Fundamentals of electrical circuits and systems II
EE-407
Media
EE-405 Fundamentals of electrical circuits and systems
Chapter 7 - Last Part and an Introduction to Chapter 8
21.12.2021, 16:49
Chapter 7 - 3-Phase Systems (Part 2)
14.12.2021, 15:51
Chapter 7: Three-Phase Circuits (Part I)
07.12.2021, 16:10
- Three-phase circuits
- Balanced three-phase circuits
- Balanced loads
- Line, phase and load voltages/currents
- Wye et Delta connections
End of Chapter 3, Chapters 4 & 5
23.11.2021, 18:46
- Example on Mesh method
- AC Circuit Analysis
Chapter 2 (Part 2) and Chapter 3
16.11.2021, 15:29
- Maximum power transfer theorem
- Method of analysis (Nodal + Mesh)
Chapter 2: Fundamental theorems (Part 1)
09.11.2021, 15:34
Linear circuits
Superposition
Voltage source - current source conversion
Thévenin and Norton Theorems
Chapter 1: Basic Concepts
03.11.2021, 09:13
- Electric circuits
- Usual quantities
- Basic circuit elements- Kirchhoff's laws
- Series/parallel combinations
- Voltage/current divider circuits
End of Chapter 3, Chapters 4 & 5
23.11.2021, 18:46
- Example on Mesh method
- AC Circuit Analysis
End of Chapter 3, Chapters 4 & 5
23.11.2021, 18:46
- Example on Mesh method
- AC Circuit Analysis
End of Chapter 3, Chapters 4 & 5
23.11.2021, 18:46
- Example on Mesh method
- AC Circuit Analysis
End of Chapter 3, Chapters 4 & 5
23.11.2021, 18:46
- Example on Mesh method
- AC Circuit Analysis
We will start this week the part 2 of the course dealing with circuits. The main reference for the course is:
Alexander and Sadiku, Fundamentals of Electric Circuits, 5th Edition, McGraw-Hill Education, 2012.
Here is the link for the video recordings of the course (last year): https://mediaspace.epfl.ch/channel/EE-405+Fundamentals+of+electrical+circuits+and+systems/29722
- Detailed programme (File)
- Problem Sets (File)
- Chapter 1: Basic Concepts (File)
- Introduction to LTSpice (File)
- Video 1: Introduction to LTSpice (URL)
Today, we will study Chapter 2 and we continue with Problem sets 1 and 2
- Summary of Chapter 1 (File)
- Chapter 2: Fundamental Theorems of Linear Circuits (File)
- Thévenin or Helmholtz (File)
- Solution to Problem Set 1 (File)
- Solution to Problem Set 2 (File)
Today, from 1:15 to 3, you will have the exam with Prof. Thiran.
We will have lecture from 3:15 to 4 (Chapter 3), followed by the presentation of Exercise 2 on LTSpice
Dear All,
Here is the programme for today:
From 15:00 to 17:00: Problem Set 3 + LTspice Exercise_3
- Chapters on AC Circuits (Folder)
- Solution to Problem Set 3 (File)
- LTspice : RLC circuit analysis (File)
Dear All,
Today we will continue the Chapters on AC regime (1:15 to 4) and will continue with Problem Sets 4 and 5 (4:15 to 5).
Please watch the following video from 37' to 50':
https://mediaspace.epfl.ch/media/End%20of%20Chapter%203%2C%20Chapters%204%20%26%205/0_flkowb3din which the example presented at the end of Chapter 4 is solved using the classical method. In today's lecture, we will solve the same circuit using phasors.
Please also note that the program has been revised. The lab session has been moved to the last week.
- Revised version of the Program (File)
- Solutions to Problem Set 4 (File)
- Solution to Problem Set 5 (File)
Dear All,
Today from 1 to 4, we will work on three-phase system. From 4 to 5, we will work on Problem Sets 7 and 8.
Here are the recording of last year's session on three phase systems:
- Chapter 7: Three-Phase Circuits (File)
- Solution to Problem Set 7 (File)
- Solution to Problem Set 8 (File)
Dear all,
Here is the program today:
From 13:15 to 16:00: Lab session in room MED 2 2524 on the study of capacitors and inductors in sinusoidal regime.
From 16:00 to 17:00: We will continue with the last problem set (Problem Set 9).
- Lab session: Circuit in sinusoidal regime (Folder)
- Lecture Notes in pdf (Folder)
- Solutions to Problem Set 9 (File)
- Exam of 2020 (File)
Today, from 1:15 to 3, we will finish the chapter on 3-phase systems. This part will be done remotely over the zoom. Here is the link:
https://epfl.zoom.us/j/63239989159
From 3 to 5, we have our final sets of problems (Problem Sets 9 and 10).
Here is the recording of the session (from last year's session):
Please note that we have not covered the last part on unbalanced 3-phase systems.