Title :
Circuit-concept approach to radiated emissions of printed circuit boards
Author :
Chen, I.F. ; Peng, C.-M. ; Hsue, C.-W.
Author_Institution :
Dept. of Electron. Eng., Jin-Wen Inst. of Technol., Taiwan, Taiwan
fDate :
5/2/2004 12:00:00 AM
Abstract :
A radiation circuit model, based on the traditional transmission-line model but considering the effect of finite-size ground trace, is presented for estimating the electromagnetic interference of a typical PCB geometry, namely microstrip. The ground trace is commonly thought of as a low-impedance path for returning currents and one that is of constant potential across its area. In fact, the finite-size ground trace of a PCB is similar to an imperfect ground, the inductive reactance of which is significant. Wire antennas model the common-mode radiation sources caused by an imperfect ground, and superposition and odd-mode/even-mode methods analyse the circuit. The quantitative values of induced current distribution along the conductor traces are addressed thoroughly. Measured data are presented to confirm the results of numerical computations.
Keywords :
electromagnetic interference; multiconductor transmission lines; network analysis; printed circuits; wire antennas; PCB geometry; circuit analysis; common mode current; electromagnetic interference estimation; even mode method; finite-size ground trace; imperfect ground; induced current distribution; inductive reactance; odd mode method; printed circuit boards; radiated emissions; radiation circuit model; superposition method; transmission line model; wire antennas model;
Journal_Title :
Science, Measurement and Technology, IEE Proceedings -
DOI :
10.1049/ip-smt:20040094
