"Waveguide" Example Sentences
1. The waveguide was designed to protect the transmission of microwaves.
2. He installed the waveguide to boost the signals in his antenna.
3. The waveguide's material determined the frequency it could handle.
4. She studied the propagation of electromagnetic waves in a waveguide.
5. The manufacturer produced a waveguide that reduced signal loss.
6. The waveguide's dimensions affected the wavelength of the waves it transmitted.
7. The waveguide was curved to fit around obstacles in the transmission path.
8. The waveguide system improved the range of communication in the region.
9. The technician measured the insertion loss of the waveguide to verify its efficiency.
10. The waveguide's functionality depended on the purity of its inner walls.
11. The military used waveguides for secure communication.
12. The waveguide's cross-sectional shape determined the modes in which the waves traveled.
13. The waveguide's termination was critical for preventing reflections.
14. The team developed a waveguide with low dispersion for optical communication.
15. The waveguide had a rectangular cross-section to facilitate broadband transmission.
16. The waveguide needed to be perfectly aligned with the transmitter and receiver.
17. The engineer designed the waveguide to operate at high power.
18. The waveguide's frequency response was characterized using S-parameters.
19. The waveguide was tested for its ability to withstand high temperatures and pressure.
20. The waveguide's impedance had to match the system's impedance for optimal power transfer.
21. The researchers simulated the electromagnetic behavior of the waveguide using a computer model.
22. The waveguide was wrapped in a metallic shield to prevent interference.
23. The waveguide had several iris windows to allow for adjustments and tuning.
24. The waveguide was fabricated using precision machining techniques.
25. The waveguide's surface finish affected the efficiency of the transmission.
26. The waveguide was filled with a dielectric material to improve its performance.
27. The waveguide had a circular cross-section for improved symmetry in the wave propagation.
28. The waveguide had a horn at its end to couple the wave energy with the outer environment.
29. The waveguide's output power was measured using a power meter.
30. The waveguide was inspected for defects and imperfections using non-destructive testing methods.
Common Phases
1. The
waveguide's dimensions determine the frequency range it can handle;
2. A
waveguide is a hollow structure used to convey electromagnetic waves;
3. The
waveguide's material affects its attenuation characteristics;
4. The most common shape for a
waveguide is rectangular;
5.
Waveguides are used in microwave and satellite communication systems;
6.
Waveguides are critical components in radar systems;
7.
Waveguides are often made from metal, plastic, or ceramic materials;
8. Transmission losses can occur in
waveguides due to conductor resistivity and dielectric material losses;
9. The operating frequency and
waveguide size are inversely proportional;
10.
Waveguides can be designed to minimize unwanted reflections and interference.