[Chap 13] • Long-Wire & Traveling-Wave Antennas by ARRL -- Read -- Imperial Library of Trantor

Index

Introduction to the CD-ROM Edition

Using this CD Installing Adobe Acrobat Reader

Using this CD Installing Adobe Acrobat Reader The ARRL Antenna Book, 20th Edition

Covers Contributors Copyright Foreword Contents Schematic Symbols Used in Circuit Diagrams About the ARRL Feedback

Covers Contributors Copyright Foreword Contents Schematic Symbols Used in Circuit Diagrams About the ARRL Feedback Chapter 1 - Safety First

Tower Safety

CLOTHING SAFETY BELT & CLIMBING ACCESSORIES THE GIN POLE INSTALLING ANTENNAS ON THE TOWER SOME TOWER CLIMBING TIPS THE TOWER SHIELD

CLOTHING SAFETY BELT & CLIMBING ACCESSORIES THE GIN POLE INSTALLING ANTENNAS ON THE TOWER SOME TOWER CLIMBING TIPS THE TOWER SHIELD Electrical Safety

AC & DC SAFETY

AC & DC SAFETY Lightning and EMP Protection

ELECTROMAGNETIC PULSE & THE RADIO AMATEUR

ELECTROMAGNETIC PULSE & THE RADIO AMATEUR RF Radiation and Electromagnetic Field Safety

THERMAL EFFECTS OF RF ENERGY ATHERMAL EFFECTS OF EMR

Tower Safety

CLOTHING SAFETY BELT & CLIMBING ACCESSORIES THE GIN POLE INSTALLING ANTENNAS ON THE TOWER SOME TOWER CLIMBING TIPS THE TOWER SHIELD

CLOTHING SAFETY BELT & CLIMBING ACCESSORIES THE GIN POLE INSTALLING ANTENNAS ON THE TOWER SOME TOWER CLIMBING TIPS THE TOWER SHIELD Electrical Safety

AC & DC SAFETY

AC & DC SAFETY Lightning and EMP Protection

ELECTROMAGNETIC PULSE & THE RADIO AMATEUR

ELECTROMAGNETIC PULSE & THE RADIO AMATEUR RF Radiation and Electromagnetic Field Safety

THERMAL EFFECTS OF RF ENERGY ATHERMAL EFFECTS OF EMR

THERMAL EFFECTS OF RF ENERGY ATHERMAL EFFECTS OF EMR Chapter 2 - Antenna Fundamentals

Essential Characteristics of Antennas

FEED-POINT IMPEDANCE ANTENNA DIRECTIVITY & GAIN POLARIZATION

FEED-POINT IMPEDANCE ANTENNA DIRECTIVITY & GAIN POLARIZATION Other Antenna Characteristics

RECIPROCITY IN RECEIVING & TRANSMITTING FREQUENCY SCALING

RECIPROCITY IN RECEIVING & TRANSMITTING FREQUENCY SCALING The Vertical Monopole BIBLIOGRAPHY TEXTBOOKS ON ANTENNAS

Essential Characteristics of Antennas

FEED-POINT IMPEDANCE ANTENNA DIRECTIVITY & GAIN POLARIZATION

FEED-POINT IMPEDANCE ANTENNA DIRECTIVITY & GAIN POLARIZATION Other Antenna Characteristics

RECIPROCITY IN RECEIVING & TRANSMITTING FREQUENCY SCALING

RECIPROCITY IN RECEIVING & TRANSMITTING FREQUENCY SCALING The Vertical Monopole BIBLIOGRAPHY TEXTBOOKS ON ANTENNAS Chapter 3 - The Effects of Ground

The Effects of Ground in the Reactive Near Field

FEED-POINT IMPEDANCE VS HEIGHT ABOVE GROUND GROUND SYSTEMS FOR VERTICAL MONOPOLES

FEED-POINT IMPEDANCE VS HEIGHT ABOVE GROUND GROUND SYSTEMS FOR VERTICAL MONOPOLES The Effect of Ground in the Far Field

FAR-FIELD GROUND REFLECTIONS & THE VERTICAL ANTENNA THE PSEUDO-BREWSTER ANGLE & THE VERTICAL ANTENNA FLAT-GROUND REFLECTIONS & HORIZONTALLY POLARIZED WAVES DEPTH OF RF CURRENT PENETRATION DIRECTIVE PATTERNS OVER REAL GROUND

WHAT IS THE RANGE OF ELEVATION ANGLES NEEDED? DRAWBACKS OF COMPUTER MODELS FOR ANTENNAS OVER REAL TERRAIN RAY-TRACING OVER UNEVEN LOCAL TERRAIN SIMULATION OF REALITY--SOME SIMPLE EXAMPLES FIRST USING HFTA

The Effects of Ground in the Reactive Near Field

FEED-POINT IMPEDANCE VS HEIGHT ABOVE GROUND GROUND SYSTEMS FOR VERTICAL MONOPOLES

FEED-POINT IMPEDANCE VS HEIGHT ABOVE GROUND GROUND SYSTEMS FOR VERTICAL MONOPOLES The Effect of Ground in the Far Field

OVERVIEW: ANTENNA ANALYSIS BY COMPUTER THE BASICS OF ANTENNA MODELING PROGRAM OUTPUTS PROGRAM INPUTS: WIRE GEOMETRY

Coordinates in an X, Y and Z World Segmentation and Specifying a Source Segment Some Caveats and Limitations Concerning Geometry Some Other Practical Antenna Geometries

Coordinates in an X, Y and Z World Segmentation and Specifying a Source Segment Some Caveats and Limitations Concerning Geometry Some Other Practical Antenna Geometries THE MODELING ENVIRONMENT

The Ground Modeling Environment: Frequency Frequency Scaling

The Ground Modeling Environment: Frequency Frequency Scaling REVISITING SOURCE SPECIFICATION

Sensitivity to Source Placement Voltage and Current Sources

Sensitivity to Source Placement Voltage and Current Sources LOADS ACCURACY TESTS

Convergence Test Average Gain Test

Convergence Test Average Gain Test OTHER POSSIBLE MODEL LIMITATIONS

Closely Spaced Wires Fat Wires Connected to Skinny Wires

Closely Spaced Wires Fat Wires Connected to Skinny Wires NEAR-FIELD OUTPUTS ANTENNA MODELING SUMMARY Practical Aspects, Designing Your Antenna System

WHAT DO YOU REALLY WANT? SITE PLANNING ANALYSIS BUILDING THE SYSTEM COMPROMISES EXAMPLES ANOTHER EXAMPLE

WHAT DO YOU REALLY WANT? SITE PLANNING ANALYSIS BUILDING THE SYSTEM COMPROMISES EXAMPLES ANOTHER EXAMPLE Apartment Possibilities Antennas for Limited Space

INVISIBLE ANTENNAS IINDOOR ANTENNAS THE RESONANT BREAKER

INVISIBLE ANTENNAS IINDOOR ANTENNAS THE RESONANT BREAKER Construction Details and Practical Considerations

END EFFECT INSULATORS INSTALLING TRANSMISSION LINES RUNNING THE FEED LINE FROM THE ANTENNA TO THE STATION LIGHTNING PROTECTION

OVERVIEW: ANTENNA ANALYSIS BY COMPUTER THE BASICS OF ANTENNA MODELING PROGRAM OUTPUTS PROGRAM INPUTS: WIRE GEOMETRY

Coordinates in an X, Y and Z World Segmentation and Specifying a Source Segment Some Caveats and Limitations Concerning Geometry Some Other Practical Antenna Geometries

Coordinates in an X, Y and Z World Segmentation and Specifying a Source Segment Some Caveats and Limitations Concerning Geometry Some Other Practical Antenna Geometries THE MODELING ENVIRONMENT

The Ground Modeling Environment: Frequency Frequency Scaling

The Ground Modeling Environment: Frequency Frequency Scaling REVISITING SOURCE SPECIFICATION

Sensitivity to Source Placement Voltage and Current Sources

Sensitivity to Source Placement Voltage and Current Sources LOADS ACCURACY TESTS

Convergence Test Average Gain Test

Convergence Test Average Gain Test OTHER POSSIBLE MODEL LIMITATIONS

Closely Spaced Wires Fat Wires Connected to Skinny Wires

Closely Spaced Wires Fat Wires Connected to Skinny Wires NEAR-FIELD OUTPUTS ANTENNA MODELING SUMMARY Practical Aspects, Designing Your Antenna System

WHAT DO YOU REALLY WANT? SITE PLANNING ANALYSIS BUILDING THE SYSTEM COMPROMISES EXAMPLES ANOTHER EXAMPLE

WHAT DO YOU REALLY WANT? SITE PLANNING ANALYSIS BUILDING THE SYSTEM COMPROMISES EXAMPLES ANOTHER EXAMPLE Apartment Possibilities Antennas for Limited Space

INVISIBLE ANTENNAS IINDOOR ANTENNAS THE RESONANT BREAKER

INVISIBLE ANTENNAS IINDOOR ANTENNAS THE RESONANT BREAKER Construction Details and Practical Considerations

END EFFECT INSULATORS INSTALLING TRANSMISSION LINES RUNNING THE FEED LINE FROM THE ANTENNA TO THE STATION LIGHTNING PROTECTION

END EFFECT INSULATORS INSTALLING TRANSMISSION LINES RUNNING THE FEED LINE FROM THE ANTENNA TO THE STATION LIGHTNING PROTECTION Chapter 5 - Loop Antennas

Half-Wave Loops One-Wavelength Loops Small Loop Antennas

The Basic Loop TUNED LOOPS LOOP Q FERRITE-CORE LOOP ANTENNAS PROPAGATION EFFECTS ON NULL DEPTH SITING EFFECTS ON THE LOOP LOOP ANTENNA ARRAYS SMALL TRANSMITTING LOOP ANTENNAS PRACTICAL COMPACT TRANSMITTING LOOPS TYPICAL LOOP CONSTRUCTION

THE DESIGN CONSTRUCTION

THE DESIGN CONSTRUCTION 7-MHz Loop A Receiving Loop for 1.8 MHz An Indoor Stealth Loop BIBLIOGRAPHY

Half-Wave Loops One-Wavelength Loops Small Loop Antennas

THE DESIGN CONSTRUCTION

THE DESIGN CONSTRUCTION 7-MHz Loop A Receiving Loop for 1.8 MHz An Indoor Stealth Loop BIBLIOGRAPHY Chapter 6 - Low-Frequency Antennas

