Cascaded Microwave Network Approach for Power and Signal Integrity Analysis of Multilayer Electronic Packages

Autor: Yaojiang Zhang, Xing Chang Wei, Er-Ping Li, Zaw Zaw Oo, En-Xiao Liu
Rok vydání: 2011
Předmět:
Zdroj: IEEE Transactions on Components, Packaging and Manufacturing Technology. 1:1428-1437
ISSN: 2156-3985
2156-3950
DOI: 10.1109/tcpmt.2011.2143712
Popis: In this paper, an efficient cascaded microwave network approach is presented for power and signal integrity analysis of multilayer printed-circuit boards (PCBs) and advanced electronic packages with multiple signal traces, multiple power-ground plates, multiple vias, and external loads such as decoupling capacitors. Each parallel-plate pair, which consists of two consecutive conductor plates functioning as either power or ground in the PCBs or packages, is modeled as one individual microwave network. Equivalent circuits are used in the microwave network to model the vias, and a parallel-plate impedance matrix is formulated to account for the wave interactions between the vias and the boundary of the PCB or package. If signal traces are present in a plate pair, a modal decomposition and recombination approach is employed to model two associated modes: the transmission line mode for the signal traces, and the parallel-plate mode for the power-ground plate pair. The microwave networks for each plate pair are finally cascaded together by enforcing the continuity of the voltages and currents at the via clearance holes in the conductor plate shared by two consecutive plate pairs. Numerical validation reveals that the cascaded microwave network approach produces accurate simulation results with much less central processing unit time and memory requirements than 3-D full-wave approaches.
Databáze: OpenAIRE
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