Transformerless UPS Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented, By Component Type (Rectifier & Inverter, Battery, PCB, Electromechanical, and Others), By Power (10-100 KVA, 101-250 KVA, More than 250 KVA), By End-User Industry (BFSI, Telecommunication, Government, Manufacturing, Transportation, Healthcare, and Others), By Region, By Competition, 2020-2030F

Market Overview

Global Transformerless UPS Market was valued at USD 2.04 Billion in 2024 and is expected to reach USD 4.03 Billion by 2030 with a CAGR of 11.87%. The Transformerless UPS (Uninterruptible Power Supply) Market refers to the segment of the power protection industry that focuses on the development, production, and deployment of UPS systems that operate without traditional bulky transformers. These systems use advanced power electronics to deliver reliable, efficient backup power solutions while significantly reducing size, weight, and energy losses.

Transformerless UPS solutions are designed to offer a compact, lightweight, and energy-efficient alternative to traditional transformer-based systems, making them highly suitable for a wide range of applications, including data centers, IT infrastructure, telecommunications, healthcare, industrial automation, and commercial buildings. Unlike conventional systems, transformerless UPS units offer higher efficiency—often above 95%—even at partial loads, which translates to lower operating costs, reduced heat generation, and improved overall system performance. Their modular design allows for scalability and flexibility, which is particularly valuable in dynamic environments that require adaptable power solutions.

Key Market Drivers

Growing Demand for Energy-Efficient Power Solutions

The global push toward energy efficiency and carbon reduction is a key driver for the transformerless UPS market, as industries, commercial facilities, and data centers are under increasing pressure to reduce energy consumption and environmental impact. Transformerless UPS systems are specifically designed to deliver high energy efficiency, often exceeding 96%, significantly outperforming traditional transformer-based UPS systems. These systems operate with reduced heat generation, lower power losses, and minimal footprint, which translates to lower operating costs and reduced cooling requirements.

As energy costs continue to rise and sustainability becomes a top strategic objective across sectors, businesses are looking to invest in technologies that can deliver operational savings while contributing to their environmental, social, and governance (ESG) goals. Transformerless UPS systems not only offer superior efficiency but also support features such as scalability, modularity, and intelligent monitoring, which align with the evolving needs of modern, energy-conscious facilities. Government regulations and green building codes are also pushing for more efficient power infrastructure, making transformerless UPS solutions more attractive in both new construction and retrofitting projects.

Additionally, the adoption of renewable energy sources, which often come with fluctuating power quality, has increased the demand for stable, efficient power backup systems. Transformerless UPS units offer rapid response and advanced voltage regulation capabilities that help maintain power continuity and quality in such environments. As a result, companies in critical sectors such as healthcare, telecommunications, finance, and manufacturing are increasingly integrating transformerless UPS systems into their energy management strategies. This growing preference for sustainable and high-efficiency backup power solutions is expected to drive long-term demand in the global transformerless UPS market. Over 65% of new industrial and commercial energy systems prioritize energy-efficient technologies. The global market for energy-efficient power solutions is expected to grow at a CAGR of 15–18% over the next five years. Energy-efficient upgrades can reduce power consumption by 20–40% in most industrial applications. More than 75 countries offer incentives or mandates for adopting energy-efficient power infrastructure. Nearly 50% of global electricity demand is projected to be met through energy-optimized systems by 2030. Adoption of energy-efficient solutions could reduce global carbon emissions by over 1 billion tons annually by 2030.

Expansion of Data Centers and Cloud Infrastructure

The rapid expansion of data centers and cloud infrastructure worldwide is creating robust demand for transformerless UPS systems, as these facilities require continuous, reliable, and scalable power protection solutions. Modern data centers are increasingly favoring modular, space-saving technologies that can support high-density computing environments while optimizing energy usage. Transformerless UPS units provide a compact footprint, higher power density, and better thermal performance compared to conventional systems, making them ideally suited for the physical and operational constraints of next-generation data centers. The surge in data consumption, driven by cloud services, IoT devices, 5G networks, and AI workloads, has led to unprecedented pressure on data center uptime and efficiency.

