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Power Integrations™ is providing advanced PowiGaN™ gallium-nitride (GaN) technology, expert design support, and financial sponsorship for Team aCentauri in the 3,000 km Bridgestone World Solar Challenge later this month. Power Integrations’ Mr. Green will follow Team aCentauri and the 37 other entrants across the Australian Outback as they push the boundaries of innovation in efficiency, aerodynamics, speed and range for solar-powered cars.
“After studying Power Integrations’ extensive list of reference designs, Team aCentauri asked us to help them design a power converter based on the 750-volt, InnoSwitch™3-EP with PowiGaN technology,” said Trevor Hiatt, director of marketing at Power Integrations. “With our IC and expert design support, the team not only boosted energy efficiency to 95.7 percent while the system operates at maximum power, but also improved efficiency by more than 50 percent while the system drives light loads – which is most of the time.”
The Bridgestone World Solar Challenge begins in Darwin on October 22 and is expected to conclude in Adelaide on October 29.
Original – Power Integrations
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GlobalFoundries has been awarded $35 million in federal funding from the U.S. government to accelerate the manufacturing of GF’s differentiated gallium nitride (GaN) on silicon semiconductors at its facility in Essex Junction, Vermont. This funding brings GF closer to large-scale production of GaN chips, which are unique in their ability to handle high voltages and temperatures.
These chips are positioned to enable game-changing performance and efficiency in 5G and 6G cellular communications for infrastructure and handsets, automotive and industrial Internet of things (IoT), as well as power grids and other critical infrastructure.
With the new $35 million in funding, awarded by the Department of Defense’s Trusted Access Program Office (TAPO), GF plans to purchase additional tools to expand development and prototyping capabilities, moving closer to at-scale 200mm GaN-on-silicon semiconductor manufacturing.
As part of the investment, GF plans to implement new capabilities for reducing the exposure of GF and its customers to supply chain constraints of gallium, while improving the speed of development, assurance of supply and competitiveness of U.S-made GaN chips.
The funding builds on years of collaboration with the U.S. government – including $40 million in support from 2020-2022 – that leverages the talent of GF’s Vermont team and their 200mm semiconductor manufacturing experience, and applies it to GaN-on-silicon manufacturing. 200mm is state-of-the-art for GaN chip technology.
“Vermont is a leader in semiconductor innovation. This federal funding is welcome news, and will solidify our state’s position as a leader at the forefront of manufacturing next-generation chips,” said Senator Peter Welch. “It’s critical we support investment in this industry here in Vermont and in the U.S. – both for our local economic growth and for our national security. I look forward to continuing to fight for our domestic semiconductor and chip manufacturers in the Senate.”
“This strategic investment continues to strengthen our domestic ecosystem of critical dual-use commercial technologies, ensuring they’re readily available and secure for DoD utilization. In concert with key partners, we’re proactively shaping the future of our defense systems,” said The Honorable Christopher J. Lowman, Assistant Secretary of Defense for Sustainment.
“GaN on silicon is an ideal technology for high performance radio frequency, high voltage power switching and control applications for emerging markets, and it’s important for 6G wireless communications, industrial IoT, and electric vehicles,” said Dr. Thomas Caulfield, president and CEO of GF.
“GF has a longstanding partnership with the U.S. government, and this funding is critical to move GaN on silicon chips closer to volume production. These chips will enable our customers to realize bold new designs that push the envelope of energy efficiency and performance of critical technologies we rely on every day.”
GF’s facility in Essex Junction, Vermont, near Burlington, was among the first major semiconductor manufacturing sites in the United States. Today around 1,800 GF employees work at the site. Built on GF’s differentiated technologies, these GF-made chips are used in smartphones, automobiles, and communications infrastructure applications around the world.
The facility is a DMEA accredited Trusted Foundry and manufactures secure chips in partnership with the U.S. Department of Defense, for use in some of the nation’s most sensitive aerospace and defense systems.
Original – GlobalFoundries
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EPC Space announces the Grand Opening of their new facility in Andover, Massachusetts. Guests are invited to join the EPC Space team for a day of activities that will explore the possibilities that GaN presents to significantly outperform silicon-based devices and enable higher power densities, higher efficiencies, and more compact and lightweight circuitry for critical spaceborne missions.
