Discovery I (LJ) V8-3.9L (1994)
/v8-3.9l/Page-2367018.png)
(Amperage) of the circuit. If an amperage value is not available, an approximate amperage value may be obtained by using the fuse rating. In a properly
designed circuit the current flow (Amperage) should be approximately 75% - 80% of the fuse rating. A circuit with a fuse rated at 10 Amps should have
approximately 7.5 - 8.0 Amps of current flow. This approximation will change if there is an electric motor in the circuit. Most electric motors will draw
about twice the current when they start as they do when they are running, therefore an adjustment must be made for this. A circuit containing an electric
motor that has a 10 Amp fuse would initially draw about 8 Amps when the motor first starts and then would draw about 4 Amps after the motor is
running.
Once the approximate Amperage of the circuit has been determined, the resistance of the circuit can be found by dividing the measured battery voltage
by this Amperage. Although this is an approximate value it can be a useful tool to determine if the resistance of the circuit is correct. This approximate
resistance value may now be checked against the actual tested resistance of the circuit to determine if there is a problem.
Amperage tests will indicate a problem but will not pinpoint the exact location of the high or low resistance within the circuit. Additional testing (i.e.,
voltage drop) will be necessary to locate the actual resistance.
OHMMETER
An ohmmeter measures resistance in ohms. The ohmmeter is self-powered and must never be connected to a circuit that has current flowing or the meter
will be damaged.
To measure the resistance, connect the meter leads to the terminals or leads of the conductor or load device. An infinite reading indicates an open circuit;
a reading of zero indicates no measurable resistance which is often referred to as continuity. Continuity is little to no resistance and is measured on a
higher scale of an ohmmeter. A reading between zero and infinity is the component's actual resistance to current flow. To obtain the actual resistance,
multiply the meter reading by the ohmmeter scale. Example: a meter reading of 10 R x 1000 scale is 10,000 ohms of resistance.
NOTE: It is important to ensure that the ohmmeter is set to the correct scale for the device or item that you are measuring.
CAUTION: DO NOT CHECK CIRCUITS OR COMPONENTS THAT OPERATE ON MILLIAMPERES (COMPUTER CIRCUITS)WITH
12 VOLT TEST LIGHT OR SELF POWERED TEST LIGHTS. THE LOW RESISTANCE OF THE 12V TEST LIGHT BULB OR THE
CURRENT OF THE SELF POWERED TEST LIGHT WILL DAMAGE THE CIRCUIT OR COMPONENTS. ONLY LED TEST LIGHTS
OR A HIGH IMPEDANCE MULTI-METER SHOULD BE USED ON THESE CIRCUITS.
