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Mitsubishi Electric Corporation announced the coming release of six new J3-Series power semiconductor modules for various electric vehicles (xEVs), featuring either a silicon carbide metal-oxide semiconductor field-effect transistor (SiC-MOSFET) or a RC-IGBT (Si), with compact designs and scalability for use in the inverters of electric vehicles (EVs) and plug-in hybrid electric vehicles (PHEVs). All six J3-Series products will be available for sample shipments from March 25.
The new power modules will be exhibited at the 38th Electronics R&D, Manufacturing and Packaging Technology Expo (NEPCON JAPAN 2024) from January 24 to 26 at Tokyo Big Sight, Japan, as well as other exhibitions in North America, Europe, China and additional locations.
As power semiconductors capable of efficiently converting electricity expand and diversify in response to decarbonization initiatives, the demand is increasing for SiC power semiconductors offering significantly reduced power loss. In the xEV sector, power semiconductor modules are used widely in power conversion devices such as inverters for xEV drive motors.
In addition to extending the cruising range of xEVs, compact, high-power, high-efficiency modules are needed to further downsize batteries and inverters. But due to the high safety standards set for xEVs, power semiconductors used in drive motors must be more reliable than those used in general industrial applications.
Development of these SiC products was partially supported by Japan’s New Energy and Industrial Technology Development Organization (NEDO).
Original – Mitsubishi Electric
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Infineon Technologies AG and Wolfspeed, Inc. announced the expansion and extension of their existing long-term 150mm silicon carbide wafer supply agreement, originally signed in February 2018. The extended partnership includes a multi-year capacity reservation agreement.
It contributes to Infineon’s general supply chain stability, also with regard to the growing demand for silicon carbide semiconductor products for automotive, solar and EV applications and energy storage systems.
“As the demand for silicon carbide devices continues to increase, we are following a multi-source strategy to secure access to a high-quality, global and long-term supply base of 150mm and 200mm SiC wafers. Our prolonged partnership with Wolfspeed further strengthens Infineon’s supply chain resilience for the coming years,” said Jochen Hanebeck, CEO of Infineon Technologies. “We have been working with Wolfspeed for more than 20 years to bring the promise of silicon carbide to the automotive, industrial and energy markets, and to help customers leverage this energy-efficient technology to foster decarbonization.”
The adoption of silicon carbide-based power solutions is rapidly growing across multiple markets. Silicon carbide solutions enable smaller, lighter and more cost-effective designs, converting energy more efficiently to unlock new clean energy applications. To better support these growing markets, Infineon is continuously diversifying its supplier base to secure access to high-quality silicon carbide substrates.
“Wolfspeed is the world’s leader in silicon carbide production. We are the catalyst in the industry transition to silicon carbide, providing high-quality materials to key customers like Infineon, a leading supplier in both the automotive and industrial markets, while also scaling our capacity footprint,” said Wolfspeed president and CEO Gregg Lowe. “Industry estimates indicate demand for silicon carbide devices, as well as the supporting material, will grow substantially through 2030, representing a $20 billion annual opportunity. We are very pleased to continue our partnership with Infineon and to serve as a major supplier of silicon carbide wafers in the years ahead.”
Original – Infineon Technologies
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Bourns, Inc. announced it will exhibit its expanding portfolio of advanced high voltage application solutions at the upcoming APEC 2024 Conference. As one of the leading power conversion components suppliers worldwide, Bourns continually develops innovative technology to meet ever-increasing requirements for reliable and safe communication in a growing group of high voltage electric vehicle (EV) and other high energy storage systems.
- Single channel signal transformer with integrated common mode choke
- Only supplier with transformer rated at 1500 VDC
- Industry’s first planar signal BMS transformer
- Continued expansion of WBG evaluation partnership with Wolfspeed
- Emphasizes Bourns’ custom magnetics design capabilities
- Transformative space-saving circuit protection innovations
- Expanded line of intelligent current sensor products
- Highly-efficient silicon carbide (SiC) diode products for increasing power densities
- High power shunt resistors for accurate BMS monitoring
Original – Bourns
- Single channel signal transformer with integrated common mode choke
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MCC Semi announced the latest lineup of innovative bridge rectifiers — GBUA10M-BP, GBUA4M-BP, and GBUA6M-BP. With 1000V capacity and a low profile, these components deliver unmatched excellence in the smallest of spaces.
