Flexible Electronics good employment.
A, flexible electronics professional development prospects:
Flexible electronics professional employment prospects will also be strongly supported by the government. With the development of society, the government's emphasis on science and technology is also increasing, the development of flexible electronics technology is also encouraged, the government introduced a variety of policies also greatly promote the development of flexible electronics technology in the global economy.
In a sense, flexible electronics technology is becoming a "future technology", the employment prospects of flexible electronics will certainly be brighter.
Two, flexible electronics professional employment direction:
With the continuous development of science and technology, flexible electronics professional becomes more and more promising. Graduates of this program can work in the field of electronics, materials, chemistry, machinery and other areas of research, design, manufacturing and marketing.
Specifically, they can be engaged in research and development in flexible electronics-related fields, as well as manufacturing and quality management in manufacturing companies in the fields of consumer electronics, medical devices and military equipment. In addition, they can work in sales and marketing and other fields.
Introduction of Flexible Electronics and Specialized Courses:
I. Introduction:
Flexible electronics can be summarized as an emerging electronic technology that fabricates organic/inorganic material electronic devices on flexible/extensible plastic or thin metal substrates, which, with its unique flexibility/extensibility as well as highly efficient and low-cost manufacturing process, has a significant role in information, energy, medical, defense and other fields with a wide range of application prospects.
Like traditional IC technology, manufacturing process and equipment are the main driving force for the development of flexible electronics technology. Flexible electronics manufacturing technology level indicators include chip feature size and substrate area size, the key is how to manufacture flexible electronic devices with smaller feature size at lower cost on a larger format substrate.
Specialized courses:
1, basic courses:
Foundation of drawing and computer graphics, circuits and systems, analog electronic circuits, digital circuits and logic design, electromagnetic fields and signal transmission, semiconductor physics, C language programming, flexible electronic materials and applications.
2. Specialized Core Courses:
Integrated circuits and CAD, microcontroller applications, automatic detection technology, micro-nano-sensor devices and applications, microelectronics technology, flexible circuit board processing technology, flexible circuit printing technology, flexible packaging technology.