EKT 341: ANTENNA & PROPAGATION OVERVIEW. COURSE INFORMATION Lecture: Lecture: Tuesday: 8.00 – 9.00 am (BKY) Tuesday: 8.00 – 9.00 am (BKY) Thursday: 8.00.

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Presentation transcript:

EKT 341: ANTENNA & PROPAGATION OVERVIEW

COURSE INFORMATION Lecture: Lecture: Tuesday: 8.00 – 9.00 am (BKY) Tuesday: 8.00 – 9.00 am (BKY) Thursday: 8.00 – am (DKG4) Thursday: 8.00 – am (DKG4) Lab: Lab: Monday Monday 1 st Session: 8.00 – am (MKY8) 1 st Session: 8.00 – am (MKY8) 2 nd Session : – 2.00 pm (MKY8) 2 nd Session : – 2.00 pm (MKY8)

TEACHING STAFF LECTURERCIK ISMAHAYATI BINTI ADAM Bilik KKF7D,KKF 7, Kuala Perlis Tel: / TEACHING ENGINEER PN HAZILA BINTI OTHMAN PN SHARIFFAH ZARIHAN

ASSESSMENT Final Exam: 50% Final Exam: 50% Coursework: 50% Coursework: 50% Practical Lab: 20% Practical Lab: 20% Mini Project : 15% Mini Project : 15% Test 1: 5% Test 1: 5% Test 2: 5% Test 2: 5% Etc: 5% Etc: 5%

COURSE OUTCOMEs To define and explain the electromagnetic wave concept and principle To define and explain the electromagnetic wave concept and principle To define and explain guided electromagnetic wave and radio waves characteristics To define and explain guided electromagnetic wave and radio waves characteristics To design and analyze different types of antenna and explore its propagation characteristics To design and analyze different types of antenna and explore its propagation characteristics To apply the radio wave propagation characteristics to the antenna To apply the radio wave propagation characteristics to the antenna

COURSE CONTENTS 1. ELECTROMAGNETIC WAVES   Introduction   Faraday’s Law   Transformer and Motional EMF   Displacement Current   Maxwell Equations   Lossless TEM Waves   EM Wave Fundamental and Equations   Electromagnetic Wave Propagation, Reflection and Transmission

2. WAVEGUIDE   Waveguide Field Equation   Rectangular Waveguide   Cylindrical Waveguide   Resonant Cavity COURSE CONTENTS

3. CONCEPT OF RADIATION   Introduction   Radiation Mechanism COURSE CONTENTS

4. ANTENNA   Fundamental Antenna parameter   Electrically Short Antenna   Dipole Antenna   Monopole Antenna   Antenna Arrays   Effective Area and Friis Equation   Antenna for Wireless Communication COURSE CONTENTS

5. Radio Wave Propagation   The Friis Transmission Equation   Antenna Noise Temperature   Radar   Propagation Path Loss   Free Space Propagation   Plane Earth Propagation   Attenuation COURSE CONTENTS

REFERENCES Textbook Stuart M Wentworth, "Fundamentals of Electromagnetics with Engineering Applications", Wiley edition, Stuart M Wentworth, "Fundamentals of Electromagnetics with Engineering Applications", Wiley edition, Others C. A. Balanis, “Antenna Theory: Analysis and Design”, 3 rd Ed., Wiley Interscience, C. A. Balanis, “Antenna Theory: Analysis and Design”, 3 rd Ed., Wiley Interscience,  Kraus, Marhefka, “Antennas: For All Applications”, International Edition, McGraw Hill, 2003.