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GigaDevice's GD5F1GM9 Series High-Speed QSPI NAND Flash Sets New Benchmark with Breakthrough Read Speeds for Accelerated Application Startup

　　GigaDevice, a leading semiconductor company specializing in Flash Memory, 32-bit Microcontrollers (MCUs), Sensors, Analog products and solutions, announces the launch of its GD5F1GM9 high-speed QSPI NAND Flash, which features breakthrough read speeds and innovative Bad Block Management (BBM) functionality.　　The GD5F1GM9 series combines the high-speed read performance of NOR Flash with the large capacity and cost-effectiveness of NAND Flash. These innovations address key industry challenges of slow response times and vulnerability to bad block interference associated with traditional SPI NAND Flash. The GD51GM9 launch will open new growth opportunities for SPI NAND Flash, making it the ideal choice for fast-boot applications in sectors such as security, industrial, and IoT.　　The GD5F1GM9 series high-speed QSPI NAND Flash is built on a 24nm process node. The series supports both 3V and 1.8V operating voltages as well as high-speed read modes including Continuous Read, Cache Read, and Auto Load Next Page. Continuous Read and Auto Load Next Page modes are newer read features added on this series, offering users versatile read options to further accelerate code and data fetch. These read modes utilize the new parallel computation approach for its ECC (Error Correction Code) design, replacing the previous serial computation method. This innovation significantly reduces the calculation time for the built-in ECC.　　The 3V version of the series achieves a continuous read rate of up to 83MB/s in Continuous Read mode, operating at a maximum clock frequency of 166MHz. The 1.8V version has a continuous read rate of up to 66MB/s and supports a maximum clock frequency of 133MHz. The results in GD5F1GM9’s read speeds are up to 3 times faster than traditional SPI NAND products at the same frequency. These design advantages improve data access throughput, reduce system boot time, and lower overall system power consumption.　　As bad blocks from the factory are inherent issues in NAND Flash, the GD5F1GM9 incorporates an on-chip Advanced Bad Block Management (BBM) to ensure comprehensive functionality of Continuous Read mode. Continuous Read allows read access of the full memory array with a single Read command in aid of the executed BBM that link bad block addresses to good block addresses. Read access will then automatically skip the bad block due to the established link access to the remap and linked good physical block address.　　From the factory, the GD5F1GM9 series guarantees the first 256 blocks are good blocks. While there will be bad blocks from the factory and possible new bad blocks may arise during usage that needs to be managed, the BBM feature can create a logical block address to the physical block address link, allowing users to swap and replace bad blocks and the associated access will be on a good block once the BBM link is setup.　　The device can support up to 20 Look Up Table BBM Links to further compliment Continuous Read mode functionality. This not only significantly improves resource utilization but also simplifies system design.　　“Currently, the generally slow read speed of SPI NAND Flash has become a major bottleneck in enhancing boot performance of key applications,” said Ruwei Su, GigaDevice vice president and general manager of Flash BU, "The launch of GD5F1GM9 series high-speed QSPI NAND Flash sets a new performance benchmark in the market. This series effectively addresses the read speed limitations of traditional SPI NAND Flash and offers a new solution for bad block management, making it an ideal alternative for NOR Flash users with growing capacity needs. In the future, GigaDevice will continue to refine its underlying technologies to provide customers with more efficient and reliable storage solutions."　　The GD5F1GM9 series offers 1Gb capacity with 3V/1.8V voltage options and supports WSON8 8x6mm, WSON8 6x5mm, and BGA24 (5×5 ball array) 5x5 ball package options. For detailed information and product pricing, please contact your local sales representative.　　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 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. For more details, please visit: www.gigadevice.com　　*GigaDevice and their logos are trademarks, or registered trademarks of GigaDevice Semiconductor Inc. Other names and brands are the property of their respective owners.

