Global Silicon IGBT Market Report

The global Silicon IGBT market is forecasted to grow at a noteworthy CAGR of 10.86% between 2025 and 2033. By 2033, market size is expected to surge to USD 9.87 Billion, a substantial rise from the USD 3.9 Billion recorded in 2024.

Silicon IGBT Market Size and Forecast 2025 to 2033

The Silicon IGBT (Insulated Gate Bipolar Transistor) market is experiencing robust growth, primarily driven by the escalating demand for energy-efficient power conversion solutions across various industries. The global push towards decarbonization and sustainable energy sources is a significant catalyst, with IGBTs playing a crucial role in renewable energy systems such as solar inverters and wind turbine converters. Furthermore, the burgeoning electric vehicle (EV) sector is a pivotal driver, as IGBTs are integral components in EV powertrains, enabling efficient power management for motors and charging infrastructure. This rapid expansion of electric mobility, coupled with increasing investments in smart grids and industrial automation, fuels the demand for reliable and high-performance power semiconductors.

Market opportunities are abundant, stemming from the continuous evolution of power electronics and the expanding scope of applications. The integration of artificial intelligence and the Internet of Things (IoT) into industrial processes and smart homes presents new avenues for IGBT deployment in sophisticated power control systems. The development of advanced packaging technologies and wide bandgap materials, while not replacing silicon entirely, pushes the boundaries of silicon IGBT performance, offering opportunities for enhanced efficiency and power density. Moreover, the modernization of existing industrial infrastructure and grid expansion projects in developing economies offer significant potential for increased adoption of IGBT-based solutions, particularly in motor drives and power supply units.

Market Dynamics

Silicon IGBT Market Drivers

• Rising Adoption of Electric Vehicles (EVs): The global transition towards electric mobility is a primary driver for the Silicon IGBT market. As governments and environmental agencies worldwide implement stricter emission regulations, the production and adoption of electric vehicles are accelerating. According to the International Energy Agency (IEA), global EV sales reached over 10 million in 2023, representing a significant portion of all car sales. This substantial increase in EV deployment directly translates to a heightened demand for Silicon IGBTs, which are essential components in EV powertrains, including traction inverters, DC-DC converters, and onboard chargers. The power management requirements of these systems necessitate high-efficiency and reliable power semiconductors to optimize battery life and vehicle performance, a role perfectly suited for advanced IGBT technology.
• Expansion of Renewable Energy Infrastructure: The growing emphasis on sustainable energy sources, particularly solar and wind power, is propelling the demand for Silicon IGBTs. These devices are critical for efficient power conversion in renewable energy systems. The U.S. Energy Information Administration (EIA) reported that renewable energy sources accounted for approximately 21% of U.S. electricity generation in 2023, with projections for continued growth. IGBTs are integral to solar inverters, which convert DC power from solar panels into usable AC power, and in wind turbine converters, where they manage variable power output and grid integration. The increasing global investment in large-scale renewable energy projects and distributed generation systems directly fuels the need for high-performance and robust IGBTs.
• Advancements in Industrial Automation and Motor Drives: The ongoing trend of industrial automation and the increasing deployment of variable frequency drives (VFDs) in industrial motors are significant drivers for the Silicon IGBT market. According to the U.S. Department of Energy, industrial motor-driven systems consume a substantial portion of global electricity, and VFDs, which rely heavily on IGBTs, can significantly improve energy efficiency. The adoption of smart manufacturing processes and Industry 4.0 initiatives necessitates precise control over industrial machinery, making IGBTs crucial for efficient and reliable motor control, robotics, and other automated systems. The demand for higher efficiency and lower power consumption in industrial applications continues to push the integration of advanced IGBT solutions.
• Growing Demand for Energy-Efficient Power Supplies: The global imperative to reduce energy consumption across various sectors is driving the demand for more efficient power supply units, where Silicon IGBTs play a vital role. From consumer electronics to data centers and telecommunications infrastructure, there is a consistent need for power supplies that minimize energy loss. The U.S. Environmental Protection Agency (EPA) emphasizes the importance of energy-efficient power supplies in reducing carbon footprints and operational costs. IGBTs enable the design of highly efficient switch-mode power supplies (SMPS) by offering excellent switching characteristics and low conduction losses. As electronic devices become more sophisticated and power consumption remains a concern, the adoption of IGBTs in these critical components will continue to expand.

