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  • 1.
    Silfverskiöld, Stefan
    et al.
    Swedish National Defence College, Department of Military Studies, Military-Technology Division.
    Backstrom, M.
    Loren, J.
    Microwave field-to-wire coupling measurements in anechoic and reverberation chambers2002In: IEEE transactions on electromagnetic compatibility (Print), ISSN 0018-9375, E-ISSN 1558-187X, Vol. 44, no 1, p. 222-232Article in journal (Refereed)
    Abstract [en]

    Knowledge of the differences in radiated susceptibility (RS) testing in anechoic (AC) and reverberation chambers (RC) is essential for analysis of the susceptibility of electronic systems to microwave radiation. We have studied microwave field-to-wire coupling for some basic wire geometries above a ground plane in ACs and RC. Results for receiving parameters such as the antenna receiving cross section sigma(w) and the effective antenna length of the wire, h(e), are presented. The ratio between the maximum and average values of sigma(w) may exceed 15 dB in the AC, the average being equal to sigma(w) measured in the RC. Large variations in sigma(w) show that the outcome of an RS test in an AC may depend strongly on the direction and polarization of the incident field. For a realistic RS test in ACs only a few angles of incidence can typically be afforded, implying a substantial risk for undertesting. Furthermore, a. measured in the RC follows a chi(2)-distribution with two degrees of freedom. The measurements in the AC do not follow the same distribution.

  • 2.
    Silfverskiöld, Stefan
    et al.
    Swedish Defence University, Department of Military Studies, Military-Technology Division.
    Bäckström, Mats
    Totalförsvarets forskningsinstitut, FOI.
    Lorén, Jörgen
    Totalförsvarets forskningsinstitut, FOI.
    Microwave Field-to-Wire Coupling Measurements in Anechoic and Reverberation Chambers2002In: IEEE transactions on electromagnetic compatibility (Print), ISSN 0018-9375, E-ISSN 1558-187X, Vol. 44, no 1, p. 222-232Article in journal (Refereed)
    Abstract [en]

    Knowledge of the differences in radiated susceptibility (RS) testing in anechoic (AC) and reverberation chambers (RC) is essential for analysis of the susceptibility of electronic systems to microwave radiation. We have studied microwave field-to-wire coupling for some basic wire geometries above a ground plane in ACs and RC. Results for receiving parameters such as the antenna receiving cross section and the effective antenna length of the wire, he, are presented. The ratio between the maximum and average values of the antenna receiving cross section may exceed 15 dB in the AC, the average being equal to the antenna receiving cross section measured in the RC. Large variations in the antenna receiving cross section show that the outcome of an RS test in an AC may depend strongly on the direction and polarization of the incident field. For a realistic RS test in ACs only a few angles of incidence can typically be afforded, implying a substantial risk for undertesting. Furthermore, the antenna receiving cross section measured in the RC follows a Chi-square-distribution with two degrees of freedom. The measurements in the AC do not follow the same distribution.

  • 3.
    Silfverskiöld, Stefan
    et al.
    Swedish National Defence College.
    Thottappillil, R.
    Ye, M.
    Cooray, V.
    Scuka, V.
    Induced voltages in a low-voltage power installation network due to lightning electromagnetic fields: An experimental study1999In: IEEE transactions on electromagnetic compatibility (Print), ISSN 0018-9375, E-ISSN 1558-187X, Vol. 41, no 3, p. 265-271Article in journal (Refereed)
    Abstract [en]

    This paper presents the experimental results on the induced common-mode (CM) voltages in a residential low-voltage power installation (LVPI) network exposed to electromagnetic fields from lightning. The objective of this investigation was to find out the severity of induced voltages in a low voltage network due to direct coupling of the lightning electromagnetic fields with the network in the absence of transient overvoltages coming through the distribution lines. Therefore, during the experiment the LVPI network was disconnected from the distribution network to exclude conducted transients in the measured signals entering through the mains. The induced CM voltages in a power outlet of the network were measured simultaneously with the vertical component of the electric field near the installation. The sequence of induced voltage events during the complete duration of one negative cloud to-ground (CG) flash, one positive CG flash, and one cloud hash (CC), thought to be typical, is presented simultaneously with the electric field, It is shown that in addition to the return strokes in ground flashes, other discharge events taking place in the cloud; notably, the bipolar pulse trains associated with the initiation of both CG lightning and cloud lightning, are also important in determining the transient environment of electronic devices connected to a LVPI network. Flashes at a distance of about 25 km produced many induced-voltage pulses as large as 100 V, six such pulses in a time period of 0.4 ms in a negative CG flash, and 11 such pulses in a time period of 3 ms in a CC that immediately followed the ground flash.

  • 4.
    Silfverskiöld, Stefan
    et al.
    Swedish Defence University, Department of Military Studies, Military-Technology Division.
    Thottappillil, Rajeev
    Uppsala Universitet, Institutionen för Högspänningsforskning.
    Ye, Ming
    Uppsala Universitet, Institutionen för Högspänningsforskning.
    Cooray, Vernon
    Uppsala Universitet, Institutionen för Högspänningsforskning.
    Scuka, Viktor
    Uppsala Universitet, Institutionen för Högspänningsforskning.
    Induced Voltages in a Low-Voltage Power Installation Network Due to Lightning Electronmagnetic Fields: An Experimental Study1999In: IEEE transactions on electromagnetic compatibility (Print), ISSN 0018-9375, E-ISSN 1558-187X, Vol. 41, no 3, p. 265-271Article in journal (Refereed)
    Abstract [en]

    This paper presents the experimental results on the induced common-mode (CM) voltages in a residential low-voltage power installation (LVPI) network exposed to electromagnetic fields from lightning. The objective of this investigation was to find out the severity of inducedvoltages in a low voltage network due to direct coupling of the lightning electromagnetic fields with the network in the absence of transient overvoltages coming through the distribution lines. Therefore, during the experiment the LVPI network was disconnected from the distribution network to exclude conducted transients in the measured signals entering through the mains. The induced CM voltages in a power outlet of the network were measured simultaneously with the vertical component of the electric field near the installation. The sequence of induced voltage events during the complete duration of one negative cloud-to-ground (CG) flash, one positive CG flash, and one cloud flash (CC), thought to be typical, is presented simultaneously with the electric field. It is shown that in addition to the return strokes in ground flashes, other discharge events taking place in the cloud; notably, the bipolar pulse trains associated with the initiation of both CG lightning and cloud lightning, are also important in determining the transient environment of electronic devices connected to a LVPI network. Flashes at a distance of about 25 km produced many induced-voltage pulses as large as 100 V, six such pulses in a time period of 0.4 ms in a negative CG flash, and 11 such pulses in a time period of 3 ms in a CC that immediately followed the ground flash.

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