Transformerless UPS solutions offer real-time monitoring, seamless integration with facility management systems, and flexible scalability, allowing operators to match power capacity with dynamic computing demands. Moreover, hyperscale and colocation providers are seeking cost-effective, low-maintenance UPS technologies that support their global expansion goals. The minimal maintenance requirements and extended service life of transformerless systems contribute to lower total cost of ownership (TCO), which is a key purchasing criterion in the competitive data center market.

Furthermore, the increased focus on sustainability and green data centers has reinforced the shift toward highly efficient power backup systems. Transformerless UPS systems are well-positioned to meet the dual requirements of performance and environmental responsibility. With ongoing digital transformation across sectors—from e-commerce and finance to healthcare and education—the data center ecosystem is expected to grow steadily, thereby sustaining high demand for advanced, transformerless UPS solutions capable of meeting the evolving power reliability standards of modern IT infrastructure. Global data center capacity is expected to grow by over 20% annually through the next five years. More than 60% of global internet traffic is now processed through cloud infrastructure. The number of hyperscale data centers worldwide is projected to exceed 1,000 by 2026. Cloud infrastructure spending is increasing at a CAGR of over 15% globally. Data centers account for nearly 3% of total global electricity consumption. Over 80% of enterprises are expected to migrate to hybrid or fully cloud-based infrastructure by 2030. Investments in data center sustainability and efficiency are rising, exceeding $200 billion globally in recent years.

Rising Adoption of Industrial Automation and Smart Manufacturing

The rising adoption of industrial automation and smart manufacturing across the globe is significantly driving the demand for transformerless UPS systems. As industries increasingly rely on interconnected machines, robotics, and control systems to optimize production processes, the need for uninterrupted, clean, and efficient power becomes critical. Even brief power interruptions can disrupt operations, damage sensitive equipment, and lead to costly downtime in automated environments. Transformerless UPS systems provide high-speed switching and clean power delivery, ensuring that automation systems and industrial controllers remain stable and operational during voltage fluctuations or outages.

These systems also offer advanced communication interfaces, enabling integration with factory automation and monitoring platforms for real-time diagnostics and proactive maintenance. The compact design of transformerless UPS units allows for seamless integration into control panels, industrial cabinets, and constrained plant layouts. With the shift toward smart factories and Industry 4.0 initiatives, manufacturers are seeking power protection systems that not only ensure reliability but also enhance operational efficiency. The high efficiency of transformerless UPS units reduces energy consumption and cooling costs, which aligns with the lean and sustainable practices widely adopted in modern manufacturing.

Additionally, as industries adopt predictive maintenance and IoT-based monitoring, UPS systems are expected to be intelligent, networked, and capable of remote diagnostics—capabilities that are inherent in most transformerless models. The growth of high-tech industries such as electronics, automotive, pharmaceuticals, and food processing further boosts the need for high-availability power solutions. In these environments, quality and precision are paramount, and transformerless UPS systems provide the power stability required to maintain consistent production quality. This growing dependence on automation, coupled with the need for resilient and efficient power infrastructure, is expected to be a major catalyst for the growth of the transformerless UPS market globally.

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Key Market Challenges

Limited Load Compatibility and Performance Constraints in Certain Applications

One of the major challenges facing the transformerless UPS market is its limited compatibility with specific load types and performance constraints in demanding industrial environments. Transformerless UPS systems are primarily designed for modern, sensitive electronic equipment, such as those found in IT and data center infrastructures. However, in scenarios where nonlinear, inductive, or high-inrush current loads are involved—such as in manufacturing, heavy industry, or older infrastructure—the performance of transformerless UPS systems can be suboptimal.

These systems lack the galvanic isolation that transformer-based units provide, which can lead to issues with load fluctuations, electromagnetic interference, and harmonic distortion. Additionally, transformerless designs typically struggle to handle severe voltage sags or spikes without affecting connected equipment, especially in facilities where electrical disturbances are frequent or grid conditions are unstable. The absence of a built-in transformer also limits protection against common mode noise and high-voltage transients, making it harder for these systems to meet the reliability standards required in mission-critical or rugged industrial applications.

