Title :
Path tracing for injected parasitic noise into printed circuit boards
Author :
Taki, Mohamed ; John, Werner
Author_Institution :
FhG IZM ASE, Paderborn Univ., Germany
Abstract :
This paper presents an approach for tracing parasitic noise propagation paths in printed circuit boards. The approach allows the identification of the dominant paths transporting significant noise power from a peripheral connector pin to a sensitive device pin. The identification of these paths is performed in the frequency domain using scattering parameters and graph searching algorithms. The approach is combined with the harmonic balance technique for time domain analysis of the nonlinear components. The superposition of a limited number of extracted dominant noise propagation paths in both frequency and time domain gives a good approximation of the total system response. The method can be used to improve the interconnect design before any physical implementation of the circuitry.
Keywords :
S-parameters; circuit noise; frequency-domain analysis; graph theory; printed circuits; signal flow graphs; time-domain analysis; frequency domain; graph searching algorithms; harmonic balance technique; injected parasitic noise; parasitic noise propagation; path tracing; peripheral connector pin; printed circuit boards; scattering parameters; sensitive device pin; time domain analysis; Circuit noise; Connectors; Electromagnetic interference; Flow graphs; Frequency domain analysis; Integrated circuit interconnections; Integrated circuit noise; Power system interconnection; Printed circuits; Scattering parameters;
Conference_Titel :
Electromagnetic Compatibility, 2005. EMC 2005. 2005 International Symposium on
Print_ISBN :
0-7803-9380-5
DOI :
10.1109/ISEMC.2005.1513660
