Varying octane levels in today's gasoline may cause detonation in some engines. Detonation is caused by an uncontrolled explosion (burn) in the combustion chamber. This uncontrolled explosion could produce a flame front opposite that of the normal flame front produced by the spark plug. The rattling sound normally associated with detonation is the result of two or more opposing pressures (flame fronts) colliding within the combustion chamber. Though light detonation is sometimes considered normal, heavy detonation could result in engine damage. To control spark knock, a Knock Sensor (KS) system is used. This system is designed to retard spark timing when spark knock is detected in the engine. The KS system allows the engine to use maximum spark advance for optimal driveability and fuel economy.

The KS system has two major components:

The PCM contains a replaceable Knock Sensor (KS) module. The KS module contains the circuitry that allows the PCM to diagnose the knock sensors and circuitry

The knock sensor(s) detect abnormal vibration (spark knocking) in the engine. The knock sensor(s) are mounted in the engine block near the cylinders. The knock sensor(s) produce an AC output voltage which increases in amplitude and frequency with increased severity of detonation. This signal voltage is input to the PCM. The PCM then adjusts the Ignition Control (IC) timing to reduce spark knock. The knock sensors are used to detect engine detonation, allowing the PCM to retard Ignition Control (IC) spark timing based on the KS signal being received.

If the KS module is missing or faulty causing a continuous knock condition to be indicated, the PCM will set DTC P0325.

The scan tool has four data display parameters available for diagnosing the KS system. The four parameters are described as follows:

DTCs P0325, P0326, and P0327 are designed to diagnose the KS module, the knock sensors, and related wiring, so problems encountered with the KS system should set a DTC.