ROHM’s New General-Purpose Chip Resistors Contribute to Greater Miniaturization

Release time:2025-03-12
author:AMEYA360
source:ROHM
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  ROHM has expanded its portfolio of general-purpose chip resistors with the MCRx family. It is designed to achieve greater miniaturization and enhanced performance across a variety of applications. The new lineup includes the high-power MCRS series and low-resistance, high-power MCRL series.

  In today's era of advancing functionality and electrification, the increased miniaturization and improved performance of electronic components have become critical issues. This is especially evident in the automotive market, where the proliferation of electric vehicles (xEVs) is accelerating the use of electronic components. Similarly, the industrial equipment market is experiencing growing demand for compact, high performance electronic components as machinery becomes more functional and efficient. ROHM addresses both of these needs with the MCRx family of compact, high-performance resistors.

ROHM’s New General-Purpose Chip Resistors Contribute to Greater Miniaturization

  The MCRS series improves rated power and TCR (Temperature Coefficient of Resistance) characteristics by optimizing the internal structure and incorporating new materials, enabling use in a smaller size compared to conventional products. A broad lineup in sizes ranging from 0402-size (0.04inch × 0.02inch) / 1005-size (1.0mm × 0.5mm) to 2512-size (0.25inch × 0.12inch) / 6432-size (6.4mm × 3.2mm) is available, making it possible to select the ideal product based on mounting space requirements. This leads to a compact, efficient circuit design, significantly increasing design flexibility. Meanwhile, the MCRL series, a low-resistance variant of the MCRS series, is offered in sizes ranging from 0805-size (0.08inch × 0.05inch) / 2012-size (2.0mm × 1.2mm) to 2512-size (0.25inch × 0.12inch) / 6432-size (6.4mm × 3.2mm) ideal for current detection applications.

  The MCRx family adopts a redesigned internal structure, improving production efficiency, quality, and product reliability across all sizes. Compliant with the AEC-Q200 automotive reliability standard, this series meets the increasing demand for electric vehicles (xEVs) while contributing to market expansion in communications infrastructure such as base stations and servers as well as factory automation equipment. In addition, the products are designated for long-term stable supply, supporting continuous use in long-life applications such as industrial equipment.

  The MCRS series will be expanded to include compact 0201-size (0.024inch × 0.012inch) / 0603-size (0.6mm × 0.3mm) products capable of withstanding temperatures up to +155°C. At the same time, the MCRE series will soon offer completely lead-free 01005-size (0.016inch × 0.008inch) / 0402-size (0.4mm × 0.2mm) products. These additions will allow ROHM to respond to the demand for further miniaturization while complying with environmentally-driven voluntary regulations and export restrictions.

  Going forward, ROHM is focused on developing and manufacturing products that cater to the diverse needs of customers worldwide. In particular, ROHM will continue to expand its lineup of resistors (its founding products) that improve miniaturization and reliability while ensuring long-term stable supply. By consistently delivering new value through technological innovation, ROHM seeks to solidify its market position and drive the evolution of electronic components.

ROHM’s New General-Purpose Chip Resistors Contribute to Greater Miniaturization

  Application Examples

        Suitable for a wide range of applications (excluding medical, military, aerospace, and nuclear control equipment)

  Automotive

  ・Electric vehicles (xEVs): Battery Management Systems (BMS), powertrain control, Advanced Driver Assistance Systems (ADAS)

  ・In-vehicle electronics: Engine Control Units (ECUs), infotainment systems, and more

  Industrial Equipment

  ・Robotics: Control systems for industrial robots

  ・Factory Automation (FA): Automated product line control systems

  ・Power conversion equipment: Inverters, converters, and more

  Consumer Devices

  ・Smart devices: Smartphones, tablets, wearables

  ・Home appliances: TVs, refrigerators, washing machines

  Communication Equipment

  ・Network equipment: Routers, switching hubs, communication equipment for data centers, etc.

  Online Sales Information

        Sales Launch Date: October 2024

  The products will be offered at other online distributors as they become available.

  Products for Sale: MCR01SMCR03SMCR10SMCR18SMCR25SMCR50SMCR100SMCR10LMCR18LMCR25LMCR50LMCR100L

  Additional resistance values will be added as needed.

  Resistance Value Search Page

        Users can now search by series or resistance value and purchase samples on product pages.

  https://www.rohm.com/products/resistors

  Terminology

        Temperature Coefficient of Resistance (TCR)

  An index of how much the resistance value changes with temperature. The lower the TCR, the less the resistance value fluctuates with temperature changes, resulting in more stable performance.

