2019-12-20

Training plan of Microelectronics Science and Engineering

IAcademic system

This major has a length of schooling of 4 years. The school adopts a flexible learning system, allowing students to complete their studies in stages. However, the longest time with academic status is no more than 8 years, and the cumulative time of study is no more than 6 years.

IICredits

Students who have obtained 155 credits are allowed to graduate.

Table 1 Public compulsory course

No

Course title

credits

Hours

Semester

1

Ideological and moral cultivation and legal basis

3

54

1

2

University Information Technology Foundation and experiment

3

54

4

3

College English

12

216

1234

4

PE

4

144

1234

5

Outline of modern Chinese history

2

36

2

6

Career development and planning

2

36

2

7

Basic principles of Marxism

3

54

3

8

Introduction to Mao Zedong Thought and theoretical system of socialism with Chinese characteristics

4

72

45

9

Situation and policy

1

18

10

Military training and military theory course

1

18

1

Table 2 Required courses for general platform

Class A

No

Course title

Course nature

credits

Hours

Semester

1

Introduction to physics

Obligatory

1

18

1

2

Advanced mathematics I Up and down

Obligatory

11

198

12

3

Dynamics A

Obligatory

4

72

1

4

Thermology

Elective

3

54

1

5

Linear algebra

Obligatory

4

72

2

6

Electromagnetics A

Obligatory

4

72

2

7

General physics experimentDynamics and Thermology

Obligatory

4

72

2

8

Scientific research training I

Obligatory

1

36

2

Class B

No

Course title

Course nature

credits

Hours

Semester

1

Introduction to physics

Obligatory

1

18

1

2

Advanced mathematics I Up and down

Obligatory

10

180

12

3

Dynamics B

Obligatory

3

54

1

4

Thermology

Elective

3

54

1

5

Linear algebra and probability theory

Obligatory

4

72

2

6

Electromagnetics B

Obligatory

3

54

2

7

General physics experimentDynamics

Obligatory

3

54

2

8

General physics experimentThermology

Elective

1

18

2

9

Scientific research training I

Obligatory

1

36

2

10

Principles of mechanical drawing

Elective

2

36

2

Table 3 Basic course

No

Course title

Course nature

credits

Hours

Semester

1

Analog circuit

Obligatory

4

72

3

2

Methods of Mathematical Physics B

Obligatory

4

72

3

3

Quantum physics

Obligatory

4

72

3

4

Optics

Elective

4

72

3

5

General physics experiment

Obligatory

2

72

3

6

Statistical physics of thermodynamics B

Obligatory

4

72

4

7

Solid state physics

Obligatory

4

72

4

8

Digital circuit

Obligatory

4

72

4

9

General physics experiment

Elective

2

72

4

10

Analog circuit experiment

Obligatory

3

90

4

11

Theory of electromagnetic field

Obligatory

4

72

5

12

Semiconductor physics

Obligatory

4

72

5

13

Digital circuit experiment

Obligatory

3

90

5

14

Modern physics experiment B

Obligatory

2

72

56

15

Semiconductor material

Elective

3

54

6

16

Microelectronics experiment

Obligatory

3

135

6

Table 4 Major required courses

No

Course title

Course nature

credits

Hours

Semester

1

Microelectronics manufacturing process

Obligatory

4

72

5

2

Analysis and design of integrated circuit

5

90

6

3

Semiconductor device physics

4

72

6

4

Semiconductor device physics

Obligatory for Science Students

3

54

7

5

Integrated circuit computer-aided design (IC-CAD)

Obligatory for engineering Students

3

54

7

Table 5 Practice

No

Course title

Course nature

credits

Hours

Semester

1

Microelectronics manufacturing process experiment and Practice

Obligatory

6

270

7

Table 6 Elective course

No

Course title

credits

Hours

Semester

1

Very large scale integration (VLSI) Physical basis of devices

3

54

6

2

ASIC

3

54

6

3

VHDL

3

54

7

4

Organic semiconductor materials and devices

3

54

7

5

Principle and application of single chip microcomputer

3

54

7

6

Power semiconductor device

3

54

7

7

Principle and technology of photovoltaic devices

3

54

7

8

Numerical analysis and Simulation of devices

3

54

7

9

Spintronics

3

54

7

10

Signals and systems

3

54

7

11

Power electronic technology

3

54

7

Table 6 General module of elective courses

No

Course title

credits

Hours

Semester

1

Complex network

2

36

Autumn term

2

Particle physics

3

54

Autumn term

3

Introduction to material physics

4

72

Autumn term

4

New energy materials

3

54

Autumn term

5

Cosmology

2

36

Spring term

6

Nonlinear physics

3

54

Spring term

7

Research methods of modern crystal physics

3

54

Spring term

8

Metal corrosion and protection

4

72

Autumn term

9

Plasma physics

4

72

Spring term

10

Magnetic material

3

54

Spring term

11

Semiconductor frontier issues

4

72

Autumn term

12

Fundamentals of semiconductor chemistry

3

54

Spring term

13

Introduction to material physics

3

54

Autumn term

14

Nano science and technology

3

54

Autumn term


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