Range Rover (LP) V8-4.6L (2001)
/v8-4.6l/Page-84001.png)
Wiper Relay: Diagnostic Aids
Troubleshooting Technique
TROUBLESHOOTING TECHNIQUE
The following five-step troubleshooting procedure is recommended.
1. Verify the Problem
Check the operation of the circuit to be sure you understand the problem. Do not begin disassembly or testing until you have narrowed down the
possible causes.
2. Analyze the Circuit Diagram (schematic)
Analyze the diagram. Check circuits that share the wiring with the problem circuit. The names of shared circuits are often given on each Circuit
Diagram to aid troubleshooting. Try to operate the shared circuits. If these circuits work, then the shared wiring is OK. The cause must be within
the wiring used only by the problem circuit. If several circuits fail at the same time, chances are the power (fuse) or ground circuit is faulty.
3. Find the Cause
-
Narrow down the possible causes.
-
Before you replace a component, check power, signal, and ground wires at the component harness connector.
4. Repair the Problem
Once the specific problem is identified, make the repair. Be sure to use the correct tools and safe procedures.
5. Check the Repair
Check the operation of the repaired circuit in all modes to make sure you fixed the entire problem. If the problem was a blown fuse, be sure to test
all of the circuits on that fuse. Make sure no new problems are present.
Test Equipment
TEST EQUIPMENT
Where applicable, Land Rover recommended testers should be used.
Voltmeter and Test Light
Use a voltmeter or test light to check for voltage. While a test light shows whether or not voltage is present, a voltmeter indicates how much voltage there
is.
CAUTION: A number of circuits include solid-state devices. Voltages in these circuits should be tested only with a 10-megohm or higher impedance
digital multimeter. Never use a test light on circuits that contain solid-state devices. Damage to the device may result.
On circuits without solid-state devices, a test light may be used to check for voltage. A test light is made up of a 12-volt bulb with a pair of leads
attached. After grounding one lead, touch the other lead to various points along the circuit where voltage should be present. The bulb will come on if the
voltage at the point being tested is greater than 5 volts.
Self-powered Test Light and Ohmmeter
Use a self-powered test light or ohmmeter to check for continuity. The ohmmeter shows how much resistance there is between two points along a circuit.
Low resistance means good continuity.
CAUTION: Never use a self-powered test light on circuits that contain solid-state devices. Damage to these devices may result.
Diodes and solid-state devices in a circuit can make an ohmmeter give a false reading. To find out if a component is affecting a measurement, take one
reading, reverse the leads, and take a second reading. If the readings differ, the component is affecting the measurement.
Circuits that contain solid-state devices should only be tested with a 10-megohm or higher impedance digital multimeter.
A self-powered test light consists of a light bulb, Battery and two leads. If the leads are touched together, the bulb will go on.
A self-powered test light is only used on an unpowered circuit. First, disconnect the battery or remove the fuse that feeds the circuit you are working on.
Select two points along the circuit through which there should be continuity. Connect one lead of the self-powered test light to each point. If there is
continuity, the test light's circuit will be completed and the bulb will go on.
