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Friday, July 3, 2026

Global IGBT and Thyristor Market Outlook

A market research report published by Fior Markets provides valuable insights into the global Insulated Gate Bipolar Transistor (IGBT) and thyristor market, including industry trends, growth projections, and forecasts through 2022. The study analyzes market performance in terms of both volume and value, offering a comprehensive view of the power semiconductor industry.

The report examines multiple market segments based on product types, applications, components, services, and geographic regions. It highlights key factors influencing market growth and provides detailed information on the expanding demand for IGBT modules and thyristors across industrial, automotive, renewable energy, and power electronics sectors.

In addition to market forecasts, the research includes manufacturer data such as shipments, pricing, revenue, gross profit, business distribution, and competitive positioning. These insights help industry participants better understand market dynamics and evaluate the strategies of leading semiconductor suppliers.

The study also analyzes regional market development across major countries and territories worldwide, providing valuable information on market size, growth opportunities, pricing trends, and technology adoption. Detailed segmentation data allows manufacturers and stakeholders to identify emerging opportunities across different industries and applications.

Furthermore, the report includes feedback and perspectives from both manufacturers and end users, offering a broader understanding of market requirements and future industry developments. This combination of quantitative and qualitative analysis provides a complete overview of the global IGBT and thyristor market.

As demand continues to grow for IGBT modules, thyristors, power semiconductors, industrial motor drives, renewable energy systems, electric vehicles, railway traction equipment, and smart power infrastructure, the global market is expected to remain an important segment of the power electronics industry for years to come.


Thursday, July 2, 2026

High Power Vicor V24A24M400BL Converter

The V24A24M400BL is a DC-DC converter from Vicor’s Maxi family, designed using advanced power processing, control, and packaging technologies to deliver high efficiency, reliability, and power density in demanding electronic systems. It is engineered to support high-performance power conversion while maintaining low noise and strong operational stability.

This module utilizes high-frequency zero-current-switching (ZCS) and zero-voltage-switching (ZVS) technology, enabling improved efficiency, reduced switching losses, and enhanced thermal performance. These characteristics make it suitable for modern distributed power architectures where compact size and high power output are required.

The V24A24M400BL operates with an input voltage range of 18V to 36V and provides a regulated 24V output at 400W power. It is designed in a full-brick package and supports through-hole mounting for easy integration into industrial power systems.

It operates across a wide temperature range of -55°C to 100°C, making it suitable for harsh and high-reliability environments. The module measures 116.80 mm in length, 55.9 mm in width, and 15.7 mm in height, with an efficiency rating of approximately 88.2%.

Key features include low-noise ZCS/ZVS operation, single-wire paralleling capability, logic enable/disable control, input undervoltage lockout, and output overvoltage protection. These features make it suitable for applications in industrial automation, process control, distributed power systems, medical equipment, aerospace, defense, communications, and automated test equipment (ATE).

The V24A24M400BL is widely used in systems that require reliable DC-DC conversion with high efficiency, compact design, and stable long-term performance in critical environments.


VI-264-EU-03/F2 DC-DC Converter from Vicor's VI-200 Series

The VI-264-EU-03/F2 is a high-performance DC-DC converter from Vicor's renowned VI-200 family, a series widely recognized for its advanced zero-current-switching (ZCS) technology and proven reliability. With more than 14 million units sold worldwide, the VI-200 series has become a trusted solution for engineers seeking efficient and flexible power conversion in demanding applications.

Operating at switching frequencies up to 2MHz, VI-200 converters deliver excellent power density, efficiency, low noise performance, and dependable operation. The platform is designed to support scalable power architectures, and when combined with Vicor VI-Bxx booster modules, users can create synchronous power arrays capable of delivering several kilowatts of output power.

The VI-264-EU-03/F2 accepts an input voltage of 300V, with an operating range from 200V to 400V, and provides a regulated 48V output with a maximum power rating of 200W. This makes it suitable for industrial power systems, telecommunications equipment, distributed power architectures, and other applications requiring reliable isolated DC-DC conversion.

Designed in a full-brick package, the module measures 116.80 mm in length, 47.2 mm in width, and 20.1 mm in height. It supports through-hole mounting and operates within a temperature range of -10°C to 85°C. The converter offers an efficiency rating of approximately 88%, helping reduce energy losses and improve overall system performance.

Key features of the VI-264-EU-03/F2 include remote sense capability, current limiting protection, logic enable/disable control, wide-range output voltage adjustment, low-noise FM control, and Vicor's proven ZCS power architecture. The module is also CE marked, supporting compliance with international standards.

With its combination of high efficiency, robust design, and flexible power management features, the VI-264-EU-03/F2 remains an excellent choice for engineers seeking a reliable DC-DC converter for industrial, communications, and high-performance electronic systems.


Wednesday, July 1, 2026

VI-221-CW DC-DC Converter from VI-200 Series Overview

The VI-221-CW is part of the VI-200 family from Vicor, a well-established series of component-level DC-DC converters designed for high-performance power conversion applications. With more than 14 million units sold, the VI-200 platform is widely recognized for its zero-current-switching (ZCS) architecture, which improves efficiency, reduces noise, and enhances overall system reliability.

Operating at switching frequencies up to 2MHz, the VI-200 series delivers strong performance in terms of power density, thermal stability, and electrical efficiency. The architecture is designed to support scalable power solutions, including the use of booster modules (VI-Bxx), which allow users to build synchronous arrays capable of delivering several kilowatts of output power.

