C. Lochot scite author profile

The ICEM standard (Integrated Circuit Electromagnetic Modei) was proposed by the French standard committee (UTE) where many semi-conductor manufacturers and final users are involved. The ICEM standard proposal is nowadays registered as a Technical Report (IEC62014-3). h the first part of this paper, the authors will present the architecture of the model. In the second part. they will describe different methods to characterize the parameters of the model. Finally, comparisons between measurement and simulation results highlight the capability of this approach for the prediction of the electromagnetic emission of an IC.

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Modeling strategy for functional current return in large CFRP structures for aircraft applications

Revel¹,

Piche²,

Peres³

et al. 2008

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The strong increase of utilization of CFRP materials in industry has deeply modified the methods of analysis and challenged the numerical tools. In electromagnetism, many issues arise from the replacement of metallic elements by CFRP ones, the main being the protection against direct and indirect effects of lightning. An other important issue is the sizing and optimization of functional current return path on a large structure as an aircraft fuselage. The object of this paper is to present an original approach for studying the current return in a partially metallic fuselage structure covered with CFRP panels in a frequency range comprised between the continuous current up to few tens of kHz. (Abstract) I. PRESENTATION OF THE PROBLEMIn aeronautic industry, metallic structure and fuselage handle the following important roles or functions : signal and fault current return, voltage reference for all electrical equipments, personal protection against electrical shocks, lightning and High Intensity Radiated Fields (HIRF) protection and antenna ground plane reference for the main electrical ones. The use of CFRP materials for fuselage and internal structural elements of an aircraft imposes to assess the correct handling of these functions when all were more easily achieved due to the high electrical conductivity of Aluminum and Titanium alloys. For the functional current (corresponding to the current of functioning equipments that returns through the structure), this results in two main issues. First, poor conducting structure may induce a voltage drop that will be lacking for equipments. Second, depending on the frequency, a certain critical amount of current will flow through CFRP assemblies, or junctions, resulting in local temperature increases with possible mechanical damages. The management of current return distribution over different elements of a large aeronautical structure (fuselage, frames, tracks, cross beams,…) should be tackled with care especially for the aircraft weight optimization. The numerical modeling appears to be an helpful way for current distribution prediction, with the objective to size and optimize the so called Electrical Structure Network (ESN).The critical point in the numerical modeling of such a system is the frequency range of interest. In the case of an aircraft, this range of frequency includes the DC (28V) and goes from 360 to 800 for the 115V AC power supply. This has leaded to analyze different methods available and adapted for such a problematic. II. MODELING STRATEGY A. Numerical methods reviewAfter an evaluation of several methods (FDTD, PEEC,…), our choice has been oriented towards BEM/MOM methods [1,2] for which a specific module has been developed to address the very low frequency range of concern. This choice has been done according to the method capability to model :• CFRP skin covered by metallic mesh• Internal metallic elements• Internal CFRP elements• Several sources with their amplitude and phase• Non-perfect connections (junctions) between internal, interface elements...

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REGINA test mask: research on EMC guidelines for integrated automotive circuits

Lochot¹,

Calvet²,

Dhia

et al. 2004

Microelectronics Journal

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High-level substrate current effects in P/sup -/-epitaxy/P/sup +/-substrate Smart Power Technologies

Laine

Bertolini²,

Bafleur³

et al.

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C. Lochot

Modeling the Electromagnetic Emission of a Microcontroller Using a Single Model

ICEM: a new standard for EMC of IC definition and examples

Modeling strategy for functional current return in large CFRP structures for aircraft applications

REGINA test mask: research on EMC guidelines for integrated automotive circuits

High-level substrate current effects in P/sup -/-epitaxy/P/sup +/-substrate Smart Power Technologies

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