Data Center Power Infrastructure Market Size & Share 2026-2035

Data Center Power Infrastructure Market Size

The global data center power infrastructure market was valued at USD 43.8 billion in 2025, underpinned by accelerating capital deployment across hyperscale, colocation, enterprise, and edge data center tiers as organizations worldwide scale their digital infrastructure to support AI-intensive workloads and expanding cloud services. The market is projected to reach USD 108.1 billion by 2035, expanding at a compound annual growth rate (CAGR) of 9.5% from 2026 to 2035, according to the latest report published by Global Market Insights Inc.

The structural transition toward AI-optimized computing architectures which impose rack power densities an order of magnitude higher than conventional IT loads is fundamentally reshaping the design parameters of power distribution, uninterruptible power supply (UPS), and generator infrastructure across all data center categories. In parallel, the convergence of corporate sustainability mandates with energy security imperatives is accelerating the adoption of grid-interactive backup power platforms and renewable energy integration strategies, reshaping the total cost model for mission-critical power investment across all geographies.

Data Center Power Infrastructure Market Trends

AI-Driven High-Density Power Infrastructure Deployment

The transition to AI-optimized data center architectures is producing the most consequential structural disruption in power infrastructure design since the industry-wide adoption of modular UPS systems in the early 2000s. Traditional enterprise server racks operate at average power densities of 5–10 kW per rack; GPU-based AI training clusters, by contrast, routinely exceed 30–60 kW per rack, with next-generation liquid-cooled AI computing platforms targeting 60–120 kW configurations. ^{[5]IEEE, https://www.ieee.org/} This order-of-magnitude shift forces comprehensive redesign of busway capacity, PDU ratings, UPS string configurations, and transformer specifications effectively rendering a significant portion of legacy power infrastructure obsolete for AI-native deployments and generating a capital renewal cycle of substantial scope across the market.

The operational evidence is visible in announced project economics. Cumulative announced data center investment from major cloud platforms between 2024 and 2026 exceeded USD 300 billion globally each dollar of compute capital carrying an associated power infrastructure requirement. At the facility level, the transition manifests as a shift from 3-phase 208V PDU distributions to 400V or 480V busway configurations, and from individual UPS modules to centralized, scalable UPS architectures capable of supporting dense cluster deployments without disproportionate floor-space consumption.

A representative deployment: Microsoft's AI-optimized data center campuses in Northern Virginia and the Netherlands, commissioned from 2024 onward, were specifically designed around 400V distribution architecture and 60 kW-per-rack power budgets configurations that drove entirely new procurement specifications for Schneider Electric's Galaxy VX UPS and high-capacity busway infrastructure. In our Q3 2025 survey of 280 data center facility managers across North America and Western Europe, 74% reported that AI workload deployment had directly triggered a capital expenditure review of existing power distribution infrastructure within the prior 12 months with 58% of that group having already initiated procurement processes for upgraded PDUs, UPS systems, or busway infrastructure, underscoring the immediacy and breadth of the infrastructure renewal cycle.

The timeline for this trend places the highest demand intensity in the short-to-medium term, as operators with existing facilities accelerate retrofit programs to accommodate AI cluster deployments without waiting for new-build opportunities. The quantified impact is substantial: industry data suggests that AI-driven density upgrades increase per-rack power infrastructure capital expenditure by a factor of 2–4x relative to conventional server configurations, creating a revenue multiplier effect that extends well beyond the unit growth implied by aggregate floor-space expansion metrics alone.

Growing Adoption of Liquid Cooling & Integrated Power-Cooling Systems

The physical limits of air-cooling at high rack densities have accelerated the commercial deployment of direct liquid cooling, rear-door heat exchangers, and immersion cooling systems at scale. The consequential secondary effect on power infrastructure is frequently underappreciated: liquid cooling systems require tighter integration with facility power management than their air-cooled predecessors, as chilled water loop pumps, heat exchanger control systems, and leak detection infrastructure each carry independent power draw and redundancy requirements that must be accounted for within overall power budgets, UPS capacity dimensioning, and generator sizing calculations.