Fully compatible with the GBU pin layout, these rectifiers boast an outstanding 42% reduction in height, creating more room for design flexibility. Power adapters, lighting systems, and other applications with space and height constraints are ideal for power rectification with these compact powerhouses.
Available in three high-voltage options with current ratings from 4A to 10A, MCC’s new bridge rectifiers ensure the performance and reliability you need in a space-saving JC package.
Whichever option you choose, you’ll take advantage of cost and energy savings on top of uncompromising efficiency and performance.
Features & Benefits:
- High voltage capacity of 1000V
- Current ratings from 4A to 10A
- High thermal stability
- Low profile design
- Space-saving construction
- Cost-effective solution
- Compatible with GBU pin layout
- Compact JC package
Original – Micro Commercial Components
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STMicroelectronics has been awarded “Top Employer” of the year in Italy for the third consecutive time. This award is the official recognition to companies excellent in HR policies and strategies and in their implementation to contribute to the well-being of emplyees, and improve the working environment.
In Italy STMicroelectronics has 13 sites with more than 12,500 employees, more than 3,400 in R&D.
On top of that, STMicroelectronics has been named “Top Employer” in France for the fourth time in a row.
Every year, the Top Employers Institute program certifies companies according to their participation and their results in the “HR Best Practices Survey”. This survey covers 6 major HR areas divided into 20 themes such as talent management strategy, the work environment, talent acquisition, training and skills development, well-being at work, or diversity and inclusion.
This year, the program has certified more than 2,300 companies worldwide present in 121 countries, with more than 12 million employees impacted. STMicroelectronics is one of the 110 companies that have received the certification in France.
Original – STMicroelectronics and STMicroelectronics
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Transphorm, Inc. announced availability of two new SuperGaN® devices in a 4-lead TO-247 package (TO-247-4L). The new TP65H035G4YS and TP65H050G4YS FETs offer a 35 mOhm and 50 mOhm on resistance respectively, complete with a kelvin-source terminal that gives customers versatile switching capabilities with even lower energy losses.
The new products will run on Transphorm’s well-established GaN-on-Silicon substrate manufacturing process that is cost-effective, reliable, and well-suited for high volume manufacturing on silicon production lines. The 50 mOhm TP65H050G4YS FET is currently available while the 35mOhm TP65H035G4YS FET is sampling and slated for release in calendar Q1’2024.
Transphorm’s 4-lead SuperGaN devices can serve as an original design-in option or as a drop-in replacement for 4-lead silicon and SiC solutions supporting power supplies at 1 kilowatt and up in a wide range of data center, renewables, and broad industrial applications. As noted, the 4-lead configuration offers flexibility to users for further improved switching performance.
In a hard-switched synchronous boost converter, the 35 mOhm SuperGaN 4-lead FET reduced losses by 15 percent at 50 kilohertz (kHz) and by 27 percent at 100 kHz when compared to a SiC MOSFET device with a comparable on resistance.
Transphorm’s SuperGaN FETs are known for delivering differentiating advantages such as:
- Industry-leading robustness with a +/- 20 V gate threshold and a 4 V noise immunity.
- Easier designability by reducing the amount of circuitry required around the device.
- Easier drivability as FETs can pair with well-known, off-the shelf drivers common to silicon devices.
The TO-247-4L devices offer the same robustness, designability, and drivability with the following core specifications:
Part Number Vds (V) min Rds(on) (mΩ) typ Vth (V) typ Id (25°C) (A) max Package Variation TP65H035G4YS 650 35 3.6 46.5 Source TP65H050G4YS 650 50 4 35 Source “We continue to expand our product portfolio to bring to market GaN FETs that help customers leverage our SuperGaN platform performance advantages in whatever design requirement they may have,” said Philip Zuk, Senior Vice President, Business Development and Marketing, Transphorm.
“The four-lead TO-247 package provides flexibility for designers and customers seeking even greater power system loss reductions with little to no design modifications on silicon or silicon carbide systems. It’s an important addition to our product line as we ramp into higher power applications.”
Original – Transphorm
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SemiQ will be exhibiting its latest portfolio of advanced silicon carbide (SiC) modules at the Applied Power Electronics Conference (APEC) in Long Beach, CA February 25-29, 2024.
Visitors to SemiQ’s booth #2245 will have the first opportunity to explore the latest QSiC™ 1200V SiC modules. These modules are designed to operate reliably in challenging conditions and enable high-performance, high-density implementation while minimizing both dynamic and static losses. Crafted from high-performance ceramics, the modules are available in SOT-227, half-bridge and full-bridge options.
