• DocumentCode
    833311
  • Title

    Increasing the immunity to electromagnetic interferences of CMOS OpAmps

  • Author

    Richelli, Anna ; Colalongo, Luigi ; Kovács-Vajna, Zsolt M.

  • Author_Institution
    Dept. of Electron., Univ. of Brescia, Italy
  • Volume
    52
  • Issue
    3
  • fYear
    2003
  • Firstpage
    349
  • Lastpage
    353
  • Abstract
    This paper presents the successful design of a CMOS operational amplifier with enhanced immunity to electromagnetic interferences. Thanks to its strongly symmetrical topology, the amplifier exhibits an intrinsic robustness to interferences arising from a wide class of sources. Such a scheme, for the first time in the authors´ knowledge, proves the effectiveness of symmetrical topologies to minimize the effects of electromagnetic interferences in operational amplifiers. The amplifier architecture is based on 2 identical stages: 2 fully differential source cross-coupled amplifiers with active loads. The circuit was fabricated in a 0.8 μm n-well CMOS technology (AMS CYE process). Experimental results, in terms of EMI immunity, are presented and compared with a commercial amplifier. They show a low susceptibility to EMI conveyed both to the input and the power pins. The EMI effects on the proposed amplifier are reduced by more than one order of magnitude, compared to a commercial amplifier. Furthermore the amplifier overall measured performances are provided along with the corresponding simulation results.
  • Keywords
    CMOS integrated circuits; electromagnetic interference; operational amplifiers; 0.8 micron; CMOS OpAmps; CMOS operational amplifier; EMI immunity; active loads; amplifier architecture; differential source cross-coupled amplifiers; input pins; low EMI susceptibility; parasitic effect; power pins; robustness; slew rate; symmetrical topologies minimisation; symmetrical topology; Aerospace electronics; Aircraft navigation; CMOS technology; Circuit topology; Differential amplifiers; Electromagnetic interference; Frequency; Operational amplifiers; Pins; Voltage;
  • fLanguage
    English
  • Journal_Title
    Reliability, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9529
  • Type

    jour

  • DOI
    10.1109/TR.2003.817847
  • Filename
    1248652