Key word：

GigaDevice

Release time：2025-04-23 17:09 reading：165 Continue reading>>

Trade news

ROHM at PCIM Europe 2025: Powerful Highlights for E-Mobility and Industrial Applications

　　From May 6th to 8th ROHM will exhibit at the PCIM Expo & Conference, the leading international event for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, taking place in Nuremberg. On its booth 304 in hall 9, ROHM will showcase reference projects with renowned partners and present the evolution of its package designs and evaluation boards.　　"PCIM 2025 in Nuremberg is the meeting place for innovation and progress in power electronics. This is where the brightest minds in the industry come together to shape the future of e-mobility and industrial applications. We will be presenting great customer applications to showcase the possibilities offered by our products in the best possible way. Whether in the PV industry or e-mobility sectors – we are involved and would like to talk to our customers on site about the key projects of the future," says Wolfram Harnack, President at ROHM Semiconductor Europe.　　Highlights of ROHM’s presence at PCIM 2025 include:　　For automotive applications, ROHM will exhibit an inverter unit utilizing the TRCDRIVE pack™ that consists of a 2-in-1 SiC Molded Module. Valeo and ROHM have been collaborating since 2022, initially focusing on technical exchange to enhance the performance and efficiency of motor inverters, a key component in the propulsion systems of electric vehicles (EVs) and plug-in hybrids (PHEVs).　　Power solutions for on-board chargers (OBCs), essential for e-mobility applications, will also be on the booth. ROHM will showcase the new EcoSiC™ molded power modules suitable for OBCs, along with OBC applications adopting ROHM’s power semiconductor devices.　　ROHM’s Power Eco Family products: ROHM has grouped the four product lines of power semiconductors under the brand concept “Power Eco Family” and is contributing to the development of a sustainable ecosystem through improved application performance. We will show featured solutions and case studies at the booth.　　In this context, one application example is the new GaN Lineup: ROHM’s EcoGaN™ series of 650V GaN HEMTs in the TOLL package has been adopted for AI server power supplies by Murata Power Solutions, a subsidiary of the Murata Manufacturing Group and a leading supplier of electronic components, batteries and power supplies in Japan. Integrating ROHM’s GaN HEMTs, which combine low loss operation with high-speed switching performance, in Murata Power Solutions’ 5.5kW AI server power supply unit achieves greater efficiency and miniaturization.　　For more information, please refer to AMEYA360’s related news release.　　The details of the Power Eco Family are as follows.　　●　EcoSiC™ is a brand of devices leveraging silicon carbide which is attracting attention in the power device field for performance that surpasses silicon.　　●　EcoGaN™ comprises compact, energy-efficient devices that utilize the low ON resistance, high-speed switching characteristics of GaN to achieve lower application power consumption, smaller peripheral components, and simpler designs requiring fewer parts.　　●　EcoIGBT™ is ROHM’s brand of IGBTs consisting of both devices and modules designed to meet the needs of high-voltage applications in the power device field.　　●　EcoMOS™ is ROHM's brand of silicon power MOSFETs designed for energy-efficient applications in the power device sector.　　During the fair, ROHM’s power experts will participate in several panel discussions and conference presentations. Additionally, they will hold poster sessions at the PCIM Europe 2025 conference.　　More information regarding ROHM’s key highlights at PCIM 2025 is available here: www.rohm.com/pcim　　*EcoSiC™, EcoGaN™, EcoIGBT™, EcoMOS™ and TRCDRIVE pack™ are trademarks or registered trademarks of ROHM Co., Ltd.

Key word：

ROHM

Release time：2025-04-23 17:01 reading：169 Continue reading>>

Trade news

TAIYO YUDEN Commercializes LCQPB Series of Power Inductors for Automotive Application

　　TAIYO YUDEN CO., LTD. has commercialized the new LCQPB series of wire-wound ferrite power inductors, which have AEC-Q200 qualification for automotive passive components.　　The LCQPB series power inductors are designed for use as choke coils and noise filters in DC-DC converters in power circuits for automotive body and information systems.　　TAIYO YUDEN previously released the LCEN series and LCCN series of metal power inductors made from metallic magnetic substances for automobile application and the LCXN series and LCXH series of ferrite power inductors. To these, we add the new LCQPB series to give our customers more choice by substance and structure and a high degree of freedom in design.　　The LCQPB series inductors have been manufactured by our overseas subsidiary, TAIYO YUDEN (PHILIPPINES), (Lapulapu City, Cebu) since March 2025. Samples are available for 50 yen per unit.　　Technology Background　　The advancements that we have seen in recent years in electronic controls in vehicles, as typified by ADAS units, have led to a greater number of power supply circuits on vehicles, which in turn has led to growth in the demand for power inductors that are used in these circuits. In order to miniaturize power supply circuits, engineers demand inductors with specific properties that allow high-density mounting with a high degree of freedom in design and noise suppression by frequency.　　Therefore, TAIYO YUDEN has newly commercialized the LCQPB series, which complies with AEC-Q200. The LCQPB series inductors have a frameless structure that results in a small footprint. The new LCQPB series, together with our other series of inductors designed for automotive application, give our customers more choice by substance and structure and a high degree of freedom in design.　　TAIYO YUDEN focuses on the development of products that meet market needs, and will continue to expand its power inductor product lineup.　　■ Application　　The LCQPB series power inductors are applicable as choke coils and noise filters in DC-DC converters in power circuits for automotive body and information systems.

