The following data is derived from the most frequently downloaded Moxon design tables. These dimensions are for wire antennas (using 14 AWG copper) or aluminum tubing. For a free-space Moxon (center-fed with 50-ohm coax), use these numbers.
Critical Formula (for mental math):
The Moxon Rectangle stands as a testament to innovative antenna design. It disproves the axiom that effective HF antennas require vast acreage. By combining the mechanical efficiency of a shortened wingspan with the electrical efficiency of a directional array, the Moxon provides a "hot" solution for the modern amateur.
Whether constructed as a permanent wire fixture between trees or as a rotatable aluminum array, the Moxon is arguably the best "first antenna" for the aspiring DXer with a small lot. Its high front-to-back ratio, modest footprint, and excellent gain ensure that it remains a relevant and powerful tool in the HF arsenal. hf antennas for all locations moxon pdf hot
The "ideal" HF antenna has traditionally been viewed as a full-size half-wave dipole or a monoband Yagi. However, these antennas present a logistical challenge for operators living on small lots, in apartments, or in communities with strict Homeowners Association (HOA) covenants.
Les Moxon (G6XN) popularized a design originally theorized by Albert Stegen, which challenged the notion that performance must be sacrificed for size. The resulting antenna, known as the Moxon Rectangle, offers a unique blend of compact geometry, gain, and a broadband match, making it one of the most effective antennas for "all locations."
Traditional HF antennas are location snobs. The following data is derived from the most
If you live in an attic, a condo, a townhouse, or a rental property, you have been told to settle for a "dummy load" (a poor antenna). But the Moxon rectangle changes the game. It is the only high-performance directive antenna that scales elegantly from a tiny portable setup to a fixed station powerhouse.
As urbanization increases and available real estate for amateur radio stations decreases, the need for compact, high-performance High Frequency (HF) antennas has become critical. Traditional horizontal dipoles and Yagi-Uda arrays often require significant turning radiuses and real estate that many operators cannot afford. This paper explores the Moxon Rectangle as a superior alternative. By bending the ends of a dipole inward, the Moxon design achieves a significant reduction in wingspan (approximately 70% of a full dipole) while maintaining excellent gain and a distinct directional pattern. This paper details the theory, construction, performance characteristics, and practical applications of the Moxon antenna, proving its viability as a "hot" solution for restricted locations.
It sounds like you are looking for a complete technical resource on building and deploying Moxon antennas for HF (specifically for challenging or “all locations” like small lots, apartments, or portable use), and you want it in PDF format — likely because you’ve seen the phrase “Moxon PDF hot” (meaning a popular, highly sought-after document). The "ideal" HF antenna has traditionally been viewed
While I cannot directly email or host PDF files, I can give you the complete “story” — the practical knowledge, design steps, and deployment strategies — that those sought-after PDFs contain. You can then use this to build your own antenna or locate the exact documents.
The Moxon excels across three common deployment scenarios:
Les Moxon’s 1992 book (RSGB publication) is out of print. Clean PDF scans are highly sought after (and legally shared for personal use in many ham circles). Here is why the PDF remains the "hottest" download:
Warning: Do not just grab any random Moxon calculator online. Many web calculators use the wrong spacing formula. Stick to the original PDF data from G6XN.