RFIC Design Software Advanced Design System (ADS)RAHRF209L from Udemy

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Become an ADS expert and start your path on becoming an RFIC expert by taking the Advanced Design System online course. In the ADS online course, within four weeks by downloading the free one month ads software and using the examples and pdks provided in this course you would be able to practice practical RFIC simulations and master skills needed for becoming and RF Design Engineer. Using this ADS tutorial you will become an expert and be able to start analyzing designs. Although

Course Restriction

Unfortunately due to software licensing policies and the contract with Keysight, for ADS specific courses students from specific countries are not allowed to take this course.

Curriculum For This Course

Getting Started With ADS4.1.1.1. How to start new workspace in ADS Environment.4.1.1.2. How to add course file to your workspace.4.1.1.3. Process design Kit (PDK) of CMOS 180nm2.1.1. Simulations using ADS : DC Simulations4.2.1.2. Simulations using ADS : Transistor DC simulation4.2.2.2. Simulations using ADS:AC Simulation Of RLC circuit4.2.2.3. Simulations using ADS :AC Simulation of Transistor4.2.2.4. Simulations using ADS :Transistor fT using AC simulation4.2.3.1. Simulation using ADS :Transient simulation4.2.3.2. Simulations using ADS :Transient Simulation for given Transistor4.2.4.1.Simulations using ADS :S-Parameter Simulation4.2.4.2.Simulation using ADS : S-Parameter Simulation(Matched circuit)4.2.4.3.Simulation using ADS : S-Parameter Simulation and obtain Nfmin,Max-Gain and Stability for an amplifier.4.2.4.4. Simulations using ADS: Real Inductor4.2.5.1.Simulations using ADS :How to make symbol?4.2.5.2. Simulations using ADS : S-Parameter for Amplifier4.2.6.1. Simulations using ADS : Harmonic Balance Simulation4.2.6.2. Simulations using ADS : Harmonic Balance Simulation maximum power4.2.6.3. Simulations using ADS : Harmonic Balance Simulation by introducing Power source4.2.6.4.Simulations using ADS : Harmonic Balance Simulation by introducing Power with Matching circuit4.2.7.1.Simulations using ADS :LNA simulation -S-parameter and power4.2.7.2.Simulations using ADS :LNA simulation and XDB simulation3.1.2. Matching using ADS: Impedance Matching of Wideband4.3.1.3. Impedance Matching using ADS :Smith Chart tool4.1.1. ADS Optimizer:Simple optimization for DC simulation

What's inside

Learning objectives

After completion the student will have practical hand on knowledge on basics of ads
Will able to perform different matching characterization and optimizations

Will be able to do simulation and analyze a design

After completion the student will have practical hand on knowledge on basics of ads
Will able to perform different matching characterization and optimizations
Will be able to do simulation and analyze a design

Syllabus

Introduction

logo

Before we start

4.1.1.1. How to start new workspace in ADS Environment.

This PDK is only compatible with 1 month free ADS version which you have downloaded and installed from website.
If you install it on any random ADS version on your computer, it does not work.

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Read about what's good

what should give you pause

and possible dealbreakers

Provides hands-on experience with ADS, a widely used software in RFIC design, which is valuable for practical skill development

Covers essential simulations like DC, AC, S-parameter, and Harmonic Balance, which are fundamental for RF circuit analysis and design

Includes practical examples and PDKs, which allows learners to practice RFIC simulations and master skills needed for becoming an RF Design Engineer

Teaches impedance matching techniques using ADS and Smith charts, which are crucial for optimizing RF circuit performance

Requires using a specific, time-limited free version of ADS, which may limit long-term access to the software and project files

Restricts enrollment based on students' country of origin due to software licensing policies, which may exclude potential learners

Reviews summary

Rfic simulation using keysight ads basics

Based on inference from the course materials and typical technical software courses, learners might say this course provides practical hands-on experience using the Keysight Advanced Design System (ADS) software for fundamental RFIC simulations. It appears to cover a range of core simulation types like S-parameters, Harmonic Balance, and transient analysis, which are essential skills for aspiring RF design engineers. However, prospective students should be aware that setting up the required ADS software and process design kit (PDK) could present significant challenges, potentially impacting their learning experience. While the title suggests 'Advanced', the course objectives and syllabus indicate it likely serves as a solid introduction to ADS basics rather than delving into highly advanced topics.

