Electric FORD KUGA 2011 1.G Owner's Manual

System Operation
Electric Booster Heater
In diesel vehicles which give off little residual heat,
a booster heater is used to heat the passenger
compartment rapidly in the case of low ambient
temperatures.
If the interior temperature has been set to HI, or if
the heater controls have been switched to the
highest setting, the two-zone air conditioning
system sends an "electric booster heater ON"
request signal to the CAN (controller area network)
via the medium speed GEM bus. If a manual air
conditioning system is installed, the signal is
transmitted via a conventional cable connection.
The GEM switches on the electric booster heater
depending on the following parameters:
• Engine coolant temperature is below 60 °C.
• Ambient air temperature is below 10 °C.
• Sufficient generator capacity is available.
The electric booster heater electronics activate
three output stages as a function of a pulse width
modulated signal PWM (pulse width modulation)
generated by the GEM. The output stages switch
the three heating elements of the electric booster
heater ON or OFF individually, whereby the heating
periods of the individual elements can overlap. Due
to the variable switch-on duration, continuously
variable temperature control is possible. The overall
heating power of the three heating elements is
linearly proportional to the PWM signal. If the PWM
signal is below 10% or above 95%, the electric
booster heater is not activated.
The electric booster heater is switched off when
an engine coolant temperature of 70°C or an
ambient air temperature of 20°C is exceeded.
Fuel-fired heater - function diagram G1066982en
2008.50 Kuga 8/2011 412-02-12
Auxiliary Climate Control
412-02-12
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reprogrammed. However, if the engine hasn't been
run since the last programmed start, the fuel-fired
booster heater will not start up the second time so
as to prevent the battery from being discharged.
The length of time required to pre-heat the vehicle
is calculated in the control unit of the fuel-fired
booster heater and is based on two temperature
values:
• Ambient air temperature: this message is taken
from the GEM via the CAN bus.
• Coolant temperature: this is determined via an internal sensor in the fuel-fired booster heater.
The maximum heating time is 30 minutes at an
outside air temperature of -10 °C or lower. The
heating time decreases proportionally with
increasing ambient temperature until the ambient
temperature is between +15 °C and +20 °C. Then
the minimum heating time is 10 minutes. The
parking heater is deactivated at temperatures
above +20 °C.
The sequence for a programmed start of the
booster heater is as follows:
• Two minutes before the start of the maximum heating time the driver information
system/instrument cluster sends an activation
message to the fuel-fired booster heater via the
CAN bus.
• The fuel-fired booster heater calculates the required heating time and, if necessary, sends
a delay request on the CAN bus.
• At the calculated time, the fuel-fired booster heater starts up. The conditions for start-up are:
engine not running and amount of fuel in the
fuel tank is above 14% of maximum.
• When the coolant temperature reaches +30 °C, the control unit of the fuel-fired booster heater
sends a request to switch on the passenger
compartment blower.
• Eight minutes after the programmed switch-off time, the booster heater stops heating mode
and starts a run-on operation to clean the
system's spark plugs.
• Ten minutes after the switch-off time, the post-cleaning operation is complete. The
additional ten minutes run-on time provides
some leeway in case the driver is late arriving.
After a programmed start-up of the booster heater
it is switched off again after the heating time has
elapsed (or if the fuel level in the fuel tank drops
below 8%). The booster heater stops within 2 minutes of the engine starting. This leaves enough
time to check whether the switch-on conditions for
boost heat mode have been met, thus preventing
the booster heater from having to switch off and
switch back on again. The heater can be switched
off manually at any time from the menu.
Whilst the fuel-fired booster heater is in additional
heating mode and/or parking heating mode, the
instrument cluster receives a fuel consumption
signal; this is used to re-calculate the vehicle's
remaining range and fuel consumption data.
Emergency shutoff
In the event of an accident in which the airbags
are deployed, the control unit of the fuel-fired
booster heater receives a message on the CAN
bus from the restraints control module (RCM).
When this message is received, the booster heater
system switches off immediately.
The booster heater control module deactivates the
system and does not respond to further messages
on the CAN bus. The booster heater control module
needs to be activated with WDS.
Component Description
Electric Booster Heater
The electric booster heater consists of three
individual heating elements, which are incorporated
into a single housing. It is controlled by the generic
electronic module (GEM), taking into account the
following factors:
Detailed illustration of fuel-fired heater
G1066982en
2008.50 Kuga 8/2011 412-02-14
Auxiliary Climate Control
412-02-14
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Description
Item
Combustion chamber
16
'O' Ring
17 Description
Item
Combustion blower motor cover
18
Glow plug wiring harness
19
Flame sensor
If the flame goes out independently during
operation of the booster heater, a restart is carried
out. If the booster heater does not ignite within 90
seconds of fuel delivery or if the flame goes out
within 15 minutes of starting, a lockout will be
implemented by the flame sensor.
Lockout can be cancelled by switching the booster
heater off then on again, although this may only
be repeated at most 2 times.
Overheat Sensor
The overheating sensor enables the fuel-fired
booster heater module to determine the coolant
temperature, protecting the heater from
overheating. The overheating sensor is installed
next to the coolant temperature sensor under a
cover on the top of the fuel-fired heater.
