Antennas 101 The Basics. Ward Silver NØAX

Similar documents

Basic Wire Antennas. Part II: Loops and Verticals

Selecting Receiving Antennas for Radio Tracking

Antenna Glossary Before we talk about specific antennas, there are a few common terms that must be defined and explained:

Technician Licensing Class

Antenna Deployment Technical Brief

Antenna Patterns and Their Meaning

Just a Dipole. Gary Wescom N0GW July 16, 2007

EE302 Lesson 14: Antennas

Antenna Properties and their impact on Wireless System Performance. Dr. Steven R. Best. Cushcraft Corporation 48 Perimeter Road Manchester, NH 03013

5. ANTENNA TYPES. Figure 5. The vertical dipole and its electromagnetic equivalent, the vertical monopole

Avaya WLAN 9100 External Antennas for use with the WAO-9122 Access Point

40m-10m DELTA LOOP ANTENNA - GU3WHN

Designing Log Periodic Antennas

Antenna Basic Concepts

Modeling an 80/40/20M Fan Dipole for DX

The spiderbeam was developed as a DXpeditioner's dream antenna. It is a full size lightweight tribander yagi made of fiberglass and wire.

Inverted L vs. Vertical T antennas At the search of the best Tx antenna for a low-latitude location

HUMAN EXPOSURE TO EMR: ASSESSMENT OF AMATEUR RADIO STATIONS FOR COMPLIANCE WITH ACA REQUIREMENTS

The W5JCK Guide to the Mathematic Equations Required for the Amateur Extra Class Exam

Antenna Trainer EAN. Technical Teaching Equipment INTRODUCTION

Small HF Antennas ! The Small Space and Big Antenna Dilemma! Constraints

Electromagnetic radiation exposure: assessment against ACA mandated limits

1 Numerical Electromagnetics Code (NEC)

Applications in EMC testing. Outline. Antennas for EMC Testing. Terminology

This Antenna Basics reference guide includes basic information about antenna types, how antennas work, gain, and some installation examples.

Wire Antennas for Ham Radio

$1 SRD Antennas. Keywords. Introduction. Overview. By P. M. Evjen. PCB antenna design Body-worn and handheld antennas. Antenna theory Small antennas

Efficient 2 meter Disguise Antenna Made From a TV Satellite Dish

End Fed Antenna. Operating Manual. version 1.1

Coaxial Cable Feeder Influence on Yagi Antenna Dragoslav Dobričić, YU1AW

Antenna A mean for radiating and receiving radio waves Transitional structure between free-space and a guiding device. Application: Radiation

RADIATION PATTERNS. The half-power (-3 db) beamwidth is a measure of the directivity of the antenna.

Chapter 1 ANTENNA FUNDAMENTALS. Paul Wade W1GHZ (ex-n1bwt) 1994,1997,1998 ANTENNA BASICS

Understanding SWR by Example

Pillbox Antenna for 5.6 GHz Band Dragoslav Dobričić, YU1AW

40 Meter Mini-MOXON Beam Antenna. Designed, built, and presented by: Al Koblinski W7XA

EMC STANDARDS STANDARDS AND STANDARD MAKING BODIES. International. International Electrotechnical Commission (IEC)

Modeling and Measuring the Creative Design CLP5130-2N Log Periodic Antenna

Electromagnetic radiation exposure: assessment against ACA mandated limits

Weekend Antennas No. 1 A Bobtail Curtain for 2m

STACKING, PHASING and MATCHING YAGIS

My Top Five Backyard Multi-Band Wire HF Antennas

Antenna Measurement 1 Antenna Ranges antenna range

Printed Dipole Array Fed with Parallel Stripline for Ku-band Applications

Design of a Planar Omnidirectional Antenna for Wireless Applications

INVESTIGATION, DESIGN, CONSTRUCTION AND TESTING BROADBAND ANTENNA FOR RADIO TELESCOPE ARRAY RECEIVER

HF OPERATORS SMALL HF ANTENNAS Rev 1. John White VA7JW

Part I: Wireless System Characteristics

Newcomers and Elmers Net: More Wire Antennas Robert AK3Q

Loop Skywire Mysteries Explained?

