Basic knowledge of electronic components purchasing -Ameya360 electronic components purchasing website

Trade news

Murata launches vibration sensor device for predictive maintenance capable of detecting high-frequency range up to 20 kHz

　　Murata Manufacturing Co., Ltd. announces the SMD-type vibration sensor device PKGM-210D-R. Mass production has already begun.　　In the factory automation (FA) industry, maintenance has traditionally consisted of scheduled maintenance at fixed intervals and corrective maintenance after failures.　　In recent years, however, predictive maintenance, which detects early signs of failure to prevent unexpected equipment stoppages, has become increasingly important. In rotary machinery such as bearings and motors, component damage or insufficient lubrication generates minute abnormal vibrations in the high-frequency range up to 20 kHz before failures become serious. Measuring such high-frequency vibrations is challenging due to interference from noise, and detection has often relied on the experience of skilled technicians using auditory inspection.　　By combining its long-established piezoelectric ceramic vibration detection technology with advanced circuit packaging expertise, Murata has developed the PKGM-210D-R, capable of detecting vibrations up to 20 kHz, the upper limit of the audible range. This enables detection of subtle high-frequency abnormal vibrations that were previously identified only by human hearing.　　The product supports early prediction of equipment issues, helping to reduce downtime, optimize maintenance timing, extend component life, and minimize excess inventory. In addition, its compact size of 0.20 × 0.20 × 0.14 inches (5.0 × 5.0 × 3.5 mm) allows easy retrofitting to existing equipment or direct integration into motor components.　　Key features:　　Z-axis direction detection up to 20 kHz　　Compact size (0.20 × 0.20 × 0.14 inch / 5.0 × 5.0 × 3.5 mm) for easy retrofit and built-in mounting　　Built-in driver and filter circuits　　Versatile single analog output　　Built-in temperature sensor

