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Ansys HFSS Antenna Arrays 
and Periodic Structures

Course Overview

The Ansys HFSS Antenna Arrays and Periodic Structures course explores topics such as Infinite Array (Unit Cell analysis), Finite Array with both periodic and semi-periodic (non-identical) unit cell structures, scanning the beams using Finite Array Beam Angel Calculator Toolkit, and Frequency Selective Surfaces (FSS). This course is designed for intermediate-advanced users and includes four modules with workshops that demonstrate the workflows from start to finish.


  • Prior knowledge of Ansys HFSS Getting Started Course and Ansys HFSS 3D Components, Boundary Conditions, Ports and Mesh Course are required.
  • Knowledge of antenna design and relevant parameters including S-parameters, Directivity, Gain, Realized Gain, Axial Ratio, Linear and Circular Polarization are highly recommended.
  • Knowledge of antenna impedance matching, infinite array and finite array principles are also important as workshops utilize these engineering principles.

Target Audience

Antenna Design Engineers.

Teaching Method

Lectures and hands-on simulation workshops to develop familiarity and productive skill in analyzing antenna arrays and periodic structures using HFSS. Although the course listing is instructor led, the simulation workshops are self-explanatory and easy to follow for independent learners.  A training certificate is issued on completion of the course.

Learning Path

Learning Outcome

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

  • Make a unit cell and set up periodic boundary conditions and excitations for infinite array simulation.
  • Define circular polarization for a unit cell.
  • Scan the beam and check both far-field patterns and embedded element patterns.
  • Transform the unit cell setup into finite array configuration and apply Finite Array Domain Decomposition Method (FADDM) in HFSS.
  • Create finite array model (active, passive, padding elements) and set the excitations of the elements.
  • Steer the beam using the finite array beam angle calculator toolkit.
  • Use and arrange non-identical 3D component unit cells in a finite array and apply Component Array Domain Decomposition Method (CADDM) in HFSS.
  • Mesh CADDM in a way that reduces the memory footprint and improves the simulation performance.
  • Define Source Groups and apply them for Far-Field patterns
  • Define Frequency Selective Surface (FSS) unit cell and set up periodic boundary conditions, Floquet ports, and analysis setup.
  • Evaluate the FSS results such as transmission and reflection plots, phase transmission and port fields for different modes.
  • Extract FSS unit cell’s transmission/reflection coefficients and apply it for a Radome design.



Available Dates

DATE / TIME Duration Event Type Location Language Course cost Registration
September 2, 2021
15:00 - 17:00 CET (GMT +1)
2 Sessions
Sept 2-3
Virtual Virtual - WebEx English Subscription Only REGISTER

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.


This is a 1-day classroom course covering both tutorials and workshops. For virtual training, this course is covered over 4 x 2 hour sessions. Module 1 Introductory workshops provide antenna-related HFSS familiarity; they should be completed independently prior to the start of class.

Virtual Classroom Session 1 

  • Module 1 / Lecture 1: Unit Cell/Infinite Array Analysis 
  • Workshops 1.1: Unit Cell Waveguide
  • Workshop 1.2:  Unit Cell Patch Antenna

Virtual Classroom Session 2

  • Module 2 / Lecture 2: Finite Array Domain Decomposition Method (FADDM)
  • Workshops 2.1: FADDM Waveguide 
  • Workshop 2.2: FADDM Patch

Virtual Classroom Session 3

  • Module 3:  Workshop3.1 Component Array Domain Decomposition Method (CADDM)

Virtual Classroom Session 4 

  • Module 4 / Lecture 4: Frequency Selective Surfaces (FSS)
  • Workshops 4.1: FSS Unit Cell Analysis 
  • Workshop 4.2: FSS Radome