3308492 - 1060G pressure pump electric control
COMPONENT DESCRIPTION
ENGINE MANAGEMENT CONTROL UNIT (COMMON RAIL EDC-16C8)
Specifcations
It is fitted in the left front part under the wheel arch. The engine management control unit memory is the 'flash EPROM' type, i.e. reprogrammable from the outside without intervening on the hardware.The engine management control unit incorporates the absolute pressure sensor.Pin-out
CONNECTOR A
1, Cylinder 3 injector positive
2, Cylinder 2 injector positive
3, Not connected
4, Fuel pressure regulator positive
5, Not connected
6, Not connected
7, Not connected
8, Fuel pressure sensor negative
9, Not connected
10, Not connected
11, Timing sensor positive
12, Engine rpm sensor negative
13, Supercharging sensor positive
14, Not connected
15, Not connected
16, Cylinder 1 injector positive
17, Cylinder 4 injector positive
18, Cylinder 5 injector positive
19, Not connected
20, Timing sensor negative
21, Not connected
22, Not connected
23, Intake air temperature and supercharging pressure sensor
negative
24, Not connected
25, Not connected
26, Not connected
27, Engine rpm sensor positive
28, Fuel pressure sensor positive
29, Flow meter positive
30, Not connected
31, Cylinder 2 injector negative
32, Not connected
33, Cylinder 4 injector negative
34, Fuel pressure regulator negative
35, Not connected
36, Not connected
37, Air temperature sensor on flow meter signal
38, Not connected
39, Not connected
40, Supercharging sensor signal
41, Coolant temperature sensor negative
42, Air flow meter signal
43, Fuel pressure sensor signal
44, Flow meter negative
45, Not connected
46, Cylinder 3 injector negative
47, Cylinder 1 injector negative
48, Cylinder 5 injector negative
49, Not connected
50, Timing sensor signal
51, Not connected
52, Not connected
53, Intake air temperature sensor signal
54, Not connected
55, Not connected
56, Not connected
57, Not connected
58, Coolant temperature sensor signal
59, Cut out throttle solenoid valve actuator negative
60, EGR solenoid valve negative
CONNECTOR K
1, Power supply from main relay
2, Control unit earth
3, Not connected
4, Control unit earth
5, Main relay power supply
6, Control unit earth
7, Turbo pressure management electro-pneumetic valve negative
8, Accelerator pedal potentiometer track 2 signal
9, Accelerator pedal potentiometer track 1 signal
10, Fuel temperature signal negative
11, Fuel temperature sensor signal
12, Not connected
13, Not connected
14, Not connected
15, Not connected
16, Not connected
17, Normally open brake pedal switch signal
18, Not connected
19, Not connected
20, Not connected
21, Not connected
22, Not connected
23, Not connected
24, Not connected
25, Line K
26, Not connected
27, Fuel consumption signal
28, Key ON signal
29, Air conditioning compressor relay
30, Accelerator pedal potentiometer track 1 negative
31, Accelerator pedal potentiometer track 2 signal
32, Not connected
33, Not connected
34, Not connected
35, Not connected
36, Not connected
37, Not connected
38, Cruise Control resume
39, Not connected
40, Not connected
41, Not connected
42, Quadrinary signal
43, Not connected
44, Not connected
45, Accelerator pedal potentiometer track 1 positive
46, Accelerator pedal potentiometer track 2 positive
47, Body computer W line
48, Engien rpm signal output to robotized gearbox
49, Not connected
50, Not connected
51, Not connected
52, Feedback signal from heater plugs control unit
53, Not connected
54, Request to engage climate control from control button
55, Not connected
56, Cruise Control positive
57, Not connected
58, Not connected
59, Not connected
60, Not connected
61, Low C-CAN from ABS control unit
62, High C-CAN from ABS control unit
63, Not connected
64, Not connected
65, Not connected
66, Not connected
67, Not connected
68, Fuel filter heater relay operation
69, Engine cooling fan 2nd speed engagement relay
70, Not connected
71, MIL warning light
72, Main relay activation
73, Not connected
74, Not connected
75, Not connected
76, Not connected
77, Cruise control on/off
78, Signal for cruise control speed decrease
79, Clutch switch signal
80, Brake pedal 2nd switch signal (only for versions with cruise
control)
81, Quadrinary signal
82, Not connected
83, Not connected
84, Not connected
85, Not connected
86, Not connected
87, Not connected
88, Not connected
89, Not connected
90, Engine cooling fan 1st speed engagement relay
91, Fuel pump relay operation
92, Heater plugs warning light
93, Heater plugs engagement
94, Engine coolant temperature signal
RPM SENSOR
Specifcations
TypeIt is fitted on the cylinder block/crankcase and 'faces' the flywheel on the crankshaft.It is of the inductive type, i.e. it functions by means of the variation in the magnetic field generated by the passage of the teeth of the flywheel (60-2 teeth).The fuel injection control unit uses the rpm sensor to:
- determine the speed of rotation
- determine the angle of the crankshaft.
