RF Propagation. By Tim Kuhlman, PE KD7RUS

Similar documents
RF Propagation. By Tim Kuhlman, PE KD7RUS

Lesson 12: Signal Propagation

Chapter 7 HF Propagation. Ionosphere Solar Effects Scatter and NVIS

General Classs Chapter 7

Chapter 6 Propagation

3 Methods of radiocommunication

4/29/2012. General Class Element 3 Course Presentation. Radio Wave Propagation. Radio Wave Propagation. Radio Wave Propagation.

Amateur Radio License. Propagation and Antennas

4/18/2012. Supplement T3. 3 Exam Questions, 3 Groups. Amateur Radio Technician Class

FCC Technician License Course

Sw earth Dw Direct wave GRw Ground reflected wave Sw Surface wave

Introduction to HF Propagation. Rick Fletcher, W7YP FVARC November 20, 2018

Maximum Usable Frequency

Chapter 15: Radio-Wave Propagation

Reading 28 PROPAGATION THE IONOSPHERE

Antennas and Propagation Chapters T4, G7, G8 Antenna Fundamentals, More Antenna Types, Feed lines and Measurements, Propagation

High Frequency Propagation (and a little about NVIS)

Space Weather and Propagation JANUARY 14, 2017

Terry G. Glagowski W1TR / AFA1DI

OBJECTIVES: PROPAGATION INTRO RADIO WAVES POLARIZATION LINE OF SIGHT, GROUND WAVE, SKY WAVE IONOSPHERE REGIONS PROPAGATION, HOPS, SKIPS ZONES THE

Ionospheric Propagation

UNIT Derive the fundamental equation for free space propagation?

Technician License Course Chapter 4

Radio Propagation - VHF and higher

AN INTRODUCTION TO VHF/ UHF PROPAGATION. Paul Wilton, M1CNK

Broad Principles of Propagation 4C4

RADIO WAVE PROPAGATION

Radio Propagation Fundamentals

Propagation Tool.

Polarization orientation of the electric field vector with respect to the earth s surface (ground).

CHAPTER 6. Propagation

Topics in Propagation

Current Solar Cycle Poor propagation No propagation Checking HF propagation. Coping with poor HF propagation Q&A

# DEFINITIONS TERMS. 2) Electrical energy that has escaped into free space. Electromagnetic wave

Wireless Transmission Rab Nawaz Jadoon

NVIS PROPAGATION THEORY AND PRACTICE

right during the VE Session Have fun Bob, KA9BH Eric, K9VIC

Radar Reprinted from "Waves in Motion", McGourty and Rideout, RET 2005

Channel Modeling and Characteristics

Chapter 13: Wave Propagation. EET-223: RF Communication Circuits Walter Lara

Radio Frequency Propagation: A General Overview from LF to VHF.

INTRODUCTION TO RF PROPAGATION

Global Maps with Contoured Ionosphere Properties Some F-Layer Anomalies Revealed By Marcel H. De Canck, ON5AU. E Layer Critical Frequencies Maps

Antennas and Propagation. Prelude to Chapter 4 Propagation

UNDER STANDING RADIO FREQUENCY Badger Meter, Inc.

VHF Propagation Overview 5-Oct-2016

Mitigation of Effects of the Atmosphere on Radio Wave Propagation.

RADIOWAVE PROPAGATION

VHF/UHF Beyond FM Bob Witte KØNR Page 1

CHAPTER 1 INTRODUCTION

Wave Propagation and Antenna Engineering

A Review of WICEN HF Communications Capability

Radiation and Particles from the. Sun

If maximum electron density in a layer is less than n', the wave will penetrate the layer

1. Terrestrial propagation

Antennas and Propagation. Chapter 5

Regional and Long Distance Skywave Communications

CHAPTER 9 HIGH FREQUENCY RADIO OPERATION CHAPTER

Propagation During Solar Cycle 24. Frank Donovan W3LPL

SCARS Technician / General License Course Week 4

Interpretation and Classification of P-Series Recommendations in ITU-R

S.R.M. Institute of Science & Technology Deemed University School of Electronics & Communication Engineering

Antennas and Propagation. Chapter 5

CRITICAL FREQUENCY By Marcel H. De Canck, ON5AU

Antennas and Propagation

Electronics Technician

Propagation Software Review rev 1

Chapter 16 Light Waves and Color

Technician License Course Chapter 4. Lesson Plan Module 9 Antenna Fundamentals, Feed Lines & SWR

