Advanced Circuit Analysis from Udemy

Advanced Circuit Analysis will help you to analyze any given circuit with ease. Rather than the techniques in AC Analysis, Advanced Analysis is applicable to any circuit you have.

The only necessity we have is to cover some mathematical concepts that will help us to solve any circuit. In our course, we are not only giving the circuit information but also spend a fair amount of time on the mathematical concepts.

The syllabus can be found below ;

1-) Introduction to Laplace Transformation

- Intro

- The Definition of Laplace Transform

- Properties of Laplace Transform

- The Inverse Laplace Transform

- The Convolution Integral

2-) Applications of the Laplace Transform

- Intro

- Circuit Elements

- Circuit Analysis

- Transfer Function

- State Variables

3-) The Fourier Series

- Intro

- Trigonometric Fourier Series

- Symmetry Considerations

- Circuit Applications

- Average Value and RMS Values

- Exponential Fourier Series

4-) Fourier Transform

- Intro

- Definition of Fourier Transform

- Properties of the Fourier Transform

- Circuit Applications

- Parseval's Theorem

- Comparison between Laplace and Fourier Transform

5-) Two Port Networks

- Intro

- Impedance Parameters

- Admittance Parameters

- Hybrid Parameters

- Transmission Parameters

- Relationship between Parameters

- Interconnection of Networks

All the above topics will be covered with the tiniest detail during the course.

Feel free to ask anything you have in your mind to our instructors, you can reach out to us any time you want via the available channels.

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Circuit designers will benefit from the focus on advanced circuit analysis and its applicable methods

Additionally, math enthusiasts will expand their knowledge of Laplace Transforms and Fourier Series

This course deepens students' understanding by teaching them to analyze any circuit using techniques applicable to all circuits

For students seeking foundational knowledge in Electrical Engineering, this course establishes a strong basis

Students with an intermediate foundation in Electrical Engineering can enhance their skills in this course

Reviews summary

Advanced circuit analysis course

Learners say Advanced Circuit Analysis is a well-received course that offers engaging lectures and in-depth explanations. Students appreciate the knowledgeable instructor who makes complex concepts easy to understand. The course is praised for its abundance of examples, which are especially helpful for beginners. Additionally, learners value the clear structure and well-organized content, which make the learning process effective and enjoyable.

Learners appreciate the instructor's deep knowledge of the subject matter and their ability to make complex concepts easy to understand.

"knowledgeable and easy to understand"

"The teacher is great."

"Sal's background as a teacher really shows in the way she structures her courses and in the way she produces the content."

"Mark's expertise shines through in the comprehensive content"

Learners find the instructor's lectures engaging and motivating, which makes the learning process more enjoyable.

"It’s very engaging so far"

"Very clearly explained"

"Easy to listen to and engaging"

"amazing I've learnt so much so far"

"The information is great and so easy to understand."

The instructor's clear explanations and abundance of examples make the course easy to understand, especially for beginners.

"good easy to understand"

"Very clearly explained"

"Easy to listen to and engaging"

"easy to understand and lots of examples"

"Easy to understand for beginners."

Some learners have raised concerns about outdated content and discrepancies between the resources and the video codes.

"I would be nice to add a chapter about LangFlow, its an awesome tool."

"Contents were good. However, there are some outdated codes which do not functional anymore."

A few learners have expressed difficulty following the explanations, particularly in certain sections of the course.

"Due to my complexity and errors in section 4, I thought I would take on the theoretical parts in section 9, then section 8, and then back and repeat section 4."

"Section 8 is mediocre at best. It is as if we are reading the documentation at 100 miles per hour."

"Very confusing. Always referring to the theory sections to understand the tools better is not ideal."

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 Advanced Circuit Analysis with these activities:

Review of basic circuit analysis

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Refresh your knowledge of basic circuit analysis to strengthen your foundation for the course.

Browse courses on Circuit Analysis

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Review notes, textbooks, or online resources on basic circuit analysis concepts.
Solve practice problems to test your understanding.
Attend a refresher workshop or tutorial if necessary.

