ROHM Group Company SiCrystal and STMicroelectronics Expand Silicon Carbide Wafer Supply Agreement
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ROHM Group Company SiCrystal and STMicroelectronics Expand Silicon Carbide Wafer Supply Agreement

  Kyoto, Japan and Geneva, Switzerland, April 22, 2024 – ROHM (TSE: 6963) and STMicroelectronics (NYSE: STM), a global semiconductor leader serving customers across the spectrum of electronics applications, announced today the expansion of the existing multi-year, long-term 150mm silicon carbide (SiC) substrate wafers supply agreement with SiCrystal, a ROHM group company. The new multi-year agreement governs the supply of larger volumes of SiC substrate wafers manufactured in Nuremberg, Germany, for a minimum expected value of $230 million.  Geoff West, EVP and Chief Procurement Officer, STMicroelectronics, commented “This expanded agreement with SiCrystal will bring additional volumes of 150mm SiC substrate wafers to support our devices manufacturing capacity ramp-up for automotive and industrial customers worldwide. It helps strengthen our supply chain resilience for future growth, with a balanced mix of in-house and commercial supply across regions”.  “SiCrystal is a group company of ROHM, a leading company of SiC, and has been manufacturing SiC substrate wafers for many years. We are very pleased to extend this supply agreement with our longstanding customer ST. We will continue to support our partner to expand SiC business by ramping up 150mm SiC substrate wafer quantities continuously and by always providing reliable quality”. said Dr. Robert Eckstein, President and CEO of SiCrystal, a ROHM group company.  Energy-efficient SiC power semiconductors enable electrification in the automotive and industrial sectors in a more sustainable way. By facilitating more efficient energy generation, distribution and storage, SiC supports the transition to cleaner mobility solutions, lower emissions industrial processes and a greener energy future, as well as more reliable power supplies for resource-intensive infrastructure like data centers dedicated to AI applications.  About STMicroelectronics  At ST, we are over 50,000 creators and makers of semiconductor technologies mastering the semiconductor supply chain with state-of-the-art manufacturing facilities. An integrated device manufacturer, we work with more than 200,000 customers and thousands of partners to design and build products, solutions, and ecosystems that address their challenges and opportunities, and the need to support a more sustainable world. Our technologies enable smarter mobility, more efficient power and energy management, and the wide-scale deployment of cloud-connected autonomous things. We are committed to achieving our goal to become carbon neutral on scope 1 and 2 and partially scope 3 by 2027.  Further information can be found at www.st.com .  About ROHM  Founded in 1958, ROHM provides ICs and discrete semiconductor devices characterized by outstanding quality and reliability for a broad range of markets, including automotive, industrial equipment and consumer market via its global development and sales network.  In the analog power field, ROHM proposes the suitable solution for each application with power devices such as SiC and driver ICs to maximize their performance, and peripheral components such as transistors, diodes, and resistors.  Further information on ROHM can be found at www.rohm.com .  About SiCrystal  SiCrystal, a ROHM group company, is one of the global market leaders for monocrystalline silicon carbide wafers. SiCrystal’s advanced semiconductor substrates provide the basis for the highly efficient use of electrical energy in electric vehicles, fast charging stations, renewable energies and in various fields of industrial applications.  Further information on SiCrystal can be found at www.sicrystal.de .
