• DocumentCode
    2595670
  • Title

    Time-domain surface scan method

  • Author

    Coenen, Mart ; Gierstberg, Tom ; Van Roermund, Arthur ; De Koning, Anton ; Coenen, Teis

  • Author_Institution
    EMCMCC, Eindhoven, Netherlands
  • fYear
    2012
  • fDate
    21-24 May 2012
  • Firstpage
    193
  • Lastpage
    196
  • Abstract
    The necessity of using dedicated EMI-receivers and compliant spectrum analyzers with CISPR detectors is based on an outdated approach. The levels that people perceive from AM/FM radio reception and analogue modulated television broadcast signals as interference is taken as reference. In the meanwhile new detectors: C_AV and C_RMS have been defined of which the software algorithm is patented which, as such, is delaying the acceptance of these new detectors to be included in IEC CISPR 16-1-1. For most of the EMC related issues, there is little need for such specific detectors as one has to recalculate the nuisance that the total disturbing signal provokes per system bandwidth anyhow. The effect that an RF disturbance might have on a broadcasted RF signal with limited bandwidth will be completely different from e.g. sensor applications where broadband demodulation might occurs. As such, EMC compliant products may still cause nuisance when other detection criteria apply. Time-domain based EMC measurement systems have been developed with just a single RF input [1]. However, for most of the surface and 3D scanning applications 3 or 4 RF inputs are needed e.g. for measuring the 3 orthogonal E/H-field components and the other input is used for synchronisation. For such applications, modern 4-channel digital oscilloscopes can be used which have add-on mathematical analysis capabilities for the signals obtained. By taking time-domain data with sufficient sampling resolution, the influence onto other susceptible systems can be post-calculated by applying the complex response characteristic of the system being interfered. However efficient data reduction is a prerequisite to limit data storage and enable post-processing.
  • Keywords
    electromagnetic compatibility; electromagnetic interference; radio broadcasting; radio receivers; radiofrequency measurement; sampling methods; spectral analysers; time-domain analysis; 3D scanning applications; 4-channel digital oscilloscopes; AM-FM radio reception; C-AV; C-RMS; CISPR detectors; EMC compliant products; EMI-receivers; IEC CISPR 16-1-1; RF disturbance; RF signal; add-on mathematical analysis; analogue modulated television broadcast signals; broadband demodulation; complex response characteristic; compliant spectrum analyzers; data reduction; data storage; orthogonal E-H-field components; sampling resolution; sensor applications; single RF input; software algorithm; surface scanning applications; susceptible systems; synchronisation; time-domain based EMC measurement systems; time-domain data; time-domain surface scan method; Atmospheric measurements; Frequency measurement; Frequency modulation; Particle measurements; Sensitivity; Signal resolution; Weight measurement;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Electromagnetic Compatibility (APEMC), 2012 Asia-Pacific Symposium on
  • Conference_Location
    Singapore
  • Print_ISBN
    978-1-4577-1557-0
  • Electronic_ISBN
    978-1-4577-1558-7
  • Type

    conf

  • DOI
    10.1109/APEMC.2012.6237977
  • Filename
    6237977