Introduction to Antenna Theory – RAHAE102

Introduction to Antenna Theory – RAHAE102, available at $44.99, has an average rating of 3.3, with 131 lectures, based on 44 reviews, and has 2471 subscribers.

You will learn about A complete understanding of antenna fundamentals Calculation of radiation field of thin linear antenna Electromagnetic wave propagation and Power flow Linear monopole and dipole antennas Antenna array techniques This course is ideal for individuals who are Electrical Engineers or Antenna Engineers or Electrical Engineering Students It is particularly useful for Electrical Engineers or Antenna Engineers or Electrical Engineering Students.

Enroll now: Introduction to Antenna Theory – RAHAE102

Summary

Title: Introduction to Antenna Theory – RAHAE102

Price: $44.99

Average Rating: 3.3

Number of Lectures: 131

Number of Published Lectures: 130

Number of Curriculum Items: 131

Number of Published Curriculum Objects: 130

Original Price: $19.99

Quality Status: approved

Status: Live

What You Will Learn

A complete understanding of antenna fundamentals
Calculation of radiation field of thin linear antenna
Electromagnetic wave propagation and Power flow
Linear monopole and dipole antennas
Antenna array techniques

Who Should Attend

Electrical Engineers
Antenna Engineers
Electrical Engineering Students

Target Audiences

Electrical Engineers
Antenna Engineers
Electrical Engineering Students

Fundamentals of Antenna Engineering

Unlock the world of antennas and their fundamental principles with RAHAE102, a comprehensive course designed to provide you with a deep understanding of antennas and their working principles. Led by Dr. Akhilesh Verma, an esteemed Antenna Engineering Scientist at Rahsoft, this academic-level course offers a lifetime access opportunity for continuous learning and career growth.

Course Highlights:

In RAHAE102, we focus on the following key areas:

Antenna Fundamentals: Gain insights into the basics of antennas and their working principles.
Radiation Mechanisms: Explore the various radiation mechanisms of antennas and understand the conditions governing antenna radiation.
Hertz Dipole Antenna: Delve into the theory and parameters of the Hertz dipole antenna, with solved numerical problems for better comprehension.
Electromagnetic Wave Propagation: Learn about electromagnetic wave propagation and how antennas behave at the receiver side.
Monopole and Dipole Antennas: Understand the theory and derivations of monopole and dipole antenna parameters, differentiating between the two.
Antenna Arrays: Explore the fundamental concepts of antenna arrays, including types and requirements, with solved numerical examples.

Instructor:

Your course instructor, Dr. Akhilesh Verma, holds a Ph.D. in Antenna Engineering with a concentration on Phased Array Antennas and Beamforming for 5G networks. With his expertise and experience, you’ll gain valuable insights into the world of antennas.

Target Audience:

This course is suitable for a wide range of learners, including:

Undergraduate students seeking a solid foundation in antenna engineering.
Antenna Engineers looking to expand their knowledge.
Postgraduate students pursuing antenna-related courses.
Research scholars specializing in the field of antennas.

Course Benefits:

Academic-Level Approach: RAHAE102 offers an academic-level approach to antenna engineering, aligning with curricula taught in schools worldwide.
Lifetime Access: With lifetime access to this course, you can revisit its content throughout your career to refresh your knowledge.

Course Content:

Introduction to Antennas
Antenna Definition and Working Principles
Radiation Mechanisms and Conditions
Hertz Dipole Antenna Fundamentals
Electromagnetic Wave Propagation and Power Flow
Monopole and Dipole Antennas: Theory and Parameters
Antenna Array Techniques: Types and Requirements
Antenna Input Impedance and Mutual Coupling

Embrace the fascinating world of antennas and enhance your understanding of their fundamental concepts with RAHAE102. Enroll today and take the first step toward mastering antenna engineering!

