List of Credits for Graduation

Academic Year 2021, Four-Year Program, Department of Electro-Optical Engineering

YearSemesterRequired
Elective
Course IDCourse NameCreditsHoursLevelNote
1 1 1001002 Physical Education 0.0 2 1 / 4  
1 1 1101006 All-Out Defense Education 0.0 1 1 / 2  
1 1 1400027 English in Practice 2.0 3 1 / 2  
1 1 1400099 Service Learning 0.0 1    
1 1 1400102 First step to achieving the goals of universities and Engineering Ethics 1.0 2    
1 1 1404006 Chinese 2.0 2    
1 1 1420001 College designated dimension curriculum:Humanities and Art 2.0 2 1 / 2  
1 1 1401032 Calculus 3.0 3 1 / 2  
1 1 1401043 Physics Lab. 1.0 3 1 / 2
1 1 1401045 Physics 3.0 3 1 / 2
1 1 6501002 Introduction to Computer 3.0 3    
1 1 6503512 Linear Algebra 3.0 3    
1 1 6501004 Mathematics 0.0 2    
1 1 6501005 Physics 0.0 2    
1 1 6501006 Chemistry (i) 3.0 3   B
1 1 6501009 Digital Logic Design 3.0 3    
1 1 C501001 Electrical Engineering and Information Technology 1.0 1   A
1 2 1001002 Physical Education 0.0 2 2 / 4  
1 2 1101006 All-Out Defense Education 0.0 1 2 / 2  
1 2 1400027 English in Practice 2.0 3 2 / 2  
1 2 1400100 Campus Custodial Services 0.0 1    
1 2 1404007 Practical Application of Chinese Language 2.0 2    
1 2 1420001 College designated dimension curriculum:Humanities and Art 2.0 2 2 / 2  
1 2 1401032 Calculus 3.0 3 2 / 2  
1 2 1401043 Physics Lab. 1.0 3 2 / 2
1 2 1401045 Physics 3.0 3 2 / 2
1 2 6501003 Programming Language 3.0 3    
1 2 6501010 Vector Analysis 3.0 3    
1 2 6501007 Chemistry (ii) 3.0 3    
2 1 1001002 Physical Education 0.0 2 3 / 4  
2 1 1420003 College designated dimension curriculum:Nature and Science 2.0 2 1 / 2  
2 1 1420004 College designated dimension curriculum:Innovation and Entrepreneurship 2.0 2 1 / 2  
2 1 14E0002 Diversified English 2.0 2 1 / 2  
2 1 6502001 Engineering Mathematics (I) 3.0 3    
2 1 6502003 Electromagnetic field and waves 3.0 3 1 / 2
2 1 6502006 Geometric-Optics 3.0 3  
2 1 6502012 Introduction to Optoelectronic Engineering (I) 3.0 3  
2 1 6502109 Electric Circuit Theory(I) 3.0 3    
2 1 6502107 Object-Oriented Methods 3.0 3    
2 2 1001002 Physical Education 0.0 2 4 / 4  
2 2 1420003 College designated dimension curriculum:Nature and Science 2.0 2 2 / 2  
2 2 1420004 College designated dimension curriculum:Innovation and Entrepreneurship 2.0 2 2 / 2  
2 2 14E0002 Diversified English 2.0 2 2 / 2  
2 2 6502003 Electromagnetic field and waves 3.0 3 2 / 2
2 2 6502007 Electronics (I) 3.0 3  
2 2 6502011 Electronics Lab. (I) 1.0 3  
2 2 6502105 Wave optics 3.0 3  
2 2 5902205 Internet Techniques & Applications 3.0 3    
2 2 6502014 Complex Variables 3.0 3    
2 2 6502104 Physiology 3.0 3    
2 2 6502106 Principles of Communications 3.0 3    
2 2 6502108 Data Structure 3.0 3    
2 2 6502110 Electric Circuit Theory(II) 3.0 3    
2 2 C500001 Fundamentals of Sensors 3.0 3    
3 1 1420005 Optional dimension curriculum 2.0 2    
3 1 1420006 Optional dimension curriculum 2.0 2    
3 1 6503002 Modern Physics 3.0 3  
3 1 6503003 Electronics (II) 3.0 3  
3 1 6503010 Special Projects (I) 1.0 3    
3 1 6503012 Electronics Lab. (II) 1.0 3  
3 1 6503301 Experiments for Opto-electronic experiments(I) 1.0 3  
3 1 1003003 Physical Education 1.0 2    
3 1 6503016 Introduction to Optoelectronic Engineering (II) 3.0 3    
3 1 6503101 Opto-electronic Methods in Precision Measurement 3.0 3    
3 1 6503102 Introduction to Biophotonics Engineering 3.0 3    
3 1 6503103 Microcomputer Peripherals 3.0 3    
3 1 6503104 Signals and Systems 3.0 3    
3 1 6503501 Photonics(I) 3.0 3    
3 1 6503535 Probability 3.0 3    
3 1 6504105 Introduction to Quantum Mechanics 3.0 3    
3 2 1400029 Internship 2.0 40    
3 2 1420007 Optional dimension curriculum 2.0 2    
3 2 6503110 Electromagnetism and modern physics lab 1.0 3  
3 2 6503302 Experiments for Opto-electronic experiments(II) 1.0 3  
3 2 6504002 Special Projects (II) 1.0 3    
3 2 1003004 Physical Education 1.0 2    
3 2 6503004 Electronics (III) 3.0 3   C
3 2 6503011 Optical system design 3.0 3   C
3 2 6503106 Theory and Applications of Optical Fibers 3.0 3    
3 2 6503107 Introduction to Semiconductor Processings 3.0 3    
3 2 6503108 Application of Optical System Design 3.0 3    
3 2 6503109 Optical Fiber Communication 3.0 3    
3 2 6503309 Introduction to Optoelectronic Engineering 3.0 3    