Electronics Technician

Ionospheric Propagation

1. What are the applications of loop antenna? (May2011) 2. Define Pattern Multiplication (May2011)

RADIO WAVES PROPAGATION

An Introduction to HF propagation and the Ionosphere

THE IONOSPHERE AND RADIO PROPAGATION

3C5 Telecommunications. what do radios look like? mobile phones. Linda Doyle CTVR The Telecommunications Research Centre

Antennas and Propagation

Session2 Antennas and Propagation

Presented by: Mark Landress WB5ANN

6M DX ING Jason Timmis, VE7AG. Why, What, Where, When and How.

VHF and Microwave Propagation Characteristics of Ducts

UNIT V PROPAGATION The three basic types of propagation: Sky Wave Propagation: Space Wave Propagation: Ground Wave Propagation: Propagation of Waves

Chapter 1: Telecommunication Fundamentals

A first study into the propagation of 5 MHz (60 m) signals using the South African ionosonde network

Exploring the HF Bands

Electronics Technician

Radar Systems Engineering Lecture 5 Propagation through the Atmosphere

Project = An Adventure : Wireless Networks. Lecture 4: More Physical Layer. What is an Antenna? Outline. Page 1

RADAR DEVELOPMENT BASIC CONCEPT OF RADAR WAS DEMONSTRATED BY HEINRICH. HERTZ VERIFIED THE MAXWELL RADAR.

Point to point Radiocommunication

Radio Communication. Presentation created by: András Balogh

Antennas and Wave Propagation Course Definition File

Dartmouth College SuperDARN Radars

Section 1 Wireless Transmission

TRANSEQUATORIAL RADIO PROPAGATION

Data and Computer Communications Chapter 4 Transmission Media

Antennas and Propagation

The Basics of VHF and UHF Signal Propagation

Using the Radio Spectrum to Understand Space Weather

Plasma in the ionosphere Ionization and Recombination

Transcription:

RF Propagation By Tim Kuhlman, PE KD7RUS

Purpose of this Seminar In this seminar we will attempt to answer the following questions: What is RF propagation? What are the different types of propagation? How does our environment affect propagation? How to predict propagation.

Contents for Discussion What are radio signals and how they react? Four Different Modes of Radio Signal Travel Free Space Open Space Ground Wave Sky Wave The Earth Ionosphere The D, F, & E Layers The MUF Maximum Useable Frequency The affects of Sun Spots on the Ionosphere.

Contents for Discussion Predicting RF Propagation Solar Reports Beacons Spotting Networks The Unpredictable Sporadic E Tropospheric Ducting Magnetospheric Ducting.

What is RF Propagation? It is the means in which radio signals travel. Radio Signals are Electromagnetic waves. They were studied and quantified my James Maxwell in a set of equations named after him.

What is RF Propagation? Experiments relating to the work of Maxwell were performed by Heinrich Hertz. The research of both men, and other scientist showed a relationship between the electric field and magnetic field of a radio wave as it travels. As a wave travels, it wants to travel in a straight line and will be: Conducted Attenuated (absorbed, scattered) Reflected Refracted

Traveling Signals - Basic Reflected Wave - Tr Source Transmitted Wave = Ts Propagating Wave - Tp Ideal Material

Traveling Signals - Basic Reflected Wave - Tr Ts=Tr+Tp+Ta or Tp = Ts Tr-Ta or Tr = Ts Tp -Ta Propagating Wave - Tp Source Transmitted Wave = Ts Some of the source wave is absorbed - Ta Non-Ideal Material (such as glass)

Traveling Signals With refraction Reflected Wave - Tr Propagating Wave - Tp Source Transmitted Wave = Ts Some of the source wave is absorbed - Ta Some Material or space.

Traveling Signals - Basic Propagating Wave - Tp Some of the source wave is absorbed - Ta Some Material (Ionosphere) Reflected Wave (Refracted) - Tr Source Transmitted Wave = Ts

Traveling Signals - Basic Propagating Wave Refracting through the atmosphere - Tp Some of the source wave is absorbed - Ta Some Material (Ionosphere) Reflected (Refracted) Wave - Tr Source Transmitted Wave = Ts

More On Refraction

More On Refraction

More On Refraction

Modes of Radio Signal Travel. Free Space This is the ideal mode of wave propagation. There is nothing to get in the way or to interact with the signal. In reality, this rarely ever occurs. The best environment to test this is in outer space, outside our solar system. On earth, in an anechoic chamber. Free Space and Open space are forms of direct wave propagation.

