PUBLISHER: IMARC | PRODUCT CODE: 1792566
PUBLISHER: IMARC | PRODUCT CODE: 1792566
The North America telecom power systems market size was valued at USD 2.24 Billion in 2024. Looking forward, IMARC Group estimates the market to reach USD 4.80 Billion by 2033, exhibiting a CAGR of 8.38% from 2025-2033. The market is growing due to increasing demand for reliable, energy-efficient power solutions for telecom infrastructure. Rising need for uninterrupted service, sustainability goals and advancements in power management systems, particularly in remote and off-grid locations are driving the market growth across the region.
The increasing demand for reliable and uninterrupted communication networks is driving the North America telecom power systems market. The growing reliance on 4G and 5G technologies makes telecom operators invest in robust power systems to ensure consistent performance and avoid network downtime. For instance, in December 2023, AT&T announced its plans to invest $140 billion to enhance its 5G and fiber networks aiming to double its fiber footprint to 50 million locations by 2029. The company focuses on blending wireless and broadband services to improve customer retention anticipating 7% annual broadband revenue growth and a significant increase in fiber subscribers. Moreover, the expansion of data centers and the shift towards cloud-based services further boost the need for advanced telecom power systems to manage energy consumption efficiently and meet sustainability goals.
Renewable energy sources and energy efficiency in the telecom industries represent some of the key market trends. Solar and wind power as well as hybrid power solutions have begun to gain more acceptance with companies in an effort to reduce operational costs and environmental issues. These power systems eventually save money on costs over the long term while helping meet regulatory requirements for carbon reduction. According to the North America telecom power systems market forecast, renewable energy adoption will play a key role in market expansion. Furthermore, technological advancements in power backup systems including battery storage and fuel cells are enhancing the reliability and sustainability of telecom infrastructure. For instance, in December 2024, Rogers Communications launched Canada's first home internet backup device featuring a rechargeable battery that provides up to four hours of power during outages.
Shift to Renewable Energy
Telecom firms in North America are integrating solar and wind energy sources into their network. This shift in their infrastructure minimizes the usage of traditional grid power therefore decreasing operational cost and carbon emission. Solar panels and wind turbines are integrated in the telecom towers, data centers and base stations particularly in remote areas or off-grid sites. The adoption of renewable energy not only fits into the sustainability goals but also enhances energy security through diversification of power sources. For instance, in October 2023, Aither Systems successfully deployed its first iQM550 energy storage system at a Tier-1 telecom carrier cell site. The system operated efficiently for three days demonstrating advantages over traditional power solutions. This milestone reflects Aither's commitment to innovative high-density energy solutions and enhancing network reliability. It reduces long-term energy costs and supports regulatory compliance because governments are now pushing for greener technologies and carbon reduction initiatives in the telecom sector.
Energy Storage Solutions
The demand for battery storage systems in North America's telecom sector is increasing as a result of the need to provide an uninterrupted power supply in case of grid failure or at times of high demand. Base stations and data centers in the telecom infrastructure need constant energy supply especially in remote locations where power reliability is often limited. For instance, in January 2025, Exide Technologies launched Solition Telecom a pioneering lithium-ion energy storage system designed for telecom Base Transceiver Stations. Offering reliable backup power across diverse grid conditions it features advanced battery management, high energy efficiency and modular scalability promising safety and longevity while reducing operational costs for telecom operators. Advanced battery technologies like lithium-ion and flow batteries offer scalable approaches to store excess energy created by renewable sources such as solar and wind. These systems provide a backup power source reducing operational costs ensure continuous service even during power outages and help keep the telecommunication network stable and deliver customer expectation.
Smart Grid Integration
Smart grid technology is gaining traction in North America's telecom power systems to enhance the delivery of power and minimize outages. This technology integrates real-time data monitoring, automated controls and advanced analytics to boost the efficiency of power delivery to telecom infrastructure. These grids facilitate fast identification and resolution of problems thereby preventing network outages and ensuring stable reliable power. They also enable dynamic load management optimizing energy consumption based on demand fluctuations. Predictive maintenance and improved fault detection help telecom operators manage energy use more efficiently, cut operational costs and ensure higher uptime for critical communication services.
DC (Direct Current) systems holds the largest North America telecom power systems market share due to their efficiency in powering telecom infrastructure. DC power offers lower energy losses during transmission making it ideal for remote sites and base stations. Additionally, telecom equipment typically operates on DC reducing the need for conversion and improving system reliability. DC systems are also scalable, more cost-effective and easier to maintain. When combined with renewable sources such as solar and wind energy sources they make it the preferred source for telecom operators who seek high efficiency and reduced operational costs.