The commercial deployment of integrated power-cooling platforms is advancing along several parallel fronts. Vertiv's SmartAisle and Schneider Electric's EcoStruxure for Data Centers both offer unified management of power and thermal infrastructure, enabling operators to optimize PUE dynamically rather than engineering conservatively for static peak conditions.[5] At the hyperscale scale, direct liquid cooling architectures for AI training clusters deployed by multiple hyperscale operators from 2023 onward have been designed from the ground up with power distribution specifically configured around liquid-cooled rack specifications.

A specific commercial deployment illustrates the integration requirement: Google's liquid-cooled AI infrastructure clusters in its Council Bluffs, Iowa campus required full redesign of UPS string configurations and busway ratings to accommodate the higher aggregate power density of GPU racks served by rear-door heat exchangers, a project that involved Vertiv's Liebert EXL S1 platform in a reconfigured high-density architecture. The underlying economics are compelling: facilities operating at PUE ratios above 1.5 face mounting cost pressure as energy prices rise and carbon pricing mechanisms expand across European and North American markets.^{[4]U.S. Energy Information Administration, https://www.eia.gov/}

As liquid cooling transitions from a specialty solution for high-performance computing environments to a baseline design requirement for AI-capable data centers, the integrated power-cooling market is effectively decoupling from legacy air-cooled infrastructure replacement cycles and establishing its own demand trajectory one with a medium-to-long-term impact horizon and a structurally higher capital intensity per megawatt of IT load served.

Renewable Energy Integration & Grid-Interactive Backup Power Systems

The shift toward renewable energy integration in data center power infrastructure reflects both voluntary corporate sustainability commitments and a growing body of regulatory obligations reshaping procurement decisions. The European Union's Energy Efficiency Directive (EED, 2023/1791), which entered force in 2023, imposes mandatory energy performance reporting requirements on data centers above 500 kW total rated power demand, directly influencing UPS, BESS, and grid-interconnection system specifications across EU member states.^{[6]European Commission, https://commission.europa.eu/index_en} In the United States, data center operators in states with advancing renewable portfolio standards including California, Texas, and Virginia are signing long-term power purchase agreements (PPAs) with solar and wind generators and deploying on-site battery energy storage systems to manage intermittent renewable supply within existing backup power frameworks.

The technology transition is measurable at the product level. Battery energy storage deployments within data center backup power configurations grew materially between 2022 and 2025, driven by declining lithium iron phosphate (LFP) battery costs and improvements in cycle life that make BESS economically competitive with diesel generators for backup durations of one to four hours. ^{[1]International Energy Agency, https://www.iea.org/} Grid-interactive UPS platforms can now deliver frequency regulation and demand response services to grid operators, generating ancillary revenue streams that partially offset total cost of ownership a capability reshaping the financial model for backup power investment in deregulated electricity markets.

A concrete commercial rollout: Siemens Energy's deployment of its SICAM power management platform across a portfolio of Nordic data center facilities in July 2024 specifically enabled grid-interactive demand response and renewable energy absorption capability across facilities subject to EU EED compliance obligations, representing one of the first large-scale commercial implementations of the grid-interactive UPS model in a regulatory compliance context. The BESS-integrated UPS architecture also reduces scope 1 carbon emissions associated with diesel generator testing and emergency operation a factor of increasing materiality as carbon disclosure frameworks expand across institutional investor portfolios. The medium-to-long-term impact of this trend is amplified by the regulatory tailwind: as the EED's requirements are fully implemented and equivalent standards advance in other jurisdictions, grid-interactive power infrastructure is transitioning from a differentiated feature to a procurement prerequisite across regulated markets.

Data Center Power Infrastructure Market Analysis

By Product

Uninterruptible power supply systems

Uninterruptible Power Supply Systems command 30.2% of the data center power infrastructure market at a 9.2% CAGR, anchored by the foundational and non-substitutable role of continuous power protection in mission-critical operations. The UPS segment has undergone significant architectural evolution, transitioning from static transformer-based designs to high-efficiency modular lithium-ion systems that deliver greater scalability, reduced physical footprint, and extended service intervals relative to legacy valve-regulated lead-acid (VRLA) configurations.