Silicon IGBT Market Opportunities

• Emergence of Smart Grids and Grid Modernization: The global transition towards smart grids and the ongoing modernization of existing electrical infrastructure present significant opportunities for Silicon IGBTs. As the grid incorporates more distributed renewable energy sources and necessitates more dynamic power flow management, the demand for advanced power electronics, including IGBTs, intensifies. These devices are crucial for power quality enhancement, fault protection, and efficient integration of renewable energy into the grid. The International Renewable Energy Agency (IRENA) highlights the need for modernized grid infrastructure to support a higher penetration of renewables, creating a substantial market for reliable power conversion technologies like IGBTs.
• Growth in High-Power Industrial Applications: The increasing sophistication and power requirements of various industrial applications offer a substantial market opportunity for Silicon IGBTs. This includes heavy machinery, induction heating, welding equipment, and large-scale power conversion systems. The drive for higher efficiency and robust performance in these demanding environments necessitates the use of advanced power semiconductors. The U.S. Department of Commerce emphasizes the continued investment in industrial infrastructure and manufacturing capabilities, which in turn drives the demand for high-power electronic components. As industries seek to optimize operational efficiency and reduce energy waste, the adoption of high-power IGBT modules will continue to expand.
• Advancements in Consumer Electronics and Home Appliances: The continuous innovation in consumer electronics and the increasing adoption of energy-efficient home appliances create a steady stream of opportunities for Silicon IGBTs. From inverter air conditioners and washing machines to induction cooktops and power tools, IGBTs enable precise power control, enhanced efficiency, and quieter operation. The U.S. Environmental Protection Agency's ENERGY STAR program, which promotes energy efficiency in consumer products, influences manufacturers to incorporate more advanced power management solutions. As consumers increasingly prioritize energy savings and performance in their electronic devices, the integration of compact and efficient IGBTs into these products will continue to grow.
• Expansion of Data Centers and Cloud Computing Infrastructure: The exponential growth of data centers and cloud computing services globally presents a significant and expanding opportunity for Silicon IGBTs. These facilities require massive amounts of reliable and efficient power to operate servers, cooling systems, and other critical infrastructure. The U.S. Department of Energy highlights the substantial energy consumption of data centers and the continuous efforts to improve their energy efficiency. IGBTs are crucial components in uninterruptible power supply (UPS) systems, power distribution units (PDUs), and server power supplies within data centers, ensuring stable and uninterrupted power delivery while minimizing energy losses.

Silicon IGBT Market Restrain & Challenges

• Competition from Wide Bandgap (WBG) Semiconductors: The emergence and increasing adoption of wide bandgap (WBG) semiconductors, particularly Silicon Carbide (SiC) and Gallium Nitride (GaN), pose a significant challenge to the Silicon IGBT market. While Silicon IGBTs remain cost-effective and robust for many applications, WBG devices offer superior performance characteristics, including higher switching frequencies, lower switching losses, and better thermal performance, especially in high-voltage and high-frequency applications. The U.S. Department of Energy actively supports research and development in WBG technologies due to their potential for substantial energy savings. This competitive pressure necessitates continuous innovation in silicon-based IGBT technology to maintain its market position in certain segments.
• Raw Material Price Volatility: The Silicon IGBT market can be susceptible to fluctuations in the prices of raw materials, particularly silicon and other metals used in their manufacturing. Global supply chain disruptions and geopolitical events can impact the availability and cost of these essential components, leading to increased production costs and potential challenges for market stability. The U.S. Geological Survey (USGS) provides data on mineral commodity summaries, indicating price volatility for various materials critical to semiconductor manufacturing. Such volatility can create uncertainty for manufacturers and impact the overall profitability of the Silicon IGBT market, requiring agile supply chain management and strategic sourcing.
• Complex Manufacturing Processes: The production of Silicon IGBTs involves highly complex and capital-intensive manufacturing processes, including wafer fabrication, etching, and packaging. These intricate procedures demand significant investment in specialized equipment and highly skilled personnel. The U.S. Department of Commerce emphasizes the critical role of advanced manufacturing capabilities in the semiconductor industry. Maintaining these complex processes while striving for cost efficiency and high yields can be a significant challenge for manufacturers. Any disruptions in the manufacturing pipeline, such as equipment failures or skill shortages, can impact production volumes and timely market delivery.
• Thermal Management Challenges in High-Power Applications: As Silicon IGBTs are increasingly deployed in high-power and high-density applications, managing the heat generated during operation becomes a significant challenge. Excessive heat can degrade performance, reduce reliability, and shorten the lifespan of the device. Effective thermal management solutions, such as advanced cooling techniques and packaging designs, are crucial but can add to the overall system cost and complexity. The National Institute of Standards and Technology (NIST) conducts research on thermal management in electronics, highlighting the ongoing challenges in dissipating heat efficiently. Overcoming these thermal limitations is essential for expanding the applicability of Silicon IGBTs in demanding environments.

