Title :
Design and Modeling of a High-Speed AFM-Scanner
Author :
Schitter, Georg ; Åström, Karl J. ; DeMartini, Barry E. ; Thurner, Philipp J. ; Turner, Kimberly L. ; Hansma, Paul K.
Author_Institution :
Delft Univ. of Technol., Delft
Abstract :
A new mechanical scanner design for a high-speed atomic force microscope (AFM) is presented and discussed in terms of modeling and control. The positioning range of this scanner is 13 mum in the X- and Y-directions and 4.3 mum in the vertical direction. The lowest resonance frequency of this scanner is above 22 kHz. This paper is focused on the vertical direction of the scanner, being the crucial axis of motion with the highest precision and bandwidth requirements for gentle imaging with the AFM. A second- and a fourth-order mathematical model of the scanner are derived that allow new insights into important design parameters. Proportional-integral (Pl)-feedback control of the high-speed scanner is discussed and the performance of the new AFM is demonstrated by imaging a calibration grating and a biological sample at 8 frames/s.
Keywords :
PI control; atomic force microscopy; feedback; image scanners; mathematical analysis; mechatronics; nanotechnology; position control; atomic force microscope; fast scanning; gentle imaging; high-speed AFM-scanner; mathematical model; mechanical scanner design; mechatronics; nanotechnology; precision positioning; proportional-integral feedback control; real time imaging; resonance frequency; Atomic force microscopy; Bandwidth; Biological control systems; Calibration; Force control; Mathematical model; Pi control; Proportional control; Resonance; Resonant frequency; Atomic force microscopy; fast scanning; mechatronics; nanotechnology; precision positioning; real time imaging;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2007.902953