The Importance of Low Angles on the Low Bands Short/Medium-Range Communications

HAM RADIO RESPONSE IN NATURAL DISASTERS GEOGRAPHIC COVERAGE FOR NVIS CHOOSING THE RIGHT NVIS FREQUENCY SOME OTHER OBSERVATIONS ABOUT NVIS--STRATEGY SOME OTHER OBSERVATIONS ABOUT NVIS--ANTENNA HEIGHT LOW NVIS ANTENNAS AND LOCAL POWERLINE NOISE ELEVATION ANGLES FOR MODERATE DISTANCES ON 75/80 METERS ELEVATION ANGLES FOR MODERATE DISTANCES ON 40 METERS NVIS SUMMARY

DIPOLE ANTENNAS PHASED HORIZONTAL ARRAYS A MODIFIED EXTENDED DOUBLE ZEPP

DIPOLE ANTENNAS PHASED HORIZONTAL ARRAYS A MODIFIED EXTENDED DOUBLE ZEPP Vertical Antennas

THE HALF-WAVE VERTICAL DIPOLE (HVD) MONOPOLE VERTICALS WITH GROUND PLANE RADIALS ELEVATED RADIALS & COUNTERPOISES GROUND-PLANE ANTENNAS EXAMPLES OF VERTICALS 1.8 TO 3.5-MHz VERTICAL USING AN EXISTING TOWER SIMPLE, EFFECTIVE, ELEVATED GROUND-PLANE ANTENNAS PHASED VERTICALS

The Half-Square Antenna

The Half-Square Antenna Short Vertical Antennas

BASE LOADING A SHORT VERTICAL ANTENAN OTHER WAYS OF LOADING A SHORT ANTENNA FOR RESONANCE THE COMPACT VERTICAL DIPOLE LINEAR LOADING COMBINED LOADING SHORTENING THE RADIALS EXAMPLES OF SHORT VERTICALS SHORTENED DIPOLES

A DIFFERENT APPROACH

A DIFFERENT APPROACH Sloper Antennas

THE HALF-WAVE SLOPING DIPOLE THE QUARTER-WAVELENGTH "HALF SLOPER" 1.8-MHz ANTENNA SYSTEMS USING TOWERS THE K1WA 7-MHz "SLOPER SYSTEM"

THE HALF-WAVE SLOPING DIPOLE THE QUARTER-WAVELENGTH "HALF SLOPER" 1.8-MHz ANTENNA SYSTEMS USING TOWERS THE K1WA 7-MHz "SLOPER SYSTEM" BIBLIOGRAPHY

The Importance of Low Angles on the Low Bands Short/Medium-Range Communications

DIPOLE ANTENNAS PHASED HORIZONTAL ARRAYS A MODIFIED EXTENDED DOUBLE ZEPP

DIPOLE ANTENNAS PHASED HORIZONTAL ARRAYS A MODIFIED EXTENDED DOUBLE ZEPP Vertical Antennas

The Half-Square Antenna

The Half-Square Antenna Short Vertical Antennas

A DIFFERENT APPROACH

A DIFFERENT APPROACH Sloper Antennas

THE HALF-WAVE SLOPING DIPOLE THE QUARTER-WAVELENGTH "HALF SLOPER" 1.8-MHz ANTENNA SYSTEMS USING TOWERS THE K1WA 7-MHz "SLOPER SYSTEM"

THE HALF-WAVE SLOPING DIPOLE THE QUARTER-WAVELENGTH "HALF SLOPER" 1.8-MHz ANTENNA SYSTEMS USING TOWERS THE K1WA 7-MHz "SLOPER SYSTEM" BIBLIOGRAPHY Chapter 7 - Multiband Antennas

Simple Wire Antennas

END-FED ANTENNAS CENTER-FED ANTENNAS THE 135-FOOT, 80 TO 100-METER DIPOLE THE G5RV MULTIBAND ANTENNA THE WINDOM ANTENNA MULTIPLE-DIPOLE ANTENNAS OFF-CENTER-FED DIPOLES

END-FED ANTENNAS CENTER-FED ANTENNAS THE 135-FOOT, 80 TO 100-METER DIPOLE THE G5RV MULTIBAND ANTENNA THE WINDOM ANTENNA MULTIPLE-DIPOLE ANTENNAS OFF-CENTER-FED DIPOLES Trap Antennas

Trap Losses FIVE-BAND W3DZZ TRAP ANTENNA TWO W8NX MULTIBAND, COAX-TRAP DIPOLES

Trap Losses FIVE-BAND W3DZZ TRAP ANTENNA TWO W8NX MULTIBAND, COAX-TRAP DIPOLES Multiband Vertical Antennas

A TRAP VERTICAL FOR 21 & 28 MHz

A TRAP VERTICAL FOR 21 & 28 MHz The Open-Sleeve Antenna

Practical Construction and Evaluation

Practical Construction and Evaluation The Coupled-Resonator Dipole

The Coupled-Resonator Principle Some History A Little Math Characteristics of C-R Antennas A 30/17/12-Meter Dipole Summary

The Coupled-Resonator Principle Some History A Little Math Characteristics of C-R Antennas A 30/17/12-Meter Dipole Summary HF Discone Antennas

History of the Discone W8NWF's First Discone: the A-Frame Discone A Really Big Discone Radiation Patterns for the Discones

History of the Discone W8NWF's First Discone: the A-Frame Discone A Really Big Discone Radiation Patterns for the Discones Harmonic Radiation from Multiband Antennas BIBLIOGRAPHY

Simple Wire Antennas

END-FED ANTENNAS CENTER-FED ANTENNAS THE 135-FOOT, 80 TO 100-METER DIPOLE THE G5RV MULTIBAND ANTENNA THE WINDOM ANTENNA MULTIPLE-DIPOLE ANTENNAS OFF-CENTER-FED DIPOLES

END-FED ANTENNAS CENTER-FED ANTENNAS THE 135-FOOT, 80 TO 100-METER DIPOLE THE G5RV MULTIBAND ANTENNA THE WINDOM ANTENNA MULTIPLE-DIPOLE ANTENNAS OFF-CENTER-FED DIPOLES Trap Antennas

Trap Losses FIVE-BAND W3DZZ TRAP ANTENNA TWO W8NX MULTIBAND, COAX-TRAP DIPOLES

Trap Losses FIVE-BAND W3DZZ TRAP ANTENNA TWO W8NX MULTIBAND, COAX-TRAP DIPOLES Multiband Vertical Antennas

A TRAP VERTICAL FOR 21 & 28 MHz

A TRAP VERTICAL FOR 21 & 28 MHz The Open-Sleeve Antenna

Practical Construction and Evaluation

Practical Construction and Evaluation The Coupled-Resonator Dipole

The Coupled-Resonator Principle Some History A Little Math Characteristics of C-R Antennas A 30/17/12-Meter Dipole Summary

The Coupled-Resonator Principle Some History A Little Math Characteristics of C-R Antennas A 30/17/12-Meter Dipole Summary HF Discone Antennas

History of the Discone W8NWF's First Discone: the A-Frame Discone A Really Big Discone Radiation Patterns for the Discones

History of the Discone W8NWF's First Discone: the A-Frame Discone A Really Big Discone Radiation Patterns for the Discones Harmonic Radiation from Multiband Antennas BIBLIOGRAPHY Chapter 8 - Multielement Arrays

DEFINITIONS

Phase Ground Effects

Phase Ground Effects MUTUAL IMPEDANCE

Amplitude of Induced Current Phase Relationships Tuning Conditions

Amplitude of Induced Current Phase Relationships Tuning Conditions MUTUAL IMPEDANCE & GAIN GAIN & ARRAY DIMENSIONS PARASITIC ARRAYS Driven Arrays

Current Distribution in Phased Arrays

Current Distribution in Phased Arrays Phased Array Techniques

OVERVIEW FUNDAMENTALS OF PHASED ARRAYS

Radiation Efficiency Field Reinforcement and Cancellation Gain Nulls Mutual Coupling Loss Resistance, Mutual Coupling & Antenna Gain

Radiation Efficiency Field Reinforcement and Cancellation Gain Nulls Mutual Coupling Loss Resistance, Mutual Coupling & Antenna Gain FEEDING PHASED ARRAYS

The Role of Element Currents Feed-point vs Element Current

The Role of Element Currents Feed-point vs Element Current COMMON PHASED-ARRAY FEED SYSTEMS

The "Phasing-Line" Approach The Wilkinson Divider The Hybrid Coupler Large Array Feed Systems The Broadcast Approach The "Magic Bullet"

The "Phasing-Line" Approach The Wilkinson Divider The Hybrid Coupler Large Array Feed Systems The Broadcast Approach The "Magic Bullet" RECOMMENDED FEED METHODS FOR AMATEUR ARRAYS

Current Forcing with Quarter-Wave Lines--Elements In-Phase or 180° Out-of-Phase "The Simplest Phased Array Feed System--That Works" An Adjustable L-Network Feed System Additional Considerations

Feeding 4-Element and Larger Arrays What if the Elements Aren't Identical Shunt and Gamma Fed Towers & Elements Loading, Matching & Other Networks Baluns in Phased Arrays Receiving Arrays

Current Forcing with Quarter-Wave Lines--Elements In-Phase or 180° Out-of-Phase "The Simplest Phased Array Feed System--That Works" An Adjustable L-Network Feed System Additional Considerations

Feeding 4-Element and Larger Arrays What if the Elements Aren't Identical Shunt and Gamma Fed Towers & Elements Loading, Matching & Other Networks Baluns in Phased Arrays Receiving Arrays

OVERVIEW FUNDAMENTALS OF PHASED ARRAYS

Radiation Efficiency Field Reinforcement and Cancellation Gain Nulls Mutual Coupling Loss Resistance, Mutual Coupling & Antenna Gain

Radiation Efficiency Field Reinforcement and Cancellation Gain Nulls Mutual Coupling Loss Resistance, Mutual Coupling & Antenna Gain FEEDING PHASED ARRAYS

The Role of Element Currents Feed-point vs Element Current

The Role of Element Currents Feed-point vs Element Current COMMON PHASED-ARRAY FEED SYSTEMS

The "Phasing-Line" Approach The Wilkinson Divider The Hybrid Coupler Large Array Feed Systems The Broadcast Approach The "Magic Bullet"

The "Phasing-Line" Approach The Wilkinson Divider The Hybrid Coupler Large Array Feed Systems The Broadcast Approach The "Magic Bullet" RECOMMENDED FEED METHODS FOR AMATEUR ARRAYS

Current Forcing with Quarter-Wave Lines--Elements In-Phase or 180° Out-of-Phase "The Simplest Phased Array Feed System--That Works" An Adjustable L-Network Feed System Additional Considerations