Key word：

Murata

Release time：2026-03-19 17:06 reading：244 Continue reading>>

Trade news

Renesas Announces General Availability of Renesas 365

　　Renesas Electronics Corporation (TSE: 6723), a premier supplier of advanced semiconductor solutions, today announced the general availability of Renesas 365, Powered by Altium, an intelligent, model-based platform that integrates device exploration, model-based system development and early concept validation on a single unified platform. Built on a cloud environment, Renesas 365 is an industry-first platform designed to bring silicon and systems together across an open ecosystem at scale.　　In modern embedded design, engineers often struggle with disconnected workflows, manual component searches and limited system-level awareness. Renesas 365 directly addresses such challenges by connecting previously isolated tools such as embedded software files, datasheets and application notes into a streamlined, cloud-managed platform. With Renesas 365, engineering teams can collaboratively explore architectures, co-develop hardware and software and make system-level design decisions backed by real-time insights.　　Following its concept introduction, Renesas is now launching the first phase of Renesas 365 by integrating over 550 variants of the RA family of microcontrollers (MCUs), an industry-leading Arm®-based MCU portfolio together with a full suite of development tools.　　Using model-based evaluation and optimization technology, engineers can now rely on Renesas 365 as an intelligent design environment that actively assists with selecting the right MCU based on full system requirements. Rather than filtering datasheets in isolation, engineers receive guided recommendations informed by pin usage, peripherals, timing, power and how devices align with system building blocks. This means tasks that typically take an engineer an hour reviewing data sheets and tool requirements can now be accomplished in minutes, dramatically reducing evaluation time. This system-level intelligence accelerates design convergence, minimizes downstream rework and enables faster time to market while supporting more robust, efficient and cost-effective embedded designs.　　“The general availability of Renesas 365 marks a pivotal milestone in realizing Renesas’ Digitalization Vision,” said Gaurang Shah, Vice President and General Manager of Embedded Processing at Renesas. “By delivering the first phase of an intelligent design environment that supports early-stage development, we are laying the groundwork for the next phase, where hardware and software subsystem elements will be maintained within Renesas 365. This helps our customers build, scale and sustain next-generation software-defined products faster and at lower cost.”　　Together with the e²studio integrated development environment (IDE), Flexible Software Package (FSP) and smart documentation, engineers can leverage integrated design workflows specifically created for RA MCU devices, including sensing, power management and compiler support.　　Key features of Renesas 365 include:　　Model-based component and system exploration, discovery and selection　　Digital continuity across systems, hardware and software workflows　　AI-assisted guidance on design constraints, resource management, and error resolution　　Over-the-air (OTA) device management for RA MCUs　　Existing customers can link their current projects in e²studio with Renesas 365 and start using the platform immediately, while developers starting a new project are guided through system-level component and solution discovery to identify compatible devices and evaluate feasibility. This system-level context awareness significantly accelerates early-stage development and reduces iterations.　　Digitally Connected Hardware and Software Configurations　　As engineers make modifications to their system, the platform automatically records iterations and connects them with system-level design elements so teams can revisit any previous hardware and software configurations. With a context-aware smart system, Renesas 365 helps identify resource or design constraints, suggests resolutions and assists teams to make design decisions with fewer iterations and confidence. Moreover, Renesas 365 lets customers manage and update RA-based devices even after initial design through an integrated over-the-air (OTA) capability.　　An Open Platform Built for Flexibility　　Renesas 365 is an open, scalable platform that mirrors how electronic systems are developed in the real world. Developers have the option to incorporate third-party components, sensors and partner tools directly into their system designs. This open approach allows teams to evaluate tradeoffs and consider mixed vendor architectures to customize solutions with integrated system-level context.　　Growing the Renesas 365 Ecosystem　　Now under development, the next phase of Renesas 365 will pave the way for completed subsystem building blocks to be modeled as platform-maintained components. As part of this effort, more Renesas product families will be supported, and the component ecosystem will include more third-party devices. Subsystem components such as peripheral configuration, power management and software will be automatically defined, maintained and validated for compatibility. With these customizable building blocks, customers will accelerate time to market, reduce engineering effort, and gain access to cutting-edge technologies.　　Renesas will showcase Renesas 365 at embedded world 2026 in Nuremberg in two separate locations.　　Renesas 365 Booth (Hall 4, Stand 305/4-305): Dedicated to the Renesas 365 solution, Booth 4-305 will feature live demonstrations on integrated RA workflows, model-based system exploration and intelligent validation.　　Renesas Booth (Hall 1, Stand 234/1-234): Showcasing products across Renesas’ comprehensive portfolio of leading-edge semiconductor solutions with presentations and demos.

Key word：

Renesas

Release time：2026-03-18 13:11 reading：230 Continue reading>>

Trade news

ROHM has Introduced Reference Designs for Three-Phase Inverters Featuring New SiC Power Modules