Furthermore, certain specialized equipment, such as motor-driven devices or legacy systems, often requires the voltage buffering and isolation that transformer-based systems inherently offer, which transformerless designs cannot adequately replicate. These performance gaps not only restrict the market's potential in industrial sectors but also raise concerns for users who prioritize load flexibility, robust protection, and high tolerance for voltage fluctuations. While the transformerless UPS systems are more compact, energy-efficient, and cost-effective in the long term, their inability to universally support a broad spectrum of loads reduces their adoption rate across diverse industry verticals.

Users in sectors such as oil and gas, transportation, power utilities, and chemical processing may continue to prefer traditional transformer-based UPS solutions due to their proven resilience, despite the trade-off in size, cost, and efficiency. To expand market penetration, manufacturers of transformerless UPS systems must invest in R&D to improve inverter control technologies, enhance power conditioning capabilities, and develop hybrid solutions that bridge the gap between high-performance protection and the compact benefits of transformerless designs. Until such technological advancements become widespread, the challenge of limited load compatibility will continue to hinder broader adoption in high-demand environments.

High Initial Cost and Market Awareness in Emerging Economies

Another significant challenge in the transformerless UPS market is the high initial capital expenditure and limited market awareness, particularly in emerging economies. While transformerless UPS systems are known for their energy efficiency, compact design, and reduced operational costs, the upfront investment required for procurement and installation remains a substantial barrier for small and medium-sized enterprises (SMEs) and institutions with limited budgets. This becomes especially problematic in price-sensitive markets across regions such as Africa, Southeast Asia, and parts of South America, where infrastructure investment often focuses on immediate cost savings rather than long-term efficiency gains.

In many of these regions, customers are more familiar with traditional transformer-based UPS systems and may lack technical awareness of the advantages offered by transformerless designs. The knowledge gap creates resistance to adopting newer technologies, even when they are more suitable in the long run. Additionally, installation of transformerless UPS systems may require specialized expertise for configuration, integration with existing power setups, and ongoing maintenance, which may not be readily available in all geographic areas. This increases the perceived cost and risk associated with transitioning to transformerless units. Compounding the issue is the lack of strong distribution networks and after-sales service infrastructure in several developing countries, which can deter buyers from committing to such investments.

Furthermore, inconsistent regulatory frameworks and limited governmental incentives for adopting energy-efficient technologies further slow the pace of adoption. In many cases, decision-makers in emerging markets prioritize immediate power backup functionality over energy optimization, which makes them lean toward more familiar and seemingly simpler transformer-based solutions. This challenge not only restricts market growth in regions with high potential for expansion but also places additional pressure on manufacturers to balance affordability with performance.

Without strategic awareness campaigns, localized support services, and pricing models tailored to the economic realities of emerging markets, transformerless UPS systems will struggle to gain widespread traction outside of developed economies. Overcoming this hurdle will require targeted education initiatives, public-private partnerships, and flexible financing options to bridge the adoption gap and unlock the market potential in cost-conscious regions.

Key Market Trends

Rising Adoption in Edge Computing & Data Centers

The demand for transformerless UPS is surging significantly as edge computing and modern data centers expand globally. These systems require high-efficiency, compact, and low-weight backup power solutions to support localized IT infrastructure, telecommunications equipment, and IoT gateways. Transformerless UPS designs, characterized by their smaller form factors and reduced electromagnetic interference, are ideally suited for high-density, space-constrained environments, making them a preferred option for edge computing nodes and satellite data closets.

Furthermore, with the rising integration of artificial intelligence, machine learning, and real-time analytics at the network edge, the need for redundant and resilient power backup grows, reinforcing transformerless UPS’s position due to its rapid response time, lower energy losses, and ability to maintain clean power quality. Additionally, operators are increasingly focused on minimizing operational expenditure (OPEX) and carbon footprints, making transformerless designs—with their improved energy efficiency, simplified thermal management, and elimination of massive magnetic cores—a more sustainable and cost-effective solution.

