Semiconductor Processing

반도체공정

0000125132 • 2024년 2학기 • 전북대학교

Schedule 강의일정

Date	Lecture	Content	Logistics
9/2		Week #1: Introduction p. 1-4
9/9		Week #2: Chp 2. Introduction to Theories Chp 3. Early Radio Communication p. 1-23
9/16	No Class Chuseok
9/23		Week #4: 4 - Electric Circuits 5 - Energy Bands & Diodes p. 25-39
9/30		Week #5: 5 - Diodes 6 - Transistors & Integrated Circuits p. 41-56
10/7		Week #6: 7 - Semiconductor Industry 8 - Photonic Devices No Class Hangul Day p. 57-80
10/14		Week #7: 8 - Photonic Devices 9 - Light Detection & Photocell p. 81-95
10/21	Midterm Test [Study Guide] Test
10/28		Week #9: 10 - Manufacture of Silicon Wafer 11 - Basic Knowledge of Process p.
11/4		Week #10: 12 - Photolithography 13 - Dielectric Films Growth p.
11/11		Week #11: 14 - Etching and RIE System 15 - Dry Etching p.
11/18		Week #12: 16 - Metal Processes 17 - Doping Processes p.
11/25		Week #13: 17 - Doping Processes, II 18 - Process Control Monitor, Packaging, etc. p.
12/2		Week #14: PCB Design p.	Eagle "First"
12/9		Week #15: PCB Design II p.	[ 과제 ] EAGLE Files Shared Folder Link
12/16	Final Test Study Guide 퀴즈 \| 실기

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Overview 개요

Understanding Semiconductors Springer Link

Gain complete understanding of electronic systems and their constituent parts. From the origins of the semiconductor industry right up until today, this book serves as a technical primer to semiconductor technology. Spanning design and manufacturing to the basic physics of electricity, it provides a comprehensive base of understanding from transistor to iPhone.

Melding an accessible, conversational style with over 100 diagrams and illustrations, Understanding Semiconductors provides clear explanations of technical concepts going deep enough to fully explain key vernacular, mechanisms, and basic processes, without getting lost in the supporting theories or the theories that support the supporting theories. Concepts are tethered to the real world with crisp analysis of industry dynamics and future trends.

As a break from the straight-ahead scientific concepts that keep the world of semiconductors spinning, Understanding Semiconductors is liberally sprinkled with apt analogies that elucidate difficult concepts. For example, when describing the relationship between voltage, current, power, and the flow of electricity through an electronic system, the book draws a parallel to a hot shower and the water utility system. Most of these are paired with clear visuals, giving you the best chance possible to absorb the concept at hand before moving on to the next topic.

Whether you’re narrowly technical or don’t know silicon from silly putty, working directly in hardware technologies and want to know more, or simply a curious person seeking hard information about the technology that powers the modern world, Understanding Semiconductors will be an informative, dependable resource.

What You’ll Learn:

Charge, Electricity, and Basic Physics
What are Semiconductors
The Semiconductor Value Chain and Design Trade-Offs
Transistors and Other Common Circuit Building Blocks
Semiconductor Design from Concept to Tapeout
Wafer Fabrication and Semiconductor Manufacturing Process
Integrated Circuit (IC) Packaging and Signal & Power Integrity (SIPI)
Common Circuits and System Components
RF and Wireless Technologies
System Architecture and Integration
The Semiconductor Industry - Challenges, History, and Trends
The Future of Semiconductors and Electronic Systems

Textbook 교재

	Text: Semiconductor Microchips and Fabrication: A Practical Guide to Theory and Manufacturing Author: Lian, Yaguang Publisher: Wiley-IEEE Press \| 2023년 06월 15일
	Supplementary: Understanding Semiconductors: A Technical Guide for Non-Technical People Author: Richard, Corey Publisher: Apress \| 2023년 03월 09일
	Supplementary: Handbook of Semiconductors Fundamentals to Emerging Applications Author: Gupta, Ram K. Publisher: CRC Press \| 2024년 07월 15일

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Logistics 수업운영

Course Information / 과정정보

시간이 지나도 변하지 않고 컴퓨팅 세계의 기반을 강화하는 데 도움이 되는 전문적이고 안전하며 이식 가능한 C 코드를 작성하는 방법을 알아본다.

프로그래밍(50%) 직무에 필요한 문제 또는 시스템을 프로그래밍 언어로 구현할 수 있는 역량
전공기초(40%) 정보통신전공을 수행할 수 있는 공학적 기초개념, 수학, 물리학 등의 기본역량
자기주도문제해결(10%) 프로젝트, 캡스톤디자인 및 지식재산권, 공학경영, 논문작성 등 전공분야에 밀접하게 연관된 비전공분야의 역량

Students will learn how to write professional, safe, and portable C code that doesn’t change over time and helps strengthen the foundations of the world of computing.

