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PANJIT introduced its latest 60, 100, and 150V AEC-Q101 qualified MOSFETs, engineered with advanced trench technology to set new standards in performance and efficiency. Designed for both automotive and industrial power systems, these MOSFETs offer unparalleled figure of merit (FOM), significantly lower RDS(ON), and reduced capacitance. This ensures minimal conduction and switching losses, resulting in enhanced overall electrical performance.
The new MOSFET series is available in various packages, including DFN3333-8L, DFN5060-8L, DFN5060B-8L, TO-252AA and TO-220AB-L. These compact packages facilitate efficient design solutions for modern electronic systems. With an operating junction temperature of up to 175°C, these MOSFETs are robust and reliable, further evidenced by their AEC-Q101 qualification.
These MOSFETs are ideal for various automotive applications, including wireless charging transmitters, battery management systems, front and rear lighting systems, DC/DC converters, infotainment systems and more. Their low on-resistance and high efficiency enhance the performance and reliability of these systems. Additionally, their versatility extends to industrial power systems, broadening their range of applicability and utility.
PANJIT’s new automotive-grade MOSFET series delivers superior performance, reliability, and efficiency. These MOSFETs are set to become a cornerstone in the design of next-generation automotive and industrial systems.
Original – PANJIT International
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Toshiba Electronic Devices & Storage Corporation held a ceremony to mark the completion of a new 300-millimeter wafer fabrication facility for power semiconductors and an office building at Kaga Toshiba Electronics Corporation in Ishikawa Prefecture, Japan, one of Toshiba’s key group companies. The completion of construction is a major milestone for Phase 1 of Toshiba’s multi-year investment program.
Toshiba will now proceed with equipment installation, toward starting mass production in the second half of fiscal year 2024. Once Phase 1 reaches full-scale operation, Toshiba’s production capacity for power semiconductors, mainly MOSFETs and IGBTs, will be 2.5 times that of fiscal 2021, when the investment plan was made. Decisions on the construction and start of operation of Phase 2 will reflect market trends.
The new manufacturing building follows and will make a major contribution to Toshiba’s Business Continuity Plan (BCP): it has a seismic isolation structure that absorbs earthquake shock and redundant power sources. Energy from renewable source and solar panels on the roof of the building (onsite PPA model) will allow the facility to meet 100% of its power requirement with renewable energy.
Product quality and production efficiency will be boosted by the use of artificial intelligence (AI). Toshiba expects to receive a grant from the Ministry of Economy, Trade and Industry of Japan to subsidize its investment in part of the manufacturing equipment.Power semiconductors play a crucial role in electricity supply and control, and are essential devices for energy efficiency in all electrical equipment. With the continuing electrification of automobiles and the automation of industrial machinery, they are expected to see continued robust demand growth. Toshiba started power semiconductor production on a new 300-millimeter wafer line in the second half of fiscal 2022 at Kaga Toshiba Electronics’ existing facility. Going forward, the company will expand production with the new fab and further contribute to carbon neutrality.
Overview of Kaga Toshiba Electronics Corporation
Location: 1-1, Iwauchi-machi, Nomi-shi, Ishikawa Prefecture, Japan
Established: December, 1984
President and Representative Director: Satoshi Aida
Employees: 1,150 (as of March 31, 2024)
Main Products: Discrete semiconductors (power semiconductors, small-signal devices and optoelectronic devices)
Web: Kaga Toshiba Electronics CorporationOriginal – Toshiba
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Analog Devices, Inc. announced financial results for its fiscal second quarter 2024, which ended May 4, 2024.
“ADI delivered second quarter revenue above the midpoint of our outlook, despite continued macro and inventory headwinds. Further, the strength and resiliency of our business model, coupled with disciplined cost control, enabled us to achieve profitability and earnings per share above the high-end of our outlook,” said Vincent Roche, CEO and Chair.
“We believe inventory rationalization across our broad customer base is stabilizing, clearing a path for us to return to sequential growth in the third quarter. This, coupled with improving new orders, gives us optimism that we are at the beginning of a cyclical recovery.”
Roche continued, “The continued proliferation of the Intelligent Edge presents ADI with numerous concurrent secular growth vectors. AI, where we have been increasing our investments, is expected to accelerate these trends as it increasingly extends from centralized applications in data centers to a myriad of applications at the physical edge. As a leader of real-world data creation, processing, and connectivity, our solutions are becoming increasingly important to customers in the AI-driven era. As such, my confidence in ADI’s ability to drive long term value for all stakeholders remains resolute.”
