1. Microelectronics technology is a technology that takes integrated circuits as the core and realizes miniaturization of circuits and electronic equipment.
Second, integrated circuits are integrated microelectronic devices (such as transistors, diodes, etc.). ) and integrated circuit components (such as resistors, capacitors, etc. ) forming an integrated circuit system directly on a single silicon substrate. By integrating various electronic devices and circuit elements on one chip, integrated circuits realize high integration and compact design of circuits, thus realizing miniaturization, high speed and high performance of circuits and electronic equipment.
3. Integrated circuits made by microelectronics technology can contain millions or even billions of tiny electronic devices and corresponding circuits, such as microprocessors, memories, sensors, etc. These devices and circuits can complete complex electronic functions in a very small chip area, making electronic devices such as mobile phones, computers, medical equipment and communication equipment smaller, more portable and more efficient.
4. Microelectronics technology takes integrated circuits as the core, and by integrating all kinds of tiny electronic devices and circuit elements on one chip, it realizes the miniaturization of circuits and electronic equipment and promotes the rapid development of modern electronic products.
The role of microelectronics technology
1. Microelectronics technology is a subject of micro-integrated circuit system acting on semiconductors. The key of microelectronics technology is to study the working mode of integrated circuits and how to actually manufacture and apply them. The development of integrated circuits depends on.
2. Microelectronics technology mainly realizes information processing or information processing through the movement of microelectronics in solid.
Third, microelectronic signal transmission can be carried out in a very small range.
4. Microelectronics technology can integrate a subsystem or electronic functional components into a chip with high integration and comprehensive functions.
5. Microelectronics technology can work in lattice-level micro-regions.