Radiation hardened (rad hard) GaN improves the performance of power supplies for satellites and space mission equipment, motor drives for robotics, instrumentation and reaction wheels, lidar for autonomous navigation and docking, and deep space probes.
Event Highlights
- Start the day with a warm welcome and enjoy a welcome reception. Guests will receive drink tickets for the upcoming Cocktail Reception and an automatic entry into an exciting raffle.
- Get a glimpse into EPC Space’s remarkable journey and accomplishments as CEO, Bel Lazar, officially opens the event.
- Witness the ceremonial opening of our new facility.
- Explore our facility with guided tours. Immerse yourself in a product showcase and demonstrations, featuring a dedicated Applications table hosted by EPC Space engineers. They will be available to answer questions and demonstrate real-world applications such as DC-DC, POL, and motor control.
- Book Signing by Dr. Alex Lidow (2:30 PM – 3:30 PM): Take this opportunity to meet with Dr. Alex Lidow, CEO of EPC, and author of “GaN Power Devices and Applications,” who will be available to sign copies.
- Connect with EPC Space experts for personalized discussions and insights into rad hard GaN technology.
- Enter for a chance to win exciting prizes during the raffle.
- Network with fellow attendees and the EPC Space team during the Cocktail Reception.
To attend send an RSVP by October 18, 2023 to info@epc.space
“EPC Space is proud to be at the forefront of providing radiation hardened GaN solutions for power conversion to the aerospace industry and beyond,” said Bel Lazar, CEO of EPC Space. “We are happy to invite our customers and partners to be a part of this event and see first-hand how our technology is shaping the future of high reliability applications”.
Original – EPC Space
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Queensland Semiconductor Technology (Quest) announced opening of its new sales, marketing, assembly and test facility in Coolum Beach. Based very close to the Sunshine Coast airport Quest is now able to ship its power semiconductors to the Australia domestic market. With the airport located within 5 minutes international shipping is swift.
Queensland Semiconductor Technology Pty Ltd stands as a beacon in the semiconductor industry, having established its foundation in Queensland. Quest offers high voltage switching SiC SBD technology that is paramount for transformative applications like electric vehicles, wind farms, and solar power generation. Additionally, product portfolio expands to SiC Mosfets, IGBTs, TCIGBTs & super junction Gan technology plus.
Original – Queensland Semiconductor Technology
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With decades of expertise in power device packaging and testing, JCET Group offers a comprehensive power product portfolio encompassing IGBT, SiC, GaN, and more. In the field of high-density power solutions for automotive applications, JCET’s unique power module technology positions us at the forefront of power main drive solutions.
JCET’s innovative packaging technology for high power density Silicon Carbide (SiC) power modules minimizes parasitic effects and thermal resistance, while our groundbreaking interconnect technology ensures high reliability. Reduced power loss and improved performance, making JCET the preferred choice for high-reliability SiC device packaging for the automotive industry.
The rapid growth of the power semiconductor market in automotive applications is being driven by the acceleration of vehicle electrification. In this evolving landscape, a multitude of power devices find applications in crucial automotive systems such as motor control, DC-DC conversion, air conditioning drives, on-board chargers (OBC), and battery management for electrical vehicles.
According to research by Strategy Analytics, the value of power devices in battery electric vehicles (BEVs) is nearly five times that in traditional fuel vehicles. This is where SiC devices come into play, offering several advantages. SiC devices feature smaller conductor resistors per unit area, higher voltage capabilities, faster switching speeds, and the ability to operate at high temperatures. These characteristics are instrumental in enhancing the power density of the inverter, ultimately leading to improved operational efficiency and extended mileage for electric vehicles under real-world conditions.
JCET combines low stray inductance package technology, advanced interconnect packaging technology, and cutting-edge thermal management solutions, tailoring our packaging processes to meet individual customer requirements. Within this package, a suite of integrated solutions, including the whole-silver sintering process, copper wire bonding, and single-side direct water cooling, is employed.