The VI-221-CW model operates with an input voltage range of 36V (21V to 56V) and provides a regulated 12V output at 100W power. It is designed for through-hole mounting and operates within a temperature range of -10°C to 85°C, making it suitable for a wide range of industrial and electronic applications.

In terms of physical dimensions, the module measures 116.80 mm in length, 61.0 mm in width, and 12.7 mm in height. It offers an efficiency rating of approximately 88% and comes in a full-brick package format.

Key features of the VI-221-CW include remote sense functionality, current limiting, logic disable control, wide-range output adjustment, zero-current-switching (ZCS) power architecture, low-noise FM control, and CE certification. These characteristics make it suitable for industrial power systems, communication equipment, embedded electronics, and other high-reliability applications requiring stable DC-DC conversion.


Tuesday, June 30, 2026

VI-JW2-IY Half-Brick Isolated DC-DC Converter Overview

The VI-J00 MiniMod family establishes a new standard in component-level DC-DC power conversion by delivering compact, efficient, and highly flexible isolated power solutions. Designed as a smaller extension of the higher-power VI-200 series, it supports up to 100W of isolated and regulated output power in a board-mounted package.

This platform is engineered to provide a wide range of input, output, and power configuration combinations, making it suitable for modern power system designs that require fast development cycles and high adaptability. With an operating temperature rating of up to 100°C, the MiniMod family supports reliable performance in demanding industrial environments.

The VI-JW2-IY is a half-brick isolated DC-DC converter within the VI-J00 family, delivering 15V output at 50W power. It is designed for through-hole mounting and operates across a wide temperature range of -40°C to 100°C, ensuring stability in both standard and harsh operating conditions.

In terms of physical dimensions, the VI-JW2-IY measures 61 mm in length, 57.9 mm in width, and 12.7 mm in height, making it suitable for compact power system integration where space optimization is important.

This DC-DC converter is commonly used in industrial power systems, embedded electronics, communication equipment, and other applications requiring isolated voltage conversion with stable performance and compact design.


Sunday, June 28, 2026

Harting IGBT Solutions for Industrial Drive Systems and Automation

Modern industrial automation systems depend heavily on high-performance power electronics, especially in applications where electric motors, variable speed drives, and automated production systems are required. Without electric motors and advanced electronic control systems, modern industrial processes would not achieve the level of efficiency and performance expected today.

Insulated Gate Bipolar Transistors (IGBTs) are widely used to control high-power electrical drives in industrial environments. These devices enable efficient switching of large electrical loads while requiring only low control power. In many systems, the connection between control units and power modules is achieved using polymer optical fiber (POF), which provides galvanically isolated and interference-free signal transmission.

However, traditional IGBT control systems that rely on optical fibers often require multiple individual connections between the controller and the motor-side circuit board. Signal conversion from electrical to optical and back again is handled by transceivers mounted directly on the control board. This setup can take up significant space, resulting in larger and less efficient system designs.

To address these limitations, HARTING has developed a more compact and efficient solution for IGBT control systems. The new approach was presented at the SPS IPC Drives trade fair in Nuremberg, showcasing advancements in industrial connectivity and power electronics integration.

The proposed system relocates optical transceivers from the control board into a pluggable module, combining electrical connection and optical transmission in a single integrated solution. This “electrical connection and optical transmission” concept significantly reduces space requirements and improves system design flexibility.

HARTING uses solutions such as the Han-Eco® 10A series to support compact electrical connectivity in automation systems. The Han® housing system is designed to meet the increasing demands of industrial automation, offering robust protection, strain relief, and secure fiber management for polymer optical fiber connections.

By integrating control and transmission components into a modular system, this solution improves efficiency, reduces installation complexity, and supports more compact industrial drive designs. As demand continues to grow for IGBT modules, industrial motor drives, automation systems, and power electronics solutions, innovations like these help enable more efficient and scalable industrial architectures.


Saturday, June 27, 2026

IGBT MOSFET Global Outlook

The IGBT and Super Junction MOSFET market research report provides a professional and in-depth study of leading industry players, along with detailed company profiles and the strategies they adopt. This helps readers gain a comprehensive view of the competitive landscape and develop effective business strategies based on market intelligence.

The report includes a dedicated section highlighting key market indicators such as pricing, costs, gross revenue, product specifications, product images, company profiles, and contact information. This structured data allows stakeholders to better understand market positioning and evaluate key competitors in the power semiconductor industry.

The market is segmented based on product types, including multiple IGBT and Super Junction MOSFET categories, as well as various application areas across industrial, automotive, renewable energy, and power electronics sectors. These segments help identify demand patterns and growth opportunities across different technology and end-user industries.

Major applications covered in the report include power conversion systems, motor drives, industrial automation, electric vehicles, renewable energy systems, and high-efficiency switching applications. These use cases highlight the increasing importance of advanced power semiconductors in modern energy and electronics infrastructure.

Key industry players analyzed in the report include Infineon Technologies, Mitsubishi Electric, Fuji Electric, STMicroelectronics, Dynex Semiconductor, Microsemi, IXYS, NXP, and NTE. These companies are actively driving innovation and competition in the global IGBT and MOSFET market through product development, strategic partnerships, and technological advancements.

Overall, the report provides a comprehensive overview of the global IGBT and Super Junction MOSFET market, including market structure, competitive analysis, regional insights, and future growth trends across major industries worldwide.