Abstract
Transfer impedance is a very central parameter in
determining the quality of a cable shield. It has been
under investigation through several decades. Many
different test setups are available as [1] summarizes and
contrasts, but all methods require either a considerable
test setup or calibration effort.
This poster presents a method to practically determine
the transfer impedance of shielded cables using a vector
network analyzer. It provides a theoretical model and the
equivalent circuit. The practical test setup can be rebuild
with little effort while still providing reliable results in the
low frequency range. A bulk current injection (BCI) into
the outer conductor of a shielded cable of an RG-58
coaxial cable requires only two test runs and little post
processing.
determining the quality of a cable shield. It has been
under investigation through several decades. Many
different test setups are available as [1] summarizes and
contrasts, but all methods require either a considerable
test setup or calibration effort.
This poster presents a method to practically determine
the transfer impedance of shielded cables using a vector
network analyzer. It provides a theoretical model and the
equivalent circuit. The practical test setup can be rebuild
with little effort while still providing reliable results in the
low frequency range. A bulk current injection (BCI) into
the outer conductor of a shielded cable of an RG-58
coaxial cable requires only two test runs and little post
processing.
Originalsprache | englisch |
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Publikationsstatus | Veröffentlicht - 2020 |
Veranstaltung | 18. EMV-Fachtagung - Seibersdorf, Virtuell, Österreich Dauer: 30 Sept. 2020 → 1 Okt. 2020 https://www.seibersdorf-laboratories.at/emv-fachtagung/emv-fachtagung-2020-online |
Konferenz
Konferenz | 18. EMV-Fachtagung |
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Kurztitel | EMV-Fachtagung |
Land/Gebiet | Österreich |
Ort | Virtuell |
Zeitraum | 30/09/20 → 1/10/20 |
Internetadresse |