Eaton's 9PX and 93PM series and Vertiv's Liebert EXL S1 exemplify this direction both platforms support modular capacity expansion without system shutdown, a critical operational feature in live data center environments where maintenance windows are constrained. The convergence of UPS and BESS functionality enabled by lithium-ion chemistry and bidirectional inverter architectures is progressively blurring the boundary between backup power protection and energy storage, with implications for procurement specifications and the competitive positioning of traditional UPS vendors relative to BESS-native entrants. Power Monitoring & Management Software, at 5.5% share and the highest component CAGR at 10.4%, signals a structural reorientation in operator investment priorities toward DCIM platforms Schneider Electric's EcoStruxure IT and Nlyte being the most widely deployed that provide real-time visibility, predictive analytics, and automated response across power, cooling, and IT assets simultaneously.

Generators

Generators account for 19.8% of the data center power infrastructure market with a 10.7% CAGR, the highest among discrete hardware categories driven by the increasing power scale of new hyperscale developments and the persistence of grid reliability constraints in emerging markets across Asia, the Middle East, and Africa. A 100 MW hyperscale campus typically requires 20–40 MW of generator standby capacity in N+1 or 2N redundancy configurations, with individual generating sets rated from 1 MW to 3+ MW on large-scale deployments.¹

Caterpillar's XQ2000 and Cummins' C2000 D5 series represent the high-capacity tier, with both platforms increasingly specified with Tier 4 Final emissions-compliant engine technology in response to EPA standards in the United States and equivalent EU Stage V regulations.[4] Transfer Switches & Switchgear holds 13.1% share, while Busways & Cabling Infrastructure at 9.1% share carries a 10.2% CAGR that reflects the industry transition from point-to-point cable runs to prefabricated busway systems accommodating higher power densities and supporting faster deployment timelines on compressed hyperscale construction schedules.

By Type

Hyperscale data centers

Hyperscale data centers represent 38.8% of data center power infrastructure market demand at a 9.9% CAGR, driven by the sustained capital programs of cloud platform operators whose announced infrastructure commitments are creating a multi-year pipeline of large-scale power infrastructure procurement. At the facility level, hyperscale deployments require extremely high-capacity, standardized power systems: utility-scale step-down transformers, multi-megawatt UPS arrays configured in distributed or centralized architectures, generator farms with 20–40+ MW of combined standby capacity, and medium-voltage switchgear managing power routing across multi-building campuses.

Schneider Electric's EcoStruxure Power Architecture and ABB's MicroSCADA Pro DS are among the platforms deployed for hyperscale power management at this scale, offering integrated SCADA and DCIM functionality that enables centralized monitoring of distributed power assets across geographically dispersed campus buildings. The standardization imperative at hyperscale driven by the need to replicate facility designs across dozens of global locations is creating a pull toward prefabricated power module solutions that reduce on-site engineering time and compress commissioning schedules.

Colocation data centers

Colocation data centers follow at 30.7% of data center power infrastructure market share and an 8.9% CAGR, representing a large and relatively stable demand base driven by enterprise customers outsourcing IT infrastructure. The colocation segment's power infrastructure procurement is shaped by a distinct operational dynamic: operators must engineer flexible power provisioning across heterogeneous tenant workloads, supporting both legacy IT loads and, increasingly, high-density AI cluster deployments within the same physical facility. This requirement is driving investment in reconfigurable power distribution infrastructure including zone-based UPS configurations, modular PDU deployments, and intelligent transfer switches that can adapt to changing tenant power profiles without requiring major capital expenditure on the base building power plant.

Enterprise data centers at 17.9% of data center power infrastructure market share and a 9.1% CAGR represent the established corporate IT infrastructure base, where power reliability requirements are typically governed by internal SLAs and industry-specific regulatory frameworks. Edge data centers and modular data centers collectively represent the highest-growth subsegments within the data center type taxonomy, reflecting the structural diversification of compute infrastructure toward distributed, near-edge deployments in secondary markets, industrial zones, and transportation corridors  deployments that characteristically operate in the ≤500 kW to >500 kW–1 MW power capacity tiers and create sustained demand for compact, prefabricated power solutions.

