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Process Optimization of Composite-based Capacitor for LC Resonant Circuits  

Mun, Sei-Young (Dept. of Electronics Eng. & MITERI, Myongji Univ.)
Cha, Cheol-Ung (Dept. of Electronics Eng. & MITERI, Myongji Univ.)
Choi, Jong-Chan (Dept. of Electronics Eng. & MITERI, Myongji Univ.)
Lim, Seung-Ok (Dept. of Electronics Eng. & MITERI, Myongji Univ.)
Hong, Sang-Jeen (Korea Electronics Technology Institute)
Publication Information
Journal of the Speleological Society of Korea / v., no.80, 2007 , pp. 21-24 More about this Journal
Abstract
The need for high-frequency decoupling capacitors to supply the transient current requirements to high-speed devices is ubiquitous in current microelectronics applications. Even though materials and their processes have already been developed in terms of their performances, low manufacturing cost cannot be overemphasized in current microelectronics industry. For this reason, we revisited low cost ceramic filled polymer integrated capacitor. Experiments were performed according to the design of experiment (DOE). The best recipe that has the optimized ratio of material composite was obtained using by response optimizer in Minitab. And also, high-frequency measurements were performed to get frequency dependent data using network analyzer.
Keywords
decoupling capacitor; design of experiment (DOE); microelectronics;
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