• DocumentCode
    2084528
  • Title

    Investigation of voltage source design´s for electrical impedance mammography (EIM) systems

  • Author

    Qureshi, Tariq R. ; Chatwin, C.R. ; Zhou Zhou ; Nan Li ; Wang, W.

  • Author_Institution
    Sch. of Eng. & Inf., Univ. of Sussex, Brighton, UK
  • fYear
    2012
  • fDate
    Aug. 28 2012-Sept. 1 2012
  • Firstpage
    1582
  • Lastpage
    1585
  • Abstract
    According to Jossient, interesting characteristics of breast tissues mostly lie above 1MHz [1]; therefore a wideband excitation source covering higher frequencies (i.e. above 1MHz) is required. The main objective of this research is to establish a feasible bandwidth envelope that can be used to design a constant EIM voltage source over a wide bandwidth with low output impedance for practical implementation. An excitation source is one of the major components in bio-impedance measurement systems. In any bio-impedance measurement system the excitation source can be achieved either by injecting current and measuring the resulting voltages, or by applying voltages and measuring the current developed. This paper describes three voltage source architectures and based on their bandwidth comparison; a differential voltage controlled voltage source (VCVS) is proposed, which can be used over a wide bandwidth (>;15MHz). This paper describes the performance of the designed EIM voltage source for different load conditions and load capacitances reporting signal-to-noise ratio of approx 90dB at 10MHz frequency, signal phase and maximum of 4.75kΩ source output impedance at 10MHz. Optimum data obtained using Pspice® is used to demonstrate the high-bandwidth performance of the source.
  • Keywords
    bioelectric phenomena; biological tissues; capacitance; electric impedance imaging; electric impedance measurement; mammography; medical signal processing; voltage measurement; Jossient; Pspice data; bio-impedance measurement systems; breast tissues; constant EIM voltage source; electrical impedance mammography systems; feasible bandwidth envelope; frequency 10 MHz; load capacitance; signal phase; signal-to-noise ratio; voltage controlled voltage source; voltage measurement; voltage source design; wideband excitation source; Bandwidth; Capacitance; Current measurement; Educational institutions; Impedance; Signal to noise ratio; Voltage measurement; Electric Capacitance; Electric Impedance; Electronics, Medical; Equipment Design; Mammography; Models, Theoretical; Signal-To-Noise Ratio;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Engineering in Medicine and Biology Society (EMBC), 2012 Annual International Conference of the IEEE
  • Conference_Location
    San Diego, CA
  • ISSN
    1557-170X
  • Print_ISBN
    978-1-4244-4119-8
  • Electronic_ISBN
    1557-170X
  • Type

    conf

  • DOI
    10.1109/EMBC.2012.6346246
  • Filename
    6346246