大學部二年級 : 電磁學
1. The Electromagnetic Model
2. Vector Analysis
3. Static Electric Fields
4. Steady Electric Currents
5. Static Magnetic Fields
6. Time-Varying Fields and Maxwell's Equations
7. Time-Varying Fields and Maxwell's Equations
8. Plane Electromagnetic Waves
9. Transmission Lines
10. Waveguides and Cavity Resonators
11. Antennas and Antenna Arrays
大學部二年級 : 電路學
大學部三年級 : 微波工程
1.Review of EM Theory and Transmission Lines
2. Analysis of Transmission Lines and Waveguides
3.Microwave Network Analysis
4.Impedance Matching
5. Power Dividers, Couplers, and Hybrids
大學部三/四年級 : 光纖通訊系統
1. Fibers and Light
Propagation
2. Optoelectronics
3. Point-to-point links
4. Basic receiver design
5. New technologies, directions - “hot topics”
大學部四年級與研究所 : 功率電子元件
1,
Introduction
2, Breakdown Voltage
3, Schottky Rectifiers
4, Power MOSFETs
5, Thyristors
6, Insulated Gate Bipolar Transistors
大學部四年級與研究所 : 高速電子元件
1.Materials and Technologies for High-Speed Devices
2. Sub-micron MOSFET
3. Heterojunction Bipolar Transistors, (HBT)
4. Homogeneous Field-Effect Transistors, (MESFET)
5. Heterostructure Field-Effect Transistor, (HEMT)
大學部四年級與研究所 : 微波功率放大器設計
1. Introduction
2. Linear Power Amplifier Design
3. Conventional High-Efficiency Amplifier Modes
4. Matching Network Design for Reduced Conduction Angle High-Efficiency
Amplifiers
5. Overdrive and Limiting Effects in RF Power Amplifiers
6. Switching Mode Amplifiers for RF Applications
7. Nonlinear Effects in RF Power Amplifiers
8. Efficiency Enhancement Techniques
9. Power Amplifier Linearization Techniques
大學部四年級與研究所 : 奈米科技
1. 奈米電子及光電元件簡介(3小時)電機系詹益仁
2. 奈米元件製程技術(6小時)電機系詹益仁
3. 單電子電晶體(6小時)電機系李佩雯
4. 奈米碳管在電子、光電元件的應用(6小時)電機系辛裕明
5. 自旋電子元件(6小時)電機系詹益仁
6. 量子點光電元件(6小時)電機系綦振瀛
7. 光子晶體(6小時)光電所陳啟昌
8. 奈米生物晶片(6小時)-電機系蔡章仁
