The Evolution of Light: The Road to Upgrade of the Power Carrier Network

In the past few years, the power industry has undergone significant digitalization and intelligence upgrades. This includes the integration of artificial intelligence, the use of cloud technology, and the development of power data platforms. All of these advancements have helped to improve the efficiency and reliability of the power industry, but they also require a strong network infrastructure to support them.

One technology that has played a key role in this upgrade is Synchronous Digital Hierarchy (SDH). SDH is a type of bearer network system that is commonly used in key industries such as electric power. It is known for its high reliability and low latency, making it a suitable choice for power-carrying TDM services like E1/PCM.

However, as the demand for transformation in the power industry's bearer network continues to grow, it is important to consider which technology is best suited to replace SDH and complete this "evolution of light." One potential solution is a newer technology called FlexE (Flex Ethernet). FlexE is a high-capacity, low-latency technology that is capable of supporting a wide range of data rates and protocols. It is also highly flexible, allowing it to easily adapt to changing demands and requirements.

Ultimately, the choice of technology for the power industry's bearer network upgrade will depend on the specific needs and goals of the industry. However, it is clear that the upgrading of network capabilities is an important aspect of the digital and intelligent process of the power industry. As such, it is worth considering the potential benefits of newer technologies like FlexE as a way to improve the efficiency and reliability of the industry's network infrastructure.

In the intelligent era, the advanced requirements of the electric power bearer network

The electric power bearer network plays a vital role in connecting the industrial system and ensuring the safety and reliability of the energy supply. As the world moves towards an intelligent era, the advanced requirements of the power bearer network have evolved to meet the changing needs of the industry.

One of the most important requirements of the power bearer network is its high level of security. The "three remote" businesses of relay control, which include remote measurement, remote signaling, and remote sensing, are essential to the energy security and safety of the power grid. Any flaws in these systems could have serious consequences for both the national economy and the lives of people. Therefore, maintaining high security is an unshakable requirement for all upgrades to the power bearer network.

In addition to security, the power bearer network must also adapt to the trend of cloud-network integration and incorporate service development and innovation into its systems. As the industry moves towards the energy Internet and the Internet of Things, the power bearer network must be able to handle large volumes of data and provide network capabilities with low latency, high stability, and safe isolation.

Finally, the advanced requirements of the power bearer network must also consider the overall development model and construction costs of the industry. It is important to avoid the waste of industry and social costs that can result from network upgrades by considering the long-term construction results of the industry network.

Change and the same: the value of SDH

However, despite its many benefits, SDH technology has also undergone significant changes over the years. One of the main changes has been the shift towards more advanced and efficient technologies, such as WDM (Wavelength Division Multiplexing). This shift has been driven by the increasing demand for higher bandwidth and data rates, as well as the need to support new applications and services.

Despite these changes, the value of SDH technology has remained constant. Its ability to effectively manage and maintain a network, as well as its versatility and adaptability, make it an essential tool for any organization that relies on a reliable and efficient information transmission network.

In addition to its capabilities in the power industry, SDH technology is also widely used in other sectors such as telecommunications, finance, and transportation. Its ability to support a variety of services and applications, as well as its reliability and security, make it a valuable asset for these industries as well.

One of the key advantages of SDH technology is its ability to support a range of data rates, from low to high, making it a flexible and adaptable solution for different types of networks. It also has a strong network management system that allows for easy monitoring and maintenance, ensuring that the network is operating at optimal levels at all times.

Furthermore, SDH technology is also highly compatible with other communication technologies, such as Ethernet, making it a seamless solution for integration into existing networks. This compatibility allows for a smooth transition to SDH technology and helps to minimize disruptions to business operations.

As a result, SDH technology continues to play a significant role in the power industry, even after three decades of deployment. Its technical advantages, wide popularity, and adaptability to talent make it an irreplaceable choice for the industry. When upgrading the power bearer network, it is important to consider these factors and ensure that the technical advantages of SDH are preserved and developed.

While SDH technology remains a valuable and irreplaceable asset in the power industry and other sectors, the development of newer technologies like OSU can offer even more advantages and opportunities for improvement. By considering both construction results and technological advantages, organizations can make informed decisions about upgrading their information transmission networks and ensure that they are utilizing the most effective and efficient technologies available. With its large bandwidth, flexible bandwidth adjustment, and other advanced features, OSU technology is a promising solution for the next generation of industry bearer networks.

Reliable upgrade: OSU is the best evolution path for the power bearer network

In addition to its ability to reflect the inheritance of SDH technology, OSU also offers a range of advanced features that make it an ideal choice for the next generation of industry bearer networks. Its large bandwidth and fine-grained adjustability allow for more efficient and flexible network carrying capacity, meeting the increasing demand for high-speed data transmission and more complex business models.

The physical isolation provided by OSU technology also makes it a secure and reliable choice for power production networks, ensuring the safety and integrity of critical data transmission. Its intelligent operation and maintenance capabilities further improve the efficiency and effectiveness of network management, making it a valuable asset for any organization.

In addition to its compatibility with traditional TDM services and its superior adaptability to ETH services, OSU technology also offers a range of advanced features that make it a valuable asset for businesses and organizations. Its large bandwidth and simple architecture allow for more efficient and flexible network carrying capacity, meeting the increasing demand for high-speed data transmission and more complex business models. Its deterministic and low latency capabilities further improve the efficiency and effectiveness of network management, ensuring reliable and consistent data transmission.

OSU technology is widely recognized as an effective next-generation transmission technology in the power industry. The establishment of a standard project for the OSU program by the IEEE ITU-T CSEE power-related standards organization further demonstrates the importance and relevance of this technology in the industry. Overall, the adoption of OSU technology is an effective and cost-effective choice for organizations looking to meet the increasing demand for high-speed data transmission and complex business models.

In the face of the increasing integration of power intelligence and cloud networks, high-quality OSU technology is poised to play a crucial role in the industry as the best bearing solution. Its advanced features, compatibility with existing network infrastructure, and low update costs make it an ideal choice for organizations looking to upgrade their information transmission networks.

The ongoing evolution of light, marked by the upgrade of the industry bearer network, is a testament to the significant advancements being made in the field of information transmission. As the world becomes increasingly reliant on technology and the demand for high-speed data transmission continues to grow, the importance of OSU technology will only continue to increase.