ROHM launches SiC MOSFETs in TOLL package that achieves both miniaturization and high-power capability
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ROHM launches SiC MOSFETs in TOLL package that achieves both miniaturization and high-power capability

  ROHM has begun mass production of the SCT40xxDLL series of SiC MOSFETs in TOLL (TO-Leadless) packages. Compared to conventional packages (TO-263-7L) with equivalent voltage ratings and on-resistance, these new packages offer approximately 39% improved thermal performance. This enables high-power handling despite their compact size and low profile. It is ideal for industrial equipment such as server power supplies and ESS (Energy Storage Systems) where the power density is increasing, and low-profile components are required to enable miniaturized product design.  In applications like AI servers and compact PV inverters, the trend toward higher power ratings is occurring simultaneously with the contradictory demand for miniaturization, requiring power MOSFETs to achieve higher power density. Particularly in totem pole PFC circuits for slim power supplies, often called “the pizza box type,” stringent requirements demand thicknesses of 4mm or less for discrete semiconductors.  ROHM's new product addresses these needs by reducing component footprint by approximately 26% and achieving a low profile of 2.3mm thickness – roughly half that of conventional packaged products. Furthermore, while most standard TOLL package products are limited by a drain-source rated voltage of 650V, ROHM's new products support up to 750V. This allows for lower gate resistance and increased safety margin for surge voltages, contributing to reduced switching losses.  The lineup consists of six models with on-resistance ranging from 13mΩ to 65mΩ, with mass production started in September 2025 (sample price: $37.0/unit, tax excluded).   Product Lineup  Application Examples  ・Industrial equipment: Power supplies for AI servers and data centers, PV inverters, ESS (energy storage systems)  ・Consumer equipment: General power supplies  EcoSiC™ Brand  EcoSiC™ is a brand of devices that utilize silicon carbide (SiC), which is attracting attention in the power device field for performance that surpasses silicon (Si). ROHM independently develops technologies essential for the evolution 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.  Terminology  Totem Pole PFC Circuit  A highly efficient power factor correction circuit configuration that reduces diode losses by using MOSFETs as rectifier elements. The adoption of SiC MOSFETs enables high voltage withstand capability, high efficiency, and high-temperature operation for the power supply.
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Release time:2025-12-04 17:10 reading:220 Continue reading>>
ROHM launches RPR-0730: High-Speed, High-Precision Optical Sensor Featuring VCSEL Technology
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ROHM launches RPR-0730: High-Speed, High-Precision Optical Sensor Featuring VCSEL Technology

  ROHM has developed the “RPR-0730”, analog compact optical sensor, capable of high-precision detection of fast-moving objects. This sensor can be widely utilized in consumer and industrial equipment applications, including printers and conveyor systems.  As industrial and office equipment becomes increasingly sophisticated and automated, there is a growing demand for improved sensing technology accuracy. In applications such as label printers, material or product transport systems, and copiers, the need for technology that can identify objects more accurately is essential. Moreover, increased speed driven by productivity improvements makes the introduction of high-speed, high-precision optical sensors crucial.  The RPR-0730 is a compact reflective optical sensor (photo reflector). It employs an infrared VCSEL, which offers higher directionality than LEDs, enabling detection of finer objects. Furthermore, by using a phototransistor with analog output as the receiver, the sensor achieves a response time of 10µs. This dual combination enables high-speed, accurate identification of fine lines as narrow as 0.1mm - previously difficult to detect with conventional LED light sources. As an addition to the existing digital output sensor “RPR-0720” series, RPR-0730 expands capability to applications requiring faster sensing, such as print detection in copiers, label printers, or rotational detection in motors and gears.  The package is ultra-compact at 2.0mm × 1.0mm × 0.55mm and employs a visible light filtering resin to suppress interference from ambient light or sunlight. This enables stable detection even in environments with varying light conditions, such as factories or outdoors. The sensor can also be easily integrated into equipment requiring installation in small, confined spaces, like inside conveyors or precision instruments, making it suitable for a wider range of applications.  Mass production of the new product commenced in October 2025 (sample price: $2.2/unit, tax excluded).  Going forward, ROHM will continue to leverage its development expertise in light-emitting and light-receiving elements to create sensing products that meet customer needs, contributing to the miniaturization and enhanced convenience of various devices.  Application Examples  •Print detection, paper feed/jam detection in label printers, copiers, shredders, etc.  •Object detection of packages/specimens, workpiece position detection in conveyance systems, automatic inspection equipment, etc.  •Motor/gear rotational detection in industrial robots, etc.  Terminology  Photo reflector  A type of optical sensor combining an emitting element and a receiving element. It illuminates an object and detects the intensity of the reflected light to measure the presence or distance of an object.  VCSELL  Abbreviation for Vertical Cavity Surface Emitting LASER. A type of laser light source, it is a semiconductor laser that can emit light directly from its surface. Compared to LEDs, it offers higher directionality and is suitable for high-precision sensing. Originally adopted for optical communication applications, its use as a light source for proximity sensors and distance sensors has been expanding in recent years.  Phototransistor  A transistor-type photoelectric conversion element that converts optical signals into electrical signals. It integrates a photodiode and a transistor, controlling the base current with light to output an amplified collector current.
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Release time:2025-12-04 17:04 reading:206 Continue reading>>
Murata develops integrated passive device for Semtech’s SX126X family
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Murata develops integrated passive device for Semtech’s SX126X family

