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ROHM’s Three-Phase Brushless DC Motor Gate Driver Achieving FET Heat Reduction while Suppressing EMI

　　ROHM has developed the “BD67871MWV-Z” three-phase brushless DC motor gate driver for medium voltage applications (12 to 48V systems). By incorporating ROHM’s proprietary gate drive technology TriC3™, it greatly reduces FET’s switching loss while maintaining low EMI – traditionally a trade-off in motor driver ICs.　　Motors account for approximately 60% of global electricity consumption, making control technology which affects energy efficiency, increasingly critical. In 12V to 48V motor drive applications, a simple configuration where an MCU controls three gate drivers has been the mainstream. However, in recent years, demands for high efficiency and precise control have grown, accelerating the adoption of solutions combining an MCU with an integrated three-phase motor driver. Further, a technical challenge in three-phase motor drivers has been the trade-off between “power consumption reduction” and “noise / EMI (electro-magnetic interference) reduction,”.　　BD67871MWV-Z features ROHM's proprietary Active Gate Drive technology “TriC3™”, which rapidly senses voltage information from the external power FETs and adjust gate drive current accordingly in real-time. This greatly reduces FETs’ switching loss (and hence heat generation) FET power consumption during switching while simultaneously suppressing ringing to achieve low EMI.　　Compared to ROHM's conventional constant-current drive products, TriC3™ gate drive has been demonstrated in actual motors that FET heat generation by approximately 35% while maintaining equivalent EMI levels. Furthermore, BD67871MWV-Z adopts UQFN28 package and pin layout which are commonly used in motor driver ICs for medium-voltage industrial equipment applications, contributing to reduced engineering effort required in circuit modifications and new designs.　　Mass production of the new product commenced in September 2025 (sample price: $5.5/unit, tax excluded).　　ROHM also offer general-purpose motor drivers (BD67870MWV-Z, BD67872MWV-Z) with the same package and pin configuration as the new product, designed for constant-voltage drive. From general-purpose types to the value-added types featuring the new TriC3™, we offer a comprehensive product lineup to supports a wide variety of applications and use cases. We are committed to contributing to improved motor efficiency, enhanced application functionality, and reduced power consumption.　　Application Examples　　•Industrial Equipment: Various motors such as electric drills/drivers and industrial fans　　•Consumer Appliances: Various motors used in vacuum cleaners, air purifiers, air conditioners, ventilation fans and E-bikes (electric-assist sports bicycles)　　TriC3™　　A multi-step constant current drive technology developed by ROHM. By controlling gate current in three steps, it achieves high-speed, high-efficiency operation while minimizing EMI by suppressing ringing.　　• TriC3™ is a trademark or registered trademark of ROHM Co., Ltd.　　Terminology　　EMI (Electromagnetic Interference)　　EMI is used as an indicator of how much noise a product generates during operation, potentially causing malfunctions in surrounding ICs or systems. “Low EMI” means the product generates less noise.　　Ringing　　High-frequency oscillations or overshoot occurring during switching. This arises from the resonation between inductance and capacitance, including parasitic elements in the circuit. In the context of motor driving, ringing happens when the power MOSFETs are turned on and off.

Key word：

ROHM

Release time：2025-11-21 16:54 reading：325 Continue reading>>

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Murata expands lineup of high cutoff frequency chip common mode choke coils in 0504-inch size for automotive high-speed differential interfaces

