[ Focus on Chemical Machinery Equipment Network ] On September 12, at the Jianghuai Online Economic Forum of the World Manufacturing Conference, Anhui Province released 5G+ industrial Internet innovative applications, covering industrial fields such as steel, cement, automobiles, equipment, home appliances, and electric power .
At present, "new infrastructure" and "post-epidemic economy" are vigorously promoting education, automobiles, medical care, e-commerce and cultural tourism and other industries to actively move to the cloud and accelerate integration.
A "big picture" of 5G+ Industrial Internet is in full swing.
Chemical machinery and equipment network hotspots pay attention to chemical machinery and equipment At present, "new infrastructure" and "post-epidemic economy" are vigorously promoting education, automobiles, medical care, e-commerce and cultural tourism and other industries to actively move to the cloud and accelerate integration.
A "big picture" of 5G+ Industrial Internet is in full swing.
5G is the "gene" of industry
5G is the "gene" of industry The typical application scenario of 5G is virtual reality (VR) and related technologies.
In the past, virtual reality modeling was complicated and data transmission was difficult.
And now, to build smart cities, smart factories, and build a smart society supported by big data, 5G support is even more needed.
Just this year, * released the "Notice on Promoting the Accelerated Development of the Industrial Internet" and the "Notice on Promoting the Accelerated Development of 5G" to further promote the development of 5G+ Industrial Internet.
In the past, virtual reality modeling was complicated and data transmission was difficult.
And now, to build smart cities, smart factories, and build a smart society supported by big data, 5G support is even more needed.
Just this year, * released the "Notice on Promoting the Accelerated Development of the Industrial Internet" and the "Notice on Promoting the Accelerated Development of 5G" to further promote the development of 5G+ Industrial Internet.
In recent years, the continuous development of 5G has made it possible to store and transmit massive amounts of data.
At the same time, the rapid increase in data volume has provided rich resources for big data and put forward higher requirements for big data.
And 5G's high-speed, low-latency and other characteristics, let it show its skills in the industrial field.
5G not only provides the possibility for the application of mobile communication technology in the industrial Internet, but also the willingness to apply 5G in the industrial field.
The application of 5G is no longer limited to developed countries.
Developing countries represented by Vietnam are also vigorously deploying 5G+ industrial Internet.
This shows the importance of 5G in the industrial field.
At the same time, the rapid increase in data volume has provided rich resources for big data and put forward higher requirements for big data.
And 5G's high-speed, low-latency and other characteristics, let it show its skills in the industrial field.
5G not only provides the possibility for the application of mobile communication technology in the industrial Internet, but also the willingness to apply 5G in the industrial field.
The application of 5G is no longer limited to developed countries.
Developing countries represented by Vietnam are also vigorously deploying 5G+ industrial Internet.
This shows the importance of 5G in the industrial field.
5G and instrumentation inseparable
Instruments
Nowadays, all walks of life are scrambling to "embrace" the Internet and develop towards the trend of interconnection of all things.
And "everything" is countless.
What we hear and see every day is only a part of it.
To achieve interconnection, the instrumentation industry must also participate in it.
And "everything" is countless.
What we hear and see every day is only a part of it.
To achieve interconnection, the instrumentation industry must also participate in it.
When it comes to instrumentation, one has to talk about sensors that are highly relevant to the instrumentation industry .
The realization of all action links and application scenarios of the Internet of Everything needs to be completed by sensors.
Sensors have become the basic hardware and necessary conditions for the Internet of Everything.
According to data, as of 2019, my country's smart sensor market will reach 96 billion yuan.
Faced with this attractive cake, sensor companies have invested in the 5G market, innovating and developing Internet sensor products.
But to realize the interconnection of everything, the only thing is chips and devices, which must be mass-produced after being tested by high-tech precision instruments, as well as network connectivity testing, which also requires precision instrument testing in the communications industry.
Therefore, the development of 5G has also secretly boosted the development of the instrument testing industry.
sensor The realization of all action links and application scenarios of the Internet of Everything needs to be completed by sensors.
Sensors have become the basic hardware and necessary conditions for the Internet of Everything.
According to data, as of 2019, my country's smart sensor market will reach 96 billion yuan.
Faced with this attractive cake, sensor companies have invested in the 5G market, innovating and developing Internet sensor products.
But to realize the interconnection of everything, the only thing is chips and devices, which must be mass-produced after being tested by high-tech precision instruments, as well as network connectivity testing, which also requires precision instrument testing in the communications industry.
Therefore, the development of 5G has also secretly boosted the development of the instrument testing industry.
With the launch of 5G, instrumentation can be applied to more industries, such as the Internet of Vehicles.
Through radio frequency identification equipment, sensors, positioning systems, laser scanners and other information sensing equipment, vehicles can complete the collection of their own environment and status information.
In addition, in the future, we can use 5G, cloud computing technology, and artificial intelligence to realize that doctors can provide patients with emergency rescue guidance, remote real-time consultation and other services through video and image-based medical diagnosis systems.
The enablement of 5G will allow the instrumentation industry to meet user needs in the future, and it will also tend to have a simpler and more convenient operation, and will achieve more functions, making it smarter and more vivid to use.
Through radio frequency identification equipment, sensors, positioning systems, laser scanners and other information sensing equipment, vehicles can complete the collection of their own environment and status information.
