Foreword: The development of China's instrumentation industry is one step behind that of foreign countries. While combining its national conditions to produce products suitable for domestic demand, it is also an important part of the development of domestic instrumentation industry to understand and learn from the experience of foreign instrumentation industry, and it is also a domestic instrumentation company. The only way to open the international market.
1. Trends in technology: New technologies are commonly used Currently, foreign instrumentation generally uses electronic design automation (EDA), computer-aided manufacturing (CAM), computer aided testing (CAT), digital signal processing (DSP), and application-specific integrated circuits (ASICs). And surface mount technology (SMT) and other technologies.
While attaching importance to the development of high-end instrumentation, we attach great importance to the development and production of high-tech and large-scale products. Focus on system integration, focusing not only on stand-alone, but also on system and product softening. With various types of instruments and meters installed on the CPU, after the realization of digitization, the software has invested huge human and financial resources. The future instrumentation will be summarized as a simple formula: "Instrumentation and meter = AD/DACPU software". The AD chip will convert the analog signal into a digital signal, and then use software to process the conversion and use the DA output.
2. Industry Development Trends: Doing great work and making big scientific instruments such as PerkinElmer, Thermoelectricity, Agilent, Shimadzu, and Bruker dominate the international scientific instrument market.
Small and medium-sized scientific equipment companies usually develop in a specialized, refined, and special direction.
Through mergers and acquisitions and the formation of strategic alliances, the formation of a large group of scientific instruments is an important trend in the development of the international scientific instrument industry.
3, pay attention to scientific instrument research and development Europe and the United States and Japan and other countries have to develop first-class scientific instruments to support first-class scientific research work as a national strategy, scientific equipment and equipment innovation and give priority support. Such as the United States through the National Natural Science Foundation (NSF) and the National Institutes of Health to support the development of scientific instruments to ensure that the United States in the world's scientific instrument industry leading position; Japan in 2002 developed a high-precision scientific instrument revitalization plan, in the Shimadzu Corporation After Tanaka Gengichi won the Nobel Prize in 2002 for his outstanding contribution to the instrument, the Japanese Ministry of Education, Culture, Sports, Science and Technology decided to spend a fortune on developing world-class analytical and measuring instruments from 2004 (10 billion yen) to generate more promise. Bell Prize-level scientific research results; EU's development of control and control equipment and instruments in the Sixth Framework Program (2002-2006) as a key element in the field of nanotechnology and nanoscience, in the Seventh Framework Programme (2007-2013) In the survey, 4.1 billion euros was spent on new research infrastructure such as radiation sources, telescopes, and databases. The Canadian Natural Science and Engineering Research Council has developed research tools, instruments, and facility plans.
It is the support of these innovative national governments that has enabled scientists to make important contributions to the development of scientific instruments. In recent years, the Nobel Prizes related to scientific instrument research and development have basically been awarded to scientists in innovative countries such as Europe, the United States, and Japan.
1. Trends in technology: New technologies are commonly used Currently, foreign instrumentation generally uses electronic design automation (EDA), computer-aided manufacturing (CAM), computer aided testing (CAT), digital signal processing (DSP), and application-specific integrated circuits (ASICs). And surface mount technology (SMT) and other technologies.
While attaching importance to the development of high-end instrumentation, we attach great importance to the development and production of high-tech and large-scale products. Focus on system integration, focusing not only on stand-alone, but also on system and product softening. With various types of instruments and meters installed on the CPU, after the realization of digitization, the software has invested huge human and financial resources. The future instrumentation will be summarized as a simple formula: "Instrumentation and meter = AD/DACPU software". The AD chip will convert the analog signal into a digital signal, and then use software to process the conversion and use the DA output.
2. Industry Development Trends: Doing great work and making big scientific instruments such as PerkinElmer, Thermoelectricity, Agilent, Shimadzu, and Bruker dominate the international scientific instrument market.
Small and medium-sized scientific equipment companies usually develop in a specialized, refined, and special direction.
Through mergers and acquisitions and the formation of strategic alliances, the formation of a large group of scientific instruments is an important trend in the development of the international scientific instrument industry.
3, pay attention to scientific instrument research and development Europe and the United States and Japan and other countries have to develop first-class scientific instruments to support first-class scientific research work as a national strategy, scientific equipment and equipment innovation and give priority support. Such as the United States through the National Natural Science Foundation (NSF) and the National Institutes of Health to support the development of scientific instruments to ensure that the United States in the world's scientific instrument industry leading position; Japan in 2002 developed a high-precision scientific instrument revitalization plan, in the Shimadzu Corporation After Tanaka Gengichi won the Nobel Prize in 2002 for his outstanding contribution to the instrument, the Japanese Ministry of Education, Culture, Sports, Science and Technology decided to spend a fortune on developing world-class analytical and measuring instruments from 2004 (10 billion yen) to generate more promise. Bell Prize-level scientific research results; EU's development of control and control equipment and instruments in the Sixth Framework Program (2002-2006) as a key element in the field of nanotechnology and nanoscience, in the Seventh Framework Programme (2007-2013) In the survey, 4.1 billion euros was spent on new research infrastructure such as radiation sources, telescopes, and databases. The Canadian Natural Science and Engineering Research Council has developed research tools, instruments, and facility plans.
It is the support of these innovative national governments that has enabled scientists to make important contributions to the development of scientific instruments. In recent years, the Nobel Prizes related to scientific instrument research and development have basically been awarded to scientists in innovative countries such as Europe, the United States, and Japan.
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