![]() ![]() Si9000e graphs all losses – conductor, dielectric and insertion loss. User defined S-parameter source and termination impedanceįrequency dependent modeling down to 1KHz Single-ended and Mixed-mode S-parameters charting and data tables Graphs conductor, dielectric and insertion lossĪt-a-glance comprehensive S-parameter charting – magnitude, phase and Smith charts Roughness input data Rz (Canonball-Huray) / RMS (Rq) Gradient Roughness modeling – Cannonball-Huray / Gradient / Hammerstad / Groisse Si Projects option with Speedstack saves structure groups Si Crosstalk option – Multiline and differential pair (lossless) crosstalk – models coupling between traces Loss is graphed three ways with clear indication of dielectric, copper and total loss and includes Huray / Canonball /Gradient plus legacy Hammerstad, & Groisse methods for roughness modeling: Employing boundary element method field solving, the Si9000e extracts RLGC matrices and rapidly plots a range of transmission line information for the structure you are designing. With its fast, accurate, frequency-dependent transmission line modeling, the Si9000e Insertion Loss Field Solver is designed to model transmission line loss, impedance at given frequencies and extract full transmission line parameters over a wide range of popular PCB transmission lines (over 100 structures). Si9000e fast accurate PCB transmission line modeling. ![]() View video – compare Si9000e modeled insertion loss with VNA measurement ![]()
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