Furthermore, SiC devices, with their smaller footprint, increased power density, and higher breakdown voltage compared to conventional silicon-based power devices, are at the core of our packaging. When integrated into an 800V platform, SiC devices deliver substantial system advantages, enabling rapid charging and extended mileage. JCET’s unwavering commitment to optimizing packaging technology is evident in our High-Performance Device (HPD) package, which is continuously fine-tuned to excel in SiC high-frequency switching applications.
With the growing adoption of SiC devices across diverse sectors like automotive controllers, charging stations, and photovoltaic energy storage, JCET has pioneered innovative designs encompassing packaging materials, internal connections, and packaging structures. JCET has introduced a range of packaging solutions tailored to meet various user requirements, including:
- 400V platform, A0/A00 vehicles within 70KW: Si Hybrid Package1 solution;
- 400V platform, Class A vehicles between 100-200KW: Si/SiC Hybrid Package Driver solution;
- 800V platform, Class B and luxury cars with 200KW and above: SiC single/double sided heat dissipation solution.
Automotive power devices, including SiC, hold vast market potential and exhibit a high level of technical innovation certainty. This presents a compelling opportunity for device designers and manufacturers. Looking ahead, JCET remains committed to its core mission of advancing power device packaging solutions, We are dedicated to expanding our technology offerings, ensuring our customers have a diverse array of options, helping them integrate more efficient and reliable technologies into the new energy vehicle systems.
Original – JCET
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Transphorm, Inc. introduced three SuperGaN® FETs in TOLL packages with on-resistances of 35, 50, and 72 milliohms. Transphorm’s TOLL package configuration is industry standard, meaning the SuperGaN TOLL FETs can be used as drop-in replacements for any e-mode TOLL solution.
The new devices also offer Transphorm’s proven high voltage dynamic (switching) on-resistance reliability that is generally lacking in leading foundry-based e-mode GaN offerings. To sample the devices, visit Transphorm’s product page: https://www.transphormusa.com/en/products/.
The three surface mount devices (SMDs) support higher power applications operating within an average range of 1 to 3 kilowatts. These power systems are typically found in high performance segments such as computing (AI, server, telecom, data center), energy and industrial (PV inverters, servo motors), and other broad industrial markets which, collectively, have a current global GaN TAM of $2.5B. Notably, the FETs are optimal solutions for today’s rapidly expanding AI systems that rely on GPUs requiring 10 to 15 times the power of traditional CPUs.
Transphorm’s high power GaN devices are already widely supplied to leading customers who use them to power in-production high performance systems including datacenter power supplies, high power gaming PSUs, UPSes, and microinverters. These applications can also be supported by the TOLL devices as can electric-vehicle-based DC-to-DC converters and onboard chargers, with the underlying SuperGaN die already automotive (AEC-Q101) qualified.
The SuperGaN TOLL FETs represent the sixth package type offered by Transphorm, giving customers the widest selection of packages to meet their unique design requirements. As with all Transphorm products, the TOLL devices harness the inherent performance and reliability advantages made possible by the normally-off d-mode SuperGaN platform.
For a detailed competitive analysis between SuperGaN and e-mode GaN, download the company’s latest white paper titled The Fundamental Advantages of d-Mode GaN in Cascode Configuration. The white paper’s conclusion aligns with a head-to-head comparison released earlier this year showing the 72 milliohm SuperGaN FETs outperforming larger 50 milliohm e-mode devices in a commercially available 280 W gaming laptop charger.
