Abstract :
This paper describes technology of micro-electro-mechanical systems (MEMS) in the field of mobile handsets, which uses the single-mode CDMA product of 1800-1900 MHz range. In order to gain the market penetration, the HP Labs uses the FBAR project, where it reduces the size and weight of the RF resonators, filters and duplexers. Thus, the brief analysis illustrates that the FBAR, as a miniaturization technology for filters and resonators not only has functional dimension of micrometers but also the fabrication method is similar to that of the mass-market integrated-circuit fabrication. In the liquid metal micro switch (LiMMS), we employ a liquid-liquid contact to address the handset failure. The switching operation is achieved by forming a gap in the liquid metal using gas expansion. LiMMS also has good RF performance, thus the micro-machined version developed by California achieves promising parameters of 0.2 dB insertion loss at 2 GHz of below 0.3 ms switching time, switching power of 0.3 W for 2.5 microsecond duration
Keywords :
acoustic resonators; bulk acoustic wave devices; code division multiple access; liquid metals; micromechanical resonators; microswitches; mobile radio; multiplexing equipment; radiofrequency filters; 0.3 W; 1800 to 1900 MHz; 2 GHz; California; FBAR project; HP Lab; LiMMS; MEMS; RF resonator; code division multiple access; duplexer; filter; integrated-circuit fabrication; liquid metal; liquid metal micro switch; liquid-liquid contact; microelectromechanical system; miniaturization technology; mobile handset; single-mode CDMA product; switching operation; Contacts; Fabrication; Film bulk acoustic resonators; Microelectromechanical systems; Micromechanical devices; Mobile handsets; Multiaccess communication; Radio frequency; Resonator filters; Switches;