In the event of overheating (lack of water, poorly
ventilated coolant circuit), the fuel supply to the
heater is interrupted and a lockout occurs. After
the cause of the overheating has been eliminated,
the heater can be restarted by switching it off and
on again, if the coolant temperature is below 70°C.
If the heater overheats ten times in a row, the
control unit is locked.
ECT
The fuel-fired booster heater module uses the
temperature sensor to determine the coolant
temperature, which it then uses to set the starting
and stopping time. The coolant temperature sensor
is installed next to the overheating sensor under a
cover on the top of the fuel-fired heater. Water pump The coolant pump is located on the holder for the
fuel-fired heater on the bulkhead in the rear of the
engine compartment. The coolant pump is driven
by a built-in electric motor and circulates the
coolant in the engine cooling system. The delivery
rate for the pump is 820l/h at a delivery pressure
of 0.1 bar.
Fuel pump
The fuel required for the fuel-fired heater is taken
from the fuel system by a fuel pump fitted in the
fuel tank and is delivered to the heater via a fuel
line.
The fuel pump is an electric piston pump which
meters the corresponding fuel volume for the
fuel-fired heater according to a cycle set by the
fuel-fired heater module.
G1066982en
2008.50 Kuga 8/2011 412-02-16
Auxiliary Climate Control
412-02-16
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FORD KUGA 2011.0MY WORKSHOP REPAIR MANUALE97646 E97647

Electric Booster Heater
Removal
NOTE:
Removal steps in this procedure may
contain installation details.
1. Refer to: Floor Console (501-12 Instrument
Panel and Console, Removal and Installation).
2. Torque: 9 Nm 3.
Refer to: Climate Control Assembly - Vehicles
With: Manual Temperature Control (412-01
Climate Control, Removal and Installation).
Refer to: Climate Control Assembly - Vehicles
With: Automatic Temperature Control (412-01
Climate Control, Removal and Installation).
4. Torque: 10 Nm1.
2. Torque: 25
Nm
G1074270en
2008.50 Kuga 8/2011 412-02-18
Auxiliary Climate Control
412-02-18
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Instrument Cluster and Panel Illumination
Refer to
Wiring Diagrams Section 413-00, for
schematic and connector information.
Principles of Operation
NOTE: A new instrument cluster must be
configured.
The instrument cluster and panel illumination
consists of dimmable and non-dimmable
illumination. The dimmable panel illumination is
controlled by the panel illumination switch (part of
the headlamp switch), which allows the brightness
level of the backlights to be adjusted dependent
on the customer preference. When the headlamp
switch is in the parking lamps ON or headlamps
ON position, the intensity of the backlighting can
be adjusted using the panel dimmer switch. The
non dimmable illumination allows for full intensity
dependant on the ignition switch position.
Instrument Cluster and Dimmable
Backlighting A.
Tachometer
B. Engine coolant temperature gauge
C. Fuel gauge
D. Speedometer
E. Information display
The dimmable illumination utilizes light emitting
diodes (LEDs) and bulb(s). The following dimmable
components are backlight using LEDs only:
• ashtray
• cigar lighter
• transmission control lever
• heater control panel
• audio unit • navigation system display module
• instrument cluster
• climate control module
• hazard switch
• traction control system disable switch
• right-hand and left-hand heated front seat
switch(es)
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)
– Loose or corrodedconnector(s)
– Instrument cluster
– Wiring Harness
– Circuit
– LED(s)
– Bulb(s)
– Engine/engine
compartment or
underbody compon-
ents
– Fluid levels
– Accessory installa- tion
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. If the cause is not visually evident, verify the symptom and refer to the diagnostic tab within
the Ford approved diagnostic tool. G1054961en
2008.50 Kuga 8/2011 413-00-2
Instrument Cluster and Panel Illumination
413-00-2
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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
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Horn
Principles of Operation
The horn system consists of a relay, a steering
wheel switch and either one or two horns. The
horn(s) receives voltage from the switched side of
the relay, and the relay switch is controlled on its
ground side by the steering wheel switch.
The horn relay, is located in the Battery junction
box (BJB) and is supplied with a permanent voltage
from the battery.
The steering wheel horn switch shares the steering
wheel clockspring circuit with the air-bag circuit.
Each of these systems work completely
independent of each other.
Inspection and Verification
1. Verify the customer concern.
2.
Visually inspect for obvious signs of mechanical
or electrical damage.
Visual Inspection Chart Electrical
• Fuse(s)
• Wiring harness
• Electrical connector(s)
• Horn switch
• Horn
• Clockspring
• Horn relay
• BJB
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. If the cause is not visually evident, verify the symptom and refer to the diagnostic tab within
the Ford approved diagnostic tool. G1055042en
2008.50 Kuga 8/2011 413-06-2
Horn
413-06-2
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Warning Devices
Refer to
Wiring Diagrams Section 501-20B, for
schematic and connector information. General Equipment
Ford diagnostic equipment
Inspection and Verification
1. Verify the customer concern.
2. Visually inspect for obvious signs of mechanical
or electrical damage.