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Release time:2024-04-24 11:10 reading:1120 Continue reading>>
CG Power and Industrial Solutions Limited, Renesas and Stars Microelectronics, to Jointly Build Outsourced Semiconductor Assembly and Test Facility in India
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CG Power and Industrial Solutions Limited, Renesas and Stars Microelectronics, to Jointly Build Outsourced Semiconductor Assembly and Test Facility in India

  CG Power and Industrial Solutions Limited (“CG”), a part of Tube Investments of India Limited and the Murugappa Group; Renesas Electronics Corporation, a premier supplier of advanced semiconductor solutions; and Stars Microelectronics (Thailand) Public Co. Ltd (“Stars Microelectronics”), a Thailand-based Outsourced Semiconductor Assembly and Test (OSAT) provider; had recently signed a Joint Venture Agreement (JVA) to establish a Joint Venture (JV) to build and operate an OSAT facility in India. The Union Cabinet, chaired by Prime Minister Shri Narendra Modi, approved the project of the JV under India’s Semiconductor scheme on February 29, 2024.  The JV brings together unique capabilities of the partners with a vision to “Make in India for the World.” CG, with around 86 years of manufacturing expertise, is keen to build semiconductor capabilities and ecosystem in India. Renesas, a leading semiconductor company headquartered in Japan, will provide advanced semiconductor technology and expertise. Stars Microelectronics, a Thai based OSAT, will provide both technology for legacy packages and training and enablement.  The JV will be 92.3% owned by CG, with Renesas and Stars Microelectronics each holding equity capital of approximately 6.8% and 0.9%, respectively. The JV plans to invest INR 7,600 crores over a five-year period, which will be financed through a mix of subsidies, equity, and potential bank borrowings as required.  The JV will set up a state-of-the-art manufacturing facility in Sanand, Gujarat, with a capacity that will ramp up to 15 million units per day. The JV will manufacture a wide range of products – ranging from legacy packages such as QFN and QFP to advanced packages such as FC BGA, and FC CSP. The JV will cater to industries such as automotive, consumer, industrial, 5G, to name a few.  Commenting on this new venture, Mr. S. Vellayan, Chairman, CG Power and Industrial Solutions Limited, said, “CG’s entry into the semiconductor manufacturing marks a strategic diversification for us. Our partners, Renesas and Stars Microelectronics, will make our learning curves steeper and help us focus on innovation and excellence.  This is a very exciting phase for the entire nation, and we are very keen to build out India’s semiconductor capability and ecosystem.”  Mr. Natarajan Srinivasan, Managing Director, CG Power and Industrial Solutions Limited, added, “It is a matter of great pride for CG to implement this project of National importance.”  Commenting on the partnership, Mr. Hidetoshi Shibata, CEO of Renesas said, “India is a critical part of Renesas’ business. We value its innovative landscape and robust potential growth and are committed to accelerating our investment in India. By partnering with the Murugappa Group and Stars Microelectronics, we will bolster India’s semiconductor ecosystem and address the growing semiconductor demand for the customers worldwide.”  Mr. Prompong Chaikul, Chairman of Executive Committee of Stars Microelectronics (Thailand) Public Co., Ltd added, "We are deeply honored to join forces in this thrilling venture. Leveraging our expertise and experience in OSAT, we are committed to providing robust support to ensure the success of this project in India."  About CG Power and Industrial Solutions Limited  CG Power and Industrial Solutions Limited is an engineering conglomerate headquartered in Mumbai, India. The Company is a leader in the Electrical Engineering Industry and has two business lines—Industrial Systems and Power Systems. It manufactures Traction Motors, Propulsion systems, Signaling Relays etc., for the Indian Railways, and wide range of Induction Motors, Drives, Transformers, Switchgears, and other allied products for the Industrial and Power sectors. Recently, the Company also made a foray into the business of Consumer Appliances such as Fans, Pumps and Water Heaters.  The Company has world-class manufacturing plants across 9 locations in India and one in Sweden, and a Pan India network of 4 Regional and 15 Branch offices, with around 3000 employees. The Company’s consolidated revenue for FY23 was Rs 6,973 crores (USD 838 million).  The Company continues to excel and maintain its leadership position across its businesses, backed by its outstanding expertise, customer-centric approach, and enhanced focus on innovation and sustainability.  Since November 2020, the Company has become a part of the renowned Murugappa Group.  About Murugappa Group  A 123-year-old conglomerate with presence across India and the world, the INR 742 billion Murugappa Group has diverse businesses in agriculture, engineering, financial services and more.  The Group has 9 listed companies under its umbrella — Carborundum Universal Limited, CG Power & Industrial Solutions Limited, Cholamandalam Financial Holdings Limited, Cholamandalam Investment & Finance Company Limited, Cholamandalam MS General Insurance Company Limited, Coromandel International Limited, EID Parry (India) Limited, Shanthi Gears Limited, Tube Investments of India Limited and Wendt India Limited. Brands such as Ajax, Hercules, BSA, Montra, Montra Electric, Mach City, Gromor, Paramfos, Parry’s are part of the Group’s illustrious stable.  Abrasives, technical ceramics, electro minerals, electric vehicles, auto components, fans, transformers, signaling equipment for railways, bicycles, fertilizers, sugar, tea and several other products make up the Group’s business interests.  Guided by the five lights — integrity, passion, quality, respect and responsibility — and a culture of professionalism, the Group has a workforce of over 73,000 employees.  About Renesas Electronics Corporation  Renesas Electronics Corporation  empowers a safer, smarter and more sustainable future where technology helps make our lives easier. The 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.