Programming (50%) Ability to implement problems or systems required for the job in a programming language
Major foundations (40%) Basic competencies such as basic engineering concepts, mathematics, physics, etc.
Self-directed problem solving (10%) Competence in non-major fields closely related to major fields, such as project, capstone design and intellectual property rights, engineering management, and thesis writing

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Policies 규정

Grading 평가방법

Most of my courses are graded based on the following components. Please note that the weights of each component may vary depending on the course. The grading policy will be announced in the first class and will be available on the course website.
대부분의 강의는 다음 구성요소에 따라 평가됩니다. 각 구성요소의 가중치는 강의에 따라 다를 수 있습니다. 평가 방법은 첫 강의에서 발표되며 강의 웹사이트에서 확인할 수 있습니다.

Attendance (& Participation) 출석 (& 참여도)
Assignments & Practice Exercises 과제 (연습문제) 및 실습 (수업 활동 결과)
Project (or Research Paper & Presentation) 프로젝트 (또는 논문과 발표)
Tests (Midterm & Final) 중간고사와 기말고사

Attendance (& Participation) 출석 (& 참여도)

This may be the most important part of the class. Please pay careful attention to the following.
이것은 수업의 가장 중요한 부분일 수 있습니다. 다음 사항에 주의 깊게 주목해 주세요.

I appreciate everyone being actively involved in the class! Students who will succeed are those who are actively involved.
저는 수업에 적극적으로 참여해 주시는 모든 분들을 감사하게 생각합니다! 성공할 학생들은 적극적으로 참여하는 학생들입니다.

Attendance:
- You are expected to attend all classes. If you miss a class, you are responsible for getting the notes from a classmate or completing the assignments you miss.
  수업에는 모두 참석해야 합니다. 수업을 빠지는 경우, 수업 내용을 동료로부터 받거나 빠진 과제를 완료하는 것은 _당신_의 책임입니다.
- Generally, if you miss more than 15% of the classes (7 hours in a 45-hour course, 9 hours in a 60-hour course), you will get a lower grade.
  일반적으로, 수업의 15% 이상을 빠지는 경우 (45시간 강의에서 7시간, 60시간 강의에서 9시간), 낮은 성적을 받게 됩니다.
- If you miss more than 25% of the classes (11 hours in a 45-hour course, 15 hours in a 60-hour course), you will fail the course.
  수업의 25% 이상을 빠지는 경우 (45시간 강의에서 11시간, 60시간 강의에서 15시간), 과락이 됩니다.
Participation:
- Active participation is expected in all classes. This means that you are engaged in the class, asking questions, answering questions, and participating in discussions.
  모든 수업에서 적극적인 참여가 기대됩니다. 이는 수업에 집중하고 질문을 하며 질문에 답하고 토론에 참여하는 것을 의미합니다.
- Disinterest: Students who are not interested in the class do not study, do not participate, and do not do well on the tests. They will get a low grade.
  무관심: 수업에 관심이 없는 학생들은 공부를 하지 않고 참여하지 않으며 시험에서도 잘하지 못합니다. 낮은 성적을 받게 됩니다.
- Generally speaking, I do not give a daily grade for participation. However, I notice your habits. Students who are regularly late, leave early, or are not engaged in the class will get a lower grade.
  일반적으로 참여도에 대한 일일 성적은 주지 않습니다. 그러나 당신의 습관을 주의 깊게 지켜봅니다. 정기적으로 늦게 오거나 일찍 떠나거나 수업에 참여하지 않는 학생들은 낮은 성적을 받게 됩니다.
Excused Absences:
- If you have a valid reason for missing a class (e.g., illness, family emergency), please let me know in advance if possible. You will be excused from the class, but you are still responsible for the material covered in the class.
  수업을 빠지는 합당한 이유가 있는 경우 (예: 질병, 가족 사정), 가능한 경우 미리 알려주세요. 수업을 빠질 수 있지만 수업에서 다룬 내용에 대한 책임은 여전히 있습니다.
- Excused absences will not count against your number of allowed absences. However, they will affect your attendance & participation score because you cannot participate in a class you do not attend.
  합당한 이유로 인한 결석은 허용된 결석 횟수에 포함되지 않습니다. 그러나 참석하지 않은 수업에 참여할 수 없기 때문에 출석 및 참여도 점수에 영향을 줍니다.
- Generally speaking, students are only allowed to miss 25% of the classes (11 hours in a 45-hour course, 15 hours in a 60-hour course) with excused absences. However, if you have a valid reason for missing more classes, please let me know.
  일반적으로, 합당한 이유로 인한 결석을 포함하여 수업의 25% (45시간 강의에서 11시간, 60시간 강의에서 15시간)까지만 허용됩니다. 그러나 더 많은 수업을 빠지는 합당한 이유가 있는 경우, 알려주세요.
- If the total number of absences (excused and unexcused) exceeds 35% of the classes (16 hours in a 45-hour course, 21 hours in a 60-hour course), you will fail the course.
  총 결석 횟수 (합당한 이유로 인한 결석 및 불합당한 이유로 인한 결석)가 수업의 35% (45시간 강의에서 16시간, 60시간 강의에서 21시간)를 초과하는 경우, 과락이 됩니다.