　　ROHM has released reference designs "REF68005", "REF68006", and "REF68004" for three-phase inverter circuits featuring EcoSiC™ brand SiC molded modules "HSDIP20", "DOT-247", and "TRCDRIVE pack™" on ROHM’s website. Designers can use the data provided in these reference designs to create the drive circuit boards. When combined with ROHM's SiC modules, these designs help reduce the person-hours required for device evaluation.　　In high power conversion circuits, while SiC power devices contribute to higher efficiency and reliability, they can increase the workload associated with peripheral circuit and thermal design. The reference designs released by ROHM support output power levels up to the 300kW class, facilitating the adoption of SiC modules across a wide range of automotive and industrial applications.　　Three types of SiC modules compatible with these reference designs are already available for purchase through online distributors such as DigiKey and Farnell.　　About Reference Designs　　These reference designs are intended for users to utilize the publicly released design data. If you would like to obtain a reference design board or evaluation kit, please contact a sales representative or visit the contact page on ROHM’s website. (Quantities are limited.)　　Regarding Online Sales of SiC ModulesDetails of SiC modules currently available through online distributors can be found below.　　New SiC Molded Modules Now Available for Online Purchase!　　Simulation SupportWe also provide various support resources to facilitate quick evaluation and implementation of our products. ROHM’s comprehensive solutions, including simulation and thermal design support, can provide valuable assistance in component selection.　　Various design data related to the evaluation boards can be downloaded from their respective reference design page, while the product information for SiC modules compatible with the reference designs can be accessed from each product page as well.　　Additionally, the ROHM Solution Simulator, a simulation tool enabling system-level verification from the component selection stage, is available on ROHM’s website.　　HSDIP20: Reference Design / ROHM Solution Simulator / LTspice® Circuit ModelDOT-247: Reference Design / ROHM Solution Simulator / LTspice® Circuit ModelTRCDRIVE pack™: Reference Design　　Other Reference DesignsIn addition to those introduced in this release, we offer numerous reference designs that contribute to reduced design effort for users. More details are available through the link below.　　Reference Design / Application Evaluation Kit　　Related InformationNews Release (HSDIP20)　　ROHM Develops New High Power Density SiC Power ModulesNews Release (DOT-247)　　ROHM Launches 2-in-1 SiC Molded Module “DOT-247”News Release (TRCDRIVE pack™)　　ROHM’s New TRCDRIVE pack™ with 2-in-1 SiC Molded Module: Significantly Reduces the Size of xEV Inverters　　EcoSiC™ BrandEcoSiC™ 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.・TRCDRIVE pack™ and EcoSiC™ are trademarks or registered trademarks of ROHM Co., Ltd.・LTspice® is a registered trademark of Analog Devices, Inc.When using third-party trademarks, please adhere to the usage guidelines specified by the rights holder.

Key word：

ROHM

Release time：2026-03-18 11:35 reading：225 Continue reading>>

Trade news

MWC 2026 | Fibocom Unveils AI ECR Solution, Ushering in a New Era of Smart Retail

　　At MWC 2026, Fibocom introduced its next-generation AI Electronic Cash Register (ECR) solution for automated and smart retail scenarios.　　Powered by MediaTek’s high-performance Genio 520/720 IoT platform, the solution offers exceptional scalability and supports on-device large model integration, enabling global retailers to deliver smarter, faster, and more immersive retail experiences.　　Core Hardware Power: High-Performance Edge AI Computing　　Built on an advanced 6nm octa-core processor, the AI ECR provides strong edge AI computing for both traditional and intelligent retail operations.　　Equipped with 2× Cortex-A78 (@2.2GHz) and 6× Cortex-A55 (@2.0GHz) cores plus an NPU 850 delivering up to 10 TOPS, it supports local large language models for voice interaction, inventory forecasting, and visual recognition — minimizing cloud reliance while ensuring faster response and data privacy.　　Immersive Visual & Seamless Connectivity　　The platform supports a 15.6-inch 2K display with 2D/3D acceleration and can drive 4K/5K ultra-HD screens, ideal for digital signage.　　To meet diverse retail needs, it integrates dual-camera input (MIPI CSI + USB) for facial payment and behavior analysis, plus multiple I/O ports (USB-A/C, HDMI, RJ45, RJ12, audio) for peripherals.　　Built-in Wi-Fi 6 (1×1) and Bluetooth 5.3 ensure high-speed, stable wireless connections.　　Powered by Android 15: Secure and Future-Ready　　Among the first to run Android 15, the solution provides an open, secure ecosystem with enhanced multitasking, memory management, and system-level protection—ensuring smooth, long-term performance for industrial and consumer-grade applications.　　“We look forward to continuing our collaboration with Fibocom, leveraging the MediaTek Genio platform to deliver powerful edge AI performance with on-device large model support,” said CK Wang, Vice President and General Manager of MediaTek IoT. “This solution demonstrates our shared commitment to advancing smart retail and helping businesses become more competitive and efficient.”　　Ralph Zhao, General Manager of Mobile Computing Solutions BU at Fibocom, stated:　　“As the retail industry accelerates toward automation and intelligence, edge AI computing has become the key to improving user experience. Fibocom’s new AI ECR solution represents a breakthrough in hardware design and enables large-model applications at the point of sale with 10 TOPS of processing power — empowering partners to build more competitive and intelligent retail solutions.”

