# Problem 1 Rectangular Cavity Resonator - Microwave Resonators - Microwave Engineering | Summary and Q&A

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April 5, 2022
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Problem 1 Rectangular Cavity Resonator - Microwave Resonators - Microwave Engineering

## TL;DR

Calculate the resonant frequency of a rectangular cavity resonator with given dimensions using the TE 1 0 1 mode of operation.

## Key Insights

• 🤗 Microwave engineering involves understanding parallel and resonant types of circuitry, as well as open and short-circuited conditions in microwave transmission lines.
• 😚 Waveguides can be converted into cavity resonators by closing the openings with shorting plates, resulting in rectangular or circular cavity resonators.
• 📳 The resonant frequency of a rectangular cavity resonator depends on its dimensions and mode of operation.
• ❓ Calculating the resonant frequency requires substituting values into the formula and solving for the frequency.
• 🤒 Precision in converting units (e.g., from centimeters to meters) is important to ensure accurate results.
• 🏃 Microwave engineering topics can be complex but can be better understood through problem-solving exercises.
• 🎮 This video is part of a series covering different aspects of microwave engineering.

## Transcript

click the Bell icon to get latest videos from akira hello friends i welcome you all to this video we are with chapter 11 of microwave engineering microwave resonators we have a dressing here so we started this chapter to see the parallel and the resonant type of circuitry corresponding to the series connections also we have also addressed the open ... Read More

### Q: What are the parallel and resonant types of circuitry discussed in microwave engineering?

The parallel and resonant types of circuitry in microwave engineering refer to different circuit configurations that can be used in microwave applications. The parallel configuration involves connecting components in parallel, while the resonant configuration focuses on achieving resonance in the circuit.

### Q: How can waveguides be converted into cavity resonators?

Waveguides can be converted into cavity resonators by closing the two openings of the waveguide with shorting plates. This effectively transforms a rectangular waveguide into a rectangular cavity resonator and a circular waveguide into a circular cavity resonator.

### Q: What factors are considered in determining the resonant frequency of a rectangular cavity resonator?

The resonant frequency of a rectangular cavity resonator is determined by factors such as the dimensions of the resonator (length, breadth), the mode of operation (TE MNP), and the velocity of light in air or vacuum.

### Q: How do you calculate the resonant frequency of a rectangular cavity resonator?

The resonant frequency of a rectangular cavity resonator can be calculated using the formula Fr = (C/2) * [(M/a)^2 + (N/b)^2 + (P * λ/2d)^2]^0.5, where C is the velocity of light, M, N, and P are mode parameters, a and b are the dimensions of the resonator, and d is the length.

## Summary & Key Takeaways

• The video discusses the parallel and resonant types of circuitry in microwave engineering, along with open and short-circuited conditions in microwave transmission lines.

• The video also covers the conversion of waveguides into cavity resonators, specifically rectangular and circular waveguides into rectangular and circular cavity resonators.

• The problem statement in the video involves calculating the resonant frequency of a rectangular cavity resonator with specific dimensions and TE 1 0 1 mode of operation.