GM Service Manual Online
For 1990-2009 cars only
Table 1: Tire/Speed
Table 2: Axle Ratio

At this point in the diagnosis, the vibration has gone through the following analysis:

    • The vibration has been duplicated.
    • The vibration has been designated as abnormal.
    • The vibration has been related either to engine speed or to vehicle speed.
    • The vibration has been assigned a frequency from the Electronic Vibration Analyzer (EVA) or identified based on its feel or its sound.

Automotive vibrations are usually related to the rotating speed of a component. Calculate the speed of these components using either an engine speed method or a vehicle speed method. Use the engine RPM readings taken during the road test in order to diagnose the vibrations that are sensitive to engine speed.

If the vibration is sensitive to vehicle speed, determine the rotational speed of the tires. As long as you operate the vehicle at a constant speed, the tires will operate at a constant speed. This 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 with the EVA

The EVA program is designed to perform targeted frequency calculations on a suspected vibration source. The tire size, axle ratio, number of cylinders, vehicle speed and engine RPM are factored into a calculation that determines the predominant vibration frequency, amplitude and the suspected vehicle system producing the vibration.

  1. Use the EVA to determine the speed at which the vibration occurs.
  2. From the EVA main menu, select Auto Mode, then press enter; select Vehicle Speed, then press enter.
  3. Enter the vehicle tire size information with one of three options:
  4. • RPS at 5 mph -- Refer to the Tire/Speed table below for the Hertz value at 8 km/h (5 mph) for that tire size.
    • Database -- Select the tire type and tire size from each selection screen. Tip: when browsing the tire size or axle ratio list, press a number key to go to a related point in the list; for example, press 1 to go to the top of the list; press 4 or 5 to go to the middle of the list; press 9 to go to the bottom of the list.
    • Manual Entry -- Select Manual Entry to enter tire size directly. Enter the tire width (100-500 mm), aspect ratio (0.30-1.50) and rim diameter (10.00-25.00 in).
  5. Enter the driveshaft configuration (skip step 5 if vehicle is front wheel drive).
  6. Enter the axle ratio, refer to the Axle Ratio screen or table below, (2.00-9.00) from the Axle Ratio selection screen. Note: Axle Ratio is not applicable if front wheel drive (FWD) is selected.
  7. Select the vehicle speed units in miles-per-hour (mph) or kilometers-per-hour (km/h).
  8. Enter the vehicle speed at which the vibration is felt.
  9. As the test is run, the vehicle speed must be manually adjusted to match the actual vehicle speed:
  10. • Select the incremental step you want to increase/decrease vehicle speed, then press enter.
    • View the frequency ranges applicable for the speed selected, press enter to go to the active data screen or exit to go back one screen.
    • Press the up or the down key to adjust the on-screen vehicle speed on the live data screen to match the actual vehicle speed.
  11. Data is displayed as averaged (A is displayed) or instantaneous (I is displayed). Press average (avg) key to toggle. The amplitudes of the vibrations detected are displayed in descending order beginning with line 2. Repair the strongest vibration first. One to three sources of vibration are identified:
  12. • TIRE 1, 2, or 3 (1st, 2nd, or 3rd order tire/wheel system concern).
    • PROP 1 or 2 (Propshaft concern).
    • OVERLAP (overlap of Tire 3 and Prop 1 frequencies).
    • UNKNOWN (vibration source is unknown).
  13. Data is received through input A (A is displayed) or B (B is displayed). Press key 4 to toggle.
  14. The vehicle speed (V) is displayed in mph or km/h. Press the down or up key to manually adjust this figure to match actual vehicle speed.
  15. An identification letter symbol displays during record (R) or playback (P).
  16. During record or playback the event and frame numbers are displayed. If an event is not selected, a question mark (?) appears. During record or playback the frame number cycles from 0 to 9; for example, 0:0, 0:1, 0:2-0:9.
  17. Amplitude of the signal is displayed in number of G forces (G).

