Prepared By: Mr. Azremi Abdullah Al - Hadi Antenna and Propagation.

Slides:

Advertisements

Similar presentations

EMLAB 1 Introduction to EM theory 1. EMLAB 2 Electromagnetic phenomena The globe lights up due to the work done by electric current (moving charges).

Advertisements

Calvin College - Engineering Department Spring 2002 Engineering Electromagnetic Fields “The beauty of electricity... [is] that it is under law.”

EMLAB 1 Introduction to electromagnetics. EMLAB 2 Electromagnetic phenomena The globe lights up due to the work done by electric current (moving charges).

RS 1 ENE 428 Microwave Engineering Lecture 1 Introduction, Maxwell’s equations, fields in media, and boundary conditions.

Electromagnetic Engineering ECE292 Sophomore Seminar 18 March 2008.

Dr.-Ing. René Marklein - EFT I - SS 06 - Lecture 1 / Vorlesung 1 1 Biomedical Electromagnetic Theory ENT 215 Biomedical Electromagnetic Theory ENT 215.

EKT 242 ELECTROMAGNETIC THEORY

Electrical & Computer Engineering Electromagnetics Program David Atkinson & Jeffrey L. Young February 24, 2009.

EKT 241 ELECTROMAGNETIC THEORY Revised By: Dr. Naser Mahmoud Ahmed.

By Professor Syed Idris Syed Hassan Sch of Elect. & Electron Eng Engineering Campus USM Nibong Tebal SPS Penang Microwave Circuit Design.

8/5/08Lecture 2 Part 21 Maxwell’s Equations of the Electromagnetic Field Theory Gauss’s Law – charge makes an electric field The magnetic field is solenoidal.

ECE M Introduction to Antennas and Antenna Systems

MAXWELL’S EQUATIONS AND TRANSMISSION MEDIA CHARACTERISTICS

Antenna Primer Wang Ng. References Balanis; Antenna Theory Collin; Antennas and Radiowave Propagation.

WATERLOO ELECTRICAL AND COMPUTER ENGINEERING 70s: RF/Microwave and Photonic 1 WATERLOO ELECTRICAL AND COMPUTER ENGINEERING 70s RF/Microwave and Photonic.

Dr. Yungui MA ( 马云贵 ) Office: Room 209, East Building 5, Zijin’gang campus Microwave Fundamentals.

ERT 105: Basic Electrical Technology AZRALMUKMIN BIN AZMI.

Switch off your Mobiles Phones or Change Profile to Silent Mode.

Copyright © 2009 Pearson Education, Inc. Chapter 34 Electromagnetic Waves.

EMT 251/4 : Introduction to IC Design

Course Information Lectures on Fiber Optics at Fujikura Fiber Optics Vietnam LTD.

OBJECTIVES To become familiar with propagation of signals through lines Understand signal propagation at Radio frequencies Understand radio propagation.

Chapter 2 – Software Processes Lecture 1 1Chapter 2 Software Processes.

1 ENE 325 Electromagnetic Fields and Waves Lecture 1 Electrostatics.

EE 474: Antennas and Propagation Fall Instructor Information Zhengqing (ZQ) Yun Hawaii Center for Advanced Communications (HCAC) Office: POST.

Switch off your Mobiles Phones or Change Profile to Silent Mode.

Communications Principles (EE320) First day Course Materials Assistant Prof. Dr. Anwar Hassan.

Polymer Science & Engineering I

(EE429) First day Course Materials Assistant Prof. Dr. Anwar Hassan Selected Topics Communications.

1 EKT 441 MICROWAVE COMMUNICATIONS Soh Ping Jack Nur Baya Mohd Hashim Mohd Fisol Osman.

1 ENE 325 Electromagnetic Fields and Waves Lecture 1 Electrostatics.

Applied Numerical Method for Engineers and Scientists

Fall 2008Lecture 0-1Physics 231 Physics 231 Fall 2008 Electricity and Magnetism DC & AC Circuits.

1 EKT 441 MICROWAVE COMMUNICATIONS. 2 What is expected? Initial knowledge of these topics are required: Maths, maths & more maths… Smith Chart operation.

Electromagnetic waves and Applications Part III:

L1-1 ELECTROMAGNETICS AND APPLICATIONS Lecture 8 TEM Transmission Lines Luca Daniel.

CSC 111 COURSE ORIENTATION. Course name and Credit houres  CSC 111 – Computer Programming-I  Credit hours:  3 hours lecture  1 hour tutorial  2 hours.

UNIVERSITY OF GUYANA FACULTY OF NATURAL SCIENCES DEPARTMENT OF MATHEMATICS, PHYSICS & STATISTICS 1.

EET 103: Basic Electrical Technology

EMT 111/4 Electronic Devices (Peranti Elektronik)

DMT 111/3 Engineering Science Semester I 2007/2008.

EMT 111/4 ELECTRONIC DEVICES (PERANTI ELEKTRONIK).

Mdm Ismahayati Binti Adam Room: KKF7D,KKF 7, Kuala Perlis Tel: /

MMU 209 INTRODUCTION TO MATERIALS SCIENCE AND ENGINEERING COURSE TIME AND VENUE: TUESDAY: (B202) WEDNESDAY: (B312) Lecturer: Assist.

1 ELECTRICAL TECHNOLOGY EET 103/4 LECTURERS / TEACHING ENGINEERS: LATIFAH MOHAMED MUHAMMAD IRWANTO SALSABILA AHMAD.

EE 372: Engineering Electromagnetics II Spring 2016.

