Global Telecom Power System Markets, 2022-2027 with Dominant Eaton, Huawei Technologies, Cummins, ZTE, General Electric and Schneider Electric –

The “Global Telecom Power System Market by Type of Network (On-Grid, Off-Grid, Bad-Grid), Component, Power Source, Technology, (AC Power System, DC Power System), Power nominal (below 10 kW, 10-20 kW, above 20 kW) and the report Geography – Forecast until 2027″ has been added to from offer.

Telecom Power Systems Market is expected to grow from USD 3.9 billion in 2022 to USD 5.4 billion by 2027; it is expected to grow at a CAGR of 7.1% from 2022 to 2027.

Key factors fueling the growth of this market include rising number of telecom infrastructure in remote areas, growing adoption of telecom services and high data traffic, growing awareness of reducing carbon footprint telecommunications power systems, increasing adoption of hybrid power systems, increasing technological advancements. in cellular networks, the increasing use of GaN-based power devices with the evolution of 5G technology, growing needs for advanced telecommunications infrastructure and M2M connections.

Increased number of telecommunications infrastructure in remote areas

With the increase in technological advancements in the telecommunications sector, the need for energy efficient networks is also increasing. The number of users connected to a network is increasing due to various services provided by service providers.

To provide users with large-scale broadband services and computing activities, service providers install many devices/equipment, such as routers, servers, switches and radio base stations, in places such as data centers, businesses, homes, streets and public spaces.

Additionally, to increase the energy efficiency of these devices, as well as power systems, cooling systems, and batteries, there is an increased need for effective power management solutions. With the increase in the number of users and telecommunications infrastructure in rural areas, the needs for network telecommunications power systems will also experience significant growth.

In addition, the increase in the use of telecommunication services in remote areas due to the increasing work of home cultivation for schools, offices, etc. has led to an increase in the number of telecommunications infrastructures for the provision of these services.

Growing adoption of telecom services and high data traffic

Over time, technological advancements have multiplied, which tends to make communication easier and more efficient, and people have moved from wired to wireless technologies. With time and understanding of telecommunication services such as voice, internet, networking and data services, people have started adopting them at a faster rate.

With the growing need for telecommunication services, they are now used in all sectors i.e. schools, offices, data centers, healthcare, etc. With the smoother execution of work, including better communication services, improved internet services regarding better file transfer in offices, etc. People have started to trust these services for their daily needs and usages.

The rapid adoption of these services will lead to improved development of telecom infrastructure in terms of more towers to deliver services to more people and, therefore, increased demand for telecom power systems. The growing number of wireless devices that can access mobile networks is driving the growth of mobile data traffic.

As the number of mobile devices with advanced computing and multimedia capabilities grows, the demand for better and smarter networks also increases simultaneously.

Growing Awareness of Reducing Carbon Footprint in Telecom Power Systems

The majority of telecom tower sites around the world are in off-grid and underserved locations (where electricity is not continuously available throughout the day) and are powered by diesel generators. Diesel generators have a capacity of 10 to 15 kVA, have a diesel consumption of around two liters per hour and produce 2.63 kg of carbon dioxide (CO2) per litre.

Thus, diesel consumption results in huge CO2 emissions leading to a higher carbon footprint. There has been a considerable increase in the earth’s average temperature over the past century. This rise in temperature is attributed to the effects of global warming caused by the accumulation of greenhouse gases (GHGs) in the atmosphere. Growing public demand for corporate social responsibility and a genuine desire to make positive changes in the environment are driving telecommunications service providers and their suppliers to reduce their carbon footprint.

During the decade 2010-2020, the telecommunications industry’s carbon emissions have increased by around 124%, which means an increase in the carbon footprint, which can lead to global warming. This carbon emission issue is taken seriously by the telecom industry and hence a shift towards green telecom is seen by adopting energy efficient technologies or renewable energy technologies such as diesel-solar, diesel-wind to generate electricity at telecommunication tower sites.

Asia-Pacific is expected to become the fastest geographic market between 2022 and 2027

The large population of APAC has resulted in a large pool of mobile subscribers for telecommunications companies. The region is the largest contributor to the total number of mobile subscribers across the world. It is expected to see an increase in the number of such subscribers in the coming years.

APAC is a diverse region with its countries transitioning towards digital transformation. The region is expected to lead in 5G, edge computing, blockchain and 5G core technologies due to its size and diversity, as well as the strategic lead taken by countries including Singapore, South Korea , China, Australia and Japan. Asian telecom service providers, vendors and government enterprises are determined to take the lead in advanced telecom network deployments.

Most of the world’s major industrialized economies are in APAC, and the region is experiencing dynamic changes in terms of the adoption of new technologies and advancements in organizations across various sectors. The high adoption rate of new technologies in Asia-Pacific has made it a lucrative market for telecommunications power systems; APAC exhibits a large-scale growth in the telecommunications sector, which is observed due to a large proportion of the population in this region.

Key Players Featured in This Report:

The telecommunications power system market is dominated by a few established players such as Eaton (US), Huawei Technologies (China), Cummins (China), ZTE Corporation (China), General Electric (US) and Schneider Electric (France).

Premium Previews

  • Increase in the number of telecom infrastructure in remote areas to create growth opportunities for the market

  • Diesel-Solar Power Source to Witness Highest CAGR in Telecom Power System Market During Forecast Period

  • Bad-Grid Segment Held the Largest Telecom Power System Market Share in 2021

  • UPS Components Segment to Witness Highest CAGR in Telecom Power System Market During Forecast Period

  • India Telecom Power System Market to Register Highest CAGR during the forecast period

Market dynamics


  • Increased number of telecommunications infrastructure in remote areas

  • Growing adoption of telecom services and high data traffic

  • Growing awareness of reducing the carbon footprint of telecom power systems


  • High deployment and operating costs

  • Environmental concerns due to the use of diesel


  • Growing adoption of hybrid power systems

  • Increase in technological advancements in cellular networks (5G, Lte services, etc.)

  • Growing requirements for advanced telecommunications infrastructure and M2M connections

  • Increasing use of Gan-based power devices with the evolution of 5G technology


  • Lack of infrastructure development for energy management

  • Design challenges for telecommunications power systems

  • Trends/disruptions affecting customer operations

Ecosystem/market map

  • Telecom Power System Manufacturers

  • Telecom Network Solution Providers

  • System integrators

  • Network operators

Technological analysis

  • 5G network

  • Smart manufacturing

  • Asset performance management systems

Case study analysis

  • Supply of major telecoms and seasonal air conditioning

  • Advanced Automation of Remote Telecom Sites

  • Off-Grid Lte Wireless Networks

  • Off-Grid Hybrid Telecom Sites

  • Hd-Plc for faster and cheaper smart metering

Company Profiles

  • ABB

  • Alpha Technologies

  • Ascot Industrial

  • Corning Incorporated

  • Cummins

  • Delta Electronics

  • Dynamic Power Group

  • eaton

  • Before

  • General Electric

  • Hangzhou Zhongheng Electric Power

  • Huawei technology

  • Jma wireless

  • Myers Food Products

  • Schneider-Electric

  • Static

  • unipower

  • Vertiv Group

  • Voltserver

  • ZTE Corporation

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