Microstrip Patch Antenna Design using Keysight PathWave ADS from Udemy

What's inside

Learning objectives

Microstrip patch antenna design using keysight ads
Design and analysis of microstrip patch antenna using rogers5880 with keysight ads
Characteristics of microstrip patch antenna, advantages

Different feed technique
Optimization and result analysis of msa

Microstrip patch antenna design using keysight ads
Design and analysis of microstrip patch antenna using rogers5880 with keysight ads
Characteristics of microstrip patch antenna, advantages
Different feed technique
Optimization and result analysis of msa

Syllabus

Microstrip Patch Antenna

Microstrip patch antenna introduction

Before We Start

Characteristics of Microstrip Patch Antenna, Advantages

Applications of MSA

Different Feed Technique

Design steps of Microstrip Patch Antenna

Microstrip Patch Antenna Design using FR4 Substrate at 3.5GHz

Optimization and Result Analysis of MSA

Gain, Directivity, Efficiency and Power radiated plot

Optimization of the Microstrip Patch Antenna

Optimization of feed length and width

Feed optimization continued

Feed optimization simulation results

Design of Microstrip Patch Antenna with 3.2mm thick FR4 substrate

Result Analysis

Result Analysis Continued...

Microstrip Patch Antenna Optimization

Design of Microstrip Patch Antenna with 4.8mm thick FR4 substrate

Simulations result analysis

Comparative analysis of microstrip patch antenna different substrate thickness

Design and Analysis of Microstrip Patch Antenna using Rogers5880

Design of microstrip patch antenna

How Rogeers5880 affects the performance of microstrip patch antenna

Effect of permittivity on gain of the MSA

Design of Microstrip Patch Antenna at 3.5 GHz with 3.2mm thick Rogers substrate

Far field cut of the MSA antenna

Design of Microstrip Patch Antenna at 3.5 GHz with 4.8mm thick Rogers substrate

Comparison of the antenna performance with different substrate thickness

Result Analysis of Rogers5880 and FR4 Substrate with different thickness

Frequency range for Rogers5880 and FR4 Substrate and which one is better

Design and Analysis of Microstrip Patch Antenna using Rogers6002 Substrate

Design of Microstrip Patch Antenna using Rogers6002 on 1.6mm thick substrate

Design of Microstrip Patch Antenna using Rogers6002 on 3.2mm thick substrate

Design of Microstrip Patch Antenna using Rogers6002 on 4.8mm thick substrate

Design and Analysis of Microstrip Patch Antenna using Polystyrene Substrate

Design of Microstrip Patch Antenna using Polystyrene on 1.6mm thick substrate

Design of Microstrip Patch Antenna on 1.6mm thick substrate Result analysis

Design of Microstrip Patch Antenna using Polystyrene on 3.2mm thick substrate

Design of Microstrip Patch Antenna using Polystyrene on 4.8mm thick substrate

Design and Analysis of Microstrip Patch Antenna using Ceramic Substrate

Design of Microstrip Patch Antenna using Ceramic on 1.6mm thick substrate

Design of Microstrip Patch Antenna using Ceramic on 3.2mm thick substrate

Design of Microstrip Patch Antenna using Ceramic on 4.8mm thick substrate

Comparative analysis of microstrip patch antenna substrate (Ceramic)

Design of microstrip patch antenna using inset feed FR4 Substrate

inset feed microstrip patch antenna using FR4 substrate with 1.6mm

inset feed microstrip patch antenna using FR4 substrate with 1.6mm in ADS

inset feed microstrip patch antenna using FR4 substrate with 3.2mm

inset feed microstrip patch antenna using FR4 substrate with 4.8mm

Comparison Inset Feed Microstrip Patch Antenna-1.6mm, 3.2mm, 4.8mm FR4 Substrate

Design and Analysis of Inset Feed Microstrip Patch Antenna using Rogers6002 Substrate

Inset Feed Microstrip Patch Antenna using Rogers6002 on 1.6mm thick substrate

Result Analysis continued...