Feeding 4-Element and Larger Arrays What if the Elements Aren't Identical Shunt and Gamma Fed Towers & Elements Loading, Matching & Other Networks Baluns in Phased Arrays Receiving Arrays

Current Forcing with Quarter-Wave Lines--Elements In-Phase or 180° Out-of-Phase "The Simplest Phased Array Feed System--That Works" An Adjustable L-Network Feed System Additional Considerations

Feeding 4-Element and Larger Arrays What if the Elements Aren't Identical Shunt and Gamma Fed Towers & Elements Loading, Matching & Other Networks Baluns in Phased Arrays Receiving Arrays

Feeding 4-Element and Larger Arrays What if the Elements Aren't Identical Shunt and Gamma Fed Towers & Elements Loading, Matching & Other Networks Baluns in Phased Arrays Receiving Arrays Phased Array Design Examples

General Array Design Considerations Choosing Arrayfeed1 Solutions 90° Fed, 90° Spaced Array

"Simplest" (Transmission Line Only) Feed System L Network Feed System Pattern Verification & Effect of Loss Resistance--"Simplest" System

"Simplest" (Transmission Line Only) Feed System L Network Feed System Pattern Verification & Effect of Loss Resistance--"Simplest" System A Three-Element Binomial Broadside Array A "Four-Square" Array

"Simplest" (Transmission Line Only) Feed System L-Network Feed System

"Simplest" (Transmission Line Only) Feed System L-Network Feed System A Four-Element Rectangular Array

"Simplest" (Transmission-Line Only) Feed System L-Network Feed System

"Simplest" (Transmission-Line Only) Feed System L-Network Feed System 120° Fed, 60° Spaced Dipole Array

"Simplest (Transmission Line Only) Feed System L-Network Feed System

"Simplest (Transmission Line Only) Feed System L-Network Feed System PRACTICAL ASPECTS OF PHASED ARRAY DESIGN

Adjusting Phased Array Feed Systems Measuring Element Currents Directional Switching of Arrays Basic Switching Methods Powering Relays Through Feed Lines Improving Array-Switching Systems Measuring the Electrical Length of Feed Lines Measuring Mutual Impedance

General Array Design Considerations Choosing Arrayfeed1 Solutions 90° Fed, 90° Spaced Array

"Simplest" (Transmission Line Only) Feed System L Network Feed System Pattern Verification & Effect of Loss Resistance--"Simplest" System

"Simplest" (Transmission Line Only) Feed System L-Network Feed System

"Simplest" (Transmission Line Only) Feed System L-Network Feed System A Four-Element Rectangular Array

"Simplest" (Transmission-Line Only) Feed System L-Network Feed System

"Simplest" (Transmission-Line Only) Feed System L-Network Feed System 120° Fed, 60° Spaced Dipole Array

"Simplest (Transmission Line Only) Feed System L-Network Feed System

"Simplest (Transmission Line Only) Feed System L-Network Feed System PRACTICAL ASPECTS OF PHASED ARRAY DESIGN

COLLINEAR ARRAYS POWER GAIN DIRECTIVITY TWO-ELEMENT ARRAYS THREE- & FOUR-ELEMENT ARRAYS ADJUSTMENT THE EXTENDED DOUBLE ZEPP THE STERBA ARRAY

COLLINEAR ARRAYS POWER GAIN DIRECTIVITY TWO-ELEMENT ARRAYS THREE- & FOUR-ELEMENT ARRAYS ADJUSTMENT THE EXTENDED DOUBLE ZEPP THE STERBA ARRAY Parallel Broadside Arrays

POWER GAIN DIRECTIVITY

POWER GAIN DIRECTIVITY Other Forms Of Broadside Arrays

NON-UNIFORM ELEMENT CURRENTS HALF-SQUARE ANTENNA BOBTAIL CURTAIN THE BRUCE ARRAY FOUR-ELEMENT BROADSIDE ARRAY THE BI-SQUARE ANTENNA

NON-UNIFORM ELEMENT CURRENTS HALF-SQUARE ANTENNA BOBTAIL CURTAIN THE BRUCE ARRAY FOUR-ELEMENT BROADSIDE ARRAY THE BI-SQUARE ANTENNA End-Fire Arrays

TWO-ELEMENT END-FIRE ARRAY THE W8JK ARRAY FOUR-ELEMENT END-FIRE & COLLINEAR ARRAYS FOUR-ELEMENT DRIVEN ARRAYS EIGHT-ELEMENT DRIVEN ARRAYS PHASING ARROWS IN ARRAY ELEMENTS

TWO-ELEMENT END-FIRE ARRAY THE W8JK ARRAY FOUR-ELEMENT END-FIRE & COLLINEAR ARRAYS FOUR-ELEMENT DRIVEN ARRAYS EIGHT-ELEMENT DRIVEN ARRAYS PHASING ARROWS IN ARRAY ELEMENTS BIBLIOGRAPHY Appendix A--EZNEC-ARRL Examples

DEFINITIONS

Phase Ground Effects

Phase Ground Effects MUTUAL IMPEDANCE

Amplitude of Induced Current Phase Relationships Tuning Conditions

Amplitude of Induced Current Phase Relationships Tuning Conditions MUTUAL IMPEDANCE & GAIN GAIN & ARRAY DIMENSIONS PARASITIC ARRAYS Driven Arrays

Current Distribution in Phased Arrays

Current Distribution in Phased Arrays Phased Array Techniques

OVERVIEW FUNDAMENTALS OF PHASED ARRAYS

Radiation Efficiency Field Reinforcement and Cancellation Gain Nulls Mutual Coupling Loss Resistance, Mutual Coupling & Antenna Gain

Radiation Efficiency Field Reinforcement and Cancellation Gain Nulls Mutual Coupling Loss Resistance, Mutual Coupling & Antenna Gain FEEDING PHASED ARRAYS

The Role of Element Currents Feed-point vs Element Current

The Role of Element Currents Feed-point vs Element Current COMMON PHASED-ARRAY FEED SYSTEMS

The "Phasing-Line" Approach The Wilkinson Divider The Hybrid Coupler Large Array Feed Systems The Broadcast Approach The "Magic Bullet"

The "Phasing-Line" Approach The Wilkinson Divider The Hybrid Coupler Large Array Feed Systems The Broadcast Approach The "Magic Bullet" RECOMMENDED FEED METHODS FOR AMATEUR ARRAYS

Current Forcing with Quarter-Wave Lines--Elements In-Phase or 180° Out-of-Phase "The Simplest Phased Array Feed System--That Works" An Adjustable L-Network Feed System Additional Considerations

Feeding 4-Element and Larger Arrays What if the Elements Aren't Identical Shunt and Gamma Fed Towers & Elements Loading, Matching & Other Networks Baluns in Phased Arrays Receiving Arrays

Current Forcing with Quarter-Wave Lines--Elements In-Phase or 180° Out-of-Phase "The Simplest Phased Array Feed System--That Works" An Adjustable L-Network Feed System Additional Considerations

Feeding 4-Element and Larger Arrays What if the Elements Aren't Identical Shunt and Gamma Fed Towers & Elements Loading, Matching & Other Networks Baluns in Phased Arrays Receiving Arrays

OVERVIEW FUNDAMENTALS OF PHASED ARRAYS

Radiation Efficiency Field Reinforcement and Cancellation Gain Nulls Mutual Coupling Loss Resistance, Mutual Coupling & Antenna Gain

Radiation Efficiency Field Reinforcement and Cancellation Gain Nulls Mutual Coupling Loss Resistance, Mutual Coupling & Antenna Gain FEEDING PHASED ARRAYS

The Role of Element Currents Feed-point vs Element Current

The Role of Element Currents Feed-point vs Element Current COMMON PHASED-ARRAY FEED SYSTEMS

The "Phasing-Line" Approach The Wilkinson Divider The Hybrid Coupler Large Array Feed Systems The Broadcast Approach The "Magic Bullet"

The "Phasing-Line" Approach The Wilkinson Divider The Hybrid Coupler Large Array Feed Systems The Broadcast Approach The "Magic Bullet" RECOMMENDED FEED METHODS FOR AMATEUR ARRAYS

Current Forcing with Quarter-Wave Lines--Elements In-Phase or 180° Out-of-Phase "The Simplest Phased Array Feed System--That Works" An Adjustable L-Network Feed System Additional Considerations

Feeding 4-Element and Larger Arrays What if the Elements Aren't Identical Shunt and Gamma Fed Towers & Elements Loading, Matching & Other Networks Baluns in Phased Arrays Receiving Arrays

Current Forcing with Quarter-Wave Lines--Elements In-Phase or 180° Out-of-Phase "The Simplest Phased Array Feed System--That Works" An Adjustable L-Network Feed System Additional Considerations

Feeding 4-Element and Larger Arrays What if the Elements Aren't Identical Shunt and Gamma Fed Towers & Elements Loading, Matching & Other Networks Baluns in Phased Arrays Receiving Arrays

General Array Design Considerations Choosing Arrayfeed1 Solutions 90° Fed, 90° Spaced Array

"Simplest" (Transmission Line Only) Feed System L Network Feed System Pattern Verification & Effect of Loss Resistance--"Simplest" System

"Simplest" (Transmission Line Only) Feed System L-Network Feed System

"Simplest" (Transmission Line Only) Feed System L-Network Feed System A Four-Element Rectangular Array

"Simplest" (Transmission-Line Only) Feed System L-Network Feed System

"Simplest" (Transmission-Line Only) Feed System L-Network Feed System 120° Fed, 60° Spaced Dipole Array

"Simplest (Transmission Line Only) Feed System L-Network Feed System

"Simplest (Transmission Line Only) Feed System L-Network Feed System PRACTICAL ASPECTS OF PHASED ARRAY DESIGN

General Array Design Considerations Choosing Arrayfeed1 Solutions 90° Fed, 90° Spaced Array

"Simplest" (Transmission Line Only) Feed System L Network Feed System Pattern Verification & Effect of Loss Resistance--"Simplest" System

"Simplest" (Transmission Line Only) Feed System L-Network Feed System

"Simplest" (Transmission Line Only) Feed System L-Network Feed System A Four-Element Rectangular Array

"Simplest" (Transmission-Line Only) Feed System L-Network Feed System

"Simplest" (Transmission-Line Only) Feed System L-Network Feed System 120° Fed, 60° Spaced Dipole Array

"Simplest (Transmission Line Only) Feed System L-Network Feed System

"Simplest (Transmission Line Only) Feed System L-Network Feed System PRACTICAL ASPECTS OF PHASED ARRAY DESIGN