Broadband Terminated Vee Beam Wire Antenna

Measurement of Antenna Radiation Patterns Laboratory Manual

2 Meter Half-Wave J-Pole Antenna From 450 Ohm Ladder Line

Radio Physics for Wireless Devices and Networking. The Radio Physics of WiFi. By Ron Vigneri

Minimum requirements for DVB-T receiving antennas for portable indoor and portable outdoor reception

VE3MLB Phased Double V Antenna for 75/80 Meter Band

Compact Integrated Antennas

Understanding Range for RF Devices

A comparison of radio direction-finding technologies. Paul Denisowski, Applications Engineer Rohde & Schwarz

Experiment 8: Undriven & Driven RLC Circuits

The Gamma Match. 1 Equal Size Elements

ProCurve External Access Point Antennas

ISS Minimalist Antenna

Sensor and Simulation Notes. Note 479. October A Dual-Polarity Impulse Radiating Antenna

A Broadband Hexbeam. Steve Hunt, G3TXQ

'' EGGBEATER '' ANTENNA VHF/UHF ~ PART 2

Rec. ITU-R F RECOMMENDATION ITU-R F *

Current Probes, More Useful Than You Think

Portable HF Antennas. Presented to the Stamford Amateur Radio Association. by Jon Perelstein. Copyright 2010 Jon Perelstein 1

ElectroMagnetic Induction. AP Physics B

ZS6BKW vs G5RV. Antenna Patterns/SWR at 40 ft Center height, 27 ft end height ~148 Degree Included Angle

Broadband Single and Dual Band iret Remote Electrical Tilt (RET) Indoor Clean Site Solutions Mounting Solutions

There are at least six ways to go about loading a short vertical monopole.

An equivalent circuit of a loop antenna.

An octave bandwidth dipole antenna

Omni Antenna vs. Directional Antenna

The VHF / UHF «Eggbeater» Antenna ~ Revisited ~

NVIS ANTENNA THEORY AND DESIGN

We ve Bent The Rules. AR s Bent-Element Approach Provides A Size Reduction Of Up To 75%, Along With Great Performance.

Cheap Antennas for the AMSAT LEO's Kent Britain -- WA5VJB

Small Antennas for High Frequencies

Analysis of the G3LTF Dual Band Feed for 23cm and 13cm Paul Wade W1GHZ 2004

My Loop Antenna. Stephen E. Sussman-Fort, Ph.D. AB2EW.

Cellular Wireless Antennas

Boom Influence on Yagi Antenna Dragoslav Dobričić, YU1AW (Serbia)

Flexible PCB Antenna with Cable Integration Application Note Version 2

Helical Feed Antennas Paul Wade W1GHZ 2002

BASIC ELECTRONICS AC CIRCUIT ANALYSIS. December 2011

A Tutorial on the Decibel

Antennas & Transmission Lines

700 and 800 MHz Band Slot Antennas

A Parasitic Lindenblad Antenna for 70cm

TEST REPORT INVESTIGATION OF THE FAR-FIELD RADIATION GAIN PATTERN OF THE 20-METER BACKPACKER EH ANTENNA. 23 March 2003

PHYS 222 Spring 2012 Final Exam. Closed books, notes, etc. No electronic device except a calculator.

Laboratory #6: Dipole and Monopole Antenna Design

1. The diagram below represents magnetic lines of force within a region of space.

Keysight Technologies Understanding the Fundamental Principles of Vector Network Analysis. Application Note

m Antenna Subnet Telecommunications Interfaces

Review Paper for Broadband CPW-Fed T-Shape Slot Antenna

Internal GPS Active Patch Antenna Application Note

Transcription:

Antennas 101 The Basics Ward Silver NØAX

The Basics - 1 Antennas radiate (or receive) because electrons are accelerated (or are caused to accelerate) in the antenna s elements Radio or electromagnetic waves are both an E- (electric) and H- (magnetic) field Electrons move parallel to E-fields Strongest radiation from accelerating electrons linearly (back and forth) Antennas 101 2

The Basics - 2 The orientation of the E-field determines the polarization of the wave because that s what makes the electrons move (current) Antennas transmit & receive radio waves in the same way The radiation pattern shows how antennas distribute energy in space Antennas 101 3

The Basics - 3 decibels (db) = 10 log (power ratio) Impedance = ratio of Voltage to Current Feed point - place where power is applied Antennas 101 4

