Title :
High-Q MEMS for wireless integrated circuits
Author :
Lubecke, Victor M. ; Barber, Bradley P. ; Fetter, Linus A.
Author_Institution :
Lucent Technol. Bell Labs., Murray Hill, NJ, USA
fDate :
6/23/1905 12:00:00 AM
Abstract :
While integration technology has steadily improved size and performance for wireless baseband circuitry, quality factor and frequency limitations still limit RF front-end circuitry to many large discrete components. Integration solutions for two such RF components are described. Silicon MEMS techniques are used to create self-assembled inductors with reduced losses and improved high frequency characteristics compared with conventional integrated inductors. The same technology is used to demonstrate variable inductors. Filter technology based on micromachined acoustic wave resonators is also presented, offering reduced size over conventional resonators as well as an integration path
Keywords :
UHF integrated circuits; acoustic microwave devices; acoustic resonator filters; bulk acoustic wave devices; inductors; micromachining; micromechanical devices; microwave filters; self-assembly; BAW resonators; RF front-end circuitry; RFIC; filter technology; frequency limitations; high frequency characteristics; high-Q MEMS; integration path; integration solutions; micromachined acoustic wave resonators; quality factor; reduced losses; self-assembled inductors; silicon MEMS techniques; variable inductors; wireless baseband circuitry; wireless integrated circuits; Acoustic waves; Active inductors; Baseband; Integrated circuit technology; Micromechanical devices; Parasitic capacitance; Radio frequency; Radiofrequency integrated circuits; Resonator filters; Thin film inductors;
Conference_Titel :
Telecommunications in Modern Satellite, Cable and Broadcasting Service, 2001. TELSIKS 2001. 5th International Conference on
Conference_Location :
Nis
Print_ISBN :
0-7803-7228-X
DOI :
10.1109/TELSKS.2001.954876
