Title :
A generalized accurate modelling method for automotive bulk current injection (BCI) test setups up to 1 GHz
Author :
Miropolsky, Sergey ; Sapadinsky, Alexander ; Frei, Stephan
Author_Institution :
Tech. Univ. Dortmund, Dortmund, Germany
Abstract :
Development of accurate system models of immunity test setups might be extremely time consuming or even impossible. Here a new generalized approach to develop accurate component-based models of different system-level EMC test setups is proposed on the example of a BCI test setup. An equivalent circuit modelling of the components in LF range is combined with measurement-based macromodelling in HF range. The developed models show high accuracy up to 1 GHz. The issues of floating PCB configurations and incorporation of low frequency behaviour could be solved. Both frequency and time-domain simulations are possible. Arbitrary system configurations can be assembled quickly using the proposed component models. Any kind of system simulation like parametric variation and worst-case analysis can be performed with high accuracy.
Keywords :
automotive electronics; electromagnetic compatibility; equivalent circuits; frequency-domain analysis; printed circuits; time-domain analysis; BCI test setups; PCB configurations; arbitrary system configurations; automotive bulk current injection; component-based models; equivalent circuit; frequency-domain simulations; generalized accurate modelling; immunity test setups; measurement-based macromodelling; parametric variation; system-level EMC test setups; time-domain simulations; worst-case analysis; Couplings; Electromagnetic compatibility; Fixtures; Frequency measurement; Integrated circuit modeling; Load modeling; Radio frequency; Automotive EMC; Bulk Current Injection (BCI); IC EMC; Vectfit Macromodelling; Virtual EMC Tests;
Conference_Titel :
Electromagnetic Compatibility of Integrated Circuits (EMC Compo), 2013 9th Intl Workshop on
Conference_Location :
Nara
DOI :
10.1109/EMCCompo.2013.6735174