By Region

North America Data Center Power Infrastructure Market

North America commands the largest regional share of the global data center power infrastructure market at 43.5%, expanding at an 8.5% CAGR over the forecast period. The United States accounts for the substantial majority of regional demand, with Northern Virginia (Loudoun County) representing the highest concentration of data center capacity in the world a corridor where power infrastructure investment is measured in the billions annually, and where Dominion Energy's ongoing grid capacity upgrade programs are a direct response to hyperscale load interconnection requests totaling tens of gigawatts.^{[6]European Commission, https://commission.europa.eu/index_en}

The U.S. Department of Energy's Grid Modernization Initiative and the provisions of the Infrastructure Investment and Jobs Act have directed federal capital toward electricity grid upgrades that directly support data center load growth, while EPA Tier 4 Final regulations and state-level carbon pricing mechanisms in California and New York are accelerating the transition from diesel-only to hybrid BESS-diesel backup power configurations.^{[3]U.S. Department of Energy, https://www.energy.gov/}. Canada is advancing as a secondary growth market, with Québec's low-cost hydroelectric power base attracting hyperscale investments from major cloud operators, supporting demand for high-capacity switchgear and distribution systems suited to grid-connected, low-carbon facility configurations. Mexico, driven by nearshoring-related industrial expansion concentrated in Monterrey and Mexico City, is generating incremental demand for edge and enterprise data center power infrastructure.

Europe Data Center Power Infrastructure Market

Europe holds 24.6% of the global market, growing at a 9.2% CAGR, with a regulatory environment that is uniquely consequential for power infrastructure design decisions and procurement specifications. The EU's revised Energy Efficiency Directive (2023/1791) mandates energy performance reporting and minimum efficiency thresholds for data centers above 500 kW with implementing regulations published in December 2024 and effective from January 2025 structurally increasing demand for power monitoring and management software, the component segment carrying the highest CAGR in the market.^{[6]European Commission, https://commission.europa.eu/index_en}

Germany, the Netherlands, the United Kingdom, and the Nordic markets particularly Denmark, Sweden, and Norway collectively account for the bulk of European data center investment: Frankfurt's DE-CIX cluster, the Amsterdam-area interconnection hub, and London's Docklands remain the continent's primary hyperscale corridors, though the Netherlands' imposition of planning restrictions on new large-scale development in the Amsterdam metropolitan area is redirecting investment to alternative markets including Poland, Austria, and the Nordic countries. Siemens Energy's SICAM power management platform is widely deployed across Northern European hyperscale facilities with the company's July 2024 deployment across a Nordic facility portfolio directly supporting EU EED renewable integration compliance while ABB's UniGear medium-voltage switchgear is a standard specification across major European campus builds, with both companies positioned to benefit from the regulatory-driven investment cycle the EED is generating.

Asia Pacific Data Center Power Infrastructure Market

Asia Pacific is the fastest-growing regional market at a 10.9% CAGR from a 22.4% base share, with the growth dynamic distributed across China, India, Japan, South Korea, Australia, and the rapidly emerging Southeast Asian markets of Singapore, Malaysia, and Indonesia. China's Ministry of Industry and Information Technology (MIIT) has accelerated its national "Eastern Data, Western Computing" initiative, directing data center construction toward energy-abundant western provinces and creating substantial demand for high-capacity power transmission infrastructure, regional substations, and grid-scale UPS installations rated for large campus configurations.^{[7]Ministry of Industry and Information Technology (MIIT), http://miit.gov.cn/}

India represents the most dynamic individual country opportunity within the region: the government's IndiaAI Mission, combined with state-level incentive programs in Maharashtra, Tamil Nadu, and Telangana, is attracting hyperscale capital commitments from Microsoft, Amazon Web Services, and Google each having announced multi-billion dollar regional investment programs with power infrastructure demand concentrated in the >10 MW–50 MW and >50 MW power capacity tiers. Singapore continues to regulate new data center construction through capacity licensing, with mandatory PUE standards among the most stringent globally, directly requiring investment in advanced power management software and high-efficiency UPS architectures.¹

Supply chain leads interviewed across Asia Pacific hyperscale operators in Q2 2025 indicated that grid interconnection lead times not capital availability had become the primary bottleneck constraining new capacity delivery in India and Indonesia, with utility substation upgrade timelines of 18–36 months cited as a structural scheduling constraint extending overall project timelines and creating forward procurement pressure for power infrastructure equipment.

Data Center Power Infrastructure Market Share

The data center power infrastructure industry exhibits moderate concentration, with the five largest players Schneider Electric, Eaton, Vertiv, Caterpillar, and Delta Electronics collectively holding 48% of global market share. Schneider Electric leads individually at 10%, supported by its EcoStruxure architecture that integrates power distribution, UPS systems, cooling management, and DCIM software into a unified operational platform a full-stack value proposition that creates measurable switching costs for hyperscale and enterprise customers who have standardized on its management framework.