3 2 6503311 Modern Optics 3.0 3    
3 2 6503502 Photonics(II) 3.0 3    
3 2 6503536 Introduction to SolidState Physics 3.0 3   B
4 1 1004001 Physical Education 1.0 2    
4 1 6504101 Solid State Physics(I) 3.0 3    
4 1 6504103 Semiconductor Device and Physics 3.0 3    
4 1 6504104 Introduction to Integrated Optics 3.0 3    
4 1 6504106 Introduction to Lasers 3.0 3    
4 1 6504107 Introduction to Materials Science 3.0 3    
4 1 6504108 Introduction to Image Processing 3.0 3    
4 1 6504110 Introduction Flat Panel Display 3.0 3    
4 1 6504116 Design and application of optical coating 3.0 3    
4 1 6504117 labview and applications 3.0 3    
4 1 6504536 Introduction to Fourier optics 3.0 3    
4 1 6504541 Electro-Optical Industry Trend Analysis 3.0 3    
4 1 6504542 Electrionics of Liquid Crystal Display 3.0 3    
4 1 6504543 Photovoltaic Solar Cells 3.0 3    
4 1 6504547 Lens Design 3.0 3    
4 1 6504552 Integrated Optics 3.0 3    
4 1 6504553 Lighting Design with TracePro 3.0 3    
4 1 6504554 Lighting industry trends 3.0 3    
4 1 6504555 LED drive technology 3.0 3    
4 1 6504556 Lecture: Employment Enhancement 1.0 1    
4 1 6504557 Incredible innovation-a series of lectures for ASUS 1.0 1    
4 1 6504558 Development of global perspective: Indonesian culture and language 2.0 2    
4 1 6504563 Lecture: Polishing Golden Employable Ability 1.0 1    
4 1 6504564 Introduction to Opto-electric Engineering Technology 2.0 2    
4 1 6504566 Part-time internship 3.0 20    
4 1 6504567 Branded Company's Integrated Product Development: Advantech IPD 3.0 3    
4 1 6504569 Theory and Application of Diffractive Optics with Lab practice 3.0 3    
4 1 6504570 Practice of display panel 1.0 1    
4 1 6504571 Autonomous Learning 1.0 2    
4 1 6504573 Physics of Semiconductor Device with Practices 3.0 3    
4 1 6504574 Examination Guidelines for Patent and Utility Model (I) 2.0 2    
4 1 6504578 Patent Strategy and Patent Portfolio of High Technology Industry 3.0 3    
4 1 6504579 Modern photonic devices and application 3.0 3    
4 1 6504581 Fiber Optic Sensors 3.0 3    
4 1 6504585 Practical Communication in Work-Place 2.0 2    
4 1 6504586 The Principle and Practice of Display Technologies 3.0 3    
4 1 6504587 Optical Machinery Designed Practice 3.0 3    
4 1 6504590 Vacuum Technology 3.0 3    
4 2 1004002 Physical Education 1.0 2    
4 2 6503532 Colorimetry 3.0 3    
4 2 6504091 Display Panel Practice (II) 3.0 3    
4 2 6504092 Lasers: principles and applications 3.0 3    
4 2 6504109 Electro-Optical System Design 3.0 3    
4 2 6504111 Optical Machinery Desinged Practice 3.0 3    
4 2 6504112 Fiber Optical CATV Systems 3.0 3    
4 2 6504113 Introduction to Optical Thin Film 3.0 3    
4 2 6504114 Engineering of Sensor and Transducer 3.0 3    
4 2 6504115 Introduction to Optical Information Processing 3.0 3    
4 2 6504118 Semester Practical Training 12.0 40    
4 2 6504518 Digital Image Processing 3.0 3    
4 2 6504545 The obtainment and application of the property of high-tech patent 3.0 3    
4 2 6504546 Practical Optical System Design 3.0 3    
4 2 6504548 Flat Panel Display 3.0 3    
4 2 6504549 Dense wavelength division multiplexing 3.0 3    
4 2 6504550 Dialux Lighting Design 3.0 3    
4 2 6504551 LED Optics and Modules 3.0 3    
4 2 6504559 Properties and Fabrication Techniques of Semiconductor Thin 3.0 3    
4 2 6504560 Optics of Liquid Crystal Displays 3.0 3    
4 2 6504561 Laser Engineering 3.0 3    
4 2 6504562 Self-Marketing in the Workplace 1.0 1    
4 2 6504565 Semester Practical Training(Ⅱ) 12.0 40    
4 2 6504568 Fabrication of Potoelectronic Materials and Device 3.0 3    
4 2 6504572 Ergonomic lighting design 1.0 1    
4 2 6504575 Examination Guidelines for Patent and Utility Model (II) 2.0 2    
4 2 6504576 Flexible Working Hours Internship 6.0 32    
4 2 6504577 Display Panel with Lab practice 3.0 3    
4 2 6504580 Seminar on Patent Infringement Assessment and Patent Litigation 2.0 2    
4 2 6504582 Deep Learning and Internet of Things 3.0 3    
4 2 6504583 Introduction to semiconductor manufacturing technology 3.0 3    
4 2 6504584 Introduction to optical electromechanical system and manufacturing technology 3.0 3    
4 2 6504588 Part-time internship (II) 3.0 20    
4 2 6504589 Flexible Working Hours Internship (II) 6.0 32    

Note :
