Federal Emissions
Chart C-5, Electronic Spark Control System Check:
Electronic Spark Control (ESC - Knock Sensor) Circuit Diagram:
CIRCUIT DESCRIPTION
The knock sensor is used to detect engine detonation and the ECM will retard the electronic spark timing based on the signal being received, The circuitry within the knock sensor causes the ECM's supplied 5 volt signal to be pulled down so that under a no knock condition, CKT 496 would measure about 2.5 volts.
The knock sensor produces an A/C signal which rides on the 2.5 volts DC voltage. The amplitude and frequency are dependent upon the intensity of the knock.
The PROM used with this vehicle contains the functions which were part of the remotely mounted KS modules used on other GM vehicles. The KS portion of the PROM then sends a signal to other parts of the ECM which adjusts the spark timing to reduce detonation.
TEST DESCRIPTION
Numbers below refer to circled numbers on the diagnostic chart.
1. With engine idling, there should not be a knock signal present at the ECM because detonation is not likely under a no load condition.
2. Tapping on the engine lift hook should simulate a knock signal to determine if the sensor is capable of detecting detonation. If no knock is detected, try tapping on engine block closer to sensor before replacing sensor.
3. If the engine has an internal problem which is creating a knock, the knock sensor may be responding to the internal failure.
4. This test determines if the knock sensor is faulty or if the KS portion of the PROM is faulty. If it is determined that the PROM is faulty, be sure that it is properly installed and latched into place. If not properly installed, repair and retest.
DIAGNOSTIC AIDS:
While observing knock signal on the "Scan," there should be an indication that knock is present when detonation can be heard. Detonation is most likely to occur under high engine load conditions.
NOTE: If the KS circuit is routed to close to the secondary ignition wires, induced voltage may cause a false knock signal.