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Solid-state Transformers Market for US Data Centers by Semiconductor Device Type (SiC-based, GaN-based), Deployment Type (New Installation, Retrofit/Replacement), Power Rating (<1 MVA, >20 MVA), Data Center Type, and Application - Forecast to 2030
USD 0.15 BN
MARKET SIZE, 2030
OVERVIEW
The solid-state transformers market for US data centers is projected to reach USD 154.0 million by 2030 from USD 40.3 million in 2025, at a CAGR of 30.8% during the forecast period. The market is expected to grow steadily due to increasing investments in AI-driven hyperscale data centers, medium-voltage power distribution infrastructure, and high-density computing environments across the US. The growing deployment of liquid-cooled AI facilities, renewable-powered data center campuses, and battery energy storage systems is further accelerating the adoption of SST-based power architectures. Additionally, advancements in silicon carbide (SiC) and gallium nitride (GaN) semiconductor technologies are enabling compact, high-efficiency, and intelligent power conversion systems for next-generation AI and hyperscale data center infrastructure.
KEY TAKEAWAYS
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By Region
The South region is expected to account for the largest share of approximately 38–42% of the solid-state transformers market for US data centers during the forecast period. Growth is supported by the rapid expansion of hyperscale and AI-driven data center campuses across Texas, Virginia, Georgia, and North Carolina.
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By Power Rating
The 5–20 MVA segment is projected to account for the largest market share of approximately 44–48% due to increasing deployment of high-capacity power infrastructure for AI-driven hyperscale and liquid-cooled data center environments.
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By Voltage Level
The medium-voltage (1–35 kV) segment is expected to dominate the market with a share of approximately 68–72% due to the rising adoption of medium-voltage power distribution architectures across hyperscale and AI-focused data center facilities.
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By Semiconductor Device Type
The silicon carbide (SiC)-based SST segment is projected to register the highest CAGR during the forecast period due to its higher switching efficiency, lower power losses, and superior thermal performance in AI data center applications.
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By Deployment Type
The new installations segment is expected to account for the largest share of approximately 74–78% during the forecast period due to increasing construction of AI-focused hyperscale and colocation data center campuses across the US.
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By Application
The renewable integration segment is expected to dominate the market, with a share of approximately 34–38%, driven by the increasing deployment of renewable-powered data center campuses and battery energy storage systems for AI-driven infrastructure.
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By Data Center Type
The hyperscale segment is projected to account for the largest market share, approximately 58–62%, during the forecast period, driven by increasing investments in AI-driven computing infrastructure, high-density GPU clusters, and medium-voltage electrical systems.
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By Electrical Architecture
Fully DC architecture is expected to witness the highest CAGR during the forecast period due to rising demand for efficient direct power distribution and reduced conversion losses in AI-focused data center environments.
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Competitive Landscape
Key players in the solid-state transformers market for US data centers include Hitachi Energy, Eaton, DG Matrix, ABB, Schneider Electric, and Delta Electronics. These companies are focusing on medium-voltage power distribution, intelligent power management, and SST-enabled architectures for AI-driven hyperscale data centers.
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Competitive Landscape
Companies such as Heron Power, Amperesand Technologies, and GE Vernova are emerging participants in the market. These companies are advancing software-defined SST systems, high-efficiency power conversion technologies, and modular electrical infrastructure for AI-focused and renewable-integrated US data center environments.
The solid-state transformers industry for US data centers is witnessing strong growth driven by increasing investments in AI-driven hyperscale infrastructure, medium-voltage power distribution systems, and high-density computing environments. Growing deployment of GPU-intensive AI clusters and liquid-cooled data centers is accelerating demand for efficient and intelligent power conversion technologies. Additionally, the rising integration of renewable energy, battery energy storage systems, and grid-interactive power infrastructure is driving the adoption of SST-based architectures in modern US data center facilities. Advancements in silicon carbide (SiC) and gallium nitride (GaN) semiconductor technologies are further improving power density, energy efficiency, and operational reliability for next-generation AI data center power systems.