  AEC-Q200

  AEC stands for Automotive Electronics Council, a reliability standard for automotive electronic components established by major automotive manufacturers and US electronic component makers. Compliance with this standard by automotive components ensures reliable performance even under harsh environmental conditions. Q200 is a standard specifically intended for passive components such as resistors, capacitors, and inductors.

  xEV (Electric Vehicles)

  A collective term for vehicles primarily powered by electric motors, such as Hybrid Electric Vehicles (HEVs), Plug-in Hybrid Electric Vehicles (PHEVs), and Electric Vehicles (EVs).


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ROHM’s EcoGaN™ has been Adopted for AI Server Power Supplies by Murata Power Solutions
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ROHM’s EcoGaN™ has been Adopted for AI Server Power Supplies by Murata Power Solutions

  ROHM has announced that the 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. Mass production of this power supply unit is set to begin in 2025.  Rapid advancements in IoT-related fields such as AI and AR (Augmented Reality) have led to a surge in global data traffic in recent years. Notably, the power consumption for a single AI-generated response is estimated to be several times higher than that of a standard Internet search, highlighting the need for more efficient AI power supplies. Meanwhile, GaN devices, known for low ON resistance and high-speed switching performance, are gaining attention for their ability to enhance power supply efficiency while reducing the size of peripheral components such as inductors used in power circuits.  Dr. Joe Liu, Technical Fellow, Murata Power Solutions  “We are pleased to have successfully designed AI server power supply units featuring higher efficiency and power density by incorporating ROHM’s GaN HEMTs. The high-speed switching capability, low parasitic capacitance, and zero reverse recovery characteristics of GaN HEMTs help minimize switching losses. This allows for higher operating frequencies in switching converters, reducing the size of magnetic components. ROHM’s GaN HEMTs deliver competitive performance and exceptional reliability, yielding excellent results in the development of Murata Power Solutions’ 5.5kW AI server power supply units. Going forward, we will continue our collaboration with ROHM, a leader in power semiconductors, to improve the efficiency of power supplies and address the social issue of increasing power demand.”  Yuhei Yamaguchi, General Manager, Power Stage Product Development Div., LSI Business Unit, ROHM Co., Ltd.  “We are delighted that ROHM's EcoGaN™ products have been integrated into AI server power supply units from Murata Power Solutions, a global leader in power supplies. The GaN HEMTs used in this application provide industry-leading switching performance in a high heat dissipation TOLL package, enhancing power density and efficiency in Murata Power Solutions’ power supply units. We look forward to strengthening our partnership with Murata Manufacturing, a company that shares the similar vision of contributing to society through electronics - promoting the miniaturization and efficiency of power supplies to enrich people’s lives.”  Murata Power Solutions’ Power Supply Units for AI Servers  Murata Power Solutions’ series of “1U Front End” AC-DC power supplies includes the D1U T-W-3200-12-HB4C (12V output) and D1U T-W-3200-54-HB4C (54V output) 3.2kW power supplies in the high power density short version M-CRPS package, as well as the 5.5kW D1U67T-W-5500-50-HB4C designed for AI servers. These front-end power supplies deliver high conversion efficiency that meets the stringent requirements of 80+ Titanium and Open Compute products while supporting N+m redundant operation for system reliability, making them ideal for powering the latest GPU servers. In addition to providing reliable, efficient power for servers, workstations, and storage/communication systems, the low profile 1U design of these units helps to minimize system footprint.  ROHM's EcoGaN™  ROHM’s brand name for GaN devices that contribute to energy conservation and miniaturization by maximizing GaN characteristics to achieve lower application power consumption, smaller peripheral components, and simpler designs requiring fewer parts.  • EcoGaN™ is a trademark or registered trademark of ROHM Co., Ltd.  Related ROHM Web Pages        • 650V TOLL Package GaN HEMTs (Feb. 2025 News Release)  https://www.rohm.com/news-detail?news-title=2025-02-27_news_gan&defaultGroupId=false  • ROHM GaN Power Device Page (EcoGaN™)  https://www.rohm.com/products/gan-power-devices/  About Murata Manufacturing  Murata Manufacturing is a global leader in the development, production, and sales of ceramic-based electronic components. By leveraging proprietary expertise in material development, process innovation, product design, and production technology, supported by software, analysis, and evaluation, Murata Manufacturing creates innovative products that drive the advancement of an electronic society.  For more information, please visit Murata Manufacturing's website: https://corporate.murata.com/en-global/
2025-03-13 11:46 reading:188
ROHM’s New TVS Diodes: Supporting High-Speed CAN FD In-Vehicle Communication Systems for Autonomous Driving
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ROHM’s New TVS Diodes: Supporting High-Speed CAN FD In-Vehicle Communication Systems for Autonomous Driving

