• DocumentCode
    1166729
  • Title

    Low-Power Single-Loop and Dual-Loop AGCs for Bionic Ears

  • Author

    Baker, Michael W. ; Sarpeshkar, Rahul

  • Author_Institution
    Res. Lab. for Electron., MIT, Cambridge, MA
  • Volume
    41
  • Issue
    9
  • fYear
    2006
  • Firstpage
    1983
  • Lastpage
    1996
  • Abstract
    Bionic ears or cochlear implants for the deaf require low-power wide-dynamic-range automatic-gain-control circuits (AGCs) to interface between microphone preamplifiers and analog processing circuits or A/D converters. Hearing-impaired patients need strategies which switch intelligently between time constants for speech and time constants for interfering transients. We describe two AGC designs which use a programmable continuous current-mode feedback network to control a variable gain amplifier. The first design implements a log-linear controller to demonstrate level-invariant closed-loop response. The second design is a dual-loop controller which implements a simplified version of a well-known algorithm for speech in noisy environments. The dual-loop strategy implements a continuous-discrete hybrid controller with implicit state control using two filter-and-hold peak detectors and a charge-pump hold-timer. Both AGCs exhibit 78 dB of input dynamic range, have digitally programmable time constants, operate from a 2.8 V supply, and consume less than 36 muW in a 1.5 mum BiCMOS process. For typical compression settings, the minimum instantaneous input dynamic range is greater than 58 dB
  • Keywords
    automatic gain control; biomedical electronics; current-mode circuits; ear; hearing aids; low-power electronics; prosthetics; sample and hold circuits; 1.5 micron; 2.8 V; A-D converters; BiCMOS process; analog processing circuits; automatic gain control circuits; bionic ears; charge-pump hold-timer; cochlear implants; continuous-discrete hybrid controller; current-mode feedback network; dual-loop AGC; dual-loop controller; filter-and-hold peak detectors; hearing-impaired patients; input dynamic range; level-invariant closed-loop response; log-linear controller; microphone preamplifiers; programmable continuous feedback network; single-loop AGC; variable gain amplifier; Analog processing circuits; Cochlear implants; Deafness; Dynamic range; Ear; Feedback; Microphones; Preamplifiers; Speech; Switches; Analog front-end; BiCMOS integrated circuits; automatic gain control; compression; dual-loop gain control; hearing instruments; log-linear control; low-power;
  • fLanguage
    English
  • Journal_Title
    Solid-State Circuits, IEEE Journal of
  • Publisher
    ieee
  • ISSN
    0018-9200
  • Type

    jour

  • DOI
    10.1109/JSSC.2006.880599
  • Filename
    1683890