Title :
Closed loop testing of a suspension based piezoelectric microactuator
Author :
Evans, R.B. ; Karaman, M.
Abstract :
This paper extends the demonstrated dual-stage servo bandwidth capabilities of a suspension based piezoelectric microactuator from simulation to actual laser based closed loop testing. A dual-stage zero dB crossover frequency on the open loop transfer function (i.e. servo bandwidth) of 2000 Hz was demonstrated using laser feedback. The stability of the controller was evaluated for different levels of suspension first torsion off-track gain. Charge control was shown to have up to 8 degrees of phase margin advantage over voltage control.
Keywords :
closed loop systems; disc drives; hard discs; laser feedback; microactuators; piezoelectric actuators; servomechanisms; torsion; transfer functions; charge control; closed loop testing; controller; crossover frequency; dual-stage servo bandwidth; hard disk drive; laser feedback; off-track gain; piezoelectric microactuator; torsion; trace suspension assembly; transfer function; voltage control; Bandwidth; Feedback loop; Frequency; Laser feedback; Microactuators; Open loop systems; Servomechanisms; Testing; Transfer functions; Voltage control;
Conference_Titel :
Asia-Pacific Magnetic Recording Conference, 2000. APMRC 2000
Conference_Location :
Tokyo, Japan
Print_ISBN :
0-7803-6254-3
DOI :
10.1109/APMRC.2000.898931