Tire/Speed

Tire Size

Tread Type

Vehicle Usage

Revs/Sec (Hz) at 8 km/h (5 mph)

P155/80R13

ALS

M(Metro)

1.28

P175/65R14

ALS

S (Prizm)

1.26

P175/65R14EL

HWY

EV1

1.25

P175/70R14

ALS

Z

1.22

P185/65R14

AL2

S (Prizm)

1.24

P185/65R15

AL2

Z

1.18

P195/60R15

AL3

Z

1.20

P195/65R15

AL2

1J,2J

1.16

P195/70R14

ALS

J

1.16

P195/75R15

ALS

J(Tracker)

1.09

P205/55R16

AL3

J,N

1.16

P205/70R15

AL2

2W

1.10

P205/70R15

ALS

4H

1.09

P205/70R15

ALS

Impala,4H,U-van

1.09

P205/70R15

AL2

1W

1.10

P205/75R15

ALS

J(Tracker)

1.07

P205/75R15

OOR

--

1.06

P215/60R15

AL2

N

1.14

P215/60R15

AL3

N

1.15

P215/60R15

AL3

N,P90

1.15

P215/60R15

AL2

N,P90

1.15

P215/60R15

AL2

N

1.14

P215/60R16

AL2

1F

1.10

P215/60R16

AL3

1F

1.10

P215/60R16

AL2

4H

1.10

P215/65R15

AL2

2H,3H

1.11

P215/65R15

AL3

1W police,325S

1.11

P215/70R15

ALS

U-van

1.07

P215/70R15

AL2

U-van

1.07

P215/70R15

AL2

U-van

1.08

P215/70R15

ALS

Impala

1.07

P215/70R15

AL2

U-van

1.07

P215/75R15

ALS

--

1.05

P225/50R16

AL2

N

1.16

P225/50R16

AL3

N

1.16

P225/60R16

ALS

4C

1.08

P225/60R16

ALS

3H,4G

1.08

P225/60R16

ALS

6E,6K

1.08

P225/60R16

ALS

4C

1.08

P225/60R16

AL3

2H,6E,6K,6Kf,1W,2W

1.08

P225/60R16

AL2

1W

1.08

P225/60R16

AL2

2H,3H,4C,4G,2W,3W,4W

1.08

P235/55R16

AL2

1F,2F,St

1.10

P235/60R16

ALS

6K

1.06

P235/60R16

AL3

6K

1.07

P235/60R16

ALS

Kd(limo)

1.05

P235/60R16

AL2

3G

1.06

P235/60R16

AL3

6K

1.07

P235/60R16

AL3

3G

1.07

P235/60ZR16

HW4

6K

1.07

P235/65R15

AL2

--

1.07

P235/70R15

ALS

--

1.00

P235/70R15

OOR

--

0.99

P235/75R15

ALS

--

1.00

P245/45ZR17

HW4

Y

1.12

P245/50ZR16

AL3

1F,2F

1.12

P245/50ZR16

HW4

1F,2F

1.12

P275/40ZR17

HW4

F

1.11

P275/40ZR18

HW4

Y

1.08

225/70R19.5/F

HWY

Ct,Kt (old)

