Prediction of radiated electromagnetic emissions from PCB traces based on Green dyadics

Author

Leroux, E. ; Canavero, F. ; Vecchi, G.

Author_Institution

High Design Technol., Torino, Italy

fYear

1995

fDate

18-22 Sep 1995

Firstpage

354

Lastpage

359

Abstract

Because it costs to solve ElectroMagnetic Compatibility (EMC) problems late in the development process, new methods have to predict radiated electromagnetic emissions at the design stage. In the case of complex printed Circuit Boards (PCBs) containing embedded microstrips and a large number of nets, a tradeoff between accuracy and simulation time must be found for this evaluation. In this paper the basic algorithm used within a new emissions predictive analysis tool: ElectroMagnetic Interferences Radiated (EMIR) is presented. It is able to take accurately into account the actual cross section between the metal plane and the air for each PCB trace. It is compared to theoretical formulas for validation. The effects of superstrate (cover) on a dipole radiation are described

Keywords

Green´s function methods; circuit analysis computing; electromagnetic compatibility; electromagnetic interference; printed circuit design; Green dyadics; PCB traces; complex printed circuit boards; dipole radiation; electromagnetic compatibility; embedded microstrips; emissions predictive analysis tool; radiated electromagnetic emissions; radiated electromagnetic interference; superstrate; Algorithm design and analysis; Circuit simulation; Costs; Electromagnetic analysis; Electromagnetic compatibility; Electromagnetic interference; Electromagnetic radiation; Electromagnetic radiative interference; Microstrip; Printed circuits;

fLanguage

English

Publisher

ieee

Conference_Titel

Design Automation Conference, 1995, with EURO-VHDL, Proceedings EURO-DAC '95., European

Conference_Location

Brighton

Print_ISBN

0-8186-7156-4

Type

conf

DOI

10.1109/EURDAC.1995.527429

Filename

527429