Key word：

TAIYO

Release time：2025-04-10 13:18 reading：231 Continue reading>>

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ROHM Develops Class-Leading* Low ON-Resistance, High-Power MOSFETs for High-Performance Enterprise and AI Servers

　　ROHM has developed N-channel power MOSFETs featuring industry-leading* low ON-resistance and wide SOA capability. They are designed for power supplies inside high-performance enterprise and AI servers.　　The advancement of high-level data processing technologies and the acceleration of digital transformation have increased the demand for data center servers. At the same time, the number of servers equipped with advanced computing capabilities for AI processing is on the rise and is expected to continue to grow. These servers operate 24 hours a day, 7 days a week – ensuring continuous operation. As a result, conduction losses caused by the ON-resistance of multiple MOSFETs in the power block have a significant impact on system performance and energy efficiency. This becomes particularly evident in AC-DC conversion circuits, where conduction losses make up a substantial portion of total power loss – driving the need for low ON-resistance MOSFETs.　　Additionally, servers equipped with a standard hot-swap function, which allow for the replacement and maintenance of internal boards and storage devices while powered ON, experience a high inrush current during component exchanges. Therefore, to protect server components and MOSFETs from damage, a wide Safe Operating Area (SOA) tolerance is essential.　　To address these challenges, ROHM has developed its new DFN5060-8S package that supports the packaging of a larger die compared to conventional designs, resulting in a lineup of power MOSFETs that achieve industry-leading* low ON-resistance along with wide SOA capability. These new products significantly contribute to improving efficiency and enhancing reliability in server power circuits.　　The new lineup includes three products. The RS7E200BG (30V) is optimized for both secondary-side AC-DC conversion circuits and hot-swap controller (HSC) circuits in 12V power supplies used in high-performance enterprise servers. The RS7N200BH (80V) and RS7N160BH (80V) are ideal for secondary AC-DC conversion circuits in 48V AI server power supplies.　　All three models feature the newly developed DFN5060-8S package (5.0mm × 6.0mm). The package increases the internal die size area by approximately 65% compared to the conventional HSOP8 package (5.0mm × 6.0mm). As a result, the RS7E200BG (30V) and RS7N200BH (80V) achieve ON-resistances of 0.53mΩ and 1.7mΩ (at VGS = 10V), respectively – both of which rank among the best in the industry in the 5.0mm × 6.0mm class, significantly contributing to higher efficiency in server power circuits.　　Moreover, ROHM has optimized the internal clip design to enhance heat dissipation, further improving SOA tolerance, which contributes to ensuring application reliability. Notably, the RS7E200BG (30V) achieves an SOA tolerance of over 70A at a pulse width of 1ms and VDS = 12V, which is twice that of the conventional HSOP8 package MOSFETs under the same conditions, ensuring industry-leading SOA performance in a 5.0mm × 6.0mm footprint.　　Going forward, ROHM plans to gradually begin mass production of power MOSFETs compatible with hot-swap controller circuits for AI servers in 2025, continuing to expand its lineup that contributes to greater efficiency and reliability across a wide range of applications.　　Product Lineup　　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.　　Application Examples　　・AC-DC conversion and HSC circuits for 12V high-performance enterprise server power supplies　　・AC-DC conversion circuits for 48V AI server power supplies　　・48V industrial equipment power supplies (i.e. fan motors)　　Terminology　　Low ON-Resistance (RDS(on))　　The resistance value between the Drain and Source of a MOSFET during operation. A smaller RDS(on) results in lower power loss during operation.　　SOA (Safe Operating Area) Tolerance　　The range of voltage and current within which a device can operate safely without damage. Exceeding this range can lead to thermal runaway or device failure, making SOA tolerance a critical factor, especially in applications prone to inrush current or overcurrent.　　Power MOSFET　　A type of MOSFET used for power conversion and switching applications. N-channel MOSFETs are the mainstream choice, as they become conductive when a positive voltage is applied to the gate relative to the source, offering lower ON-resistance and higher efficiency than P-channel variants. Due to their low loss and high-speed switching capabilities, power MOSFETs are widely used in power circuits, motor drive circuits, and inverters.　　Hot-Swap Controller (HSC)　　A specialized integrated circuit (IC) that enables hot-swap functionality, allowing components to be inserted or removed while the power supply system remains active. It plays a crucial role in managing inrush current that occurs during component insertion, protecting both the system and connected components from damage.　　Inrush Current　　A sudden surge of current that momentarily exceeds the rated value when an electronic device is powered ON. Proper control of this current reduces stress on power circuit components, helping to prevent device failure and stabilize the system.

