Please use this identifier to cite or link to this item: https://scholarbank.nus.edu.sg/handle/10635/134749
Title: INTEGRATED SERVO-MECHANICAL DESIGN OF HIGH-PERFORMANCE MAGNETICALLY LEVITATED POSITIONING SYSTEMS FOR MULTI-AXIS NANOPOSITIONING
Authors: ZHU HAIYUE
Keywords: Integrated design, magnetic levitation, mechatronics design, motion control, multi-axis nanopositioning
Issue Date: 15-Sep-2016
Citation: ZHU HAIYUE (2016-09-15). INTEGRATED SERVO-MECHANICAL DESIGN OF HIGH-PERFORMANCE MAGNETICALLY LEVITATED POSITIONING SYSTEMS FOR MULTI-AXIS NANOPOSITIONING. ScholarBank@NUS Repository.
Abstract: Magnetic levitation (maglev) is critical in ultra-precision positioning. This dissertation presents the integrated design of maglev positioning systems for multi-axis nanopositioning. First, an integrated servo-mechanical design is proposed, where various control and mechanical specifications, e.g., robust stability, robust performance, and saturation, are formulated in an optimization about the design parameters in plant and controller. Second, a flexure-based parallel actuation dual-stage system is proposed for large stroke single-axis nanopositioning, and this system is then extended to 6-Degree-Of-Freedom (DOF) that a flexure-based dual-stage maglev positioner is proposed to improve the dynamic performance, where both of their fine stages are designed using the proposed integrated design approach. Next, a novel design of maglev positioner is proposed for unlimited stroke with high power efficiency, which avoids the major limitations of the existing designs. Furthermore, a novel finite-frequency robust performance control is presented to design the fixed-order controller for the 2-DOF maglev fine stage.
URI: http://scholarbank.nus.edu.sg/handle/10635/134749
Appears in Collections:Ph.D Theses (Open)

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