  ROHM has developed bidirectional TVS (ESD protection) diodes compatible with CAN FD (CAN with Flexible Data rate) high-speed in-vehicle communication. Such protocols are seeing an increased demand in line with the ongoing advancement in autonomous driving and advanced driver assistance systems (ADAS). CAN FD is a crucial communication technology for safe, real-time data transmission between ECUs (Electronic Control Units) in vehicles. The new products achieve high-quality in-vehicle transmission by protecting electronic devices such as ECUs from surges and electrostatic discharge (ESD) while maintaining signal integrity in high-speed communication systems such as CAN FD.  The rapid evolution of autonomous driving technology and ADAS is boosting the demand for faster, more reliable automotive communication. Autonomous driving in particular requires quick and accurate processing of vast amounts of data from sensors such as cameras, LiDAR and radar - leading to the adoption of CAN FD that enables faster, higher capacity data transfer compared to traditional CAN used in automotive communication.  At the same time, to achieve high-speed in-vehicle communication, it is necessary to ensure stable transmission even under harsh environments. This has led to a growing demand for protection components that offer low terminal capacitance along with superior surge current rating and clamping voltage performance. As a result, the market for TVS diodes for automotive communication is expected to continue to grow in the future.  To meet market needs, ROHM developed the ESDCANxx series that combines low terminal capacitance with excellent surge tolerance. Two package types are available: SOT-23 (2.9mm × 2.4mm) and DFN1010 (1.0mm × 1.0mm), both supporting standoff voltages (VRWM) of 24V and 27V. The SOT-23 package includes four models: 24V ESDCAN24HPY / ESDCAN24HXY and 27V ESDCAN27HPY / ESDCAN27HXY. Similarly, the DFN1010 package is also offered in four models: 24V ESDCAN24YPA / ESDCAN24YXA and 27V ESDCAN27YPA / ESDCAN27YXA, totaling 8 products in the lineup.  The new products feature an optimized element structure that reduces terminal capacitance to a maximum of 3.5pF, preventing signal degradation during high-speed communication. High surge tolerance is also achieved, significantly improving the protection of electronic devices in automotive environments. For example, the 27V products of the DFN1010 package delivers approx. 3.2 times higher surge current rating and 16% lower clamping voltage compared to standard CAN FD-compatible products. This effectively safeguards expensive surge-sensitive electronic devices such as in-vehicle ECUs, ensuring high reliability even under harsh automotive environments. Going forward, ROHM will continue to develop products that support even faster in-vehicle communication in autonomous driving and communication environments - contributing to realizing a safer, more advanced mobility society.  Application Examples        • Autonomous driving and Advanced Driver Assistance Systems (ADAS)  • Automotive electric powertrain systems  • In-vehicle infotainment systems  Online Distributor Information        Sales Launch Date: December 2024  Pricing: $0.9/unit (excluding tax)  Target Products  SOT23 Package: ESDCAN24HPY, ESDCAN24HXY, ESDCAN27HPY, ESDCAN27HXY  DFN1010 Package: ESDCAN24YPA, ESDCAN24YXA, ESDCAN27YPA, ESDCAN27YXA  Terminology         CAN FD (CAN with Flexible Data Rate)  An extension of the CAN (Controller Area Network) standard, CAN FD offers faster data transfer speeds compared to conventional CAN, enabling the exchange of large volumes of data. Real-time communication between multiple in-vehicle electronic units (ECUs) is essential in systems like autonomous driving and ADAS.  TVS Diode (Transient Voltage Suppression Diode)  A semiconductor device designed to protect circuits from overvoltage, surges, and electrostatic discharge (ESD). TVS diodes absorb sudden voltage and current spikes (surges) to prevent circuit damage and malfunction. In automotive environments, safeguarding against severe electrical fluctuations is crucial.  Terminal Capacitance  Unwanted capacitance components that arise in electronic parts. When terminal capacitance is high, signal degradation occurs during high-speed transmission, making it important to reduce terminal capacitance for in-vehicle communication  Surge Current Rating  The maximum surge current a TVS diode can withstand. The higher the surge current rating, the stronger the protection against severe electrical fluctuations in automotive environments.  Clamping Voltage  The voltage maintained in the circuit when the TVS diode suppresses overvoltage caused by surges or other transient events. A lower clamping voltage provides more effective protection for circuits and devices, increasing the reliability of automotive equipment.
2025-03-11 09:29 reading:202
ROHM launches 650V GaN HEMT in a compact, high-heat dissipation TOLL package
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ROHM launches 650V GaN HEMT in a compact, high-heat dissipation TOLL package