Focuses on ADS basics, good intro.

"Despite the 'Advanced' title, the content appears to be an introduction to ADS."

"It looks like a solid starting point if you are new to using ADS for RFIC design."

"I would recommend this as a foundational course for using the ADS tool."

Covers fundamental ADS simulation types.

"The syllabus lists all the essential RF simulations I need exposure to."

"Getting hands-on with DC, AC, S-Parameter, and Harmonic Balance is valuable."

"I appreciate that it seems to cover impedance matching and optimization as well."

Hands-on practice with ADS software.

"I expect to get practical experience running simulations in ADS."

"The course seems focused on the actual steps needed for RFIC simulations."

"Learning the different simulation types in ADS is the key benefit I anticipate."

Potential issues with software installation.

"Setting up the specific 1-month free ADS version and the PDK sounds like it could be tricky."

"I'm concerned about potential compatibility problems getting the software environment ready."

"Technical difficulties with software installation can be a major roadblock in online courses like this."

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 RFIC Design Software Advanced Design System (ADS)RAHRF209L with these activities:

Review RF Fundamentals

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Solidify your understanding of RF fundamentals to better grasp the concepts covered in the ADS course.

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Review basic concepts like impedance, VSWR, and Smith charts.
Practice solving problems related to transmission lines and matching networks.

RF Microelectronics

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Supplement your learning with a comprehensive textbook on RF microelectronics to gain a deeper understanding of the underlying principles.

View Fundamentals of Microelectronics on Amazon

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Read the chapters related to amplifier design and matching networks.
Work through the example problems in the book to reinforce your understanding.

ADS Simulation Exercises

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Reinforce your ADS skills by working through a series of simulation exercises that cover different aspects of RFIC design.

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Simulate a simple amplifier circuit and analyze its performance.
Design and simulate a matching network for a given impedance.
Perform harmonic balance simulation to analyze the non-linear behavior of a circuit.

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Document Your Learning Journey

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Solidify your understanding and improve retention by documenting your learning process, challenges, and solutions encountered while using ADS.

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Create a blog or online journal to record your progress.
Summarize key concepts and techniques learned in each module.
Document any challenges you faced and how you overcame them.
Share your insights and findings with other students in the course forum.

The Design of CMOS Radio-Frequency Integrated Circuits

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Use this book as a reference to better understand CMOS RFIC design.

View Planar Microwave Engineering on Amazon

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Read the chapters related to LNA design and harmonic balance simulation.
Study the design examples provided in the book.

Explore Advanced ADS Features

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Deepen your knowledge of ADS by exploring advanced features and techniques through online tutorials and documentation.

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Learn about electromagnetic (EM) simulation in ADS.
Investigate the use of optimizers for circuit design.
Explore the ADS Momentum simulator for 3D planar EM analysis.

RFIC Amplifier Design Project

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Apply your ADS skills to design and simulate a complete RFIC amplifier, from schematic capture to layout and EM simulation.

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Define the specifications for the amplifier, such as gain, bandwidth, and noise figure.
Design the amplifier schematic using appropriate transistor models and passive components.
Simulate the amplifier using ADS to verify its performance.
Create the layout of the amplifier using a suitable process design kit (PDK).
Perform EM simulation of the layout to account for parasitic effects.

Career center

Learners who complete RFIC Design Software Advanced Design System (ADS)RAHRF209L will develop knowledge and skills that may be useful to these careers:

Radio Frequency Integrated Circuit Designer

A Radio Frequency Integrated Circuit Designer creates and develops radio frequency integrated circuits for wireless communication devices. This role involves designing circuits, running simulations, and analyzing performance, all of which this course directly addresses. The course focuses on the use of Advanced Design System software, providing a useful tool for a RFIC Designer to perform simulations involving DC, AC, transient, S-parameter, and harmonic balance. The hands-on training this course provides allows a pathway to a successful career in the field. The practical skills to analyze designs taught in this course are particularly relevant.

