![]() ![]() In addition, parallel computer processing, in which the problem is distributed to more than one computer, allows antenna designers to explore more design options in less time. Combining this capability with EM analysis supports highly accurate performance and yield optimization that addresses manufacturing tolerances affecting performance factors such as efficiency and return loss. ![]() Parameterization enables designers to readily analyze and optimize planar and fully 3D structures over a user-specified range of property values. To study performance, peak antenna simulation should support metrics such as total radiated power, or power in a particular polarization across the “cut” of a radiation pattern as a function of swept frequency or other user-defined swept parameters. With fast N*Log(N) solver technology, you can address large, complex arrays that were previously impractical to simulate in their entirety. SimulationĮM simulation software allows you to perform analysis and post-processing of antennas and arrays. With the development of high-performance cloud computing, powerful EM analysis, and advanced optimization techniques, engineers can now reliably use EM simulation software to generate physical designs from electrical requirements. To convert bound circuit fields into propagating EM waves, antenna design focuses on developing a structure that emits and/or receives EM waves as efficiently as possible for a specific frequency range and geometric form factor. Advanced PCB Design & Analysis Resources Hub.Voltus-XFi Custom Power Integrity Solution. ![]()
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