Assignments & Practice Exercises 과제 (연습문제) 및 실습 (수업 활동 결과)

Assignments are generally work you do on your own.
과제는 일반적으로 개인적으로 수행하는 작업입니다.
Practice exercises are work we do together in class.
실습은 수업에서 함께 수행하는 작업입니다.
Most of both types of work will be submitted online (typically via GitHub or Google Forms).
이 두 유형의 대부분 작업은 온라인으로 제출됩니다 (일반적으로 GitHub 또는 Google Forms를 통해).
You are expected to complete all assignments and practice exercises. (This is the best way to ensure you receive a better grade on both the tests and in the class overall.)
모든 과제와 실습을 완료해야 합니다. (이것이 시험과 전반적으로 수업에서 더 나은 성적을 받을 수 있는 가장 좋은 방법입니다.)

Projects (or Research Paper & Presentation) 프로젝트 (또는 논문과 발표)

The following types of projects may be assigned in my courses:
다음 유형의 프로젝트가 강의에서 할당될 수 있습니다:

Semester-long individual project: This is typically a programming project that you will work on throughout the semester. Usually, the full project code will be included in the selected textbook. You will be expected to complete the project on your own, with all required files, by the end of the semester, as well as a record of your progress on the project throughout the semester with pushes to GitHub.
학기 내내 개인 프로젝트: 일반적으로 학기 내내 작업할 프로그래밍 프로젝트입니다. 일반적으로 전체 프로젝트 코드는 선택한 교재에 포함됩니다. 학기 끝까지 모든 필요한 파일과 함께 프로젝트를 완료하고, 학기 내내 GitHub에 푸시하여 프로젝트 진행 상황을 기록해야 합니다.

Tests

There will be two tests in this class: a midterm and a final. Both tests may include both written and programming questions. The written questions will be similar to the homework questions, and the programming questions will be similar to the programming assignments. Written questions will be closed-book, and programming questions will be open-book (i.e., you can use any resources you want, including the Internet).

Midterm: 20%
Final: 30%

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Collaboration Policy

Homework assignments must be done individually: each student must hand in their own answers. However, it is acceptable to collaborate when figuring out answers and to help each other solve the problems. We will be assuming that you will be taking the responsibility to make sure you personally understand the solution arising from such collaboration. You also must indicate on each homework with whom you have collaborated.

Late Policy

You will be allowed 6 total homework late days without penalty for the entire semester. You may be late by up to 6 days on any homework assignment. Once those days are used, you will be penalized according to the following policy:

Homework is worth full credit at the due time on the due date.
The allowed late days are counted by day (i.e., each new late day starts at 12:00 am ET).
Once the allowed late days are exceeded, the penalty is 50% per late day conted by hour (i.e., 2.0833% per hour).
The homework is worth zero credit 48 hours after exceeding the late day limit.

You must turn in 75% of the practices and assignments, even if for zero credit, in order to pass the course.

Regrade Policy

If you feel that we have made a mistake in grading your homework, please submit a regrading request via email and I will consider your request. Please note that regrading of a homework may cause your grade to go either up or down.

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Resources 자료실

Computer Software / 소프트웨어

Coming Soon.

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Instructor 강사소개

Instructor Aaron Snowberger
Email: aaronkr.trainer@gmail.com

Aaron Snowberger earned his Ph.D. in Information and Communications Engineering from Hanbat National University in South Korea in 2024. He also holds degrees in Computer Science and Media Design. He has taught technology courses for over 8 years, English for over 15 years, and has freelanced as a web developer and magazine designer for over 5 years. His current research interests include computer vision, natural language processing, image processing, signal processing, and machine learning.

Aaron Snowberger는 2024년 한국 한밭대학교에서 정보통신공학 박사 학위를 취득했습니다. 그는 또한 컴퓨터 과학 및 미디어 디자인 학위를 취득했습니다. 그는 8년 이상 기술 과정을 가르쳤고, 15년 이상 영어를 가르쳤으며, 5년 이상 웹 개발자 및 잡지 디자이너로 프리랜서로 일했습니다. 그의 현재 연구 관심사는 컴퓨터 비전, 자연어 처리, 이미지 처리, 신호 처리 및 머신 러닝입니다.

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