Scattering Matrix Analysis of Ferrite and Non-Ferrite Microwave Devices
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- Опубліковано 27 лис 2024
- In this video, we will explore the process of calculating the scattering matrix (S-matrix) for various microwave devices, including both ferrite and non-ferrite components. The S-matrix is a fundamental tool in microwave engineering used to analyze the behavior of microwave devices in terms of reflected and transmitted signals.
Throughout this video, we will cover the following devices:
Directional Coupler: Learn how to calculate the S-matrix for a directional coupler, a device that splits the input signal into two output ports, with a specific power ratio between them.
E-Plane TEE and H-Plane TEE: Understand the calculation of S-matrices for the E-plane and H-plane T-junctions, which are commonly used to split or combine signals in waveguides.
Magic TEE: Dive into the S-matrix analysis for the Magic TEE, an essential device used for dividing power in specific phase relationships and combining signals in microwave circuits.
Circulator: Learn how to calculate the S-matrix for a circulator, which allows the signal to flow in one direction while preventing backflow, typically used in isolating circuits.
Isolator: Finally, we'll explain the calculation of the S-matrix for an isolator, a passive device that only allows signals to pass in one direction, protecting sensitive components from reflected signals.
By the end of this video, you will have a solid understanding of how to compute the S-matrix for each of these devices and apply this knowledge to analyze their performance in microwave circuits.
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