Alsalam Alaikum wa Rahmat Allah
Welcome to your EE207 Homepage. It is a pleasure to have you in this course.
A good start is needed. This course is very fundamental to many other courses and concepts in our life. Matlab will be an integrated part of the course. It will be mostly self-learning tool. Start today by installing Matlab in your machine or find yourself a convenient access to it.
I pray Allah that you will find this course fruitful and enjoyable.
Best Regards,
Dr. Ali Muqaibel
0. Introduction to the course (pdf)
Introduction
Continuous-Time Signals and Systems (Ch 1 & Ch2) (pdf)
2.1 Transformation of Continuous-Time Signals
2.2 Signal Characteristics
2.3 Common Signals in Engineering
2.4 Singularity Functions (Video)
2.5 Mathematical Functions for Signals (Video)
2.6 Continuous-Time Systems (Video)
2.7 Properties of Continuous-Time Systems
Signals and Transformations: Practice Problems (pdf)
System Characteristics: Practice Problems (pdf)
LTI System Modeling & Analysis in the Time Domain (Ch3) (pdf)
Impulse Representation of Continuous-Time Signals
Convolution for Continuous-Time LTI System (Video)
Properties of Convolution
Properties of Continuous-Time LTI Systems
The Fourier Series (Ch4) (pdf)
Function Approximation
Fourier Series
Fourier Series and Frequency Spectra
System Analysis
Fourier Series Transformations
5. Fourier Transform (Ch5) (pdf)
Definition of the Fourier Transform
Properties of the Fourier Transform
Fourier Transform of common Functions
Application of the Fourier Transform
Energy and Power Density Spectra
6. Applications of Fourier Transform (Ch6) (pdf)
Ideal filters
Concept of Bandwidth
7. The Laplace Transform (Ch7)
Definition of Laplace Transforms
Examples of Laplace transform
Laplace Transforms of Functions
Laplace Transform Properties
Additional Properties
Response of LTI Systems
LTI Systems Characteristics
8. Signal Sampling and Reconstruction
6.4: Sampling of Continuous-Time Signals
6.5: Reconstruction of Signals from Sampled Data (up to page 326)
9. Chapter 10: Discrete-Time Linear Time-Invariant Systems
10.1: Impulse Representation of Discrete-Time signals
10.2: Convolution for Discrete-Time Systems
10.3: Properties of Discrete-Time LTI Systems
10.4: Difference-Equation Models (up to equation 10.48)
Laplace Transform Theorems Table 5_2 (jpg)
Chapter 5 The Laplace Transform (jnt)
Single_sided Laplace Transforms Table 5_3 (jpg)
Partial Fraction Expansion (Power Point Presentation)
Chapter 6: *These are some of the notes (NOT ALL)
Introduction
Laplace Transform Equivalent Circuit Element
Chapter 8:
Analog to Digital Conversion (Sampling) (Lecture37.pdf)
Signal Reconstruction and Quantization Noise (Lecture38.pdf)
Z-transform (Lecture39.pdf)
Z-Transform and Applications to Discrete-Time Systems (Lecture40.pdf)
Short Table of Z-Transforms (jpg)
EE207 Sample syllabus file (pdf)
Continuous-Time Signals and Systems
LTI Systems
Quiz 2 , 121 (ver 1)
Quiz 3: 251 (sec 1, sec2)
Fourier Series
Quiz 3: 121 (ver 1)
Signals and Systems Modeling Concepts Quiz 1
System Analysis in Time Domain Quiz 2
Fourier Series Quiz 3
Fourier Transform Quiz 4
Fourier Transform Analysis and Laplace Transform Quiz 5
Application of Laplace Transform to Circuits Quiz 6
Additional Problems:
Tools
Software
All Matlab Programs for the textbook "Signals & Systems Continues and Discrete" 4e
Getting Started Matlab (pdf)
Picoscope® Oscilloscope & Spectrum Analyzer
Matlab® Simulation Tool