COLLINEAR ARRAYS POWER GAIN DIRECTIVITY TWO-ELEMENT ARRAYS THREE- & FOUR-ELEMENT ARRAYS ADJUSTMENT THE EXTENDED DOUBLE ZEPP THE STERBA ARRAY

COLLINEAR ARRAYS POWER GAIN DIRECTIVITY TWO-ELEMENT ARRAYS THREE- & FOUR-ELEMENT ARRAYS ADJUSTMENT THE EXTENDED DOUBLE ZEPP THE STERBA ARRAY Parallel Broadside Arrays

POWER GAIN DIRECTIVITY

POWER GAIN DIRECTIVITY Other Forms Of Broadside Arrays

NON-UNIFORM ELEMENT CURRENTS HALF-SQUARE ANTENNA BOBTAIL CURTAIN THE BRUCE ARRAY FOUR-ELEMENT BROADSIDE ARRAY THE BI-SQUARE ANTENNA

NON-UNIFORM ELEMENT CURRENTS HALF-SQUARE ANTENNA BOBTAIL CURTAIN THE BRUCE ARRAY FOUR-ELEMENT BROADSIDE ARRAY THE BI-SQUARE ANTENNA End-Fire Arrays

TWO-ELEMENT END-FIRE ARRAY THE W8JK ARRAY FOUR-ELEMENT END-FIRE & COLLINEAR ARRAYS FOUR-ELEMENT DRIVEN ARRAYS EIGHT-ELEMENT DRIVEN ARRAYS PHASING ARROWS IN ARRAY ELEMENTS

GENERAL CONCEPTS

The Objective Resonant Antennas Loss

The Objective Resonant Antennas Loss Simple Broadband Matching Techniques

The Cage Dipole Stagger-Tuned Dipoles Stagger Tuned Radials

The Cage Dipole Stagger-Tuned Dipoles Stagger Tuned Radials FEED-LINE IMPEDANCE MATCHING PARALLEL-TUNED CIRCUITS AT THE ANTENNA TERMINALS

The Double Bazooka The Crossed Double Bazooka

The Double Bazooka The Crossed Double Bazooka MATCHING NETWORK DESIGN

Optimum Matching Chevyshev Matching

Optimum Matching Chevyshev Matching LC-MATCHING NETWORKS

80-Meter DXer's Delight

80-Meter DXer's Delight PROPERTIES OF TRANSMISSION-LINE RESONATORS

The TLR Transformer

The TLR Transformer TRANSMISSION-LINE RESONATORS AS PART OF THE ANTENNA

The Coaxial-Resonator Match The Snyder Dipole The Improved Crossed-Double Bazooka

The Coaxial-Resonator Match The Snyder Dipole The Improved Crossed-Double Bazooka TRANSMISSION-LINE RESONATORS AS PART OF THE FEED LINE

A Simple Broadband Dipole for 80 Meters 80-Meter Dipole with the TLR Transformer

A Simple Broadband Dipole for 80 Meters 80-Meter Dipole with the TLR Transformer BIBLIOGRAPHY

GENERAL CONCEPTS

The Objective Resonant Antennas Loss

The Objective Resonant Antennas Loss Simple Broadband Matching Techniques

The Cage Dipole Stagger-Tuned Dipoles Stagger Tuned Radials

The Cage Dipole Stagger-Tuned Dipoles Stagger Tuned Radials FEED-LINE IMPEDANCE MATCHING PARALLEL-TUNED CIRCUITS AT THE ANTENNA TERMINALS

The Double Bazooka The Crossed Double Bazooka

The Double Bazooka The Crossed Double Bazooka MATCHING NETWORK DESIGN

Optimum Matching Chevyshev Matching

Optimum Matching Chevyshev Matching LC-MATCHING NETWORKS

80-Meter DXer's Delight

80-Meter DXer's Delight PROPERTIES OF TRANSMISSION-LINE RESONATORS

The TLR Transformer

The TLR Transformer TRANSMISSION-LINE RESONATORS AS PART OF THE ANTENNA

The Coaxial-Resonator Match The Snyder Dipole The Improved Crossed-Double Bazooka

The Coaxial-Resonator Match The Snyder Dipole The Improved Crossed-Double Bazooka TRANSMISSION-LINE RESONATORS AS PART OF THE FEED LINE

A Simple Broadband Dipole for 80 Meters 80-Meter Dipole with the TLR Transformer

A Simple Broadband Dipole for 80 Meters 80-Meter Dipole with the TLR Transformer BIBLIOGRAPHY Chapter 10 - Log Periodic Arrays

BASIC DESIGN CONSIDERATIONS

LPDA Design and Computers LPDA Behavior Feeding and Constructing the LPDA Special Design Corrections

LPDA Design and Computers LPDA Behavior Feeding and Constructing the LPDA Special Design Corrections A DESIGN PROCEDURE FOR AN LPDA

Log-Cell Yagis

Log-Cell Yagis Wire Log-Periodic Dipole Arrays for 3.5 or 7 MHz

DESIGN OF THE LOG-PERIODIC DIPOLE ARRAYS

DESIGN OF THE LOG-PERIODIC DIPOLE ARRAYS 5-Band Log Periodic Dipole Array The Telerana Improving the Telerana The Pounder: A Single-Band 144-MHz LPDA

Construction The Feed Arrangement

Construction The Feed Arrangement Log Periodic-Yagi Arrays

THE LOG-YAG ARRAY

THE LOG-YAG ARRAY BIBLIOGRAPHY

BASIC DESIGN CONSIDERATIONS

LPDA Design and Computers LPDA Behavior Feeding and Constructing the LPDA Special Design Corrections

LPDA Design and Computers LPDA Behavior Feeding and Constructing the LPDA Special Design Corrections A DESIGN PROCEDURE FOR AN LPDA

Log-Cell Yagis

Log-Cell Yagis Wire Log-Periodic Dipole Arrays for 3.5 or 7 MHz

DESIGN OF THE LOG-PERIODIC DIPOLE ARRAYS

DESIGN OF THE LOG-PERIODIC DIPOLE ARRAYS 5-Band Log Periodic Dipole Array The Telerana Improving the Telerana The Pounder: A Single-Band 144-MHz LPDA

Construction The Feed Arrangement

Construction The Feed Arrangement Log Periodic-Yagi Arrays

THE LOG-YAG ARRAY

THE LOG-YAG ARRAY BIBLIOGRAPHY Chapter 11 - HF Yagi Arrays

Yagi Performance Parameters

YAGI GAIN RESPONSE PATTERNS--FRONT-TO-REAR RATIO DRIVE IMPEDANCE & SWR

YAGI GAIN RESPONSE PATTERNS--FRONT-TO-REAR RATIO DRIVE IMPEDANCE & SWR Monoband Yagi Performance Optimization

DESIGN GOALS DESIGN VARIABLES GAIN & BOOM LENGTH OPTIMUM DESIGNS & ELEMENT SPACING

Two-Element Yagis Element Spacing in Larger Yagis

Two-Element Yagis Element Spacing in Larger Yagis ELEMENT TUNING

DESIGN GOALS DESIGN VARIABLES GAIN & BOOM LENGTH OPTIMUM DESIGNS & ELEMENT SPACING

Two-Element Yagis Element Spacing in Larger Yagis

Two-Element Yagis Element Spacing in Larger Yagis ELEMENT TUNING Specific Monoband Yagi Designs

Half Elements Matching System 10-METER YAGIS 12-METER YAGIS 15-METER YAGIS 17-METER YAGIS 20-METER YAGIS 30-METER YAGIS 40-METER YAGIS

Half Elements Matching System 10-METER YAGIS 12-METER YAGIS 15-METER YAGIS 17-METER YAGIS 20-METER YAGIS 30-METER YAGIS 40-METER YAGIS Modifying Monoband Hy-Gain Yagis Multiband Yagis

INTERLACING ELEMENTS TRAPPED MULTIBANDERS Christmas Tree Stacks Forward Staggering

INTERLACING ELEMENTS TRAPPED MULTIBANDERS Christmas Tree Stacks Forward Staggering Stacked Yagis

STACKS & GAIN STACKS & WIDE ELEVATION FOOTPRINTS

A 10-Meter Example A 15-Meter Example A 20-Meter Example

A 10-Meter Example A 15-Meter Example A 20-Meter Example SPARE ME THE NULLS! STACKING DISTANCES BETWEEN YAGIS

Switching Out Yagis in the Stack Stacking Distance & Lobes at HF Changing the Stack Spacing Longer Boom Length & Stack Spacing Are Higher-Angle Lobes Important? Stacking Distances for Multiband Yagis Summary, Stacking Distances STACKS & FADING STACKS & PRECIPITATION STATIC STACKS & AZIMUTHAL DIVERSITY THE N6BV/1 ANTENNA SYSTEM--BRUTE FORCE FEEDING WHY TRIBANDERS? THE K1VR ARRAY: A MORE ELEGANT APPROACH TO MATCHING SOME SUGGESTIONS FOR STACKING TRIBANDERS THE WX0B APPROACH TO STACK MATCHING & FEEDING "BIP/BOP" OPERATION STACKING DISIMILAR YAGIS

STACKS & GAIN STACKS & WIDE ELEVATION FOOTPRINTS

A 10-Meter Example A 15-Meter Example A 20-Meter Example

A 10-Meter Example A 15-Meter Example A 20-Meter Example SPARE ME THE NULLS! STACKING DISTANCES BETWEEN YAGIS

OPTIMIZING OVER LOCAL TERRAIN SO NEAR, YET SO FAR

OPTIMIZING OVER LOCAL TERRAIN SO NEAR, YET SO FAR Moxon Rectangle Beams

Yagi Performance Parameters

YAGI GAIN RESPONSE PATTERNS--FRONT-TO-REAR RATIO DRIVE IMPEDANCE & SWR

YAGI GAIN RESPONSE PATTERNS--FRONT-TO-REAR RATIO DRIVE IMPEDANCE & SWR Monoband Yagi Performance Optimization

DESIGN GOALS DESIGN VARIABLES GAIN & BOOM LENGTH OPTIMUM DESIGNS & ELEMENT SPACING

Two-Element Yagis Element Spacing in Larger Yagis

Two-Element Yagis Element Spacing in Larger Yagis ELEMENT TUNING

DESIGN GOALS DESIGN VARIABLES GAIN & BOOM LENGTH OPTIMUM DESIGNS & ELEMENT SPACING

Two-Element Yagis Element Spacing in Larger Yagis

Two-Element Yagis Element Spacing in Larger Yagis ELEMENT TUNING Specific Monoband Yagi Designs

Half Elements Matching System 10-METER YAGIS 12-METER YAGIS 15-METER YAGIS 17-METER YAGIS 20-METER YAGIS 30-METER YAGIS 40-METER YAGIS

Half Elements Matching System 10-METER YAGIS 12-METER YAGIS 15-METER YAGIS 17-METER YAGIS 20-METER YAGIS 30-METER YAGIS 40-METER YAGIS Modifying Monoband Hy-Gain Yagis Multiband Yagis

INTERLACING ELEMENTS TRAPPED MULTIBANDERS Christmas Tree Stacks Forward Staggering

INTERLACING ELEMENTS TRAPPED MULTIBANDERS Christmas Tree Stacks Forward Staggering Stacked Yagis

STACKS & GAIN STACKS & WIDE ELEVATION FOOTPRINTS

A 10-Meter Example A 15-Meter Example A 20-Meter Example

A 10-Meter Example A 15-Meter Example A 20-Meter Example SPARE ME THE NULLS! STACKING DISTANCES BETWEEN YAGIS

STACKS & GAIN STACKS & WIDE ELEVATION FOOTPRINTS

A 10-Meter Example A 15-Meter Example A 20-Meter Example

A 10-Meter Example A 15-Meter Example A 20-Meter Example SPARE ME THE NULLS! STACKING DISTANCES BETWEEN YAGIS

OPTIMIZING OVER LOCAL TERRAIN SO NEAR, YET SO FAR

OPTIMIZING OVER LOCAL TERRAIN SO NEAR, YET SO FAR Moxon Rectangle Beams Chapter 12 - Quad Arrays

Is a Quad Better at Low Heights than a Yagi? Multiband Quads CONSTRUCTING A QUAD

Making It Sturdy Diamond or Square?

