ENGINE MANAGEMENT SYSTEM - EDC
| The fuel injection pump is a
vane-type pump, which is gear driven from the front end of the camshaft.
Fuel delivery from the pump to the injectors is regulated by the movement
of a control spool. Movement of the control spool increases or decreases
the fuel delivery rate to meet engine operating requirements. The pump
houses the following components which either provide feed back to the ECM
or are controlled by the ECM: Fuel temperature sensor Fuel temperature is monitored by a sensor located in the fuel injection pump. This sensor is of the negative temperature coefficient (NTC) type, designed to reduce its resistance with increasing temperature. The sensor is connected to earth and to a precision resistor inside the ECM. A small current is fed through the precision resistor. When the system is operating the ECM regularly checks the sensor voltage. This is converted to a digital word that can be read by the microprocessor and converted to a temperature reading. As fuel density varies with temperature, the information received is used to calculate the correct quantity of fuel to inject. |
| The servo control unit is
used to accurately control the amount of fuel delivered to the injectors.
The unit consists of a rotary magnet mounted on an eccentric shaft; the
shaft engages with the control spool of the pump. The rotary magnet is
fitted with a return spring and moves under the influence of a control
coil. The magnet rotates through an arc of about 60 degrees moving the
control spool from the closed position to the maximum fuel delivery
position. The eccentric shaft engages with the control spool at one end,
while the opposite end operates a rotary potentiometer. When the control coil is energised the rotary magnet and eccentric shaft move against spring pressure. Rotary movement of the eccentric shaft is converted into linear movement of the control spool. This allows more fuel to be delivered to the injectors. When the control coil is de-energised the return spring causes the rotary magnet and eccentric shaft to resume their original position. The control spool is moved to the closed position. |