Key word：

ROHM

Release time：2025-04-10 13:10 reading：246 Continue reading>>

Trade news

Murata Commercializes Broadband-Compatible 1210 inch size, in-vehicle PoC Inductors, Reducing Component Size and Weight

　　Murata Manufacturing Co., Ltd. (hereinafter “Murata”) has commercialized the 1210 size in-vehicle PoC inductor LQW32FT_2H series (hereinafter “this product”). 　　With Advanced Driver Assistance Systems (ADAS) becoming more commonplace in recent years, the numbers of high-definition cameras on vehicles are also increasing. High-speed interface PoC*2 that combine both signal and power transmissions on a single coaxial cable are being used on vehicle camera systems with LVDS*1 transmission. In a PoC circuit, a circuit processor handles broadband signals, and usually multiple inductors are used for a wider bandwidth to maintain the high impedance required to separate the signal and the power.　　In response, we applied our proprietary ceramic materials and product structures in order to achieve a high impedance, reducing the number of PoC inductors. This contributes to component size and weight reduction through implementation space reduction.　　Going forward, Murata will strive to develop products to meet market needs and contribute to the shift to high-performance and high-functionality automobiles.　　Specifications　　*1LVDS (Low Voltage Differential Signal): The most general technical standard for the transmission of differential data.　　*2PoC (Power Over Coax): A method that combines the signal line and power line to a single coaxial cable.　　*3AEC-Q200: One of the standards defined by the AEC (Automotive Electronics Council).

Key word：

Murata

Release time：2025-04-08 14:17 reading：253 Continue reading>>

Trade news

Renesas Introduces Low-Power Bluetooth Low Energy SoC for Automotive Applications

　　Renesas Electronics Corporation (TSE:6723), a premier supplier of advanced semiconductor solutions, today introduced a new industry-leading Bluetooth chip that combines a radio transceiver, an Arm® M0+ microcontroller, memory, peripherals and security features in a compact SoC design. The DA14533, the first automotive-qualified device in the company’s Bluetooth® Low Energy system-on-chip (SoC) family, includes advanced power management features to simplify system integration and reduce power consumption. With its software stack qualified against Bluetooth Core 5.3 and support for extended temperatures, developers can jump-start projects in applications from tire pressure monitoring and keyless entry to wireless sensors and battery management systems.　　Optimized Design to Deliver Unparalleled Power Efficiency　　Building on Renesas’ leadership in Bluetooth LE SoCs (SmartBond Tiny Family) with industry-leading low power consumption, the new DA14533 includes some of the most advanced power management features in the industry. The device includes an integrated DC-DC buck converter, which accurately adjusts the output voltage according to system requirements. Active system power consumption is lower than comparable devices in the market, requiring only 3.1mA during transmission and 2.5mA during reception. In hibernation mode, the current drops to 500nA. These power management and power-saving features help extend the operational life of small-capacity battery-powered systems and meet the stringent power requirements of tire pressure monitoring systems’ mission profile.　　Auto-Grade AEC-Q100 Qualified and Up-to-Date Security Features　　The DA14533 is an AEC-Q100 Grade 2 qualified device, which means the device has passed strict testing to sustain quality and reliability in harsh automotive environments. Moreover, the device’s extended temperature range (-40 to +105°C) ensures reliable performance in demanding conditions, making it ideal for automotive and industrial systems where stability and durability are essential. Qualified against Bluetooth Core 5.3 specifications, the device contains the latest security features to safeguard connected devices from various threats.　　“Our SmartBond Tiny SoC family has seen remarkable success in the industrial market, with over 100 million units shipped to date,” said Chandana Pairla, VP of Connectivity Solutions Division at Renesas. “This new automotive-grade device will enable a new class of Bluetooth LE applications that demand high power efficiency, a small footprint and broader temperature tolerance for next-generation battery-powered automotive and industrial systems.”　　Lower Bill-of-Materials Reduces Costs and Simplifies Development　　Similar to other Bluetooth LE SoC devices in the SmartBond Tiny family, the DA14533 only requires 6 external components, offering a best-in-class engineering bill of materials (eBOM).　　A single external crystal oscillator (XTAL) is used for both active and sleep modes, eliminating the need for a separate oscillator for sleep mode. Its ultra-compact design – available in a WFFCQFN 22-pin 3.5 x 3.5 mm package – makes the device the smallest automotive Bluetooth LE SoC on the market. With its compact design and low eBOM, the device integrates seamlessly into space-constrained systems, reducing overall system costs and accelerating time-to-market for customers.　　Key Features of the DA14533　　Arm® Cortex®-M0+ microcontroller – Standalone application processor or data pump in hosted systems　　64KB RAM and 12KB One-Time Programmable (OTP) memory　　2.4 GHz radio transceiver　　Integrated low IQ buck DC-DC converter　　External SPI flash　　Single XTAL operation (single crystal oscillator)　　Software stack qualified against Bluetooth Core 5.3　　AEC-Q100 Grade 2-qualified with wide operating temperature range support (-40 to +105°C)　　WFFCQFN 22-pin 3.5 x 3.5 mm package

