Title :
Tuning in to RF MEMS
Author :
Rebeiz, Gabriel M. ; Entesari, Kamran ; Reines, Isak C. ; Park, Sang-June ; El-Tanani, Mohammed A. ; Grichener, Alex ; Brown, Andrew R.
Author_Institution :
Univ. of California, La Jolla, CA, USA
Abstract :
RF MEMS technology was initially developed as a replacement for GaAs HEMT switches and p-i-n diodes for low-loss switching networks and X-band to mm-wave phase shifters. However, we have found that its very low loss properties (high device Q), its simple microwave circuit model and zero power consumption, its high power (voltage/current) handling capabilities, and its very low distortion properties, all make it the ideal tuning device for reconfigurable filters, antennas and impedance matching networks. In fact, reconfigurable networks are currently being funded at the same level-if not higher-than RF MEMS phase shifters, and in our opinion, are much more challenging for high-Q designs.
Keywords :
gallium arsenide; impedance matching; microswitches; microwave filters; phase shifters; wide band gap semiconductors; GaAs; HEMT switches; RF MEMS technology; X-band; antennas; impedance matching; low-loss switching network; microwave circuit model; mm-wave phase shifters; p-i-n diodes; reconfigurable filter; zero power consumption; Circuit optimization; Energy consumption; Gallium arsenide; HEMTs; Microwave circuits; Microwave devices; P-i-n diodes; Phase shifters; Radiofrequency microelectromechanical systems; Switches;
Journal_Title :
Microwave Magazine, IEEE
DOI :
10.1109/MMM.2009.933592
