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.

• 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
• Chapter 16: General conclusion