  Murata Manufacturing Co., Ltd. has developed a new integrated passive device (IPD) for use with the Semtech LoRa Connect™ SX126x family, which includes the SX1261, SX1262, and LLCC68 products. Using a proprietary low-temperature co-fired ceramic (LTCC) process, Murata has successfully replaced a series of discrete matching components of the SX1261/2 reference design with a single 2.00mm x 1.25mm size LTCC component.  The IPD enables SX1261/2 radio designers to optimize for both size and performance using two dedicated parts. The LFB21892MDZ7F957 is optimized for US and European ISM bands, delivering the full output power for the US FCC bands. The LFB21892MDZ7F821 is optimized for Eurocentric designs that need to maximize the efficiency performance.  “The Murata IPD offers the most efficient development path to realizing the full performance of the SX1261/2, featuring a miniaturized form factor that can significantly reduce board space,” says Arthur Kiang, Product Manager, RF Components, Murata. “The reduction in the number of matching components enables lower material costs and simplifies the design process, leading to shorter lead times. This integration also lowers the probability of soldering and manufacturing issues, as there is only one component to monitor in production.”  “Semtech’s LoRa Connect™ SX126x family has become the trusted choice for LoRaWAN® networks and long-range IoT connectivity in applications from smart metering to industrial sensing,” says Carlo Tinella, product marketing director of wireless and sensing products at Semtech. “Murata’s IPD solution demonstrates the strength of our LoRa® ecosystem, helping radio engineers accelerate development while optimizing for both miniaturization and regulatory compliance. This partnership streamlines the path from design to deployment for millions of IoT devices being deployed globally.”  Product samples are currently available, with mass production of the IPD commencing shortly.
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Release time:2025-11-28 17:33 reading:299 Continue reading>>
ROHM launches wide SOA MOSFET for AI servers in compact 5×6mm package
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ROHM launches wide SOA MOSFET for AI servers in compact 5×6mm package

