Tensorial Analysis of Networks (TAN) Modelling for PCB Signal Integrity and EMC Analysis
Tensorial Analysis of Networks (TAN) Modelling for PCB Signal Integrity and EMC Analysis
edited by Blaise Ravelo and Zhifei Xu
The Institution of Engineering and Technology, 2020 eISBN: 978-1-83953-050-0 | Cloth: 978-1-83953-049-4 Library of Congress Classification TK7868.P7.T46 2020 Dewey Decimal Classification 621.381531
ABOUT THIS BOOK | TOC
ABOUT THIS BOOK
This book describes a fast, accurate and flexible modelling methodology for PCBs. The model uses the concept of tensorial analysis of networks (TAN) based on Kron's and Kron-Branin's methods adapted for the EMC use by O. Maurice. The TAN approach is applied to the PCB SI and electromagnetic compatibility (EMC) analysis.
TABLE OF CONTENTS
Chapter 1: General introduction
Chapter 2: Basic knowledge to practice TAN for PCB SI/PI/EMC investigation
Chapter 3: CB primitive components analysis with TAN
Chapter 4: Analytical calculation of PCB trace Z/Y/T/S matrices with TAN approach
Chapter 5: Fast S-parameter Kron-Branin's modelling of rectangular wave guide (RWG) structure via mesh impedance reduction
Chapter 6: Time-domain TAN modelling of PCB-lumped system with Kron's method
Chapter 7: Direct time-domain analysis with TAN method for distributed PCB modelling
Chapter 8: Coupling between EM field and multilayer PCB with MKME
Chapter 9: Conducted emissions (CEs) EMC TAN modelling
Chapter 10: PCB-conducted susceptibility (CS) EMC TAN modelling
Chapter 11: PCB-radiated susceptibility (RS) EMC TAN modelling
Chapter 12: TAN model of loop probe coupling onto shielded coaxial short cable
Chapter 13: Nonlinear behaviour conduced EMC model of an ADC-based mixed PCB under radio-frequency interference (RFI)
Chapter 14: Far-field prediction combining simulations with near-field measurements for EMI assessment of PCBs
Chapter 15: Element of information for numerical modelling on PCB: focus on boundary element method