�ݺ�ߣshows by User: taneluc

�ݺ�ߣshows by User: taneluc / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: taneluc / Sun, 19 Feb 2023 11:44:48 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: taneluc AN-SOF Antenna Simulation Software | User Guide /slideshow/ansof-antenna-simulation-software-user-guide/255919057 an-sofuserguide-230219114448-3bd6a27f
AN-SOF is a simulation software for the modeling, analysis, and design of antennas. It allows users to describe antenna geometry, choose material properties, simulate far-field radiation patterns, analyze antenna parameters, and optimize designs. AN-SOF is a must-have for anyone involved in the design and simulation of antennas. It offers a user-friendly interface, high accuracy, a growing library of antenna models , and a wide range of simulation capabilities, making it an ideal tool for both professionals and students. AN-SOF specializes in the modeling of wire antennas, including dipoles, monopoles, yagis, log-periodic arrays, helices, spirals, loops, horns, fractals and many other antenna types. The calculation method has been extended to also include single-layer microstrip patch antennas as well as printed circuit boards. Data entry with AN-SOF is easy. To edit a wire just click on it and an edit box will come up with the relevant dimensions. This is easier and quicker than searching through a spreadsheet to find a wire. Also, sources and loads can be seen graphically. To visualize output data, you can have quite a collection of plotted images to compare and save as you run through a design. Electromagnetic fields, currents, voltages, input impedances, VSWR, consumed and radiated powers, gain, directivity, and far more parameters can be computed in a frequency sweep and plotted in 2D and 3D graphical representations.]]>
AN-SOF is a simulation software for the modeling, analysis, and design of antennas. It allows users to describe antenna geometry, choose material properties, simulate far-field radiation patterns, analyze antenna parameters, and optimize designs. AN-SOF is a must-have for anyone involved in the design and simulation of antennas. It offers a user-friendly interface, high accuracy, a growing library of antenna models , and a wide range of simulation capabilities, making it an ideal tool for both professionals and students. AN-SOF specializes in the modeling of wire antennas, including dipoles, monopoles, yagis, log-periodic arrays, helices, spirals, loops, horns, fractals and many other antenna types. The calculation method has been extended to also include single-layer microstrip patch antennas as well as printed circuit boards. Data entry with AN-SOF is easy. To edit a wire just click on it and an edit box will come up with the relevant dimensions. This is easier and quicker than searching through a spreadsheet to find a wire. Also, sources and loads can be seen graphically. To visualize output data, you can have quite a collection of plotted images to compare and save as you run through a design. Electromagnetic fields, currents, voltages, input impedances, VSWR, consumed and radiated powers, gain, directivity, and far more parameters can be computed in a frequency sweep and plotted in 2D and 3D graphical representations.]]> Sun, 19 Feb 2023 11:44:48 GMT /slideshow/ansof-antenna-simulation-software-user-guide/255919057 taneluc@slideshare.net(taneluc) AN-SOF Antenna Simulation Software | User Guide taneluc AN-SOF is a simulation software for the modeling, analysis, and design of antennas. It allows users to describe antenna geometry, choose material properties, simulate far-field radiation patterns, analyze antenna parameters, and optimize designs. AN-SOF is a must-have for anyone involved in the design and simulation of antennas. It offers a user-friendly interface, high accuracy, a growing library of antenna models , and a wide range of simulation capabilities, making it an ideal tool for both professionals and students. AN-SOF specializes in the modeling of wire antennas, including dipoles, monopoles, yagis, log-periodic arrays, helices, spirals, loops, horns, fractals and many other antenna types. The calculation method has been extended to also include single-layer microstrip patch antennas as well as printed circuit boards. Data entry with AN-SOF is easy. To edit a wire just click on it and an edit box will come up with the relevant dimensions. This is easier and quicker than searching through a spreadsheet to find a wire. Also, sources and loads can be seen graphically. To visualize output data, you can have quite a collection of plotted images to compare and save as you run through a design. Electromagnetic fields, currents, voltages, input impedances, VSWR, consumed and radiated powers, gain, directivity, and far more parameters can be computed in a frequency sweep and plotted in 2D and 3D graphical representations. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/an-sofuserguide-230219114448-3bd6a27f-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> AN-SOF is a simulation software for the modeling, analysis, and design of antennas. It allows users to describe antenna geometry, choose material properties, simulate far-field radiation patterns, analyze antenna parameters, and optimize designs. AN-SOF is a must-have for anyone involved in the design and simulation of antennas. It offers a user-friendly interface, high accuracy, a growing library of antenna models , and a wide range of simulation capabilities, making it an ideal tool for both professionals and students. AN-SOF specializes in the modeling of wire antennas, including dipoles, monopoles, yagis, log-periodic arrays, helices, spirals, loops, horns, fractals and many other antenna types. The calculation method has been extended to also include single-layer microstrip patch antennas as well as printed circuit boards. Data entry with AN-SOF is easy. To edit a wire just click on it and an edit box will come up with the relevant dimensions. This is easier and quicker than searching through a spreadsheet to find a wire. Also, sources and loads can be seen graphically. To visualize output data, you can have quite a collection of plotted images to compare and save as you run through a design. Electromagnetic fields, currents, voltages, input impedances, VSWR, consumed and radiated powers, gain, directivity, and far more parameters can be computed in a frequency sweep and plotted in 2D and 3D graphical representations.

AN-SOF Antenna Simulation Software | User Guide from Golden Engineering

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0 https://cdn.slidesharecdn.com/profile-photo-taneluc-48x48.jpg?cb=1676806510 Since 2000, Golden Engineering has been working on the field of electromagnetic simulations from very low to very high frequencies, especially on the modeling of antenna systems and scatterers. www.antennasoftware.com.ar