Description:
Operating principles and applications of high frequency and photonic devices including impatt, Gunn, photodetector, light-emitting diodes, semiconductor laser devices. Photonic device applications to fiber optic systems.
Description:
Operating principles and applications of high frequency and photonic devices including impatt, Gunn, photodetector, light-emitting diodes, semiconductor laser devices. Photonic device applications to fiber optic systems.
Description:
Operating principles and applications of high frequency and photonic devices including impatt, Gunn, photodetector, light-emitting diodes, semiconductor laser devices. Photonic device applications to fiber optic systems.
Description:
Operating principles and applications of high frequency and photonic devices including impatt, Gunn, photodetector, light-emitting diodes, semiconductor laser devices. Photonic device applications to fiber optic systems.
Semester:
Fall of every year, Summer of every year
Credits:
Total Credits: 4 Lecture/Recitation/Discussion Hours: 3 Lab Hours: 3
Prerequisite:
ECE 302 and ECE 303 and ECE 305
Restrictions:
Open only to juniors or seniors or graduate students in the Electrical Engineering major and juniors or seniors in the Computer Engineering major.
Description:
Operational theory, characteristics and applications of optical components, light emitting diodes, lasers, laser diodes, photodetectors, photovoltaics, fiber optics, optical modulators and non-linear optical devices.
Semester:
Fall of every year, Summer of every year
Credits:
Total Credits: 4 Lecture/Recitation/Discussion Hours: 3 Lab Hours: 3
Prerequisite:
ECE 302 and ECE 303 and ECE 305
Restrictions:
Open to juniors or seniors or graduate students in the Computer Engineering major or in the Electrical Engineering major.
Description:
Operational theory, characteristics and applications of optical components, light emitting diodes, lasers, laser diodes, photodetectors, photovoltaics, fiber optics, optical modulators and non-linear optical devices.