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
TRENDS & DISRUPTIONS IMPACTING CUSTOMERS' CUSTOMERS
Trends in AI-driven hyperscale expansion, medium-voltage power distribution adoption, renewable energy integration, and liquid-cooled data center deployment are reshaping the adoption of solid-state transformers across US data center infrastructure. Hyperscale operators, colocation providers, and AI data center developers are increasingly evaluating SST-based power conversion and intelligent energy management technologies to support high-density computing environments. These trends are accelerating demand for high-efficiency SST architectures across AI clusters, renewable-powered data center campuses, and grid-interactive facilities, enabling improved power efficiency, reduced electrical footprint, higher power density, and faster deployment of next-generation US data center infrastructure.

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
MARKET DYNAMICS
OPPORTUNITIES
Impact
Level
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Growing construction of AI-focused liquid-cooled data centers in US
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Rising deployment of grid-interactive US data center campuses
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
Increasing deployment of AI-driven hyperscale facilities across the US is accelerating demand for medium-voltage solid-state transformer architectures. SST systems support efficient medium-voltage power conversion, intelligent energy management, and reduced power conversion stages for high-density GPU clusters. These systems also help improve operational efficiency, reduce electrical losses, and optimize infrastructure footprint across large-scale AI data center campuses.
High deployment costs remain a major restraint for large-scale SST adoption across US data centers. SST systems require advanced power electronics, silicon carbide (SiC)-based semiconductor devices, digital control systems, and complex cooling infrastructure. Integration with existing data center electrical systems and backup infrastructure further increases implementation and engineering costs.
Growing construction of AI-focused liquid-cooled data centers in the US is creating significant opportunities for SST deployment. These facilities require compact, high-efficiency, and high-power-density electrical infrastructure to support continuous AI workloads. SST systems enable intelligent power routing, reduced conversion losses, and scalable medium-voltage distribution architectures for next-generation AI computing environments.
Maintaining voltage stability is a significant challenge in AI-driven hyperscale data centers due to rapidly changing computing loads. High-density GPU clusters create dynamic power demand fluctuations that require fast-response power conversion systems. SST platforms must support real-time voltage regulation, power quality management, and reliable continuous operation under high-load conditions.
US DATA CENTER TAM ASSESSMENT- SOLID-STATE TRANSFORMERS (SST): COMMERCIAL USE CASES ACROSS INDUSTRIES
| COMPANY | USE CASE DESCRIPTION | BENEFITS |
|---|---|---|
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Development of medium-voltage solid-state transformer solutions for AI-driven hyperscale and renewable-integrated data center campuses | Improved power efficiency | Intelligent energy management | Enhanced grid interaction capabilities |
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Deployment of SST-enabled medium-voltage power distribution systems for hyperscale and colocation data center infrastructure | Reduced power conversion losses | Improved infrastructure scalability | Enhanced operational reliability |
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Design of high-efficiency SST architectures for liquid-cooled AI data centers and high-density computing environments | Higher power density | Efficient AC/DC conversion | Optimized thermal performance |
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Deployment of multi-port SST platforms for intelligent power routing across AI data centers, battery storage systems, and renewable energy infrastructure | Intelligent power routing | Reduced electrical footprint | Faster deployment of modular power systems |
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Development of software-defined SST systems for medium-voltage AI data center power architectures | Fast voltage regulation | Improved power quality | Flexible power distribution |
Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.
MARKET ECOSYSTEM
The solid-state transformers market ecosystem for US data centers comprises semiconductor and power electronics component suppliers, SST manufacturers and technology developers, data center infrastructure providers, system integrators, utility companies, and end users. Semiconductor suppliers enable high-frequency power conversion through advanced wide bandgap devices such as silicon carbide (SiC) and gallium nitride (GaN). SST manufacturers develop intelligent medium-voltage transformer architectures and power conversion platforms for AI-driven and hyperscale data center applications. System integrators support deployment across hyperscale campuses, liquid-cooled AI facilities, renewable-powered data centers, and grid-interactive electrical infrastructure. End users, including hyperscale operators, colocation providers, cloud service companies, and enterprise data center operators, are driving adoption through investments in AI infrastructure, energy-efficient power systems, renewable integration, and advanced medium-voltage power distribution architectures.

Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.
