Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lale T. Ergene Fields and Waves Lesson 5.3 PLANE WAVE PROPAGATION Lossy Media.

Published byAmice Boone Modified over 8 years ago

Similar presentations

Presentation on theme: "Lale T. Ergene Fields and Waves Lesson 5.3 PLANE WAVE PROPAGATION Lossy Media."— Presentation transcript:

1 Lale T. Ergene Fields and Waves Lesson 5.3 PLANE WAVE PROPAGATION Lossy Media

2 Wave Equations for a Conducting Medium Homogenous wave equation for ; propagation constant is complex Homogenous wave equation for

3 Propagation Constant (for a lossy medium) Attenuation constant Phase constant [Np/m] [rad/m]

4 Solution of the Wave Equation The Electric Field in phasor form (only x component) General solution of the differential equation for a lossy medium forward traveling in +z direction backward traveling in -z direction

5 Intrinsic Impedance, η c The relationship between electric and magnetic field phasors is the same but the intrinsic impedance of lossy medium, η c is different If +z is the direction of the propagation intrinsic impedance

6 Skin Depth, δ s shows how well an electromagnetic wave can penetrate into a conducting medium [m] Skin Depth Perfect dielectric: σ=0 α=0 δ s =∞ Perfect Conductor: σ=∞ α=∞ δ s =0

7 Low-Loss Dielectric defined when ε’’/ε’<<1 practically if ε’’/ε’<10 -2, the medium can be considered as a low-loss dielectric [Np/m] [rad/m] [Ω][Ω]

8 Good Conductor defined when ε’’/ε’>>1 practically if ε’’/ε’>100, the medium can be considered as a good conductor [Np/m] [rad/m] [Ω][Ω] When 10-2≤ ε’’/ε’ ≤100, the medium is considered as a “Quasi-Conductor”. Do Problem 1

9 Average Power Density [W/m 2 ] Average power density

10 Average Power Density [W/m 2 ] Average power density If η c is written in polar form where Do Problem 2

Download ppt "Lale T. Ergene Fields and Waves Lesson 5.3 PLANE WAVE PROPAGATION Lossy Media."

Similar presentations

Electromagnetic Waves in Conducting medium

Electromagnetic Waves in Conducting medium
ENE 428 Microwave Engineering

ENE 428 Microwave Engineering
Prof. Ji Chen Notes 15 Plane Waves ECE 3317 1 Spring 2014 z x E ocean.

Prof. Ji Chen Notes 15 Plane Waves ECE Spring 2014 z x E ocean.
Uniform plane wave.

Uniform plane wave.
EEE 498/598 Overview of Electrical Engineering

EEE 498/598 Overview of Electrical Engineering
RS 1 ENE 428 Microwave Engineering Lecture 1 Introduction, Maxwell’s equations, fields in media, and boundary conditions.

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

ENE 428 Microwave Engineering
Co-Axial Cable Analysis. Construction Details Question 1 What is the fundamental equation relating the magnetic field surrounding a conductor and the.

Co-Axial Cable Analysis. Construction Details Question 1 What is the fundamental equation relating the magnetic field surrounding a conductor and the.
1 Electromagnetic waves Hecht, Chapter 2 Monday October 21, 2002.

1 Electromagnetic waves Hecht, Chapter 2 Monday October 21, 2002.
Microwave Devices E511 Lecture 2 Amr Al.Awamry. Agenda Plan waves in Lossless Medium Plan waves in general lossy Medium In Good conductor General Plan.

Microwave Devices E511 Lecture 2 Amr Al.Awamry. Agenda Plan waves in Lossless Medium Plan waves in general lossy Medium In Good conductor General Plan.
Chung-Ang University Field & Wave Electromagnetics CH 8. Plane Electromagnetic Waves 8-4 Group Velocity 8-5 Flow of Electromagnetic Power and the Poynting.

Chung-Ang University Field & Wave Electromagnetics CH 8. Plane Electromagnetic Waves 8-4 Group Velocity 8-5 Flow of Electromagnetic Power and the Poynting.
EEE340Lecture 331 8.3 Plane waves in lossy media In a source-free lossy medium where (8-42)

EEE340Lecture Plane waves in lossy media In a source-free lossy medium where (8-42)
Electromagnetic Waves Electromagnetic waves are identical to mechanical waves with the exception that they do not require a medium for transmission.

Electromagnetic Waves Electromagnetic waves are identical to mechanical waves with the exception that they do not require a medium for transmission.
Electromagnetic waves -Review- Sandra Cruz-Pol, Ph. D. ECE UPRM Mayag ü ez, PR.

Electromagnetic waves -Review- Sandra Cruz-Pol, Ph. D. ECE UPRM Mayag ü ez, PR.
EE3321 ELECTROMAGNETIC FIELD THEORY

EE3321 ELECTROMAGNETIC FIELD THEORY
The Electromagnetic Field. Maxwell Equations Constitutive Equations.

The Electromagnetic Field. Maxwell Equations Constitutive Equations.
1 ECE 480 Wireless Systems Lecture 3 Propagation and Modulation of RF Waves.

1 ECE 480 Wireless Systems Lecture 3 Propagation and Modulation of RF Waves.
1 EEE 498/598 Overview of Electrical Engineering Lecture 11: Electromagnetic Power Flow; Reflection And Transmission Of Normally and Obliquely Incident.

1 EEE 498/598 Overview of Electrical Engineering Lecture 11: Electromagnetic Power Flow; Reflection And Transmission Of Normally and Obliquely Incident.
ECE 546 – Jose Schutt-Aine1 ECE 546 Lecture 02 Review of Electromagnetics Spring 2014 Jose E. Schutt-Aine Electrical & Computer Engineering University.

ECE 546 – Jose Schutt-Aine1 ECE 546 Lecture 02 Review of Electromagnetics Spring 2014 Jose E. Schutt-Aine Electrical & Computer Engineering University.
Prof. D. R. Wilton Notes 6 Transmission Lines (Frequency Domain) ECE 3317 [Chapter 6]

Prof. D. R. Wilton Notes 6 Transmission Lines (Frequency Domain) ECE 3317 [Chapter 6]

Similar presentations

Ads by Google