Title :
Electromagnetically Actuated FR4 Scanners
Author :
Urey, Hakan ; Holmstrom, Sven ; Yalcinkaya, Arda D.
Author_Institution :
Koc Univ., Istanbul
Abstract :
A torsional micromechanical scanner is fabricated from thin fire resistant 4 substrates using standard printed circuit board technology. The top and the bottom copper layers are connected with vias and shaped as a single coil to enable one- and two-dimensional electromagnetic actuation with an external magnet. Using 5 mm times 5 mm mirrors, the following scan angle and resonant frequency combinations are achieved: 17deg at 1.8 kHz and 140deg at 417 Hz. Another 10times improvement in magnetic actuation torque seems feasible. The technology offers a unique advantage by allowing a high degree of integration with microoptics and electronics directly on the mechanical platform and offers a low-cost alternative to silicon microelectromechanical systems devices particularly when large or low-frequency devices are required.
Keywords :
coils; copper; electromagnetic actuators; micro-optomechanical devices; micromirrors; optical scanners; printed circuits; copper layers; external magnet; frequency 1.8 kHz; frequency 417 Hz; magnetic actuation torque; microoptics; mirrors; one-dimensional electromagnetic actuation; single coil; standard printed circuit board technology; thin fire resistant 4 substrates; torsional micromechanical scanner; two-dimensional electromagnetic actuation; Coils; Copper; Fires; Magnetic resonance; Micromechanical devices; Microoptics; Mirrors; Printed circuits; Resonant frequency; Torque; Actuators; Fire Resistant 4 (FR4); optical microelectromechanical systems (MEMS); scanners;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2007.911522
