Title :
Characterization of an embedded RF-MEMS switch
Author :
Kaynak, M. ; Ehwald, K.E. ; Scholz, R. ; Korndörfer, F. ; Wipf, C. ; Sun, Y.M. ; Tillack, B. ; Zihir, S. ; Gurbuz, Y.
Author_Institution :
IHP, Frankfurt, Germany
Abstract :
An RF-MEMS capacitive switch for mm-wave integrated circuits, embedded in the BEOL of 0.25 ¿m BiCMOS process, has been characterized. First, a mechanical model based on Finite-Element-Method (FEM) was developed by taking the residual stress of the thin film membrane into account. The pull-in voltage and the capacitance values obtained with the mechanical model agree very well with the measured values. Moreover, S-parameters were extracted using Electromagnetic (EM) solver. The data observed in this way also agree well with the experimental ones measured up to 110 GHz. The developed RF model was applied to a transmit/receive (T/R) antenna switch design. The results proved the feasibility of using the FEM model in circuit simulations for the development of RF-MEMS switch embedded, single-chip multi-band RF ICs.
Keywords :
finite element analysis; microswitches; millimetre wave integrated circuits; radiofrequency integrated circuits; BiCMOS process; FEM; RF-MEMS capacitive switch; S-parameters; electromagnetic solver; finite-element-method; frequency 110 GHz; mm-wave integrated circuits; receive antenna switch design; single-chip multi-band RF IC; size 0.25 mum; thin film membrane; transmit antenna switch design; Antenna measurements; BiCMOS integrated circuits; Electromagnetic measurements; Finite element methods; Radio frequency; Radiofrequency microelectromechanical systems; Residual stresses; Switches; Switching circuits; Thin film circuits; Embedded MEMS; FEM analysis; RF-MEMS switch; mm-wave circuits; monolithic integration;
Conference_Titel :
Silicon Monolithic Integrated Circuits in RF Systems (SiRF), 2010 Topical Meeting on
Conference_Location :
New Orleans, LA
Print_ISBN :
978-1-4244-5456-3
DOI :
10.1109/SMIC.2010.5422816