The new QSiC MOSFET modules support a variety of innovative automotive and industrial power applications where efficiency, power density and performance are critical design criteria. These include EV charging, on-board chargers (OBCs), DC-DC converters, E-compressors, fuel cell converters, medical power supplies, energy storage systems, solar and wind energy systems, data center power supplies and UPS/PFC circuits.
“We’re excited to showcase our new family of QSiC™ 1200V MOSFET modules at APEC and look forward to empowering engineers across the renewable energy, automotive, medical, and industrial sectors to build robust systems,” said Dr. Timothy Han, President at SemiQ.
“This family is a testament to SemiQ’s dedication to excellence in semiconductor technology. Our power modules stand out not just for their high performance, but also for the rigorous testing that ensures reliability. All modules have undergone testing exceeding 1350V. From gate burn-in testing to stress tests like HTRB and H3TRB, we prioritize stability and quality.”
Held annually, APEC is a three-day technology event that focuses on the practical and applied aspects of the power electronics business. The conference provides ample opportunities for networking, offering a range of activities from technical and industry sessions to social events and exhibitor presentations. APEC caters to a diverse group of professionals in the field of power electronics, ranging from designers of power supplies, DC-DC converters, and motor drives to equipment OEMs that use power supplies, as well as manufacturers and suppliers.
Additionally, professional education seminars are available for attendees who wish to stay updated on the latest industry trends. These seminars offer in-depth discussions of important and complex power electronics topics that can vary from introductory to advanced in technical level.
Original – SemiQ
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Infineon Technologies AG announced its partnership with OMRON Social Solutions Co. Ltd., a pioneering company in social systems technology. Combining Infineon’s first-class gallium nitride (GaN) based power solutions with the innovative circuit topology and control technology of OMRON now enables one of Japan’s smallest and lightest vehicle-to-everything (V2X) charging systems by OMRON Social Solutions.
This partnership will further drive innovation towards wide bandgap materials in power supplies, help to accelerate the transition to renewable energies, a smarter grid, and the adoption of electric vehicles, while fostering decarbonization and digitalization.
For the V2X system, KPEP-A series, Infineon’s CoolGaN™ technology is utilized combined with a unique control technology. OMRON Social Solutions has upgraded its EV charger and discharger system now allowing for bi-directional charging and discharging paths between renewable energy sources, the grid, and EV batteries.
The KPEP-A series is one of the smallest and lightest multi-V2X systems in Japan with a 60% reduction in size and weight compared to similar conventional charger and discharger designs yet providing a charging capability of 6 kW. With the integration of Infineon’s CoolGaN solution, the power efficiency of the V2X systems has increased by more than 10% at light load and around 4% at rated load. By improving efficiency and a reduction in size and weight, the new system allows easier installation and maintenance while enabling more elegant designs and offering a wider range of options for installation locations.
“We are thrilled to partner with OMRON Social Solutions as our CoolGaN based solutions directly contribute to speed up the transition to renewable energies which reduces CO2 emissions and drives decarbonization,” said Adam White, Division President Power & Sensor Systems at Infineon. “It will also make charging of electric vehicles easier and more convenient for consumers, helping to overcome one of the biggest barriers to EV adoption.”
Atsushi Sasawaki, Managing Executive Officer and Senior General Manager for Energy Solutions Business of OMRON Social Solutions said: “Having access to a broad portfolio of WBG solutions significantly increases the functionality, performance and quality of our products. With Infineon, we get the best-in-class application know-how for creating new and improved charging and discharging systems, providing a high level of satisfaction for our customers and end-users. We look forward to further developing GaN- and SiC-based power solutions together with Infineon to help drive renewable energy and electric vehicles.”
Wide bandgap semiconductors made of silicon carbide and gallium nitride differ significantly from conventional semiconductors as they allow for greater power efficiency, smaller size, lighter weight, and lower overall cost. Infineon offers the broadest product and technology portfolio including silicon, silicon carbide and gallium-nitride-based devices.
As the leading power supplier with more than two decades of heritage in SiC and GaN technology development, Infineon caters to the need for smarter, more efficient energy generation, transmission, and consumption.
Original – Infineon Technologies
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Soitec announced the launch of a new industrial installation allowing wafer rinse water to be partially reused in the production of ultra-pure water for cleanrooms at its French manufacturing facilities.
