PCB Tech - Printed circuit board of microcircuit technology

Printed circuit board of microcircuit technology

The electronic world has now accelerated its pace and has become a hot market, which will reach a saturation level in the coming decades. The development speed of microcircuit technology and the mark of innovation level enable OEM (original equipment manufacturer), EMS (electronic manufacturing service) and PCB (printed circuit board) manufacturers to have an extraordinary awareness of technological development. It creates a high demand for electronic products with multiple functions, speeds and performance characteristics. The concept of miniaturization of microcircuit technology has increased customers' demand for lighter, compact and portable devices. Many function concepts apply to shorter spaces.

The microcircuit technology provides customers with special and rare electronic solutions, which poses a huge challenge to the PCB manufacturing market. IPCB circuit board is a well-known PCB manufacturer, providing excellent customized layout and manufacturing solutions, providing standardized processes and unique service delivery methods for its broad customer base. It uses advanced technology to manufacture different types of PCBs. Nanospheres are composed of high-performance materials, RF applications, HDI (high-density interconnection) technology, LCD (liquid crystal display) and LED (light emitting diode) technology.

With the expansion of demand for televisions, mobile phones, medical devices, 3D structures, stacked storage devices and core equipment, PCB manufacturers have great opportunities to enter the market and focus on miniaturization and nanotechnology. IPCB uses different technologies to meet the dynamic needs of customers, such as short size, high resolution and ultrasonic sensors, which are applicable to various products from traditional electronic equipment, automotive systems to traditional household equipment.

In addition to the conventional products used by customers, miniaturization has entered and expanded its application scope, becoming the main leading industry in the military, national defense, aerospace, telecommunications, medical, industrial and renewable energy fields. As a result, IPCB has a large global customer base and is located in all major markets.

With the development of integrated circuit technology, the clear boundary between the whole machine, circuit and component, device is suddenly crippled. Device problems, circuit problems and whole machine system problems have been combined and embodied in a small piece of silicon chip, which forms a new technical discipline of solid state physics, silicon device technology and electronics - microelectronics. With the extensive penetration and extension of integrated circuit technology, it will be a more extensive frontier discipline.

Microelectronics and microelectronic technology generally refer to the emerging technology disciplines, represented by integrated circuit technology, that manufacture and use micro and small electronic components, devices and circuits to realize the functions of electronic systems. It also refers to the manufacturing and application technology of large-scale integrated circuits. Compared with the traditional electronic technology, the main feature of microelectronic technology is the miniaturization of devices and circuits. It combines the design and manufacturing process of circuit system closely, and is suitable for mass production, so it has low cost and high reliability. In the 21st century, microelectronics technology is the leading technology to change production and life.

A distinctive feature of the current development of microelectronics technology is the emergence of the concept of System On Chip (SOC). At the early stage of the development of integrated circuits (IC), circuits started with the physical layout design of devices. Later, IC cell libraries emerged. IC design was used to move from the device level to the logic level. This design idea enabled a large number of circuit and logic designers to directly participate in IC design, greatly promoting the development of the IC industry. Due to the continuous improvement of IC design and process technology, the scale and complexity of integrated circuits are getting larger and larger, and the whole system can be integrated into one chip. It is precisely under the dual role of demand traction and technology promotion that the concept of system level chip that integrates the whole system on one IC chip appears. With further development, it is possible to integrate all kinds of physical, chemical and biological sensors and actuators with the information processing system, so as to complete the system functions from information acquisition, processing, storage, transmission to execution. This is a system integration chip in a broader sense. Many studies have shown that compared with the system composed of IC, SOC design can integrate and comprehensively consider various situations of the whole system, and can achieve higher performance system indicators under the same technological conditions. The transition of microelectronic technology from IC to SOC is not only a conceptual breakthrough, but also an inevitable result of the development of information technology. At present, SOC technology has emerged, and the 21st century will be a period of rapid development of SOC technology.

Another remarkable feature of microelectronic technology is its strong vitality, which stems from the low cost and mass production of microelectronic structural modules with high reliability and precision. Once this technology is combined with other disciplines, a series of new disciplines and major economic growth points will emerge. The typical examples of successful integration with microelectronics are MEMS technology and biochips. The former is the combination of microelectronic technology, machinery, optics and other fields, while the latter is the combination of bioengineering technology.

It can be considered that the rapid development of microelectronic technology will bring another revolutionary change. The corresponding microelectronic products will become the cells of modern industry and agriculture, national defense equipment and household durable consumer goods, just as cells make up the human body, changing the social production mode and people's lifestyle. Microelectronics technology has not only become the basis of modern industry and science and technology, but also is creating a silicon culture representing the information age. Therefore, some scientists believe that human beings are entering the age of silica after the Stone Age, Bronze Age and Iron Age.