Fibocom Accelerates 5G RedCap FWA Commercialization by Offering Wi-Fi-Ready Solutions
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Fibocom Accelerates 5G RedCap FWA Commercialization by Offering Wi-Fi-Ready Solutions

  Shenzhen,China – November 25th 2024 – Fibocom (Stock code: 300638), a global leading provider of wireless communication modules and solutions, today debuts the ready-to-market 5G RedCap plus Wi-Fi 5/6 solution developed from the 5G RedCap module FG131, which is positioned to accelerate the commercialization of 5G FWA in the form of CPE, mobile hot-spot, and USB dongle, etc., satisfying the diverse market demands.  According to a report updated in September 2024, GSA has identified 143 operators in 61 countries and territories worldwide that have been investing in public 5G SA networks through trials, planned or actual deployments. With the implementation of 5G SA network infrastructure, 5G-enabled FWA shipments became mainstream, reaching 10.2 million in 2023. The growth of 5G FWA CPE shipments is expected to accelerate further, accounting for 42% of shipments in 2024 compared with 34% in 2023, according to the CPE Vendor Survey released by GSA in August 2024.The launch of Fibocom’s ready-to-market 5G RedCap plus Wi-Fi 5/6 solution is the ideal 5G lightweight solution accelerating the migration from 4G FWA to 5G FWA, elevating the Quality-of-Service with faster network connection, more-agile network slices services and reliability in 5G SA network environment.  Key takeaways  Advanced 5G RedCap plus Wi-Fi 6 (AX3600): The FG131 5G RedCap module integrates with a Wi-Fi 6 module developed from the Qualcomm WCN6856, reaching maximum 3600Mbps data throughput with the support of 2x2-40MHz@2.4GHz and 2x2-160MHz@5/6GHz dual-band concurrently and the support of 4K QAM for enhanced data transmission efficiency.  Medium 5G RedCap plus Wi-Fi 6 (AX1800): The FG131 5G RedCap module integrates with a Wi-Fi 6 module developed from the Qualcomm QCA2064, reaching maximum 1800Mbps data throughput with the support of 2x2-40MHz@2.4GHz and 2x2-80MHz@5/6GHz dual-band concurrently.  Entry-level 5G RedCap plus Wi-Fi 5: The FG131 5G RedCap module integrates with a Wi-Fi module developed from the Qualcomm QCA6174 through a serial port, delivers maximum 867Mbps speed with the support of dual-band 2.4GHz and 5GHz simultaneously.  Leveraging 5G SA network coverage, optimized power-saving, and reduced complexity, 5G RedCap is gaining more and more attention within the IoT industry. The Fibocom5G RedCap module FG131 offers a high-performance and ultra-reliable wireless solution for application scenarios that are cost-sensitive and power-enduring. Packaged in LGA form factor at the size of 37mm*39.5mm, Fibocom FG131 is pin-compatible with Fibocom LTE Cat 6 module FG101 and FG621 series that allows smooth migration from 4G to 5G RedCap. Compliant with 3GPP Release 17, it supports 5G SA and reaches peak rates of up to 223Mbps downlink and 123Mbps uplink theoretically. With these key features combined, the Fibocom 5G RedCap module FG131 series delivers a new level of 5G network experience while maintaining high reliability and cost-effectiveness, especially for terminal devices used in mobile scenarios. Apart from the hardware optimization, FG131also supports the OpenCPU and OpenWRT software features and an abundant of rich interfaces to realize the flexible and easy integration of FWA devices.
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Release time:2024-12-11 13:26 reading:1454 Continue reading>>
Renesas Introduces USB PD EPR Solution Featuring Type-C Port Controller and Buck-Boost Battery Charger
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Renesas Introduces USB PD EPR Solution Featuring Type-C Port Controller and Buck-Boost Battery Charger

  Renesas Electronics Corporation (TSE:6723), a premier supplier of advanced semiconductor solutions, today introduced the RAA489118 buck-boost battery charger and the RAA489400 USB Type-C® port controller. The two new ICs combine to provide a premier Extended Power Range (EPR) USB Power Delivery (PD) solution.  Renesas is a worldwide leader in USB-PD solutions, offering a comprehensive range of products including turnkey solutions for various applications. Renesas helps customers shorten their time-to-market with an extensive development environment and pre-certified USB-IF reference designs, Renesas USB-PD solutions offer superior quality and safety, along with high efficiency and power density.  The RAA489118 functions as either a battery charger supporting two to seven battery cells in series or as a voltage regulator supporting 30V input and 30V output. It employs Renesas’ patented R3™ (Robust Ripple Regulator) technology, which combines the best features of fixed-frequency and hysteretic Pulse-Width Modulation (PWM) technologies. R3 modulation technology delivers acoustic noise-free operation, fast dynamic response, and best-in-class light-load efficiency for longer battery life.  The RAA489118 includes an SMBus (System Management Bus) interface that is widely employed in power tools, home appliances and light industrial products. The SMBus interface, combined with the buck-boost and bidirectional features, allows the RAA489118 to work seamlessly with the RAA489400 and other components in USB-C PD implementations. Its input and output voltage levels also match mainstream solar power voltage levels, making it an ideal fit for solar portable power station applications.  The RAA489400 port controller supports USB-PD VBUS power up to 48V/5A. It features an integrated PHY, both Sink and Source Power Path Gate Drivers with external NFETs, short-circuit protection, VBUS discharge, a VCONN MUX and dead battery support.  “Renesas has been a worldwide leader in battery charging for many years based on advanced technology, adaptability, and exceptional value,” said Chris Allexandre, Senior Vice President and General Manager of Power at Renesas. “The RAA489118 and RAA489400 bring those strengths along with Renesas’ strong legacy of safety and reliability to new applications such as power tools and light industrial products. We expect to see strong demand from customers across multiple markets.”  