2011 FORD KUGA Electric

KS
E96327
23
5
4
1
Description
Item
Seismic mass
1
Piezoceramic
2
Housing
3
Piezoceramic contact
4
Electrical connection
5
The KS converts mechanical vibrations of the
cylinder block into electrical pulses which can then
be processed by the PCM.
The KS consists of piezo-ceramic crystals that
generate a voltage when subjected to a mechanical
load.
When fastening the KS, make sure the specified
torque is adhered to. In this way a defined initial
tension is applied to the crystals which exerts an
influence on the operation of the KS.
When the engine is running, the pressure
fluctuations arising due to the combustion process
cause vibrations in the cylinder block. These act
on the crystals in the KS, causing the sensors to
produce an output signal. The stronger the
vibrations, the higher the frequency and the AC
voltage. These signals are evaluated by the PCM
and compared with stored data.
TIE42093
1
2
A
B1
2
Description
Item
Normal combustion
A
Knocking combustion
B
Pressure characteristic in cylinder
1
Output signal from KS
2
Broadband HO2S
TIE42061
The planar broadband HO2S also allows
measurements of the exhaust gas which deviates
from the stoichiometric ratio (lambda = 1). The
measuring range extends from lambda 0.7 to 2.8,
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E96872
1
2
3
5
4
6
7
8
Description
Item
Electrical connection
1
Solenoid coil
2
Engine oil pressure supply bore and ring
groove for camshaft adjustment unit
chamber A
3
Tappet
4
Engine oil pressure supply bore for
camshaft adjustment solenoid
5
Engine oil pressure supply bore and ring
groove for camshaft adjustment unit
chamber B
6
Spring
7
Engine oil return bore
8
MAF sensor
E58185
1
2
43
565
Description
Item
Housing
1
Housing cover
2
Control electronics
3
Sensor element
4
Sensor measuring cell
5
Heating zone
6
The MAF sensor works on the ‘hot-film principle’.
The MAF sensor is powered via the Powertrain
Control Module relay in the BJB. The MAF sensor
is connected to ground via the PCM.
The MAF sensor sits in a molded part which
protrudes into the center of the air cleaner's outlet
pipe. From this position, it measures the air mass
drawn in by the engine.
The air mass aspirated by the engine is determined
on the basis of the cooling effect of the intake air
via a hot-film element in the MAF sensor. The
greater the aspirated air mass, the greater the
cooling effect and the lower the electrical resistance
of the hot-film element. The electronics in the MAF
sensor process this resistance value and send a
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voltage signal to the PCM corresponding to the
aspirated air mass.
This analogue voltage signal is between 0.5V and
5V. Low mass of intake air produces a low voltage
signal. A high mass of intake air produces a
correspondingly high voltage signal.
The MAF sensor is also capable of detecting the
backflow of the intake air. A sensor element is
heated electrically on the integrated chip and then
cooled by the air flowing through. The regulating
switch supplies the heating current in such a way
that it attains a constant excess temperature in
comparison to the intake air. The mass air flow and
the direction of flow can be derived from this
heating current (given in the form of a signal
voltage). Below a certain voltage value there is a
return flow. The direction is flow is registered by
two sensors pointing in different directions. The
measurement does not require a great deal of
software processing effort, even with a strongly
pulsating mass air flow.MAPT
E96146
The MAPT sensor combines two sensors in one
housing. These are the MAP sensor and the IAT
sensor. They take the form of a piezoelectric
resistor and an NTC resistor.
The MAP sensor receives a reference voltage of
5V from the PCM. The output signal from the MAP
sensor element is an analog voltage signal which
changes proportionately to the prevailing pressure
in the intake manifold.
The IAT sensor records the temperature of the
intake air downstream of the intercooler.
APP sensor
00
E96668
1
2
43
AV
56
7
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Air conditioning (A/C) pressure sensor
E74157
The A/C pressure sensor is installed on the
high-pressure side of the A/C. The input voltage is
5V, the output voltage is between 0.5V and 4.5V
depending on the cryogenic fluid pressure. When
the cryogenic fluid pressure is low, the output
voltage is also low.
Voltage (Volts)
Pressure (bar)
3.9 - 4.0
Approx. 30
3.3 - 3.4
Approx. 25
2.7 - 2.8
Approx. 20
2.1 - 2.2
Approx. 15
1.6 - 1.7
Approx. 10
1.0 - 1.1
Approx. 5
0.5 - 0.7
Approx. 1
Throttle control unit
E74167
1
2
Description
Item
TP sensor
1
Electric motor
2
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E74168
1
23456
Description
Item
Stop screw
1
Toothed segment
2
Throttle flap spindle
3
Throttle flap return spring
4
Joint shaft
5
Electric motor with pinion
6
CAUTION: The throttle control unit must
not be repaired or adjusted. The stop of
the throttle valve must on no account be
adjusted.
If there is a fault, the throttle is returned to its
original position by means of the throttle valve
return spring. In this position, the throttle valve is
still slightly open. As a result, a higher idle speed
is set, enabling the vehicle to be driven, though
within narrow limits.
ECT sensor
E94804
The ECT sensor is designed as an NTC resistor.
A voltage of 5V is applied to the ECT sensor by
the PCM. The PCM is able to determine the coolant
temperature from the temperature-dependent
voltage drop at the sensor.
Cooling fan module
E94806
The cooling fan module is directly supplied with
battery power via a 60A fuse in the BJB. The
radiator fan speed is controlled by the PWM via a
PCM signal.
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injectors
E96472
2
3
4
5
6
7
8
1
2
Description
Item
Electrical connector
1
Seal
2
Fuel inlet with fine sieve
3
Housing
4
Coil
5
Spring
6
Valve needle with solenoid armature
7
Valve seat with nozzle hole disk
8
The fuel injectors consist of a housing with fuel
passages, a coil and an injector needle with a
solenoid armature. The fuel inlet in the injector
features a fine sieve. There are two holes in the
nozzle hole disk. These are arranged so that two
jets of fuel emerge. Each jet supplies one intake
valve of the respective cylinder.
Ignition coil-on-plug
E73516
2
1
3
4
5
6
7
8
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Engine oil level, temperature and quality
sensor
E95312
The sensor is a combined oil level and oil
temperature sensor.
The sensor consists of:
• Electrical connector
• Integral electronics
• PTC resistor
• Capacitive element consisting of two tubes witha space between them. The one tube represents
the positive side, the other the negative. The oil
between the tubes creates the capacitive
properties.
The sensor receives a 5V voltage from the PCM.
The sensor generates a PWM signal that is sent
to the PCM.
Exterior aor temperature sensor
The outside air temperature sensor is a NTC
resistor and is supplied with a 5V voltage by the
PCM.
The resistance of, and consequently the voltage
from, the outside air temperature sensor changes
as a function of temperature.
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Electronic Engine Controls
General EquipmentFord 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
– Fuse(s)
– Wiring harness
– Electrical connector(s)
– Relay(s)
– Sensor(s)
– Switch(es)
– Powertrain control module (PCM)
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.
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