In this lab students will conduct advanced experiments on topics like fiber optics, transmission lines, microwave and antenna, work on the characteristics of fibers (structure, method of propagation, numerical aperture and attenuation), optical sources and detectors and transmission over fiber.
Transmission line experiments will cover studying delays on TL’s, standing waves, transformer matching and time domain reflectometry concept.
Microwave experiments includes investigating Gunn oscillator characteristics, standing waves in Waveguides , directional coupler parameters and hybrid tees characteristics. Antenna system covers the principles of various types of antennas such as: dipole, horn, helical, Yagi-Uda and patch antennas. These principles includes drawing radiation patterns and measuring gain, directivity and half power beam width of each type of the antennas.
In this laboratory we aim to teach the students:
- how to design and conduct Fiber, Microwave, Antennas, and TL’s based experiments, as well as to analyze and interpret data.
- how to design a system, component, or process to meet desired needs, within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
- how to function on multi-disciplinary teams.
Experiments that will take place are:
- Introduction to Lab Devices & Safety Instructions.
- Introduction to Transmission Line.
- Gunn Oscillator Characteristics.
- Dipole Radiation Pattern.
- Characteristics of Optical Cables, Optical Sources and Detectors.
- Frequency Response and Standing Waves in Transmission Lines.
- Standing Waves in Waveguides and Directional Coupler.
- Helical and Yagi-Uda Antennas.
- Data Transmission over Fiber.
- Transformer Matching and TDR.
- Hybrid Tees.
- Patch Antennas.
- Audio/Video Transmission over Fiber.