How to Use Mician Uwave Wizard for Microwave Design
How to Use Mician Uwave Wizard for Microwave Design
Mician Uwave Wizard is a software suite that offers synthesis and optimization tools for designing passive microwave systems and components, including antennas. It uses a hybrid solver approach that combines the flexibility of the Finite-Element-Method (FEM) with the speed and accuracy of Mode-Matching (MM). This allows you to create complex structures using parameterized library elements and user-defined elements, and optimize them using different solvers and algorithms.
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In this article, we will show you how to use Mician Uwave Wizard for microwave design in three steps: creating a model, simulating and optimizing it, and verifying the results.
Step 1: Creating a Model
The first step is to create a model of your microwave structure using the integrated modeler. You can choose from hundreds of predefined library elements, such as irises, cavities, junctions, horns, filters, etc., or create your own elements using the 3D editor. You can also use synthesis tools for bandpass, lowpass, interdigital filters, tapers, horn antennas and reflectors. All elements are parameterized, so you can easily modify their properties and dimensions.
To create a model, you need to open a new project and select a schematic view. Then, you can drag and drop elements from the library or the modeler onto the schematic. You can connect them using ports or waveguides. You can also edit the parameters of each element by double-clicking on it or using the property window. You can also assign names and labels to each element for easier identification.
Step 2: Simulating and Optimizing the Model
The second step is to simulate and optimize your model using the hybrid solver concept. This concept takes advantage of the combined strength of individual solvers. Hybrid solvers subdivide complex structures into components which can be individually simulated using designated solvers best suited for the task. By cascading simulated RF performance of all individual components, the frequency response of the complex structure can be accurately predicted.
To simulate your model, you need to select a solver from the menu bar. You can choose from MM (Mode-Matching), FEM (Finite-Element-Method), or Hybrid (a combination of MM and FEM). Then, you need to specify the frequency range and resolution for your simulation. You can also define ports and excitations for your model. After that, you can run the simulation and view the results in various formats, such as S-parameters, VSWR, insertion loss, reflection coefficient, etc.
To optimize your model, you need to select an optimizer from the menu bar. You can choose from Random Search, Gradient Search, or Genetic Algorithm. Then, you need to define a goal function that represents your desired performance criteria. You can also specify constraints and tolerances for your parameters. After that, you can run the optimization and view the progress and results in various formats.
Step 3: Verifying the Results
The third step is to verify your results using the built-in FEM solver. This solver can compute the cascaded assembly as one huge 3D-FEM object without any change in the construction. This way, you can check the accuracy and validity of your hybrid solver results.
To verify your results, you need to select FEM Verification from the menu bar. Then, you need to specify the frequency range and resolution for your verification. You can also define ports and excitations for your model. After that, you can run the verification and compare the results with your hybrid solver results in various formats.
Conclusion
Mician Uwave Wizard is a powerful software suite that enables you to design and optimize passive microwave systems and components using a hybrid solver approach. It offers a fast and easy way to create complex structures using parameterized library elements and user-defined elements, and optimize them using different solvers and algorithms. It also allows you to verify your results using a built-in FEM solver.
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