See salaries and explore the career path for Radio Frequency Integrated Circuit Designer

RF Engineer

A Radio Frequency Engineer works with radio waves to design and develop communication systems and circuits. This course provides useful hands-on experience with Advanced Design System software which is an essential tool for an RF Engineer. The course covers the use of ADS to simulate various circuit types, including those used in RF systems, using DC, AC, transient, S-parameter, and harmonic balance simulations. This course helps an engineer become familiar with performing design analysis, which is necessary for success in this field. The course is particularly helpful because of its focus on simulations and optimizations, essential skills for RF Engineers.

See salaries and explore the career path for RF Engineer

Microwave Engineer

A Microwave Engineer designs and develops devices and systems that operate in the microwave frequency range, often requiring knowledge of radio frequency circuit design. This course provides a foundation in crucial skills, focusing on Advanced Design System software and its use in simulating and optimizing circuits. The course provides practical experience performing DC, AC, transient, and S-parameter simulations, as well as simulations for impedance matching. A Microwave Engineer will find the knowledge of harmonic balance simulations, also taught here, to be quite useful. The practical skills in design analysis that this course provides helps a student be well prepared for this role.

See salaries and explore the career path for Microwave Engineer

Analog Circuit Designer

An Analog Circuit Designer is responsible for designing, simulating, and testing analog circuits which often involve radio frequency. This course directly applies to the role through its focus on Advanced Design System software, which is used to perform crucial circuit simulations. The course helps build a foundation in performing DC, AC, transient, and S-parameter simulations, all essential for an Analog Circuit Designer. The practical knowledge of analyzing designs and performing optimizations that this course provides helps engineers prepare for this specialized field. The training in using the Smith Chart tool will be of use in the design of impedance matching networks.

See salaries and explore the career path for Analog Circuit Designer

Circuit Design Engineer

A Circuit Design Engineer is involved in the design, development, and testing of circuits for various electronic devices, which can include RF and analog applications. This course directly provides essential skills by focusing on the use of Advanced Design System software, a key tool for a Circuit Design Engineer. The course teaches how to run DC, AC, transient, S-parameter, and harmonic balance simulations. The practical experience performing simulations that this course provides will help an engineer succeed in this role. The design analysis and optimization skills that this course teaches are particularly helpful.

See salaries and explore the career path for Circuit Design Engineer

Wireless Communication Engineer

A Wireless Communication Engineer designs and develops systems for wireless communication technologies, often working with RF circuits and systems. This course directly applies to their work due to its focus on Advanced Design System software, a crucial tool for simulation. The course covers fundamental skills in performing DC, AC, transient, S-parameter, and harmonic balance simulations, techniques that a Wireless Communication Engineer would often need. The course's practical approach to design analysis and optimization will help someone become successful in this role. The hands-on experience provided by this course is particularly helpful.

See salaries and explore the career path for Wireless Communication Engineer

Applications Engineer

An Applications Engineer provides technical support and develops solutions for customers using a company's products, which can include software and hardware tools. An Applications Engineer working with RF or microwave technology may find this course helpful. The course focuses on using Advanced Design System software to perform various circuit simulations and optimize results; all useful skills to support customers. The practical knowledge of performing DC, AC, transient, S-parameter, and harmonic balance simulations that this course provides will help a future Applications Engineer understand the product capabilities. The hands-on training is especially helpful.

See salaries and explore the career path for Applications Engineer

Hardware Engineer

A Hardware Engineer is responsible for the design, development, and testing of physical hardware components and systems. This course introduces skills that will be helpful to a Hardware Engineer who may work with RF circuits. The course teaches how to use Advanced Design System software to perform circuit simulations. The course covers the use of DC, AC, transient, S-parameter, and harmonic balance simulations. The skills taught here provide a practical introduction to design analysis, which is crucial for a Hardware Engineer. The course's focus on simulations and optimizations provides useful technical expertise.