  ROHM has developed 650V GaN HEMTs in the TOLL (TO-LeadLess) package: the GNP2070TD-Z. Featuring a compact design with excellent heat dissipation, high current capacity, and superior switching performance, the TOLL package is increasingly being adopted in applications that require high power handling, particularly inside industrial equipment and automotive systems. For this launch, package manufacturing has been outsourced to ATX SEMICONDUCTOR (WEIHAI) CO., LTD. (hereinafter ATX), an experienced OSAT (Outsourced Semiconductor Assembly and Test) provider.  Improving the efficiency of motors and power supplies, which account for most of the world’s electricity consumption, has become a significant challenge to achieving a decarbonized society. As power devices are key to improve efficiency, the adoption of new materials such as SiC (Silicon Carbide) and GaN is expected to further enhance the efficiency of power supplies.  ROHM began mass production of its 1st generation of its 650V GaN HEMTs in April 2023, followed by the release of power stage ICs that combine a gate driver and 650V GaN HEMT in a single package. This time, ROHM has developed the product incorporating 2nd generation elements in a TOLL package, and added it to existing DFN8080 package to strengthen ROHM’s 650V GaN HEMT package lineup - meeting the market demand for even smaller and more efficient high-power applications.  The new products integrate 2nd generation GaN-on-Si chips in a TOLL package, achieving industry-leading values in the device metric that correlates ON-resistance and output charge (RDS(ON) × Qoss). This contributes to further miniaturization and energy efficiency in power systems that require high voltage resistance and high-speed switching.  To achieve mass production, ROHM leveraged proprietary technology and expertise in device design, cultivated through a vertically integrated production system, to carry out design and planning. Under the collaboration announced on December 10, 2024, front-end processes are carried out by Taiwan Semiconductor Manufacturing Company Limited (TSMC). Back-end processes are handled by ATX. On top, ROHM plans to partner with ATX to produce automotive-grade GaN devices.  In response to the increasing adoption of GaN devices in the automotive sector, which is expected to accelerate in 2026, ROHM plans to ensure the rapid introduction of automotive-grade GaN devices by strengthening these partnerships in addition to advancing its own development efforts.  Liao Hongchang, Director and General Manager, ATX SEMICONDUCTOR (WEIHAI) CO., LTD.  “We are extremely pleased to have been entrusted with production by ROHM, a company renowned for its advanced manufacturing technologies and in-house production facilities that cover everything from wafer fabrication to packaging. We began technical exchanges with ROHM in 2017 and are currently exploring possibilities for deeper collaboration. This partnership was made possible due to ATX’s track record and technical expertise in the back-end manufacturing of GaN devices. Looking ahead, we also plan to collaborate on ROHM’s ongoing development of automotive-grade GaN devices. By strengthening our partnership, we aim to contribute to energy conservation across various industries and the realization of a sustainable society.”  Satoshi Fujitani, General Manager, AP Production Headquarters, ROHM Co., Ltd.  “We are delighted to have successfully produced 650V GaN HEMTs in the TOLL package, achieving sufficient performance. ROHM not only offers standalone GaN devices but also provides power solutions that combine them with ICs, leveraging ROHM’s expertise in analog technology. The knowledge and philosophy cultivated in the design of these products are also applied to device development. Collaborating with OSATs such as ATX, that possess advanced technical capabilities, allows us to stay ahead in the rapidly growing GaN market while utilizing ROHM’s strengths to bring innovative devices to market. Going forward, we will continue to enhance the performance of GaN devices to promote greater miniaturization and efficiency in a variety of applications, contributing to enrich people's lives.”  EcoGaN™ Brand       Refers to ROHM’s new lineup of GaN devices that contribute to energy conservation and miniaturization by maximizing GaN characteristics to achieve lower application power consumption, smaller peripheral components, and simpler designs requiring fewer parts.  EcoGaN™ is a trademark or registered trademark of ROHM Co., Ltd.  Application Examples       Power supply for servers, communication base stations, industrial equipment and more.  AC adapters (USB chargers), PV inverters, ESS (Energy Storage System).  In a wide range of power supply systems with output power of 500W to 1kW class can be installed.  Online Sales InformationSales Launch Date: December 2024  Applicable Part No: GNP2070TD-ZTR  The products will be available at DigiKey™, Mouser™ and Farnell™ from March, and will also be offered at other online distributors as they become available.  Online Sales Information       Sales Launch Date: December 2024       Applicable Part No: GNP2070TD-ZTR    About ATX SEMICONDUCTOR (WEIHAI) CO., Ltd.       ATX is an OSAT company based in Weihai, Shandong Province China, specializing in the assembly and testing of power devices. We support over 50 types of packages, including MOSFETs, IGBTs, SiC, and GaN devices, with an annual production capacity exceeding 5.7 billion units. ATX’s products are widely used in industrial equipment, automotive systems, renewable energy applications such as solar power, and consumer electronics. Notably, we hold a strong market share in the electric vehicle control sector, supplying internationally recognized brands.  As a leading company in next-generation semiconductor device development utilizing proprietary intellectual properties and core technologies, ATX has established close, long-term collaborative relationships with the world’s top 10 power device companies.  For more information, please visit ATX’s website: http://www.atxwh.com/  Terminology       GaN HEMT  GaN (Gallium Nitride) is a compound semiconductor material used in next-generation power devices. It is gaining adoption for its superior properties (over silicon), including exceptional high-frequency characteristics. HEMT stands for High Electron Mobility Transistor.  RDS(ON) × Qoss  An index for evaluating device performance, where Qoss represents the total output-side amount of charge between the drain and source. RDS(ON) refers to the on-state resistance between the Drain and Source of a MOSFET. The smaller RDS(ON) is, the lower the (power) loss during operation. Minimizing the product of these two leads to more efficient the switching operation and reduced switching losses.
2025-03-11 09:14 reading:219
ROHM’s PMICs for SoCs have been Adopted in Reference Designs for Telechips’ Next-Generation Cockpits
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ROHM’s PMICs for SoCs have been Adopted in Reference Designs for Telechips’ Next-Generation Cockpits

