- Announcement
- Course Motivation
- What is Abstraction?
- A Road Map to become a Circuit Designer
- A Real Application: The Cell Phone
- What is Electric Charge?
- Definition of Electric Current?
- Definition of Voltage?
- Electric vs. Electronic Circuits
- Problem # 6
- Lumped Electric Circuits Elements
- Electric Sources - Voltage Source and Current Source
- Ohm's Law? Is it 100% correct!?
- Linear vs. Non-Linear Resistors
- From Physics to KVL
- Bonus: What is Next?
What you'll learn
- Circuits Designers IQ Questions to challenge you and push you to think out of the box!
- Real interview questions based on what I personally had from my experience.
- Electric Circuit Basics and Fundamentals.
- The reality of Ohm's law and where did it come from?
- How to accurately and rapidly solve electric circuits.
Description
Hello Everyone! Welcome to the free sample part "An Intro to Electric Circuits (EE101-Sample)". This is not a complete course. This is just a part of the main course "Electric Circuits I (EE101)". This part shows you how can you start the journey of becoming a circuits-designer. In this introductory course, we will talk about the main fundamentals of the Electric Circuits along with a variety of different applications. I will keep adding samples of the main course here for treating you for enrolling in this free course.
I am intending to build the whole track for you to start from the beginners level all the way up to the advanced IC design level. I will share my 8-years of experience in designing Analog-Mixed ICs to help you get the required knowledge to become an excellent IC Designer. This course and the upcoming series of courses will make you ace during your studies of circuits.
The description of the main course is the following:
This course takes you through the basics and fundamentals of electric circuits. It starts with introducing the field of electrical engineering and electric circuits. After that, we go through the main electrical quantities and how are they related to each other. When we clearly have this, we move to the circuit basic analysis techniques such as Ohm's law, Kirchhoff's Voltage Law (KVL) and Kirchhoff's Current Law (KCL). More concepts will build up from there.
The following list sums the contents of this course:
Introduction to Electrical Engineering and Electric Circuits.
Basic Analysis Techniques of Electric Circuits.
Advanced Analysis Techniques of Electric Circuits.
An Intro on how to read Schematics and Simulate Circuits in Pspice.
An Intro to AC Circuits.
The Course is still under developing and it will include the following points as well:
Advanced Analysis Techniques of Electric Circuits
- Nodal Analysis
- Mesh Analysis
- Thevenin's Theorem
- Norton's Theorem
- Concept of Linearity and Superposition
- Concept of Source Transformation
- How to Maximize the Power to a load - Concept of Max. Power Transfer
- Difference between Max. Power Transfer and Max. Voltage Transfer
How to read a Schematic and Simulate circuits in Pspice
- What is Schematic and how to read it?
- Other alternatives for a schematic
- Simulating Circuits using Pspice
An Intro to AC Circuits
- AC Sources
- AC-Circuit elements
- Phasors Meaning
Conclusion and what can be next?
Interview Questions: I will pack my courses with real interview questions based on what I personally had from my experience.
IC Design Track: The course is part of the IC Design Track that I am working on. This track aims at covering all circuits basics, analog-IC design basics, digital-IC design basics.
Circuit-Designers IQ Questions: This course contains some of these questions. This type of questions is challenging and you will be intrigued by it to think out of the box!.
Style of the course: We start by going over the theory or theoretical analysis. After building a concrete understanding, we move to the examples and real applications part. For examples, we have examples for each concept.
Simulations: Pspice simulations are included in this course. I believe practising on Pspice, circuit simulations and design using computer tools is a must from the early stage of learning how to build circuits.
Exciting Real applications and Life-Hacks!: We are dealing with electric and electronic circuits every day or even every hour. In this course, I will share some really good life-hacks and analyze some everyday applications.
One-On-One Assistance: You can ask all your questions in the Q&A section at any time, I usually answer within two days.
I will keep this course at the elementary level to make it to the beginners level or people who want to review the basics again. For IC design, It is super important to have very-good established fundamentals of Electric-Circuits.
That is it, see you in the Q&A area!
Mostafa
About the instructors
- 4.55 Calificación
- 5823 Estudiantes
- 1 Cursos
Mostafa Ayesh, M.Sc.
PhD Student, Analog Mixed IC Designer and a Former Lecturer
Thanks to all the students, my online courses start getting 1950+ students in my first week on Udemy!
Fall '19: Teaching Assistant of EE536A: Analog IC Design Course, USC.
Summer '18: Joined Skyworks inc. as an Analog-Mixed IC Design Intern.
Fall '17 - Present: Joined USC as a fellow PhD student and a research assistant.
Spring '17: Earned my M.Sc. degree in Electronics and Electrical Communications Engineering from Ain Shams University, Egypt. Finished my thesis "A Low-Power High-Speed ADC-Based Equalizer for Serial Links".
Fall '15 - Spring '17: Joined Silicon Vision, Synopsys Inc. as an analog-mixed IC design engineer.
Fall '13 - Fall '15: Started working as a research assistant in Integrated Circuits Lab (ICL), Ain Shams University.
Fall '13 - Spring '17: Worked as a full-time lecturer at Faculty of Engineering, Alexandria University, Egypt. During this time, I taught different classes to 2200+ on-campus students.
Spring '13: Earned my B.Sc. degree in Electronics and Electrical Communications Engineering from Alexandria University, Egypt. I got the first rank among the 380-student class. Graduation project was "High‐Speed Serial Link Transceiver for 10Gbase‐KR Standard Using a 65‐nm CMOS Process".
Some of the University-courses I taught before are:
Solid State Physics, Microprocessor I, Microprocessor II, Semiconductor Devices, Circuits II, Logic and Digital Design, Electronics I, Electronics II, Analog IC Design and Digital IC Design. For the labs, I was responsible for: Microprocessor LAB - Solid State Physics LAB - Digital IC Design LAB - Electronics II LAB - Digital Logic Design LAB.
My research interests include Low-Power Analog-Mixed IC Design especially ADCs and DACs, High-Speed Serial Links, Power Management ICs and Data analysis and statistics.
Honors and Awards
- Recipient of CICC 2019 Student Travel Grant Award.
- Awarded the Annenberg Fellowship, August 2017.
- Nominated for the 2017 best MSc. thesis in Faculty of Engineering, Ain Shams University.
- A recipient of a full scholarship throughout M.Sc. studies. (2013-2016)
- The third-place award in the M.Sc. Forum of the 2015 IEEE International Conference on Electronics, Circuits, and Systems (ICECS 2015) for my Master’s work: “A Low-Power High-Speed Charge-Steering ADC-Based Equalizer for Serial Links”
- The distinction with an honors degree, B.Sc. EECE (2013)
- The First rank over a 335-successful-student class, Electronics, and electrical communications branch, Electrical engineering department, Faculty of Engineering, Alexandria University, Egypt. (2013)
- A recipient of Alexandria University annual academic distinction award. (2009-2013)
- Third Rank among a 3500-student class in the first year, Faculty of Engineering, Alexandria University, Egypt. (2008)
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