• DocumentCode
    1221110
  • Title

    Performance degradation due to extrinsic base encroachment in advanced narrow-emitter bipolar circuits. II. Non-threshold logic circuits

  • Author

    Chuang, C.T.

  • Author_Institution
    IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
  • Volume
    36
  • Issue
    9
  • fYear
    1989
  • fDate
    9/1/1989 12:00:00 AM
  • Firstpage
    1757
  • Lastpage
    1763
  • Abstract
    For pt.I see ibid., vol.36, no.9, p.1751-6 (1989). In the steady state, the extrinsic base encroachment is shown to force the current to flow through the center of the emitter, resulting in higher current density and more severe base stretching at the center of the emitter. During the switching transient, the current flows predominantly through the emitter edge, and the turn-on delay is governed mainly by the perimeter thick base at the emitter edge. The extrinsic base encroachment also limits the overdrive (and hence the speed) of the nonthreshold logic circuit when a speed-up capacitor is used. The base stretching at the center of the emitter is shown to be enhanced by the speed-up capacitor. Because of the modification of the emitter Gummel number near the emitter edge by the extrinsic base encroachment and the transient edge conduction mechanism, significantly more holes are injected into the emitter during the switching transient than in the steady state. This back injection is shown to be further enhanced by the speed-up capacitor. The design considerations for scaled-down devices are discussed
  • Keywords
    bipolar integrated circuits; integrated logic circuits; NTL; back injection; base stretching; design considerations; emitter Gummel number; hole injection; narrow-emitter bipolar circuits; nonthreshold logic circuit; overdrive limitation; scaled-down devices; speed-up capacitor; switching transient; transient edge conduction mechanism; turn-on delay; Bipolar transistors; Computer hacking; Current density; Degradation; Delay; Inverters; Logic circuits; Numerical simulation; Steady-state; Switched capacitor circuits;
  • fLanguage
    English
  • Journal_Title
    Electron Devices, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9383
  • Type

    jour

  • DOI
    10.1109/16.34240
  • Filename
    34240