MARKET SEGMENTS

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
The 5–20 MVA segment is expected to hold the largest share of the solid-state transformers market for US data centers due to increasing deployment across hyperscale and AI-driven facilities. Growing demand for high-capacity medium-voltage power infrastructure supporting GPU-intensive computing environments is accelerating the adoption of SST systems within this power range.
The medium-voltage (1–35 kV) segment is expected to hold the largest share and register the highest CAGR during the forecast period. Growth is driven by the increasing adoption of medium-voltage power distribution architectures across hyperscale and AI-focused data centers requiring efficient, compact, and scalable electrical infrastructure.
Silicon carbide (SiC)-based SSTs are expected to dominate the market due to their higher switching efficiency, superior thermal performance, and reduced power losses in high-density computing environments. SiC-based systems are increasingly preferred for AI-driven data centers requiring compact and energy-efficient medium-voltage power conversion.
New installations are expected to account for the largest share of the market due to rapid construction of hyperscale and liquid-cooled AI data center campuses across the US. New facilities are increasingly integrating intelligent SST-enabled medium-voltage power distribution systems from the initial infrastructure design stage.
The renewable integration segment is expected to hold the largest market share due to increasing deployment of renewable-powered hyperscale data center campuses across the US. Growing integration of solar power, battery energy storage systems, and grid-interactive energy infrastructure is accelerating the demand for intelligent SST-based power conversion systems.
The hyperscale segment is projected to register the highest CAGR during the forecast period due to increasing investments in AI-driven computing infrastructure and high-density GPU clusters. Hyperscale operators are focusing on advanced SST-enabled medium-voltage power systems to improve efficiency and scalability.
Fully DC architecture is expected to witness the highest CAGR during the forecast period due to increasing demand for efficient direct power distribution in AI and liquid-cooled data center environments. SST systems support efficient AC-to-DC conversion, lower conversion losses, and simplified power routing across high-density computing facilities.
REGION
South region is expected to register the highest CAGR in the solid-state transformers market for US data centers during the forecast period
The South region is expected to register the highest CAGR in the solid-state transformers market for US data centers during the forecast period. Growth is supported by increasing investments in AI-driven hyperscale facilities, medium-voltage power infrastructure, and renewable-powered data center campuses across states such as Texas, Virginia, Georgia, and North Carolina. The expanding deployment of high-density GPU clusters and liquid-cooled AI facilities is driving demand for efficient, intelligent SST-based power distribution systems across the region.

US DATA CENTER TAM ASSESSMENT- SOLID-STATE TRANSFORMERS (SST): COMPANY EVALUATION MATRIX
In the solid-state transformers market matrix for US data centers, Hitachi Energy is positioned as a Star, supported by its strong capabilities in medium-voltage power distribution, intelligent energy management, and advanced power electronics technologies for hyperscale infrastructure. DG Matrix is identified as an Emerging Leader, driven by its focus on multi-port SST platforms, software-defined power routing, and medium-voltage power conversion technologies for AI-driven and renewable-integrated US data center environments.

