太赫兹科学与电子信息学报
太赫玆科學與電子信息學報
태혁자과학여전자신식학보
Information and Electronic Engineering
2015年
2期
342-346
,共5页
李君儒%高杨%何婉婧%蔡洵%黄振华
李君儒%高楊%何婉婧%蔡洵%黃振華
리군유%고양%하완청%채순%황진화
射频微电子机械系统%电容式开关%射频功率容量%自驱动%边缘场效应
射頻微電子機械繫統%電容式開關%射頻功率容量%自驅動%邊緣場效應
사빈미전자궤계계통%전용식개관%사빈공솔용량%자구동%변연장효응
RF MEMS%capacitive switch%RF power capacity%self-actuation%fringing field effect
计及电容式 RF MEMS 开关膜片上电场分布的边缘场效应后,很难建立高保真的开关自驱动失效阈值功率解析模型。因此,采用膜片承受射频信号功率的面积(ARF)和膜片与传输线的正对面积(A)的比值构建优值(FoM),以表征膜片上电场分布的边缘场效应强弱。利用 HFSS 软件建立了开关自驱动失效的三维电磁模型;以一种常见的开关构型为案例,仿真得到了多种射频信号功率(Pin)和开关气隙高度(g0)条件下膜片边缘电场分布,并与优值计算结果进行了对比验证,初步证明了采用优值ARF/A表征膜片上电场分布的边缘场效应强度的可行性。
計及電容式 RF MEMS 開關膜片上電場分佈的邊緣場效應後,很難建立高保真的開關自驅動失效閾值功率解析模型。因此,採用膜片承受射頻信號功率的麵積(ARF)和膜片與傳輸線的正對麵積(A)的比值構建優值(FoM),以錶徵膜片上電場分佈的邊緣場效應彊弱。利用 HFSS 軟件建立瞭開關自驅動失效的三維電磁模型;以一種常見的開關構型為案例,倣真得到瞭多種射頻信號功率(Pin)和開關氣隙高度(g0)條件下膜片邊緣電場分佈,併與優值計算結果進行瞭對比驗證,初步證明瞭採用優值ARF/A錶徵膜片上電場分佈的邊緣場效應彊度的可行性。
계급전용식 RF MEMS 개관막편상전장분포적변연장효응후,흔난건립고보진적개관자구동실효역치공솔해석모형。인차,채용막편승수사빈신호공솔적면적(ARF)화막편여전수선적정대면적(A)적비치구건우치(FoM),이표정막편상전장분포적변연장효응강약。이용 HFSS 연건건립료개관자구동실효적삼유전자모형;이일충상견적개관구형위안례,방진득도료다충사빈신호공솔(Pin)화개관기극고도(g0)조건하막편변연전장분포,병여우치계산결과진행료대비험증,초보증명료채용우치ARF/A표정막편상전장분포적변연장효응강도적가행성。
It is very difficult to establish high-fidelity model for self-actuation failure threshold power of switch when considering the fringing field effect of the electric field distribution of the capacitive RF MEMS(Radio-Frequency Micro-Electro-Mechanical System) switch membrane. Therefore, in order to characterize the intensity of the fringing field effect of the electric field distribution on the membrane, the Figure of Merit(FoM) is constructed by using the ratio between the area of the switch membrane subjected to RF power(ARF) and the facing area(A) (which is between the membrane and the transmission line). The three-dimensional electromagnetic model of self-actuation failure of the switch is constructed by using the HFSS(High Frequency Structure Simulator) software. For a case of a common configuration of the switch, the distribution of fringing electric field of membrane under a variety of RF signal powers (Pin) and with different air gaps of the switch(g0) are obtained through simulation. The comparison between the calculation of FoM and simulation results indicates that it is feasible to characterize the intensity of the fringing field effect of the electric field distribution of the membrane by using FoM(ARF/A).