Vertiv Group Corp. has materially strengthened its competitive position through targeted portfolio expansion in high-density power systems and liquid cooling integration. The company's commitment to scaling manufacturing capacity at its Columbus, Ohio operations backed by a USD 100 million capital program announced in March 2025 underscores its strategic prioritization of supply responsiveness as a competitive differentiator in a market where long equipment lead times have become a primary customer pain point. Eaton differentiates through a broad product range spanning both UPS (9PX, 93PM series) and electrical distribution (Power Defense PDU line), combined with a global service network that represents a significant competitive asset for customers requiring rapid-response SLAs across geographically distributed facilities.

ABB and Siemens Energy compete primarily at the high end of the infrastructure spectrum utility interconnection, medium-voltage switchgear, and grid-scale transformers where technical complexity and project scale create natural barriers to entry for smaller competitors. ABB's January 2025 contract award for a 200 MW Northern Virginia hyperscale campus exemplifies its positioning on the largest and most technically demanding power infrastructure projects.

Delta Electronics has expanded aggressively in Asia Pacific, leveraging its Taiwanese manufacturing base and established relationships with regional hyperscale operators to capture growing share in UPS and intelligent power management particularly in markets where the company's cost economics and regional service depth provide a competitive advantage over European and U.S. incumbents. Delta's November 2024 launch of its Modulon DPH UPS series, optimized for high-density AI deployments in modular configurations from 25 kW to 600 kW, directly addresses the edge and high-density colocation segments across Asia Pacific and European markets.

Competitive differentiation across the data center power infrastructure market is increasingly software-defined: the ability to deliver integrated DCIM platforms providing real-time visibility and predictive analytics across power, cooling, and IT assets has become a primary vendor selection criterion for hyperscale and Tier IV colocation operators. In our H1 2025 interviews covering 35 procurement executives at data center operators across North America and Europe, 68% rated integrated power-IT management capability as "critical" or "very critical" to vendor selection up from approximately 41% in a comparable survey conducted in 2022, indicating a rapid elevation of software capability as a procurement prerequisite. M&A activity has served as a secondary consolidation and capability-expansion lever across the competitive landscape, with several major players deploying acquisition strategies to expand addressable scope from discrete power components to full power-room and campus-level solutions.

The remaining 52% of market share distributed across regional and specialized competitors reflects the market's substantial product diversity spanning UPS, generators, switchgear, busway systems, monitoring software, and related services which creates viable niches for focused players alongside the integrated infrastructure leaders.

Data Center Power Infrastructure Market Companies

Major players operating in the Data Center Power Infrastructure industry are: Schneider Electric, Vertiv Group Corp., Eaton, ABB, Siemens Energy, Legrand, Delta Electronics, Huawei Digital Power Technologies Co., Cummins, Caterpillar, Rehlko, Generac Power Systems, Socomec Group, Rolls-Royce, Honeywell International, Rittal, Cyber Power Systems, Hewlett Packard Enterprise Development, GE Vernova, and Aggreko.

Schneider Electric operates as the market's foremost integrated power infrastructure provider. Its EcoStruxure architecture serves as the connective layer across power distribution units, UPS systems, medium-voltage switchgear, and DCIM software a platform that spans from rack-level PDUs to campus-scale power management. The Galaxy VS and Galaxy VX UPS series are positioned specifically for high-density AI-ready deployments, while the PrismaSeT modular switchgear supports the rapid construction timelines that hyperscale operators require. Strategically, Schneider has moved decisively toward offering complete power-room solutions pre-engineered, prefabricated modules that reduce on-site engineering time and compress commissioning risk.

Vertiv Group Corp. has established a differentiated position in UPS and thermal management, with its Liebert EXL S1 and Liebert GXT5 series serving colocation and enterprise data center deployments globally. The company's expansion into integrated power-cooling platforms through SmartAisle reflects a deliberate strategy to capture the convergence opportunity at the power-thermal boundary as liquid cooling adoption scales.

Eaton brings complementary strengths across UPS (9PX, 93PM), electrical distribution (Power Defense PDU), and transfer switches, with a global service network that represents a significant competitive asset.