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
KEY MARKET PLAYERS
- Hitachi Energy (Switzerland)
- Eaton (Ireland)
- DG Matrix (US)
- Heron Power (US)
- Amperesand Pte Ltd (Singapore)
- ABB (Switzerland)
- Siemens (Germany)
- Schneider Electric (France)
- Delta Electronics (Taiwan)
- GE Vernova (US)
MARKET SCOPE
| REPORT METRIC | DETAILS |
|---|---|
| Market Size in 2024 (Value) | USD 31.3 Million |
| Market Forecast in 2030 (Value) | USD 154.0 Million |
| Growth Rate | 30.8% |
| Years Considered | 2023–2030 |
| Base Year | 2024 |
| Forecast Period | 2025–2030 |
| Units Considered | Value (USD Million/Billion) |
| Report Coverage | Revenue Forecast, Company Ranking, Competitive Landscape, Growth Factors, and Trends |
| Segments Covered |
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| Regions Covered | South, West, Midwest, and Northeast |
WHAT IS IN IT FOR YOU: US DATA CENTER TAM ASSESSMENT- SOLID-STATE TRANSFORMERS (SST) REPORT CONTENT GUIDE

DELIVERED CUSTOMIZATIONS
We have successfully delivered the following deep-dive customizations:
| CLIENT REQUEST | CUSTOMIZATION DELIVERED | VALUE ADDS |
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| Hyperscale Data Center Operator |
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| Colocation Data Center Provider |
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| AI Data Center Developer |
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| Utility/Grid Infrastructure Provider |
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| Renewable Energy & Microgrid Integrator |
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| UPS & Power Management Solution Provider |
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| Data Center EPC Company |
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| SST Manufacturer/Power Electronics Vendor |
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| Semiconductor Company (SiC/GaN) |
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| Cloud Service Provider |
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RECENT DEVELOPMENTS
- March 2026 : Hitachi Energy announced the development of next-generation medium-voltage solid-state transformer architectures for AI-driven hyperscale data centers in the US. The solution focuses on improving power efficiency, reducing conversion losses, and enabling intelligent integration of battery storage and renewable energy systems. The company is emphasizing modular SST platforms capable of supporting high-density GPU clusters and liquid-cooled AI infrastructure.
- February 2026 : DG Matrix secured strategic funding to accelerate the commercialization of its multi-port SST platform for US AI data centers. The investment supports manufacturing scale-up, the development of software-defined power routing, and the deployment of medium-voltage intelligent power conversion systems. The platform enables simultaneous integration of grid power, solar energy, battery storage, and backup generators within hyperscale facilities.
- November 2025 : Amperesand Technologies announced the expansion of its SST platform development for AI-focused US data center applications. The company is developing medium-voltage power conversion systems using silicon carbide (SiC)-based power electronics to support high-density computing environments. The platform is designed to improve power density, reduce conversion stages, and optimize energy delivery across hyperscale facilities.
- October 2025 : ABB partnered with US data center infrastructure providers to evaluate SST-enabled medium-voltage distribution architectures for next-generation AI facilities. The collaboration focuses on intelligent power flow management, renewable energy integration, and reduction of electrical losses in large-scale computing campuses.
- September 2025 : Schneider Electric initiated pilot programs for intelligent SST-integrated power management systems across hyperscale and colocation data centers in the US. The project emphasizes energy efficiency optimization, modular electrical infrastructure, and integration of battery storage and renewable power systems for AI-driven workloads.