Key word：

Renesas

Release time：2025-04-08 14:06 reading：290 Continue reading>>

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Supporting up to 1500W motor drive, NSUC1602 from NOVOSENSE easily addresses high current challenges

　　NOVOSENSE announced the launch of NSUC1602, a high-integration embedded motor control IC, following its introduction of NSUC1610, a small motor driver SoC for automotive applications in early 2023. Compared to the single-chip NSUC1610 that integrates LIN and MOS power stages, NSUC1602 as a SoC, supports an external independent power MOSFET design. This innovative approach enables it to effortlessly address applications requiring higher current.　　In addition, NSUC1602 integrates three half-bridge pre-drivers, expanding the motor control power range to 20W-1,500W. This enhancement not only further optimizes the control performance of BLDC motors, but also better meets the requirements of applications with higher power output. In the realm of xEV, thermal management systems are particularly complex and crucial for ensuring overall vehicle performance. These systems are responsible for managing the temperatures of electric motors, power electronics, and battery, while ensuring optimal comfort for passengers in the cabin. An efficient thermal management system not only helps extend battery life, but also prevents the risks of thermal runaway caused by overheat, thereby safeguarding safe operation of xEVs.　　In the realm of xEV, thermal management systems are particularly complex and crucial for ensuring overall vehicle performance. These systems are responsible for managing the temperatures of electric motors, power electronics, and battery, while ensuring optimal comfort for passengers in the cabin. An efficient thermal management system not only helps extend battery life, but also prevents the risks of thermal runaway caused by overheat, thereby safeguarding safe operation of xEVs.　　To achieve these objectives, thermal management systems rely heavily on precise control of various actuators, such as electric compressor, electronic water pump, oil pump, fan motors, valves, and HVAC control modules. The motors driving these actuators typically need high power output to ensure stable and precise performance under a wide range of operating conditions, thereby meeting the strict requirements of efficient and accurate control for xEV thermal management systems.　　NSUC1602, a highly integrated embedded motor control IC from NOVOSENSE, plays a pivotal role in managing key actuators in xEVs with its exceptional integration features and powerful motor control algorithms. This IC integrates an ARM® Cortex®-M3 core and efficient three-phase pre-driver circuits, and supports more advanced and complex motor control algorithms, such as FOC sensored or sensorless vector control. These advanced algorithms significantly enhance the precision and efficiency of temperature management for motors and electronic devices, providing robust technical support for intelligent three-phase brushless DC motor control applications, including automotive electronic cooling fans and electronic water pumps. Additionally, NSUC1602 incorporates a series of optimization designs to significantly improve overall system efficiency, ensuring stable performance under high-load operating conditions.　　NSUC1602 meets the reliability requirements of AEC-Q100 Grade 0, and operates stably at extreme temperatures (up to 175°C wafer junction temperature). This SoC comes with further enhanced built-in diagnostics and protection functions that ensure high system reliability and comprehensive security protection for users.　　While maintaining a highly integrated design, NSUC1602 also has an optimized power management solution. The LIN port supports ±40V reverse voltage protection, and the BVDD pin supports a withstand voltage range from -0.3V to 40V, allowing direct power supply from a 12V automotive battery. This helps simplify system design and notably reduce development costs.　　NSUC1602 demonstrates extensive applicability for diverse applications. With superior motor control performance, NSUC1602 can play a crucial role in a wide range of BLDC and BDC applications requiring precise temperature control and efficient power transmission, such as automotive electronic water pumps, cooling fans, air conditioning blowers, seat adjustment, sunroof control, or tailgate control. Its optimized power management solution ensures that these devices achieve significant energy consumption reduction and substantial service life extension, while providing exceptional performance.

