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GE 38792-A Electronic Vibration Analyzer
For equivalent regional tools, refer to Special Tools and Equipment .
The numbers below refer to the step numbers on the diagnostic table.
Obtaining rotational speed for the components rotating at tyre/wheel speed is critical to systematically eliminating specific vehicle component groups. These component rotational speeds can be generated by using an electronic vibration analyser, or through calculating them manually.
Note: Be certain to OBSERVE for disturbances that match the customer's description FIRST, then look at the vibration analyser frequency which corresponds with that disturbance.
Proper location of the vibration analyser sensor onto the component which is most excited by the vibration disturbance is critical to obtaining an accurate frequency reading.
This test will duplicate virtually any disturbance which occurs while the vehicle is in motion.
Accelerate to a speed high enough above the speed of the disturbance to allow for the time needed to shift into NEUTRAL and for the engine to decrease in RPM to idle speed, before freewheeling down through the disturbance range.
This test will either eliminate or confirm the engine as a contributing cause of the customer concern.
Step | Action | Yes | No | ||||||||||
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Warning: Refer to Road Test Warning in the Preface section. | |||||||||||||
1 | Did the customer concern indicate that the vibration occurs ONLY while the vehicle is standing still? | Go to Step 5 | Go to Step 2 | ||||||||||
2 | Visually inspect the tyre and wheel assemblies, steering components and suspension components for any possible faults. Are the tyre and wheel assemblies, steering components and suspension components in good working condition? | Go to Step 4 | Go to Step 3 | ||||||||||
3 |
Note: Do NOT operate the vehicle until the faults are corrected. Correct the faults with the tyre and wheel assemblies, steering components, and/or the suspension components before proceeding. Did you correct the faults with the tyre and wheel assemblies, steering components, and/or the suspension components? | Go to Step 4 | Go to Step 2 | ||||||||||
Did you obtain the powertrain ratios for use with the vibration analyser, or calculate the component rotational speeds, if a vibration analyser is NOT available? | Go to Step 5 | — | |||||||||||
5 |
Is the scan tool operating properly? | Go to Step 6 | -- | ||||||||||
6 | Using a vibration analyser is the preferred method for gathering necessary vibration frequency data. If a vibration analyser is not available, the necessary vibration frequency data will have to be obtained based on symptoms observed during testing. Review Symptoms - Vibration Diagnosis and Correction to become familiar with the possible frequency ranges. Review Symptoms - Vibration Diagnosis and Correction, as necessary throughout the remainder of diagnostics. Is a vibration analyser available for use? | Go to Step 7 | Go to Step 8 | ||||||||||
7 | Install the vibration analyser. Is the vibration analyser operating properly? | Go to Step 8 | Check the Vibration Analyzer | ||||||||||
8 | Did the customer concern indicate that the vibration occurs ONLY while the vehicle is standing still? | Go to Step 9 | |||||||||||
Were you able to duplicate the customer's concern? | Go to Step 10 | ||||||||||||
Note: If the vehicle is equipped with an automatic transmission, let the vehicle freewheel to a stop before shifting back into gear. Does the disturbance still occur while freewheeling-down in NEUTRAL? | Go to Step 12 | Go to Step 11 | |||||||||||
Does the same disturbance still occur while going the same vehicle speed in a lower gear range? | |||||||||||||
12 | If the vibration analyser is not available, refer to Symptoms - Vibration Diagnosis and Correction . Did the vibration analyser detect a dominant frequency? | Go to Step 13 | |||||||||||
13 |
Does the frequency data clearly fall within the tyre/wheel parameters ONLY? |
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