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IEEE Letters on Electromagnetic Compatibility Practice and Applications
Number of Followers: 4  
  Hybrid Journal Hybrid journal (It can contain Open Access articles)
ISSN (Print) 2637-6423
Published by IEEE Homepage  [229 journals]
  • [Front cover]
    • Abstract: Presents the front cover for this issue of the publication.
      PubDate: June 2019
      Issue No: Vol. 1, No. 2 (2019)
  • Editorial Message From the Editor-in-Chief
    • Authors: Frank Sabath;
      Pages: 36 - 36
      Abstract: IT IS with great pleasure that I present this second issue of the IEEE IEEE Letters on Electromagnetic Compatibility Practice and Applications (L-EMCPA), to you. This issue contains four letters on
      PubDate: June 2019
      Issue No: Vol. 1, No. 2 (2019)
  • Comparison of Three Methods for Testing IC’s to Field-Coupled
           Immunity and Emissions
    • Authors: Stephan Pfennig;
      Pages: 37 - 43
      Abstract: Testing integrated circuits to field-coupled immunity and emissions, the TEM cell and the IC stripline are established measuring environments. The respective measuring methods are compared to an alternative method that uses the IC Test Systems P1402/P1502 and P1601/P1702. The substantial difference of this method is that the measurements are performed separately for the electric and magnetic field. Using two separate field sources, the IC's immunity is tested in the near field of the field source. Likewise, the IC's emissions are measured in the near field of the IC using an electric-field or magnetic-field probe.
      PubDate: June 2019
      Issue No: Vol. 1, No. 2 (2019)
  • Measurement-and-Simulation-Based Determination of Electrical Properties of
           Au-Ni Composite Pins in Elastomeric Sockets
    • Authors: Selman Özbayat;Varin Sriboonlue;Tao Wang;Gerardo Romo Luevano;Jaemin Shin;Tim Michalka;
      Pages: 44 - 47
      Abstract: Challenges with measurement and simulation of test sockets have been presented, with a focus on material characterization of a specific elastomeric rubber socket. A Parallel-Resonance-Frequency (PRF) methodology has been adopted for test vehicle design, and the measurements have been carried out of the test vehicle with socket pins mounted on it. The geometry simplification from a powder of spherical balls to a solid cylinder has enabled ease of simulation at a cost of unknown material properties, which has been addressed by a frequency dependent optimization through correlating to measurements. The resultant conductor properties have proven desirable accuracy to represent correct contact-resistance and inductance associated with the socket pin, enabling simple and accurate electrical representation.
      PubDate: June 2019
      Issue No: Vol. 1, No. 2 (2019)
  • Electrical Fast Transient Burst Insertion Loss Measurement Method
    • Authors: Richard Spangenberg;Jared Quenzer;
      Pages: 48 - 52
      Abstract: The methodology used to provide insertion loss curves for filter components typically employs a network analyzer or other similar apparatus. The measurement is performed using small signal levels, which typically keeps filter components away from non-linear regions. When attempting to choose an off-the-shelf filter to address susceptibility tests levels, much higher signal conditions typically exist. This letter proposes an insertion loss measurement method using the Electrical Fast Transient Burst (EFTB) wave train described in IEC 61000-4-4. By employing elements in most EMC laboratories, the time and capital investment to perform measurements is kept at a low level. Both common and differential mode insertion loss measurements are explored, noting equipment challenges discovered. A comparison of insertion loss is provided for an example common mode choke, revealing a reduction of EFTB attenuation compared to the small signal case. The EFTB insertion loss data could be provided by suppliers to assist circuit designers in component selection.
      PubDate: June 2019
      Issue No: Vol. 1, No. 2 (2019)
  • Modeling of Equipment’s Transient Behavior for Purposes of Low Frequency
           Magnetic Cleanliness Verification in Space Missions
    • Authors: Elpida G. Chatzineofytou;Sotirios T. Spantideas;Marco Nicoletto;Ilario Marziali;Christos N. Capsalis;
      Pages: 53 - 57
      Abstract: In this letter, the problem of modeling transient magnetic field emissions of an equipment under test (EUT) is studied. The proposed method employs stochastic techniques in order to identify a pulse model, which can be employed to recreate the EUT's magnetic behavior during the transient event. Moreover, the estimation of the signal's spectral bounds is a fundamental characteristic of the transient event and is also analyzed in this letter. The measured field can be effectively processed and denoised and the pulse model's parameters, as well as the spectral bounds model, may be assessed based on its spectrum values. The fitted models ultimately aim at estimating the magnetic transient signature of the EUT at remote extrapolation points of interest, typically for Electromagnetic Compatibility (EMC) applications. For the evaluation of this approach, the magnetic field time series generated by real spacecraft equipment is captured during unit transient behavior, i.e., switch on and off. Eventually, the resulting models verify the ability of the proposed methodology to accurately reproduce the transient behavior of an EUT.
      PubDate: June 2019
      Issue No: Vol. 1, No. 2 (2019)
  • Call for Application Letters on Development in and Application of EMC
    • Pages: 58 - 58
      Abstract: Prospective authors are requested to submit new, unpublished manuscripts for inclusion in the upcoming event described in this call for papers.
      PubDate: June 2019
      Issue No: Vol. 1, No. 2 (2019)
School of Mathematical and Computer Sciences
Heriot-Watt University
Edinburgh, EH14 4AS, UK
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