inset feed microstrip patch antenna using Rogers6002 substrate with 3.2mm

inset feed microstrip patch antenna using Rogers6002 substrate with 4.8mm

comparison Inset Feed Microstrip Patch Antenna-1.6mm, 3.2mm, 4.8mm Rogers6002

Design and Analysis of Inset Feed Microstrip Patch Antenna using Rogers5880 Substrate 1.6mm thickness

inset feed microstrip patch antenna using Rogers5880 substrate with 1.6mm

Design and Analysis of Inset Feed Microstrip Patch Antenna using Rogers5880 Substrate 3.2mm thickness

inset feed microstrip patch antenna using Rogers5880 substrate with 3.2mm

Design and Analysis of Inset Feed Microstrip Patch Antenna using Rogers5880 Substrate 4.8mm thickness

inset feed microstrip patch antenna using Rogers5880 substrate with 4.8mm part1

inset feed microstrip patch antenna using Rogers5880 substrate with 4.8mm part2

Comparison of Inset Feed Microstrip Patch Antenna with 1.6, 3.2, 4.8mm Roger5880

Design and Analysis of Inset Feed Microstrip Patch Antenna using Polystyrene Substrate 1.6mm thickness

inset feed microstrip patch antenna using Polystyrene substrate with 1.6mm

inset feed microstrip patch antenna using Polystyrene substrate with 3.2mm

inset feed microstrip patch antenna using Polystyrene substrate with 4.8mm

Polystyrene Substrate InsetFeedMicrostripPatch Antenna 1.6,3.2,4.8mm Comparison

Design and Analysis of Inset Feed Microstrip Patch Antenna using Ceramic Substrate 1.6mm thickness

Design of inset feed microstrip patch antenna using Ceramic substrate with 1.6mm

Design of inset feed microstrip patch antenna using Ceramic substrate with 3.2mm

Design of inset feed microstrip patch antenna using Ceramic substrate with 4.8mm

Ceramic Substrate InsetFeedMicrostripPatchAntenna 1.6,3.2,4.8mm Comparison

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Develops skills in antenna design, which are core for jobs in the telecommunications and defense sectors

Taught by Rahsoft's experienced instructor, Akhilesh Verma, recognized in the industry for his work in antenna design

Emphasizes practical applications of antenna design, using industry-leading PathWave Advanced Design System (ADS) software

Provides a deep dive into antenna design and analysis, and is ideal for advanced learners or professionals seeking to expand their knowledge

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 Microstrip Patch Antenna Design using Keysight PathWave ADS with these activities:

Practice Antenna Design Problems

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Antenna design requires practice. Working on these problems will help you develop the skills necessary to design effective antennas.

Browse courses on Antenna Design

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Review the formulas and concepts required for the problems
Design and simulate a microstrip patch antenna for operation at 3.5GHz using Keysight ADS
Design and simulate a microstrip patch antenna for operation at 5.8GHz using Keysight ADS
Design and Simulate a microstrip patch antenna for operation at 10GHz using Keysight ADS

Join a Study Group for Antenna Engineering

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Collaboration and the exchange of ideas will help reinforce your understanding and identify areas where you need further improvement.

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Find classmates or online communities who are also taking antenna engineering courses
Organize regular study sessions to discuss concepts and work on problems together
Share notes and resources with your study group members

Show all two activities

Career center

Learners who complete Microstrip Patch Antenna Design using Keysight PathWave ADS will develop knowledge and skills that may be useful to these careers:

Antenna Designer

Antenna Designers collaborate with teams to design antennas for products in industries such as aerospace, telecommunications, and consumer applications. They use electromagnetic simulation software such as PathWave ADS to model and analyze antenna performance, and contribute to the development of highly optimized, efficient, and reliable antennas. This course can provide a solid foundation in the fundamentals of microstrip patch antenna design with Keysight ADS, helping you build the skills necessary to succeed as an Antenna Designer.

See salaries and explore the career path for Antenna Designer

Antenna Engineer

Antenna Engineers combine knowledge of antenna theory, propagation characteristics, and software tools such as PathWave ADS to design, analyze, and test antennas for devices like smartphones, radar systems, and satellite communications. This course offers valuable insights into the design and analysis of microstrip patch antennas using ADS, providing a solid platform for success in the field of Antenna Engineering.

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RF Engineer

RF Engineers design, develop, and test electronic systems operating at radio frequencies. They play a crucial role in industries such as telecommunications, wireless networking, and radar systems. This course offers a comprehensive overview of microstrip patch antenna design using PathWave ADS, providing a strong foundation for RF Engineers who need to incorporate antennas into their designs.