For the third quarter of fiscal 2024, company’s forecas revenue is $2.27 billion, +/- $100 million. At the midpoint of this revenue outlook, reported operating margin is expected on the level of approximately 20.1%, +/-200 bps, and adjusted operating margin of approximately 40.0%, +/-100 bps. Analog Devices is planning for reported EPS to be $0.71, +/-$0.10, and adjusted EPS to be $1.50, +/-$0.10.
The company’s third quarter fiscal 2024 outlook is based on current expectations and actual results may differ materially as a result of, among other things, the important factors discussed at the end of this release. These statements supersede all prior statements regarding business outlook set forth in prior ADI news releases, and ADI disclaims any obligation to update these forward-looking statements.
Performance for the Second Quarter 2024 Financials
Original – Analog Devices
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Soitec and Tokai Carbon, a comprehensive manufacturer of carbon and graphite products, have entered into a strategic partnership for the development and supply of polycrystalline silicon carbide substrates specifically designed for Soitec SmartSiC™ wafers.
Silicon carbide is a disruptive compound semiconductor and SmartSiC™ engineered substrates accelerate the adoption of silicon carbide for electric mobility, industrial and smart grid applications by delivering superior manufacturing and cost efficiencies with an improved environmental footprint.
Under this partnership, which will see Tokai Carbon supply 150mm and 200mm poly-SiC wafers to Soitec, the two companies are harnessing their advanced R&D capabilities to enhance the SmartSiC™ ecosystem. Tokai Carbon’s advanced technology and manufacturing capacity in polycrystalline silicon carbide (polySiC) combined with the right to use Soitec specifications for polySiC coarse wafers compliant with Soitec SmartSiC™ is expected to make a strategic contribution to the global ramp-up of SmartSiC™ wafer production.
Cyril Menon, Chief Operations Officer of Soitec, stated: “This partnership with Tokai marks yet another key step in the ramp-up of Soitec’s SmartSiC™ technology to address fast-growing markets such as electric mobility and industrial electrification. Tokai’s top quality SiC products and R&D capabilities, combined with Soitec’s innovative SmartSiC™ technology, can help to accelerate global adoption of electric mobility and other SiC technologies. This is an important milestone in terms of perception and value creation for the SmartSiC™ ecosystem.”
Hajime Nagasaka, CEO of Tokai Carbon, commented. “The polycrystalline SiC substrate to be supplied to Soitec is a strategic product in our solid SiC product series. We are pleased to see our long years of research and development come to fruition in this way, and we have high expectations for this product in the SiC semiconductor market, which is expected to expand significantly in the future. The partnership with Soitec is also very meaningful in terms of contributing to the realization of a sustainable society.”
Original – Soitec
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X-FAB and Soitec will begin work to offer Soitec’s SmartSiC™ wafers for the production of silicon carbide power devices at X-FAB’s plant in Lubbock, Texas.
This collaboration follows the successful completion of the assessment phase, during which silicon carbide (SiC) power devices were manufactured at X-FAB Texas on 150mm SmartSiC™ wafers. Soitec will offer X-FAB’s customers easy access to the SmartSiC™ substrate through a joint supply chain consignment model.
X-FAB is the pioneer and leader of the foundry model in the fast-growing SiC market. Silicon carbide (SiC) is a disruptive compound semiconductor material with intrinsic properties providing superior performance and efficiency over silicon in power applications.
SmartSiC™ is a proprietary Soitec technology based on the company’s SmartCut™ process, in which a thin layer of a high-quality monocrystalline (mono-SiC) ‘donor’ wafer is split off and bonded to a low resistivity polycrystalline (poly-SiC) ‘handle’ wafer. The resulting substrate offers improved device performance and manufacturing yields. The process allows multiple re-uses of a single donor wafer, significantly reducing cost and related CO2 emissions.In this fast-growing market, Soitec is ramping production of SmartSiC™ substrates at its new plant of Bernin, near Grenoble (France). X-FAB is increasing production capacity for SiC devices at the Lubbock plant. The use of the SmartSiC™ substrate enables X-FAB’s customers to design smaller devices, resulting in efficiency improvements through an increased number of dies per wafer. The benefit of reduced CO2 emissions from the substrate manufacturing process will also contribute to X-FAB’s initiative to reduce its overall carbon footprint.