SuperGaN devices lead the market with unmatched:
- Reliability at < 0.03 FIT
- Gate safety margin at ± 20 V
- Noise immunity at 4 V
- Temperature coefficient of resistance (TCR) at 20% lower than e-mode
- Drive flexibility with standard drivers and protection circuits readily available in silicon-based controllers/drivers
Device Specifications
The robust 650 V SuperGaN TOLL devices are JEDEC qualified. Because the normally-off d-mode platform pairs the GaN HEMT with a low voltage silicon MOSFET, the SuperGaN FETs are easy to drive with commonly used off-the-shelf gate drivers. They can be used in various hard- and soft-switching AC-to-DC, DC-to-DC, and DC-to-AC topologies to increase power density while reducing system size, weight, and overall cost.Part Dimensions (mm) RDS(on) (mΩ) typ RDS(on) (mΩ) max Vth (V) typ Id (25°C) (A) max TP65H035G4QS 10 x 12 35 41 4 46.5 TP65H050G4QS 10 x 12 50 60 4 34 TP65H070G4QS 10 x 12 72 85 4 29 Original – Transphorm
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Supplier of semiconductor epiwafers, SweGaN, recently began the transformation from start-up to scale-up. AFRY is assisting SweGaN’s scale-up journey with a wide variety of services to build a new state-of-the-art production facility in Linköping. A rapidly growing global sector, semiconductors – are key component within electric vehicles, solar inverters, power supplies and more – all contributing towards a more sustainable society.
AFRY’s cyber security experts are guiding SweGan in securing its IP (Immaterial Properties) and trade secrets and ensuring customer integrity. Additionally, AFRY is providing a bouquet of expert professional services including IT, OT, ERP, CE marking, construction of the new production facility, server room construction, electrical, security, work environment, quality assurance, risk management and project management.
“Initially, we asked AFRY to support and secure our cyber security operations. After understanding AFRY’s wide range of competencies and services, we determined it would be highly favourable to bring all professional services for the new facility under one roof. Partnering with AFRY, we can now focus SweGaN resources on our growth and expansion goals,” says Henrik Tölander, COO SweGaN.
“I am very proud that SweGaN chose us for this project. The client saw the value of one supplier for all their professional service needs. As SweGaN’s full service provider, we can gain a comprehensive, holistic overview of their needs and offer a customer-tailored solution,” says Michael Blom, Section Manager at AFRY.
The opening of the semiconductor production facility will enable Sweden, and in extension Europe, to strengthen the European supply chain and compete against Taiwan, China, the U.S, South Korea and Japan – currently the main providers of semiconductors. Increased access to robust semiconductor offerings in Europe will make it easier to develop and produce electric vehicles, solar inverters, and power supplies in Europe, while also reducing dependency on competing countries.
Original – AFRY
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Solitron Devices has acquired Micro Engineering Inc. located in Apopka, FL. Specializing in highly integrated, high reliability assemblies, Micro Engineering has over forty years of experience servicing medical, industrial, and aerospace applications.
Focused on low to mid volume production, Micro Engineering offers services from conceptual design and prototyping to full turnkey manufacturing and functionally tested assemblies. Additional services include hand assembly, wire harnessing, specialized coatings and full box builds.
Mark Matson, Solitron President & COO, said, “Micro Engineering is an exceptionally synergistic fit with Solitron, expanding and complimenting engineering and manufacturing capabilities. Solitron’s expertise with chip and wire, silicon carbide and high-density multi-chip modules combined with Micro Engineering’s PCBA, SMT and system level box build capability offers a strong suite of technology to customers.
This new capability for increased functionality and power density will accelerate introductions into emerging markets particularly utilizing Silicon Carbide (SiC) and Gallium Nitride (GaN). The combination of Solitron and Micro Engineering will also broaden both companies’ presence in medical, high end industrial and aerospace applications.”
Combined manufacturing capabilities now include 3D CAD modelling, 3D Printing, CAE machining, aluminum & gold wire bonding, void free soldering, fine pitch SMT for BGA’s, rigid, flex and double-sided circuit card assemblies; right up through full box builds. Product qualification infrastructure includes thermal shock, vibration, mechanical shock, centrifuge, salt spray atmosphere, burn-in and more. Micro engineering is ISO-9001 registered.
Original – Solitron Devices
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SEMICON Taiwan 2023 once again underscored Taiwan’s strategic importance in the global semiconductor industry. Entering its 28th year, the event was held in Taipei, gathering 950 exhibitors with 3,000 booths and attracting more than 62,000 visitors. The sheer scale of participation was evident in the hour-long traffic queues and bustling metro platforms as people flocked into the Exhibition Halls.
