Discovery I (LJ) V8-3.9L (1994)
/v8-3.9l/Page-2367004.png)
NOTE: AC current produced by sensors, i.e. TDC and ABS Speed Sensors, is not rectified to DC current. These are the only AC current signals found
in LAND ROVER electrical systems.
AC voltage has found an increasing number of uses in automobiles in the past several years. AC generators (Alternators) were first introduced when
increasing power demands and changing traffic and climate conditions proved too great for the DC generator. The AC generator (Alternator) produces
alternating current which must be changed to direct current before it can be utilized by the vehicle's electrical system. This is accomplished by the use of
a diode pack consisting of three positive and three negative diodes, called a Rectifier. Since diodes allow current to flow through them in one direction
only, the resultant output is direct current (DC).
However, in recent years we have begun using AC voltage in its non-rectified (alternating) form. For example, we utilize the properties of AC as an
on-off switch for the ignition coil in electronic ignition systems, as generated by the pickup coil in the distributor. In addition, RPM sensors like those
used on the Engine Management System (EMS), and wheel speed sensors on ABS braking systems, also generate AC voltage.
The flow and behavior of electricity can easily be explained by comparing it to the flow of water through a pipe.
VOLTAGE IS PRESSURE
A storage battery and a water tower are similar, they both provide pressure. The battery is a source of electrical pressure and the water tower supplies
water pressure. In other words, voltage is simply electrical pressure. And, it's voltage that pushes electricity through the wires in a circuit just as pressure
pushes water through the pipes in a plumbing system.
Voltage is represented by the symbol B for electromotive force.
AMPERAGE IS FLOW
The flow of electricity and water can also be compared. An electric current is the movement or flow of electricity through a circuit just as water flow is
the movement of water through a pipe.
Amperage is the electrical unit that tells you how much current is flowing through the wires of a circuit. Just as gallons-per-minute is the measure of the
rate of water flow, amperage is the measure of rate of current flow. When a current of one ampere is flowing through a wire it means that a definite
amount of current flow is present in the circuit.
Amperes are abbreviated as "amps," and are represented by the symbol I for intensity.
OHMS MEASURE RESISTANCE