Making It Sturdy Diamond or Square? Two Multiband Quads

A FIVE-ELEMENT, 26-FOOT BOOM TRIBAND QUAD A TWO-ELEMENT, 8-FOOT BOOM PENTABAND QUAD

A FIVE-ELEMENT, 26-FOOT BOOM TRIBAND QUAD A TWO-ELEMENT, 8-FOOT BOOM PENTABAND QUAD BIBLIOGRAPHY

Is a Quad Better at Low Heights than a Yagi? Multiband Quads CONSTRUCTING A QUAD

Making It Sturdy Diamond or Square?

Making It Sturdy Diamond or Square? Two Multiband Quads

A FIVE-ELEMENT, 26-FOOT BOOM TRIBAND QUAD A TWO-ELEMENT, 8-FOOT BOOM PENTABAND QUAD

A FIVE-ELEMENT, 26-FOOT BOOM TRIBAND QUAD A TWO-ELEMENT, 8-FOOT BOOM PENTABAND QUAD BIBLIOGRAPHY Chapter 13 - Long-Wire and Traveling-Wave Antennas

Long Wires Versus Multielement Arrays General Characteristics of Long-Wire Antennas Directivity Calculating Length Tilted Wires Feeding Long Wires COMBINATIONS OF LONG WIRES

Parallel Wires The V-Beam Antenna Other V Combinations Feeding the V Beam

Parallel Wires The V-Beam Antenna Other V Combinations Feeding the V Beam THE RESONANT RHOMBIC ANTENNA TERMINATED LONG-WIRE ANTENNAS

Directional Characteristics

Directional Characteristics THE TERMINATED RHOMBIC ANTENNA

Tilt Angle Multiband Design Termination Multiwire Rhombics Front-to-Back Ratio Methods of Feed

Tilt Angle Multiband Design Termination Multiwire Rhombics Front-to-Back Ratio Methods of Feed Receiving Wave Antennas

THE BEVERAGE ANTENNA

Beverage Theory Performance in Other Directions Feed-Point Transformers for Single-Wire Beverages The Two-Wire Beverage Beverages in Echelon Practical Considerations

THE BEVERAGE ANTENNA

Beverage Theory Performance in Other Directions Feed-Point Transformers for Single-Wire Beverages The Two-Wire Beverage Beverages in Echelon Practical Considerations

Beverage Theory Performance in Other Directions Feed-Point Transformers for Single-Wire Beverages The Two-Wire Beverage Beverages in Echelon Practical Considerations BIBLIOGRAPHY

Long Wires Versus Multielement Arrays General Characteristics of Long-Wire Antennas Directivity Calculating Length Tilted Wires Feeding Long Wires COMBINATIONS OF LONG WIRES

Parallel Wires The V-Beam Antenna Other V Combinations Feeding the V Beam

Parallel Wires The V-Beam Antenna Other V Combinations Feeding the V Beam THE RESONANT RHOMBIC ANTENNA TERMINATED LONG-WIRE ANTENNAS

Directional Characteristics

Directional Characteristics THE TERMINATED RHOMBIC ANTENNA

Tilt Angle Multiband Design Termination Multiwire Rhombics Front-to-Back Ratio Methods of Feed

Tilt Angle Multiband Design Termination Multiwire Rhombics Front-to-Back Ratio Methods of Feed Receiving Wave Antennas

THE BEVERAGE ANTENNA

Beverage Theory Performance in Other Directions Feed-Point Transformers for Single-Wire Beverages The Two-Wire Beverage Beverages in Echelon Practical Considerations

THE BEVERAGE ANTENNA

Beverage Theory Performance in Other Directions Feed-Point Transformers for Single-Wire Beverages The Two-Wire Beverage Beverages in Echelon Practical Considerations

Beverage Theory Performance in Other Directions Feed-Point Transformers for Single-Wire Beverages The Two-Wire Beverage Beverages in Echelon Practical Considerations BIBLIOGRAPHY Chapter 14 - Direction Finding Antennas

RDF by Triangulation DIRECTION FINDING SYSTEMS

Loop Antennas Loop Circuits and Criteria Ferrite Rod Antennas Sensing Antennas

Loop Antennas Loop Circuits and Criteria Ferrite Rod Antennas Sensing Antennas PHASED ARRAYS

The Adcock Antenna

The Adcock Antenna LOOPS VS PHASED ARRAYS THE GONIOMETER

Electronic Antenna Rotation

Electronic Antenna Rotation RDF SYSTEM CALIBRATION & USE FRAME LOOPS SHIELDED FRAME LOOPS FERRITE-CORE LOOPS

Obtaining a Cardioid Pattern

Obtaining a Cardioid Pattern A SHIELDED LOOP WITH SENSING ANTENNA FOR 28 MHz

Sensing Antenna

Sensing Antenna THE SNOOP LOOP--FOR CLOSE-RANGE HF RDF A LOOPSTICK FOR 3.5 MHz

Adjustment

Adjustment A 144-MHz CARDIOID-PATTERN RDF ANTENNA

The Phasing Harness Tuning

The Phasing Harness Tuning THE DOUBLE-DUCKY DIRECTION FINDER

Specific Design DDDF Operation

Specific Design DDDF Operation A FOX-HUNTING DF TWIN 'TENNA

The Yagi An Interferometer Circuit Construction Antenna Construction Using the Antenna Antenna Alternative

The Yagi An Interferometer Circuit Construction Antenna Construction Using the Antenna Antenna Alternative THE FOUR-WAY MOBILE DF SYSTEM

Circuit Description Antenna Switching Detector Circuit Construction Switch Board Feed Lines Mechanical Assembly Final Adjustments Audio Level Adjustments Fox Hunting

Circuit Description Antenna Switching Detector Circuit Construction Switch Board Feed Lines Mechanical Assembly Final Adjustments Audio Level Adjustments Fox Hunting A TAPE-MEASURE BEAM FOR RDFING BIBLIOGRAPHY

RDF by Triangulation DIRECTION FINDING SYSTEMS

Loop Antennas Loop Circuits and Criteria Ferrite Rod Antennas Sensing Antennas

Loop Antennas Loop Circuits and Criteria Ferrite Rod Antennas Sensing Antennas PHASED ARRAYS

The Adcock Antenna

The Adcock Antenna LOOPS VS PHASED ARRAYS THE GONIOMETER

Electronic Antenna Rotation

Electronic Antenna Rotation RDF SYSTEM CALIBRATION & USE FRAME LOOPS SHIELDED FRAME LOOPS FERRITE-CORE LOOPS

Obtaining a Cardioid Pattern

Obtaining a Cardioid Pattern A SHIELDED LOOP WITH SENSING ANTENNA FOR 28 MHz

Sensing Antenna

Sensing Antenna THE SNOOP LOOP--FOR CLOSE-RANGE HF RDF A LOOPSTICK FOR 3.5 MHz

Adjustment

Adjustment A 144-MHz CARDIOID-PATTERN RDF ANTENNA

The Phasing Harness Tuning

The Phasing Harness Tuning THE DOUBLE-DUCKY DIRECTION FINDER

Specific Design DDDF Operation

Specific Design DDDF Operation A FOX-HUNTING DF TWIN 'TENNA

The Yagi An Interferometer Circuit Construction Antenna Construction Using the Antenna Antenna Alternative

The Yagi An Interferometer Circuit Construction Antenna Construction Using the Antenna Antenna Alternative THE FOUR-WAY MOBILE DF SYSTEM

Circuit Description Antenna Switching Detector Circuit Construction Switch Board Feed Lines Mechanical Assembly Final Adjustments Audio Level Adjustments Fox Hunting

A SIMPLE TWIN-LEAD ANTENNA FOR HF PORTABLE OPERATION ZIP-CORD ANTENNAS

Zip Cord as a Transmission Line Zip Cord Wire as the Radiator

Zip Cord as a Transmission Line Zip Cord Wire as the Radiator A TREE-MOUNTED HF GROUND-PLANE ANTENNA A PORTABLE DIPOLE FOR 80 TO 2 METERS

Construction Aluminum Element Loading Coil Wire and Spool Operation 80 Meters 2 Meters Continuous Coverage

Construction Aluminum Element Loading Coil Wire and Spool Operation 80 Meters 2 Meters Continuous Coverage THE HF CABOVER ANTENNA TWO PORTABLE 6-METER ANTENNAS

A Portable Two-Element 6-Meter Quad A Three-Element Portable 6-Meter Yagi

A Portable Two-Element 6-Meter Quad A Three-Element Portable 6-Meter Yagi VE7CA 2-Element Portable HF Triband Yagis

A 20/15/10-Meter Triband 2-Element Yagi The Balun Flattop or Tilted? A 30/17/12-Meter Triband 2-Element Yagi Assembly V Slings SWR Adjustment 40-Meter Wire Yagis Summary

A 20/15/10-Meter Triband 2-Element Yagi The Balun Flattop or Tilted? A 30/17/12-Meter Triband 2-Element Yagi Assembly V Slings SWR Adjustment 40-Meter Wire Yagis Summary BIBLIOGRAPHY