Table of Contents
Exclusive indicates content/data unique to MarketsandMarkets and not available with any competitors.
4
MARKET OVERVIEW
5
INDUSTRY TRENDS
5.1
PORTER’S FIVE FORCES ANALYSIS
5.2
SUPPLY CHAIN ANALYSIS
5.5
KEY CONFERENCES AND EVENTS, 2026–2027
5.6
TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS
5.7
INVESTMENT AND FUNDING SCENARIO
6
TECHNOLOGICAL ADVANCEMENTS, PATENTS, INNOVATIONS, AND FUTURE APPLICATIONS
6.1
KEY EMERGING TECHNOLOGIES
6.2
COMPLEMENTARY TECHNOLOGIES
6.3
TECHNOLOGY/PRODUCT ROADMAP
6.6
IMPACT OF AI/GEN AI ON SOLID-STATE TRANSFORMERS MARKET FOR US DATA CENTERS
6.6.1
TOP USE CASES AND MARKET POTENTIAL
6.6.2
BEST PRACTICES IN SST DEPLOYMENT IN US HYPERSCALE DATA CENTERS
6.6.3
USE CASES OF AI-ENABLED POWER MANAGEMENT AND SST INTEGRATION IN US DATA CENTERS
6.6.4
INTERCONNECTED ADJACENT ECOSYSTEM AND IMPACT ON MARKET PLAYERS
6.6.5
READINESS OF US HYPERSCALE AND COLOCATION OPERATORS TO ADOPT SST-BASED POWER INFRASTRUCTURE
7
REGULATORY LANDSCAPE AND SUSTAINABILITY INITIATIVES
7.1
REGULATIONS AND COMPLIANCE
7.2
SUSTAINABILITY INITIATIVES BY HYPERSCALE AND COLOCATION DATA CENTER OPERATORS
7.3
IMPACT OF ENERGY EFFICIENCY POLICIES AND CARBON REDUCTION TARGETS ON SST ADOPTION
8
CUSTOMER LANDSCAPE & BUYER BEHAVIOR
8.1
DECISION-MAKING PROCESS
8.2
BUYER STAKEHOLDERS AND BUYING EVALUATION CRITERIA
8.3
ADOPTION BARRIERS & INTERNAL CHALLENGES
9
SOLID-STATE TRANSFORMERS MARKET FOR US DATA CENTERS, BY POWER RATING
10
SOLID-STATE TRANSFORMERS MARKET FOR US DATA CENTERS, BY VOLTAGE LEVEL
10.3
MEDIUM VOLTAGE (1–35 KV)
10.4
HIGH VOLTAGE (>35 KV)
11
SOLID-STATE TRANSFORMERS MARKET FOR US DATA CENTERS, BY SEMICONDUCTOR DEVICE TYPE
11.2
SILICON CARBIDE (SIC)-BASED SST
11.3
GALLIUM NITRIDE (GAN)-BASED SST
11.4
HYBRID SST (SIC+GAN)
12
SOLID-STATE TRANSFORMERS MARKET FOR US DATA CENTERS, BY DEPLOYMENT TYPE
12.3
RETROFIT/REPLACEMENT
13
SOLID-STATE TRANSFORMERS MARKET FOR US DATA CENTERS, BY DATA CENTER TYPE
14
SOLID-STATE TRANSFORMERS MARKET FOR US DATA CENTERS, BY ELECTRICAL ARCHITECTURE
14.2
AC-BASED ARCHITECTURE
14.3
HYBRID AC-DC ARCHITECTURE
14.4
FULLY DC ARCHITECTURE
15
SOLID-STATE TRANSFORMERS MARKET FOR US DATA CENTERS, BY APPLICATION
15.3
VOLTAGE CONVERSION/CONDITIONING
15.4
RENEWABLE INTEGRATION
16
SOLID-STATE TRANSFORMERS MARKET FOR US DATA CENTERS, BY REGION
17.2
KEY PLAYER COMPETITIVE STRATEGIES/RIGHT TO WIN
17.3
MARKET SHARE ANALYSIS,
17.4
COMPETITIVE SCENARIO
18.2.5
AMPERESAND PTE LTD
18.2.8
SCHNEIDER ELECTRIC
18.3.2
INFINEON TECHNOLOGIES AG
18.3.4
STMICROELECTRONICS
18.3.5
ROHM SEMICONDUCTOR
18.3.6
MITSUBISHI ELECTRIC
18.3.8
NAVITAS SEMICONDUCTOR
18.3.9
MICROCHIP TECHNOLOGY
18.3.11
VICOR CORPORATION
18.3.12
POWER INTEGRATIONS
18.3.13
TEXAS INSTRUMENTS
18.3.14
RESILIENT POWER SYSTEMS
19.1.1.1
KEY DATA FROM SECONDARY SOURCES
19.1.2.1
KEY DATA FROM PRIMARY SOURCES
19.1.2.2
KEY PRIMARY PARTICIPANTS
19.1.2.3
BREAKDOWN OF PRIMARY INTERVIEWS
19.1.2.4
KEY INDUSTRY INSIGHTS
19.2
MARKET SIZE ESTIMATION
19.2.1
BOTTOM-UP APPROACH
19.2.3
BASE NUMBER CALCULATION
19.4
RESEARCH ASSUMPTIONS
19.5
RESEARCH LIMITATIONS AND RISK ASSESSMENT
20.2
KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
20.3
CUSTOMIZATION OPTIONS
Methodology
The research study involved 4 major activities in estimating the size of the solid-state transformers market for US data centers. Exhaustive secondary research has been done to collect important information about the market, US hyperscale and colocation data center infrastructure, and peer markets. The validation of these findings, assumptions, and sizing was conducted with the help of primary research with industry experts across the US data center power infrastructure, power electronics, medium-voltage distribution, and energy management value chain. Both top-down and bottom-up approaches have been used to estimate the market size. Post which the market breakdown and data triangulation have been adopted to estimate the market sizes of segments and subsegments across US regions, data center types, deployment models, power ratings, semiconductor device types, and applications.
