Title :
Amplitude and frequency control of a vibratory pile driver
Author :
Bingham, Christopher M. ; Stone, David A. ; Schofield, Nigel ; Howe, David ; Peel, David
Author_Institution :
Dept. of Electron. & Electr. Eng., Sheffield Univ., UK
fDate :
6/1/2000 12:00:00 AM
Abstract :
This paper describes the digital control of a vibratory pile driver in which the vibration is generated via two tandem pairs of electrically driven, geared, contra-rotating eccentrics. Experimental results are included to show the controller-induced system dynamics for a variety of load conditions, and to highlight the fact that, if the relative phase of the eccentric pairs is not controlled, the natural tendency at high excitation frequency is for the pile driver to operate with a low vibration amplitude. An analytical technique for identifying the system parameters is presented, and analytical performance predictions are compared with experimental results. Analysis of the power flow in the system shows that, although significant power transfer occurs between the two electrical drives, the net power dissipation during pile driving is relatively low
Keywords :
AC motor drives; MIMO systems; brushless machines; construction industry; control system synthesis; digital control; frequency control; machine control; vibration control; MIMO systems; amplitude control; brushless rotating machines; controller-induced system dynamics; digital control; electrically driven geared contra-rotating eccentrics; frequency control; high excitation frequency; linear controller design; load conditions; net power dissipation; performance predictions; power flow analysis; vibration control; vibratory pile driver; Acoustic noise; Control systems; Digital control; Displacement control; Frequency control; Load flow; Performance analysis; Presses; Soil; Vibration control;
Journal_Title :
Industrial Electronics, IEEE Transactions on
