Title :
Design of High-Order Switches for Multimode Applications on a Silicon-on-Insulator Technology
Author :
Tombak, A. ; Carroll, M.S. ; Kerr, D.C. ; Pierres, Jean-Blaise ; Spears, E.
Author_Institution :
Technol. Platforms Organ., RFMD Inc., Greensboro, NC, USA
Abstract :
A silicon-on-insulator (SOI) CMOS technology on high-resistivity silicon substrates is presented for the design of high-power switches for cellular and wireless local area network handset applications. A design methodology is introduced to design high-order switches for optimal insertion loss and isolation performance. Sources of nonlinearities in SOI switches are discussed. To the best of our knowledge, this work is the first demonstration of high-power switches on a high-resistivity SOI CMOS technology for high-volume cellular handset applications with adequate intermodulation and harmonic distortion performance. The design details and measurement results for a variety of RF switches with general-purpose input/output and mobile industry processor interface control interfaces, flip-chip/wire-bond packaging, and for various standards are discussed.
Keywords :
UHF devices; cellular radio; field effect transistor switches; flip-chip devices; harmonic distortion; intermodulation distortion; lead bonding; mobile handsets; semiconductor device packaging; silicon-on-insulator; wireless LAN; RF switches; Si; flip-chip packaging; general-purpose input-output processor; harmonic distortion performance; high-order switch design; high-power switch design; high-resistivity SOI CMOS technology; high-resistivity silicon substrates; high-volume cellular handset applications; intermodulation performance; mobile industry processor interface control interfaces; multimode applications; nonlinearity sources; optimal insertion loss; optimal isolation performance; silicon-on-insulator technology; wire-bond packaging; wireless local area network; CMOS integrated circuits; Capacitance; Insertion loss; Logic gates; Radio frequency; Switches; ${ R}{rm on}$; ${ C}{rm off}$; Antenna switch module (ASM); RF switch; blocker; carrier aggregation (CA); harmonics; high-resistivity silicon; intermodulation distortion (IMD); long-term evolution (LTE)-Advanced; multimode; off capacitance; on resistance; silicon-on-insulator (SOI); spurious emissions; switch duplexer module; switch filter module;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2013.2277989