　　Murata Manufacturing Co., Ltd. (hereinafter ‘Murata’) has added a high cutoff frequency*1 product to its lineup of noise suppression components, the 0504-inch size (1.25 x1.0mm) chip common mode choke coils ‘‘DLM11C_HH2 Series’’ (hereinafter, ‘the product’), suitable for automotive high-speed differential interfaces such as LVDS*2, SerDes*3, USB, and HDMI. Murata has already started mass production of this product.　　*1High cutoff frequency: Reduces high-frequency noise.　　*2LVDS (Low Voltage Differential Signaling): An interface used for LCD panels.　　*3SerDes (Serializer/Deserializer): Circuits that convert between the serial and parallel signals in each direction.　　In recent years, the automotive market has seen multiple USB ports installed in each vehicle seat as interfaces for connecting smartphones and PCs, and data transfer speeds have increased from conventional USB 2.0 to Gbps-class USB 3.2. For these differential interfaces, common mode noise suppression is essential, and small common mode choke coils that support high-speed signals are required. In response, Murata developed this product using proprietary lamination technology to reduce high-frequency noise above 7.5 GHz in a compact 0504-inch size.　　Specifications　　*4AEC-Q200: One of the standards defined by the Automotive Electronics Council (AEC).

Key word：

Murata

Release time：2025-11-10 17:12 reading：368 Continue reading>>

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Panasonic Industry Commercializes Conductive Polymer Tantalum Solid Capacitors (POSCAP) with The Industry's Lowest Profile*1 to Support High-Output Power Delivery Required for USB Type-C Connections