With the global trend toward decentralization, on-premises processing, and hybrid infrastructure models, transformerless UPS is solidifying its role as a foundational component that enables 24/7 uptime, minimized risk, and enhanced energy performance in edge-first and highly distributed computing landscapes.

Integration with Renewable Energy and Microgrid Systems

Transformerless UPS units are increasingly being integrated into renewable energy setups and microgrid systems designed for industrial sites, campuses, and remote locations. With renewable generation often subject to fluctuations, backup power is critical for maintaining stability and power quality. Transformerless UPS systems, boasting seamless switching, advanced power conditioning, and bi-directional power flow capability, play a pivotal role in smoothing out energy intermittency from solar panels, wind turbines, or battery storage arrays. Their compact design allows easier integration into inverters and hybrid power units, supporting efficient aggregation of clean energy sources with minimal losses.

As organizations push for carbon neutrality and resilience, these UPS units support islanded operation of microgrids during grid outages or low-availability scenarios. Demand is intensifying in regions investing in off-grid electrification—especially in rural areas, islands, and developing countries—where grid infrastructure is unreliable, making transformerless UPS a cornerstone technology. Moreover, this trend is fuelled by digital controls, smart meters, and robust grid management platforms requiring rapid response, scalable capacity, and intelligent diagnostics—features where transformerless UPS solutions excel.

Smart, IoT-Enabled UPS with Predictive Maintenance

The transformerless UPS market is witnessing a significant shift toward smart, IoT-enabled systems offering real-time monitoring, predictive analytics, and remote management capabilities. Modern mission-critical facilities—such as healthcare, financial services, and telecommunications—demand uninterrupted, high-quality power, and network-connectivity allows operators to anticipate and pre-empt component failures before they occur. Transformerless UPS units equipped with embedded sensors, cloud analytics, and secure connectivity channels can monitor battery health, temperature, load characteristics, and harmonic distortions, feeding this data into predictive maintenance platforms and generating alerts for proactive actions.

This shift prevents downtime by scheduling timely interventions, optimizing maintenance cycles, and extending service life while reducing service costs. The adoption of such smart UPS systems aligns with the broader Industry 4.0 agenda, embedding resilience into connected infrastructure and enabling energy managers to oversee multiple UPS units at remote sites from centralized dashboards. Integration with building management systems (BMS), DCIM (Data Center Infrastructure Management), and energy monitoring platforms further elevates the role of transformerless UPS as not just a backup power system, but a strategic asset that delivers visibility, automation, and reliability across the electrical estate.

Segmental Insights

Component Type Insights

The Rectifier & Inverter segment held the largest Market share in 2024. The Rectifier & Inverter segment plays a pivotal role in driving growth within the Transformerless UPS Market, largely due to increasing demand for high-efficiency, compact, and cost-effective power backup systems across critical sectors such as IT, telecommunications, healthcare, and manufacturing. Transformerless UPS systems rely heavily on advanced rectifier and inverter technologies to deliver seamless power conversion and higher energy efficiency, which significantly reduces energy losses and operating costs.

These systems eliminate the need for bulky transformers, making them lighter, more space-efficient, and easier to install, a key factor in modern applications where space optimization is crucial. Additionally, the rectifier and inverter components enable rapid switching and precise voltage regulation, which is essential for protecting sensitive electronic equipment from power fluctuations, surges, or outages. This has become increasingly important as organizations continue to rely on uninterrupted digital infrastructure and automated processes. The shift toward modular data centers, cloud computing, and edge computing environments has also contributed to the rising preference for transformerless UPS systems equipped with high-performance rectifier and inverter technologies, as they offer scalability and improved thermal management.

Furthermore, the rising cost of electricity and the growing emphasis on sustainability are pushing businesses to adopt energy-saving solutions, positioning rectifier and inverter advancements as critical enablers of low-loss UPS systems. The integration of power factor correction (PFC) and digital signal processing (DSP) into rectifiers and inverters further enhances system performance, reduces harmonic distortion, and improves power quality, aligning with global standards for energy efficiency and power reliability. As industries modernize and automate operations, the need for uninterrupted and clean power supply becomes paramount, making rectifier and inverter technology a core focus of innovation within the UPS landscape.

