|
ELECTRICAL AND ELECTRONICS ENGINEERING (ENGLISH) PROGRAMME COURSE DESCRIPTION |
||||||
| Name of the Course Unit | Code | Year | Semester | In-Class Hours (T+P) | Credit | ECTS Credit |
|---|---|---|---|---|---|---|
| ANALOG AND DIGITAL COMMUNICATION | EEE319 | 3 | 5 | 3+0 | 3.0 | 5.0 |
| Weekly Course Contents and Study Materials for Preliminary & Further Study | ||
|---|---|---|
| Week | Topics (Subjects) | Preparatory & Further Activities |
| 1 | Introduction to Communication Systems Course objectives, course description, an introduction to communication systems. Properties of signals and noise, Fourier Transform and properties of the Fourier Transform. |
No file found |
| 2 | Signal Description and Properties Power spectral density and autocorrelation function, Fourier series expansion and linear systems. Band-limited signals and the Sampling Theorem. Discrete Fourier Transform (DFT), bandwidth requirement of signals. |
No file found |
| 3 | Baseband Pulse Signalling and Pulse Code Modulation Pulse Amplitude Modulation (PAM) employing natural sampling and flat-top PAM. Reconstruction from PAM and equalization. Pulse Code Modulation (PCM): Sampling, quantizing and encoding, bandwidth requirement of PCM, quantization noise, binary line coding. |
No file found |
| 4 | Digital Signalling Line codes and their spectra, regenerative repeaters and bit synchronization. Inter-symbol Interference (ISI), Nyquist’s method for zero ISI and roll-off filtering. Time-division multiplexing (TDM) and TDM hierarchy, frame synchronization. |
No file found |
| 5 | Power spectral density and autocorrelation function, Fourier series expansion and linear systems. Band-limited signals and the Sampling Theorem. Discrete Fourier Transform (DFT), bandwidth requirement of signals. | No file found |
| 6 | Bandpass Signalling Principles Complex envelope representation of bandpass and modulated signals, spectrum and power of bandpass and modulated signals. |
No file found |
| 7 | Bandpass Signalling Circuits and Detectors Radio Frequency (RF) components: limiters, mixers, up and down converters, frequency multipliers, etc. Detector circuits: Envelope detector, product detector, frequency detector, PLL. Generalized transmitters and receivers: The superheterodyne principle. |
No file found |
| 8 | Bandpass Signalling Circuits and Detectors Radio Frequency (RF) components: limiters, mixers, up and down converters, frequency multipliers, etc. Detector circuits: Envelope detector, product detector, frequency detector, PLL. Generalized transmitters and receivers: The superheterodyne principle. |
No file found |
| 9 | Bandpass Signalling Circuits and Detectors Radio Frequency (RF) components: limiters, mixers, up and down converters, frequency multipliers, etc. Detector circuits: Envelope detector, product detector, frequency detector, PLL. Generalized transmitters and receivers: The superheterodyne principle. |
No file found |
| 10 | Bandpass Signalling Circuits and Detectors Radio Frequency (RF) components: limiters, mixers, up and down converters, frequency multipliers, etc. Detector circuits: Envelope detector, product detector, frequency detector, PLL. Generalized transmitters and receivers: The superheterodyne principle. |
No file found |
| 11 | AM and FM Modulated Systems Amplitude modulation (AM), Double-Sideband Suppressed Carrier (DSBSC) and asymmetric sideband signals (SSB, VSB). Phase and frequency modulated signals (FM, PM). |
No file found |
| 12 | AM and FM Modulated Systems Amplitude modulation (AM), Double-Sideband Suppressed Carrier (DSBSC) and asymmetric sideband signals (SSB, VSB). Phase and frequency modulated signals (FM, PM). |
No file found |
| 13 | AM and FM Modulated Systems Amplitude modulation (AM), Double-Sideband Suppressed Carrier (DSBSC) and asymmetric sideband signals (SSB, VSB). Phase and frequency modulated signals (FM, PM). |
No file found |
| 14 | FINAL EXAMINATION | No file found |