　　Panasonic Industry Co., Ltd., a Panasonic Group company, announced that it will begin commercial production of its two models of Conductive Polymer Tantalum Solid Capacitors (POSCAP), 50TQT33M and 63TQT22M. These capacitors are incorporated into power circuits used for information and communication equipment, including laptops and tablets. They offer an ultra-high withstand voltage and high capacitance in a body with the industry’s lowest profile of 3 mm, supporting high-output power delivery through USB Type-C connectors. Mass production for these models is planned to start in December 2025.　　These capacitors are ideal for voltage stabilization and noise reduction in power supplies compliant with USB Power Delivery (USB-PD)[1] 3.1. While previous USB-C connectors supplied up to 100 W (20 V/5 A), USB-PD 3.1 expands this to 240 W (48 V/5 A). This enables widespread use of USB-C connectors for high-speed data transfer and rapid charging, and is expected to further expand applications to larger equipment requiring high power output, such as displays.　　On the other hand, information and communication equipment such as laptops are increasingly required to be thinner and more compact. Capacitors therefore must combine an ultra-high withstand voltage, high capacitance, and a low profile in order to fit into limited space. Panasonic Industry began mass production of Conductive Polymer Tantalum Solid Capacitors (POSCAP) in 1997 and, as an industry leader, has continuously delivered first-of-their-kind products. Leveraging proprietary powder molding technology and film formation technologies, the company has newly developed two models that achieve both an ultra-high withstand voltage and high capacitance in a package with the industry's lowest profile of 3 mm.　　Through these unique device technologies, Panasonic Industry will continue to contribute to enhancing the functionality of electronic equipment, including laptops, while also reducing the environmental impact through smaller, lighter devices and lower material usage.　　Key features:　　1. Achieves both an ultra-high withstand voltage and high capacitance*2 to support high-output USB Type-C power delivery, in a 3 mm profile—the lowest in the industry*1—enabled by proprietary powder molding and film formation technologies　　2. Lineup of USB-PD 3.1-compliant models rated at 50 V and 63 V　　3. Contributes to reduced material usage lower environmental impact through low-profile design　　*1 As of September 18, 2025, Conductive polymer tantalum solid capacitors with rated voltages of 50 V and 63 V and capacitance of 22 μF or higher (Panasonic Industry data)　　*2 USB-Power Delivery 3.1 (180 W/240 W output) compliant high-capacitance conductive polymer tantalum solid capacitors with rated voltages of 50 V and 63 V, and a capacitance of 22 μF or higherDetailed features:　　1. Achieves both an ultra-high withstand voltage and high capacitance to support high-output USB Type-C power delivery, in a 3 mm profile—the lowest in the industry—enabled by proprietary powder molding and film formation technologies　　To achieve capacitor performance required for USB-PD 3.1 power supplies in a low-profile body, both high capacitance and a high withstand voltage must be ensured, despite their trade-off relationship. High-capacitance tantalum powder is necessary for electrode materials, but its fine particle size makes molding difficult, creating challenges for stable production. Forming a uniform dielectric film on the surface of the electrodes is important for enhancing the withstand voltage. However, since electrodes made with high-capacitance tantalum powder contain extremely small internal pores, dielectric oxide films tend to develop imperfections.　　Panasonic Industry overcame these challenges by establishing proprietary technology to mold high-capacitance tantalum powder with uniform density, and by optimizing the film deposition process to create flawless dielectric films. This enabled the development of two new models that combine an ultra-high withstand voltage and high capacitance, meeting the USB-C high-output power delivery requirements in a 3 mm low-profile package.Cross-sectional view of POSCAP and enlarged view of the inside of the electrode body　　2. Lineup of USB-PD 3.1-compliant models rated at 50 V and 63 V　　Until now, Panasonic Industry’s POSCAP lineup extended only up to 35 V, with no models compatible with USB-PD 3.1, which extends the rated voltage specification to 36 V (180 W) and 48 V (240 W). The two new models, rated at 50 V and 63 V, each achieve a high capacitance of 22 μF or higher in a package with the industry's lowest profile of 3 mm. The full lineup provides flexibility to meet diverse applications and equipment specifications.　　3. Contributes to reduced material usage lower environmental impact through low-profile design　　Compared to the industry standard size*3, the new models reduce volume by 25%, contributing to a lower environmental impact through reduced material usage.　　*3 Comparison with the industry standard size (7.3 mm × 4.3 mm × 4 mm) of conductive polymer tantalum solid capacitors used in USB-PD 3.1 compliant power suppliesApplications:　　Voltage stabilization and noise reduction of USB-PD 3.1-compliant power supplies for laptops, displays, and peripheral equipment　　Arc discharge[2] countermeasures for USB-PD 3.1-compliant connectors　　Specifications:　　Life: 2,000 hours at 105°C; guaranteed operating temperature range: -55°C to 105°C　　Ripple current[3]: 100 kHz, 105°C　　ESR[4]: 100 kHz, 20°C　　*4 Product dimensional tolerance:　　Length (L): ±0.3 mm; Width (W): ±0.2 mm; Height (H): ±0.2 mmTerm descriptions:　　[1] USB-PD　　The power delivery standards established by the standard-setting organization USB Implementers Forum, Inc. (USB-IF). With the launch of USB-PD 3.1 in 2021, USB Type-C cables and connectors can now deliver up to 240 W of power, supporting a wide range of applications—from smartphones and laptops to larger equipment such as monitors.　　[2] Arc discharge　　An electric spark or discharge phenomenon that occurs when a high current flows at low voltage in electrical circuits.　　[3] Ripple current　　When a voltage fluctuation is applied to a capacitor, a corresponding charging or discharging current flows through the capacitor. The current applied to this capacitor is referred to as a ripple current. The higher the ripple current, the higher the allowable current.　　[4] ESR (Equivalent Series Resistance)　　Represents the value of an internal resistance component that can cause heat generation. Capacitors with lower ESR allow higher ripple currents and provide excellent noise absorption.

Key word：

Panasonic

Release time：2025-11-06 15:35 reading：455 Continue reading>>

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GigaDevice GD32F5xx and GD32G5xx Software Test Libraries (STL) Receive TÜV Rheinland IEC 61508 Functional Safety Certification