The Basics - 4-1 db from the maximum gain reference value Azimuthal Pattern Antennas 101 5

The Basics - 5 Elevation Pattern Antennas 101 6

The Basics - 6 Front-to-Back, Front-to-Side, and Frontto-Rear ratios Front-to-Rear ratio based on an average across 90 or 180 degrees behind the antenna in the pattern s rear quadrant(s) Antennas 101 7

The Basics - 6 Rear Back Front Side Antennas 101 8

The Basics - 6 Beamwidth - angular width of main lobe Angle between the two points at which power is ½ that at the peak (-3 db points) Antennas 101 9

The Basics - 6-3 db Beamwidth 68 Antennas 101 10

The Basics - 7 Gain measures re-distribution of energy Gain is a comparison of antennas Gain is always with respect to a reference dbi (isotropic), dbd (free-space /2 dipole) /2 dipole has 2.15 dbi gain Ground-plane gain equivalent to /2 dipole 3-element Yagi may have up to 5 dbd gain Antennas 101 11

QUESTIONS?? Antennas 101 12

The Dipole - 1 Oldest and simplest form of antenna Di (two) Pole (voltage polarity) Usually 1/2-wavelength long Similar to a vibrating string s fundamental Current maximum in the middle Voltage maximum at the ends Pattern repeats every 1/2-wavelength Direction or amplitude is reversed Antennas 101 13

The Dipole - 2 Current maximum (I) feed point Voltage minimum (V) 1/2 wavelength IMPORTANT!!! V I A /2 B C /2 /2 Antennas 101 14

The Dipole - 3 Free-space wavelength ( ) = c / f or 300 / f in MHz (in meters) /2 = 492 / f in MHz (in feet) Length-to-diameter effect Makes the antenna a little longer electrically Thicker conductors are longer electrically Effect of height on electrical length 460/f to 490/f (rarely 468/f) Antennas 101 15

The Dipole - 4 Radiated energy is strongest perpendicular to an electron s motion electrons move along the length of a dipole radiation strongest broadside to the dipole Antennas 101 16

The Dipole - 4 Directions of Minimum Radiation Directions of Maximum Radiation Dipole Axis Radiation Pattern Antennas 101 17

The Dipole - 5 Feed point impedance varies with position High at the ends and low in the middle Resonance feed point impedance all resistive, no reactance Z = R + j 0 ohms Doesn t matter what R is (any value, not just 50 Ω) Antennas 101 18

The Dipole - 5 Current Maximum (I) feed point Voltage Minimum (V) 1/2 wavelength High Z Low Z H L H V L I H A /2 B C /2 /2 Antennas 101 19

The Dipole - 6 Inverted-Vee is a bent dipole Radiation pattern adds the effect of ground gain from reflections Can add as much as 6 db over free space Free-space gain best comparative measure Ground gain varies with height and with ground conductivity Antennas 101 20

The Dipole - 6 35 /2 ground Inverted-Vee Radiation Pattern /2 Antennas 101 21

QUESTIONS?? Antennas 101 22

The Ground Plane - 1 Start with a vertical dipole in free-space Cut off one half of the dipole Replace the missing half with a ground plane or counterpoise Omnidirectional if oriented vertically Also called a monopole Antennas 101 23

The Ground Plane - 2 Antennas 101 24

The Ground Plane - 3 Antennas 101 25

The Ground Plane - 4 Equal radiation broadside Nulls along the axis Antennas 101 26

The Ground Plane - 5 Length (ft) 234 / f (MHz) 231 / f if #14 wire used, - 221 if 5/8 tubing Feed point impedance 35 Ω if radials used, sloping increases feed point impedance approximately 45 of droop gives best match halfway between dipole (72 Ω) and ground plane (35 Ω) Antennas 101 27

Useful References and Books ARRL Publications Antenna Book, Basic Antennas Compendium and Classics series RSGB Publications Practical Wire Antennas and HF Antennas for all Locations CQ Communications Sevick s and Maxwell s books on xmsn lines, baluns Vertical Handbook, All About Quads Antennas 101 28

Useful On-Line References ARRL Technical Information Service AC6V.com and Dxzone.com L.B. Cebik s web site - www.cebik.com Part of the Antennex.com site (subscription) Antennas and TowerTalk reflectors at www.contesting.com Antennas 101 29

Thank You! Antennas 101 30