Secondary Research
In the secondary research process, various secondary sources have been referred to for identifying and collecting information required for this study. The secondary sources include annual reports, press releases, investor presentations of companies, white papers, and articles from recognized authors. Secondary research has been mainly done to obtain key information about the US data center power infrastructure ecosystem, adoption of solid-state transformer technologies in hyperscale and AI-driven facilities, key SST and power electronics vendors, market segmentation, technology trends, regional demand outlook, and developments across medium-voltage power distribution and intelligent energy management systems.
In the solid-state transformers market for US data centers, the global market size has been estimated using both the top-down and bottom-up approaches, along with several other dependent submarkets. The major players in the market were identified using extensive secondary research, and their presence in the US data center electrical infrastructure market was determined using secondary and primary research. All the percentage shares, splits, and breakdowns have been determined using secondary sources and verified through primary sources.
Primary Research
Extensive primary research has been conducted after understanding the solid-state transformers market scenario through secondary research. Several primary interviews have been conducted with key opinion leaders from both demand- and supply-side vendors across 4 major US regions—South, West, Midwest, and Northeast. Approximately 25% of the primary interviews have been conducted with the demand-side vendors and 75% with the supply-side vendors. Primary data has been collected mainly through telephone interviews, which consist of 80% of the total primary interviews; questionnaires and emails have also been used to collect the data.
After successful interaction with industry experts, brief sessions were conducted with highly experienced independent consultants to reinforce the findings of our primary research. This, along with the in-house subject-matter experts’ opinions, has led us to the findings as described in the report. The breakdown of primary respondents is as follows:

To know about the assumptions considered for the study, download the pdf brochure
Market Size Estimation
In the market engineering process, both top-down and bottom-up approaches, along with data triangulation methods, have been used to estimate and validate the size of the solid-state transformers market for US data centers and its dependent submarkets. The research methodology used to estimate the market sizes includes the following:
- Identifying top-line investments and spending across grid modernization, smart grid infrastructure, EV charging systems, renewable energy integration, and advanced power electronics ecosystems, while considering segment-level splits and major market developments
- Identifying top-line investments and spending across US hyperscale data center expansion, AI infrastructure deployment, medium-voltage power distribution systems, liquid-cooled data centers, renewable-powered facilities, and intelligent power management infrastructure, while considering segment-level splits and major market developments.
- Identifying different stakeholders in the US data center SST ecosystem, including hyperscale operators, colocation providers, medium-voltage equipment suppliers, SST developers, power electronics companies, utility providers, and energy infrastructure participants.
- Analyzing major companies in the US data center solid-state transformer ecosystem and studying their product portfolios, medium-voltage power conversion capabilities, AI data center infrastructure offerings, and R&D activities.
- Analyzing adoption trends of solid-state transformers across AI-driven hyperscale facilities, colocation data centers, liquid-cooled computing environments, modular data center campuses, and renewable-integrated data center infrastructure.
- Tracking recent and upcoming market developments, including AI data center investments, pilot SST deployments, medium-voltage electrical architecture developments, partnerships, technology collaborations, product launches, and expansion initiatives, and forecasting the market size based on these developments and other critical parameters.
- Conducting multiple discussions with key opinion leaders to understand adoption trends and technological developments related to solid-state transformers for the US data center power infrastructure.
- Segmenting the overall market into various segments, such as power rating, voltage level, semiconductor device type, deployment type, application, electrical architecture, data center type, and US regional markets.
- Validating the estimates at every level through discussions with key opinion leaders, such as chief executives (CXOs), directors, technology specialists, data center infrastructure managers, and domain experts at MarketsandMarkets.
US Data Center TAM Assessment- Solid-state Transformers (SST) : Top-Down and Bottom-Up Approach

Data Triangulation
After arriving at the overall market size using the market size estimation processes as explained above, the solid-state transformers market for US data centers has been split into several segments and subsegments. To complete the entire market engineering process and arrive at the exact statistics of each market segment and subsegment, data triangulation and market breakdown procedures have been employed, wherever applicable. The data has been triangulated by studying various factors and trends from the demand and supply sides in the solid-state transformer market for US data centers.