　　GigaDevice, a leading semiconductor company specializing in Flash memory, 32-bit microcontrollers (MCUs), sensors, and analog products, announced that its GD32F5xx and GD32G5xx Software Test Libraries have received IEC 61508 SC3 (SIL 2/SIL 3) functional safety certification from TÜV Rheinland.　　This milestone expands GigaDevice’s functional safety portfolio, which already includes the GD32H7 and GD32F30x STLs, and now covers a broad range of MCUs with Arm® Cortex®-M7, Cortex®-M4, and Cortex®-M33 cores. Building on this foundation, GigaDevice will continue to deliver high-performance and safety-focused hardware and software solutions for key applications such as industrial control, energy and power, and humanoid robotics.　　With the growing emphasis on safety across industries like industrial automation, functional safety has become a critical consideration in embedded system design. The GD32F5xx and GD32G5xx MCUs, based on the Arm® Cortex®-M33 core, have become key solutions for high-performance applications requiring robust safety measures.　　The GD32F5xx series is optimized for applications in energy and power management, photovoltaic energy storage, and industrial automation, where high precision and reliable control are essential.　　The GD32G5xx series combines excellent processing performance with a wide range of digital and analog interfaces. It is available in compact packages such as 81-pin WLCSP81 (4x4mm), making it ideal for applications in humanoid robotics, digital power systems, charging stations, energy storage inverters, servo motors, and optical communications.　　The GigaDevice STLs monitor GD32F5xx and GD32G5xx MCU modules in real-time to detect hardware faults. If a fault is detected, predefined safety mechanisms will be triggered to ensure the MCU always remains in a safe state, reducing potential risks and enhancing system reliability.　　This certification highlights GigaDevice's deep expertise in functional safety system design and its commitment to meeting the highest international safety standards, reinforcing its position as a trusted provider of secure, high-performance solutions for mission-critical industries.　　About GigaDevice　　GigaDevice Semiconductor Inc. is a global leading fabless supplier. Founded in April 2005, the company has continuously expanded its international footprint and established its global headquarters in Singapore in 2025. Today, GigaDevice operates branch offices across numerous countries and regions, providing localized support at customers' fingertips. Committed to building a complete ecosystem with major product lines – Flash memory, MCU, sensor and analog – as the core driving force, GigaDevice can provide a wide range of solutions and services in the fields of industrial, automotive, computing, consumer electronics, IoT, mobile, networking and communications. GigaDevice has received the ISO26262:2018 automotive functional safety ASIL D certification, IEC 61508 functional safety product certification, as well as ISO9001, ISO14001, ISO45001, and Duns certifications. In a constant quest to expand our technology offering to customers, GigaDevice has also formed strategic alliances with leading foundries, assembly, and test plants to streamline supply chain management.

Key word：

GigaDevice

Release time：2025-11-04 17:01 reading：525 Continue reading>>

Trade news

ROHM Develops Breakthrough Schottky Barrier Diode Combining Low VF and IR for Advanced Image Sensor Protection

　　ROHM has developed an innovative Schottky barrier diode that overcomes the traditional VF / IR trade-off. This way, it delivers high reliability protection for a wide range of high-resolution image sensor applications, including ADAS cameras.　　Modern ADAS cameras and similar systems require higher pixel counts to meet the demand for greater precision. This has created a growing concern – the risk of damage caused by photovoltaic voltage generated under light exposure during power OFF. While low-VF SBDs are effective countermeasures, low IR is also essential during operation to prevent thermal runaway. However, simultaneously achieving both low VF and IR has been a longstanding technical challenge. ROHM has overcome this hurdle by fundamentally redesigning the device structure – successfully developing an SBD that combines low VF with low IR which is ideal for protection applications.　　The RBE01VYM6AFH represents a novel concept: leveraging the low-VF characteristics of rectification SBDs for protection purposes. By adopting a proprietary architecture, ROHM has achieved low IR that is typically difficult to realize with low VF designs. As a result, even under harsh environmental conditions, the device meets market requirements by delivering VF of less than 300mV (at IF=7.5mA even at Ta=-40°C), and an IR of less than 20mA (at VR=3V even at Ta=125°C.) These exceptional characteristics not only prevent circuit damage caused by high photovoltaic voltage generated when powered OFF, but also significantly reduce the risk of thermal runaway and malfunction during operation.　　The diode is housed in a compact flat-lead SOD-323HE package (2.5mm × 1.4mm / 0.098inch × 0.055inch) that offers both space efficiency and excellent mountability. This enables support for space-constrained applications such as automotive cameras, industrial equipment, and security systems. The RBE01VYM6AFH is also AEC-Q101 qualified, ensuring suitability as a protection device for next-generation automotive electronics requiring high reliability and long-term stability.　　Going forward, ROHM will focus on expanding its lineup with even smaller packages to address continuing miniaturization demands.　　Key Specifications　　Application Examples　　Image sensor-equipped sets such as ADAS cameras, smart intercoms, security cameras, and home IoT devices.　　Terminology　　Photovoltaic Voltage　　A term commonly used with optical sensors, referring to the voltage produced when exposed to light. In general, the stronger the light intensity or higher the pixel count the greater voltage generated.