Innovations and sustainability were the focal points of this year’s show. Distinguished figures from the industry took the stage to emphasize the resilience of the semiconductor supply chain and envision a greener and more intelligent future enabled by semiconductors. Fueled by tremendous opportunities in artificial intelligence, communications, and automotive electronics, the semiconductor industry is poised to expand to a trillion-dollar market by the close of this decade despite the short-term cyclical downturns.
Reshaping Mobility with Power Semiconductors
This year, energy efficiency came to the forefront of innovations, especially among applications that have far-reaching impacts on the global economy, with electric vehicles being one.
Electrification and autonomous trends continue to drive up the semiconductor content per vehicle. Wide bandgap semiconductors like SiC and GaN have emerged as pivotal players, making substantial contributions to the performance and efficiency of next-generation electric vehicles.
It was exciting to see industry key players illustrate significant improvements achieved by new-generation semiconductors in terms of power efficiency, power density, and connectivity. Research firms estimate that silicon-based semiconductors will grow at a CAGR of 4% from 2022 to 2028, while SiC will grow at 31% and GaN at 49%, highlighting the growth potential of wide bandgap semiconductors.
More Data, More Computing Power, More Energy Consumption
The rapid adoption of artificial intelligence applications in every aspect of our lives presents a significant opportunity for the semiconductor industry. The recent breakthroughs in artificial intelligence, like generative AI, are made possible by the progress of semiconductor technologies, which were on full display at this year’s expo.
The computing power and the memory access required for AI applications are still growing at an unprecedented pace, and the energy consumption is proportional to the computing capability. More efficient energy conversion and distribution solutions are critical for data centers to accommodate increasing energy-intensive workloads.
Key takeaways Summary
- SEMICON Taiwan once again turned out to be an enlightening event, fostering the exchange of experiences and the dissemination of ingenious ideas.
- Energy efficiency challenges overall system performance as electronic devices become versatile and highly integrated. GaN power semiconductors are a low-cost and reliable solution to tackle power challenges for power-hungry applications.
- Technology advancement hinges on two significant investments: innovation and talent. We’re pleased to note these were repeatedly addressed in keynotes and presentations at this year’s event.
Original – GaN Systems
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GaN Systems announced the introduction of its groundbreaking 4th generation GaN power platform. This state-of-the-art technology sets a new power efficiency and compactness standard, delivering an impressive step-function performance boost and industry-leading figures of merit. For example, with GaN Systems Gen4 in an artificial intelligence (AI) server rack, 3.2kW power supplies at 100W/in3 in 2022 are now achieving 120W/in3 with efficiencies above Titanium levels. Gen4 will revolutionize power markets, including consumer electronics, data centers, solar energy, industrial applications, and automotive.
The Gen4 platform also delivers more total bill of material cost savings compared to traditional Silicon and Silicon Carbide solutions, making GaN Systems’ technology a powerful choice for businesses seeking to enhance their competitive advantage.
“Our lead customers have already realized the benefits of our Gen4 platform,” stated Jim Witham, CEO of GaN Systems. “This platform is a testament to our ongoing commitment to continuously delivering superior performance advantages and next-generation levels of efficiency. GaN Systems, in strategic collaboration with industry leaders like TSMC, has invested significantly to meet the ever-evolving demands of our customers. We are pioneering a transformation in product offerings, packaging innovations, enriched functionalities, and unparalleled performance across our markets.”
A Huge Leap for Power Electronics Technology
The Gen4 power platform boasts the following benefits:
- >20% improvement in input and output figures-of-merit translates into reduced losses, enhanced efficiency, and more cost-effective solutions.
- Increased granularity in device specification, combined with a wide range of packaging options, including PDFN, TOLL, TOLT, and Embedded – allowing the correct Rds resistance and package combination for each application, consequently optimizing electrical and thermal system performance.
- 700V E-mode with the industry’s highest transient voltage rating, 850V, significantly enhancing total system reliability and robustness. This rating enables the semiconductor components to withstand user environment anomalies, such as voltage spikes, ensuring uninterrupted and dependable performance.
- On-state resistance ranges enable power systems from 20W to 25,000W.
For more information, visit https://gansystems.com/gan-transistors/gen-4/
Original – GaN Systems
