Course title
電子デバイスⅡ   [Electronic Devices Ⅱ]
Course category technology speciality courses,ets.  Requirement   Credit 2 
Department   Year 34  Semester 3rd 
Course type 3rd  Course code 023749
Instructor(s)
清水 大雅   [SHIMIZU Hiromasa]
Facility affiliation Faculty of Engineering Office   Email address

Course description
Optoelectronic devices play important roles as light or mage transmission and energy conversion devices among electronic devices. Optoelectronic devices such as light emitting diodes, semiconductor lasers, photodiodes, optical telecommunication devices, and solar cells are shown. The fundamental of these devices and factors for photon/electron conversion efficiency are discussed.
Expected Learning
You will be able to understand the principle and the efficiency of the light emitting diodes, semiconductor lasers, photodiodes, solar cells, based on the understanding of excitation/recombination of minority carriers in pn junctions, direct / indirect bandgap, reflection/refraction/transmission/absorption of light.
Course schedule
1st lecture : Brief explanation of the lecture, and review of the lecture “Electronic Devices I”
Keywords: Depletion layer, built-in potential, pn diodes, minority carrier
2nd lecture : Excitation / recombination of excess minority carriers
Keywords: Drift motion and diffusion of carriers, quasi-Fermi level
3nd lecture : Photoelectric effect in semiconductors
Keywords: Compound semiconductors, direct / indirect bandgap, Optical absorption and reflection
4th lecture : Light emitting devices
Keywords: Spontaneous emission and stimulated emission, condition for net stimulated emission
5th lecture : Light emitting diode
Keywords: Current-Voltage/Light intensity characteristics, emission efficiency (internal and external efficiency)
6th lecture : Semiconductor laser 1
Keywords : Difference of laser and normal light, population inversion, optical feedback, light in the waveguide, double-hetero structure
7th lecture : Semiconductor laser 2
Keywords : Current-Voltage/Light intensity characteristics, emission efficiency, condition for laser oscillation, Fabry-Perot lasers
8th lecture : Semiconductor laser 3
Keyword : Analysis of lasers by rate equations, How to fabricate semiconductor lasers
9th lecture : Mid-term exam.
10th lecture : Photodiode 1
Keywords : Photo-generated carriers, Current-Voltage characteristic, Sensitivity and external quantum efficiency and their wavelength dependence
11th lecture : Photodiode 2
Keywords : Operation under reverse bias, equivalent circuit and frequency response, how fast is photodiode work ? PIN photodiode and avalanche photodiode
12th lecture : Optical communication and related devices
Keywords : Optical fibers, principle of light propagation, propagation loss
13th lecture : Solar cell 1
Keywords : Energy density of sun and AM number, Structure of solar cell, Current-Voltage characteristic, Efficiency, Equivalent circuit
14th lecture : Solar cell 2
Keywords: Factors to determine the efficiency, introduction of various solar cells
15th lecture : Examination.
Prerequisites
The study of the lecture of “Electron Devices I” is necessary. Study of the lectures “Optoelectonics” and “Optical Engineering” is recommended for related subjects.
Required Text(s) and Materials
References
Assessment/Grading
The score is evaluated on the practices and examination.
Message from instructor(s)
Please be familiar with the fundamentals of the semiconductor devices, and their diversity, interest, various applications, and future prospects. It is important to understand the basic idea/principle. You do not have to memorize the detail of the characteristics.
Course keywords
Semiconductor, Photoelectric effect, Light emitting device, Light detecting device, Laser, Optical communication, Solar cell, conversion efficiency
Office hours
14:00-16:00, Monday
Remarks 1
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
Last update
2/13/2019 11:23:46 AM