Key word：

ROHM

Release time：2025-10-27 16:49 reading：448 Continue reading>>

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GigaDevice Deepens Commitment to Japan, Advancing Local Services and Global Collaboration

　　GigaDevice, a leading semiconductor company specializing in Flash memory, 32-bit microcontrollers (MCUs), sensors, and analog products, has officially opened its new office in Minato City, Tokyo. This milestone reflects the company's deepening commitment to the Japanese market and marks a significant step in enhancing local customer support, strengthening regional collaboration, and advancing its global development efforts.　　Japan has long served as a vital pillar of GigaDevice's global strategy. Over the years, the company has expanded its local team, refined operation to meet evolving customer needs, and established a responsive professional service system. This new office will further enhance GigaDevice's technical responsiveness and agility, foster closer collaboration with customers, and help accelerate product validation and commercialization in today's fast-changing market landscape.　　Working closely with customers in Japan, GigaDevice has broadened the adoption of its solutions across key application sectors such as industrial, automotive, consumer electronics, and the Internet of Things. At the same time, the company continues to deepen cooperation with local partners in supply chain integration and ecosystem development, offering a comprehensive portfolio of Flash memory, MCU, sensor, and analog solutions that have earned broad market recognition.　　"Japan has always been a vital component of our global strategy," said Jennifer Zhao, GigaDevice Global Business CEO. "We will continue to leverage our global synergy and strengthen local service capabilities to drive product innovation and industry advancement alongside our customers and partners."　　"We greatly value the trust and long-term partnerships we have built with our customers in Japan," added Sam Li, GigaDevice Japan Regional GM, "In a market that's becoming increasingly complex, our goal is to consistently deliver exceptional service and competitive products that meet diverse business needs and create lasting value."　　As one of GigaDevice's key customers, Nidec Corporation has been working closely with the company. Ryuji Omura, Head of Nidec Semiconductor Solutions Center, commented: "GigaDevice's rapid growth and technological innovation, along with its genuine commitment to customers, have built a solid foundation of trust between our companies and made it one of our most valued supplier partners. We look forward to seeing GigaDevice continue to lead the semiconductor industry and contribute to the advancement of society."　　As a global leading fabless supplier, GigaDevice continues to combine global synergy with localized execution. Following the establishment of its global headquarters in Singapore, the company has strengthened its presence across Asia, Europe, and the Americas, building a responsive, demand-driven sales and service network. Looking ahead, GigaDevice will continue to invest in Japan, refining its product offerings, enhancing its service delivery, and expanding its collaborative mechanisms to drive a smarter, more efficient, and sustainable future together with its customers and partners.