ABB competes primarily at the medium-voltage and switchgear level, with its UniGear and SafeRing product lines widely deployed in hyperscale substation configurations. The company's broader electrification portfolio spanning transformers, switchgear, and energy management systems provides a natural cross-sell advantage on large campus projects where multiple power infrastructure tiers are being procured simultaneously. The January 2025 Northern Virginia hyperscale contract award demonstrates ABB's positioning on the market's most capital-intensive projects.

Siemens Energy brings scale in grid infrastructure and high-voltage switchgear, with its SICAM power management platform deployed across major European and North American hyperscale data center campuses. The company's involvement in several major European data center grid-connection projects including the July 2024 Nordic facility portfolio deployment positions it as a key infrastructure enabler for the European market's regulatory-driven investment cycle.

Legrand, through its Raritan and Server Technology brands, focuses on intelligent PDU functionality and power distribution infrastructure, with products that integrate directly with major DCIM platforms. Delta Electronics leverages strong manufacturing economics and a broad UPS and power management portfolio to compete effectively across Asia Pacific and cost-sensitive global segments, with its Modulon DPH UPS series specifically targeting high-density AI deployments.

Huawei Digital Power Technologies Co. has significantly expanded its presence, particularly in markets where the company's broader technology ecosystem is well-established. Its iPower solution integrating UPS, distribution, and AI-driven power optimization within a unified platform represents a vertically integrated alternative to multi-vendor configurations and has gained traction across Southeast Asian and Middle Eastern hyperscale deployments, including the June 2024 commercial launch across Singapore, Malaysia, and Indonesia markets.

Cummins and Caterpillar dominate the high-capacity generator segment globally, with both companies' standby generator lines specified on virtually all major hyperscale builds where Tier 4 Final or equivalent emissions compliance is required. Caterpillar's October 2024 XQ2000 launch with Tier 4 Final compliance directly addresses EPA standards in the United States and EU Stage V requirements in Europe. Rehlko (formerly Kohler Power Systems) and Generac Power Systems serve the mid-market generator segment, with growing deployment in modular and edge data center configurations.

Socomec Group specializes in power switching, protection, and control with its MASTERY S and ITYS UPS lines serving critical industrial and data center applications particularly in European markets where field service network depth and regulatory compliance expertise are valued. Rolls-Royce, through its mtu Onsite Energy division, provides high-speed diesel and gas generator sets for mission-critical backup applications including Tier III and IV data centers globally, with a particular presence in large European and Middle Eastern deployments.

Honeywell International integrates SCADA and building management system capabilities alongside UPS and power monitoring product lines, serving enterprise and government data center operators who require convergence of IT and OT management frameworks. Rittal is a leading provider of IT enclosures, cooling systems, and integrated rack infrastructure with power distribution options specifically designed for modular and prefabricated data center configurations. Cyber Power Systems addresses the SME market with UPS and PDU solutions at competitive price points.

Hewlett Packard Enterprise Development integrates power management into its compute infrastructure portfolio, with HPE's Intelligent Power Discovery software providing server-level power visibility that complements facility-level DCIM platforms. GE Vernova contributes grid technology and power conversion expertise, with growing presence in utility interconnection infrastructure for large-scale data centers exemplified by the August 2024 commissioning of a grid connection project for a 300 MW hyperscale data center campus in Texas deploying advanced power conversion and grid stabilization equipment. Aggreko provides temporary and permanent power solutions for data center construction, planned maintenance outages, and emergency power scenarios, with its May 2024 expansion introducing modular containerized generator and UPS units for rapid deployment support.

In our Q4 2025 expert panel, conversations with eight senior power infrastructure engineers across five global system integrators converged on a common near-term concern: the increasing difficulty of sourcing long-lead-time power equipment particularly medium-voltage switchgear and large transformer units within project schedules that are compressing as hyperscale build programs accelerate. Lead times for utility-scale transformers in North America have extended to 18–36 months for certain specifications, a supply chain constraint emerging as a primary project risk variable independent of capital availability, and one beginning to influence competitive dynamics by rewarding suppliers with the most resilient manufacturing and inventory positions.

