UNCLASSIFIED
TM-ANT-036
HEX LOOP ANTENNA
Six-Sided Horizontally Polarized Loop, 20M–15M
Prepared by: Mervyn Martin, KO6NNH
Merced, California  •  26 May 2026
Amateur Radio / Antenna Engineering — Not for commercial use

Table of Contents

  1. Chapter 1 — General Information
  2. Chapter 2 — Theory of Operation
  3. Chapter 3 — Materials and Construction
  4. Chapter 4 — Assembly Procedures
  5. Chapter 5 — Calibration Procedure
  6. Chapter 6 — Tuning and Adjustment
  7. Chapter 7 — Verification
  8. Appendix A — Calculations and Formulas
  9. Appendix B — Example Results

CHAPTER 1 — GENERAL INFORMATION

1-1. SCOPE

This manual covers the Hex Loop Antenna for operation on 20M (14.0–14.35 MHz), 15M (21.0–21.45 MHz). The loop topology provides an omnidirectional azimuth pattern (for vertical orientation) or a bidirectional pattern (for horizontal orientation), with inherent advantage over dipoles in low-band noise floor due to reduced sensitivity to vertically polarized man-made noise.

1-2. APPLICABLE REFERENCES

  • ARRL Antenna Book — Chapter on Loop Antennas
  • NEC2 model: hex_loop.nec (in antenna directory)
  • ON4UN’s Low Band DXing — Loop antenna chapters
  • FCC OET Bulletin 65 — RF Exposure Evaluation

1-3. SAFETY PRECAUTIONS

CAUTION — RF EXPOSURE Maintain minimum safe distance from all energized antenna elements during transmission. At QRP power levels (≤5 W) the MPE boundary is typically <1 m for HF antennas. At 100 W the controlled exposure limit for HF antennas requires maintaining ≥3–10 m distance depending on frequency (per FCC OET Bulletin 65). Never touch feed-point hardware or support structures while transmitting. Verify PTT key is open before antenna work.

CHAPTER 2 — THEORY OF OPERATION

2-1. RADIATION PHYSICS

Six-sided (hexagonal) full-wave loop fed at one side corner; horizontal polarization in broadside direction. A full-wave loop fed at any point resonates when the total conductor length equals one free-space wavelength: λ = 300/fMHz meters. The feed-point impedance of a square loop at resonance is approximately 100–150 Ω (real), varying with shape and height above ground. A circular loop has slightly higher radiation resistance than a square loop of the same perimeter.

2-2. RADIATION PATTERN

A horizontal full-wave loop at 0.5λ height produces a low-angle radiation pattern in the plane of the loop (edge-fire). Gain over a dipole at the same height is approximately 1.5–2 dB because the current distribution around the loop produces additive broadside contributions. Vertical loops produce an omnidirectional azimuth pattern with vertically polarized radiation; horizontal loops are horizontally polarized. Estimated gain: 2–4 dBi broadside.

2-3. IMPEDANCE AND MATCHING

Feed impedance: 100–150 Ω (2:1 balun to 50 Ω). The loop impedance at resonance is typically 100–150 Ω, requiring a 2:1 balun (or direct feed to 75 Ω coax) for a reasonable match to 50 Ω systems. Off-resonance the loop can be operated through an ATU. Harmonic resonances occur at odd and even multiples of the fundamental frequency, extending multiband coverage without retuning.

CHAPTER 3 — MATERIALS AND CONSTRUCTION

3-1. BILL OF MATERIALS

Materials for Hex Loop Antenna
QtyItemSpecification
1 lengthLoop conductor#14–#12 AWG copper wire; length = 1008/fMHz feet (full wavelength)
2–4Corner insulators / spreadersUV-stable plastic or PVC; one per loop corner
1Feed-point insulator with connectorSO-239 or N-type; weatherproof
12:1 current balunMix-31 or Mix-61 ferrite; handles operating power
1Support structurePVC mast, fiber-glass pole, or tree; non-conductive preferred

3-2. PERIMETER FORMULA

Full-wave loop perimeter (feet)P = 1005 / fMHz (accounts for velocity factor ≈ 0.997)
Side length for equilateral triangle loop (feet)S = P / 3
Side length for square loop (feet)S = P / 4
Example: 40M at 7.150 MHzP = 1005 / 7.150 = 140.6 ft; square side = 35.1 ft

CHAPTER 4 — ASSEMBLY PROCEDURES

CAUTION — RF EXPOSURE Maintain minimum safe distance from all energized antenna elements during transmission. At QRP power levels (≤5 W) the MPE boundary is typically <1 m for HF antennas. At 100 W the controlled exposure limit for HF antennas requires maintaining ≥3–10 m distance depending on frequency (per FCC OET Bulletin 65). Never touch feed-point hardware or support structures while transmitting. Verify PTT key is open before antenna work.
  1. Calculate loop perimeter per formula above. Cut conductor 5% long for trimming.
  2. Install corner supports at spacing equal to side length. Attach conductor to corner insulators with UV-stable lacing or binding wire.
  3. Close the loop — solder or crimp conductor ends to feedpoint connector terminals. Install 2:1 balun at feedpoint before connecting coax.
  4. Raise loop to operating height. Horizontal polarization: loop plane horizontal. Vertical polarization: loop plane vertical, feed at bottom.
  5. Route feed line downward from feedpoint, maintaining 90° departure from loop plane for at least 0.5λ to minimize coupling.
  6. Perform SWR sweep per Chapter 5.

CHAPTER 5 — CALIBRATION PROCEDURE

  1. SOLT calibrate NanoVNA at antenna end of feed line (or at feedpoint balun output).
  2. Set sweep: fundamental resonance ±20%.
  3. Verify fres where X = 0. Record R and SWR.
  4. Expected: R = 100–150 Ω at resonance before matching. After 2:1 balun: R = 50–75 Ω at 50 Ω coax.
  5. Trim loop perimeter in 6-inch increments to shift resonance to design frequency. Do not cut — fold wire back on itself until correct length found, then cut cleanly.
  6. Check harmonic resonances at 2f0, 3f0; verify SWR acceptable for multiband use.

CHAPTER 6 — TUNING AND ADJUSTMENT

Trim loop perimeter to shift resonance. Each 1-ft change in total perimeter shifts resonance approximately 10–20 kHz at 40M. An ATU at the feed line allows operation across a 2:1 frequency range from a single cut length. For delta loops, adjusting the feed point position (base corner vs. apex) changes the feed impedance but not the resonant frequency.

CHAPTER 7 — VERIFICATION

Acceptance Criteria
ParameterRequirementPass/Fail
SWR at resonance< 2.0:1 after matching____
Resonant frequencyWithin ±1% of design____
R at resonance100–150 Ω (before matching)____
Gain (NEC2)2–4 dBi broadside____
Efficiency88–96%____

APPENDIX A — CALCULATIONS AND FORMULAS

Full-wave loop perimeter (feet)P = 1005 / fMHz
Radiation resistance (full-wave loop, free space)Rr ≈ 100–150 Ω (shape-dependent)
Gain over dipole at same heightΔG ≈ 1.5–2 dB

APPENDIX B — EXAMPLE RESULTS

Typical Results — Hex Loop Antenna
Bandfres (MHz)SWRR (Ω)X (Ω)Notes
40M7.1501.4:1120+5After 2:1 balun: SWR 1.6:1
20M14.1751.5:1110−8Harmonic resonance
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