Cena s DPH / bez DPH
Hlavní stránka>IEC 62153-4-10:2015 - Metallic communication cable test methods - Part 4-10: Electromagnetic compatibility (EMC) - Transfer impedance and screening attenuation of feed-throughs and electromagnetic gaskets - Double coaxial test method
Sponsored link
sklademVydáno: 2015-11-04
IEC 62153-4-10:2015 - Metallic communication cable test methods - Part 4-10: Electromagnetic compatibility (EMC) - Transfer impedance and screening attenuation of feed-throughs and electromagnetic gaskets - Double coaxial test method

IEC 62153-4-10:2015

Metallic communication cable test methods - Part 4-10: Electromagnetic compatibility (EMC) - Transfer impedance and screening attenuation of feed-throughs and electromagnetic gaskets - Double coaxial test method

Methodes d’essai des cables metalliques de communication - Partie 4-10: Compatibilité électromagnétique (CEM) - Impédance de transfert et affaiblissement d'écran des traversées et des joints d’étanchéité électromagnétiques - Méthode d'essai coaxiale double

Formát
Dostupnost
Cena a měna
Anglicky/Francouzsky Tisk
skladem
5434 Kč
Anglicky/Francouzsky PDF
K okamžitému stažení
5434 Kč
Označení normy:IEC 62153-4-10:2015
Vydáno:2015-11-04
Jazyk:Anglicky/Francouzsky
Popis

IEC 62153-4-10:2015

IEC 62153-4-10:2015 details a coaxial method suitable for determining the transfer impedance and/or screening attenuation of feed-throughs and electromagnetic gaskets. The shielded screening attenuation test set-up according to IEC 62153-4-4 (triaxial method) has been modified to take into account the particularities of feed-throughs and gaskets. This second edition cancels and replaces the first edition published in 2009. It constitutes a technical revision. The main technical changes with regard to the previous edition are as follows: - addition of a new clause that describes a procedure for verification of the measurement set-up and further information regarding sample preparation; - addition of a new Annex that describes how to improve measurement certainty in the very low frequency area.