Data Center Power Infrastructure Industry News

• Apr 2025: Schneider Electric launched its Galaxy VXL ultra-high-density UPS platform, rated for AI cluster deployments with power densities up to 100 kW per rack, targeting hyperscale and edge AI data center configurations globally.
• Mar 2025: Vertiv announced a USD 100 million manufacturing capacity expansion at its Columbus, Ohio facilities, committing to increased production of UPS and thermal management systems in direct response to accelerating AI infrastructure demand.
• Feb 2025: Eaton introduced its 9PXM modular UPS series featuring integrated lithium-ion battery technology and grid-interactive capabilities, targeting colocation and enterprise data center operators across North America and Europe.
• Jan 2025: ABB secured a contract to supply medium-voltage switchgear and transformer infrastructure for a 200 MW hyperscale data center campus in Northern Virginia, with commissioning scheduled for late 2026.
• Dec 2024: The European Union published implementing regulations under the revised Energy Efficiency Directive (2023/1791), establishing mandatory data center energy performance reporting requirements effective January 2025, directly affecting power infrastructure procurement specifications across EU member states.
• Nov 2024: Delta Electronics launched its Modulon DPH UPS series optimized for high-density AI deployments, available in modular configurations from 25 kW to 600 kW, targeting the Asia Pacific and European markets.
• Oct 2024: Caterpillar unveiled its XQ2000 mobile generator set with Tier 4 Final emissions compliance, specifically targeting large-scale data center backup power applications in emissions-regulated markets including California and the European Union.
• Sep 2024: Cummins and Schneider Electric announced a strategic collaboration on integrated generator-UPS solutions for mission-critical data center applications, combining Cummins' high-capacity generator platforms with Schneider's Galaxy UPS architecture.
• Aug 2024: GE Vernova commissioned a grid connection project for a 300 MW hyperscale data center campus in Texas, deploying advanced power conversion and grid stabilization equipment designed to support both renewable energy integration and sustained AI workload demand.
• Jul 2024: Siemens Energy announced the deployment of its SICAM power management platform across a portfolio of Nordic data center facilities, supporting renewable energy integration and PUE optimization targets under EU Energy Efficiency Directive requirements.
• Jun 2024: Huawei Digital Power Technologies launched its iPower AI-assisted data center power management solution across Southeast Asian markets, targeting cloud service providers and colocation operators in Singapore, Malaysia, and Indonesia.
• May 2024: Aggreko expanded its temporary power services portfolio for data center applications, introducing modular containerized generator and UPS units designed for rapid deployment to support data center construction timelines and planned maintenance outage scenarios.

Market Concentration Score

The data center power infrastructure market scores 6 out of 10 on the concentration scale reflecting moderate concentration, where the top five players (Schneider Electric, Eaton, Vertiv, Caterpillar, and Delta Electronics) collectively hold 48% of global market share with the market leader (Schneider Electric) commanding 10% individually, while the remaining 52% is distributed across 15+ regional and specialized competitors spanning diverse product categories including UPS, generators, switchgear, busway systems, and monitoring software.

The data center power infrastructure market research report includes in-depth coverage of the industry with estimates & forecast in terms of revenue (USD Billion) from 2022 to 2035, for the following segments:

Click here to Buy Section of this Report

Market, By Product

• Power distribution units
• Uninterruptible power supply systems
• Generators
• Transfer switches & switchgear
• Busways & cabling infrastructure
• Power monitoring & management software
• Others

Market, By Power

• ≤ 500 kW
• > 500 kW – 1 MW
• > 1 MW – 10 MW
• > 10 MW – 50 MW
• > 50 MW

Market, By Service

• Design & consulting
• Integration & deployment
• Maintenance & support services

Market, By End Use

• Cloud service providers
• BFSI
• IT & telecom
• Government & defense
• Healthcare
• Retail & E-commerce
• Manufacturing
• Utilities
• Others

Market, By Type

• Hyperscale data centers
• Colocation data centers
• Enterprise data centers
• Edge data centers
• Modular data centers

Market, By Installation

• New
• Retrofit

The above information has been provided for the following regions & countries:

• North America
  • U.S.
  • Canada
  • Mexico
• Europe
  • UK
  • Germany
  • France
  • Netherlands
  • Denmark
  • Sweden
  • Norway
  • Poland
  • Austria
  • Russia
• Asia Pacific
  • China
  • India
  • Japan
  • South Korea
  • Australia
  • Singapore
  • Indonesia
  • Malaysia
• Middle East & Africa
  • UAE
  • Saudia Arabia
  • South Africa
  • Nigeria
• Latin America
  • Brazil
  • Chile
  • Argentina