  ROHM has announced the adoption of its PMICs in power reference designs focused on the next-generation cockpit SoCs ‘Dolphin3’ (REF67003) and ‘Dolphin5’ (REF67005) by Telechips, a major fabless semiconductor manufacturer for automotive applications headquartered in Pangyo, South Korea. Intended for use inside the cockpits of European automakers, these designs are scheduled for mass production in 2025.  ROHM and Telechips have been engaged in technical exchanges since 2021, fostering a close collaborative relationship from the early stages of SoC chip design. As a first step in achieving this goal, ROHM’s power supply solutions have been integrated into Telechips’ power supply reference designs. These solutions support diverse model development by combining sub-PMICs and DrMOS with the main PMIC for SoCs.  For infotainment applications, the Dolphin3 application processor (AP) power reference design includes the BD96801Qxx-C main PMIC for SoCs. Similarly, the Dolphin5 AP power reference design developed for next-generation digital cockpits combines the BD96805Qxx-C and BD96811Fxx-C main PMICs for SoC with the BD96806Qxx-C sub-PMIC for SoC, improving overall system efficiency and reliability.  Modern cockpits are equipped with multiple displays, such as instrument clusters and infotainment systems, with each automotive application becoming increasingly multifunctional. As the processing power required for automotive SoCs increases, power ICs like PMICs must be able to support high currents while maintaining high efficiency. At the same time, manufacturers require flexible solutions that can accommodate different vehicle types and model variations with minimal circuit modifications. ROHM SoC PMICs address these challenges with high efficiency operation and internal memory (One Time Programmable ROM) that allows for custom output voltage settings and sequence control, enabling compatibility with large currents when paired with a sub-PMIC or DrMOS.  Moonsoo Kim,  Senior Vice President and Head of System Semiconductor R&D Center, Telechips Inc.“Telechips offers reference designs and core technologies centered around automotive SoCs for next-generation ADAS and cockpit applications. We are pleased to have developed a power reference design that supports the advanced features and larger displays found in next-generation cockpits by utilizing power solutions from ROHM, a global semiconductor manufacturer. Leveraging ROHM’s power supply solutions allows these reference designs to achieve advanced functionality while maintaining low power consumption. ROHM power solutions are highly scalable, so we look forward to future model expansions and continued collaboration.”  Sumihiro Takashima,  Corporate Officer and Director of the LSI Business Unit, ROHM Co., Ltd.“We are pleased that our power reference designs have been adopted by Telechips, a company with a strong track record in automotive SoCs. As ADAS continues to evolve and cockpits become more multifunctional, power supply ICs must handle larger currents while minimizing current consumption. ROHM SoC PMICs meet the high current demands of next-generation cockpits by adding a DrMOS or sub-PMIC in the stage after the main PMIC. This setup achieves high efficiency operation that contributes to lower power consumption. Going forward, ROHM will continue our partnership with Telechips to deepen our understanding of next-generation cockpits and ADAS, driving further evolution in the automotive sector through rapid product development.”  ・ Telechips SoC [Dolphin Series]  The Dolphin series consists of automotive SoCs tailored to In-Vehicle Infotainment (IVI), Advanced Driver Assistance Systems (ADAS), and Autonomous Driving (AD) applications. Dolphin3 supports up to four displays and eight in-vehicle cameras, while Dolphin5 enables up to five displays and eight cameras, making highly suited as SoCs for increasingly multifunctional next-generation cockpits. Telechips is focused on expanding the Dolphin series of APs (Application Processors) for car infotainment, with models like Dolphin+, Dolphin3, and Dolphin5, by leveraging its globally recognized technical expertise cultivated over many years.  ・ ROHM 's Reference Design Page  Details of ROHM’s reference designs and information on equipped products are available on ROHM’s website, along with reference boards. Please contact a sales representative or visit ROHM’s website for more information.  https://www.rohm.com/contactus  ■ Power Supply Reference Design [REF67003] (equipped with Dolphin3)  Reference Board No. REF67003-EVK-001  https://www.rohm.com/reference-designs/ref67003  ■ Power Supply Reference Design [REF67005] (equipped with Dolphin5)  Reference Board No. REF67005-EVK-001  https://www.rohm.com/reference-designs/ref67005  About Telechips Inc.Telechips is a fabless company specialized in designing system semiconductors that serve as the “brains” of automotive electronic components. The South Korean firm offers reliable, high-performance automotive SoCs. In response to the industry’s transition toward SDVs (Software Defined Vehicles), Telechips is broadening its core portfolio beyond car infotainment application processors (APs) to include MCUs, ADAS, network solutions, and AI accelerators.  As a global, comprehensive automotive semiconductor manufacturer, Telechips adheres to international standards such as ISO 26262, TISAX, and ASPICE, leveraging both hardware and software expertise for future mobility ecosystems, including not only automotive smart cockpits, but also E/E architectures. What’s more, Telechips provides optimal solutions for In-Vehicle Infotainment systems (IVI), digital clusters, and ADAS, all compliant with key automotive standards (AEC-Q100, ISO 26262). Telechips has established business relationships with major automakers both domestically and internationally, supported by a strong track record of shipments.  One flagship product is the Dolphin5 automotive SoC that integrates an Arm®-based CPU, GPU, and NPU to meet high-performance requirements. As a fabless company, Telechips outsources the manufacturing of its SoCs to Samsung Electronics’ foundry, delivering high-quality semiconductor products to domestic and overseas manufacturers. For more information, please visit Telechips’ website:  https://www.telechips.com/  *Arm® is a trademark or registered trademark of Arm Limited.  TerminologyPMIC (Power Management IC)  An IC that contains multiple power supply systems and functions for power management and sequence control on a single chip. It is becoming more commonplace in applications with multiple power supply systems in both the automotive and consumer sectors by significantly reducing space and development load vs conventional circuit configurations using individual components (i.e. DC-DC converter ICs, LDOs, discretes).  SoC (System-on-a-Chip)  A type of integrated circuit that incorporates a CPU (Central Processing Unit), memory, interface, and other elements on a single substrate. Widely used in automotive, consumer, and industrial applications due to its high processing capacity, power efficiency, and space savings.  AP (Application Processor)  Responsible for processing applications and software in devices such as smartphones, tablets, and automotive infotainment systems. It includes components such as a CPU, GPU, and memory controller to efficiently run the Operating System (OS), process multimedia, and render graphics.  DrMOS (Doctor MOS)  A module that integrates a MOSFET and gate driver IC. The simple configuration is expected to reduce design person-hours along with mounting area and to achieve efficient power conversion. At the same time, the built-in gate driver ensures high reliability by stabilizing MOSFET drive.
2024-12-20 13:56 reading:686
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