With industries such as oil & gas, pharmaceuticals, transportation, and banking increasingly demanding higher uptime and reliability, the Transformerless UPS market—particularly in the rectifier and inverter segment—is expected to experience robust growth. Additionally, the shift toward renewable energy integration and distributed energy systems is driving further demand for UPS systems capable of efficiently managing fluctuating input power, a challenge addressed effectively by advanced inverter technology. The ability of rectifiers and inverters to seamlessly integrate with lithium-ion batteries and smart energy management platforms also enhances the appeal of transformerless UPS systems in modern energy infrastructures.

Lastly, as manufacturers continue to invest in miniaturization, thermal control, and intelligent monitoring features, rectifier and inverter components are expected to become even more efficient, reliable, and adaptable to varying load conditions. These advancements will continue to push the boundaries of operational efficiency and system resilience, thereby solidifying the importance of the rectifier and inverter segment as a key driver in the ongoing evolution of the Transformerless UPS Market.

Power Insights

The 10-100 KVA segment held the largest Market share in 2024. The 10–100 kVA segment of the transformerless UPS (Uninterruptible Power Supply) market is experiencing robust growth, driven by a confluence of technological, operational, and economic factors that align with the evolving power backup needs of modern businesses. One of the key drivers is the increasing demand from small and medium-sized enterprises (SMEs), commercial buildings, edge data centers, and healthcare facilities, all of which require reliable and efficient power protection for mission-critical applications without the space and weight constraints associated with traditional transformer-based UPS systems. As the reliance on digital infrastructure grows, the need for uninterrupted power to support servers, medical equipment, telecommunications systems, and automation devices has become paramount.

Transformerless UPS systems in the 10–100 kVA range are ideally suited for these applications due to their compact design, high efficiency, and lower total cost of ownership. They offer excellent scalability, allowing businesses to expand backup capacity as needed, and their reduced footprint makes them suitable for facilities with limited installation space. Energy efficiency is another significant driver, as transformerless systems typically offer higher efficiency ratings—often above 96%—resulting in substantial energy savings over time. In a business environment increasingly focused on sustainability and carbon footprint reduction, these systems align well with organizational and regulatory goals. Moreover, the evolution of power electronics and control systems has enhanced the performance, reliability, and communication capabilities of these UPS units, enabling real-time monitoring, remote management, and predictive maintenance.

These features are particularly attractive to IT and facility managers looking to improve uptime and reduce operational risks. The rise of hybrid workplaces, remote operations, and the digital transformation of services has further elevated the importance of maintaining consistent and clean power across distributed infrastructures, where transformerless UPS systems in the mid-capacity range offer a perfect balance between performance and affordability. Additionally, growth in sectors such as banking, education, retail, and logistics is driving demand for backup systems that ensure business continuity and data integrity. Governments and regulatory bodies in various regions are also promoting the adoption of energy-efficient technologies, providing additional incentives for deploying transformerless UPS systems. The growing number of power outages, voltage fluctuations, and grid instabilities in developing countries further underscores the need for reliable backup solutions in this power range.

Furthermore, ongoing urbanization and smart city initiatives are creating opportunities for the deployment of intelligent UPS systems that support infrastructure resilience and digital integration. Overall, the 10–100 kVA segment of the transformerless UPS market is being propelled by a strong convergence of user demand for high performance, cost efficiency, and energy optimization, combined with advancements in product design and functionality. As industries across the board move toward more agile, decentralized, and technology-driven operations, transformerless UPS systems in this segment are poised to become a critical enabler of secure, continuous, and sustainable power supply.

