Mmana-gal Antenna — Files Link
: The core of the file defines wires using a three-dimensional coordinate system ( ) for the start point and ( ) for the end point, measured in meters. Wire Radius (R) : Specified in millimeters. A negative value indicates a tapered element composed of multiple segments with different radii. Segmentation (SEG)
Click the tab to visually verify the shape of your antenna.
Always write detailed notes in the description block inside MMANA-GAL. Include wire gauges used, intended building materials, or tuning quirks. mmana-gal antenna files
When you install MMANA-GAL, it includes a massive directory of pre-made .maa files. Navigate to the installation folder (usually C:\MMANA-GAL\ANT\ ) to find categorized folders: Dipoles, verticals, and ground planes. HF multi-band: Log-periodics, traps, and windom antennas. VHF/UHF: Yagis, quads, and helical antennas. 2. Online Repositories and Forums
Ground type (free space, perfect ground, or real ground) and antenna height. Deconstructing the Structure of an .maa File : The core of the file defines wires
The top of the file defines the name of the antenna design and the initial calculation frequency in Megahertz (MHz). 2. Wire Coordinates
Search for "MMANA antenna models" to find community-curated repositories containing modern, optimized designs. 4. How to Edit and Optimize Antenna Files Segmentation (SEG) Click the tab to visually verify
An MMANA-GAL antenna file is a plain-text file that stores the complete physical description and electrical parameters of an antenna model. MMANA-GAL uses the , a numerical computational technique, to calculate the current distribution along the antenna's wires.
MMANA-GAL antenna files file extension to store the physical geometry, source placement, and load data required for antenna modeling based on the MININEC-3 engine 1. File Structure and Components
: Many files come "pre-optimized." You can use the software’s "Auto-Optimization" tool to tweak a shared file for your specific frequency of interest (e.g., shifting a 20m dipole to be resonant at 14.150 MHz).
