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Ansys Q3D Low Frequency Power Getting Started

Course Overview

The Ansys Q3D SI (signal integrity) Getting Started course emphasizes the matrix reductions that are used for grounding nets, floating nets, and specifying return paths.  Designed for brand new users, this course covers Q3D workflow, solvers and solution setup, and capacitance and inductance matrix reduction.  This course does not cover any 3D modeling.  As Q3D runs in the Ansys Electronics Desktop (AEDT) environment, we recommend taking advantage of HFSS Getting Started self-paced course resources and videos for learning about AEDT, generating reports, and constructing 3D geometries.  The workshops are designed to be easy-to-follow and valuable for individual self-study.  

Prerequisites

  • Knowledge of lumped element electrical circuit theory, namely inductance and capacitance is essential. 
  • No prior electromagnetic (EM) simulation is required, but any prior experience with EM simulation or Ansys Electronics Desktop is helpful.  
  • Knowledge of electromagnetics, including quasi-static analysis, is highly recommended.  

Teaching Method

Lecture slide files and hands-on simulation workshops build familiarity and productive skill in using Q3D. A training certificate is issued on completion of the course.

Learning Outcome

Following the completion of this course, you will be able to:

  • Assign boundaries and nets on Q3D simulation structures. 
  • Specify sources and sinks for Q3D simulations. 
  • Set up analyses and which of the three different Q3D solvers to choose. 
  • Set up frequency sweeps and plot their results over log frequency. 
  • Perform capacitance and inductance matrix reductions and interpret results.

 Available Dates

Learning Options

Training materials for this course are available with a Ansys Learning Hub Subscription. If there is no active public schedule available, private training can be arranged. Please contact us.

 

Agenda

This is a 1-day instructor-led course with lecture and hands-on simulation workshops.

Module 1 - Introduction

  • Lecture: Introduction to Q3D
  • Workshop 1.1: h-busbars in Simplorer 

Module 2 – Q3D Workflow 

  • Lecture: Q3D Workflow and Simulation Setup Steps
  • Workshop 2.1: Metal Plates over Ground CG Solver 
  • Workshop 2.2: Metal Bars Inductance 
  • Workshop 2.3: 2IGBT package setup and simulation

Module 3 - Solution Setup 

  • Lecture: Q3D Solvers and Solution Setup
  • Workshop 3.1: h-busbar solver and sweep setup
  • Workshop 3.2: CG Solve with Higher Accuracy
  • Workshop 3.3: Lossy Material Frequency Sweep

Module 4 – Capacitance Matrix Reduction 

  • Lecture: Capacitance Matrix Reduction
  • Workshop 4.1: CG Join Series Return Path Matrix Reduction
  • Workshop 4.2: Touchscreen Float Infinity Ground Net 

Module 5 – Inductance Matrix Reduction

  • Lecture: Inductance Matrix Reduction 
  • Workshop 5.1: IGBT Package 5 Matrix Reduction
  • Workshop 5.2: Return Path and Ground Net Comparison