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Regional Insights

Largest Region

The North America region held the largest market share in 2024. The Transformerless UPS market in North America is experiencing significant growth, driven by the region’s increasing reliance on high-efficiency, space-saving power protection solutions across diverse industries. One of the primary drivers is the rapid expansion of data centers, driven by escalating demand for cloud computing, edge computing, and AI-powered services. As digital infrastructure grows, the need for compact, energy-efficient, and reliable backup power systems has become critical. Transformerless UPS systems offer key advantages such as reduced footprint, lower weight, improved efficiency, and ease of maintenance compared to traditional transformer-based units, making them an ideal choice for modern data center environments.

Additionally, the North American commercial and industrial sectors are placing greater emphasis on energy optimization and carbon footprint reduction, in line with aggressive sustainability goals set by both government and private organizations. Transformerless UPS systems, with their high energy efficiency ratings and lower total cost of ownership, align well with these objectives, thereby increasing their adoption across commercial buildings, healthcare facilities, educational institutions, and financial services infrastructure. Furthermore, the growing integration of automation and digital control systems across manufacturing and industrial plants has heightened the need for stable and uninterrupted power supply, reinforcing demand for reliable UPS systems with advanced diagnostics and remote monitoring capabilities—features commonly available in transformerless UPS models.

North America’s strong focus on technological innovation and early adoption of smart grid and energy management technologies is also fueling market growth. With the rise in cybersecurity concerns and regulatory requirements surrounding data security and infrastructure uptime, enterprises are prioritizing investments in UPS systems that offer superior performance and compliance assurance. Transformerless UPS units are increasingly favored for their scalability and modularity, enabling flexible deployment in dynamic IT environments where power requirements can vary rapidly. Moreover, the resurgence in construction and modernization of commercial buildings across urban centers in the U.S. and Canada is contributing to increased installations of transformerless UPS systems as part of energy-efficient electrical infrastructure design.

Government initiatives promoting energy-efficient equipment and tax incentives for green building solutions are further boosting demand. In addition, the increasing frequency of extreme weather events and grid instabilities across North America has heightened awareness around the importance of resilient backup power solutions. This has led businesses and critical service providers to adopt transformerless UPS systems as a strategic response to mitigate operational risks and ensure business continuity.

Collectively, these factors—ranging from technological advancements and regulatory shifts to market demand for agility and sustainability—are reinforcing the strong upward trajectory of the transformerless UPS market in the North American region. As organizations continue to digitize and decentralize their operations, the need for reliable, efficient, and compact power protection systems will remain a key strategic focus, positioning transformerless UPS solutions as essential components of modern infrastructure development across sectors.

Emerging region:

South America is the emerging region in Transformerless UPS Market.  The Transformerless UPS market in the emerging South American region is gaining strong momentum, driven by the rising need for reliable and energy-efficient power backup solutions across critical infrastructure and industrial sectors. With the increasing frequency of power fluctuations and grid instability in several South American countries, organizations are prioritizing advanced uninterruptible power supply systems that ensure uninterrupted operations, reduce downtime, and protect sensitive electronic equipment.

Transformerless UPS systems are becoming the preferred choice due to their compact design, lower total cost of ownership, and enhanced energy efficiency compared to traditional transformer-based systems. This growing demand is particularly evident in sectors such as healthcare, telecommunications, banking and finance, and data centers, where continuous power availability is essential to ensure business continuity and regulatory compliance. Moreover, the expansion of digital services and cloud computing infrastructure across countries like Brazil, Argentina, Colombia, and Chile is further accelerating the adoption of high-performance UPS systems that support scalable, modular deployment.

As governments in the region promote investments in smart infrastructure, renewable energy integration, and digital transformation, the need for efficient and intelligent power protection solutions is expected to rise sharply. Transformerless UPS systems, with their lower heat generation, reduced maintenance requirements, and compatibility with energy-saving technologies, are well-aligned with the region’s sustainability and energy optimization goals. The increasing penetration of edge computing, e-commerce growth, and 5G network rollouts are also contributing to the expansion of distributed IT environments, creating additional demand for compact and efficient UPS solutions that can be deployed in remote and space-constrained locations.