Current Trends in the Silicon IGBT Market

• Development of Field Stop Trench (FST) IGBT Technology: A significant trend in the Silicon IGBT market is the continued development and adoption of Field Stop Trench (FST) IGBT technology. This architectural innovation allows for a thinner silicon wafer, leading to lower conduction losses and improved switching performance compared to older planar or non-punch-through IGBTs. The U.S. Department of Energy frequently highlights advancements in power semiconductor designs aimed at enhancing energy efficiency. FST IGBTs offer a superior trade-off between conduction and switching losses, making them highly attractive for a wide range of applications, including motor drives, renewable energy inverters, and power supplies, where both efficiency and power density are critical.
• Integration of Advanced Packaging Technologies: The Silicon IGBT market is witnessing a strong trend towards integrating advanced packaging technologies to enhance performance, reliability, and power density. Innovations such as solderless connections, sintered silver die attach, and transfer molded packages are gaining traction. These packaging solutions contribute to better thermal management, reduced parasitic inductances, and improved power cycling capability. The National Institute of Standards and Technology (NIST) frequently researches and promotes advanced packaging techniques for their impact on overall semiconductor performance and reliability. Such advancements allow for smaller, more robust, and more efficient IGBT modules, catering to the increasing demand for miniaturization and enhanced system integration.
• Focus on Higher Voltage and Current Ratings: There is a discernible trend in the Silicon IGBT market towards developing devices with increasingly higher voltage and current ratings to meet the demands of high-power applications. This includes high-voltage DC (HVDC) transmission, railway traction, and large industrial motor drives. The U.S. Department of Energy emphasizes the critical role of high-power electronics in modernizing electrical grids and industrial infrastructure. Manufacturers are continuously pushing the boundaries of silicon technology to achieve greater power handling capabilities while maintaining efficiency and reliability, enabling IGBTs to be utilized in even more demanding and critical power conversion scenarios.
• Emphasis on Enhanced Reliability and Lifetime: With the increasing deployment of Silicon IGBTs in critical applications such as electric vehicles, renewable energy systems, and industrial equipment, there is a strong emphasis on enhancing device reliability and extending its operational lifetime. This involves improvements in manufacturing processes, material quality, and rigorous testing methodologies. The National Renewable Energy Laboratory (NREL) frequently conducts studies on the long-term reliability of power electronics components in renewable energy systems. Manufacturers are focusing on reducing failure rates, improving robustness against transient events, and ensuring consistent performance over extended periods, which is vital for the long-term viability and trust in IGBT-based systems.

Segmentation Insights

Silicon IGBT market Analysis, By End-Use Industry

By End-Use Industry, the market is categorized into Automotive, Consumer Electronics, Renewable Energy, Industrial Equipment, Telecommunications.

• The largest segment in the Silicon IGBT market by end-use industry is Industrial Equipment. This dominance is attributed to the pervasive use of IGBTs across a vast array of industrial applications, including motor drives, uninterruptible power supplies (UPS), welding equipment, induction heating, and industrial automation systems. The relentless pursuit of energy efficiency and enhanced productivity in manufacturing and processing industries drives the widespread adoption of IGBT-based solutions. These devices enable precise control of machinery, reduce energy consumption, and improve system reliability, which are critical factors for industrial operations. The sheer volume and diversity of industrial applications provide a robust and consistent demand for silicon IGBTs.
• The fastest-growing segment in the Silicon IGBT market by end-use industry is Automotive. This rapid growth is primarily fueled by the accelerating global transition towards electric vehicles (EVs) and hybrid electric vehicles (HEVs). Silicon IGBTs are fundamental components in EV powertrains, particularly in traction inverters, which convert DC power from the battery into AC power for the electric motor, and in on-board chargers. The stringent requirements for power density, efficiency, and reliability in automotive applications are met by advanced IGBT technology. As governments worldwide promote electric mobility through incentives and regulations, the production and sales of EVs are surging, directly translating to an unprecedented demand for automotive-grade silicon IGBTs.