See salaries and explore the career path for Hardware Engineer

Integrated Circuit Layout Designer

An Integrated Circuit Layout Designer creates the physical layout of integrated circuits based on schematics, which often includes careful consideration of RF performance. While this course does not focus on physical layer design, the underlying electrical and RF principles taught will help a designer in this field. This role may benefit from the skills gained in performing various circuit simulations including DC, AC, transient, S-parameter, and harmonic balance using Advanced Design System software. The design analysis that this course focuses on will be especially helpful to those looking to enter this field. This course's practical focus on simulations will provide useful background knowledge.

See salaries and explore the career path for Integrated Circuit Layout Designer

Electrical Engineer

An Electrical Engineer designs, develops, and tests electrical devices and systems across many applications. This course may be useful to an Electrical Engineer who focuses on radio frequency or analog design. The course provides an introduction to circuit simulation using Advanced Design System software, including performing DC, AC, transient, S-parameter, and harmonic balance simulations. An Electrical Engineer may gain an advantage in the field by understanding design analysis and optimization, which this course provides. The course also offers practical hands-on experience using software and the techniques used in industry.

See salaries and explore the career path for Electrical Engineer

Semiconductor Device Engineer

A Semiconductor Device Engineer is involved in the design, development, and fabrication of semiconductor devices. This course may be helpful to a semiconductor engineer focused on RF or analog applications. The course teaches how to use Advanced Design System software, including running DC, AC, transient, S-parameter, and harmonic balance simulations, all of which help with design, analysis and optimization. A Semiconductor Device Engineer may find this knowledge helpful to understand the performance of new devices in different applications. The practical experience running simulations directly applies to the work of those in this field.

See salaries and explore the career path for Semiconductor Device Engineer

Research Scientist

A Research Scientist conducts research in various fields of science and engineering, often involving advanced experimentation, design, and analysis. A Research Scientist working in the field of RF or microwave circuits may find this course useful. This course provides hands-on experience with Advanced Design System software which is used to perform DC, AC, transient, S-parameter, and harmonic balance simulations. The practical skills in design analysis that this course provides will help an aspiring Research Scientist become familiar with industry-standard simulation tools. Research often depends on such methods.

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Test Engineer

A Test Engineer develops plans and procedures for testing and evaluating electronic devices and systems. While this role does not directly involve design, this course may help a Test Engineer understand the function and performance of RF circuits. This course focuses on performing circuit simulations using Advanced Design System software, including DC, AC, transient, S-parameter, and harmonic balance simulations. The course introduces design analysis and optimization techniques may be relevant. This course, with a focus on analyzing designs, helps a future Test Engineer understand the fundamentals of circuit performance.

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Systems Engineer

A Systems Engineer works with complex systems, often requiring a broad understanding of various engineering disciplines. This course may be helpful to a Systems Engineer with a focus on communication systems. This role requires a general understanding of electrical, RF, and microwave systems, which this course may help provide. The course introduces practical skills in using Advanced Design System software, performing circuit simulations including DC, AC, transient, S-parameter, and harmonic balance simulations. This course may be helpful for a systems engineer who wishes to understand how to analyze designs.

See salaries and explore the career path for Systems Engineer

Product Marketing Manager

A Product Marketing Manager leads the marketing strategy and execution for a company's products. This role does not require hands-on engineering knowledge, but this course may be useful for a Product Marketing Manager in the RF or microelectronics industry. The course focuses on using Advanced Design System software to perform various circuit simulations. An understanding of the design analysis and optimization techniques taught in this course will be useful to assess product capabilities. The practical training this course provides helps gain deeper insights into product features and benefits.

See salaries and explore the career path for Product Marketing Manager

RFIC Design Software Advanced Design System (ADS)RAHRF209L

What's inside

Learning objectives

Syllabus

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Reviews summary

Rfic simulation using keysight ads basics

Activities

Career center

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