Course Curriculum

Chapter 1: Chapter 1 : Introduction

Lecture 1: Outline of the course

Lecture 2: Antenna definition

Lecture 3: Antenna transitional structure between free space and guiding device

Lecture 4: Antenna transitional structure between free space and guiding device

Lecture 5: A transmission line Thevenin equivalent of the antenna system

Lecture 6: Working principle of an antenna

Lecture 7: Radiation mechanism

Lecture 8: Numerical Problem1 on radial component of electric field

Lecture 9: Numerical Problem2 on radial component of electric field

Lecture 10: Numerical Problem2 on radial component of electric field

Lecture 11: Quiz on radial component of electric field

Lecture 12: Quiz1 on radial component of electric field

Lecture 13: Quiz2 on radial component of electric field

Lecture 14: Quiz3 and 4 on radial component of electric field

Lecture 15: Antenna radiation using potential function

Lecture 16: Antenna radiation using potential function

Lecture 17: Solution for potential

Lecture 18: Solution for potential, Green's function

Lecture 19: Solution for potential, Green's function

Lecture 20: Solution for potential, Green's function

Lecture 21: Small current element analysis

Lecture 22: Numerical problem1 on vector potential

Lecture 23: Numerical problem1 continued

Lecture 24: Numerical problem1 continued

Lecture 25: Numerical problem2 on vector potential

Lecture 26: Quiz on vector potential

Lecture 27: Solution of quiz1

Lecture 28: Solution of quiz1 continued

Lecture 29: Solution of quiz2

Lecture 30: Basic concept of Hertzian dipole

Lecture 31: Basic concept of Hertzian dipole continue

Lecture 32: Basic concept of Hertzian dipole continue

Lecture 33: Basic concept of Hertzian dipole continue

Lecture 34: Polar pattern of Hertzian dipole

Lecture 35: The Hertzian dipole reconsidered

Lecture 36: Numerical on electric field potential

Lecture 37: Solution of problem on electric field potential

Lecture 38: Solution of problem on electric field potential

Lecture 39: Solution of problem on electric field potential

Lecture 40: Solution of problem on electric field potential

Lecture 41: Calculation of radiated power from Hertzian dipole

Lecture 42: Calculation of radiated power from Hertzian dipole

Lecture 43: Calculation of radiated power from Hertzian dipole

Lecture 44: Calculation of radiated power from Hertzian dipole

Lecture 45: Calculation of radiation resistance of Hertz dipole antenna

Lecture 46: Directional characteristic of the antenna

Lecture 47: Numerical on Hertz dipole antenna

Lecture 48: Solution of the numerical on Hertz dipole antenna

Lecture 49: Solution of the numerical on Hertz dipole antenna

Lecture 50: Solution of the numerical on Hertz dipole antenna

Lecture 51: Solution of the numerical on Hertz dipole antenna

Lecture 52: Quiz on Hertz dipole antenna

Lecture 53: Solution of Quiz on Hertz dipole antenna

Lecture 54: Solution of Quiz on Hertz dipole antenna

Lecture 55: Solution of Quiz on Hertz dipole antenna

Lecture 56: Solution of Quiz on Hertz dipole antenna

Lecture 57: Solution of Quiz on Hertz dipole antenna

Lecture 58: Solution of Quiz on Hertz dipole antenna

Lecture 59: Solution of Quiz on Hertz dipole antenna

Lecture 60: Solution of Quiz on Hertz dipole antenna

Lecture 61: Solution of Quiz on Hertz dipole antenna

Lecture 62: Solution of Quiz on Hertz dipole antenna

Chapter 2: Chapter 2 : Calculation of radiation field of thin linear antenna

Lecture 1: Radiation characteristics of a linear thin dipole

Lecture 2: Radiation characteristics of a linear thin dipole

Lecture 3: Standing wave, current direction, flared transmission line

Lecture 4: Current distribution

Lecture 5: Current distribution

Lecture 6: Calculation of Electric field, radiation pattern

Lecture 7: Calculation of Electric field, radiation pattern, input impedance

Lecture 8: Input Impedance and radiation pattern

Lecture 9: Radiation Pattern

Lecture 10: Radiation Pattern

Chapter 3: Chapter 3 : Electromagnetic wave propagation and Power flow

Lecture 1: Maxwell's equation

Lecture 2: Wave equations in free space

Lecture 3: Wave equations in free space

Lecture 4: Wave equations in free space

Lecture 5: Power flow

Lecture 6: Numerical on EM waves

Chapter 4: Chapter 4 : Antenna at receiver side

Lecture 1: Antenna at receiver side

Lecture 2: Antenna at receiver side

Lecture 3: Effective aperture

Lecture 4: Effective aperture

Lecture 5: Relation between effective aperture and directivity

Lecture 6: Power received by receiving antenna

Lecture 7: Interchanging the role of receiving and transmitting antenna

Lecture 8: Calculation of effective aperture of the Hertz dipole antenna

Lecture 9: General relation between directivity and effective aperture

Lecture 10: Numerical solving on electric and magnetic field strength

Lecture 11: Numerical solving on average energy density, average power,

Chapter 5: Chapter 5 : Linear monopole and dipole antennas

Lecture 1: Introduction of monopole antenna

Lecture 2: Concept of method of images

Lecture 3: Current distribution on dipole antenna

Lecture 4: Why monopole antenna is used for low frequency radio broadcasting

Lecture 5: Radiated power calculation of dipole antenna

Lecture 6: Dipole antenna parameters

Instructors

Rahsoft Antenna Engineering Certificate – California
Dr Akhilesh Verma, Ahsan Ghoncheh
Akhilesh Verma

Rating Distribution

1 stars: 5 votes
2 stars: 5 votes
3 stars: 7 votes
4 stars: 10 votes
5 stars: 17 votes

Frequently Asked Questions

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You can view and review the lecture materials indefinitely, like an on-demand channel.

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