Key Features of the Renesas USB EPR PD Solution  Battery charger supporting two to seven battery cells in series  Buck-boost voltage regulator supporting 30V input and 30V output  Renesas R3™ technology ensures minimal power loss and improved efficiency  Advanced control scheme delivers fast transient response and system performance  Robust thermal management and protection features for safety and reliability  Adaptable configurations support a wide range of applications  Built-in protection against overcharging, overheating, and voltage anomalies  Bidirectional power flow  USB-IF certified reference design reduces compliance testing time and effort  Comprehensive design support and tools  Winning Combinations  Along with other USB-PD controllers, battery management ICs, and Type-C port management products, Renesas offers a turnkey USB-PD Charger Winning Combination that minimizes the effort required for customers to integrate USB-PD and battery management system features into their products. Winning Combinations are technically vetted system architectures from mutually compatible devices that work together seamlessly to bring an optimized, low-risk design for faster time to market. Renesas offers more than 400 Winning Combinations with a wide range of products from the Renesas portfolio to enable customers to speed up the design process and bring their products to market more quickly. They can be found at renesas.com/win.  Device Availability  The RAA489118 comes in a 4×4 mm 32-lead TQFN package, and the RAA489400 is packaged in a 32-Ld 3x5 mm FCQFN. Both products are available today from Renesas. Comprehensive design support and tools, including VIDWriter configuration tools and battery charger GUI software to configure designs, are also available.  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.  (Remarks). USB Type-C® and USB-C® are registered trademarks of USB Implementers Forum. All names of products or services mentioned in this press release are trademarks or registered trademarks of their respective owners.
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Release time:2024-12-10 14:06 reading:1642 Continue reading>>
Renesas Introduces Industry’s First Complete Memory Interface Chipset Solutions for Second-Generation DDR5 Server MRDIMMs
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Renesas Introduces Industry’s First Complete Memory Interface Chipset Solutions for Second-Generation DDR5 Server MRDIMMs

  Renesas Electronics Corporation (TSE: 6723), a premier supplier of advanced semiconductor solutions, today announced that it has delivered the industry’s first complete memory interface chipset solutions for the second-generation DDR5 Multi-Capacity Rank Dual In-Line Memory Modules (MRDIMMs).  The new DDR5 MRDIMMs 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. They deliver operating speeds up to 12,800 Mega Transfers Per Second (MT/s), a 1.35x improvement in memory bandwidth over first-generation solutions. Renesas has been instrumental in the design, development and deployment of the new MRDIMMs, collaborating with industry leaders including CPU and memory providers, along with end customers.  Renesas has designed and executed three new critical components: the RRG50120 second-generation Multiplexed Registered Clock Driver (MRCD), the RRG51020 second-generation Multiplexed Data Buffer (MDB), and the RRG53220 second-generation Power Management Integrated Circuit (PMIC). Renesas also offers temperature sensor (TS), and serial presence detect (SPD) hub solutions in mass production, making it the only memory interface company that offers the complete chipset solutions for industry standard next-generation MRDIMMs as well as all other server and client DIMMs.  “The demand for higher performance systems driven by AI and HPC applications is relentless,” said Davin Lee, Senior Vice President and General Manager of Analog & Connectivity and Embedded Processing. “Renesas is at the forefront of this trend, working with industry leaders to develop next-generation technology and specifications. These companies depend on Renesas to deliver the technical know-how and the production capabilities they require to meet unprecedented demand. Our latest chipset solutions for second-generation DDR5 MRDIMMs showcase our leadership in this market.”  Renesas’ RRG50120 second-generation MRCD is used on the MRDIMMs to buffer the Command/Address (CA) bus, chip selects and the clocks between the host controller and DRAMs. It consumes 45% less power compared to the first-generation device, a critical specification for heat management in very high-speed systems. The RRG51020 Gen2 MDB is the other key device used in the MRDIMMs to buffer data from the host CPU to DRAMs. Both the new Renesas MRCD and MDB support speeds up to 12.8 Gigabytes per Second (GB/s). Additionally, Renesas’ RRG53220 next-generation PMIC offers best-in-class electrical-over-stress protection and superior power efficiency and is optimized for high-current and low-voltage operation.  Availability  Renesas is sampling the RRG50120 MRCD, the RRG51020 MDB, and the RRG53220 PMIC now, and expects the new products to be available for production in the first half of 2025. More information on these new products is available at www.renesas.com/DDR5.  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. Learn more at renesas.com. Follow us on LinkedIn, Facebook, X, YouTube, and Instagram.  (Remarks) Intel, the Intel logo, and other Intel marks are trademarks of Intel Corporation or its subsidiaries. All names of products or services mentioned in this press release are trademarks or registered trademarks of their respective owners.  The content in the press release, including, but not limited to, product prices and specifications, is based on the information as of the date indicated on the document, but may be subject to change without prior notice.