Sophie Le-Guyadec VP Procurement of X-FAB, states: “As the leading SiC foundry, we want to provide our customers the full range of opportunities to design innovative and robust SiC devices for electric vehicles, renewable power and industrial applications. To offer the most advanced silicon carbide processes and manufacturing capabilities, we jointly agreed to provide our customers easy access to Soitec’s innovative SmartSiC™ via a consignment model.”
Emmanuel Sabonnadiere, Soitec Executive Vice President Automotive and Industry comments: “Soitec’s SmartSiC substrates and X-FAB’s foundry services are a perfect fit to meet increasing demand for new SiC products. This cooperation is a significant milestone for the deployment of SmartSiC in the U.S. market and internationally, thanks to X-FAB’s global footprint.”Original – X-FAB
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Toshiba Electronic Devices & Storage Corporation announced new board of directors, with an effective date of June 1, 2024. The composition of the Board of Directors and the company’s Auditors, as of June 1, 2024, will be as follows:
Directors and Officers of the Company:
- Director, President & CEO – Taro SHIMADA (Toshiba Corporation)
- Director, Vice President – Noriyasu KURIHARA
- Director – Seiichi MORI
- Director – Shin KUROSAWA
- Director – Hiroyuki SHINKI (Toshiba Corporation)
- Director – Masazumi TOMISHIGE (Toshiba Corporation)
- Director – Takanori NAKAZAWA (Toshiba Corporation)
- Director – Yutaka SATA (Toshiba Corporation)
- Auditor – Hiroki OKADA
- Auditor – Masami TAKAOKA
- Auditor – Akira NAKANISHI (Toshiba Corporation)
Retiring Directors as of June 1, 2023:
- Norifumi INUKUBO
- Hiroshi KURIKI
Original – Toshiba
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Soitec announced its revenue for the fourth quarter of fiscal year 2024 and its full-year results of fiscal year 2024 (ended on March 31st, 2024). The financial statements were approved by the Board of Directors during its meeting.
- Q4’24 revenue reached €337m, down 2% at constant exchange rates and perimeter compared to the record quarter Q4’23
- FY’24 revenue amounted to €978m, down 10% both at constant exchange rates and perimeter and on a reported basis, in line with latest guidance
- FY’24 EBITDA margin at the level of 34%, also in line with latest guidance
- FY’24 net profit, reached €178m, an 18% margin
- FY’25 outlook confirmed: Soitec expects revenue to be stable year-on-year at constant exchange rates and perimeter and EBITDA margin to reach around 35%
- Changes in the Board of Directors: Frédéric Lissalde to be proposed as Director at the next Annual General Meeting
Pierre Barnabé, Soitec’s CEO, commented: “Fiscal year 2024 was a challenging year, marked by the impact on our sales of RF-SOI inventories correction across the entire smartphone value chain. Despite these difficult market conditions, we succeeded in maintaining a solid level of profitability, while continuing to invest both in innovation and industrial capacity to prepare for the future.
Regarding our fiscal year 2025, the RF-SOI inventory correction will continue to impact our revenue through the first part of the year. However, we are seeing early signs of improvement downstream, led by the ongoing return to growth of the smartphone market, which gives us confidence in the recovery of our RF-SOI sales in the second half of the year. At the same time, we will continue to benefit from strong performance of our other SOI products, and from the successful expansion of our product portfolio, with increased penetration of POI and the ramp-up of SmartSiC.
Looking ahead, we remain very confident in our ability to leverage the significant growth drivers underpinning our three end-markets. Coupled with the increasing adoption of engineered substrates to deliver more powerful and energy-efficient solutions to a growing number of customers, our continued diversification and expansion of our product portfolio, in both SOI and Compound substrates, supports our clear vision towards $2bn revenue in the medium term, with significant margin expansion potential,” added Pierre Barnabé.
Original – Soitec
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Power Integrations announced the launch of the SCALE-iFlex™ XLT family of dual-channel plug-and-play gate drivers for operation of single LV100 (Mitsubishi), XHP™ 2 (Infineon), HPnC (Fuji Electric) and equivalent semiconductor modules up to 2300 V blocking voltage for wind, energy storage and solar renewable energy installations.
This single-board driver enables active thermal management of inverter modules for improved system utilization and reduces the bill-of-material count for increased reliability.
