GM Service Manual Online
For 1990-2009 cars only

The next step after road testing the vehicle is to identify the frequency of the duplicated and abnormal vibration. Use the EVA in order to measure the frequency. If the EVA is not available, the frequency can be categorized into groups according to how the vibration feels or sounds. The majority of vibrations will fit into one of the following categories.

    • Vibrations that can be felt:
       - Shake
       - Roughness
       - Buzz
       - Tingling
    • Vibrations that make noise:
       - Boom
       - Moan and groan
       - Howl
       - Whine

Vibrations That Can Be Felt

Shake


Object Number: 95608  Size: SH

The shake is a low frequency vibration, typically 5-20 Hz. The shake is sometimes seen in the steering wheel, the seat, or the console. The best description is the feeling from an out-of-round or unbalanced tire. Customers may refer to shake in one of the following terms:

    • Shimmy
    • Wobble
    • Shudder
    • Waddle
    • Hop

In most cases, damage to or wear of the following components is to blame for the shake:

    • The tires
    • The wheels
    • The brake rotors (vehicle-speed sensitive)
    • The steering tie rod ends
    • The suspension ball joints
    • The engine (engine-speed sensitive)

Roughness

Roughness is a vibration with a slightly higher frequency than the shake, usually 20-50 Hz. Roughness is similar to the feeling you get from holding a jigsaw.

Buzz

Buzz is slightly higher in frequency: 50-100 Hz. A buzz is similar to the feel of an electric razor. You may feel it in your hands through the steering wheel, in the feet through the floor, or in the seat. Inspect the following components for a possible cause:

    • The exhaust system
    • The A/C compressor
    • The engine

Tingling

This is the highest frequency that can still be felt. Tingling may sometimes produce a PINS AND NEEDLES sensation. Customers may say the vibration puts their hands or feet TO SLEEP.

Vibrations That Make Noise

Boom

Boom is a low frequency interior noise of 20-60 Hz. Sometimes the customer complains of a pressure in their ears. Examples of similar noises include a bowling ball rolling down an alley, deep thunder, or a bass drum.

A customer may use the following words to describe boom:

    • Droning
    • Growling
    • Moaning
    • Roaring
    • Rumbling
    • Humming

Boom may not be accompanied by a perceptible vibration (roughness).

Moan or Drone

Moan or drone is a sustained tone at a low frequency of 60-120 Hz, somewhat higher than boom.

Examples of similar noises include a bumble bee, or blowing air across the top of a soda bottle. Examples of words to describe moan or drone are humming, buzzing, resonance. Moan or drone may be accompanied by a perceptible buzzing vibration. Inspect the following systems:

    • The powertrain mounts
    • The exhaust system.

Howl

Howl is a noise at mid-range frequency of 120-300 Hz. This sounds like the wind howling.

Whine

Whine is a prolonged, high-pitched sound in the 300-500 Hz range, and is usually related to the meshing gears or gear noise. Similar sounds include mosquitoes, turbine engines, and vacuum cleaners.

Matching Frequency to Component Speed

At this point in the diagnosis, the vibration has been duplicated, designated as abnormal, identified as being related to engine speed or vehicle speed, and assigned a frequency from the EVA or categorized into a symptom group based on how it feels or sounds.

Automotive vibrations are usually related to the rotating speed of a component. The speed of these components will be calculated using either an engine speed or vehicle speed method. The engine rpm readings taken during the road test will be used in diagnosing vibrations that are engine speed sensitive. If the vibration is vehicle speed sensitive, the rotational speed of the tires needs to be determined. As long as the vehicle is operated at a constant speed, the tires will operate at a constant speed. These speed is measured in rotations or cycles per second. The reading is then compared to the frequency of the vibration, which is also measured in cycles per second.

Calculating Tire Rotation


Object Number: 95609  Size: LF

Determine the rotational speed of the tires in revolutions per second, or Hertz (Hz), based on the vehicle speed at which the vibration occurs. In order to determine the rotational speed, follow this procedure:

  1. Determine the complaint speed -- the vehicle speed at which the vibration occurs.
  2. Determine the number of 8 km/h (5 mph) increments:
  3. • Divide the complaint speed by 8 when using km/h.
    • Divide the complaint speed by 5 when using mph.
  4. Determine the vehicle tire size.
  5. Locate on the table below, the Hertz value at 8 km/h (5 mph) for that tire size.
  6. Multiply the Hertz value by the number of 8 km/h (5 mph) increments.
  7. The result is the rotational speed of the tires in Hertz at the complaint speed. If this figure matches the vibration frequency, a first-order vibration is present in the tire and wheel assembly.

Tire Rotational Speed at 8 km/h (5 mph)

Tire Size

Revs/Sec (Hertz) at 8 km/h (5 mph)

P205/70R15

1.09

P215/70R15

1.07

P205/65R15

1.11

Sometimes, the tire/wheel vibration may be of a higher-order. In order to compute possible higher-order vibrations, multiply the rotational speed of the tires in Hertz at the complaint speed by the order number. If any of these matches the vibration frequency, then a vibration of that particular order is present in one of the tire and wheel assemblies.

Steering and Suspension Vibrations

Steering and suspension vibrations are the first level of testing for low-frequency vibrations that are vehicle-speed-sensitive. The symptoms if a steering/suspension first order vibration are shimmy or shake, usually felt in the steering wheel or in the seat. Inspect the following components for wear or damage:

    • The steering tie rod ends.
    • The suspension ball joints.