  ROHM has developed the 100V power MOSFET - RS7P200BM - achieving industry-leading SOA in a 5060-size (5.0mm × 6.0mm) package. This product is ideal for hot-swap circuits in AI servers using 48V power supplies as well as for industrial power supplies requiring battery protection.  The rapid evolution and widespread adoption of AI technologies have increased the demand for stable operation and improved power efficiency in servers equipped with generative AI and high-performance GPUs. Particularly in hot-swap circuits, power MOSFETs with wide SOA are essential to handle inrush current and overload conditions, ensuring stable operation. Furthermore, within data centers and AI servers, the transition towards 48V power supplies, which offer superior power conversion efficiency, is progressing against a backdrop of energy conservation. This necessitates the development of high-voltage, high-efficiency power supply circuits capable of meeting these demands.  Therefore, ROHM has expanded its line-up of 100V power MOSFETs ideal for hot-swap circuits in AI servers to meet market demand. The new RS7P200BM adopts a compact DFN5060-8S (5060 size) package, enabling even higher density mounting compared to the AI server power MOSFET ‘RY7P250BM’ in the DFN8080-8S (8.0mm × 8.0mm size) package, which ROHM has released in May 2025.  The new product achieves a low on-resistance (RDS(on)) of 4.0mΩ (conditions: VGS=10V, ID=50A, Ta=25°C) while maintaining wide SOA of 7.5A at a pulse width of 10ms and 25A at 1ms under operating conditions of VDS=48V. This balance of low on-resistance and wide SOA, typically a trade-off relationship, helps suppress heat generation during operation, thereby improving server power supply efficiency, reducing cooling load, and lowering electricity costs.  Mass production of the new product began in September 2025 (sample price: $5.5/unit, excluding tax).  ROHM will continue to expand its product lineup for 48V power supplies, which are increasingly adopted in applications such as AI servers. By providing highly efficient and reliable solutions, we will contribute to reducing power loss and cooling loads in data centers, as well as enhancing the high reliability and energy efficiency of server systems.  Application Examples  •48V system AI servers and data center power hot-swap circuits  •48V system industrial power supplies (forklifts, power tools, robots, fan motors, etc.)  •Battery-powered industrial equipment such as AGVs (Automated Guided Vehicles)  •UPS, emergency power systems (battery backup units)  EcoMOS™ Brand  EcoMOS™ is ROHM's brand of silicon power MOSFETs designed for energy-efficient applications in the power device sector. Widely utilized in applications such as home appliances, industrial equipment, and automotive systems, EcoMOS™ provides a diverse lineup that enables product selection based on key parameters such as noise performance and switching characteristics to meet specific requirements.  ・EcoMOS™ is a trademark or registered trademark of ROHM Co., Ltd.  Terminology  SOA(Safe Operating Area)  The voltage and current range within which a device can operate safely without damage. Operation beyond this safe operating area may cause thermal runaway or damage; therefore, consideration of the SOA is essential, particularly in applications where inrush current or overcurrent may occur.  Hot-swap circuit  The complete circuitry supports the hot-swap function, which enables the removal or insertion of components while the device's power supply remains active. Comprising MOSFETs, protective elements, and connectors, it suppresses inrush currents occurring during component insertion and provides overcurrent protection, thereby ensuring the safe operation of the system and connected components.  Inrush Current  The high current exceeds the rated current value that flows momentarily when switching on electronic equipment. Controlling this prevents damage to devices and stabilizes the system by reducing the load on components within the power supply circuit.  On-resistance(RDS(on))  The resistance value between the drain and source terminals when the MOSFET is in operation (on). The lower the value, the less power loss occurs during operation.
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Release time:2025-11-28 17:28 reading:342 Continue reading>>
ROHM’s Three-Phase Brushless DC Motor Gate Driver Achieving FET Heat Reduction while Suppressing EMI
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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.
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Release time:2025-11-21 16:54 reading:344 Continue reading>>
Now Standard in Siemens’ Flotherm™! ROHM Expands Its High-Accuracy EROM Models for Shunt Resistors
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Now Standard in Siemens’ Flotherm™! ROHM Expands Its High-Accuracy EROM Models for Shunt Resistors

  ROHM has expanded its lineup of EROM (Embeddable BCI-ROM) models for shunt resistors and has made them available on ROHM’s website. In addition, these models are now standard in Siemens’ electronic thermal design software, Simcenter™ Flotherm™*.  ROHM’s shunt resistors are widely used in automotive and industrial equipment applications, where their high-accuracy current detection and superior reliability are highly valued. We have added the PMR series to the EROM lineup, alongside the previously available PSR series.  The EROM models achieve high accuracy with a measurement deviation within ±5% for both surface temperature (ΔT) and thermal resistance, enabling thermal analysis that closely reflects actual operating conditions. This contributes to improved simulation accuracy in the thermal design phase and enhances overall development efficiency.  Furthermore, by standard implementation in Simcenter™ Flotherm™, these models make it easier for component manufacturers and set manufacturers to share thermal analysis data. This allows for highly accurate and efficient simulations while maintaining the confidentiality of proprietary information.  Going forward, ROHM will continue to enhance the support for customers’ design and development activities through both its high-performance components and advanced simulation models.  *Standard in Simcenter™ Flotherm™ 2510 and later.  Terminology  EROM (Embeddable BCI-ROM)  A reduced-order model that can be used within Simcenter™ Flotherm™ to perform thermal simulations. It allows sharing while keeping internal component structures (confidential design data) hidden, enabling fast and highly accurate analysis.  Simcenter™ Flotherm™  A CFD (Computational Fluid Dynamics) simulator developed by Siemens, specialized in thermal and cooling design for electronic devices. It enables fast and accurate thermal analysis from the early design stage through validation, supporting exceptionally reliable thermal design.  Simcenter™ Flotherm™ is a registered trademark of Siemens.
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Release time:2025-11-21 16:50 reading:321 Continue reading>>
Renesas’ Industry-First Gen6 DDR5 Registered Clock Driver Sets Performance Benchmark by Delivering 9600 MT/s
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Renesas’ Industry-First Gen6 DDR5 Registered Clock Driver Sets Performance Benchmark by Delivering 9600 MT/s