Thorsten Schmidt, product marketing manager at Power Integrations commented: “It’s a real challenge to build a single-board gate driver for these ‘new dual’ style IGBT modules. Our compact new SCALE-iFlex XLT gate drivers fit inside the outline of the module, allowing the drivers to be mounted on the module, which gives converter system designers a high degree of mechanical design freedom.”
SCALE-iFlex XLT dual-channel gate drivers feature Negative Temperature Coefficient (NTC) data reporting – an isolated temperature measurement of the power module – which allows accurate thermal management of converter systems. This enables system designers to optimize thermal design and obtain a 25 to 30 percent converter power increase from the same hardware.
The isolated NTC readout also reduces hardware complexity, eliminating multiple cables, connectors and additional isolation barrier crossing circuits. The new gate drivers employ Power Integrations’ SCALE-2 chip set which minimizes component count, enhancing reliability. The gate driver board also protects the power switches in the event of a short-circuit.
Original – Power Integrations
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GlobalFoundries announced a partnership with Micron Technology, Inc. and the U.S. National Science Foundation (NSF) to invest in workforce development at Minority Serving Institutions (MSI) to help meet the growing workforce needs of the U.S. semiconductor ecosystem.
In partnership with Micron and the NSF, the investment will support semiconductor workforce development at Historically Black College and Universities, Hispanic Serving Institutions, Asian American Native American Pacific Islander-Serving Institutions and Tribal Colleges and Universities throughout the U.S. These investments aim to diversify the semiconductor workforce and build robust talent pathways through education and career reentry initiatives.
The companies’ and NSF ’s support of U.S. MSIs is directly aligned with the workforce development objectives of the federal CHIPS and Science Act as well as New York State’s Green Chips legislation, to ensure a robust pipeline of U.S. semiconductor talent.
“As an industry, we must work together to collectively address the great need for a robust, diverse pipeline of talented individuals who will be the semiconductor innovators and leaders of tomorrow,” said Pradheepa Raman, chief people officer of GF. “Strong public-private partnerships, like our collaboration with Micron and NSF to support Minority Serving Institutions, are critical to continue the work of inspiring and developing the skilled workforce our industry needs to grow.”
“Partnering with leaders in industry, government and education to meet the needs of a growing semiconductor workforce in the U.S. is an essential part of nurturing the talent necessary to fill key openings in the semiconductor industry,” said Erwin Gianchandani, NSF assistant director for Technology, Innovation and Partnerships. “We look forward to collaborating with our partners to increase access to equitable education, address student programming and teacher and faculty professional development and strengthen infrastructure through future funding opportunities.”
“Micron’s investments in U.S. expansion are about much more than building fabs. We’re investing in people and in partnerships to expose learners from every background to opportunities they may not otherwise have without support,” said April Arnzen, executive vice president and chief people officer at Micron and president of the Micron Foundation. “We’re honored to see initiatives like Micron’s MSI Semiconductor Network, which are at the forefront of our industry’s efforts to prepare the semiconductor workforce and research ecosystem to meet growing demand for talent, recognized by government leaders in the U.S. and globally.”
“Micron’s and GlobalFoundries’ historic investments are transformative for Upstate New York and the nation, and today’s announcement will put in place another critical workforce development initiative to deliver the workers needed to fill the tens of thousands of new jobs that will be created. This initiative will especially focus on connecting underserved and historically marginalized New Yorkers and others around the country to new job opportunities in the semiconductor industry, including to build chips in Upstate NY,” said Senate Majority Leader Chuck Schumer.
“In recent weeks, my CHIPS & Science Law delivered a whopping $6.1 billion for Micron to build their mega-fab project and another $1.5 billion for GlobalFoundries’ expansion. Now, Micron and GlobalFoundries are working to develop a workforce pipeline to train and attract the next generation of talent, putting students from our top-notch educational institutions into jobs in the semiconductor industry. I am glad this initiative is supported by National Science Foundation funds from my CHIPS & Science Law, which serves as the fuel for major investments like Micron’s and GlobalFoundries’ to bring chip manufacturing back to America and helping our future scientists and engineers reach new heights with good-paying jobs right at their doorstep.”
“We are excited about the opportunities to grow efforts with GlobalFoundries that have led to increased summer internships and experiences at GF’s Malta, NY, facility for students at multiple CUNY schools including LaGuardia, Queensborough and City Tech,” said Tavis Ezell, director of business development for The City University of New York’s (CUNY) Advanced Science Research Center (ASRC). “With our industry partners, we are identifying the necessary skills needed to support jobs across the vast semiconductor ecosystem and bolster current curricula across a wide range of CUNY degrees, connecting interested students to training opportunities, whether their first internship experience is at the ASRC, or at an industry partner such as GlobalFoundries.”