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Release time:2024-12-03 14:43 reading:1246 Continue reading>>
Renesas Extends Line-up For Industrial Ethernet and Multi-Axis Motor Control Solutions with High Performance Quad-Core Application Processor
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Renesas Extends Line-up For Industrial Ethernet and Multi-Axis Motor Control Solutions with High Performance Quad-Core Application Processor

  Renesas Electronics Corporation (TSE:6723), a premier supplier of advanced semiconductor solutions, today launched the RZ/T2H, the highest performance microprocessor (MPU) offered by Renesas for industrial equipment. Thanks to its powerful application processing and real-time performance, the RZ/T2H is capable of high-speed, high-precision control of industrial robot motors for up to 9 axes. It supports a variety of network communications including Industrial Ethernet on a single chip. The MPU targets industrial controller equipment such as programmable logic controllers (PLCs), motion controllers, distributed control systems (DCSs), and computerized numerical controls (CNCs).  With the growing demand for unmanned and labor-saving manufacturing, industrial robots such as vertically articulated robots, and industrial controller equipment are being deployed to accelerate automated production. The Renesas RZ/T2H MPU combines all the functionality and performance required for developing these applications. While industrial systems traditionally required multiple MPUs or a combination of field programmable gate arrays (FPGAs) to control these applications, the RZ/T2H MPU can now meet all the requirements on a single chip. This reduces the number of components and saves time and costs of FPGA program development.  “We have enjoyed outstanding market success with RZ/T2M and RZ/T2L,” said Daryl Khoo, Vice President of Embedded Processing 1st Business Division at Renesas. “The RZ/T2H builds on that momentum, allowing our industrial customers to leverage their existing design assets while addressing even more innovative, demanding industrial motor control and Linux applications. Our customers have been particularly impressed that the RZ/T2H enables them to implement a 9-axis motor control all on just one chip!”  High-Performance Application Processing and Fast Real-Time Control on a Single Chip  The RZ/T2H is equipped with four Arm® Cortex®-A55 application CPUs with a maximum operating frequency of 1.2 GHz. For external memory, it supports 32-bit LPDDR4-3200 SDRAM. Two Cortex-R52 CPUs with a maximum operating frequency of 1 GHz handle the real-time processing, with each core equipped with a total of 576 KB of high-capacity tightly coupled memory (TCM). This allows high CPU- and memory-intensive tasks such as running Linux applications, robot trajectory generation, and PLC sequence processing, to be executed on a single chip. At the same time, the RZ/T2H can handle fast and precise real-time control such as motor control and Industrial Ethernet protocol processing.  Motor control of up to 9 axes reduces component costs and development time  The Renesas RZ/T2H controls up to 9-axis servo motors in industrial robots with high-speed and accurate operation. The RZ/T2H comes with everything required for up to 9 axes of motor control including 3-phase PWM timers, delta-sigma interfaces for measuring current values, and encoder interfaces (A-format™, EnDat, BiSS®, Hyperface DSL, and FA-CODER are all supported). Furthermore, peripheral functions for motor control are placed on a Low Latency Peripheral Port (LLPP) bus of the Cortex-R52 real-time CPU core, allowing high-speed access from the CPU.  Flexible support for network communications including Industrial Ethernet  The RZ/T2H has four Ethernet ports, three Gigabit Ethernet MAC (GMAC), plus an Ethernet switch. It also supports EtherCAT, PROFINET, EtherNet/IP, OPC UA, and the next-generation Time-Sensitive Networking (TSN) standard. The combination of these Ethernet switches and GMAC allows the MPU to support multiple Industrial Ethernet controllers and devices, providing flexibility to adapt to a wide range of controller requirements, such as upper-layer Ethernet communications.  Specialized boards and software available for industrial robots and controllers  The RZ/T2H comes with the Renesas Flexible Software Package (FSP), as with all Renesas MPUs, together with a Linux package that comes with long term support. An out-of-the-box multi-axis motor control evaluation solution is available including inverter boards for driving 9-axis motors, a multi-axis motor control software package, and Motion Utility Tool (a motor control software tool). Sample protocols for industrial Ethernet and software PLC package are also included to kick-start system development.  “As industrial equipment continues to evolve, these systems increasingly require more complex functions and performance,” said Micael Borgefeldt, Product Manager at IAR Systems. “Including the latest RZ/T2H MPU from Renesas, we empower the developers to unlock flexible application configurations across 32-bit MCUs and 64-bit high-end MPUs multi-core environments. Our IAR development solution enables engineers to accelerate next-generation industrial innovation, streamlining development and boosting efficiency like never before.”  Winning Combinations  Renesas also offers “9-axis Industrial Motor Control with Ethernet” solution that combined the RZ/T2H with numerous compatible devices such as the RV1S9231A IGBT Drive Photocoupler and RV1S9353A Optically Isolated Delta-Sigma Modulator to offer a wide array of Winning Combinations. These Winning Combinations are technically vetted system architectures from mutually compatible devices that work together seamlessly to bring an optimized, low-risk design for faster time to market. Renesas offers more than 400 Winning Combinations with a wide range of products from the Renesas portfolio: renesas.com/win.  Availability  The RZ/T2H is available today. Renesas plans to release the new RZ/N2H device in Q1/2025, which offers the same performance as the RZ/T2H in a smaller package. This is ideal for industrial controller equipment such as PLCs and motion controllers.  The RZ/T2H is managed under the Product Longevity Program (PLP) for industrial equipment that requires long life cycles. For more information on the RZ/T2H, visit: https://www.renesas.com/rzt2h.  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. Learn more at renesas.com. Follow us on LinkedIn, Facebook, X, YouTube, and Instagram.  (Remarks) Arm and Arm Cortex are trademarks or registered trademarks of Arm Limited in the EU and other countries. All names of products and services mentioned in this release are trademarks or registered trademarks of their respective owners.
