Ansys HFSS 3D Components Boundary, Conditions, Ports and Mesh

Course Overview

Ansys HFSS 3D Components, Boundary Conditions, Ports and Mesh covers fundamental concepts in HFSS fully arbitrary 3D (FA3D) finite element method (FEM) electromagnetic simulation.  3D Components’ hierarchical modeling and coordinate systems are examined.  Boundary conditions for 2D surfaces, surface approximations, as well as 3D absorbing boundaries for open structures are explored.  Wave port sizing, 2D port fields, modes, integration lines and de-embedding are emphasized. Finally, the course discusses FEM element basis functions, adaptive meshing, meshing for multiple resonances, mesh seeding and solution setup.

 

Prerequisites

  • Completion of HFSS Getting Started course or equivalent knowledge of the HFSS project manager, 3D modeler tree, plotting of S-parameter simulation results, and workflow for setting up basic simulations.
  • Knowledge of microwave principles including scattering parameters (S-parameters) and transmission line principles.
  • Knowledge of electromagnetics, including boundary conditions for fields on surfaces, how tangential electric field must be zero at perfectly electrical conductors.

Target Audience: 

Electronic engineers working with RF and microwave structures such as filters, waveguides, microstrip, connectors and antennas.

Teaching Method:

Lecture slide files and hands-on simulation workshops connect technical concepts with practical skill in using HFSS FEM.  A training certificate is issued on completion of the course.

Learning Path

ansys-hfss-3d-components-boundary-conditions-ports-and-mesh.png

Learning Outcome

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

  • Choose and specify coordinate systems in 3D Components
  • Import geometry and position and orient it relative to the global origin.
  • Construct PEC backing for wave ports and when PEC backing is useful
  • Construct rectangular box regions and five-sided boxes as radiation boundaries
  • Plot 2D fields on ports
  • Choose the size of wave ports based on modes, field lines and field strength
  • Set integration lines on wave ports in driven modal solution type
  • Specify transmission line de-embedding into and out of HFSS models
  • Specify meshing with designs containing multiple resonances
  • Specify length-based meshing on spiral inductor traces

 Available Dates

Time Duration Event Type Location Language Course Cost Registration
June 8, 2021
15:00 - 17:00   CEST (GMT +2)
3 Sessions
Jun 8-10
Virtual Virtual - WebEx English Subscription Only Register

Learning Options

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

Agenda

This is a 1.25-day classroom course covering both tutorials and workshops. For virtual training, this course is covered over 3 x 2-hour sessions, combining lectures, some workshop demonstrations, and question and answer discussions.

Live Classroom Day 1 / Virtual Session 1

  • Module 1: 3D Components
  • Lecture LE01: 3D Components
  • Workshop 1.1: SMA coax to microstrip transition
  • Workshop 1.2: SMA geometry import and orientation
  • Workshop 1.3: 3D Component Coordinates
  • Module 2: Boundary Conditions
  • Lecture LE02: Boundary Conditions

Live Classroom Day 1 / Virtual Session 2

  • Module 02: Boundary Conditions
  • Workshop 2.1: Probe-Fed Patch Air Boxes
  • Module 3: Ports
  • Lecture LE03: Wave and Lumped Ports
  • Workshop 3.1: Wave port PEC backing and integration lines
  • Workshop 3.2: Port field and mesh plots
  • Workshop 3.3: Wave port sizing
  • Workshop 3.4: Wave port transmission line de-embedding

Live Classroom Day 1 & 2 / Virtual Session 3

  • Module 3: Ports
  • Workshop 3.5: Wave port de-embedding out
  • Workshop 3.6: Waveguide modes
  • Module 3: Ports
  • Workshop 3.7: Rectangular waveguide horn antenna
  • Module 4: Mesh and Solution Setup
  • Lecture LE04: Mesh and Solution Setup
  • Workshop 4.1: Spiral inductor length-based meshing

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