Key word：

GigaDevice

Release time：2025-10-21 16:49 reading：581 Continue reading>>

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TAIYO YUDEN Commercializes 1005M-Size Embeddable Multilayer Ceramic Capacitor with 22-μF Capacitance for AI Servers

　　TAIYO YUDEN CO., LTD. has commercialized and begun mass production of embeddable multilayer ceramic capacitor (MLCC) that achieves a capacitance of 22-μF in a 1005M size (1.0 x 0.5 mm).　　This ceramic capacitor is an MLCC designed for decoupling applications on IC power lines used in AI servers and other types of information devices.　　Components embedded in a board require high precision in terms of flatness of the external electrodes for connection to the circuit. With respect to this requirement, TAIYO YUDEN has commercialized an embeddable MLCC that achieves a 22-μF capacitance in a 1005M size by enhancing external electrode formation technology and other elemental technologies.　　Mass production of the capacitor began at our Tamamura Plant (Sawa District, Gunma Prefecture) in August 2025. Samples are available for 20 yen per unit.　　Technology Background　　AI servers and other types of devices with advanced information processing capabilities are equipped with ICs that consume extremely large amounts of power. For decoupling purposes in such power supply circuits, small, high-capacity MLCCs are required to handle large currents.　　Additionally, to minimize circuit loss and noise, it is important to route the power supply circuit close to the ICs. Traditional power supply circuits are routed around ICs. But, technological developments are progressing, allowing them to be placed closer, such as on the back of the board or directly under the ICs. Thus, embeddable MLCCs need to be equipped with high-precision external electrodes to connect to the lines.　　To satisfy this need, TAIYO YUDEN has improved its external electrode formation technology and commercialized 1005M-size embeddable MLCC with a capacitance of 22 μF.　　TAIYO YUDEN is continuing to develop new MLCCs with higher capacitance and other distinguishing features.　　■ Application　　Decoupling applications on IC power lines used in AI servers and other types of information devices

Key word：

TAIYO

Release time：2025-10-20 16:40 reading：452 Continue reading>>

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ROHM Publishes White Paper on Power Solutions for Next-Generation 800 VDC Architecture Aligned with the Industry's 800 VDC Roadmap to Enable Gigawatt-Scale AI Infrastructure

　　ROHM has released a new white paper detailing advanced power solutions for AI data centers based on the novel 800 VDC architecture, reinforcing its role as a key semiconductor industry player in driving system innovation.　　As part of the collaboration announced in June 2025, the white paper outlines optimal power strategies that support large-scale 800 VDC power distribution across AI infrastructure.　　The 800 VDC architecture represents a highly efficient, scalable power delivery system poised to transform data center design by enabling gigawatt-scale AI factories. ROHM offers a broad portfolio of power devices, including silicon (Si), silicon carbide (SiC), and gallium nitride (GaN), and is among the few companies globally with the technological expertise to develop analog ICs (control and power ICs) capable of maximizing device performance.　　Included in the white paper are ROHM’s comprehensive power solutions spanning a wide range of power devices and analog IC technologies, supported by thermal design simulations, board-level design strategies, and real-world implementation examples.　　[Access the white paper here]　　Key Highlights of the White Paper• Rising Rack Power Consumption: Power demand per rack in AI data centers is rapidly increasing, pushing conventional 48V/12V DC power supply systems to their limits.　　• Shift to 800 VDC: Transitioning to an 800 VDC architecture significantly enhances data center efficiency, power density, and sustainability.　　• Redefined Power Conversion: In the 800 VDC system, AC-DC conversion (PSU), traditionally performed within server racks, is relocated to a dedicated power rack.　　• Essential Role of SiC and GaN: Wide bandgap devices are critical for achieving efficient performance. With AC-DC conversion moved outside the IT rack, higher-density configurations inside the IT rack can better support GPU integration.　　• Optimized Conversion Topologies: Each conversion stage—from AC to 800 VDC in the power rack and from 800 VDC to lower voltages in the IT rack—requires specialized solutions. ROHM’s SiC and GaN devices contribute to higher efficiency and reduced noise while decreasing the size of peripheral components, significantly increasing power density.　　• Breakthrough Device Technologies: ROHM’s EcoSiC™ series offers industry-leading low on-resistance and top-side cooling modules ideal for AI servers, while the EcoGaN™ series combines GaN performance with proprietary analog IC technologies, including Nano Pulse Control™.　This allows for stable gate drive, ultra-fast control, and high-frequency operation–features that have earned strong market recognition.　　The shift to 800 VDC infrastructure is a collective industry effort. ROHM is working closely with NVIDIA, data center operators, and power system designers to deliver essential wide bandgap semiconductor technologies for next-generation AI infrastructure. Through strategic collaborations, including a 2022 partnership with Delta Electronics, ROHM continues to drive innovation in SiC and GaN power devices, enabling powerful, sustainable, and energy-efficient data center solutions.　　ROHM’s EcoSiC™　　EcoSiC™ is ROHM’s brand of devices that utilize silicon carbide, which is attracting attention in the power device field for performance that surpasses silicon. ROHM independently develops technologies essential for the advancement of SiC, from wafer fabrication and production processes to packaging, and quality control methods. At the same time, we have established an integrated production system throughout the manufacturing process, solidifying our position as a leading SiC supplier.　　・EcoSiC™ is a trademark or registered trademark of ROHM Co., Ltd.