Additionally, the ongoing industrial automation and modernization of manufacturing operations in South America are prompting industries to upgrade legacy power systems with advanced UPS technologies that offer better performance, real-time monitoring, and integration with smart energy management platforms. Local governments and private enterprises are also focusing on disaster preparedness and risk mitigation strategies due to vulnerabilities to natural disasters, further reinforcing the need for reliable power continuity. As power infrastructure in several parts of the region remains underdeveloped, transformerless UPS solutions offer a practical and scalable alternative to ensure critical systems remain operational during grid disturbances.

The growing awareness of the economic impact of power outages and equipment failures is prompting enterprises to invest in dependable power protection systems, particularly those that offer improved power factor, energy savings, and reduced footprint. With favorable market dynamics, cost efficiency, and rising technological adoption, the South American region presents a compelling growth opportunity for transformerless UPS providers. Companies that offer customized, modular, and environmentally friendly UPS solutions are well-positioned to capitalize on this demand as businesses and governments seek resilient, future-ready power infrastructure to support their long-term development and sustainability objectives.

Recent Developments

• In June 2025, Eaton and Siemens Energy announced a strategic partnership to deliver integrated 500 MW onsite power systems tailored for hyperscale and colocation data centers. The collaboration aims to streamline deployment by significantly reducing construction schedules—by up to two years—through modular and pre-engineered solutions. This alliance reflects a strong commitment to accelerating energy infrastructure timelines while supporting the increasing power demands of digital infrastructure globally.
• In May 2025, INVT received industry recognition at the IT Market Annual Conference for its UPS and Micro Modular Data Center solutions. These innovations highlight the company’s focus on edge-ready, compact, and scalable designs that meet the growing demand for decentralized computing infrastructure. The award underscores INVT's leadership in delivering reliable, high-performance systems tailored for modern data environments, where energy efficiency and rapid deployment are key requirements.
• In April 2025, KSTAR expanded its collaboration with Infineon Technologies to advance high-frequency UPS systems exceeding 98% efficiency. The joint effort aims to push power density benchmarks while minimizing energy losses in mission-critical environments. This strategic move highlights a shared focus on sustainability and high-performance UPS innovation, enabling customers to reduce operational costs and footprint while meeting the evolving energy demands of digital and industrial infrastructure.
• In March 2025, ZincFive released its annual Energy Storage Insights Report, revealing that 68% of industry professionals now deploy modular power solutions. This trend is attributed to the growing influence of AI-driven design, power density optimization, and sustainability targets in infrastructure planning. The report emphasizes a shift toward scalable, intelligent UPS systems that align with modern performance expectations, particularly in sectors such as data centers, healthcare, and industrial automation.

Key Market Players

• Schneider Electric SE
• Eaton Corporation plc
• Vertiv Holdings Co.
• ABB Ltd.
• Huawei Technologies Co., Ltd.
• Delta Electronics, Inc.
• Socomec Group S.A.
• Riello Elettronica S.p.A.
• CyberPower Systems, Inc.
• Emerson Electric Co.

Report Scope:

In this report, the Global Transformerless UPS Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• Transformerless UPS Market, By Component Type:

o   Rectifier & Inverter

o   Battery

o   PCB

o   Electromechanical

o   Others  

• Transformerless UPS Market, By Power:

o   10-100 KVA

o   101-250 KVA

o   More than 250 KVA  

• Transformerless UPS Market, By End-User Industry:

o   BFSI

o   Telecommunication

o   Government

o   Manufacturing

o   Transportation

o   Healthcare

o   Others  

• Transformerless UPS Market, By Region:

o   North America

§  United States

§  Canada

§  Mexico

o   Europe

§  France

§  United Kingdom

§  Italy

§  Germany

§  Spain

o   Asia-Pacific

§  China

§  India

§  Japan

§  Australia

§  South Korea

o   South America

§  Brazil

§  Argentina

§  Colombia

o   Middle East & Africa

§  South Africa

§  Saudi Arabia

§  UAE

§  Kuwait

§  Turkey

Competitive Landscape

Company Profiles: Detailed analysis of the major companies presents in the Global Transformerless UPS Market.

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Company Information

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