Title :
High-Q, tunable-gap MEMS variable capacitor actuated with an electrically floating plate
Author :
Lee, Hyung Suk ; Yoon, Young Jun ; Choi, Dong-Hoon ; Yoon, Jun-Bo
Author_Institution :
Korea Adv. Inst. of Sci. & Technol. (KAIST), Daejon
Abstract :
We proposed and developed a new MEMS variable capacitor that resembles the tunable-gap capacitor at first glance, but provides much better Q-factor thanks to reducing series resistance by the elimination of mechanical spring in the RF signal pathway using a new actuation method of moving electrically floating plate. The fabricated variable capacitor showed almost 200 % increment of Q- factor from the conventional tunable-gap capacitor. In addition, a variable capacitor array connected in parallel with four capacitors for larger capacitance was fabricated and measured. We achieved a tuning ratio of 41 % and (Q -factor of 34.9 at 5 GHz for the single capacitor and the tuning ratio of 29 % and (Q -factor of 39.8 at 1 GHz for the capacitor array.
Keywords :
Q-factor; UHF devices; arrays; capacitance; capacitors; circuit tuning; electric actuators; micromechanical devices; microwave devices; RF signal pathway; capacitance measurement; electrically floating plate; frequency 1 GHz; frequency 5 GHz; high-Q capacitor; mechanical spring elimination; parallel connection; series resistance reduction; tunable-gap MEMS variable capacitor actuation method; tuning ratio; variable capacitor array; Capacitance; Computer science; Electric resistance; MOS capacitors; Micromechanical devices; Q factor; Springs; Substrates; Tuning; Voltage;
Conference_Titel :
Micro Electro Mechanical Systems, 2008. MEMS 2008. IEEE 21st International Conference on
Conference_Location :
Tucson, AZ
Print_ISBN :
978-1-4244-1792-6
Electronic_ISBN :
1084-6999
DOI :
10.1109/MEMSYS.2008.4443622
