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課程名稱 |
微波工程
Microwave Engineering |
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開課學期 |
99-2 |
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授課對象 |
電機資訊學院 生醫電子與資訊學研究所 |
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授課教師 |
莊晴光 |
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課號 |
EE4045 |
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課程識別碼 |
901 45100 |
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班次 |
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學分 |
3 |
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全/半年 |
半年 |
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必/選修 |
選修 |
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上課時間 |
星期一6,7,8(13:20~16:20) |
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上課地點 |
電二145 |
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備註 |
總人數上限:80人 |
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Ceiba 課程網頁 |
http://ceiba.ntu.edu.tw/992_ME |
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課程簡介影片 |
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核心能力關聯 |
核心能力與課程規劃關聯圖 |
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課程大綱
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為確保您我的權利,請尊重智慧財產權及不得非法影印
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課程概述 |
first part: general theories of microwave circuit and network
1) electromagnetic field theory and microwave circuit
2) transmission line theory and scattering-parameters
3) multi-port microwave network analyses: Z, Y, G, H, ABCD, S
4) impedance matching: concept and practice
second part: passive microwave circuit designs:
5) coaxial and tube waveguides
6) planar and quasi-planar transmission lines
7) resonators
8) passive circuit designs: divider, hybrid, coupler, balun and filter
third part: active microwave circuit designs:
9) low-noise amplifier and power amplifier
10) oscillator, mixer, phase-shifter, etc.
11) microwave communication system concept and modern wireless network and antenna (array)
12) example: frequency planning, integration of PLL (phase-locked lop), DSP(digital signal processing), etc; the RF SOC (system on chip)
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課程目標 |
Lectures in Microwave Engineering aim to offer participating students a comprehensive treatment of modern microwave circuit design using lumped and distributed components. The course begins with a quick review of electromagnetic field theory and its extension to transmission line theory and application; hence the scattering parameters and techniques, electric network variables such as voltage and current, will be reviewed thoroughly, followed by the wave variables in voltage, current, power, and electromagnetic field variables. Next microwave circuits analyses based on the multi-port network will be investigated using a variety of approaches generally classified into two categories denoted by small s and capital S variables. The latter is particularly useful for commensurate microwave network design and synthesis.
The second part of the class will review briefly general properties of guiding structures and resonators often found in microwave circuits, followed by designs of microwave passive circuits such as dividers, hybrids, couplers, baluns, and filters. Finally the guiding characteristics of nonreciprocal transmission lines and ferromagnetic components will conclude the second part of the class.
The third part of the class devotes to active microwave circuit design with emphasis placed on monolithic integration. It includes a brief account of designing low-noise amplifier, power amplifier, oscillator, mixer, phase-shifter, etc. Physical meanings and mathematical consequence will be emphasized in the course of studies. The entire class concludes in microwave communication system with special attention to the RF (radio frequency) SOC (system-on-chip).
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課程要求 |
●Prerequisite:
Students who are in good command of electric network theory, electronics circuit, and electromagnetics will follow the course with ease. Consultation to the lecturer is essential for students not having enough knowledge and background to attend the class.
●Grading Policy:
Regular homework assignments: 50%
Midterm examination: 20%
Final examination: 30%
Hand calculations for obtaining accurate solutions and estimates are encouraged throughout the entire semester. Solutions compared to CAD (computer-aided design) simulations have been always welcome for validating the accuracy of hand calculations.
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預期每週課後學習時數 |
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Office Hours |
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指定閱讀 |
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參考書目 |
Textbook: Microwave Engineering by David M. Pozar, John Wiley & Sons, Inc.
Lecturer will prepare a set of materials for use in the class; nevertheless students are encouraged to study the reading assignments in the textbook, which generally follows the course outline.
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評量方式
(僅供參考) |
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