A SIMPLE TWIN-LEAD ANTENNA FOR HF PORTABLE OPERATION ZIP-CORD ANTENNAS

Zip Cord as a Transmission Line Zip Cord Wire as the Radiator

Zip Cord as a Transmission Line Zip Cord Wire as the Radiator A TREE-MOUNTED HF GROUND-PLANE ANTENNA A PORTABLE DIPOLE FOR 80 TO 2 METERS

Construction Aluminum Element Loading Coil Wire and Spool Operation 80 Meters 2 Meters Continuous Coverage

Construction Aluminum Element Loading Coil Wire and Spool Operation 80 Meters 2 Meters Continuous Coverage THE HF CABOVER ANTENNA TWO PORTABLE 6-METER ANTENNAS

A Portable Two-Element 6-Meter Quad A Three-Element Portable 6-Meter Yagi

A Portable Two-Element 6-Meter Quad A Three-Element Portable 6-Meter Yagi VE7CA 2-Element Portable HF Triband Yagis

A 20/15/10-Meter Triband 2-Element Yagi The Balun Flattop or Tilted? A 30/17/12-Meter Triband 2-Element Yagi Assembly V Slings SWR Adjustment 40-Meter Wire Yagis Summary

A 20/15/10-Meter Triband 2-Element Yagi The Balun Flattop or Tilted? A 30/17/12-Meter Triband 2-Element Yagi Assembly V Slings SWR Adjustment 40-Meter Wire Yagis Summary BIBLIOGRAPHY Chapter 16 - Mobile and Maritime Antennas

HF MOBILE FUNDAMENTALS

The Equivalent Circuit of a Typical Mobile Antenna Antenna Capacitance

The Equivalent Circuit of a Typical Mobile Antenna Antenna Capacitance LOADING COIL DESIGN

Base Loading and Center Loading

Base Loading and Center Loading OPTIMUM DESIGN OF SHORT COIL-LOADED MOBILE ANTENNAS

Radiation Resistance Required Loading Inductance Loading Coil Resistance Radiation Efficiency Ground Loss Efficiency Curves Impedance Matching Shortened Dipoles

Radiation Resistance Required Loading Inductance Loading Coil Resistance Radiation Efficiency Ground Loss Efficiency Curves Impedance Matching Shortened Dipoles CONTINUOUSLY LOADED ANTENNAS MATCHING TO THE TRANSMITTER

Tune-Up

Tune-Up TOP-LOADING CAPACITANCE TAPPED COIL MATCHING NETWORK THE "SCREWDRIVER" MOBILE ANTENNA

CONSTRUCTING YOUR SCREWDRIVER ANTENNA MOUNTING THE ANTENNA A COIL COVER

CONSTRUCTING YOUR SCREWDRIVER ANTENNA MOUNTING THE ANTENNA A COIL COVER A MOBILE J ANTENNA FOR 144 MHz

The Length Factor

The Length Factor THE SUPER-J MARITIME ANTENNA

Antenna Operation Construction and Adjustment Performance

Antenna Operation Construction and Adjustment Performance A TOP-LOADED 144-MHz ANTENNA

Construction Tune-Up

Construction Tune-Up VHF QUARTER-WAVELENGTH VERTICAL 144-MHz 5/8 WAVELENGTH VERTICAL

Construction Tune-Up

Construction Tune-Up A 5/8-WAVELENGTH 220-MHz MOBILE ANTENNA

Construction

Construction HF Antennas for Sailboats

ANTENNA MODELING A SAFET Y NOTE TRANSOM & MASTHEAD MOUNTED VERTICALS THE BACKSTAY VERTICAL A 40-METER BACKSTAY HALF SLOPER TEMPORARY ANTENNAS GROUNDING SYSTEMS

ANTENNA MODELING A SAFET Y NOTE TRANSOM & MASTHEAD MOUNTED VERTICALS THE BACKSTAY VERTICAL A 40-METER BACKSTAY HALF SLOPER TEMPORARY ANTENNAS GROUNDING SYSTEMS Antennas for Power Boats BIBLIOGRAPHY

HF MOBILE FUNDAMENTALS

The Equivalent Circuit of a Typical Mobile Antenna Antenna Capacitance

The Equivalent Circuit of a Typical Mobile Antenna Antenna Capacitance LOADING COIL DESIGN

Base Loading and Center Loading

Base Loading and Center Loading OPTIMUM DESIGN OF SHORT COIL-LOADED MOBILE ANTENNAS

Radiation Resistance Required Loading Inductance Loading Coil Resistance Radiation Efficiency Ground Loss Efficiency Curves Impedance Matching Shortened Dipoles

Tune-Up

Tune-Up TOP-LOADING CAPACITANCE TAPPED COIL MATCHING NETWORK THE "SCREWDRIVER" MOBILE ANTENNA

CONSTRUCTING YOUR SCREWDRIVER ANTENNA MOUNTING THE ANTENNA A COIL COVER

CONSTRUCTING YOUR SCREWDRIVER ANTENNA MOUNTING THE ANTENNA A COIL COVER A MOBILE J ANTENNA FOR 144 MHz

The Length Factor

The Length Factor THE SUPER-J MARITIME ANTENNA

Antenna Operation Construction and Adjustment Performance

Antenna Operation Construction and Adjustment Performance A TOP-LOADED 144-MHz ANTENNA

Construction Tune-Up

Construction Tune-Up VHF QUARTER-WAVELENGTH VERTICAL 144-MHz 5/8 WAVELENGTH VERTICAL

Construction Tune-Up

Construction Tune-Up A 5/8-WAVELENGTH 220-MHz MOBILE ANTENNA

Construction

Construction HF Antennas for Sailboats

ANTENNA MODELING A SAFET Y NOTE TRANSOM & MASTHEAD MOUNTED VERTICALS THE BACKSTAY VERTICAL A 40-METER BACKSTAY HALF SLOPER TEMPORARY ANTENNAS GROUNDING SYSTEMS

ANTENNA MODELING A SAFET Y NOTE TRANSOM & MASTHEAD MOUNTED VERTICALS THE BACKSTAY VERTICAL A 40-METER BACKSTAY HALF SLOPER TEMPORARY ANTENNAS GROUNDING SYSTEMS Antennas for Power Boats BIBLIOGRAPHY Chapter 17 - Repeater Antenna Systems

Basic Concepts Matching Repeater Antenna System Design

COMPUTING THE COVERAGE AREA FOR A REPEATER The Repeater Antenna Top Mounting and Side Mounting Effects of Other Conductors ISOLATION REQUIREMENTS IN REPEATER ANTENNA SYSTEMS ADVANCED TECHNIQUES EFFECTIVE ISOTROPIC RADIATED POWER (EIRP)

THE CIRCUIT ADJUSTMENT

THE CIRCUIT ADJUSTMENT BIBLIOGRAPHY

Basic Concepts Matching Repeater Antenna System Design

THE CIRCUIT ADJUSTMENT

THE CIRCUIT ADJUSTMENT BIBLIOGRAPHY Chapter 18 - VHF and UHF Antenna Systems

The Basics

DESIGN FACTORS TRANSMISSION LINES WAVEGUIDES IMPEDANCE MATCHING BALUNS & ANTENNA TUNERS THE YAGI AT VHF & UHF STACKING YAGIS QUADS FOR VHF VHF & UHG QUAGIS COLLINEAR ANTENNAS THE CORNER REFLECTOR TROUGH REFLECTORS HORN ANTENNAS FOR THE MICROWAVE BANDS PARABOLIC ANTENNAS OMNIDIRECTION AL ANTENNAS FOR VHF & UHF

Construction Tuning Final Assembly On-the-Air Performance

Construction Tuning Final Assembly On-the-Air Performance Practical 6-Meter Yagis High-Performance Yagis for 144, 222 and 432 MHz

Yagi Construction A HIGH-PERFORMANCE 432-MHz YAGI A HIGH-PERFORMANCE 144 MHz YAGI A HIGH-PERFORMANCE 222-MHz YAGI

Yagi Construction A HIGH-PERFORMANCE 432-MHz YAGI A HIGH-PERFORMANCE 144 MHz YAGI A HIGH-PERFORMANCE 222-MHz YAGI A 144 MHz 2-Element Quad A Portable 144 MHz 4-Element Quad

Materials Construction

Materials Construction Building Quagi Antennas

QUAGIS FOR 1296 MHz

QUAGIS FOR 1296 MHz Loop Yagis for 1296 MHz

The Boom Parasitic Elements Driven Element Tuning the Driven Element Tips for 1296-MHz Antenna Installations

The Boom Parasitic Elements Driven Element Tuning the Driven Element Tips for 1296-MHz Antenna Installations Trough Reflectors for 432 and 1296 MHz A Horn Antenna for 10 GHz

Building the Antenna

Building the Antenna Periscope Antenna Systems

Gain of a Periscope System Mechanical Considerations

Gain of a Periscope System Mechanical Considerations BIBLIOGRAPHY

The Basics

Construction Tuning Final Assembly On-the-Air Performance

Construction Tuning Final Assembly On-the-Air Performance Practical 6-Meter Yagis High-Performance Yagis for 144, 222 and 432 MHz

Yagi Construction A HIGH-PERFORMANCE 432-MHz YAGI A HIGH-PERFORMANCE 144 MHz YAGI A HIGH-PERFORMANCE 222-MHz YAGI

Yagi Construction A HIGH-PERFORMANCE 432-MHz YAGI A HIGH-PERFORMANCE 144 MHz YAGI A HIGH-PERFORMANCE 222-MHz YAGI A 144 MHz 2-Element Quad A Portable 144 MHz 4-Element Quad

Materials Construction

Materials Construction Building Quagi Antennas

QUAGIS FOR 1296 MHz

QUAGIS FOR 1296 MHz Loop Yagis for 1296 MHz

The Boom Parasitic Elements Driven Element Tuning the Driven Element Tips for 1296-MHz Antenna Installations

The Boom Parasitic Elements Driven Element Tuning the Driven Element Tips for 1296-MHz Antenna Installations Trough Reflectors for 432 and 1296 MHz A Horn Antenna for 10 GHz

Building the Antenna

Building the Antenna Periscope Antenna Systems

Gain of a Periscope System Mechanical Considerations

Gain of a Periscope System Mechanical Considerations BIBLIOGRAPHY Chapter 19 - Antenna Systems for Space Communications

Common Ground Antennas for Satellite Work

Antennas for LEO Satellites Antennas for High-Altitude Satellites CIRCULAR POLARIZATION ANTENNAS FOR AO-40 OPERATIONS PORTABLE HELIX FOR 435 MHz CONVERTED C-BAND TVRO DISHES NOTES & REFERENCES, SATELLITE ANTENNAS