In addition, in the future, we can use 5G, cloud computing technology, and artificial intelligence to realize that doctors can provide patients with emergency rescue guidance, remote real-time consultation and other services through video and image-based medical diagnosis systems.
The enablement of 5G will allow the instrumentation industry to meet user needs in the future, and it will also tend to have a simpler and more convenient operation, and will achieve more functions, making it smarter and more vivid to use.
The instrument to ride the 5G development wave
The instrument to ride the 5G development wave 5G is the fundamental communication infrastructure in the new infrastructure.
It can not only provide important network support for other infrastructures such as big data centers, artificial intelligence and industrial Internet, but also can quickly empower digital technologies such as big data and cloud computing to various industries.
Various industries are important carriers of the digital economy.
Now let the editor take you to learn about some of the instruments that take the 5G development wave.
It can not only provide important network support for other infrastructures such as big data centers, artificial intelligence and industrial Internet, but also can quickly empower digital technologies such as big data and cloud computing to various industries.
Various industries are important carriers of the digital economy.
Now let the editor take you to learn about some of the instruments that take the 5G development wave.
1.
Spectrum analyzer
Spectrum analyzer
With the popularization of mobile devices and the Internet of Things, the amount of data transmission continues to grow in a proportional series every year, and therefore a higher transmission rate is required.
To meet these needs, the key lies in the maturity of 5G technology.
Since the existing spectrum resources are quite tight, it is imperative to perform channel detection in higher frequency bands and find frequencies suitable for 5G mobile transmission.
At this time, spectrum analysis instruments often play an important role.
To meet these needs, the key lies in the maturity of 5G technology.
Since the existing spectrum resources are quite tight, it is imperative to perform channel detection in higher frequency bands and find frequencies suitable for 5G mobile transmission.
At this time, spectrum analysis instruments often play an important role.
In exploring the field of unknown high-frequency signals, spectrum analysis is an indispensable step for electronic engineering and technical personnel; and the performance of the instruments they use for spectrum analysis will influence the results of the research.
Modern signal analyzers have more comprehensive functions than general spectrum analyzers.
In addition to the frequency domain, they can also provide analysis in the time domain and modulation domain.
They have a wide range of applications: such as satellite systems, radio communication systems, electromagnetic interference and other high-frequency signals.
Detection and analysis, as well as research on signal components, signal distortion, signal attenuation, electronic component gain and other characteristics.
Modern signal analyzers have more comprehensive functions than general spectrum analyzers.
In addition to the frequency domain, they can also provide analysis in the time domain and modulation domain.
They have a wide range of applications: such as satellite systems, radio communication systems, electromagnetic interference and other high-frequency signals.
Detection and analysis, as well as research on signal components, signal distortion, signal attenuation, electronic component gain and other characteristics.
2.
Signal generator
Signal generator
As the wireless communication network faces the 5G future, the test and measurement industry will face major challenges in meeting this change.
In order to carry the huge lineup of equipment and applications required by the market, 5G technology will not only be progress, but will usher in a huge leap.
In order to carry the huge lineup of equipment and applications required by the market, 5G technology will not only be progress, but will usher in a huge leap.
The signal generator can provide an internal baseband module with a modulation bandwidth of up to 2 GHz to meet the requirements of the 4th and 5th generation mobile communication standards.
At the same time, the signal generator meets future needs, with the aid of a modular and scalable architecture design, allowing users to upgrade and optimize the vector signal generator when needed according to the application.
In the base station and signal amplifier testing and R&D and production stages, a signal generator is used to generate a specific modulation standard signal, and the signal quality, such as gain, modulation accuracy, and other key RF indicators, are tested after passing the DUT to determine the quality of the product or signal amplifier.
At the same time, the specific modulation signal generated by the signal amplifier is used as an interference source when testing the receiving performance of the product.
It is injected through the air port or through the antenna port to verify the anti-interference performance of the product under the interference of the specific electromagnetic environment.
The actual electromagnetic interference environment is verified by simulation to improve the product.
Use experience and stability.
At the same time, the signal generator meets future needs, with the aid of a modular and scalable architecture design, allowing users to upgrade and optimize the vector signal generator when needed according to the application.
In the base station and signal amplifier testing and R&D and production stages, a signal generator is used to generate a specific modulation standard signal, and the signal quality, such as gain, modulation accuracy, and other key RF indicators, are tested after passing the DUT to determine the quality of the product or signal amplifier.
At the same time, the specific modulation signal generated by the signal amplifier is used as an interference source when testing the receiving performance of the product.
It is injected through the air port or through the antenna port to verify the anti-interference performance of the product under the interference of the specific electromagnetic environment.
The actual electromagnetic interference environment is verified by simulation to improve the product.
Use experience and stability.
In summary, 5G has brought us a different era.
Instruments and meters are instruments or equipment used to detect, measure, observe, and calculate various physical quantities, material components, and physical properties.
Including future use, it is inseparable from the help of instrumentation.
Instruments and meters are instruments or equipment used to detect, measure, observe, and calculate various physical quantities, material components, and physical properties.
Including future use, it is inseparable from the help of instrumentation.
Original title: Instruments and meters are flourishing by taking advantage of 5G Dongfeng.
The two complement each other and are indispensable
The two complement each other and are indispensable
