• Title of article

    Design and precision construction of novel magnetic-levitation-based multi-axis nanoscale positioning systems

  • Author/Authors

    Kim، نويسنده , , Won-jong and Verma، نويسنده , , Shobhit and Shakir، نويسنده , , Huzefa، نويسنده ,

  • Issue Information
    فصلنامه با شماره پیاپی سال 2007
  • Pages
    14
  • From page
    337
  • To page
    350
  • Abstract
    This paper presents two novel six-axis magnetic-levitation (maglev) stages capable of nanoscale positioning. These stages have very simple and compact structures, which is advantageous to meet the demanding positioning requirements of next-generation nanomanipulation and nanomanufacturing. Six-axis motion generation is accomplished by the minimum number of actuators and sensors. The first-generation maglev stage, namely the Δ-stage, is capable of generating translation of 300 μm and demonstrates position resolution better than 2 nm root-mean-square (rms). The second-generation maglev stage, namely the Y-stage, is capable of positioning at a resolution better than 3 nm rms over a planar travel range of 5 mm × 5 mm. A novel actuation scheme was developed for the compact structure of this stage that enables six-axis force generation with just three permanent-magnet pieces. This paper focuses on the design and precision construction of the actuator units, the moving platens, and the stationary base plates. The performance of the two precision positioners is compared in terms of their positioning and load-carrying capabilities and ease of manufacture. Control system design for the two positioners is discussed and an experimental plant transfer function model is presented for the Y-stage. The superiority of the developed instruments is also demonstrated over other prevailing precision positioning systems in terms of the travel range, resolution, and dynamic range. The potential applications of the maglev positioners include semiconductor manufacturing, microfabrication and assembly, nanoscale profiling, and nanoindentation.
  • Keywords
    Precision assembly , Magnetic levitation , Nanopositioning , Multi-DOF motion control
  • Journal title
    Precision Engineering
  • Serial Year
    2007
  • Journal title
    Precision Engineering
  • Record number

    1429256