![]() ![]() ![]() In the case of the Magic Tee, a combination of three bricks is sufficient to describe the entire device. In this tutorial the settings are optimized for an RF waveguide component, consequently the units are set to mm and GHz.īecause the background material (that will automatically enclose the model) is specified as being a perfect electrical conductor, you only need to model the air-filled parts of the waveguide device. We strongly suggest that you carefully read through the CST STUDIO SUITE - Getting Started and CST MICROWAVE STUDIO - Workflow and Solver Overview manual before starting this tutorial.Īfter you have started CST STUDIO SUITE you have the possibility to create a new project template, that will pre-define basic settings for the simulation of your specific application. In this particular case, port 1 and port 4 are de-coupled, so one can expect S14 and S41 to be very small. Although CST MICROWAVE STUDIO can provide a wide variety of results, this tutorial concentrates solely on the S-parameters and electric fields. The main idea behind the Magic Tee is to combine an E-plane and an H-plane T-junction waveguide (see the figure below for an illustration and the dimensions). The acquired knowledge of how to model and analyze this device can also be applied to other devices containing rectangular waveguides. ![]() As a typical example for a rectangular waveguide, you will analyze a well-known and commonly used high frequency device: the Magic Tee. In this tutorial you will learn how to simulate rectangular waveguide devices. 26 Geometric Construction and Solver Settings Introduction and Model Dimensions Geometric Construction and Solver Settings. ![]()
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