Lecture professor(s): Er Meng Joo, Soh Cheong Boon
Mode of Instruction: Live Lectures, Recorded Lectures
Course Structure
First Half of Semester
Circuit Theorems
Circuit Theorems
Energy Storage Elements and Transient Response
Laplace Transforms in Circuit Analysis
Second Half of Semester
Network Functions and Two-port Networks
Network Functions and Two-port Networks
AC Circuits
Three-phase Circuits
Assessment Structure
5% Lab 1
5% Lab 2
5% Homework Assignment 1
5% Homework Assignment 2
20% 1 Hour Computerised Quiz
60% Final Paper
Finals Structure
4 questions in total:2 questions on solving second order circuits in time or Laplace domain
1 question on network functions and two-port networks
1 question on AC circuits and three-phase circuits
Lab
L2001A: Circuit Theorems and Time Responses of Passive Networks
L2001B: Two-Port Network Parameters and Transient Response of a General Second-Order Circuit
Grading: Lab bench skills such as breadboarding, operation of digital oscilloscope and function generator. You get the highest possible mark when you finish all experiments perfectly within the duration of the lab session.
To prepare: Read through and attempt to solve lab manuals thoroughly (1 to 2 hours of work) before lab sessions. Split the reading with your lab partner a few days earlier to make work easier. No need to have used any of the lab equipments or a breadboard before. You will be briefed on how to do things on the day itself.
To score: When at the lab, work fast and do not stop until you are done. Ask for help quickly from the lab technicians when you need it.
Textbook Content Match
Textbook Title: Fundamentals of Electric Circuits 5th EditionAuthor: Charles K. Alexander and Matthew N. O. Sadiku
E-book Availability: Easy to find with Google
Textbook match: 70% of EE2001
Course Structure
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Textbook
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Chapter Title
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Importance
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Circuit Theorems
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Basic Concepts
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1
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Basic Concepts
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High
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Basic Laws
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2
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Basic Laws
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High
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Methods of Analysis
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3
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Methods of Analysis
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High
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Circuit Theorems
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4
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Circuit Theorems
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High
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Operational Amplifiers
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5
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Operational Amplifiers
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Low. Just know the basic rules of amplifiers
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Energy Storage Elements and Transient Response
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Energy Storage Elements
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6
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Capacitors and Inductors
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High
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13
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Magnetically Coupled Circuits
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Very Low
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First- Order Circuits
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7
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First-Order Circuits
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High
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Second-Order Circuits
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8
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Second-Order Circuits
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High
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Laplace Transforms in Circuit Analysis
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Fundamentals of Laplace Transform
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15
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Laplace Transform
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Taught concurrently in EE2006
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Laplace Transform in Circuit Analysis
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16
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Applications of Laplace Transform
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Network Functions and Two-Port Networks
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Network Functions
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Poorly covered by textbook.
Network Functions: Transfer Function. Poles and Zeros. Time Domain Response from Pole-Zero Plot. Poles and Stability. Transfer Function and Impulse Response. Transfer Function and Step Response.
Two Port Networks: Admittance. Impedance. Hybrid. Transmission.
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Two Port Networks
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AC Circuits
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Sinusoids and Phasors
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9
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Sinusoids and Phasors
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High
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Sinusoidal Steady-State Analysis
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10
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Sinusoidal Steady-State Analysis
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High
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AC Power Circuits
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11
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AC Power Circuits
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High
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Three-Phase Circuits
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Three-Phase Circuits
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12
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Three-Phase Circuits
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High
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Recommended Pre-Semester Effort
Easy
Read textbook chapters 1 and 2.
Read textbook and do all textbook practice questions for chapters 3 and 4.
Should take about 20 hours across 2 weeks.
KCL, KVL, nodal and mesh analysis should be easy to wield before school starts.
Medium
Easy + read textbook and do at least 50% of the textbook practice questions for chapters 6 to 8.
Read through chapter 5 to sieve out the properties of op amps.
Should take about 60 hours across 4 weeks.
Should be capable of solving second-order circuits in time domain before school starts.
Do and redo questions from chapter 8 every week to retain and strengthen what you have learnt.
Hard
Medium + read and do at least 50% of the text book practice questions for chapters 15 and 16.
Should take about 90 hours across 4 weeks.
Should be capable of solving second-order circuits in time domain and Laplace domain before school starts.
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