VHF/UHF EME ANTENNAS DISH ANTENNAS FOR EME A 12-FOOT STRESSED HOMEBREW PARABOLIC DISH EME USING SURPLUS TVRO DISH ANTENNAS SHF EME CHALLENGES NOTES & REFERENCES, EME ANTENNAS

Common Ground Antennas for Satellite Work

VHF/UHF EME ANTENNAS DISH ANTENNAS FOR EME A 12-FOOT STRESSED HOMEBREW PARABOLIC DISH EME USING SURPLUS TVRO DISH ANTENNAS SHF EME CHALLENGES NOTES & REFERENCES, EME ANTENNAS

VHF/UHF EME ANTENNAS DISH ANTENNAS FOR EME A 12-FOOT STRESSED HOMEBREW PARABOLIC DISH EME USING SURPLUS TVRO DISH ANTENNAS SHF EME CHALLENGES NOTES & REFERENCES, EME ANTENNAS Chapter 20 - Antenna Materials and Accessories

Wire Antennas

WIRE TYPES ANTENNA INSULATION PULLEYS & HALYARDS

WIRE TYPES ANTENNA INSULATION PULLEYS & HALYARDS Antennas of Aluminum Tubing

SELECTING ALUMINUM TUBING SOURCES FOR ALUMINUM CONSTRUCTION WITH ALUMINUM TUBING

SELECTING ALUMINUM TUBING SOURCES FOR ALUMINUM CONSTRUCTION WITH ALUMINUM TUBING Other Materials for Antenna Construction

Plastics Fiberglass CONCLUSION

Plastics Fiberglass CONCLUSION BIBLIOGRAPHY

Wire Antennas

WIRE TYPES ANTENNA INSULATION PULLEYS & HALYARDS

WIRE TYPES ANTENNA INSULATION PULLEYS & HALYARDS Antennas of Aluminum Tubing

SELECTING ALUMINUM TUBING SOURCES FOR ALUMINUM CONSTRUCTION WITH ALUMINUM TUBING

SELECTING ALUMINUM TUBING SOURCES FOR ALUMINUM CONSTRUCTION WITH ALUMINUM TUBING Other Materials for Antenna Construction

Plastics Fiberglass CONCLUSION

Plastics Fiberglass CONCLUSION BIBLIOGRAPHY Chapter 21 - Antenna Products Suppliers

Antenna Manufacturers Products

VHF/UHF/Microwave Antenna Suppliers HF Antenna Suppliers Antenna Parts Suppliers of Quad Antenna Parts Towers, Masts and Accessories Transmission Lines Transmission Line Instruments and Accessories Suppliers Addresses

Antenna Manufacturers Products

TREES AS ANTENNA SUPPORTS

Wind Compensation

Wind Compensation TREES AS SUPPORTS FOR VERTICAL WIRE ANTENNAS MAST MATERIALS

A Ladder Mast The A-Frame Mast TV Mast Material

A Ladder Mast The A-Frame Mast TV Mast Material MAST GUYING

Guy Material Guy Anchors Guy Tension

Guy Material Guy Anchors Guy Tension ERECTING A MAST OR OTHER SUPPORT Tower And Antenna Selection and Installation

THE TOWER TOWER BASES TOWER INSTALLATION GUY WIRES THE RIGHT TOWER FOR YOUR ANTENNA ANTENNA INSTALLATION THE PVRC MOUNT THE TOWER ALTERNATIVE ROTATOR SYSTEMS

THE TOWER TOWER BASES TOWER INSTALLATION GUY WIRES THE RIGHT TOWER FOR YOUR ANTENNA ANTENNA INSTALLATION THE PVRC MOUNT THE TOWER ALTERNATIVE ROTATOR SYSTEMS BIBLIOGRAPHY

TREES AS ANTENNA SUPPORTS

Wind Compensation

Wind Compensation TREES AS SUPPORTS FOR VERTICAL WIRE ANTENNAS MAST MATERIALS

A Ladder Mast The A-Frame Mast TV Mast Material

A Ladder Mast The A-Frame Mast TV Mast Material MAST GUYING

Guy Material Guy Anchors Guy Tension

Guy Material Guy Anchors Guy Tension ERECTING A MAST OR OTHER SUPPORT Tower And Antenna Selection and Installation

THE TOWER TOWER BASES TOWER INSTALLATION GUY WIRES THE RIGHT TOWER FOR YOUR ANTENNA ANTENNA INSTALLATION THE PVRC MOUNT THE TOWER ALTERNATIVE ROTATOR SYSTEMS

THE TOWER TOWER BASES TOWER INSTALLATION GUY WIRES THE RIGHT TOWER FOR YOUR ANTENNA ANTENNA INSTALLATION THE PVRC MOUNT THE TOWER ALTERNATIVE ROTATOR SYSTEMS BIBLIOGRAPHY Chapter 23 - Radio Wave Propagation

The Nature of Radio Waves

Phase and Wavelength Polarization Field Intensity Wave Attenuation Bending of Radio Waves

Phase and Wavelength Polarization Field Intensity Wave Attenuation Bending of Radio Waves GROUND WAVES THE SURFACE WAVE THE SPACE WAVE VHF/UHF PROPAGATION BEYOND LINE OF SIGHT ANTENNA POLARIZATION

Polarization Factors Above 50 MHz

Polarization Factors Above 50 MHz PROPAGATION OF VHF WAVES

Weather Effects on VHF/UHF Tropospheric Propagation Tropospheric Ducting

Weather Effects on VHF/UHF Tropospheric Propagation Tropospheric Ducting RELIABLE VHF COVERAGE

VHF/UHF Station Gain What It All Means Terrain at VHF/UHF

VHF/UHF Station Gain What It All Means Terrain at VHF/UHF AURORAL PROPAGATION HF Sky-Wave Propagation

THE ROLE OF THE SUN THE IONOSPHERE SOUNDING THE IONOSPHERE SKIP DISTANCE MULTI-HOP PROPAGATION MAXIMUM USABLE FREQUENCY LOWEST USABLE FREQUENCY DISTURBED IONOSPHERIC CONDITIONS IONOSPHERIC STORMS ELEVATION ANGLES FOR HF COMMUNICATION

The IONCAP Computer Propagation Model IONCAP/VOACAP Parameters Looking at the Elevation-Angle Statistical Data The Ionosphere Controls Propagation Looking at the Data--Further Cautions Antenna Elevation Patterns ONE-WAY PROPAGATION SHORT OR LONG PATH? FADING OTHER PROPAGATION MODES GRAY-LINE PROPAGATION

THE PROPAGATION BIG PICTURE

THE PROPAGATION BIG PICTURE Do-It-Yourself Propagation Prediction

Obtaining Sunspot Number/Solar Flux Data WWV PROPAGATION DATA

Obtaining Sunspot Number/Solar Flux Data WWV PROPAGATION DATA BIBLIOGRAPHY

The Nature of Radio Waves

Phase and Wavelength Polarization Field Intensity Wave Attenuation Bending of Radio Waves

Phase and Wavelength Polarization Field Intensity Wave Attenuation Bending of Radio Waves GROUND WAVES THE SURFACE WAVE THE SPACE WAVE VHF/UHF PROPAGATION BEYOND LINE OF SIGHT ANTENNA POLARIZATION

Polarization Factors Above 50 MHz

Polarization Factors Above 50 MHz PROPAGATION OF VHF WAVES

Weather Effects on VHF/UHF Tropospheric Propagation Tropospheric Ducting

Weather Effects on VHF/UHF Tropospheric Propagation Tropospheric Ducting RELIABLE VHF COVERAGE

VHF/UHF Station Gain What It All Means Terrain at VHF/UHF

VHF/UHF Station Gain What It All Means Terrain at VHF/UHF AURORAL PROPAGATION HF Sky-Wave Propagation

THE PROPAGATION BIG PICTURE

THE PROPAGATION BIG PICTURE Do-It-Yourself Propagation Prediction

Obtaining Sunspot Number/Solar Flux Data WWV PROPAGATION DATA

Obtaining Sunspot Number/Solar Flux Data WWV PROPAGATION DATA BIBLIOGRAPHY Chapter 24 - Transmission Lines

Basic Theory of Transmission Lines

CURRENT FLOW IN LONG LINES VELOCITY OF PROPAGATION CHARACTERISTIC IMPEDANCE TERMINATED LINES

CURRENT FLOW IN LONG LINES VELOCITY OF PROPAGATION CHARACTERISTIC IMPEDANCE TERMINATED LINES Practical Transmission Lines

ATTENUATION REFLECTION COEFFICIENT STANDING WAVES ADDITIONAL POWER LOSS DUE TO SWR LINE VOLTAGES & CURRENTS

ATTENUATION REFLECTION COEFFICIENT STANDING WAVES ADDITIONAL POWER LOSS DUE TO SWR LINE VOLTAGES & CURRENTS Input Impedance

SPECIAL CASES

SPECIAL CASES Voltage/Current Along a Line Line Construction and Operating Characteristics

AIR-INSULATED LINES FLEXIBLE LINES COAXIAL CABLES SINGLE-WIRE LINE

AIR-INSULATED LINES FLEXIBLE LINES COAXIAL CABLES SINGLE-WIRE LINE Line Installation

INSTALLING COAX LINE TESTING TRANSMISSION LINES

INSTALLING COAX LINE TESTING TRANSMISSION LINES BIBLIOGRAPHY

Basic Theory of Transmission Lines

CURRENT FLOW IN LONG LINES VELOCITY OF PROPAGATION CHARACTERISTIC IMPEDANCE TERMINATED LINES

CURRENT FLOW IN LONG LINES VELOCITY OF PROPAGATION CHARACTERISTIC IMPEDANCE TERMINATED LINES Practical Transmission Lines

ATTENUATION REFLECTION COEFFICIENT STANDING WAVES ADDITIONAL POWER LOSS DUE TO SWR LINE VOLTAGES & CURRENTS

ATTENUATION REFLECTION COEFFICIENT STANDING WAVES ADDITIONAL POWER LOSS DUE TO SWR LINE VOLTAGES & CURRENTS Input Impedance

SPECIAL CASES

SPECIAL CASES Voltage/Current Along a Line Line Construction and Operating Characteristics

AIR-INSULATED LINES FLEXIBLE LINES COAXIAL CABLES SINGLE-WIRE LINE

AIR-INSULATED LINES FLEXIBLE LINES COAXIAL CABLES SINGLE-WIRE LINE Line Installation

INSTALLING COAX LINE TESTING TRANSMISSION LINES

INSTALLING COAX LINE TESTING TRANSMISSION LINES BIBLIOGRAPHY Chapter 25 - Coupling the Transmitter to the Line