Thanks to this innovation, the first of its kind in Europe at this scale, Soitec intends to increase significantly the proportion water that can be reused in its industrial processes. The wastewater reuse rate at its historic site in Bernin (Isère) is thereby expected to rise from 19% in 2023 to over 35% in 2024.
This solution, developed by Soitec in Bernin over three years, represents an important milestone in Soitec’s continuous improvement of resource management, one of the key pillars of its sustainable development strategy.
Cyril Menon, Soitec Chief Operations Officer: “This manufacturing process innovation is an illustration of Soitec’s commitment over several years to limit the intake of fresh water, a critical resource for semiconductor materials production. It is a significant milestone that we have reached. The introduction of this new process demonstrates that we can produce more with less, contributing to a more sustainable future.”
Soitec puts efficient management of natural resources at the heart of its commitment to sustainable development. While water is essential for the semiconductor industry, Soitec is well aware that it is a rare and precious resource that must be used responsibly and equitably by all.
From 2015 onwards, Soitec committed itself to a series of action plans to mitigate its impact on water resources. Soitec reduced its overall water consumption per unit produced by 30% between 2021 and 2023, and is targeting a further 30% reduction by 2030.
Original – Soitec
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Renesas Electronics Corporation and Transphorm, Inc. announced that they have entered into a definitive agreement pursuant to which a subsidiary of Renesas will acquire all outstanding shares of Transphorm’s common stock for $5.10 per share in cash, representing a premium of approximately 35% to Transphorm’s closing price on January 10, 2024, a premium of approximately 56% to the volume weighted average price over the last twelve months and a premium of approximately 78% to the volume weighted average price over the last six months.
The transaction values Transphorm at approximately $339 million. The acquisition will provide Renesas with in-house GaN technology, a key next-generation material for power semiconductors, expanding its reach into fast-growing markets such as EVs, computing (data centers, AI, infrastructure), renewable energy, industrial power conversion and fast chargers/adapters.
Demand for highly efficient power systems is increasing as building blocks for carbon neutrality. To address this trend, an industry-wide transition toward wide bandgap (“WBG”) materials, represented by silicon carbide (“SiC”) and GaN, is also being seen. These advanced materials allow a broader range of voltage and switching frequency than conventional silicon-based devices. To build on this momentum, Renesas has announced the establishment of an in-house SiC production line, supported by a 10 year SiC wafer supply agreement.
Renesas now aims to further expand its WBG portfolio with Transphorm’s expertise in GaN, an emerging material that enables higher switching frequency, lower power losses, and smaller form factors. These benefits empower customers’ systems with greater efficiency, smaller and lighter composition, and lower overall cost.
As such, demand for GaN is predicted to grow by more than 50 percent annually, according to an industry study. Renesas will implement Transphorm’s auto-qualified GaN technology to develop new enhanced power solution offerings, such as X-in-1 powertrain solutions for EVs, along with computing, energy, industrial and consumer applications.
“Transphorm is a company uniquely led by a seasoned team rooted in GaN power and with origins from the University of California at Santa Barbara,” said Hidetoshi Shibata, CEO of Renesas. “The addition of Transphorm’s GaN technology builds on our momentum in IGBT and SiC. It will fuel and expand our power portfolio as a key pillar of growth, offering our customers the full ability to choose their optimal power solutions.”
“Combined with Renesas’ world-wide footprint, breadth of solution offerings and customer relationships, we are excited to pave the way for industry-wide adoption of WBG materials and set the stage for significant growth.
This transaction will also allow us to offer further expanded services to our customers and deliver significant immediate cash value to our stockholders,” said Dr. Primit Parikh, Co-founder, President and CEO of Transphorm and Dr. Umesh Mishra, Co-founder and CTO of Transphorm. “Additionally, it will provide a strong platform for our exceptional team to further Transphorm’s leading GaN technology and products.”
The board of directors of Transphorm has unanimously approved the definitive agreement with respect to the transaction and recommended that Transphorm stockholders adopt such definitive agreement and approve the merger. Concurrently with the execution of the definitive agreement, KKR Phorm Investors L.P., which holds approximately 38.6% of Transphorm’s outstanding common stock, has entered into a customary voting agreement with Renesas to vote in favor of the transaction.
The transaction is expected to close in the second half of calendar year 2024, subject to Transphorm stockholder approval, required regulatory clearances and the satisfaction of other customary closing conditions.
Original – Renesas Electronics
