Title :
Micromechanical mixer-filters ("mixlers")
Author :
Wong, Ark-Chew ; Nguyen, Clark T C
Author_Institution :
Globespanvirata, Irvine, CA, USA
Abstract :
A device comprised of interlinked micromechanical resonators with capacitive mixer transducers has been demonstrated to perform both frequency translation (i.e., mixing) and highly selective low-loss filtering of applied electrical input signals. In particular, successful downconversion of a 200-MHz radio frequency (RF) signal down to a 37-MHz intermediate frequency (IF) and subsequent high-Q bandpass filtering at the IF are demonstrated using this single, passive, micromechanical device, all with less than 13 dB of combined mixing conversion and filter insertion loss. The mixer-filter (or "mixler") RF-to-IF voltage transfer function is shown to depend upon a ratio of local oscillator amplitude and applied bias voltages.
Keywords :
Q-factor; band-pass filters; micromechanical resonators; mixers (circuits); resonator filters; superheterodyne receivers; transfer functions; 200 MHz; 37 MHz; RF-to-IF voltage transfer function; applied bias voltages; applied electrical input signals; capacitive mixer transducers; design specification; electromechanical coupling; frequency translation; high-Q bandpass filtering; highly selective low-loss filtering; interlinked micromechanical resonators; local oscillator amplitude; micromechanical mixer-filters; mixler devices; signal downconversion; Band pass filters; Filtering; Frequency conversion; Micromechanical devices; Passive filters; RF signals; Radio frequency; Resonator filters; Transducers; Voltage-controlled oscillators;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2003.823218
