Research Progress on Key Technologies of Microelectronics for Industry 4.0


  • Yinghao Wang



Industry 4.0, Microelectronics, The key technology.


With the continuous improvement of China's science and technology and economic development level, automatic control runs through all walks of life in China, and the Industry 4.0 era dominated by Internet of Things and intelligent manufacturing has gradually matured. Therefore, according to the changing market requirements, automatic control requirements have become higher and higher, and it is more and more common to integrate automatic control technology in the field of microelectronics. With the use of microelectronic technology, electrical control can be carried out more accurately, and the volume of equipment can be reduced, thus serving the future development of automatic control field. This paper analyzes the key technology of microelectronics.


Zou Anqi,Chuan Rui,Qian Fang,Zhang Wenyao,Wang Qiuwang,Zhao Cunlu. Topology optimization for a water-cooled heat sink in micro-electronics based on Pareto frontier[J]. Applied Thermal Engineering,2022,207.

Toru Ikeda,Toshifumi Kanno,Nobuyuki Shishido,Noriyuki Miyazaki,Hiroyuki Tanaka,Takuya Hatao. Strain measurement in micro-electronic packages using the digital image correlation method[J]. Welding International,2011,25(11).

Xiangyang Zhang,Wei Liu. The Study of the Use of FDI to Enhance the Product Competitiveness of Integrated Circuits and Micro-electronic Components[J]. International Business Research,2009,1(3).

Rao Muzaffar,Lynch Liam,Coady James,Toal Daniel,Newe Thomas. Integration of an MES and AIV Using a LabVIEW Middleware Scheduler Suitable for Use in Industry 4.0 Applications[J]. Applied Sciences,2020,10(20).

Sven-Vegard Buer,Jan Ola Strandhagen,Felix T. S. Chan. The link between Industry 4.0 and lean manufacturing: mapping current research and establishing a research agenda[J]. International Journal of Production Research,2018,56(8).

Gao C, Huang J, Xiao Y, et al. A seamlessly integrated device of micro-supercapacitor and wireless charging with ultrahigh energy density and capacitance[J]. Nature communications, 2021, 12(1): 1-10.



26 August 2022

How to Cite

Wang, Y. (2022). Research Progress on Key Technologies of Microelectronics for Industry 4.0. Academic Journal of Science and Technology, 2(3), 4–6.