Key word：

Fibocom

Release time：2026-03-10 16:24 reading：339 Continue reading>>

Trade news

MWC 2026 | Fibocom and du’s ALL-IN-ONE AI CPE Solution Reinvents Family Data Interaction with AI NAS

　　On March 5 at the 2026 Mobile World Congress (MWC), Fibocom and du showcased the upgraded ALL-IN-ONE AI CPE solution featuring an enhanced AI NAS, further integrating 5G, AI and real-life scenarios. The upgrade transforms home storage from passive data retention into active intelligent management, delivering more personalized smart home experiences.　　Fibocom first introduced the ALL-IN-ONE AI CPE at NetworkX in France in October 2025, redefining the traditional 5G CPE form factor. The device integrates intelligent voice interaction, human and environmental sensing, and leverages Fibocom’s proprietary FWA AI SkyEngine to enable multi-scenario applications including smart home network management, home security, and smart home control.　　du positions AI-powered 5G CPE as a key enabler of premium fixed wireless access (FWA) services across residential, SME and enterprise markets in the UAE. By emphasizing intelligent self-optimization, ultra-low latency, high reliability and simplified deployment, du aims to deliver consistent gigabit connectivity while supporting cloud services, gaming and smart digital experiences.　　The latest upgrade significantly enhances home data management. Powered by SkyEngine computing capabilities, the built-in AI NAS allows users to quickly locate photos by entering keywords, eliminating the need to manually search large file libraries. The system can also detect duplicate photos and notify users to free up storage space efficiently.　　Natural voice interaction further simplifies the experience. Users can search content through voice commands, such as requesting “family photos from last summer at the beach,” while the AI NAS automatically categorizes photos by location, time, people and themes to generate personalized digital albums.　　All photo recognition and retrieval are processed locally through edge AI to ensure privacy and data security, supported by a physical privacy switch. The CPE also supports HDMI output, allowing users to display photos on larger screens via voice commands, enhancing shared family experiences.　　By integrating AI NAS, intelligent interaction and network optimization, the ALL-IN-ONE AI CPE continues evolving from traditional communication hardware into a full-scenario intelligent home hub, helping operators accelerate the shift toward platform-based services in the 5G FWA ecosystem.

Key word：

Fibocom

Release time：2026-03-10 16:21 reading：374 Continue reading>>

Trade news

Renesas Develops SoC Technologies for Automotive Multi-Domain ECUs Essential for the SDV Era