Market Definition
A solid-state transformer (SST) for US data centers is an advanced power conversion and distribution system that uses power electronics, high-frequency transformers, and digital control technologies to efficiently manage electricity flow across data center infrastructure. Unlike conventional transformers, SSTs enable intelligent medium-voltage power conversion, bidirectional power flow, fast voltage regulation, and real-time power management for high-density computing environments. These systems operate using high-frequency switching and wide bandgap semiconductor devices such as silicon carbide (SiC) and gallium nitride (GaN), enabling higher power density, improved energy efficiency, reduced electrical footprint, and lower power losses. In US data centers, SSTs are increasingly being evaluated for hyperscale facilities, AI-driven computing clusters, liquid-cooled data centers, renewable-integrated campuses, battery energy storage integration, and next-generation medium-voltage power distribution architectures.
Key Stakeholders
- SiC and GaN semiconductor manufacturers
- Power electronics module and high-frequency converter manufacturers
- SST manufacturers and technology developers for US data centers
- Medium-voltage power distribution equipment providers for data centers
- Data center electrical infrastructure and power management solution providers
- Hyperscale data center operators
- Colocation data center providers and developers
- AI data center infrastructure developers and integrators
- Battery energy storage system (BESS) providers for data center campuses
- Renewable energy integration and microgrid solution providers for data centers
- UPS, backup power, and intelligent energy management system providers
- Liquid-cooling and thermal management solution providers for AI data centers
- Utility companies supporting hyperscale and AI data center facilities
- Engineering, procurement, and construction (EPC) companies for US data center projects
- Research institutions and power electronics technology laboratories
- Government agencies, energy regulators, and industry standards organizations
- End users such as enterprise, hyperscale, and cloud service providers
Report Objectives
- To describe, segment, and forecast the size of the solid-state transformers market for US data centers, by power rating, voltage level, semiconductor device type, deployment type, data center type, electrical architecture, and application, in terms of value
- To forecast the size of various segments for four US regions: South, West, Midwest, and Northeast, in terms of value
- To offer detailed information on drivers, restraints, opportunities, and challenges influencing the growth of the solid-state transformers market for US data centers
- To provide a detailed overview of the solid-state transformers market for the US data center value chain
- To strategically analyze the micromarkets concerning individual growth trends, prospects, and contributions to the overall market
- To study industry trends, technological advancements, regulatory landscape, sustainability initiatives, and customer landscape & buyer behavior
- To analyze opportunities for various stakeholders by identifying the high-growth segments of the market
- To benchmark the key players and analyze their market position in terms of revenue, market share, and core competencies, and to provide a detailed competitive landscape for the market leaders
- To analyze competitive developments such as product launches, deals, and expansions carried out by players in the solid-state transformers market for US data centers
Available customizations:
With the given market data, MarketsandMarkets offers customizations according to the specific requirements of companies. The following customization options are available for the report:
- Detailed analysis and profiling of additional market players (up to 5)
Key Questions Addressed by the Report
The US data centers solid-state transformer market is projected to reach USD 154.0 million by 2030, growing from USD 40.3 million in 2025 at a CAGR of 30.8% during the forecast period.
Key contributing regions include major US data center clusters such as Northern Virginia, Texas, California, Oregon, and Arizona, supported by rapid hyperscale data center development and grid modernization initiatives.
The key segments of the US data centers solid-state transformer market include voltage level, component, application, and data center type including hyperscale, colocation, and enterprise data centers.
The hyperscale data center segment holds a significant share, while high-voltage applications are expected to witness the fastest growth due to increasing power density requirements and the need for efficient power conversion solutions in next-generation data centers.
Key players operating in the US data centers solid-state transformer market include Hitachi Energy Ltd., Siemens AG, Schneider Electric SE, ABB Ltd., Eaton Corporation, General Electric, Mitsubishi Electric Corporation, and Varentec, Inc., reflecting a competitive and technology-driven landscape.
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Nikon Corporation,
Leading Japanese MNC specializing in optics and imaging products
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