Key word：

ROHM

Release time：2025-10-15 11:50 reading：635 Continue reading>>

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Renesas Powers 800 Volt Direct Current AI Data Center Architecture with Next-Generation Power Semiconductors

　　Renesas Electronics Corporation (TSE:6723), a premier supplier of advanced semiconductor solutions, announced that it is supporting efficient power conversion and distribution for the 800 Volt Direct Current power architecture announced by NVIDIA, helping fuel the next wave of smarter, faster AI infrastructure.　　As GPU-driven AI workloads intensify and data center power consumption scales into multi-hundred megawatt territory, modern data centers must adopt power architectures that are both energy optimized and scalable. Wide bandgap semiconductors such as GaN FET switches are quickly emerging as a key solution thanks to their faster switching, lower energy losses, and superior thermal management. Moreover, GaN power devices will enable the development of 800V direct current buses within racks to significantly reduce distribution losses and the need for large bus bars, while still supporting reuse of 48V components via DC/DC step-down converters.　　Renesas’ GaN based power solutions are especially suited for the task, supporting efficient and dense DC/DC power conversion with operating voltages of 48V to as high as 400V, with the option to stack up to 800V. Based on the LLC Direct Current Transformer (LLC DCX) topology, these converters achieve up to 98 percent efficiency. For the AC/DC front-end, Renesas uses bi-directional GaN switches to simplify rectifier designs and increase power density. Renesas REXFET MOSFETs, drivers and controllers complement the BOM of the new DC/DC converters. 　　“AI is transforming industries at an unprecedented pace, and the power infrastructure must evolve just as quickly to meet the explosive power demands,” said Zaher Baidas, Senior Vice President and General Manager of Power at Renesas. “Renesas is helping power the future of AI with high-density energy solutions built for scale, supported by our full portfolio of GaN FETs, MOSFETs, controllers and drivers. These innovations will deliver performance and efficiency, with the scalability required for future growth.”　　Renesas Power Management Leadership　　A world leader in power management ICs, Renesas ships more than 1.5 billion units per year, with increased shipments serving the computing industry, and the remainder supporting industrial and Internet of Things applications as well as data center and communications infrastructure. Renesas has the broadest portfolio of power management devices, delivering unmatched quality and efficiency with exceptional battery life. As a trusted supplier, Renesas has decades of experience designing power management ICs, backed by a dual-source production model, the industry’s most advanced process technology, and a vast network of more than 250 ecosystem partners.　　About Renesas Electronics Corporation　　Renesas Electronics Corporation (TSE: 6723) empowers a safer, smarter and more sustainable future where technology helps make our lives easier. A leading global provider of microcontrollers, Renesas combines our expertise in embedded processing, analog, power and connectivity to deliver complete semiconductor solutions. These Winning Combinations accelerate time to market for automotive, industrial, infrastructure and IoT applications, enabling billions of connected, intelligent devices that enhance the way people work and live.