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Release time:2024-03-05 13:10 reading:2574 Continue reading>>
STMicroelectronics to Invest EUR 5 Billion in New SiC Wafer Fab
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STMicroelectronics to Invest EUR 5 Billion in New SiC Wafer Fab

  STMicroelectronics, following its EUR 7.5 billion wafer fab project with GlobalFoundries in Crolles, France. is set to invest EUR 5 billion in building a new SiC super semiconductor wafer fab in Catania, Sicily, Italy. The fab in Italy will specialize in producing SiC chips, a pivotal technology for electric vehicles with substantial growth potential, according to French media L’Usine Nouvelle on November 26th,  STMicroelectronics competitively plans to transition to 8-inch wafers starting from 2024. The company will integrate Soitec’s SmartSiC technology to enhance efficiency and reduce carbon emissions. Simultaneously, STMicroelectronics aims to increase capacity, achieve internal manufacturing, and collaborate with Chinese firm Sanan Optoelectronics to raise SiC chip-related revenue from the expected USD 1.2 billion in 2023 to USD 5 billion by 2030.  On June 7th earlier this year, STMicroelectronics and Sanan Optoelectronics announced a joint venture to establish a new 8-inch SiC device fab in Chongqing, China, with an anticipated total investment of USD 3.2 billion.  To ensure the successful implementation of this extensive investment plan, Sanan Optoelectronics said to utilize its self-developed SiC substrate process to construct and operate a new 8-inch SiC substrate fab independently.  TrendForce: over 90% SiC market share by major global players  According to TrendForce, the SiC industry is currently dominated by 6-inch substrates, holding up to 80% market share, while 8-inch substrates only account for 1%. Transitioning to larger 8-inch substrates is a key strategy for further reducing SiC device costs.  8-inch SiC substrates offer significant cost advantages than 6-inch substrates. The industry’s major players in China, including SEMISiC, Jingsheng Mechanical & Electrical Co., Ltd. (JSG), Summit Crystal, Synlight Semiconductor, KY Semiconductor, and IV-SemiteC, are advancing the development of 8-inch SiC substrates. This shift from the approximately 45% of total production costs associated with substrates is expected to facilitate the broader adoption of SiC devices and create a positive cycle for major companies.  Not only Chinese companies but also international semiconductor giants like Infineon Technologies and Onsemi are actively vying for a share of the market. Infineon has already prepared the first batch of 8-inch wafer samples in its fab and plans to convert them into electronic samples soon, with mass production applications scheduled before 2030. International device companies like Onsemi and ROHM have also outlined development plans for 8-inch SiC wafers.  Currently, major companies hold over 90% of the market share, intensifying competition. A slowdown in progress could provide opportunities for followers. According to TrendForce, the market share of the top 5 SiC power semiconductor players in 2022 was dominated by STMicroelectronics (36.5%), Infineon (17.9%), Wolfspeed (16.3%), Onsemi (11.6%), and ROHM (8.1%), leaving the remaining companies with only 9.6%.
