Hf Antennas For All Locations Moxon Pdf -
A critical air gap between the tips of the driven element and the reflector provides the coupling necessary for its distinctive radiation pattern.
The principles of the Moxon antenna allow it to be built for any HF band, from 10 meters up to 20 meters and higher. Key Design Elements:
To design a Moxon antenna, the following parameters need to be considered: hf antennas for all locations moxon pdf
If you want the actual PDF: Search for “Moxon Rectangle Project” by L. B. Cebik (W4RNL) or use the free “MoxonGen” software. Most ham radio sites host the original 2-page build guide.
The forward beamwidth is wider than a standard Yagi, reducing the need for constant, precise rotation. A critical air gap between the tips of
—a revolutionary two-element beam antenna that offers exceptional performance in a compact, lightweight, and easily concealable package.
You have room, but you want to focus on one specific direction (e.g., Europe from the US East Coast) without building a massive rotatable tower. The Moxon Solution: Build a monoband Moxon for 40 meters . At 7 MHz, the Moxon is 17.6 feet wide and 5.6 feet tall. This is dramatically smaller than a 40m Yagi (which would need a 30+ foot boom). Mount it on a lightweight TV rotator on a 30-foot wooden pole. You now have a rotatable 40m beam at a fraction of the cost. The forward beamwidth is wider than a standard
I can provide the exact layout dimensions or help you model the design. Share public link
The Moxon is essentially a two-element Yagi antenna with its ends folded inward. This simple modification offers several key advantages:
The classic book HF Antennas for All Locations by Les Moxon (G6XN) is a seminal work for amateur radio enthusiasts, particularly those facing space constraints or difficult environments. Moxon is widely recognized for his expertise in designing effective antennas that prioritize performance even in restricted locations. 0x9900.com Moxon Rectangle Antenna
Though the specific "Moxon Rectangle" shape was popularized and mathematically refined later by , its design is rooted in the experiments Fred Caton (VK2ABQ) and Les Moxon conducted on folded, closely-spaced elements.