Study group discussions

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Engage in group discussions to exchange knowledge, clarify concepts, and support each other's learning.

Browse courses on Laplace Transform

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Form a study group with classmates.
Meet regularly to discuss course material, solve problems, and share insights.
Take turns leading discussions and presenting solutions.

Timed quizzes

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Take timed quizzes to assess your understanding and identify areas for improvement.

Browse courses on Laplace Transform

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Set a timer and work through a series of quiz questions.
Review your answers and identify areas where you need further practice.

Four other activities

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Online tutorials on circuit analysis

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Explore online tutorials to enhance your understanding of specific topics and reinforce your learning.

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Search for online tutorials on specific concepts or techniques.
Follow the tutorials step-by-step and take notes.
Practice applying the concepts learned through the tutorials.

Advanced Engineering Mathematics

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Review the textbook to supplement your understanding of the mathematical concepts covered in the course.

View Advanced Engineering Mathematics on Amazon

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Identify relevant chapters and sections in the textbook.
Read and take notes on the material.
Solve practice problems to reinforce your understanding.

Interactive simulations

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Create interactive simulations that demonstrate the concepts of Laplace transform, Fourier series, and Fourier transform to enhance your understanding and make learning more engaging.

Browse courses on Laplace Transform

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Identify key concepts and phenomena you want to demonstrate.
Design interactive simulations using appropriate software tools.
Test and refine the simulations to ensure they are accurate and user-friendly.

Attend industry conferences

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Participate in industry conferences to network with professionals in the field, learn about recent advancements, and explore potential career opportunities.

Browse courses on Circuit Analysis

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Research and identify relevant industry conferences.
Register and attend the conferences.
Network with professionals, attend presentations, and participate in discussions.

Career center

Learners who complete Advanced Circuit Analysis will develop knowledge and skills that may be useful to these careers:

Electrical Engineer

As an Electrical Engineer, you will work towards the production, distribution, and control of electricity. This role will require you to design, develop, and test electrical systems and components. Throughout your career, you will also be involved in the supervision and implementation of these systems. With the knowledge you gain from Advanced Circuit Analysis, you will be able to analyze circuits with ease, which is a fundamental skill for this role. This course will help you to build a foundation in advanced circuit analysis, which will assist you in successfully designing and implementing electrical systems.

See salaries and explore the career path for Electrical Engineer

Electronics Engineer

In your work as an Electronics Engineer, you will be applying theory and principles of electricity, electronics, and electromagnetism. You will be working to design, develop, and test electronic equipment and systems. Advanced Circuit Analysis will teach you critical concepts relating to this field, including Laplace Transform, Fourier Transform, and more. After taking this course, you will be more prepared to succeed in this Electronics Engineering role.

See salaries and explore the career path for Electronics Engineer

Computer Hardware Engineer

A Computer Hardware Engineer designs, develops, tests, and evaluates computer hardware. As someone in this career, you may also work on the integration of computer hardware with software. Advanced Circuit Analysis will teach you key concepts in circuit analysis, which is a fundamental component of computer hardware engineering. Concepts related to Laplace Transform and Fourier Transform will also be covered in the course, which you may encounter later in your career.

See salaries and explore the career path for Computer Hardware Engineer

RF Engineer

As an RF Engineer, you will focus on the design, development, and testing of radio frequency (RF) and microwave circuits, components, and systems. To be successful in this career, you may work in telecommunications, aerospace, or defense industries, among others. Having a more comprehensive background in circuit analysis will be helpful. Advanced Circuit Analysis will help you develop the necessary skills to succeed and is particularly relevant to your career as it covers Fourier Transform, Laplace Transform, and other essential topics.

See salaries and explore the career path for RF Engineer

Power Systems Engineer

Power Systems Engineers design, analyze, and maintain electrical power systems. They may also work on the development of new technologies for power generation, transmission, and distribution. As you work, you will likely need to analyze circuits to ensure the system is operating efficiently and effectively. Taking Advanced Circuit Analysis will support your career by teaching you about Laplace Transform, Fourier Transform, and other relevant topics.