Key word：

NOVOSENSE

Release time：2025-04-07 13:29 reading：302 Continue reading>>

Trade news

BIWIN Spec Industrial-Grade Wide-Temperature eMMC Wins the Industrial Core "New Quality" Award

　　Recently, the results of the 23rd Chinese Automation & Digitalization "New Quality Award" selection, hosted by gongkong®, were officially announced. BIWIN Spec, the industrial and automotive-grade storage brand under BIWIN, clinched the Industrial Core "New Quality" Award for its innovatively developed Industrial-Grade Wide-Temperature eMMC storage solution.　　Backed by BIWIN’s technological expertise and competitive advantages in embedded storage sector, the award-winning TGE208/TGE218 series industrial-grade eMMCs are featured with industrial-grade controllers and NAND Flash, along with proprietary firmware architectures and in-house advanced packaging/testing and manufacturing processes, delivering exceptional performance, ultimate stability, and industrial-grade reliability.　　Furthermore, the products are certified with over 200 rigorous validation tests through BIWIN’s automatic testing system, and also passed the HTOL and ELFR tests under JEDEC standards. Designed for consistent and stable operation in extreme environments, the products are widely applicable across diverse industrial scenarios, including smart security surveillance, data communication, industrial automation, rail transportation, smart power systems, smart healthcare, and IoT terminals.　　In terms of technical specifications, the products strictly follow the eMMC5.1 standards, support the HS400 high speed mode (with data transfer rates up to 400MB/s), and deliver outstanding performance under industrial wide-temperature conditions ranging from -40℃ to +85℃. In addition, the pSLC firmware technical support is also enabled to enhance the capability for data retention, so as to meet the high-frequency read/write needs in industrial scenarios.　　With aims to satisfy the 24/7 uninterrupted operation requirements of industrial equipment, the BIWIN eMMCs are also specifically built with five intelligent management functionalities: the Field Firmware Upgrade (FFU) for remote maintenance, Boot Partition for secure system loading, Replay Protected Memory Block (RPMB) for enhanced data security, idle data acceleration for optimized storage efficiency, and a health monitoring system equipped. Customers can monitor the storage unit’s operational status in real time through a customized interface and dynamically optimize adjustments based on specific application scenarios.　　BIWIN has established stable and close partnerships with supply chain collaborators, providing customers with reliable supply assurances and comprehensive after-sales support throughout the product lifecycle. With years of technical R&D accumulation and an intelligent production and testing system, combined with tiered BOM (Bill of Materials) control and manufacturing process management, the products achieve higher reliability and sustained operational stability.

Key word：

BIWIN

Release time：2025-04-07 13:20 reading：282 Continue reading>>

Trade news

Commercialized high precision agricultural CO2 sensors with superior long-term stability