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Release time:2024-12-02 14:31 reading:1643 Continue reading>>
Valeo & ROHM Semiconductor co-develop the next generation of power electronics
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Valeo & ROHM Semiconductor co-develop the next generation of power electronics

  Valeo, a leading automotive technology company, and ROHM Semiconductor, a major semiconductor and electronic component manufacturer, collaborate to propose and optimize the next generation of power modules for electric motor inverters using their combined expertise in power electronics management. As a first step, ROHM will provide its 2-in-1 Silicon Carbide (SiC) molded module TRCDRIVE pack™ to Valeo for future powertrain solutions.  Valeo is broadening access to efficient, electrified mobility across various vehicle types and markets from the smallest one (ebikes), through the mainstream (passenger cars) to the biggest one (eTrucks). By combining Valeo’s expertise in mechatronics, thermal management and software development with ROHM’s power modules, Valeo drives the power electronics solution forward, contributing to the performance, efficiency, and decarbonization of automotive systems worldwide.  Valeo and ROHM have been collaborating since 2022, initially focusing on technical exchanges aimed at improving the performance and efficiency of the motor inverter – a key component in the propulsion systems of electric vehicles (EVs) and plug-in hybrids (PHEVs). By refining power electronics, both companies aim to offer optimized cost/performance by delivering higher energy efficiency, reducing heat generation thanks to an optimized cooling and mechatronic integration, and increasing overall reliability with a SiC packaging.  “This partnership marks, for Valeo Power Division, a significant step forward in delivering advanced and high-efficient power electronics,” says Xavier DUPONT, Valeo Power Division CEO. “Together, we aim to set new industry standards for high voltage inverters and accelerate the transition towards more efficient and affordable electric mobility.”  “We are pleased to support Valeo, a renowned automotive supplier, with our power semiconductors. ROHM’s TRCDRIVE pack™ provides high power density, leading to an improved power efficiency. Together, we contribute to the development of highly efficient powertrains by fostering the collaboration with Valeo,” says Wolfram HARNACK, President ROHM Semiconductor GmbH.  These evolutions are all essential to supporting the growing demand for longer range, faster charging capabilities, and, overall a high-performance and an affordable inverter for BEVs and PHEVs.  Valeo will start supplying a first series project in early 2026. Valeo and ROHM will contribute to the improvement of efficiency and downsizing of Valeo’s next generation of xEV inverters.  Background on the TRCDRIVE pack™  TRCDRIVE pack™ is a trademark for the SiC molded module developed for traction inverter drives. This product features high power density and a unique terminal configuration – solving the key challenges of traction inverters in terms of miniaturization, higher efficiency, and fewer person-hours. Because SiC enables low-loss power conversion under high voltage conditions, combining Valeo's component technology, casing design and thermal management expertise with ROHM's power module creates a synergistic effect. Through both companies’ collaboration in automotive power electronics, they contribute to achieving a decarbonized society by enhancing the performance and efficiency of the motor inverter.  More information is available via:  https://www.rohm.com/news-detail?news-title=2024-06-11_news_trcdrive-pack&defaultGroupId=false  TRCDRIVE pack™ are trademarks or registered trademarks of ROHM Co., Ltd.  About Valeo  Valeo is a technology company and partner to all automakers and new mobility players worldwide. Valeo innovates to make mobility safer, smarter and more sustainable. Valeo enjoys technological and industrial leadership in electrification, driving assistance systems, reinvention of the interior experience and lighting everywhere. These four areas, vital to the transformation of mobility, are the Group's growth drivers.  Valeo in figures: 22 billion euros in sales in 2023 | 109 600 employees, 28 countries, 159 plants, 64 research and development centers and 19 distribution platforms at June 30, 2024.  https://www.valeo.com/  Valeo is listed on the Paris stock Exchange.
