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Dmitry Denisov
The course will cover the basics of working with an electrodynamic analysis tool - Ansys Electronics Desktop Student. Electronics Desktop offers free access to the industry gold standard Ansys simulators for work with antenna and microwave systems. Students will have access to Ansys HFSS. Ansys HFSS is a multipurpose, full-wave 3D electromagnetic simulation software.
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Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Provides free access to industry-standard software, which is rare among free courses
Uses Ansys HFSS, which is a versatile and widely-used electromagnetic simulation software
Designed for beginners in electrodynamic analysis
Provides a foundation for further study and practice in electrodynamic analysis
May be suitable for students with a background in electromagnetics or physics
Requires access to a computer with Ansys Electronics Desktop Student software installed, which may be a barrier for some learners

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Introduction to Ansys HFSS with these activities:
Organize notes and assignments
Staying organized is essential for success in this course. Compiling notes and assignments will help students stay on top of the material and prepare for exams.
Show steps
  • Gather notes and assignments
  • Organize notes and assignments into a logical structure
Review electromagnetism
Electromagnetism is central to understanding the concepts and tools in this course. A strong understanding of the principles of electromagnetism will help students quickly grasp new concepts in this course.
Browse courses on Electromagnetism
Show steps
  • Review the principles of electromagnetism
  • Practice solving problems related to electromagnetism
Gather resources on electromagnetic simulation
Having access to a variety of resources can be helpful for learning. Gathering resources on electromagnetic simulation will help students find the information they need to succeed in this course.
Show steps
  • Search for resources on electromagnetic simulation
  • Organize resources into a compilation
Five other activities
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Study with classmates
Studying with classmates can be a great way to learn the material and prepare for exams. Studying with classmates will help students understand the material better and identify areas where they need additional help.
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  • Form a study group with classmates
  • Meet regularly to discuss the material
Follow Ansys HFSS tutorials
Ansys HFSS is a powerful tool that is used in this course to simulate electromagnetic systems. Following tutorials on Ansys HFSS will help students learn how to use the software effectively.
Show steps
  • Find tutorials on Ansys HFSS
  • Follow the tutorials and complete the exercises
Practice designing antennas using Ansys HFSS
Designing antennas is a key skill in this course. Practicing antenna design using Ansys HFSS will help students develop their skills and prepare them for the projects in this course.
Browse courses on Antenna Design
Show steps
  • Design an antenna using Ansys HFSS
  • Simulate the antenna and analyze the results
Participate in an antenna design competition
Participating in a competition can be a great way to test skills and learn from others. Participating in an antenna design competition will help students apply the skills they have learned in this course and gain a deeper understanding of antenna design.
Browse courses on Antenna Design
Show steps
  • Find an antenna design competition
  • Design and build an antenna for the competition
  • Submit the antenna to the competition
Build a microwave system using Ansys HFSS
Building a microwave system is a challenging but rewarding project. Completing this project will help students apply the skills they have learned in this course and gain a deeper understanding of microwave systems.
Browse courses on Microwave Systems
Show steps
  • Design a microwave system using Ansys HFSS
  • Simulate the microwave system and analyze the results
  • Build the microwave system
  • Test the microwave system