　　Renesas Electronics Corporation (TSE:6723), a premier supplier of advanced semiconductor solutions, has developed three System-on-Chip (SoC) technologies for automotive multi-domain electronic control units (ECUs). They feature advanced AI processing capabilities and chiplet functions, serving as the core technology platform for next-generation automotive electrical/electronic (E/E) architectures. Renesas presented the results at the International Solid-State Circuits Conference 2026 (ISSCC 2026), held February 15–19 in San Francisco, USA.　　In the age of software-defined vehicles (SDVs), automotive SoCs require advanced performance to run multiple applications simultaneously and must offer scalability through chiplets. They must also meet the functional safety requirements of automotive SoCs. As multi-domain SoCs powering central computing are growing larger and more complex, maintaining automotive-grade quality is becoming more difficult. With increased performance in advanced SoCs, power consumption also rises, making improvements in power efficiency and safety vital. To meet these needs, Renesas has developed the following new technologies.　　1. Chiplet architecture that supports functional safety　　To meet the functional safety requirements of automotive SoCs, Renesas has developed a new, proprietary architecture that supports ASIL D even in a chiplet configuration. By combining the standard die-to-die UCIe interface with a proprietary RegionID mechanism, the architecture prevents interference with hardware resources, even when numerous applications run simultaneously, thereby achieving Freedom from Interference (FFI).　　Conventional UCIe interfaces lack functionality to transmit RegionIDs between dies. Renesas developed a method for mapping RegionIDs into physical address space, encoding them into the UCIe region, and transmitting them. This enables safe access control through the memory management unit (MMU) and real-time cores, and meets functional safety requirements across chiplets. Additionally, by maintaining bandwidth from processors to the memory bus, the UCIe interface was confirmed through testing to achieve a high transmission speed of 51.2 GB/s, approaching the upper limit of intra-SoC transfer speeds. This technology provides both scalability and safety for high-performance automotive SoCs.　　2. Advanced AI processing capabilities and automotive-grade quality　　Automotive-grade quality is vital for SDV systems. Renesas has created a 3 nm SoC design that improves the performance of neural processing units (NPUs) for AI processing, while maintaining automotive-grade quality. In recent years, NPUs have been growing larger, with their area expanding 1.5-fold compared to previous generations. This has led to increased clock latency between shared clock sources and individual circuits. To address this problem, Renesas has redesigned the clock architecture by splitting up clock pulse generators (CPGs), which in past designs were module-level units, and placing mini-CPGs (mCPGs) at the sub-module level. This greatly reduces clock latency and meets timing requirements.　　However, multi-layer mCPGs complicate test clock synchronization, which is critical for achieving zero defects in automotive applications. Renesas has integrated test circuits into the hierarchical CPG architecture and unified the signal path for user clocks and test clocks. The new design also synchronizes upper- and lower-level mCPGs under a single clock source in test mode. This makes unified phase adjustment possible. As a result, Renesas has been able to achieve quality aligned with zero-defect expectations, even for large-scale SoCs, providing the high reliability required for next-generation SDV automotive SoCs.　　3. Advanced power control and monitoring for improved power efficiency and safety　　To achieve the high level of performance required for automotive SoCs with improved power efficiency and safety, Renesas has developed advanced power gating technology that uses over 90 power domains. It enables precise power control, from several milliwatts to several tens of watts, depending on operating conditions. Furthermore, Renesas has split power switches (PSWs) into ring PSWs and row PSWs to reduce IR drops (voltage drops) associated with increasing current density from smaller process geometries. When power is turned on, the ring PSW suppresses rush currents. Then the row PSW equalizes impedance within the domain. Together, these reduce IR drops by roughly 13% compared with conventional designs.　　To meet ASIL D functional safety standards, the dual core lock step (DCLS) configuration controls the master and checker cores with independent power switches and controllers. With this design, even if one side fails, the failure can be detected through lockstep operation. Furthermore, loopback monitoring is performed for each PSW's gate signal, so OFF states are detected when a failure occurs. A digital voltage meter (DVMON), which is highly resistant to temperature drift, is used for voltage monitoring. This improves aging tolerance by 1.4 mV. These technologies enable high-performance automotive SoCs that offer both power efficiency and safety.　　These new technologies are being used in Renesas' R-Car X5H SoC for automotive multi-domain ECUs. With R-Car X5H, users can accelerate the evolution of SDVs while ensuring safety and enabling autonomous driving, digital cockpit and more.　　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) All names of products or services mentioned in this press release are trademarks or registered trademarks of their respective owners.

Key word：

Renesas

Release time：2026-02-28 15:45 reading：401 Continue reading>>

Trade news

TDK extends X2 portfolio with compact 350 V (AC) capacitors for industrial and automotive