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Release time:2024-11-29 10:49 reading:718 Continue reading>>
ROHM’s New SiC Schottky Barrier Diodes for High Voltage xEV Systems: Featuring a Unique Package Design for Improved Insulation Resistance
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ROHM’s New SiC Schottky Barrier Diodes for High Voltage xEV Systems: Featuring a Unique Package Design for Improved Insulation Resistance

  ROHM has developed surface mount SiC Schottky barrier diodes (SBDs) that improve insulation resistance by increasing the creepage distance between terminals. The initial lineup includes eight models - SCS2xxxNHR - for automotive applications such as onboard chargers (OBCs), with plans to deploy eight models - SCS2xxxN - for industrial equipment such as FA devices and PV inverters in December 2024.  The rapidly expanding xEV market is driving the demand for power semiconductors, among them SiC SBDs, that provide low heat generation along with high-speed switching and high-voltage capabilities in applications such as onboard chargers. Additionally, manufacturers increasingly rely on compact surface mount devices (SMDs) compatible with automated assembly equipment to boost manufacturing efficiency. Compact SMDs tend to typically feature smaller creepage distances, fact that makes high-voltage tracking prevention a critical design challenge.  As leading SiC supplier, ROHM has been working to develop high-performance SiC SBDs that offer breakdown voltages suitable for high-voltage applications with ease of mounting. Adopting an optimized package shape, it achieves a minimum creepage distance of 5.1mm, improving insulation performance when contrasted with standard products.  The new products utilize an original design that removes the center pin previously located at the bottom of the package, extending the creepage distance to a minimum of 5.1mm, approx. 1.3 times greater than standard products. This minimizes the possibility of tracking (creepage discharge) between terminals, eliminating the need for insulation treatment through resin potting when surface mounting the device on circuit boards in high voltage applications. Additionally, the devices can be mounted on the same land pattern as standard and conventional TO-263 package products, allowing an easy replacement on existing circuit boards.  Two voltage ratings are offered, 650V and 1200V, supporting 400V systems commonly used in xEVs as well as higher voltage systems expected to gain wider adoption in the future. The automotive-grade SCS2xxxNHR are AEC-Q101 qualified, ensuring they meet the high reliability standards this application sector demands.  Going forward, ROHM will continue to develop high-voltage SBDs using SiC, contributing to low energy consumption and high efficiency requirements in automotive and industrial equipment by providing optimal power devices that meet market needs.  Application Examples◇ Automotive applications: Onboard chargers (OBCs), DC-DC converters, etc.  ◇ Industrial Equipment: AC servo motors for industrial robots, PV inverters, power conditioners, uninterruptible power supplies (UPS), and more  Online Sales InformationAvailability: The SCS2xxxxNHR for automotive applications are available now.  The SCS2xxxN for industrial equipment are scheduled in December 2024.  Pricing: $10.50/unit (samples, excluding tax)  Online Distributors: DigiKey™, Mouser™ and Farnell™  The products will be offered at other online distributors as they become available.  EcoSiC™ BrandEcoSiC™ is a brand of devices that leverage 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.  TerminologyCreepage Distance  The shortest distance between two conductive elements (terminals) along the surface of the device package. In semiconductor design, insulation measures with such creepage and clearance distances must be taken to prevent electric shocks, leakage currents, and short-circuits in semiconductor products.  Tracking (Creepage Discharge)  A phenomenon where discharge occurs along the surface of the package (insulator) when high voltage is applied to the conductive terminals. This can create an unintended conductive path between patterns, potentially leading to dielectric breakdown of the device. Package miniaturization increases the risk of tracking by reducing creepage distance.  Resin Potting  The process of encapsulating the device body and the electrode connections between the device and circuit with resin, such as epoxy, to provide electrical insulation. This provides durability and weather resistance by protecting against water, dust, and other environmental conditions.  AEC-Q101 Automotive Reliability Standard  AEC stands for Automotive Electronics Council, a reliability standard for automotive electronic components established by major automotive manufacturers and US electronic component makers. Q101 is a standard that specifically applies to discrete semiconductor products (i.e. transistors, diodes).