Career center

Learners who complete Introduction to Ansys HFSS will develop knowledge and skills that may be useful to these careers:
Microwave Engineer
Microwave Engineers specialize in the design, development, and testing of microwave systems and components operating at frequencies above 1 GHz. Ansys HFSS is a powerful tool for simulating and optimizing microwave circuits, antennas, and other microwave devices. The course provides a strong foundation in microwave engineering concepts and practical experience in using industry-standard software, making it highly valuable for Microwave Engineers.
RF Engineer
RF Engineers design, develop, and test radio frequency (RF) systems and components for various applications, including wireless communication, radar, and satellite systems. Ansys HFSS is widely used in RF engineering for simulating and optimizing RF circuits, antennas, and other RF devices. This course provides a strong foundation in RF engineering principles and hands-on experience in using industry-standard software, making it highly valuable for RF Engineers.
Antenna Engineer
Antenna Engineers design, develop, and test antennas for various applications, including telecommunications, radar, and satellite systems. Ansys HFSS is extensively used in antenna design for simulating and optimizing antenna performance, making this course highly relevant for aspiring and practicing Antenna Engineers. It provides hands-on experience in using industry-standard software and helps build a strong foundation in antenna theory and design principles.
Computational Electromagnetics Engineer
Computational Electromagnetics Engineers use numerical methods and computer simulations to solve complex electromagnetic problems. Ansys HFSS is a widely used software in computational electromagnetics for simulating and analyzing electromagnetic fields and waves. This course provides a strong foundation in computational electromagnetics principles and practical experience in using industry-standard software, making it highly valuable for Computational Electromagnetics Engineers.
Electromagnetics Researcher
Electromagnetics Researchers conduct research in various areas related to electromagnetics, including antenna design, microwave engineering, and computational electromagnetics. Ansys HFSS is a widely used software in electromagnetics research for simulating and analyzing electromagnetic phenomena. This course provides a strong foundation in electromagnetics principles and hands-on experience in using industry-standard software, making it highly valuable for Electromagnetics Researchers.
Electromagnetic Compatibility (EMC) Engineer
Electromagnetic Compatibility Engineers design, test, and modify electrical and electronic systems to ensure they meet safety and regulatory standards for electromagnetic emissions. The course's coverage of Ansys HFSS, a full-wave 3D electromagnetic simulation software, provides a strong foundation for understanding the principles of electromagnetic compatibility and developing effective mitigation strategies.
Electromagnetic Field Analyst
Electromagnetic Field Analysts study and analyze electromagnetic fields and their effects on humans and electronic systems. Ansys HFSS is a valuable tool for simulating and visualizing electromagnetic fields, making this course highly relevant for Electromagnetic Field Analysts. It provides hands-on experience in using industry-standard software and helps build a strong foundation in understanding and mitigating electromagnetic field exposure.
Product Development Engineer
Product Development Engineers design, develop, and test new products. Ansys HFSS is a valuable tool for simulating and analyzing the electromagnetic performance of products, including smartphones, laptops, and wearable devices. This course provides a strong foundation in product development principles and practical experience in using industry-standard software, making it highly valuable for Product Development Engineers.
Quality Control Engineer
Quality Control Engineers ensure that products meet safety and quality standards. Ansys HFSS is used in the quality control process to verify the electromagnetic performance of products and identify potential defects. This course provides a strong foundation in quality control principles and practical experience in using industry-standard software, making it highly valuable for Quality Control Engineers.
Electronics Design Engineer
Electronics Design Engineers design, develop, and test electronic circuits and systems. Ansys HFSS is a valuable tool for simulating and analyzing the electromagnetic performance of electronic designs, including printed circuit boards (PCBs) and integrated circuits (ICs). This course provides a strong foundation in electronics design principles and practical experience in using industry-standard software, making it highly valuable for Electronics Design Engineers.
High-Frequency Trader
High-Frequency Traders use sophisticated algorithms and technology to trade financial instruments at high speeds. Ansys HFSS is used in the design and optimization of high-frequency trading systems, including the development of low-latency algorithms and trading strategies. This course provides a strong foundation in the fundamentals of Ansys HFSS and its application in high-frequency trading.
Technology Consultant
Technology Consultants provide consulting services to businesses on technology-related issues. Ansys HFSS is a valuable tool for solving complex electromagnetic problems in various industries. This course provides a strong foundation in the fundamentals of Ansys HFSS and its application in various industries, making it highly valuable for Technology Consultants who specialize in electromagnetic simulation and analysis.
Technical Sales Engineer
Technical Sales Engineers sell and support technical products and services. Ansys HFSS is a highly specialized software used in the design and analysis of electromagnetic systems. This course provides a strong foundation in the fundamentals of Ansys HFSS and its application in various industries, making it highly valuable for Technical Sales Engineers who specialize in electromagnetic simulation and analysis.
University Professor
University Professors teach and conduct research in higher education. Ansys HFSS is used in academia for teaching and research in electromagnetics, antenna design, and microwave engineering. This course provides a strong foundation in the fundamentals of Ansys HFSS and its application in academia, making it highly valuable for University Professors who specialize in electromagnetic simulation and analysis.
Technical Writer
Technical Writers create technical documentation, such as user manuals, white papers, and training materials. Ansys HFSS is a complex software that requires extensive documentation. This course provides a strong foundation in the fundamentals of Ansys HFSS and technical writing principles, making it highly valuable for Technical Writers who specialize in electromagnetic simulation and analysis.

Reading list

We've selected eight books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Introduction to Ansys HFSS.
This classic textbook covers the fundamentals of microwave engineering, essential for understanding the concepts used in HFSS simulations. It provides a solid theoretical background and practical examples.
This classic textbook provides a comprehensive treatment of electromagnetic theory, including Maxwell's equations and their applications. It valuable reference for understanding the theoretical foundations of HFSS simulations.
This widely used textbook provides a comprehensive coverage of antennas and wave propagation, introducing the basic concepts and equations used in HFSS simulations.
Provides a comprehensive overview of the finite-difference time-domain (FDTD) method used in electromagnetic simulations. It offers a good foundation for understanding the theoretical and numerical aspects of HFSS.
This textbook provides a solid foundation in electromagnetic fields and waves, essential for understanding the principles behind HFSS simulations. It covers both static and time-varying fields.
This handbook provides a comprehensive overview of antenna engineering. It includes chapters on antenna design, analysis, and applications, complementing the concepts covered in HFSS simulations.
Covers computational electromagnetics, including numerical methods used in HFSS. It provides a detailed overview of the finite element method and its applications in electromagnetics.
Covers numerical methods used in electromagnetics, including the finite element method (FEM) and boundary element method (BEM). It helps readers understand the numerical techniques used in HFSS.

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