Safety Warning
DIY auto repair can cause serious injury, fire, or vehicle damage. These guides are for informational purposes only. Always follow OEM torque specs, wear PPE, and consult a certified mechanic if you are unsure. You are solely responsible for your safety.
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HOMESERVICE MANUALSSUBARU1990XT-6 4WD L6-2.7L SOHCREPAIR AND DIAGNOSISPOWERTRAIN MANAGEMENTIGNITION SYSTEMDESCRIPTION AND OPERATION
1990 Subaru XT-6 4WD L6-2.7L SOHC
Ignition System: Description and Operation
1990 Subaru XT-6 4WD L6-2.7L SOHCSECTION Description and Operation
PURPOSE
To produce a spark that will ignite the air/fuel mixture within an engine's cylinders, ignition systems generate high voltage and direct it to spark plugs at each cylinder. Voltage must be high enough to jump the spark plug gap under compression and it must be supplied at the correct time under a wide range of operating conditions.
DESCRIPTION
This vehicle uses an ECU controlled electronic ignition system. Components include:
1. Ignition coil.
2. Distributor with integral crank angle sensor.
3. Ignitor.
4. Distributor cap and high tension wiring for distributing high voltage to the spark plugs.
CRANK ANGLE SENSOR
The crank angle sensor provides the ECU with signals regarding engine rpm and #1 cylinder TDC (camshaft position). Together with other inputs, the ECU calculates ignition timing over the range of vehicle operating conditions.
IGNITER
An ECU controlled igniter is used as a switch to regulate current flow through the coil primary circuit. Each time current flow is interrupted, high voltage is induced to fire the spark plugs. Except for the initial setting, timing is determined by the ECU.
SECONDARY IGNITION COMPONENTS
A distributor cap, rotor and high tension wires are used to direct high voltage from the coil to each spark plug at the appropriate time as calculated by the ECU.
To produce a spark that will ignite the air/fuel mixture within an engine's cylinders, ignition systems generate high voltage and direct it to spark plugs at each cylinder. Voltage must be high enough to jump the spark plug gap under compression and it must be supplied at the correct time under a wide range of operating conditions.
DESCRIPTION
This vehicle uses an ECU controlled electronic ignition system. Components include:
1. Ignition coil.
2. Distributor with integral crank angle sensor.
3. Ignitor.
4. Distributor cap and high tension wiring for distributing high voltage to the spark plugs.
CRANK ANGLE SENSOR
The crank angle sensor provides the ECU with signals regarding engine rpm and #1 cylinder TDC (camshaft position). Together with other inputs, the ECU calculates ignition timing over the range of vehicle operating conditions.
IGNITER
An ECU controlled igniter is used as a switch to regulate current flow through the coil primary circuit. Each time current flow is interrupted, high voltage is induced to fire the spark plugs. Except for the initial setting, timing is determined by the ECU.
SECONDARY IGNITION COMPONENTS
A distributor cap, rotor and high tension wires are used to direct high voltage from the coil to each spark plug at the appropriate time as calculated by the ECU.
RENDER: 1.0x
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When to See a Mechanic
Stop DIY work and contact a certified mechanic immediately if any of the following apply:
- • You smell fuel, burning insulation, or see smoke.
- • Brakes feel soft, pull hard to one side, or make grinding noises.
- • The engine overheats, stalls repeatedly, or misfires under load.
- • You are missing required tools, torque specs, or safe lifting equipment.
- • You are not confident in the next step or safety outcome.