  Renesas Electronics Corporation (TSE: 6723), a premier supplier of advanced semiconductor solutions, today announced that it has delivered the industry’s first sixth-generation Registered Clock Driver (RCD) for DDR5 Registered Dual In-line Memory Modules (RDIMMs). The new RCD is the first to achieve a data rate of 9600 Mega Transfers Per Second (MT/s), surpassing the industry standard. This breakthrough marks a significant leap from the 8800 MT/s performance of Renesas’ Gen5 RCD, setting a new standard for memory interface performance in data center servers.  Key Features of Renesas’ Gen6 DDR5 RCD  10% Bandwidth Increase over Renesas’ Gen5 RCD (9600 MT/s versus 8800 MT/s)  Backward Compatibility with Gen5 Platforms: Provides seamless upgrade path  Enhanced Signal Integrity and Power Efficiency: Enables AI, HPC, and LLM workloads  Expanded Decision Feedback Equalization Architecture: Offers eight taps and 1.5mV granularity for superior margin tuning  Decision Engine Signal Telemetry and Margining (DESTM): Improved system-level diagnostics provides real-time signal quality indication, margin visibility, and diagnostic feedback for higher speeds  The new DDR5 RDIMMs are needed to keep pace with the ever-increasing memory bandwidth demands of Artificial Intelligence (AI), High-Performance Compute (HPC) and other data center applications. Renesas has been instrumental in the design, development and deployment of the new RDIMMs, collaborating with industry leaders including CPU and memory providers, along with end customers. Renesas is the leader in DDR5 RCDs, building on its legacy of signal integrity and power optimization expertise.  “Explosive growth of generative AI is fueling higher SoC core count. This is driving unprecedented demand for memory bandwidth and capacity as a critical enabler of data center performance,” said Sameer Kuppahalli, Vice President of Memory Interface Division at Renesas. “Our sixth generation DDR5 Registered Clock Driver demonstrates Renesas’ continued commitment to memory interface innovation, path-finding and delivering solutions to stay ahead of market demand.”  "Samsung has collaborated with Renesas across multiple generations of memory interface components, including the successful qualification of Gen5 DDR5 RCD and PMIC5030,” said Indong Kim, VP of DRAM Product Planning, Samsung Electronics. “We are now excited to integrate Gen6 RCD into our DDR5 DIMMs, across multiple SoC platforms to support the growing demands of AI, HPC, and other memory-intensive workloads."  Availability  The RRG5006x Gen6 RCD is designed to meet the stringent requirements of next-generation server platforms, offering robust performance, reliability, and scalability. Renesas is sampling the new RRG5006x RCD to select customers today, including all major DRAM suppliers. Production availability is expected in the first half of 2027.
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Release time:2025-11-13 16:33 reading:477 Continue reading>>
Murata expands lineup of high cutoff frequency chip common mode choke coils in 0504-inch size for automotive high-speed differential interfaces
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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).
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Release time:2025-11-10 17:12 reading:400 Continue reading>>
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
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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.
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Release time:2025-11-06 15:35 reading:488 Continue reading>>
GigaDevice GD32F5xx and GD32G5xx Software Test Libraries (STL) Receive TÜV Rheinland IEC 61508 Functional Safety Certification
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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.
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Release time:2025-11-04 17:01 reading:559 Continue reading>>

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AMEYA360 mall (www.ameya360.com) was launched in 2011. Now there are more than 3,500 high-quality suppliers, including 6 million product model data, and more than 1 million component stocks for purchase. Products cover MCU+ memory + power chip +IGBT+MOS tube + op amp + RF Bluetooth + sensor + resistor capacitance inductor + connector and other fields. main business of platform covers spot sales of electronic components, BOM distribution and product supporting materials, providing one-stop purchasing and sales services for our customers.

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