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Antenna Systems Engineer

Antenna Systems Engineers integrate antenna designs with larger systems, ensuring optimal performance and compatibility. With a focus on systems-level design, they work closely with engineers from various disciplines to develop antenna systems that meet the specific requirements of applications in fields such as wireless communications and aerospace. This course provides a strong foundation in the design and optimization of microstrip patch antennas for various substrates, giving you an advantage in understanding antenna performance in different systems.

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Microwave Engineer

Microwave Engineers specialize in the design, analysis, and testing of microwave circuits and components. They work on applications such as radar systems, satellite communications, and microwave imaging. This course provides valuable insights into the principles and techniques of microstrip patch antenna design, equipping Microwave Engineers with the knowledge to design and optimize antennas for microwave applications.

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Hardware Engineer

Hardware Engineers design, develop, and test hardware components and systems for various industries. They work on a wide range of products, including consumer electronics, medical devices, and industrial machinery. This course offers a comprehensive overview of microstrip patch antenna design using PathWave ADS, providing Hardware Engineers with a solid foundation for incorporating antennas into their hardware designs.

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Product Development Engineer

Product Development Engineers lead the development of new products from concept to production. They work in various industries, including consumer electronics, medical devices, and industrial machinery. This course offers a comprehensive overview of microstrip patch antenna design using PathWave ADS, providing Product Development Engineers with a foundation for incorporating antennas into their product designs.

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Electromagnetic Compatibility Engineer

Electromagnetic Compatibility (EMC) Engineers ensure that electronic devices and systems meet regulatory standards for electromagnetic emissions and susceptibility. They work in industries such as telecommunications, consumer electronics, and automotive. This course provides insights into the design and optimization of microstrip patch antennas, helping EMC Engineers to analyze and mitigate electromagnetic interference in their designs.

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Researcher

Researchers in academia and industry explore new concepts and technologies related to microstrip patch antennas and other antenna systems. They develop novel designs, analyze performance, and contribute to the advancement of antenna theory. This course provides a solid foundation in the fundamentals of microstrip patch antenna design using PathWave ADS, enabling Researchers to conduct cutting-edge research in the field.

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Technical Writer

Technical Writers create documentation, such as user manuals, technical reports, and white papers, to explain complex technical concepts to a wide audience. They work in various industries, including electronics, software, and engineering. This course provides a solid foundation in the fundamentals of microstrip patch antenna design using PathWave ADS, enabling Technical Writers to create clear and accurate documentation for antenna-related products and technologies.

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Consultant

Consultants provide expertise in antenna design and related fields to clients in various industries. They work on projects ranging from designing antennas for wireless networks to analyzing electromagnetic interference in electronic systems. This course offers a comprehensive overview of microstrip patch antenna design using PathWave ADS, providing Consultants with the knowledge to advise clients on antenna design and optimization.

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Sales Engineer

Sales Engineers provide technical expertise to customers in the sale and support of products and services. They work closely with customers to understand their needs and recommend solutions that meet those needs. This course offers a comprehensive overview of microstrip patch antenna design using PathWave ADS, providing Sales Engineers with the knowledge to effectively communicate the benefits and applications of antenna technologies to customers.

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Marketing Manager

Marketing Managers develop and execute marketing plans to promote products and services. They work closely with sales teams to generate leads and close deals. This course provides a solid foundation in the fundamentals of microstrip patch antenna design using PathWave ADS, enabling Marketing Managers to understand the technical aspects of antenna technologies and effectively communicate their benefits to customers.

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Project Manager

Project Managers plan, execute, and track projects to ensure their successful completion. They work with teams of engineers, designers, and other professionals to deliver projects on time, within budget, and to the required quality standards. This course may provide useful insights into the technical aspects of antenna design, enabling Project Managers to better understand and manage antenna-related projects.

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Educator

Educators teach courses in engineering, science, and other disciplines at universities, colleges, and technical schools. They develop curriculum, deliver lectures, and assess student learning. This course may provide useful insights into the fundamentals of microstrip patch antenna design, enabling Educators to incorporate relevant content into their courses and provide students with a better understanding of antenna theory and applications.

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