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Many beginners simulate in Free Space and wonder why the antenna works poorly 10 feet above real ground. set a realistic ground type: Settings > Ground Type > Real High Accuracy . Enter your location’s conductivity (e.g., 5 mS/m for average ground, 0.5 for rocky) and permittivity (13 for average soil). You will see the take-off angle change dramatically.
In simple terms, when you define an antenna in MMANA-GAL Pro, the software breaks the wire structure into small segments. It then calculates how current flows through these segments and how electromagnetic fields radiate from them. By solving these matrix equations, the software predicts how the antenna will behave in the real world. Mmana-gal Pro
One of the most significant advantages of MMANA-GAL Pro is its ability to handle automated calculations. When paired with external tools like , users can automate the process of changing antenna models and recalculating parameters across thousands of variations. This is particularly useful for finding the "sweet spot" in multi-element Yagi designs where spacing and element length must be perfectly balanced. 2. Enhanced Data Management Many beginners simulate in Free Space and wonder
Unlike the basic version, MMANA-GAL Pro is built to generate frequency-dependent arrays that can be exported to spreadsheet software like . This allows engineers to perform deep statistical analysis, calculate average gains across a band, and identify the most stable designs for mass production. 3. Real-World Ground Modeling You will see the take-off angle change dramatically
The software then evolves a population of antenna designs over dozens of generations, converging on an optimal configuration. This is remarkably powerful for complex Yagis or multi-band traps.