%0 Journal Article
%T Analysis and Optimum Design of Differential Inductors Using Distributed Capacitance Model
%A Jian Hongyan
%A Tang Zhangwen
%A He Jie
%A MIN Hao
%A <br>Jian Hongyan
%A Tang Zhangwen
%A He Jie
%A and Min Hao
%J 半导体学报
%D 2005
%I 
%X A distributed capacitance model for monolithic inductors is developed to predict the equivalently parasitical capacitances of the inductor.The ratio of the self-resonant frequency (f SR) of the differential-driven symmetric inductor to the f SR of the single-ended driven inductor is firstly predicted and explained.Compared with a single-ended configuration,experimental data demonstrate that the differential inductor offers a 127% greater maximum quality factor and a broader range of operating frequencies.Two differential inductors with low parasitical capacitance are developed and validated.
%K distributed capacitance model
%K self-resonant frequency ratio
%K quality factor
%K differential inductor
%K optimum design<br>distributed
%K capacitance
%K model
%K self-resonant
%K frequency
%K ratio
%K quality
%K factor
%K differential
%K inductor
%K optimum
%K design
%U http://www.alljournals.cn/get_abstract_url.aspx?pcid=5B3AB970F71A803DEACDC0559115BFCF0A068CD97DD29835&cid=1319827C0C74AAE8D654BEA21B7F54D3&jid=025C8057C4D37C4BA0041DC7DE7C758F&aid=A1F154A8568162D8&yid=2DD7160C83D0ACED&vid=96C778EE049EE47D&iid=B31275AF3241DB2D&sid=E6E6318AC4BCBFDB&eid=FA63B973BAB5E93D&journal_id=1674-4926&journal_name=半导体学报&referenced_num=1&reference_num=7