See salaries and explore the career path for Power Systems Engineer

Telecommunications Engineer

Telecommunications Engineers play a crucial role in designing, installing, and maintaining telecommunications networks. These engineers ensure efficient and reliable communication across various channels. Advanced Circuit Analysis may be helpful for you in this career, especially if you work in designing and maintaining the underlying infrastructure that supports telecommunications networks. The course will teach you about Laplace Transform, Fourier Transform, and more.

See salaries and explore the career path for Telecommunications Engineer

Controls Engineer

As a Controls Engineer, you will be applying your skills in designing and implementing control systems for various industries, such as manufacturing, aerospace, and robotics. Advanced Circuit Analysis can supplement this career as it covers topics such as Laplace Transform, Fourier Transform, and more, which may be helpful as you analyze and design control systems.

See salaries and explore the career path for Controls Engineer

Robotics Engineer

Robotics Engineers design, build, and maintain robots. They may specialize in areas such as mechanical engineering, electrical engineering, or computer science. Having a background in circuit analysis may be helpful for Robotics Engineers, depending on the specific area of robotics you are involved in. Advanced Circuit Analysis will help you build the necessary knowledge and skills for this career, particularly in the areas of Laplace Transform and Fourier Transform.

See salaries and explore the career path for Robotics Engineer

Biomedical Engineer

As a Biomedical Engineer, your focus will be on the application of engineering principles and design concepts to medicine and healthcare. You will work towards developing a wide range of solutions, such as medical devices, diagnostic equipment, and prosthetics. As a practicing Biomedical Engineer, you may find Advanced Circuit Analysis useful as it covers topics such as Laplace Transform, Fourier Transform, and more. Having a strong foundation in circuit analysis is beneficial in this field.

See salaries and explore the career path for Biomedical Engineer

Aerospace Engineer

Aerospace Engineers are responsible for the research, design, development, testing, and maintenance of aircraft, spacecraft, and related systems. Depending on your specialization, it may be helpful to have a background in circuit analysis. Advanced Circuit Analysis will teach the fundamentals of circuit analysis, which can be applied to the design of electrical and electronic systems used in aerospace applications.

See salaries and explore the career path for Aerospace Engineer

Mechatronics Engineer

Mechatronics Engineers blend the fields of mechanical, electrical, and computer engineering to design, build, and maintain automated systems. Having a background in circuit analysis will be beneficial in understanding and working with the electrical and electronic components of these systems. Advanced Circuit Analysis will teach key concepts and techniques in circuit analysis, giving you a strong foundation for a career in mechatronics.

See salaries and explore the career path for Mechatronics Engineer

Quality Assurance Engineer

Quality Assurance Engineers play a crucial role in ensuring the quality of products and services. They may work in a variety of industries, such as manufacturing, healthcare, or software development. While circuit analysis may not be a direct requirement, having a background in it may provide an advantage in understanding and evaluating technical systems and processes. Advanced Circuit Analysis can teach relevant concepts and techniques.

See salaries and explore the career path for Quality Assurance Engineer

Technical Writer

Technical Writers specialize in creating user manuals, technical reports, and other documentation for technical products or services. It is not a direct requirement to have circuit analysis knowledge, but having a background in it could be an asset in understanding and effectively conveying complex technical information to various audiences. Advanced Circuit Analysis can provide valuable insights for writing technical documentation in certain industries.

See salaries and explore the career path for Technical Writer

Science Teacher

Science Teachers plan and lead science instruction for students at various levels. This course may supplement a career as a Science Teacher. Advanced Circuit Analysis can provide valuable insights and knowledge in the field of electricity and electronics, which can enhance your teaching and make complex scientific concepts more accessible to students.

See salaries and explore the career path for Science Teacher

Patent Attorney

Patent Attorneys specialize in preparing, filing, and prosecuting patent applications. While circuit analysis is typically not a requirement, it may provide an edge in understanding and analyzing technical inventions related to electrical engineering and electronics. Advanced Circuit Analysis can offer valuable knowledge for comprehending and evaluating patent claims.

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Advanced Circuit Analysis

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