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Release time:2024-11-20 14:00 reading:871 Continue reading>>
NSM211x Series High-Precision AEC-Q100 Current Sensors Eliminate Need for External Isolation Components
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NSM211x Series High-Precision AEC-Q100 Current Sensors Eliminate Need for External Isolation Components

  NOVOSENSE Microelectronics, a semiconductor company specializing in high-performance analog and mixed-signal chips, has announced the NSM211x, a series of automotive-grade fully integrated high-bandwidth, high-isolation current sensors that both ensure precise current measurement and eliminate the need for any external isolation components.  On display at Electronica 2024 (Stand B5.450), the automotive-grade series targets applications including OBC/DC-DC converters, PTCs, automotive motor control, charging station current detection and fuel cell systems.  Certified to meet AEC-Q100 Grade 0 reliability standards, the series is designed to operate stably within a wide temperature range (-40 to 150°C) and addresses the needs of AC or DC current detection in automotive applications with a high isolation voltage, strong current handling capability and high reliability.  With a -3 dB bandwidth of up to 1 MHz and a response time of 400 ns, the NSM211x series helps control systems achieve rapid loop control and overcurrent protection. The series also features a creepage distance of up to 8.2mm and isolation voltage withstand of 5,000 Vrms per UL standards, with a maximum working isolation voltage of 1,618 Vpk.  It is available in three packaging options, SOP8, SOW16 and SOW10. These respectively have a primary side impedance of 1.2 mΩ, 0.85 mΩ/1 mΩ and an industry leading 0.27mΩ, with a continuous current handling capability of up to 100 A. Multiple product models are available for each package.  The current sensors integrate internal temperature compensation algorithms and offline calibration to enable a high measurement accuracy (<±2% sensitivity error and <±10 mV offset error) across the full temperature range, with no need for secondary programming.  The NSM211x series supports 3.3 V and 5 V power supply voltage as well as DC or AC current measurement with a current range of 5~200 A with options for reference voltage output, overcurrent protection output, and configurable overcurrent protection thresholds.
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Release time:2024-11-15 14:30 reading:931 Continue reading>>
Murata SCH1633-D01 Sets a New Standard for Automotive 6DoF Sensor
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Murata SCH1633-D01 Sets a New Standard for Automotive 6DoF Sensor

  Murata is expanding its range of innovative Six Degrees-of-Freedom devices with the introduction of the SCH1633-D01. The micro-electromechanical system (MEMS) based sensor moves the benchmark for performance, system integration, and total cost optimization. It is designed for various automotive applications, including autonomous driving (AD), advanced driver-assistance systems (ADAS), inertial navigation, vehicle stability control, and camera or headlight alignment.  Market Demands  With the increasing push for vehicle autonomy and safety, there is an unquestionable demand for extremely accurate sensors with comprehensive built-in safety features and a high level of integration. Likewise, complying with technical regulations like the UNECE’s headlight leveling regulation requires accurate and cost-optimized solutions – something the SCH1633-D01 has demonstrated it can achieve.  The SCH1633-D01 is a single-package solution optimized for zonal architecture where all required subsystems, like GNSS integration, chassis control, and vehicle attitude sensing (camera and headlight alignment) can utilize its measurements. It is targeted for deployment in the central vehicle inertia measuring unit (IMU) providing a high-quality signal for all subsystems within the vehicle even in the toughest environments. This integration helps to reduce system complexity and provides a much-needed opportunity for cost optimization.  SCH1633-D01 Features  SCH1633-D01 is packaged in a unique 24-pin SOIC housing and uses the SafeSPI 2.0 interface with an up to 20-bit data frame for an extremely smooth and high-resolution output. The component supports various system-level time synchronization features, ensuring that the SCH1633-D01’s output can be easily harnessed across the entire vehicle. Furthermore, the extensive self-diagnostics features utilize over 200 monitoring signals to ensure the output is always trustworthy.  The SCH1633-D01 is designed to provide a high-quality output, even in harsh temperature conditions. It features AEC-Q100 grade 1 qualification to guarantee reliable use throughout the whole component lifetime and is ISO26262 compliant with ASIL-B+ rating (up to ASIL-D via system integration) for exceptional built-in safety.  For further information on the product’s extensive functionality, please visit its detail page here.  Murata’s Recent 6DoF MEMS Success  Murata’s previous generation 6DoF MEMS solution has proven to be highly successful as over 90% of autonomous miles in California alone are driven with the sensor on board. The improvements in this next-generation 6DoF devices are based on customer feedback, and they have already gained global recognition.  The industrial counterpart SCH16T-K01, launched in January this year, has won the first prize in the Industrial & Manufacturing category of the Sensors Converge fair’s “Best of Sensors Award” competition and the SCH1633-D01 preliminary sample feedback has been remarkably positive.  A partner of Murata, Hexagon, has been using the SCH1633-D01 in their products. Gordon Heidinger, Segment Manager, Automotive and Safety-Critical Systems at Hexagon’s Autonomy & Positioning division, remarked, “  The SCH1633-D01 is displaying exceptional performance for a single MEMS sensor. We're pleased to promote this sensor integrated with our positioning solution”.  Murata has also successfully demonstrated that the UNECE headlight leveling regulation can be fulfilled with the SCH1633-D01 sensor in combination with a commercially available alignment algorithm. This is a significant leap towards cost-effective regulation compliance.  “Automotive 6DoF applications are rapidly developing, with fierce competition among manufacturers to capture a share of the market. This product offers high performance, demanded by the latest systems, while also providing a much-needed cost-saving opportunity,” said Ville Nurmiainen, General Manager of Product management at Murata Electronics Oy. He continued, “The SCH1633-D01 will give both a technological and cost down advantage to OEMs choosing to utilize the product to its full potential and will help them to further drive automotive applications forward and create safer roads for us all.”  Preliminary samples are available now. Mass production of this exciting new solution is planned for early 2025.
