Links
This page provides information on designing a lightweight Moxon antenna for the upper HF bands and VHF. The Moxon antenna is a compact version of a 2-element Yagi with folded elements, offering good forward gain and a high front-to-back ratio. It is designed for a single band with a feed-point impedance close to 50 ohms. Hams can orient the antenna horizontally or vertically, with polarization following the configuration, affecting radiation patterns. The page allows users to generate radiation pattern plots, VSWR charts, antenna currents diagrams, and Smith charts for their antennas on different ground types, helping them understand antenna performance in the field.
This page provides a detailed guide on building a 25 Watt QRP dummy load for hams. It includes a list of required parts and supplies, along with a documentation section. The project is aimed at hams interested in QRP operations and looking to build their own dummy load. The page offers step-by-step instructions and resources to help hams successfully complete the project.
This page provides guidance on designing an End-Fed Half-Wave (EFHW) or Random-Length antenna for amateur HF bands, such as 80 or 40 meters. The content explains how to optimize the antenna for multi-band use and match it to a 50-ohm system using an unun. Hams can generate radiation patterns, VSWR charts, and antenna current diagrams for their customized antenna designs. Understanding how antenna dimensions affect performance is essential for successful field operations. The page caters to ham radio operators looking to build efficient and effective HF antennas for their stations.
A webSDR receiver running on 8 HF Bands based in Bordeaxu France
Building a VK5JST Antenna Analyzer for HF, VHF and UHF. The purpose of the antenna analyzer is to be able to tell you how well the antenna setup is matched to 50 ohms (it will provide a scalar value on a meter dial to help with this) at your desired transmit frequency. This particular antenna analyzer relies on the user providing an RF source (usually a radio transmitter or transceiver), and then observing the deflection on a moving-coil meter, as the transmit frequency is varied around your desired frequency of interest, to see if the antenna is tuned to your desired frequency or not.
This page discusses a simple receiver protection device designed by Matt Roberts for hams. The article details the purpose, construction, and usage of the RF clipper, providing useful information for ham radio operators looking to protect their equipment from RF overload. The content is practical and informative, offering a solution to a common issue faced by hams.
Learn how to design a Hentenna antenna, a portable asymmetrical double-loop antenna ideal for amateur HF or VHF bands. This page provides details on constructing and optimizing the antenna for maximum performance in DX communications. Discover how altering the antenna’s vertical feed section can adjust the VSWR resonant frequency and how changing the support pole’s position can alter the beam direction. Originally developed by Japanese 6-meter operators, the ‘Hentenna’ offers a unique design that allows for horizontal polarization when vertically oriented. Explore radiation patterns, VSWR charts, and antenna currents diagrams to optimize your antenna’s performance for long-distance contacts.
This page offers a tool for hams to design vertical antennas for portable use on different HF/VHF/UHF bands. Vertical antennas provide omni-directional transmission and reception, making them ideal for DX contacts. By adjusting the antenna’s dimensions and viewing radiation patterns and VSWR charts, hams can optimize performance in various terrains. The tool also accounts for the impact of sloping ground on elevation radiation patterns. Perfect for hams looking to enhance their portable radio setups and improve long-distance communication.
This map was created from the need to have a map for WWFF activity. The thanks go to the people from WWFF who provided the very first data. At the beginning it was a simple map that didn’t work on a mobile phone. Later I added more features, better backend and frontend and other data sources such as POTA, SOTA etc.
This page offers an online antenna designer tool for Hams to calculate the dimensions needed to construct a coaxial collinear antenna for a specific frequency. It provides guidance on the required frequency input, coax velocity factor, and element measurements for optimal performance. The tool is recommended for experienced antenna builders due to its complexity and technical requirements. Users can input the frequency in MHz and the tool will generate the necessary dimensions based on the chosen parameters. The page emphasizes the importance of accurate measurements and connections for successful antenna construction.