Title :
Microfabricated High-Speed Axial-Flux Multiwatt Permanent-Magnet Generators—Part II: Design, Fabrication, and Testing
Author :
Arnold, David P. ; Das, Sauparna ; Park, Jin-Woo ; Zana, Iulica ; Lang, Jeffrey H. ; Allen, Mark G.
Abstract :
This paper presents the design, fabrication, and characterization of permanent-magnet (PM) generators for use in microscale power generation systems. The generators are three-phase, axial-flux, synchronous machines, each consisting of an eight-pole surface-wound stator and PM rotor. The devices are fabricated using a combination of microfabrication and precision assembly. Characterization is achieved using a custom-built experimental test stand that incorporates an off-the-shelf gas-driven spindle to power the machines. At a rotational speed of 120 000 rpm, one generator demonstrates 2.5 W of mechanical-to-electrical power conversion and, coupled to a transformer and rectifier, delivers 1.1 W of dc electrical power to a resistive load. This watt-scale electrical power generation demonstrates the viability of scaled PM machines for practical power generation applications
Keywords :
high-speed techniques; machine testing; micromechanical devices; permanent magnet generators; small electric machines; synchronous generators; 1.1 W; 2.5 W; AC generators; PM rotor; axial-flux machines; mechanical-to-electrical power conversion; microelectromechanical systems; microfabrication; micromachining; microscale power generation systems; permanent-magnet generators; precision assembly; rectifier; surface-wound stator; synchronous machines; three-phase machines; transformer; Assembly; Character generation; DC generators; Fabrication; Power generation; Rotors; Stators; Synchronous generators; Synchronous machines; Testing; AC generators; micromachining; permanent-magnet (PM) machines; power microelectromechanical systems (MEMS);
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2006.880286
