NCHU Course Outline

Course Name	(中) 微製造工程(6873)
Course Name	(Eng.) Microfabrication Technology
Offering Dept	Graduate Institute of Precision Engineering
Course Type	Required	Credits	3	Teacher	LIN, MING-TZER
Department	Graduate Institute of Precision Engineering/Graduate	Language	English	Semester	2025-FALL
Course Description	1. Learn various microfabrication technology for MEMS. 2. Understand unique requirements for MEMS fabrication. 3. Learn process design and control. 4. Learn about merging mechanical devices with circuits. 5. Learn current trends and future technology direction for MEMS.
Prerequisites				self-directed learning in the course	N

Relevance of Course Objectives and Core Learning Outcomes(%)

Teaching and Assessment Methods for Course Objectives

Course Objectives

Competency Indicators

Ratio(%)

Teaching Methods

Assessment Methods

Learn various microfabrication technology for MEMS

1.Ability to apply knowledge of mathematics, science, and manufacturing engineering

2.Ability to design, conduct experiments, analyze data and write research papers

3.Ability to integrate the fabrication process, device and system design, and product design

4.Possess leadership, management, communication and coordination, as well as project planning and management skills, along with a spirit of teamwork

5.Possess innovative thinking, problem-solving abilities, and an international perspective in precision engineering and micro-system technology

Discussion

Lecturing

Oral Presentation

Assignment

Quiz

Course Content and Homework/Schedule/Tests Schedule

Week	Course Content
Week 1	Patterning by optical, X-Ray, and E-Beam lithography.
Week 2	Patterning by optical, X-Ray, and E-Beam lithography.
Week 3	Selective wet etching processes.
Week 4	Selective wet etching processes.
Week 5	Directional dry etching processes.
Week 6	Directional dry etching processes.
Week 7	Thin-film deposition by evaporation.
Week 8	Thin-film deposition by evaporation.
Week 9	Midterm Exam
Week 10	Sputtering, electroplating, chemical vapor deposition, and laser assisted deposition.
Week 11	Sputtering, electroplating, chemical vapor deposition, and laser assisted deposition.
Week 12	Bonding and release of mechanical structures.
Week 13	Bonding and release of mechanical structures.
Week 14	Bulk and surface micromachining for MEMS.
Week 15	Bulk and surface micromachining for MEMS.
Week 16	Future trends and development in MEMS technology. Self-directed learning Project Report Self-directed learning Project Report
self-directed learning

Evaluation

Homework 10%, Oral Report 20%, Midterm Exams 30%, Final Exam 30%

Textbook & other References

1. S. D. Senturia, Microsystem Design, 2001, Kluwer Academic Publishing.Required Text:
2. S. A. Campbell, “The Science and Engineering of Microelectronic Fabrication”, Oxford, 2001.

Teaching Aids & Teacher's Website

Office Hours

週二10:00-12:00, 週三15:00-17:00

Sustainable Development Goals, SDGs(Link URL)

04.Quality Education 08.Decent Work and Economic Growth 09.Industry, Innovation and Infrastructure

include experience courses：N

Please respect the intellectual property rights and use the materials legally.Please respect gender equality.
Update Date, year/month/day：None	Printed Date, year/month/day：2025 / 12 / 20
The second-hand book website：http://www.myub.com.tw/