Application of IC EDA Software in Practical Teaching of Digital Electronic Technology_Vol. 1 No. 5 (JHET 2024)_Journal of Higher Education Teaching (ISSN: 3005-5776)

Home > Journal of Higher Education Teaching (ISSN: 3005-5776) > Vol. 1 No. 5 (JHET 2024) >

Application of IC EDA Software in Practical Teaching of Digital Electronic Technology

DOI: https://doi.org/10.62517/jhet.202415502

Author(s)

Ruifang Tie*, Yuan Xu, Ningye He, Fuwei Shen

Affiliation(s)

Engineering Research Center of Power IC Anhui Province, Huangshan University, Huangshan, Anhui, China *Corresponding Author.

Abstract

It’s of great significance to introduce IC EDA software into the practical teaching of theory course for integrated circuit majors. This paper expounds the teaching practice mode and teaching content design of digital electronic technology course based on IC EDA software. It takes NMOS and CMOS inverters as examples to explore the feasibility of teaching solutions. Through teaching practice, good teaching results have been achieved and students' practical application abilities have been enhanced.

Keywords

IC EDA Software; Digital Electronic Technology; Practical Teaching; NMOS; CMOS Inverters

References

[1]S. Yan. Fundamentals of Digital Electronic Technology (Sixth Edition). Higher Education Press, 2016. [2]X. Zeng, F. Yan and H. Zeng. Exploration and Practice of the Training Model for Electronic Information Engineering Talents in the New Era. Chinese University Teaching, 2023 (Z1): 11-18. [3]Y. Tian, H. Lei and H. Zhao. Teaching Practice of "Digital Electronic Technology Fundamentals" Course Based on Flipped Classroom Teaching Model. Industrial and Information Education, 2023 (06): 10-13. [4]C. Peng, X. Hu and L. Liu. Exploration and practice of blended online and offline teaching mode for digital electronic technology fundamentals. China Education Technology Equipment, 2022 (06): 126-129. [5]H. Wang. Research on the Reform of Digital Electronic Technology and EDA Curriculum and Practical Teaching. Research and Practice of Innovation and Entrepreneurship Theory, 2021, 4 (20): 173-175. [6]Z. Yang and X. Pan. A Method for Cultivating Electronic Design Ability of Communication Major College Students Based on Multisim. Electronic Production, 2021 (08): 57-59. [7]G. Xia. Proteus8 simulation design of Class D power amplifier. Electronic Manufacturing, 2023, 31 (18): 86-89. [8]Y. Chen, J. Liu and G. Gu. Experimental Teaching Design of Addition and Subtraction Multiplexing Circuits Based on Quartus II and Modelsim. Modern Information Technology, 2023, 7 (13): 181-188. [9]Z. Chen, J. Sun and R. Ning. Application of HSPICE software in the teaching of Digital Electronic Technology. Journal of Mount Huangshan University, 2019, 21 (03): 114-117.