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Release time:2024-11-12 11:22 reading:2357 Continue reading>>
BIWIN's
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BIWIN's "Integrated R&D and Packaging 2.0 Strategy"

  The Third GMIF2024 Innovation Summit was successfully held on September 27, 2024 at Renaissance Shenzhen Bay Hotel. The event brought together senior executives and industry experts from renowned domestic and international companies, including the School of Integrated Circuits at Peking University, Micron, Western Digital, Solidigm, Arm, UNISOC, Intel, iFlytek, Rockchip, Silicon Motion, BIWIN, Victory Giant, Allwinner, InnoGrit, Maxio, QUANXING, Montage, Applied Materials (AMAT), Lam Research, DISCO, Skyverse, Loongson Technology, and many others. The gathering saw industry leaders engage in discussions on global storage innovation and ecosystem collaboration for shared growth in the AI era. During the summit, the GMIF2024 Annual Awards were officially unveiled, and a total of 38 key enterprises from across the industry supply chain had been honored for their outstanding contributions.  At the GMIF2024 Innovation Summit, Sam Sun, Chairman of BIWIN Storage, delivered a keynote speech titled "Integrated R&D and Packaging 2.0 Strategy: Full Industry Chain Layout Empowering Client Value Elevation". In the keynote, Mr. Sun shared BIWIN's latest strategic initiatives, technological breakthroughs, and future development over the past year. Supported by continued investment and efforts in integrated R&D and packaging, BIWIN Storage is leveraging advanced technology and full-chain collaboration to empower customers to achieve greater value and drive industry progress.  From Brand Upgrade to Global Market Expansion: Innovation-Driven and Sustained Growth  Mr. Sun first and foremost highlighted BIWIN’s significant initiative in brand upgrade in 2024. A new logo and brand slogan were unveiled: 'Infinite Storage, Unlimited Solutions'. More than a transformation of its brand image, this upgradation is an emblem to BIWIN's ongoing strategic, technological and market expansion and the demonstration of its vision to achieve continuous growth in the global storage field.  In the global market, BIWIN Storage achieved remarkable results in the first half of 2024, thanks to precise market positioning and efficient localized delivery. Its revenue surpassed 3.4 billion RMB, marking an almost 200% increase year-on-year. This growth reflects the successful implementation of the company's global expansion and localized operation strategies.  Integrated R&D and Packaging 2.0 Strategy: Building Core Competence to Drive Technological Advancement  BIWIN's "Integrated R&D and Packaging 2.0 Strategy" is regarded as a crucial initiative in its technological innovation and full-chain layout. Mr. Sun further elucidated BIWIN's investments in solutions, chip design, packaging and testing, and equipment development, and shared that with concentration on independent R&D and partnerships, BIWIN has now accumulated core strengths in these areas, and been capable of offering customers more high-efficiency and low-power solutions.  BIWIN's latest strategy not only involves a keen focus on the R&D and packaging and testing of mainstream memory, but shifts attention to more far-reaching development opportunities in high-end advanced packaging and testing technology. Powered by its dual-drive strategy, BIWIN is dedicated to further enhancing its competitiveness in the storage industry, and providing customers with innovative and cost-effective solutions.  Strategic Advanced Packaging and Testing Layout: Overcoming Industry Bottlenecks to Secure Future Advantages  In the face of the increasing technological demands and market challenges in the storage industry, BIWIN Storage is actively promoting its full-chain layout. Mr. Sun noted that, in addition to focusing on storage solution R&D, the company has also been a pioneer in establishing storage packaging capabilities in South China. By advancing its wafer-level packaging and testing layout, BIWIN has positioned itself as one of the few semiconductor storage companies capable of offering advanced packaging services.  With the adoption of cutting-edge technologies such as 3D/2.5D packaging, BIWIN Storage is able to deliver top-notch services to customers in reducing product power consumption, improving performance, and offering customized packaging and testing services for areas such as computing power. Mr. Sun emphasized that advanced packaging and testing is not only the consequence driven by market demand but is also the inevitable direction of future industry development. This layout will further solidify BIWIN Storage's leadership in the storage industry.  To accelerate the implementation of advanced packaging and testing, BIWIN Storage has chosen to establish an advanced packaging and testing factory in the Greater Bay Area. As a core hub of China's high-tech industry, the Greater Bay Area houses numerous IC design companies and innovative enterprises. However, there are still significant gaps in the packaging and testing field. BIWIN's advanced packaging and testing layout fills this gap and promotes the coordinated development of the entire industry chain.  Mr. Sun expressed that BIWIN Storage plans to launch its new plant in 2025 to provide more efficient and flexible packaging and testing services for customers in areas such as computing power. This layout will not only strengthen the company's competitiveness in the storage market but also inject new vitality into the Greater Bay Area's innovation ecosystem.  