• DocumentCode
    1760505
  • Title

    Investigation of Charge Injection and Relaxation in Multilayer Dielectric Stacks for Capacitive RF MEMS Switch Application

  • Author

    Gang Li ; Wendong Zhang ; Pengwei Li ; Shengbo Sang ; Jie Hu ; Xuyuan Chen

  • Author_Institution
    MicroNano Syst. Res. Center, Taiyuan Univ. of Technol., Taiyuan, China
  • Volume
    60
  • Issue
    7
  • fYear
    2013
  • fDate
    41456
  • Firstpage
    2379
  • Lastpage
    2387
  • Abstract
    This paper proposes a new approach to the problem of irreversible stiction of capacitive radio frequency (RF) microelectromechanical (MEMS) switch attributed to the dielectric charging. We investigate how charge accumulates in multi- and single-layer dielectric structures for a capacitive RF MEMS switch using metal-insulator-semiconductor (MIS) capacitor structure. Two multidielectric-layers are structured, which are SiO2+Si3N4 and SiO2+Si3N4+SiO2 stack films. Meanwhile, Si3N4 single-layer dielectric structure is also fabricated for comparison. In the experiments, the space charges are first injected into the dielectric layers by stressing MIS devices with a dc bias; then the injected charge kinetics are monitored by capacitance-voltage measurement before and after charge injection. We found that the polarity of charge accumulated in the dielectric is strongly influenced by the dielectric structure. When the metal electrode is positively biased, a negative charge accumulates in the single and triple-layer devices, while a positive charge accumulates in the double-layer devices. Furthermore, the experiment results also show that the lowest charge accumulation can be achieved using double-layer dielectric structure even though the fastest relaxation process takes place in triple-layer dielectric structure.
  • Keywords
    MIS capacitors; capacitance measurement; charge injection; dielectric materials; microswitches; stiction; voltage measurement; MIS capacitor structure; MIS device; capacitance-voltage measurement; capacitive RF MEMS switch; capacitive radio frequency; charge injection; dielectric charging; double-layer dielectric structure; irreversible stiction; metal electrode; metal-insulator-semiconductor capacitor; microelectromechanical switch; multilayer dielectric stack; multilayer dielectric structure; relaxation; single-layer dielectric structure; space charge; triple-layer dielectric structure; Capacitance–voltage measurement; dielectric charging; metal–insulator–semiconductor (MIS) capacitor; radio frequency (RF) microelectromechanical (MEMS) switch; reliability; tunneling;
  • fLanguage
    English
  • Journal_Title
    Electron Devices, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9383
  • Type

    jour

  • DOI
    10.1109/TED.2013.2263252
  • Filename
    6527916