　　Murata Manufacturing Co., Ltd. (hereinafter "Murata") has commercialized "IMG-CA0012-12" (hereinafter "this product"), a case and cable type CO2 sensor. This high precision product primarily connects to environment measurement equipment in agricultural greenhouses and stably measures CO2 concentration. Through linkage with photosynthesis accelerators, this product will contribute to improving crop quality and increasing yield. Additionally, it improves energy efficiency by injecting an optimal amount of CO2 at an optimal timing. Mass production and supply for this product has begun in Hakui Murata Manufacturing.　　In the field of agriculture, increased yield and quality improvement per unit area are required since there is a reduction in yield and decline in quality due to global warming as well as a drop in agricultural worker population. Technology for accelerating crop photosynthesis using CO2 application is an effective means of addressing these challenges. Furthermore, due to the recent increase in energy costs, effective CO2 application based on environmental data measurements is crucial. As a result, high-precision CO2 sensors, which offer long-term stability, require no calibration, and are resistant to malfunction, play a crucial role in photosynthesis accelerator technology.　　This product is equipped with an automatic calibration function that runs on our unique calibration curve algorithm and dual wavelength (for measurement and reference) NDIR*1. Therefore, atmospheric calibration is not required. This ensures high precision and long-term stability, making it maintenance-free. Furthermore, its case and cable type design enhances user handling and ease of installation.　　*1NDIR: Non-Dispersive Infrared Absorption　　Specifications　　CO2 sensors were installed in greenhouses and were used for a year for tomato cultivation and 2 years for rose cultivation. After use, CO2 concentration characteristics and temperature characteristics were evaluated.　　It was discovered that CO2 concentration differences were minimal even when they were used for a long period of time in actual fields.　　CO2 concentration characteristics　　Temperature characteristics

Key word：

Murata

Release time：2025-04-02 15:44 reading：287 Continue reading>>

Trade news

ROHM and TSMC Launch Strategic Gallium Nitride Technology Collaboration for Automotive Industry

　　ROHM Co., Ltd. (ROHM) announced today that ROHM and TSMC have entered a strategic partnership on development and volume production of gallium nitride (GaN) power devices for electric vehicle applications.　　The partnership will integrate ROHM's device development technology with TSMC's industry-leading GaN-on-silicon process technology to meet the growing demand for superior high-voltage and high-frequency properties over silicon for power devices.　　GaN power devices are currently used in consumer and industrial applications such as AC adapters and server power supplies. TSMC, a leader in sustainability and green manufacturing, supports GaN technology for its potential environmental benefits in automotive applications, such as on-board chargers and inverters for electric vehicles (EVs).　　The partnership builds on ROHM and TSMC’s history of collaboration in GaN power devices. In 2023, ROHM adopted TSMC’s 650V GaN high-electron mobility transistors (HEMT), whose process is increasingly being used in consumer and industrial devices as part of ROHM's EcoGaN™ series, including the 45W AC adapter (fast charger) "C4 Duo" produced by Innergie, a brand of Delta Electronics, Inc.　　"GaN devices, capable of high-frequency operation, are highly anticipated for their contribution to miniaturization and energy savings, which can help achieve a decarbonized society. Reliable partners are crucial for implementing these innovations in society, and we are pleased to collaborate with TSMC, which possesses world-leading advanced manufacturing technology" said Katsumi Azuma, Member of the Board and Senior Managing Executive Officer at ROHM. “In addition to this partnership, by providing user-friendly GaN solutions that include control ICs to maximize GaN performance, we aim to promote the adoption of GaN in the automotive industry."　　“As we move forward with the next generations of our GaN process technology, TSMC and ROHM are extending our partnership to the development and production of GaN power devices for automotive applications,” said Chien-Hsin Lee, Senior Director of Specialty Technology Business Development at TSMC. “By combining TSMC's expertise in semiconductor manufacturing with ROHM's proficiency in power device design, we strive to push the boundaries of GaN technology and its implementation for EVs.”　　About TSMC　　TSMC pioneered the pure-play foundry business model when it was founded in 1987, and has been the world’s leading dedicated semiconductor foundry ever since. The Company supports a thriving ecosystem of global customers and partners with the industry’s leading process technologies and portfolio of design enablement solutions to unleash innovation for the global semiconductor industry. With global operations spanning Asia, Europe, and North America, TSMC serves as a committed corporate citizen around the world.　　 TSMC deployed 288 distinct process technologies, and manufactured 11,895 products for 528 customers in 2023 by providing broadest range of advanced, specialty and advanced packaging technology services. The Company is headquartered in Hsinchu, Taiwan.　　EcoGaN™ is a trademark or registered trademark of ROHM Co., Ltd.

Key word：

ROHM

Release time：2025-04-02 15:36 reading：305 Continue reading>>

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

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

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