Information and communication technologies industry development  rete in the world is 8 times higher than the extractive industries development rate.

Telecommunication technologies became one of the main factors of production and elements of society functioning

According to the Bureau of Economic Analysis, U.S. Department of Commerce in 1965, information technology costs were less than 5% of companies' capital expenditures, in the early 1980s - 15% (mass PC implementation), in the early 1990s - 30%, in the late twentieth century - 50%, in the twenty-first century – 60%.

Currently, there are some stable trends in the development of telecommunication technologies:

1. With the introduction of 5G telecommunication technologies will penetrate into various industries.

• 5G will provide base station devices for different levels of enterprise-level application scenarios: accommodation in ports, mining areas, power plants, transportation and even colleges, hospitals and public places. Different application scenarios require more flexible and diversified energy solutions for telecommunications that can make the telecommunications industry more digital, modular and flexible.

2. Interface with artificial intelligence

• Increasing the number of 5G stations and increasing power consumption results in high maintenance and power consumption costs, which may prevent the rapid promotion of next-generation networks. The technology of interaction with AI will be of great importance to solve this problem. The application of AI interaction technology in the telecommunications industry includes modeling an AI algorithm to optimize site resource configuration in the case of segmented networks and optimize energy efficiency, as well as AI analysis to deploy autonomous management networks.

3. Simplified full-stack gateways.

• In the near future, connections will be ubiquitous, more and more frequency spectra will be used, and stations will be more tightly installed. In the 5G era, power systems from nodes to carrier networks and backbone networks will become increasingly large and complex, requiring simplified deployment and control of total cost of ownership. In the future, simplified end-to-end full lifecycle power grid technologies such as one cabinet for one site, one power supply unit for one site, and autonomous control networks will be widely used. All of this will significantly improve the efficiency of site deployment and capacity expansion, simplify power operation and provide a more simplified power grid.

4. Multilevel architecture.

• Currently, most power supplies do not support multi-level input or output format. Different power conversion devices are typically combined into a single system that has a large size, low efficiency and multiple interfaces for service. In addition, the cost of these devices is quite high. The multi-level architecture is characterized by system efficiency, simpler deployment, rational maintenance and operation, and its popularization in the future is expected in the telecommunications industry.

AMA is aware of these trends in the development of telecommunications technology and is ready to develop or offer our customers solutions in this area.