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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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GaN / LATEST NEWS / WBG3 Min Read
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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LATEST NEWS2 Min Read
Florian Martens will take over as global Head of Communications & Public Policy at Infineon Technologies AG on 1 March 2024. As Executive Vice President and Chief Communications Officer, he will report to Jochen Hanebeck, CEO of Infineon. Florian Martens succeeds Bernd Hops, who has left Infineon at his own request effective 30 September 2023.
“On its ambitious growth path, Infineon needs to communicate effectively with a wide range of stakeholders. With Florian Martens, we have found an internationally recognized communications professional for this strategic management task. We are very pleased to welcome him to our team with his extensive experience and expertise,” says Jochen Hanebeck, CEO of Infineon Technologies AG.
Florian Martens joins from Siemens AG, where he is responsible for global Media Relations, Executive Communications and Thought Leadership activities since June 2020. Together with his team, he contributed significantly to Siemens’ new external positioning as a leading global technology company.
“Semiconductors are the hearts and brains of our digital world. There is no more exciting and relevant industry for the digital and green transformation. Infineon is a global champion in this key industry and I am delighted to be part of this team going forward. At the same time, I would like to thank all my colleagues for a great time at Siemens,” says Florian Martens.
Before joining Siemens, Florian Martens spent 15 years at Daimler AG, most recently as Head of Global Communications at Daimler Truck AG, the world’s largest commercial vehicle manufacturer. At Daimler, he held various management positions in Germany and abroad, including in Corporate Communications and Product Strategy at Mercedes-Benz Passenger Cars. He holds a Bachelor of Science from the University of Wisconsin (Madison USA) and a Masters of Business Administration from the Technical University of Munich.
Original – Infineon Technologies
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Navitas Semiconductor announced the appointment of Janet Chou as Executive Vice President, Chief Financial Officer and Treasurer, effective upon the filing of Navitas’ 2023 annual report on Form 10‑K expected at the end of February.
Chou will report to Gene Sheridan, President and CEO, and will replace Ron Shelton, Senior Vice President, CFO and Treasurer, who announced his intention to pursue other opportunities effective March 15, 2024. Following the Form 10-K filing, Shelton will provide advice and assistance to Sheridan and transition assistance and support to Chou.
“Under Ron’s financial leadership, we have executed a significant and successful capital raise, built a strong investor and analyst base, and completed three strategic acquisitions—all while delivering predictable and impressive financial results,” said Sheridan. “While I wish Ron all the best in his next career move, I am also very excited to welcome Janet Chou as our new CFO. I am confident her deep experience in financial leadership at global, multi-$B public semiconductor leaders will be invaluable as we scale Navitas to new levels in coming years.”
Chou was previously Vice President and CFO of Global Operations for Western Digital Corporation, a $12 billion Nasdaq-listed developer, manufacturer, and provider of data storage devices and solutions. She was previously CFO of JCET Group Co., Ltd., a $5 billion global semiconductor company listed on the Shanghai Stock Exchange. Before that Chou progressed through a series of senior financial management roles at NXP Semiconductors N.V., a $13 billion global semiconductor manufacturer, including VP and CFO for Greater China, and VP and CFO of the Portable & Computing Business Unit.
Chou is a certified public accountant and holds a bachelor’s degree in accounting from the University of Texas, San Antonio, and an MBA from Santa Clara University.
Original – Navitas Semiconductor
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Okmetic’s headquarters and production plant where most of silicon wafers are manufactured are located in Vantaa, Finland, while it is globally close to the customers. To better respond to local customers, the company is dedicated to improve its sales and customer support organization.
During the year of 2023, Okmetic has established sales offices in both France and Taiwan to better serve the customers in these areas. This is one of commitments to take business operations to the next level.
Since then on, company’s worldwide sales and service network is able to deliver quick expert responses from Finland, Germany, France, the United States, Japan, Taiwan and China. In addition, Okmetic’s network of agents is at full service in Korea, Malaysia and Singapore.
Original – Okmetic
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EPC introduces three evaluation boards – EPC9179, EPC9181, and EPC9180 – featuring pulse current laser drivers of 75 A, 125 A, and 231 A , showcasing EPC’s AEC-Q101 GaN FETs. These FETs; EPC2252, EPC2204A, and EPC2218A are 30% smaller and more cost-effective than their predecessors. Designed for both long and short-range automotive lidar systems, these boards expedite solution evaluation with varied input and output options.
All boards share identical functionality, differing only in peak current and pulse width. Utilizing a resonant discharge power stage, they employ a ground-referenced GaN FET driven by LMG1020 gate driver. The GaN FET’s ultrafast switching enables rapid discharge of a charged capacitor through the load’s stray inductance, enabling peak discharge currents of tens to hundreds of amps within nanoseconds.
The printed circuit board is designed to minimize power loops and common source inductance while offering mounting flexibility for laser diodes or alternative loads. To enhance user-friendliness, all boards ship with EPC9989 interposer PCBs, featuring various footprints to accommodate a variety of laser diodes or other loads. Customers can choose one that meets their needs to evaluate the GaN solutions.
The EPC9179/81/80 boards are designed to be triggered from 3.3V logic or differential logic signals such as LVDS. For single-ended inputs, the boards can operate with input voltages down to 2.5 V or 1.8 V with a simple modification. Designing an automotive lidar system is complex, and finding a reliable solution is challenging. The purpose of these evaluation boards is to simplify the evaluation of powerful GaN-based lidar drivers that switch faster and deliver higher pulse current than other semiconductor solutions. For technical details, EPC offers full schematics, bill of materials (BOM), PCB layout files, and a quick start guide on EPC’s website.
“To meet the growing demand for automotive lidar, these cost-effective boards, featuring our latest AEC products, streamline evaluation, reducing time-to-market with exceptional switching performance,” said Alex Lidow, CEO, and co-founder of EPC.
Original – EPC