Integrated R&D and Packaging 2.0 Strategy: Building Core Advantages to Strengthen Customer Loyalty  In the summary of the "Integrated R&D and Packaging 2.0 Strategy", Sam Sun emphasized that the core of this strategy lies in enhancing BIWIN's core competitiveness in the storage industry through technological innovation and full-chain collaboration, while establishing closer partnerships with clients. The main advantages of this strategy are reflected in the following four aspects:  01 Expanding Industry Coverage  The Strategy contributes to enhancing collaboration with upstream wafer fabs to maintain control over R&D, manufacturing, and mass production, while serving a wider range of customers and expanding the industry chain through the application of advanced packaging and testing technologies.  02 Enhancing Technological Barriers  The Strategy contributes to strengthening technological innovation by increasing R&D investment, and participating in more high-end application scenarios, so as to gain a unique market advantage and secure a technological edge in the competitive landscape.  03 Driving Innovation and Differentiation  The Strategy contributes to offering products with higher bandwidth, lower power consumption to the market by developing differentiated solutions, more complex packaging processes, and advanced memory architectures, showcasing BIWIN's technological strength in the industry.  04 Strengthening Customer Loyalty and Trust  The Strategy contributes to providing high-quality and customized solutions, along with comprehensive technical and service support, to strengthen customer relationships and trust and achieve mutual success through deep collaboration with customers.  Looking Ahead: Focusing on Dual-Drive Strategy to Elevate Customer Value  In the end, Mr. Sun concluded BIWIN Storage's vision with the phrase "BIWIN, WIN-WIN". He emphasized that BIWIN Storage will continue its dual-drive strategy of storage and advanced packaging and testing to join hands with customers to seize future opportunities in the storage industry. BIWIN Storage aims to be more than just a storage product provider — it strives to be a trusted all-around partner, driving technological innovation and commercial success together with its customers.
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Release time:2024-11-08 13:45 reading:1548 Continue reading>>
GigaDevice GD32F30x Software Test Library (STL) Achieves TÜV Rheinland IEC 61508 Functional Safety Certification
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GigaDevice GD32F30x Software Test Library (STL) Achieves TÜV Rheinland IEC 61508 Functional Safety Certification

  GigaDevice, a leading semiconductor company specializing in Flash Memory, 32-bit Microcontrollers (MCUs), Sensors, and Power Management technologies announced that its GD32F30x Software Test Library (STL) has received IEC 61508 SC3 (SIL 2/SIL 3) functional safety certification from TÜV Rheinland. This certification follows the earlier certification of the GD32H7 Software Test Library (STL), demonstrating that GigaDevice has established a comprehensive presence in the field of functional safety. The company now offers software test libraries for both high-performance Arm® Cortex®-M7 core MCUs and mainstream Arm® Cortex®-M4 core MCUs, providing users with a broader range of product options for industrial applications. These achievements highlight GigaDevice’s commitment to product safety and reliability, as well as its expertise and advancements in the field of functional safety.  The GD32F30x STL software test library is designed to ensure the safe operation of the GD32F30x series MCUs. It monitors the status of core units such as the internal CPU/DPU, FPU, and MPU, and conducts regular checks on memory like SRAM and Flash to quickly identify random hardware faults. Upon detecting a fault, the GD32F30x Software Test Library (STL) immediately triggers a preset safety response mechanism, placing the MCU in a safe state, thereby mitigating potential risks and providing users with time to address and rectify system failures. Additionally, it offers comprehensive documentation, including FMEDA and safety manuals, to ensure that the product meets specific safety requirements throughout the design, development, and production processes.  Vincent Li, GigaDevice CTO and General Manager of MCU BU, stated: "As industrial automation and intelligence continue to evolve, the importance of functional safety becomes increasingly evident. The consecutive IEC 61508 SC3 (SIL 2/SIL 3) functional safety certifications for the GD32H7 STL and GD32F30x STL demonstrate that GigaDevice has established a mature management system in the functional safety field. This is crucial for enhancing the overall competitiveness of our GD32 MCU products and enabling users to develop products that meet functional safety standards in a shorter timeframe. Meanwhile, the certification process for the GD32 MCU software test library based on the Arm® Cortex® M33 core is also progressing concurrently. We will continue to align with international standards and drive technological advancements and product upgrades.”  Bin Zhao, General Manager Cybersecurity & Functional Safety Greater China of TÜV Rheinland stated: Congratulations to GigaDevice for once again obtaining TÜV Rheinland's STL functional safety certification! GigaDevice's steadfast commitment to functional safety reflects its dedication to stringent safety standards, which we highly commend. In the future, we will continue to uphold professional technical requirements, adhere to rigorous certification processes, and deepen our collaboration to support GigaDevice in achieving further breakthroughs in the field of functional safety.”  About GigaDevice  GigaDevice Semiconductor Inc. (SSE Stock Code 603986) is a global leading fabless supplier. The company was founded in April 2005 and headquartered in Beijing, China, with branch offices in many countries and regions worldwide, providing local support at customers' fingertips. Committed to building a complete ecosystem with four 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 production 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:2024-11-07 14:00 reading:1819 Continue reading>>

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