Power Over Ethernet POE Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2021-2031

The Global Power Over Ethernet (PoE) Market is projected to expand from USD 1.91 Billion in 2025 to USD 6.43 Billion by 2031, registering a CAGR of 22.42%. This technology, which enables the simultaneous transmission of data and electrical power to remote devices using standard twisted-pair cabling, is largely fueled by the growing deployment of Internet of Things (IoT) devices, such as wireless access points and IP cameras. These applications require streamlined installation processes and reduced cabling infrastructure. Additionally, the market is supported by the increasing adoption of energy-efficient smart building automation systems, as facilities aim for centralized power management to enhance floorplan flexibility and cut operational expenses.

However, the market confronts substantial hurdles related to interoperability and power delivery constraints, particularly where the demands of high-performance devices surpass the capacity of existing non-standardized infrastructure. This strain on network capabilities emphasizes the critical need for updated equipment certification. Data from the Ethernet Alliance in 2024 indicates that 33 percent of survey respondents intended to install high-power PoE devices requiring more than 51 watts within the coming year. If these rising power demands are not met with fully interoperable equipment, it could hinder the seamless expansion of next-generation network endpoints.

Market Drivers

The rise of PoE-based smart lighting solutions is acting as a major catalyst for market growth, fundamentally transforming how industrial and commercial facilities handle energy and data. This shift is enabled by Power over Ethernet's ability to provide granular energy monitoring and centralized control via a single cable, eliminating the need for separate electrical wiring and lowering installation costs. As organizations place a premium on operational efficiency and sustainability, connected lighting systems are being utilized not just for illumination, but as intelligent nodes within a comprehensive digital ceiling architecture. This growing adoption is evidenced by Signify’s 'Third Quarter Results 2025' from October 2025, which reported that their installed base of connected light points grew to 160 million, reflecting the accelerating scale of intelligent lighting integration worldwide.

Simultaneously, the broadening of smart building and automation ecosystems is driving demand for robust PoE infrastructure to support a wide range of actuators, sensors, and control units. Modern facility management increasingly depends on the convergence of Operational Technology (OT) and IT networks, with PoE serving as the backbone for powering and communicating with devices that manage security, HVAC, and occupancy. This consolidation facilitates real-time data analytics and simplifies maintenance for building optimization. Siemens highlighted this trend in their 'Earnings Release Q3 FY 2025' in August 2025, noting a 9 percent comparable revenue increase in the Smart Infrastructure sector to €5.7 billion, driven by electrification and data center customers. To handle the massive data fluxes from these expanding ecosystems, network capacity is growing globally; Ericsson reported in June 2025 that mobile network data traffic increased by 19 percent between the first quarters of 2024 and 2025, underscoring the critical need for high-performance wired backhaul solutions like PoE to handle traffic from connected endpoints and wireless access points.

Market Challenges

Limitations regarding interoperability and power delivery within non-standardized infrastructure represent a critical barrier to the growth of the Global Power Over Ethernet POE Market. As network endpoints evolve to demand higher wattage, the continued existence of legacy or non-compliant cabling systems creates significant integration bottlenecks. These technical discrepancies often lead to device malfunctions or total power failures during deployment, substantially increasing the cost and complexity of installation. When network integrators face uncertainty about the compatibility of power sourcing equipment with powered devices, it erodes market confidence and causes organizations to delay capital investments in advanced PoE infrastructure, thereby stalling broader adoption.

The economic impact of this technical fragmentation is significant and illustrates the severity of the obstruction. According to the Ethernet Alliance, in 2024, 80 percent of survey respondents expressed a willingness to pay a premium of at least five percent for certified products to ensure performance reliability. This statistic emphasizes the substantial operational risks associated with non-standard equipment, as buyers are financially motivated to avoid the costs of troubleshooting incompatible systems. Consequently, the risk aversion and financial burdens generated by these interoperability challenges directly constrict the market's ability to scale efficiently.

Market Trends

The expansion of PoE infrastructure is being rapidly accelerated by the rollout of Wi-Fi 7 access points, which require significantly higher multi-gigabit throughput capabilities and power budgets compared to previous wireless generations. Unlike legacy standards, these next-generation endpoints often necessitate IEEE 802.3bt Type 4 power delivery to operate at full capacity, compelling organizations to execute comprehensive upgrades of edge switching hardware to prevent performance throttling. This technological shift is driving an immediate equipment refresh cycle across the enterprise sector; according to Hewlett Packard Enterprise’s 'Q3 2025 Earnings Conference Call' in September 2025, demand for Wi-Fi 7 products is ramping up substantially, with orders increasing by triple digits sequentially as enterprises modernize their connectivity layers.

Coinciding with these hardware upgrades is the rise of cloud-managed PoE network solutions, which are transforming how administrators monitor and control power distribution across distributed environments. By utilizing artificial intelligence and cloud-native architectures, organizations can remotely cycle power to unresponsive devices, analyze consumption patterns in real-time, and implement automated energy-saving schedules without needing complex local configurations or manual on-site intervention. This transition toward software-defined management models is evidenced by the growing reliance on subscription-based network services; according to Extreme Networks' 'Fourth Quarter and Fiscal Year 2025 Financial Results' in August 2025, SaaS Annualized Recurring Revenue (ARR) increased 24.4 percent year-over-year, highlighting the market's decisive pivot toward cloud-driven infrastructure operations.

Key Players Profiled in the Power Over Ethernet (PoE) Market

• Cisco Systems, Inc.
• Siemens AG
• Huawei Technologies Co., Ltd.
• NETGEAR, Inc.
• Ubiquiti Inc.
• TP-Link Systems Inc.
• Extreme Networks, Inc.
• Comtrend Corporation.
• Zyxel Group.
• Nokia Corporation

Report Scope

In this report, the Global Power Over Ethernet POE Market has been segmented into the following categories:

Power Over Ethernet POE Market, by Product Type:

• Power Sourcing Equipment
• Powered Devices

Power Over Ethernet POE Market, by Component:

• Injectors
• Splitters
• Switches
• Converters

Power Over Ethernet POE Market, by End User:

• Enterprises
• Small & Medium Businesses
• Residential

Power Over Ethernet POE Market, by Region:

• North America
• Europe
• Asia-Pacific
• South America
• Middle East & Africa

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the Global Power Over Ethernet POE Market.

Available Customization

The analyst offers customization according to your specific needs. The following customization options are available for the report:

• Detailed analysis and profiling of additional market players (up to five).

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