The magic happens in the tab. Here, you select your ground type (Real, Free Space, or Perfect) and the height of the antenna above ground.
: Defines the feed point(s) of the antenna. A source can be placed at the beginning, end, or center of a specific wire.
Visualizes 2D and 3D radiation patterns, including azimuth and elevation plots to determine gain and front-to-back ratios. Understanding .maa Files
Most guides and "antenna libraries" shared online consist of files. Here is how to handle them: Opening Files File > Open (*.maa) or simply drag and drop the file into the MMANA-GAL window. Viewing Geometry : Go to the Geometry tab to see the wire coordinates. You can manually adjust the points here. The Library : MMANA-GAL comes with a built-in library located in the
: The first three lines usually contain the Project Name , a comment line (often just * ), and the Target Frequency in MHz. Wires : This is the core geometry. 1 : Number of wires.
Mmana-gal Antenna Files New! -
The magic happens in the tab. Here, you select your ground type (Real, Free Space, or Perfect) and the height of the antenna above ground.
: Defines the feed point(s) of the antenna. A source can be placed at the beginning, end, or center of a specific wire. mmana-gal antenna files
Visualizes 2D and 3D radiation patterns, including azimuth and elevation plots to determine gain and front-to-back ratios. Understanding .maa Files The magic happens in the tab
Most guides and "antenna libraries" shared online consist of files. Here is how to handle them: Opening Files File > Open (*.maa) or simply drag and drop the file into the MMANA-GAL window. Viewing Geometry : Go to the Geometry tab to see the wire coordinates. You can manually adjust the points here. The Library : MMANA-GAL comes with a built-in library located in the A source can be placed at the beginning,
: The first three lines usually contain the Project Name , a comment line (often just * ), and the Target Frequency in MHz. Wires : This is the core geometry. 1 : Number of wires.