Visual Inspection Chart Electrical
Mechanical
– Wiring harness
– Electricalconnector(s)
– Safety belt buckle switch
– Restraints control module
– Safety belt buckle
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. If the cause is not visually evident, verify the symptom and refer to the Ford diagnostic
equipment to diagnose the system. G1055053en
2008.50 Kuga 8/2011 413-09-2
Warning Devices
413-09-2
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Parking Aid — Vehicles With: Front Parking Aid
Refer to Wiring Diagrams Section 413-13, for
schematic and connector information.
General Equipment
Ford diagnostic equipment
Principles of Operation
The ultrasonic parking aid system activates when
the ignition switch is turned to the RUN and when
the parking brake is OFF. If a front parking aid
switch is fitted the system will be de-activated and
a light emitting diode (LED) will indicate the state
of the system. A lit LED will indicate that the system
is currently deactivated. The parking aid system
will be disabled if a fault is detected in one of the
four front parking aid sensors, the parking aid
speaker or the parking aid module. An error tone
approximately 3 seconds long will be emitted from
the rear parking aid speaker if a fault is detected.
If the rear parking aid speaker is inoperative the
error tone will sound from the front parking aid
speaker.
Inspection and Verification
1. Verify the customer concern. 2. Visually inspect for obvious signs of electrical
damage.
Visual Inspection Chart Electrical
– Fuse(s)
– Wiring harness(s)
– Electrical connector(s)
– Battery junction box (BJB)
– Front parking aid sensor(s)
– Front parking aid speaker
– Parking aid module
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. If the cause is not visually evident, connect the Ford diagnostic equipment to the data link
connector (DLC) and select the vehicle system
to be tested from the diagnostic menu.
5. Retrieve the Diagnostic Trouble Code (DTC)s and refer to the DTC Index.
6. If no DTCs are retrieved or there is no communication with the module, proceed to the
Symptom Chart to continue diagnostics.
Diagnostic Trouble Codes (DTC) Index
DTC Index Action
Possible Source
Description
DTC
Check the circuit 8-GN9
(WH/GN) for short to battery.
IF the circuit is OK, INSTALL
a new parking aid module.
REFER to:Parking Aid
Module (413-13 Parking
Aid, Removal and Installa-
tion).
TEST the system for normal
operation.
• Parking aid sensor signal
circuit.
• Parking aid module.
Front outer left sensor signal
circuit short to battery
C1711
GO toPinpoint Test C.
• Parking aid sensor signal
circuit.
• Parking aid sensor.
• Parking aid module.
Front outer left sensor signal
circuit open or short to
ground
C1712 G325369en
2008.50 Kuga 8/2011 413-13-17
Parking Aid
413-13-17
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Parking Aid — Vehicles With: Rear Parking Aid
Refer to
Wiring Diagrams Section 413-13, for
schematic and connector information. General Equipment
Ford diagnostic equipment
Principles of Operation
NOTE: The rear parking aid system will be
de-activated when a Ford rear trailer tow module
is attached to the vehicle.
The ultrasonic parking aid system will default to
enabled when the ignition switch is turned to the
RUN position, the system is activated by selecting
reverse gear. The parking aid system will be
disabled if a fault is detected in one of the four rear
parking aid sensors, the parking aid speaker or the
parking aid module. An error tone approximately
3 seconds long will be emitted from the rear parking
aid speaker if a fault is detected. The rear parking
aid speaker will also sound for approximately 3
seconds if an error is detected at each ignition
cycle or if an error is detected when the system
has been activated.
Inspection and Verification
1. Verify the customer concern. 2. Visually inspect for obvious signs of electrical
damage.
Visual Inspection Chart Electrical
– Fuse(s)
– Wiring harness(s)
– Electrical connector(s)
– Battery junction box (BJB)
– Rear parking aid sensor(s)
– Rear parking aid speaker
– Parking aid module
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. If the cause is not visually evident, connect the Ford diagnostic equipment to the data link
connector (DLC) and select the vehicle system
to be tested from the diagnostic menu.
5. Retrieve the Diagnostic Trouble Code (DTC)s and refer to the DTC Index.
6. If no DTCs are retrieved or there is no communication with the module, proceed to the
Symptom Chart to continue diagnostics.
Diagnostic Trouble Codes (DTC) Index
DTC Index Action
Possible Source
Description
DTC
Check the circuit 8-GN22
(WH/GN) for short to battery.
IF the circuit is OK, INSTALL
a new parking aid module.
REFER to:Parking Aid
Module (413-13 Parking
Aid, Removal and Installa-
tion).
TEST the system for normal
operation.
• Parking aid sensor signal
circuit.
• Parking aid module.
Rear outer left sensor signal
circuit short to battery
C1699
GO toPinpoint Test C.
• Parking aid sensor signal
circuit.
• Parking aid sensor.
• Parking aid module.
Rear outer left sensor signal
circuit open or short to
ground
C1700 G295937en
2008.50 Kuga 8/2011 413-13-29
Parking Aid
413-13-29
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