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Precise modeling of board-level components is also attainable with EDA systems such as HFSS. HFSS can be used to model antennas, RF and microwave components, PCBs, connectors, inductors, transistors, capacitors, resistors, thermal and mechanical solutions, and more. All of the main simulation functions of HFSS can be employed with the Ansys-designed Wilson System to create or verify a complete board-level solution. The Wilson tool integrates pre- and post-simulation analysis in one integrated platform.
HFSS is ideal for modeling electromagnetic transmission lines, antenna ports, and other devices that have complex dimensions. It also works great for performance analysis of 3-D antenna designs where the physics defines the mesh, not the other way around. With HFSS you will save time by being able to create the geometry, the physical properties, and the output for performance analysis in seconds.
HFSS include a complete set of over 20 unique precision physical models, hundreds of solvers, and extensive workbench tools. It is the only electromagnetics simulation tool that supports real-time open access to electromagnetic data through the PowerMISS XML format.
One of the biggest advantages of HFSS is that the electromagnetic part of the simulation is based on Mapped Grid technology. This allows you to create any kind of 3D printed geometry in your design and define the physical properties for the geometry. Then you can easily change or modify the geometry to provide for any additional simulation modeling requirements.
Rapidly render any 3D object in all materials including plastic, metals, composites and wood. With 3D printing already today many designs are quickly becoming more affordable and accurate, along with methods for 3D printing of antennas. d8a7b2ff72
With EMIT, RF engineers and designers should benefit from faster convergence and increased effectiveness over running RF simulations, while still keeping their embeddings grounded in a description of the RC network. EMIT additionally paves the way for intelligible visibility into the macroscopic, microscopic and geometrical electric fields of the RC network.
We additionally make use of the newest generations of electromagnetic modeling technologies to boost the capacity of electromagnetic modeling. As a result, designers can model progressively better high frequency circuits and antennas with less time and a decreased chance of getting incorrect results.
Proteus HFSS allows HF engineers to simulate complex signal processing and make use of time-averaged high-frequency responses to model interfering signals and the required electrical components for shielding and noise rejection.
HFSS, which now incorporates the Electronic Design Automation (EDA) market, allows engineers to simulate high frequency electronics, RF, and microwave circuits more quickly. It also accelerates all of the steps of the design flow, including from analysis of the RF circuit to manufacture.
Proteus HFSS considers the signal flow issues, from RFI to the final printed circuit, to ensure the electromagnetic simulation is physically correct as well as eeficient. Its advanced simulation capabilities make it a powerful tool for RF engineers.
One of the most useful features of HFSS is its CAD-EDA paradigm. The integration in Ansys Workbench empowers you to work with a single data set throughout analysis and design without any loss of direction, task, or methodology. It can be used with the industry-leading MiKrox tutorial designs. It has been adopted by the top semiconductor company worldwide because of its outstanding capability for RF and microwave product design.