1992. $Q ,QWURGXFWLRQ WR :DYHOHWV.

Chui, C. K.

Academic Press, Boston.

Clayton, R. P. 1992. ,QWURGXFWLRQ WR (OHFWURPDJQHWLF

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RPSDWLELOLW\. John Wiley & Sons, New York.

Gravelle, L. B. and P. F. Wison. 1992. "EMI/EMC in

, rinted Circuit Boards: A Literature Review".

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RPSDWLELOLW\ Vol. 34, No. 2 (May), 109-116.

Khan, R. L. and G. I. Costache. 1989. "Finite Element

Method Applied to Modelling Crosstalk Problems

(n Printed Circuit Board". ,((( 7UDQVDFWLRQV RQ

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OHFWURPDJQHWLF FRPSDWLELOLW\, Vol. 31, No. 1

(Feb), 5-16.

Mallat, S. 1998. $ :DYHOHW 7RXU RI 6LJQDO 3URFHVVLQJ.

Academic Press, San Diego.

Parker, B. H.; A. K. Ray; and Z. Ghassemlooy. 1994.

)

"Crosstalk in the Interconnection Bus for a High-

Rpeed Digital Logic Circuit". ,QWHUQDWLRQDO -RXUQDO

LJXUH  Energy of the detail coefficients versus

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I (OHFWURQLFV, Vol. 76, No. 2, 265-269.

distance separation between the two coupled lines.

Pothecary, N. M. and C. J. Railton. 1991. "Analysis of

Crosstalk on High-Speed Digital Circuits Using the

9 &21&/86,21

A

Finite

Difference

Time-Domain

Method".

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crosstalk  analysis  method  based  on  wavelet

OHFWURQLF 1HWZRUNV 'HYLFHV DQG ILHOGV, Vol. 4,

decomposition has been proposed and tested on simulated

225-240.

signals propagating down two coupled tracks on a PCB.

Sohn, Y. ; J. C. Lee; H. J. Park; and S. I. Cho. 2001.

We have shown that a wavelet decomposition at level 2

"Empirical Equations on Electrical Parameters of

of the disturbed signal allows to characterize the source of

Coupled Microstrip Lines for Crosstalk Estimation

disturbance by means of the detail coefficients which

$ Printed Circuit Board". ,((( 7UDQVDFWLRQV RQ

in

makes easier the identification of the source of

GYDQFHG 3DFNDJLQJ, Vol. 24, No. 4 (Nov), 521-

disturbance. This approach has the advantage to take into

527.

account all tracks that are susceptible to produce

Weston, D. A. 2001. (OHFWURPDJQHWLF &RPSDWLELOLW\

3

interferences without making any assumption about the

ULQFLSOHV DQG $SSOLFDWLRQV. Marcel Dekker.

separating distance between the coupled tracks. In the

Xiao, F.; W. Liu; and Y. Kami. 2001. "Analysis of

proposed approach, only one source of disturbance has

Crosstalk Between Finite-Length Microstrip Lines:

been considered. A more complex situation that

FDTD Approach and Circuit Concept Modeling"

corresponds to several sources of disturbance may be

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addressed in the future research.

RPSDWLELOLW\, Vol. 43, No. 4 (Nov), 573-578.

Yeargan, J. R.; R. L. Day; and T. Nguyen  1988.

9, 5()(5(1&(6

"Crosstalk in Multilayer Printed Circuit Boards".

,((( 7UDQVDFWLRQV RQ (GXFDWLRQ, Vol. 31, No. 2

Antonini, G. and A. Orlandi. 2001. "Wavelet Packet-

(May), 116-119.

Based  EMI  Signal  Processing  and  Source

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Identification".

OHFWURPDJQHWLF &RPSDWLELOLW\, Vol. 43, No. 2 (May),

$%'(//$+ .$&+$ was born in Bouhatem, Algeria,

140-148.

in 1969. He received the degree of Engineer in 1993,

Buccella, C. and A. Orlandi. 2000. "Diagnosing

from the university of Setif, Algeria and the degree of

Transmission Line Termination Faults by Means of

Magister in 1997, from the university of Batna, Algeria,

Wavelet Based Crosstalk Signature Recognition".

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both in electronic. Since 1998 he has been with the

RPSDWLELOLW\, Vol. 23, No. 1 (Mar), 165-170.

department of electronic engineering of the university of

Jjel, Algeria. Since September 2003, he is working

towards PhD in applied sciences at General Electricity

Service of the Free University of Brussels, Belgium.