　　TDK Corporation (TSE:6762) extends its X2 safety film capacitor portfolio with the new B3292xU/V series,now supporting higher voltages and offering compact lead spacings of 15 mm and 22.5 mm, with capacitance values from 47 nF to 1.8 µF. Rated at 350 V (AC) and robust against peak voltage pulses up to 2.5 kV(IEC 60384-14), the series is designed for interference suppression in demanding, space-constrained industrial and automotive environments in series with the mains. Typical applications are on-board chargers, EV charging systems, PV inverters, energy meters, and capacitive power supplies.　　The entire series is now available with lead spacings from 15 mm to 52.5 mm, covering capacitance values from 47 nF to 20 µF. It passed the THB (temperature, humidity, bias) test at +85 °C, 85% RH, and rated voltage for 1000 h, meeting Grade III, Test Condition B requirements. In addition, the series offers AEC-Q200 compliance, excellent self-healing properties, and a maximum operating temperature of +110 °C, ensuring durability even under severe ambient conditions.　　With their compact dimensions and high DC testing voltage (1505 V for 2 s), the B3292xU/V series provides a balanced solution of performance and size for next-generation industrial drives and automotive power electronics, supporting the growing need for efficient and space-optimized EMI suppression solutions.　　For the B3292xU/V series, TDK offers a range of design tools and SPICE models.　　Main applications　　Capacitive power supplies, energy meters　　Industrial drives　　On-board chargers　　EV charging　　PV inverter　　Main features and benefits　　X2 class for interference (EMI) suppression　　“Across the line” applications　　For connections in series with the mains　　Severe ambient conditions　　Small dimensions　　Good self-healing properties　　AEC-Q200E compliant

Key word：

TDK

Release time：2026-02-27 16:14 reading：387 Continue reading>>

Trade news

ROHM’s New Compact, Highly Reliable Package Added to Automotive 40V/60V MOSFET Lineup

　　ROHM has expanded its lineup of low-voltage (40V/60V) MOSFETs for automotive applications – such as main inverter control circuits, electric pumps, and LED headlights – by introducing latest products adopting the new HPLF5060 package (4.9mm × 6.0mm).　　In recent years, automotive low-voltage MOSFETs have been trending toward smaller packages, such as the 5060-size and even more compact options. However, this miniaturization introduces significant challenges for achieving reliable mounting, primarily due to narrow terminal spacing and leadless designs.　　To address these issues, the new HPLF5060 package offers a smaller footprint compared to the widely used TO-252 package (6.6mm × 10.0mm) while enhancing board-mount reliability through the adoption of gull-wing leads. Additionally, the use of copper clip junction technology enables high-current operation, making the HPLF5060 an ideal solution for demanding automotive environments.　　Mass production of new products using this package began in November 2025 (sample price: $3.5/unit, excluding tax).　　In addition to expanding the lineup of products using this package, mass production of the smaller DFN3333 (3.3mm × 3.3mm) package, which employs wettable flank technology, is scheduled to begin around February 2026. Furthermore, development has commenced on a TOLG (TO-Leaded with Gull-wing) package (9.9mm × 11.7mm) to further expand the lineup of high-power, high-reliability packages.　　☆ : Under Development　　Application Examples　　Main inverter control circuits, electric pumps, LED headlights, etc.　　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　　Gull-Wing Leads　　A terminal structure that spreads outwards from both sides of the package. It achieves excellent heat dissipation along with increased mounting reliability. It is called “Gull-Wing” because its appearance resembles the wing of a seagull.　　Copper Clip Junction Technology　　A technology that uses copper clips (flat metal bridges) to connect chips and lead frames directly, replacing the conventional wire bonding method.　　Wettable Flank Technology　　A technology for plating the sides of the lead frame on bottom electrode packages such as QFN and DFN to improve mounting reliability.

Key word：

ROHM

Release time：2026-02-25 17:46 reading：355 Continue reading>>

Trade news

NOVOSENSE and Inovance Automotive Co-Develop IC Solutions for Next-Generation Electric Drive Platforms