Operation
IntroductionThe passage from full to empty, due to the presence or absence of the tooth, causes a variation in the magnetic flow which is sufficient to generate an induced alternating voltage, resulting from the count of teeth located on a ring (or phonic wheel).The frequency and amplitude of the voltage sent to the engine management control unit give the latter the measurement of the speed of the engine.
1. Brass bush
2. Permanent magnet
3. Plastic sensor casing
4. Coil winding
5. Polar core
6. Ring gear or flywheel
The distance (gap) for obtaining correct
signals, between the end of the sensor and the flywheel, should
be between 0.8 and 1.5 mm.This gap is not adjustable, so if a value
outside the tolerance range is measured, check the condition of
the sensor and the flywheel.
1. Maximum magnetic flow
2. Minimum magnetic flow
3. Trend of induced alternating voltage
CAM ANGLE SENSOR
Specifcations
TypeHall effect; it is mounted on the cylinder head and 'facing' the exhaust camshaft pulley.This pulley comprises a tooth which enables the timing sensor to indicate the engine's timing position.The engine control unit uses the timing sensor signal for recognizing T.D.C. at the end of compression for a quick start.Operation
IntroductionIf the intensity of the current remains constant, the voltage generated only depends on the intensity of the magnetic field; the intensity of the field simply has to vary periodically to produce a modulated electrical signal, whose frequency is proportional to the speed with which it changes magnetic field. To obtain this change, a tooth on the inside of the pulley moves close to the sensor.
1. Pulley ring
2. Signal
3. Fuel system
EXCESS PRESSURE SENSOR
Specifcations
The intake air temperature and excess pressure sensor is a component which is designed to measure the pressure and the temperature of the air inside the inlet manifold.It is fitted on the intake manifold has the task of notifying the injection control unit to:
- regulate the pressure of the variable geometry turbine in order to ensure optimum engine performance in all operating conditions.
- regulating injection duration.
1. Earth
2. Air temperature signal
3. 5 Volt (from engine management control unit)
4. Supercharging pressure output signal
ENIGINE COOLANT TEMPERATURE SENSOR
Specifcations
TypeIt is fitted on the thermostatic cup and measures the temperature of the coolant by means of an NTC thermistor which has a negative resistance coefficient.An NTC thermistor sends the signal to the engine management control unit which sends the signal for the indicator and the warning light in the instrument panel.The sensor is based on semiconductor technology;
so if the sensor temperature increases as the water temperature
increases, the resistance decreases.as the variation in resistance is not linear,
for the same temperature increment, it is higher for low temperatures
than for high temperatures.
AIR FLOW METER WITH AIR TEMPERATURE SENSOR INTEGRATED
Specifcations
TypeThe flow meter is located on the air inlet duct and is of the 'hot film' type.The intake air temperature sensor is built
into the flow meter.
The air flow meter cannot be dismantled. |
Operation
The operating principle is based on a heated diaphragm located in a measuring duct through which the intake air entering the engine flows.The hot film diaphragm is kept at a constant temperature (about 120° C above the incoming air temperature) by the heating resistor.The air mass passing through the measuring duct tends to draw heat from the diaphragm, so to keep the latter at a constant temperature, some current must flow through the resistor.This current is measured by a suitable Wheatstone bridge.The current is therefore proportional to the mass of flowing air.The flow meter directly measures the air mass (not volume), thus eliminating problems of temperature, altitude, pressure, etc. |
Fuel temperature sensor
Specifications
It is built into the fuel heater and measures the temperature of the coolant by means of an NTC thermistor which has a negative resistance coefficient.The sensor is based on semiconductor technology;
so if the sensor temperature increases as the fuel temperature increases, the
resistance decreases.As the variation in resistance is not linear,
for the same temperature increment, it is higher for low temperatures
than for high temperatures.
FUEL PRESSURE SENSOR
Specifcations
It is fitted at the end of the 'rail' fuel distribution manifold and has the task of supplying the injection control unit with a 'feedback' signal to:
- regulate the injection pressure
- regulating injection duration.
1. Earth
2. Output signal
3. Fuel system
ACCELERATOR PEDAL POTENTIOMETER
Specifcations
TypeThe accelerator pedal is fitted with two integrated potentiometers:
- one main one
- one safety one.
The engine control unit implements the following recovery strategies:
- if there is a fault with one of the two potentiometers, a throttle opening of up to 40° is allowed for a long period
- if both of the potentiometers fail completely, the throttle opening is excluded.
Operation
IntroductionThe sensor consists of a casing, fixed to the pedals by bolts, which contains a shaft, in an axial position, connected to the two potentiometers.There is a coil spring on the shaft which guarantees the correct resistance to the pressure whilst a second spring ensure the return on release.Operating range from 0° to 70°; mechanical stop at 88°.if one of the two potentiometers or both of them are broken, the accelerator pedal should be replaced in one piece because it cannot be dismantled. |