Modes of Radio Signal Travel. Open Space Similar to Free space except there are obstacles such as buildings, trees, hills, people. Buildings and hills can cause signals to be reflected or absorbed depending on the frequency. A phenomenon called knife edge refraction can diffract a signal around a corner. Trees, hills and people can absorb signals. These properties are most likely to be observed at VHF Frequencies (50 MHZ) and higher. Reflected signals can cause a receiver to see multiple signals of the same transmission (multipath).

Modes of Radio Signal Travel. Open Space From ARRL Amateur Radio Education and Technology Program

Modes of Radio Signal Travel. Ground Wave Ground wave propagation occurs at low frequencies. Typically 4 MHz and below. In ground wave propagation, the magnetic field of the RF signal couples with the earth. A vertically polarized antenna works well for this type of propagation. Often Ground Wave propagation is confused for Open Space (direct wave) propagation.

Modes of Radio Signal Travel. Sky Wave Radio signals are refracted or reflected off of the earths upper atmosphere the ionosphere. By bouncing a signal off the ionosphere, radio signals can travel great distances. The suns radiation acts directly on the atmosphere to ionize gas particles. The higher the ionization, the more radio signal reflection. The suns affect on the atmosphere changes based on the time of day and the solar activity as indicated by the sun spots.

Sky Wave & Refraction

Sky Wave & Refraction

The Atmosphere F1 and F2 Layers combine at night to form 1 layer. D Layer exists during the day. From Radio Electronics.com

The Atmosphere From the G7LRR Web Page

The Atmosphere From the G7LRR Web Page

Sky Waves As the charged particles of the ionosphere increases, the amount of RF reflection (refraction) also increases. This is called the critical frequency and is measured by looking at the highest frequency that can bounce of the atmosphere.

Critical Frequency Ionosphere 7 MHz 14 MHz Critical Freq is the max Freq that will be reflected 7 MHZ

Sky Waves The critical frequency is measured with a vertical signal, a signal point straight up. (Think NVIS antenna.) The upper limit of frequency that can be reflected can be increased by changing the angle that it hits the ionosphere. The sharper the angle, the higher the frequency until the maximum useable frequency (MUF) is achieved.

Maximum Usable Frequency (MUF) Ionosphere 28 MHZ 7 MHz 14 MHz

MUF MAP www.spacew.com/www/realtime.php

Predicting Propagation Follow the rules of the propagation summary. Higher Frequencies during the day, 14MHz 29 MHz. Lower Frequencies at night. 1.6MHz to 14 MHz During the solar minimum, Poor propagation on 10 MHz and higher, Good low frequency at night due to less atmospheric noise. During the solar maximum, Good propagation on 14 MHz and higher even into the evening. Poor low Frequency due to higher atmospheric noise.

Predicting Propagation MUF Forecast Monitor the Solar index http://www.wm7d.net/hamradio/solar/index.shtml http://www.anzadx.net/ www.arrl.org K7RA Solar Update Solar Flux index of 70 is low = poor DX Solar Flux of 110 is moderate = good DX Solar Flux of 150 is high = great DX Listen to HF Bands Listen to WWV

Predicting Propagation Listen to Beacons such as http://www.ncdxf.org/beacon/beaconschedule.html

Predicting Propagation Spotting Networks - http://www.dxscape.com

Predicting Propagation SFI Solar Flux Index A Index K Index Signal Noise Level Geomagnetic Field

Predicting Propagation

Propagation & Refraction

Propagation & Refraction

The Strange Knife Edge Diffraction Fresnel Zone Image from ualberta.ca Image from broadband buyer.com

The Unpredictable Sporadic E Affects Frequencies 28MHz to 222 MHz May be intense for short periods Tropospheric Ducting Can occur from changes in temperature, humidity and pressure. Occurs when refraction is so great radio waves are bent back to the surface. Magnetospheric Ducting A strange phenomenon where radio signals are believe to follow the earths magnetic field lines.

The End Refer to the ARRL Handbook Chapter 21 for more information on propagation. Refer to Radio Propagation Principles and Practice by Ian Poole, G3YWX Questions??? Tim Kuhlman,KD7RUS KD7RUS@ARRL.NET

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback