Can QCSC DAS electronically find a 'jumped' timing chain? YES
If the engine has cam and crank sensors we can measure the normal relationship between the ID or sync pulse and the reference pulse.
85 Riviera 3.8L/Distributorless/C3I-Type 1
All readings taken at the ignition module while RUNNING.
All square waves are 0 volts when low and 7 volts when high.
ch0=crank signal, pin 'F', blu/wht ch1=cam signal, pin 'K', brn/wht ch2=reference, pin 'C', ppl/wht
The snapshot below shows that the offset between the rising edge of the cam signal and the rising edge of the next crank/reference pulse is 30 degrees. It also shows that the rising edge of the cam pulse is 90 crankshaft degrees after the precedi ng crank-in pulse.
If we saw that this relationship had varied, we could suspect a timing chain problem.
Both ch0 (the crank sensor) and ch1 (the cam sensor) are 12 volt hall-effect sensors (switches),
however , they both produce a wave that is either 0 volts or 7 volts. The crank sensor will average about 3.5 volts on a DVOM when the engine is running. Ch2 (the reference pulse) will also average about 3.5 volts when the engine is running. A ll these signals can be checked with a DVOM.
See same vehicle with engine cranking
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QCSC DAS Copyright 1996 -- Developed by; Daniel A. Buckley (NIASE GAM-CMAT-L1)
QCSC:85383