A Delay-Rational Model of Lossy Multiconductor Transmission Lines With Frequency-Independent Per-Unit-Length Parameters PROJECT TITLE :A Delay-Rational Model of Lossy Multiconductor Transmission Lines With Frequency-Independent Per-Unit-Length ParametersABSTRACT:Cables, printed circuit boards, and VLSI interconnects are commonly modeled as multiconductor transmission lines. Models of electrically long transmission lines are memory and time consuming. In this paper, a strong and efficient algorithm for the generation of a delay-based mostly model is presented. The impedance illustration via the open-finish matrix Z is analyzed. In particular, the rational formulation of Z in terms of poles and residues is exploited for each lossless and lossy cases. The delays of the lines are identified, and explicitly incorporated into the model. A model order reduction of the system is automatically performed, since solely a limited range of poles and residues are included in the rational part of the model, whereas the high-frequency behavior is captured by suggests that of closed expressions that account for the delays. The proposed methodology is applied to two relevant examples and validated through the comparison with reference methods. The time-domain solver is found to be a lot of accurate and considerably faster than the one obtained from a pure-rational model. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Effect of Film Thickness on the Electrical Properties of AlN Films Prepared by Plasma-Enhanced Atomic Layer Deposition Unexpected Latch-Up Through CMOS Triple-Well Structures