Key word：

Renesas

Release time：2025-10-13 13:29 reading：607 Continue reading>>

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Driving Innovation Together: NOVOSENSE, UAES and Innoscience Join Forces to Reshape Power Electronics for New Energy Vehicles

　　September 29, 2025 – NOVOSENSE Microelectronics, United Automotive Electronic Systems (UAES) and Innoscience have signed a strategic cooperation agreement to jointly advance power electronics for new energy vehicles (NEVs). The three parties will collaborate on the development of next-generation intelligent integrated Gallium Nitride (GaN) products. Building on their combined expertise, the new devices will deliver more reliable GaN driving and protection features, enabling higher power density and paving the way for commercial adoption across the automotive industry.Signing Ceremony　　GaN as a Key Driver for NEV Innovation　　With its superior material properties, GaN is emerging as a transformative technology in automotive power electronics. Compared to traditional silicon devices, GaN significantly improves system efficiency and power density, allowing for more compact and lighter designs—addressing the core requirements of vehicle electrification and lightweighting.　　Complementary Strengths, Shared Goals　　Through joint R&D and application validation, NOVOSENSE, UAES and Innoscience aim to tackle critical challenges such as efficiency, reliability and cost. Together, the three parties will deliver solutions that combine high performance with competitive economics. NOVOSENSE brings extensive expertise in high-performance analog and mixed-signal IC design. UAES contributes deep knowledge in system integration and automotive applications. Innoscience adds world-leading competence in GaN device technology. This cross-disciplinary collaboration establishes a platform for innovation across the entire value chain, accelerating GaN adoption in next-generation automotive systems.　　Dr. Xiaolu Guo, Deputy General Manager of UAES, said:“UAES has been at the forefront of automotive electronics for decades, consistently responding to industry needs through innovation. GaN technology is a vital enabler for vehicle electrification. Partnering with NOVOSENSE and Innoscience allows us to integrate capabilities from device to system level, driving GaN industrialization and delivering efficient, reliable and cost-effective solutions for our customers.”　　Mr. Shengyang Wang, Founder, Chairman and CEO of NOVOSENSE, commented:“Upgrading the NEV industry requires deep collaboration across the value chain. By combining UAES’s system integration expertise with Innoscience’s GaN leadership and NOVOSENSE’s IC design capabilities, we are creating a powerful synergy. This strategic partnership sets a benchmark for industry collaboration, ensuring both technological breakthroughs and market value creation.”　　Dr. Jingang Wu, CEO of Innoscience, added:“The potential of GaN in automotive power electronics is only beginning to be realized. True impact will come from aligning device innovation with system requirements. We look forward to working closely with NOVOSENSE and UAES to extend the boundaries of GaN applications in automotive electrification and to translate technological advantages into tangible industry benefits.”　　A Step Forward for the Industry　　This strategic cooperation marks a pivotal milestone for all three companies. NOVOSENSE, a leading Chinese automotive semiconductor supplier with nearly one billion automotive ICs shipped, complements UAES’s strong system know-how and Innoscience’s GaN device leadership. Together, the three parties will strengthen the value chain, overcome application bottlenecks, and accelerate the transition of the NEV industry toward higher efficiency and sustainability.

Key word：

NOVOSENSE

Release time：2025-10-09 13:53 reading：602 Continue reading>>

model	brand	Quote
CDZVT2R20B	ROHM Semiconductor
MC33074DR2G	onsemi
BD71847AMWV-E2	ROHM Semiconductor
TL431ACLPR	Texas Instruments
RB751G-40T2R	ROHM Semiconductor

model	brand	To snap up
IPZ40N04S5L4R8ATMA1	Infineon Technologies
STM32F429IGT6	STMicroelectronics
BP3621	ROHM Semiconductor
ESR03EZPJ151	ROHM Semiconductor
TPS63050YFFR	Texas Instruments
BU33JA2MNVX-CTL	ROHM Semiconductor

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