Silicon IGBT market Analysis, By Voltage Rating

By Voltage Rating Type, the market is categorized into Low Voltage (up to 600V), Medium Voltage (600V - 1700V), and High Voltage (above 1700V).

• The largest segment in the Silicon IGBT market by voltage rating is Medium Voltage (600V - 1700V). This segment's dominance is largely due to its broad applicability across a diverse range of industrial and commercial sectors. Medium voltage IGBTs are ideally suited for motor drives in industrial machinery, power supplies for various equipment, and renewable energy inverters, such as those used in solar and wind power systems. This voltage range offers an optimal balance between efficiency, cost-effectiveness, and robust performance for the majority of power conversion applications. The widespread adoption of these voltage levels in industrial automation, HVAC systems, and some electric vehicle components significantly contributes to its leading position.
• The fastest-growing segment in the Silicon IGBT market by voltage rating is High Voltage (above 1700V). This rapid growth is primarily driven by the increasing demand for high-power applications in sectors such as electric vehicle charging infrastructure, railway traction systems, high-voltage direct current (HVDC) transmission, and large-scale renewable energy installations. As the world moves towards higher power density and more efficient energy transmission over longer distances, the need for robust and reliable high-voltage power semiconductors becomes critical. The expansion of electric vehicle fast-charging networks and the continued development of smart grids, which require sophisticated power management at higher voltages, are key factors propelling the rapid growth of this segment.

Silicon IGBT market Analysis, By Packaging Type

By Packaging Type, the market is categorized into Discrete IGBTs, IGBT Modules, Integrated Circuit IGBTs.

• The largest segment in the Silicon IGBT market by packaging type is IGBT Modules. This segment holds the leading position due to the increasing demand for compact, high-power density, and integrated power solutions across various industries. IGBT modules typically integrate multiple IGBTs, diodes, and sometimes even control circuitry into a single package, offering superior thermal management, reduced parasitic inductances, and simplified system design compared to discrete components. Their robust nature and ease of assembly make them highly preferred in applications such as motor drives, renewable energy inverters, and electric vehicle powertrains, where space constraints and performance are critical.
• The fastest-growing segment in the Silicon IGBT market by packaging type is Integrated Circuit IGBTs. This rapid growth is driven by the increasing demand for highly integrated and miniaturized power solutions, particularly in consumer electronics, automotive applications, and specialized industrial equipment. Integrated Circuit IGBTs combine the IGBT with other control and protection circuitry on a single chip, leading to significantly reduced component count, smaller footprint, and enhanced overall system reliability. As electronic devices become more compact and sophisticated, the ability to integrate more functionality into a single package offers substantial advantages in terms of design complexity, cost, and performance, thus accelerating the adoption of this packaging type.

Silicon IGBT market Analysis, By Application

By Application Type, the market is categorized into Motor Drives, Power Supplies, HVAC Systems, Electric Vehicles, UPS Systems.

• The largest segment in the Silicon IGBT market by application is Motor Drives. This segment's dominance is attributable to the pervasive use of electric motors across nearly every industrial sector and the increasing global emphasis on energy efficiency. Silicon IGBTs are crucial components in variable frequency drives (VFDs), which regulate the speed and torque of AC motors, leading to substantial energy savings and precise control. From industrial automation and manufacturing to pumps, fans, and compressors, motor drives represent a vast and continuously expanding application area for IGBTs, driving significant demand for these power semiconductors. The ongoing modernization of industrial infrastructure further solidifies its leading position.
• The fastest-growing segment in the Silicon IGBT market by application is Electric Vehicles. This rapid growth is propelled by the global shift towards sustainable transportation and the accelerating adoption of electric vehicles (EVs) and hybrid electric vehicles (HEVs). Silicon IGBTs are fundamental to the efficient operation of EV powertrains, including traction inverters, DC-DC converters, and on-board chargers. As EV production continues to surge worldwide due to environmental regulations and consumer demand, the need for high-performance, reliable, and compact power semiconductors for these vehicles has escalated dramatically. The continuous innovation in EV technology, aiming for longer ranges and faster charging, further fuels the rapid expansion of this application segment.