　　NOVOSENSE Microelectronics announced that two highly integrated ICs—an isolated sensing IC and a logic ASC IC—developed in close collaboration with Inovance Automotive, a leading supplier of intelligent electric vehicle components and solutions, have entered mass production on Inovance Automotive’s next-generation electric drive (e-drive) platform. The customized IC solutions offer higher integration and optimized performance, supporting the ongoing shift toward more integrated electric drive systems while enabling designs that meet increasingly stringent functional safety requirements.　　Conventional discrete electric drive designs rely on widely distributed components and complex wiring, often resulting in larger system size, higher power losses, slower response, and constrained reliability. As electric vehicles continue to demand longer driving range and higher output power, electric drive architectures are moving rapidly toward multi-in-one and highly integrated designs. In this context, semiconductor solutions must deliver greater functional integration while maintaining accuracy, reliability, and functional safety margins within limited space, without constraining system-level design flexibility.　　Building on more than a decade of experience in motor controller system architectures and functional safety, Inovance Automotive proactively defined the key functional and performance requirements for the isolated sensing IC and logic ASC IC at an early stage of development. In response to these requirements, NOVOSENSE integrated high-voltage LDO, isolated sensing amplifier, and isolated comparator into a single isolated sensing IC. This integration significantly reduces external component while enabling high-precision isolated voltage sensing, fast OV/UV protection, and more compact electric drive designs.　　The customized logic ASC IC further integrates multiple logic functions and supports frequency detection, enabling centralized handling of interface-related logic. This approach simplifies interface design, improves overall system integration, and supports more compact inverter layouts. At the same time, it helps reduce BOM cost and provides a solid foundation for optimizing functional safety architectures in electric drive and traction inverter systems.　　By replacing mature discrete circuits with integrated IC solutions, the collaboration delivers clear system-level benefits.　　Simplified architectures and fewer components reduce potential failure points and improve overall product robustness.　　Higher integration lowers PCB area requirements, creating additional headroom for increased power density.　　Standardized IC solutions also streamline development by reducing design and validation effort, helping shorten development cycles and accelerate time-to-market.　　"Electric drive systems are entering a phase where higher integration is becoming essential, and progress at the chip level increasingly translates into system-level advantages," said Zheng Chao, Director of the R&D Center at Inovance Automotive. "This collaboration combines our strengths in electric drive systems with NOVOSENSE’s expertise in automotive semiconductors. More importantly, it reflects an important capability upgrade for Inovance Automotive—we are not only developing high-performance power electronics products, but also participating from the outset in defining system architectures and core chips. We look forward to continuing our work with NOVOSENSE to shape next-generation electric drive platforms and deliver more competitive system solutions to OEMs."　　"NOVOSENSE and Inovance Automotive have established a strong foundation for collaboration," said Ye Jian, Product Line Director at NOVOSENSE. "This project demonstrates both our customer's confidence in our technology and our application-driven approach to innovation. By drawing on our long-standing expertise in isolation and interface technologies, we will continue to deliver high-precision, high-performance, and high-reliability IC solutions to support Inovance Automotive's next-generation electric drive platforms."　　NOVOSENSE's Isolation+ portfolio covers digital isolator, isolated sensing, isolated driver, isolated power, and isolated interface, with cumulative shipments exceeding two billion units as of October 2025. The company also offers a broad automotive interface portfolio—including CAN, LIN, SerDes, logic ICs, and level shifters—providing customers with one-stop automotive-grade isolation and interface solutions. Across the new energy vehicle electrical system, NOVOSENSE works with hundreds of component suppliers, delivering semiconductor solutions for traction inverter, onboard charger (OBC), DC/DC converter, and battery management system (BMS), spanning sensor, signal chain, power management IC, and MCU.

Key word：

NOVOSENSE

Release time：2026-02-25 17:36 reading：457 Continue reading>>

Trade news

Fullhan launches FH8626V300: 2M/3M IP Camera SoC

　　FH8626V300 is a cost-effective and easy to develop 2M/3M IP camera solution. The chip integrates a high-performance ISP module and H.264/JPEG encoder, delivering excellent image processing capability, high encoding quality, and low bitrates.It also incorporates 64MB DDR2 memory and provides a complete set of peripheral interfaces required for IP camera applications, including USB, SDIO, and Ethernet, making it suitable for a wide range of network camera products.FH8626V300 features a high-performance 0.5T NPU, enabling intelligent functions such as smart detection.

Key word：

Fullhan

Release time：2026-02-10 16:49 reading：3175 Continue reading>>

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

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

PART	Quantity*	Target Price
	Quantity MOQ: 1	Target Price $ If not sure, you may skip this
remark

Telephone *	Name
Company
Email