1. Minimum credits for graduation: 132 credits.
2. Common compulsory: 33 credits; Professional Required: 63 credits; Professional Electives: 36 credits (Students should take at least one course in each type of elective courses with mark A, B and C)
3. Professional elective credits for cross-department (or cross-university) are up to 15 credits at most upon approval. For interdisciplinary study, major elective credits are at least 2 credits for inter-departmental course taking, 6 credits for inter-collegiate course taking before graduation. The same course cannot be taken twice no matter which department held by.
4. For graduation, students must pass “Teaching of Technical Fundamentals” courses of “ Fundamental Experiment Classes” with mark “◆” and “Fundamental Theory Classes” with mark “◇”.
5. “Internship” credits are common required credits. Students who pass “Semester Practical Training” course can waive “Internship” course, but should take other major elective credits for fulfilling the “Internship” credits. Relevant internship courses, such as “Semester Practical Training (I) and (II)”, etc. can be up to 18 credits at most upon approval.
6. Students cannot take the class “Experiments for Optoelectronics Experiments (II) ” without passing “Experiments for Optoelectronics Experiments (I)
7. All undergraduate students are required to reach the minimum level of English proficiency or above as one of the necessary requirements for graduation. For more details on the relevant standards of English proficiency, please consult with the website of the Office of Academic Affairs, National Taipei University of Technology.
8. If the department chairman or the curriculum committee agrees that students take courses at cooperation schools by Joint Dual-Degree Agreement, the courses can be adopted as graduation credits.
9. Students from foreign countries, Hong Kong, and Macao, whose graduating schools are comparable in level and nature to Taiwan’s senior high schools and whose graduating year is equivalent to the 2nd grade of Taiwan’s senior high schools (according to the admission rule 18-1) should take 12 more department major required credits for graduation.
10.The dimension credits stipulated by each college are as follows:
College of Electrical Engineering and Computer Science: 4 credits for the humanities and art curriculum, 4 credits for the nature and science curriculum, and 4 credits for the innovation and entrepreneurship curriculum.
After completing 12 credits from the dimensional curriculum designated by the college, the remaining 6 credits are open for selection from these curriculums:humanities and art; Social and Rules of Law; nature and science; innovation and entrepreneurship, until a total of 18 credits of general curriculum are completed for graduation
11.If students finish second professional specialty module course of other departments, those credits count for cross-disciplinary courses.
12.The seven fundamental courses as demanded by the College of Electrical Engineering and Computer Science include: Circuit Theory I, Circuit Theory II, Electronics I, Electronics II, Linear Algebra, Probability, and Digital Logic Design. Student who receives a failing grade of any of those fundamental courses for the first time is allowed to enroll in and take the same course offered by the departments in the College of Electrical Engineering and Computer Science for the graduate requirements.
13.Before graduating, a student must finish the following cross-disciplinary courses. A student must take at least one course with at least 2 credits offered by the other three departments in the College of Electrical Engineering and Computer Science. A student must take at least two courses from other departments outside the College of Electrical Engineering and Computer Science for at least 6 credits, including: cross campus courses, professional on the job English transition project serious courses, last-mile courses, cross-disciplinary special project courses, and courses offered by the administration for the priority projects. Alternatively, a student must take at least three courses from other departments outside the College of Electrical Engineering and Computer Science for at least 8 credits. Those credits count for cross-disciplinary courses. In addition, it is not allowed to take those course offered by other department that the major department of the student also offers the same course. When necessary, credits earned from other departments can be cumulated without limits.
14.This course guide is effective for students admitted in 2021 fall.