Silicon IGBT market Analysis, By Technology

By Technology Type, the market is categorized into Standard IGBT Technology, Fast Recovery IGBT Technology, High-Speed IGBT Technology.

• The largest segment in the Silicon IGBT market by technology is Standard IGBT Technology. This segment continues to hold the largest share due to its established presence, cost-effectiveness, and proven reliability across a vast array of general-purpose power conversion applications. Standard IGBTs offer a balanced performance profile suitable for many industrial motor drives, power supplies, and consumer electronics where extreme switching speeds are not the primary requirement. Their maturity in manufacturing processes and widespread adoption in existing infrastructure contribute to their leading position. They provide a robust and economical solution for numerous applications, making them a foundational component in the power electronics landscape.
• The fastest-growing segment in the Silicon IGBT market by technology is Fast Recovery IGBT Technology. This rapid growth is driven by the increasing demand for higher efficiency and lower switching losses in applications that require faster switching frequencies, such as renewable energy inverters, electric vehicle charging systems, and certain types of power supplies. Fast Recovery IGBTs are designed with optimized reverse recovery characteristics for their integrated diodes, which significantly reduces power losses during switching transitions. As systems become more compact and operate at higher frequencies to achieve greater power density and efficiency, the demand for IGBTs with superior fast recovery characteristics is accelerating, driving the growth of this segment.

Silicon IGBT Market Regional Insights

The market has been geographically analysed across five regions, Europe, North America, Asia Pacific, Latin America, and the Middle East & Africa.

• The largest region in the Silicon IGBT market is Asia-Pacific. This region's dominance is primarily attributed to its robust manufacturing base, particularly in electronics, automotive, and industrial equipment. Countries like China, Japan, South Korea, and Taiwan are major hubs for semiconductor production and innovation, driving significant demand for silicon IGBTs in domestic industries and for export. The rapid industrialization, burgeoning electric vehicle production, and substantial investments in renewable energy projects across the region further fuel the widespread adoption of these power semiconductors. Additionally, the increasing disposable income and growing consumer electronics market contribute to the sustained demand for IGBT-enabled products.
• The fastest-growing region in the Silicon IGBT market is also Asia-Pacific. This accelerated growth is driven by the region's aggressive adoption of electric vehicles, ambitious renewable energy targets, and continuous expansion of industrial automation. Countries like China and India are making substantial investments in EV manufacturing and charging infrastructure, directly leading to a surge in demand for automotive-grade IGBTs. Furthermore, the massive deployment of solar and wind power projects across the region necessitates a high volume of IGBTs for inverters and converters. The ongoing push for smart manufacturing and the rapid digitalization of various sectors in Asia-Pacific continue to fuel the demand for advanced power semiconductors, positioning it as the fastest-growing market.

Silicon IGBT Market Competitive Overview

The Silicon IGBT market is characterized by a high degree of competition, with several established players vying for market share through continuous innovation, strategic partnerships, and expansion into emerging applications. Key participants are focused on developing advanced IGBT technologies that offer superior performance in terms of efficiency, power density, and reliability to meet the evolving demands of various end-use industries, including automotive, renewable energy, and industrial equipment. Companies are investing heavily in research and development to introduce next-generation products with improved switching characteristics and thermal management capabilities. The competitive landscape also sees players diversifying their product portfolios and enhancing their global distribution networks to capitalize on growth opportunities in rapidly expanding markets. Strategic alliances and mergers and acquisitions are also common tactics employed by market players to strengthen their positions and expand their technological capabilities.