MATCHING THE LINE TO THE TRANSMITTER

The Matching System Harmonic Attenuation in an Antenna Tuner

The Matching System Harmonic Attenuation in an Antenna Tuner MATCHING WITH INDUCTIVE COUPLING THE L-NETWORK THE PI-NETWORK THE T-NETWORK THE AAT (ANALYZE ANTENNA TUNER) PROGRAM A Low-Power Link-Coupled Antenna Tuner

The Circuit Construction Tune-Up

The Circuit Construction Tune-Up High-Power ARRL Antenna Tuner for Balanced or Unbalanced Lines

REASONS FOR USING AN ANTENNA TUNER DESIGN PHILOSOPHY BEHIND THE ARRL HIGH-POWER TUNER CONSTRUCTION OPERATION FURTHER COMMENTS ABOUT THE ARRL ANTENNA TUNER

REASONS FOR USING AN ANTENNA TUNER DESIGN PHILOSOPHY BEHIND THE ARRL HIGH-POWER TUNER CONSTRUCTION OPERATION FURTHER COMMENTS ABOUT THE ARRL ANTENNA TUNER BIBLIOGRAPHY

MATCHING THE LINE TO THE TRANSMITTER

The Matching System Harmonic Attenuation in an Antenna Tuner

The Circuit Construction Tune-Up

The Circuit Construction Tune-Up High-Power ARRL Antenna Tuner for Balanced or Unbalanced Lines

REASONS FOR USING AN ANTENNA TUNER DESIGN PHILOSOPHY BEHIND THE ARRL HIGH-POWER TUNER CONSTRUCTION OPERATION FURTHER COMMENTS ABOUT THE ARRL ANTENNA TUNER

REASONS FOR USING AN ANTENNA TUNER DESIGN PHILOSOPHY BEHIND THE ARRL HIGH-POWER TUNER CONSTRUCTION OPERATION FURTHER COMMENTS ABOUT THE ARRL ANTENNA TUNER BIBLIOGRAPHY Chapter 26 - Coupling the Line to the Antenna

Choosing a Transmission Line

FEEDING A SINGLE-BAND ANTENNA FEEDING A MULTIBAND RESONANT ANTENNA FEEDING A MULTIBAND NON-RESONANT ANTENNA

FEEDING A SINGLE-BAND ANTENNA FEEDING A MULTIBAND RESONANT ANTENNA FEEDING A MULTIBAND NON-RESONANT ANTENNA Matched Lines

Operating Considerations Antenna Resonance

Operating Considerations Antenna Resonance DIRECT MATCHING TO THE ANTENNA MATCHING DEVICES AT THE ANTENNA Common-Mode Transmission-Line Currents

UNBALANCED COAX FEEDING A BALANCED DIPOLE ASYMMETRICAL ROUTING OF THE FEED LINE FOR A DIPOLE COMMON-MODE EFFECTS WITH DIRECTIONAL ANTENNAS ELIMINATING COMMON-MODE CURRENTS--THE BALUN ONE FINAL WORD

UNBALANCED COAX FEEDING A BALANCED DIPOLE ASYMMETRICAL ROUTING OF THE FEED LINE FOR A DIPOLE COMMON-MODE EFFECTS WITH DIRECTIONAL ANTENNAS ELIMINATING COMMON-MODE CURRENTS--THE BALUN ONE FINAL WORD BIBLIOGRAPHY

Choosing a Transmission Line

FEEDING A SINGLE-BAND ANTENNA FEEDING A MULTIBAND RESONANT ANTENNA FEEDING A MULTIBAND NON-RESONANT ANTENNA

FEEDING A SINGLE-BAND ANTENNA FEEDING A MULTIBAND RESONANT ANTENNA FEEDING A MULTIBAND NON-RESONANT ANTENNA Matched Lines

Operating Considerations Antenna Resonance

Operating Considerations Antenna Resonance DIRECT MATCHING TO THE ANTENNA MATCHING DEVICES AT THE ANTENNA Common-Mode Transmission-Line Currents

UNBALANCED COAX FEEDING A BALANCED DIPOLE ASYMMETRICAL ROUTING OF THE FEED LINE FOR A DIPOLE COMMON-MODE EFFECTS WITH DIRECTIONAL ANTENNAS ELIMINATING COMMON-MODE CURRENTS--THE BALUN ONE FINAL WORD

LINE CURRENT & VOLTAGE RF VOLTMETER RF AMMETERS SWR Measurements

BRIDGE CIRCUITS

BRIDGE CIRCUITS Resistance Bridge

AVOIDING ERRORS IN SWR MEASUREMENTS MEASURING LINE LENGTH REFLECTOMETERS

AVOIDING ERRORS IN SWR MEASUREMENTS MEASURING LINE LENGTH REFLECTOMETERS The Tandem Match—An Accurate Directional Wattmeter

DESIGN PRINCIPLES CIRCUIT DESCRIPTION CONSTRUCTION ACCURACY OPERATION DESIGN VARIATIONS HIGH-POWER OPERATION

DESIGN PRINCIPLES CIRCUIT DESCRIPTION CONSTRUCTION ACCURACY OPERATION DESIGN VARIATIONS HIGH-POWER OPERATION An Inexpensive VHF Directional Coupler A Calorimeter For VHF And UHF Power Measurements A Noise Bridge For 1.8 Through 30 MHz

CONSTRUCTION MEASURING COAXIAL-CABLE PARAMETERS WITH A NOISE BRIDGE USING A BRIDGE TO MEASURE THE IMPEDANCE OF AN ANTENNA

CONSTRUCTION MEASURING COAXIAL-CABLE PARAMETERS WITH A NOISE BRIDGE USING A BRIDGE TO MEASURE THE IMPEDANCE OF AN ANTENNA A Practical Time-Domain Reflectometer Ground Parameters for Antenna Analysis A Switchable RF Attenuator A Portable Field Strength Meter An RF Current Probe Antenna Measurements

SOME BASIC IDEAS ANTENNA TEST SITE SET-UP & EVALUATION ABSOLUTE GAIN MEASUREMENT RADIATION-PATTERN MEASUREMENTS

SOME BASIC IDEAS ANTENNA TEST SITE SET-UP & EVALUATION ABSOLUTE GAIN MEASUREMENT RADIATION-PATTERN MEASUREMENTS Vector Network Analyzers

S-PARAMETERS ARRAY MEASUREMENT EXAMPLE

S-PARAMETERS ARRAY MEASUREMENT EXAMPLE BIBLIOGRAPHY

LINE CURRENT & VOLTAGE RF VOLTMETER RF AMMETERS SWR Measurements

BRIDGE CIRCUITS

BRIDGE CIRCUITS Resistance Bridge

AVOIDING ERRORS IN SWR MEASUREMENTS MEASURING LINE LENGTH REFLECTOMETERS

AVOIDING ERRORS IN SWR MEASUREMENTS MEASURING LINE LENGTH REFLECTOMETERS The Tandem Match—An Accurate Directional Wattmeter

DESIGN PRINCIPLES CIRCUIT DESCRIPTION CONSTRUCTION ACCURACY OPERATION DESIGN VARIATIONS HIGH-POWER OPERATION

CONSTRUCTION MEASURING COAXIAL-CABLE PARAMETERS WITH A NOISE BRIDGE USING A BRIDGE TO MEASURE THE IMPEDANCE OF AN ANTENNA

SOME BASIC IDEAS ANTENNA TEST SITE SET-UP & EVALUATION ABSOLUTE GAIN MEASUREMENT RADIATION-PATTERN MEASUREMENTS

SOME BASIC IDEAS ANTENNA TEST SITE SET-UP & EVALUATION ABSOLUTE GAIN MEASUREMENT RADIATION-PATTERN MEASUREMENTS Vector Network Analyzers

S-PARAMETERS ARRAY MEASUREMENT EXAMPLE

S-PARAMETERS ARRAY MEASUREMENT EXAMPLE BIBLIOGRAPHY Chapter 28 - Smith Chart Calculations

IMPEDANCE PLOTTING

Short and Open Circuits Standing-Wave-Ratio Circles

Short and Open Circuits Standing-Wave-Ratio Circles SOLVING PROBLEMS WITH THE SMITH CHART ADMITTANCE COORDINATES DETERMINING ANTENNA IMPEDANCES DETERMINATION OF LINE LENGTH LINE-LOSS CONSIDERATIONS WITH THE SMITH CHART

Using a Second SWR Circle Smith Chart Procedure Summary

Using a Second SWR Circle Smith Chart Procedure Summary ATTENUATION AND Z0 FROM IMPEDANCE MEASUREMENTS

Determining Line Attenuation Determining Velocity Factor

Determining Line Attenuation Determining Velocity Factor LINES AS CIRCUIT ELEMENTS

Designing Stub Matches with the Smith Chart

Designing Stub Matches with the Smith Chart MATCHING WITH LUMPED CONSTANTS The Series-Section Transformer

An Example Procedure Summary

An Example Procedure Summary BIBLIOGRAPHY

IMPEDANCE PLOTTING

Short and Open Circuits Standing-Wave-Ratio Circles

Using a Second SWR Circle Smith Chart Procedure Summary

Using a Second SWR Circle Smith Chart Procedure Summary ATTENUATION AND Z0 FROM IMPEDANCE MEASUREMENTS

Determining Line Attenuation Determining Velocity Factor

Determining Line Attenuation Determining Velocity Factor LINES AS CIRCUIT ELEMENTS

Designing Stub Matches with the Smith Chart

Designing Stub Matches with the Smith Chart MATCHING WITH LUMPED CONSTANTS The Series-Section Transformer

An Example Procedure Summary

An Example Procedure Summary BIBLIOGRAPHY Appendix

Glossary of Terms Abbreviations Length Conversions Metric Equivalents Gain Reference

Glossary of Terms Abbreviations Length Conversions Metric Equivalents Gain Reference Advertisements Index Software

INSTALLING THE PROGRAMS/DATA PLACING ICONS ON YOUR DESKTOP SUBDIRECTORIES PROPAGATION-PREDICTION FILES

Choices, Summary and Detailed Propagation Tables Sample Summary Propagation-Prediction Table, January from Boston to the World Sample Detailed Propagation Table for 20 Meters, January, Boston to World for Very High SSN

INSTALLING THE PROGRAMS/DATA PLACING ICONS ON YOUR DESKTOP SUBDIRECTORIES PROPAGATION-PREDICTION FILES

Instructions Summary Tables Index Detailed Tables Index

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