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GE-38792-VS Vibrate Software
For equivalent regional tools, refer to Special Tools and Equipment .
1.200 RPM divided by 60 = 20 Hz (or RPS)
Engine firing frequency is a term used to describe the number of firing pulses (one firing pulse = one cylinder firing) that occur during ONE complete revolution of the crankshaft, multiplied by the number of crankshaft revolutions per second, Hz.
• | To determine the firing frequency of a 4-stroke engine during ONE complete revolution of the crankshaft, multiply the engine speed, converted into Hz, by HALF of the total number of cylinders in the engine. |
• | For example: The engine speed, converted into Hz, was 20 Hz; if the vehicle was equipped with a V8 engine, 4 of the 8 cylinders would actually fire during ONE complete revolution of the crankshaft. |
- | Multiply the converted engine speed (20 Hz) by 4 cylinders firing. |
- | 20 Hz X 4 = 80 Hz |
- | The engine firing frequency for a V8 engine at the original engine speed of 1,200 RPM, recorded during duplication of the disturbance, would be 80 Hz. |
- | In like manner, a 6-cylinder engine would have a firing frequency of 60 Hz at the same engine speed of 1,200 RPM. |
- | 20 Hz X 3 = 60 Hz |
Engine driven accessory systems can be related to specific engine orders depending upon the relationship of the accessory pulley diameter to the crankshaft pulley diameter. For example:
• | If the crankshaft pulley measured 20 cm (8 in) in diameter and one of the engine driven accessory pulleys measured 10 cm (4 in) in diameter, then that accessory pulley would rotate 2 times for every one rotation of the crankshaft pulley. If that accessory system was not isolated properly, or was not operating properly, it would be identifiable as a 2nd order engine related disturbance. |
• | In like manner, if an engine driven accessory pulley measured 5 cm (2 in) in diameter, then that accessory pulley would rotate 4 times for every one rotation of the crankshaft pulley. If that accessory system was not isolated properly, or was not operating properly, it would be identifiable as a 4th order engine related disturbance. |
Engine driven accessories that contribute to, are excited by, or are the sole cause of a disturbance are usually doing so because of improper isolation that causes a transfer path into the passenger compartment or to another major component of the vehicle body.
Using the GE-38792-VS software , accurately measuring the diameters of the accessory pulleys and the crankshaft pulley, and performing the appropriate diagnostic procedures completely will lead to the specific accessory system which is either contributing to, or causing the customer's concern.
Engine Order | Engine Arrangement | |
---|---|---|
L4 W/O Balance Shaft | L4 With Balance Shaft | |
½ Order Torque Sensitive | Abnormal – Likely Single Cylinder Misfire | Abnormal – Likely Single Cylinder Misfire |
1st Order | Abnormal – Likely Component Imbalance | Abnormal – Likely Component Imbalance |
1½ Order Torque Sensitive | Possible Engine Driven Accessory Related | Possible Engine Driven Accessory Related |
2nd Order Non Torque Sensitive | Characteristic of Engine Arrangement – Possible Powertrain Isolation Related | Possible Engine Driven Accessory Related |
2nd Order Torque Sensitive | Characteristic – ENGINE FIRING FREQUENCY – Possible Powertrain Isolation Related | Characteristic – ENGINE FIRING FREQUENCY – Possible Powertrain Isolation Related |
Possible Engine Driven Accessory Related | Possible Engine Driven Accessory Related | |
2½ Order Torque Sensitive | Possible Engine Driven Accessory Related | Possible Engine Driven Accessory Related |
3rd Order Torque Sensitive | Possible Engine Driven Accessory Related | Possible Engine Driven Accessory Related |
4th Order Torque Sensitive | Characteristic – Minimal Amount – of Engine Arrangement – Possible Powertrain Isolation Related | Characteristic – Minimal Amount – of Engine Arrangement – Possible Powertrain Isolation Related |
Possible Engine Driven Accessory Related | Possible Engine Driven Accessory Related |
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