GF’s support of MSIs is the company’s latest effort to build a critical talent pipeline for a current and future workforce. In November 2023, the company announced a new student loan repayment program to help U.S.-based employees and eligible new recruits pay up to $28,500 in student loan debt, tax-free, to help ease the financial burden of higher education and training. GF also offers tuition reimbursement for employees pursuing undergraduate and graduate degrees, fully paid parental leave, employee fitness stipend to promote good health and childcare subsidy towards dependent care. GF’s first-of-its-kind apprenticeship program provides opportunities for individuals with no prior experience or training in the semiconductor industry, offering full-time paid positions and cost-free college courses to high school graduates.
GF has established strategic partnerships nationwide with top universities and strong regional engagements with community colleges in New York and Vermont as well as access to worldwide talent through its global footprint to help build a diverse workforce and semiconductor talent pipeline. To help inspire younger children, GF has a robust STEM outreach program to engage with regional middle schools and high schools, including Early College High School and Career and Technical Education programs, to bring industry awareness and hands-on experiences to students.
Original – GlobalFoundries
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Navitas Semiconductor invites visitors to experience “Planet Navitas” at PCIM 2024 (June 11th-13th) and see how industry-leading GaN and SiC solutions deliver optimal performance in a broad array of fast-growing markets and applications from 20 W to 20 MW.
Aligned with Navitas’ mission to “Electrify Our World™”, the “Planet Navitas” booth invites visitors to discover how next-gen GaN and SiC technology enable the latest solutions for fully-electrified EV transportation, AI data centers, industrial compressors, drives, and robotics plus renewable energy sourcing and storage.
Each example highlights end-user benefits such as increased portability, longer range, faster charging, and grid independence, along with a focus on how low-carbon-footprint GaN and SiC technology can save over 6 Gtons/yr CO2 by 2050.
“PCIM is a key event in the power-electronics calendar,” says Alessandro Squeri, Navitas’ senior director for European sales. “Complementary GaNFast and GeneSiC portfolios, with comprehensive, application-specific system design support, accelerate customer time-to-market with sustainable performance advantages. ‘Planet Navitas’ represents the very real, inspiring implementation of GaN & SiC that makes up a $1.6B identified customer pipeline as part of a vast $22B/year market opportunity.”
Major technology updates and releases include GaNSafe™ – the world’s most-protected, most reliable, and highest-performance GaN power, Gen-4 GaNSense™ Half-Bridge ICs – the most integrated GaN devices, and Gen-3 Fast GeneSiC power FETs – for game-changing motor drive and energy-storage applications.
In addition to the exhibition, PCIM 2024 includes peer-review technical presentations, including:
11th June, 13:00 – 14:30, Hall 10.1
- “Low-Cost High-Density 300 W / 20 V AC-DC Converter Enabled by GaN Power ICs”– Tom Ribarich, Sr. Director of Strategic Marketing, Navitas Semiconductor
- A low-cost 300 W high-density AC-to-DC converter has been designed and demonstrated to achieve >96% peak efficiency and 270 cc. The circuit topologies include a 2-phase interleaved PFC input stage, an LLC DC-DC stage, and a synchronous rectification output stage. The design includes GaN Power ICs and off-the-shelf controllers running at 300 kHz. This new design has resulted in a cased power density of 1.1 W/cc.
12th June, 15:30 – 17:00, Foyer
- Evaluation of SiC Devices for Over 500 kHz Application Based on Buck Circuit – Minli Jia, Sr. Staff Applications Engineer, Navitas Semiconductor
- This paper selects three 1200 V SiC devices of similar specifications and different manufacturers for analysis and experimental research and designs a Buck converter with an output power of 3.6 kW and a switching frequency of 600 kHz. The efficiency and heat of three SiC types were tested under the same working conditions, and the results showed that the SiC with fast turn-off characteristics and low thermal resistance was more suitable for high-frequency converter applications.
Original – Navitas Semiconductor
- “Low-Cost High-Density 300 W / 20 V AC-DC Converter Enabled by GaN Power ICs”– Tom Ribarich, Sr. Director of Strategic Marketing, Navitas Semiconductor