Introduction Lecture Prepared by Dr. Riham Hazzaa.

DR MUZAMMIL BIN JUSOH CAMPUS PAUH PUTRA, SCHOOL OF COMPUTER & COMMUNICATION ENGINEERING, UNIVERSITI MALAYSIA PERLIS (UNIMAP)

Antenna Theory CONSTANTINE A. BALANIS Arizona State University

EMT 111/4 Electronic Devices (Peranti Elektronik)

ENE 429 Antenna and Transmission lines Theory Lecture 1 Uniform plane waves.

ANALOG ELECTRONICS II EMT 212 En. Rosemizi Bin Abd Rahim PPK Komputer & Perhubungan No.5E, level 3, blok A, Jejawi

TC303 Antenna & Propagation Lecture 2 Introduction to Antenna 1 RS Reference: Antenna Theory, 3 rd edition, by Constantine A. Balanis.

TC303 Antenna&Propagation Lecture 1 Introduction, Maxwell’s Equations, Fields in media, and Boundary conditions RS1.

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.

Hanyang University 1/29 Antennas & RF Devices Lab. Partially filled wave guide Jeong Gu Ho.

ECE 305 Electromagnetic Theory Qiliang Li Dept. of Electrical and Computer Engineering, George Mason University, Fairfax, VA Lecture: Chapter 1 – 3 Fall.

Electric Circuit Theory

ELECTROMAGNETİC WAVE THEORY

Antenna Design for Zigbee System

Microwave and Radiating Systems(12EC71)

EKT 356/4 MICROWAVE COMMUNICATIONS LECTURER: HASLIZA A. SHAMSUDDIN

ANTENNA THEORY ANALYSIS AND DESIGN Chapter.1

Electric Circuit Theory

Final Exam and End Material Test

Overview of the course Principles of geometric optics

ELECTROMAGNETIC FIELDS & WAVES BEB 20303

Electromagnetics II (ELEC ENG 3FK4)

Electromagnetic Theory 55:170

EE 372: Engineering Electromagnetics II Spring 2019

Presentation transcript:

Prepared By: Mr. Azremi Abdullah Al - Hadi Antenna and Propagation

COURSE CONTENTS Chapter 1 Electromagnetic Waves Faraday’s Law Transformer and Motional EMFs Displacement Current Maxwell’s Equations Lossless TEM Waves Electromagnetic Waves Fundamentals and Equations Electromagnetic Waves Propagation in Different Media

COURSE CONTENTS (Cont’d) Chapter 2 Waveguide Rectangular Waveguide Fundamentals Waveguide Field Equations Parallel Plate Waveguide Rectangular Waveguide Modes Cylindrical Waveguide Fundamentals Cylindrical Waveguide Modes Resonant Cavity Dielectric Waveguide

COURSE CONTENTS (Cont’d) Chapter 3 Concept of Radiation Radiation Mechanism Basic Radiation Source – Single Wire Basic Radiation Source – Two Wires Current Distribution on a Thin Wire

COURSE CONTENTS (Cont’d) Chapter 4 Antenna Fundamental Parameters of Antennas Electrically Short Antennas Dipole Antennas Monopole Antennas Antenna Arrays Helical Antennas Yagi Uda Antennas The Friis Transmission Equation Radar Antennas for Wireless Communication

COURSE CONTENTS (Cont’d) Chapter 5 Radiowave propagation Space and Ground Waves Ionosphere Propagation Troposphere Propagation Vegetation Propagation Urban Propagation

Course Outcomes Understand the electromagnetic wave concept and principle. Understand guided electromagnetic wave and radio waves characteristics Ability to design and analyze different types of antenna and explore its propagation characteristics. Understand radio wave propagation characteristics and apply them in antenna Ability to work as a team.

Teaching Activities Lecture : 3 hours per week for 14 weeks 2 Experiments + 3 Tutorials: Antenna Training System Based on chapter covered in lecture 2 hours for selected weeks Mini Project on Antenna Design : 3 students in 1 group Presentation (Mini Conference Format) Final Report (2 Columns IEEE Proceeding Format) Covered for the whole semester

Meetings Lecture: Tuesday8.00 a.m. to 9.00 a.m.BKY Thursday8.00 a.m. to a.m. DKG4 Laboratory/Tutorials : Monday Group a.m. to a.m. Group p.m. to 2.00 p.m.

Assessment Course Work:50 % Hands On Lab: 10 % Tutorials: 5 % Mini Project: 25 % 2 Written Tests: 10 % Final Exam:50 %

References and Acknowledgements i.Stuart M.Wentworth, “Fundamental of Electromagnetics with Engineering Applications”, Wiley International Edition, 1990 ii.Mathew N.O Sadiku, "Elements of Electromagnetics”, 3rd Edition, Oxford, 2001 iii.C.A. Balanis, “Antenna Theory: Analysis and Design”, 3rd Edition, Wiley Interscience, iv.Lecture Notes ‘Antenna and Propagation’ from University of Science Malaysia; Prof Syed Idris Syed Hassan, Dr. Widad Ismail

Lecturer’s Contact Details Azremi Abdullah Al-Hadi 1 st Floor, Block A, PPK Komputer & Perhubungan, Komples Pengajian KUKUM, Jejawi Phone Number: Contact Hours:Monday, Tuesday and Thursday at 3.00 – 5.00 p.m.

Introduction End