.0MY WORKSHOP REPAIR MANUAL

Module Configuration
Activation
1.
Install the most up-to-date software version in
the integrated diagnostic system (IDS).
2. In IDS, select the "Module reprogramming"
submenu in the "Module programming" menu
tool box and then follow the instructions.
3. Transfer a new software version (if available)
to the powertrain control module (PCM) using
IDS, if a module-reprogramming of the PCM
may be required in the case of engine running
concerns.
4. Following installation of a wheel/tire
combination, for which the tire-tread
circumference does not correspond to that of
standard tires, the tire size must be changed in
the PCM using IDS. Therefore select the
"Programmable parameters" submenu and enter
the corresponding tire size under the "tire size"
menu item. G1158256en
2008.50 Kuga 8/2011 418-01-2
Module Configuration
418-01-2
GENERAL PROCEDURESTO MODEL INDEX
BACK TO CHAPTER INDEX
FORD KUGA 2011.0MY WORKSHOP REPAIR MANUAL

Description
Item
Passive key (radio remote control with
integrated emergency key)Refer to Component Description: (page
?)
4
RF receiverRefer to Component Description: (page
?)
5
PCM6 Description
Item
Transceiver of passive anti-theft system
(emergency start function)Refer to Component Description: (page
?)
7
Instrument clusterRefer to Component Description: (page
?)
8
System Operation
Passive Anti-theft System
The passive anti-theft system PATS (passive
anti-theft system) is based on an electronic engine
immobiliser.
The driver does not need to intervene in any way
to protect the vehicle, since PATS is automatically
activated when the ignition is switched off.
Component Description
Keyless vehicle module (KVM) The PATS functionality is saved in the KVM. After
pressing the start/stop button, the KVM activates
the interior antennas, which then transmit a signal.
If there is a valid passive key in the vehicle interior,
it sends an encrypted signal to the radio frequency
receiver. The radio receiver forwards this signal to
the KVM via a fixed wire. The KVM then forwards
a corresponding identification query via the HS
CAN (controller area network) to the PCM.
If a valid code was received to this query, then the
engine can be started. Interior antennas
The four interior antennas transmit an LF signal
which is identified by the passive key.
Passive key (radio remote control with
integrated emergency key)
G1065785en
2008.50 Kuga 8/2011 419-01B-5
Anti-Theft - Passive
419-01B-5
DESCRIPTION AND OPERATIONTO MODEL INDEX
BACK TO CHAPTER INDEX
FORD KUGA 2011.0MY WORKSHOP REPAIR MANUALE100587 E100793 E87065132

Description
Item
HS CAN
1
DLC2
MS CAN
3
Instrument cluster (gateway)
4
Front windshield wiper motors
5
GEM6
Rear window wiper motors
7
Indicator/heated windshield
8
Indicator/heated rear window
9 Description
Item
Mini-liftgate latch motor
10
Liftgate latch motor
11
Electric booster Heater
12
Front wiper windscreen washer pump
13
Rear wiper windscreen washer pump
14
Headlamp
15
Courtesy Lighting
16
Alarm horn
17
System Operation
GEM.
The following functions are controlled or performed
by the GEM at a battery voltage of between 9 and
16 volts:
• Current distribution
• Battery charging (Smart Charge)
• Ignition overload protection
• Headlamp switch-off delay
• Turn signals
• Interior lighting
• Heated windscreen
• Heated rear window and heated external mirrors
• Ambient air temperature
• Brake fluid level
• Automatic headlamps
• Combined rain sensor/light sensor
• Windshield wash/wipe system
• Speed control – reads the speed control switches andtransmits signals on the CAN data bus
• central door locking – transmits signals on the CAN data bus
• Anti-theft
• Electric booster Heater
• Climate control
• Parking brake –(monitors the switch and transmits the signal
on the CAN data bus
• Communication via the medium-speed CAN data bus Component Description
Battery charging (Smart Charge)
In addition to the familiar functions, the Smart
Charge system also performs the following
functions:
•
Automatic deactivation of non-critical high power
electrical consumers when the battery voltage
is low in order to reduce the level of current
drawn.
• Automatic activation of non-critical high power electrical consumers when the battery voltage
is excessively high in order to protect
components which are sensitive to increased
voltages.
The battery charging current is optimized through
continuous calculation of the battery temperature
and monitoring of the alternator output voltage.
The alternator load is signaled to the PCM
(powertrain control module) in order to provide it
with an early indication when an electric component
is to be switched on or off, thereby also providing
information about imminent changes to the amount
of torque demanded by the alternator. By
evaluating this information the PCM is capable of
increasing the stability of the engine under idling.
The two remaining functions of the Smart Charge
system are controlled by the GEM. G1030788en
2008.50 Kuga 8/2011 419-10-6
Multifunction Electronic Modules
419-10-6
DESCRIPTION AND OPERATIONTO MODEL INDEX
BACK TO CHAPTER INDEX
FORD KUGA 2011.0MY WORKSHOP REPAIR MANUAL

Rear Drive Axle and Differential – System Operation andComponent Description
System Operation
General Information
The powertrain with all-wheel drive consists of the
following main components:
• engine
• transaxle with front axle differential
• transfer box
• halfshafts and driveshafts
• Haldex clutch
• rear axle differential
The Haldex clutch guarantees continuous variable
torque transmission to the rear axle under all
driving conditions. The Haldex clutch reacts
immediately and equally quickly with slow or fast
wheel slip.
A difference in angle of rotation of 90° between the
input and output shafts is required to build up
maximum pressure at the multi-plate clutch or to
transmit maximum torque.
The advantage of vehicles with all-wheel drive is
that they distribute the drive between all four
wheels. They therefore have a higher tractive
power. They feature improved cornering behaviour,
as the grip at all four wheels can be better utilised.
Thus, the wheels contribute to a greater degree
towards cornering stability.
The engine torque is transmitted from the transfer
box to the rear axle via a driveshaft. The driveshaft
is flange-mounted to the input side of the Haldex
clutch.
Driving situations
Pulling away and accelerating
• When pulling away and accelerating, as muchall-wheel drive as necessary must be available
immediately in the short-term. During
acceleration, the electronic system detects slip
at the front axle. This slip is counter-controlled
and thus the propulsive force optimally
distributed to the two axes.
Cornering • A sporty driving style, in particular dynamic
cornering, demands stable cornering behaviour.
The all-wheel system distributes the propulsive
force to all four wheels and by so doing boosts
the high cornering forces so that the vehicle
makes optimum contact with the road surface.
Snow and black ice
• Snow and black ice require particularly high grip. Under these conditions, the Haldex clutch
always distributes the propulsive force to the
axle with the better traction. The all-wheel
system reacts intelligently and quickly to all
driving situations.
Trailer operation
• When driving with a trailer, the trailer weight (support load) is transmitted to the rear axle via
the towbar. This reduces the load on the front
wheels, which means they can slip. The
electronic system detects this difference and
distributes most of the propulsive force to the
rear axle.
Haldex clutch
E100642
G1076981en2008.50 Kuga8/2011
205-02- 6
Rear Drive Axle/Differential
205-02- 6
DESCRIPTION AND OPERATION
TO MODEL INDEX
BACK TO CHAPTER INDEX
FORD KUGA 2011.0MY WORKSHOP REPAIR MANUAL