1.44

235/70R15

HWY

Su,Tu

1.03

31X10.5R15LT/C

OOR

Tt

0.94

31X10.5R15/B

OOR

--

0.95

LT215/85R16

OOR

Ct,Kt,Pt

0.94

LT215/85R16/D

HWY

Ct,Kt,Pt

0.95

LT225/75R16/D

ALS

Ct,Kt

0.98

LT225/75R16/D

ALS

Ct,Kt,G-van

0.98

LT225/75R16/D

OOR

Ct,Kt

0.97

LT225/75R16E

ALS

G-van

0.98

LT225/75R16

ALS

--

0.99

LT225/75R16

OOR

--

0.98

LT245/75R16/C

OOR

Kt,Ku,Ks

0.94

LT245/75R16/C

OOR

Ct,Kt

0.94

LT245/75R16/E

OOR

Ct,Kt,Ks

0.93

LT245/75R16/E

OOR

Ct,Kt

0.94

LT245/75R16/E

OOR

Ct,Kt

0.94

LT245/75R16/E

ALS

Ct,Kt

0.93

LT245/75R16/E

ALS

Ct,Cs,Kt,Ks,G-van

0.94

LT245/75R16/E

ALS

Ct,Kt,G-van

0.94

LT245/75R16

ALS

--

0.95

LT245/75R16

OOR

--

0.94

LT265/75R16

OOR

--

0.90

LT215/85R16

HWY

--

0.95

LT215/85R16

OOR

--

0.94

LT235/85R16

HWY

--

0.91

LT235/85R16

OOR

--

0.90

P205/75R15

ALS

St,Tt,Su,Tu

1.07

P205/75R15

ALS

Ste

1.07

P215/75R15

ALS

G-van

1.04

P215/75R15

ALS

M-van,L-van

1.04

P235/55R16

AL2

1F,2F,St

1.10

P235/65R15

AL2

M-van

1.07

P235/70R15

AL3

Ct,Kt

1.03

P235/70R15

ALS

Tt,Tu,Su,St

1.03

P235/75R15

OOR

Tt,Tu

0.99

P235/75R15

ALS

Ct

1.01

P235/75R15/XL

ALS

Cs,G-van

1.00

P235/75R16

ALS

Ct

0.97

P245/75R16

ALS

Ct

0.95

P245/75R16

AT

Ku,Kt,Ks

0.94

P245/75R16

AT

Ku,Kt,Ks

0.95

P245/75R16

AT

Ku,Kt,Ks

0.94

P255/70R16

ALS

Ct

0.96

P265/70R16

AL2

Ku

0.94

P265/75R16

AT

Kt

0.91

P265/75R16

AT

Kt

0.92

P265/75R16

AT

Ku,Kt,Ks

0.92

7.50R16

HWY/OOR

--

0.90

8.75R16.5

HWY

--

0.98

225/70R19.5

HWY

--

0.89

Axle Ratio

RPO

Description

Ratio

FP0

Ratio, Transaxle Final Drive

2.55

FP1

Ratio, Transaxle Final Drive

2.72

FP2

Ratio, Transaxle Final Drive

3.58

FP3

Ratio, Transaxle Final Drive

2.73

FP7

Ratio, Transaxle Final Drive

3.73

FP8

Ratio, Transaxle Final Drive

3.54

FQ2

Ratio, Transaxle Final Drive

3.48

FQ6

Ratio, Transaxle Final Drive

4.12

FQ8

Ratio, Transaxle Final Drive

2.96

FQ9

Ratio, Transaxle Final Drive

3.21

GH0

Ratio, Rear Axle

3.54

GK9

Ratio, Rear Axle

4.63

GL3

Ratio, Rear Axle

6.17

GM1

Ratio, Rear Axle

2.59

GM3

Ratio, Rear Axle

3.45

GM8

Ratio, Rear Axle

2.56

GN9

Ratio, Rear Axle

4.11

GT4

Ratio, Rear Axle

3.73

GT5

Ratio, Rear Axle (Duplicate with GT8)

4.10

GT7

Ratio, Rear Axle

3.33

GT8

Ratio, Rear Axle (Duplicate with GT5)

4.10

GU2

Ratio, Rear Axle

2.73

GU4

Ratio, Rear Axle

3.08

GU5

Ratio, Rear Axle

3.23

GU6

Ratio, Rear Axle

3.42

GV2

Ratio, Rear Axle

5.83

GW6

Ratio, Rear Axle

3.27

GW9

Ratio, Rear Axle

2.93

G44

Ratio, Rear Axle

3.07

HC2

Ratio, Rear Axle

4.27

HC4

Ratio, Rear Axle

4.56

HC7

Ratio, Rear Axle, 7500 lbs, Single Speed

5.13

HE3

Ratio, Rear Axle, 3500 Lbs, Single Speed

3.07

HF7

Ratio, Rear Axle, 10000 Lbs, Dana 70, Single Speed

4.56

HF8

Ratio, Rear Axle

4.88

HO4

Ratio, Rear Axle, Single Speed

4.11

Steering and Suspension Assembly Vibrations

Steering and suspension assembly vibrations are the first level of testing for low-frequency vibrations that are sensitive to vehicle speed. The symptoms of a steering/suspension first-order vibration are a shimmy or a shake. This is 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
    • The tires
    • The wheels
    • The brake rotors (vehicle-speed sensitive)
    • The engine (engine-speed sensitive)