Leading Market Players in the Silicon IGBT Market

• Infineon: Infineon is a preeminent global leader in the power semiconductor market, and its position in the Silicon IGBT sector is particularly strong. The company offers a comprehensive portfolio of IGBT solutions, ranging from discrete devices to highly integrated modules, catering to a wide array of applications including automotive, industrial, and consumer electronics. Infineon is renowned for its continuous innovation in IGBT technology, consistently introducing products that push the boundaries of efficiency, power density, and reliability. Their strong focus on research and development, coupled with extensive manufacturing capabilities and a global presence, allows them to serve diverse customer needs and maintain a leading edge in the competitive market.
• ON Semiconductor: ON Semiconductor is a prominent provider of a broad range of power management and sensing solutions, with a significant presence in the Silicon IGBT market. The company offers a robust portfolio of IGBTs designed for various applications, including automotive electrification, industrial automation, and power supplies. ON Semiconductor emphasizes the development of high-performance and energy-efficient IGBTs, contributing to power savings and enhanced system reliability for their customers. Their strategic focus on innovation, coupled with a strong commitment to sustainable manufacturing practices, enables them to deliver solutions that meet the demanding requirements of modern electronic systems across global markets.
• STMicroelectronics: STMicroelectronics is a leading global semiconductor company that plays a crucial role in the Silicon IGBT market, offering a wide array of power management solutions. The company's IGBT portfolio is designed to address the needs of diverse applications, including motor control, industrial power conversion, and automotive systems. STMicroelectronics is known for its commitment to developing innovative IGBT technologies that provide high efficiency, robustness, and reliability. Their comprehensive product offering, coupled with a strong focus on customer collaboration and a global manufacturing footprint, allows them to effectively serve a broad customer base and contribute significantly to advancements in power electronics.

Top Strategies Followed by Players

• Strategic Acquisitions and Partnerships: A key strategy employed by leading players in the Silicon IGBT market involves strategic acquisitions and forging partnerships to expand their technological capabilities, product portfolios, and market reach. For instance, according to data from various industry analyses, there has been a noticeable increase in collaborations between established semiconductor companies and specialized power electronics firms. These alliances allow for the sharing of expertise in areas like advanced material science and novel packaging techniques, accelerating the development of next-generation IGBT solutions. Acquisitions, on the other hand, often enable companies to quickly integrate new technologies, secure supply chains, or gain access to new customer segments, thereby strengthening their competitive position and overall market influence.
• Investment in Research and Development for Enhanced Performance: Leading players are heavily investing in research and development (R&D) to continuously improve the performance characteristics of their Silicon IGBTs. This includes focusing on higher efficiency, lower power losses, increased power density, and enhanced reliability. According to reports from the U.S. Patent and Trademark Office, the number of patents filed related to IGBT designs and manufacturing processes has consistently increased over the past decade, indicating robust R&D activity. Companies are exploring new device architectures, such as Field Stop Trench (FST) technology, and optimizing doping profiles to achieve superior switching speeds and breakdown voltages. This commitment to innovation is crucial for staying competitive and addressing the evolving demands of applications like electric vehicles and renewable energy.
• Expansion into Emerging and High-Growth Applications: Another significant strategy adopted by market players is to actively expand their presence and tailor their product offerings for emerging and high-growth applications. This includes a particular focus on the electric vehicle (EV) sector, renewable energy systems, and advanced industrial automation. For instance, according to data from the International Energy Agency (IEA), global EV sales have seen exponential growth, prompting IGBT manufacturers to develop specialized, automotive-grade solutions that meet stringent reliability and performance standards. Similarly, the global push towards decarbonization and sustainable energy sources, as highlighted by the International Renewable Energy Agency (IRENA), has led companies to design IGBTs optimized for solar inverters and wind turbine converters, capitalizing on these rapidly expanding market segments.

List of Companies Profiled in the Report are:

• Infineon
• ON Semiconductor
• STMicroelectronics
• Mitsubishi
• Rohm
• Fuji Electric
• SEMIKRON
• Hitachi
• ABB
• IXYS Corporation
• Starpower Semiconductor.

Global Silicon IGBT Market Report: Scope

List of Segments Covered

This section of the Silicon IGBT market report provides detailed data on the segments at country and regional level, thereby assisting the strategist in identifying the target demographics for the respective product or services with the upcoming opportunities.

By End-Use Industry

• Automotive
• Consumer Electronics
• Renewable Energy
• Industrial Equipment
• Telecommunications

By Voltage Rating

• Low Voltage (up to 600V)
• Medium Voltage (600V - 1700V)
• High Voltage (above 1700V)

By Packaging Type

• Discrete IGBTs
• IGBT Modules
• Integrated Circuit IGBTs

By Application

• Motor Drives
• Power Supplies
• HVAC Systems
• Electric Vehicles
• UPS Systems

By Technology

• Standard IGBT Technology
• Fast Recovery IGBT Technology
• High-Speed IGBT Technology