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Release time:2023-11-30 10:53 reading:2515 Continue reading>>
What does a power management IC do
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What does a power management IC do

  What is the meaning of power management?In the domain of electronics, Power Management IC pertains to the astute administration and equitable dispensation of electric energy within a contraption or system. This entails the optimization of energy utilization to protract battery lifespan, mitigate thermal emanation, and ensure steadfast and dependable functionality. Inclusion of this doctrine is indispensable in devices such as smartphones, laptops, Internet of Things (IoT) apparatuses, and even in more expansive complexes akin to data centers.  What does a power management IC do?  A Power Management IC or power management integrated circuit, abbreviated as PMIC, constitutes an integrated semiconductor circuit engineered with the express purpose of orchestrating and standardizing electric power within electronic gadgets. Power management ICs are expressly tailored to undertake an extensive gamut of functions encompassing:  1.Voltage Regulation: power management ICs oversee the regulation of the voltage provisioned to sundry components within a contrivance, thereby warranting that these components receive requisite voltage levels, a sine qua non for unimpeachable operation.  2.Current Administration: They govern the flux of electric current, thwarting incidents of overburden or underpowering that could result in component jeopardy, whilst concurrently optimizing efficacy.  3.Battery Replenishment: Power Management ICs orchestrate the process of recharging batteries in portable contraptions, safeguarding a secure and productive recharging process.  4.Power Sequencing: Their ambit extends to monitoring the initiation and shutdown sequences of diverse constituents to obviate power surge occurrences and to vouchsafe a constancy of operation.  5.Thermal Oversight: Within the realm of PMICs, you may encounter the inclusion of thermal supervisory and control attributes devised to avert excessive heating of components.  6.Energy Efficacy: They endeavor to fine-tune energy consumption, thus extending the operational duration of batteries and mitigating energy wastage.  7.Fault Safeguard: PMICs incorporate mechanisms for discerning and acting upon faults, such as instances of overvoltage, overcurrent, and overheating, thus erecting bulwarks to shield the contraption and its operators.  What are the types of power management ICs?power management integrated circuits adopt diverse forms tailored for specific applications. Prevalent types encompass:  1.Voltage Regulator PMICs: These PMICs are primarily dedicated to the oversight of voltage regulation for diverse contraption components, serving as custodians of unfluctuating operation.  2.Battery Management PMICs: Custom-built for gadgets reliant on rechargeable batteries, these PMICs are stewards of battery replenishment, discharge, and the perpetual surveillance of battery well-being.  3.LED Driver PMICs: They are tasked with overseeing luminosity and power provisioning to Light Emitting Diodes (LEDs), a task of particular relevance in applications involving screens and lighting systems.  4.Power Supply PMICs: In intricate systems such as data centers and telecommunications installations, these Power Management ICs furnish power transformation and diffusion.  What are the applications of PMIC?  power management integrated circuits traverse a broad array of employment areas encompassing but not tethered to:  1.Smartphones and Tablets: Within these devices, PMICs are the architects of voltage control for microprocessors, displays, and sensors, in a quest to optimize battery existence and operational efficiency.  2.Laptops and Personal Computers: They exert control over power allocation and battery replenishment, culminating in an enhanced end-user experience.  3.IoT Instruments: PMICs facilitate the energy-efficient performance of gadgets such as intelligent thermostats, wearables, and remote sensors.  4.Automotive Electronics: Automotive applications bank on PMICs to administer power supply to a plethora of automotive constituents, including entertainment systems and safety apparatuses.  5.Industrial Machinery: Power Management ICs are enablers of reliable power provisioning in the realm of machinery and control systems underpinning industrial operations.  6.Renewable Energy Schemes: These ICs oversee the conversion and administration of power in domains like photovoltaic inverters and wind turbines.  What are the components of a PMIC?  A paradigmatic PMIC embodies several pivotal constituents, inclusive of:  1.Voltage Regulators: These components underwrite the sustenance of voltage steadiness across sundry junctures of the apparatus.  2.Current Limiters: Current-limiting units are in place to preclude superfluous electric current flow, thus endowing protection to components.  3.Control Logic: Control logic machinery is entrusted with the chore of supervising power sequencing, the detection of anomalies, and sundry other functions.  4.Battery Administration Circuitry: In contrivances that derive energy from batteries, PMICs integrate circuitry dedicated to battery replenishment and monitoring.  5.Communication Interfaces: Particular Power Management ICs feature communication interfaces like I2C or SPI, thereby affording users the facility for configuration and observation.  What are the features of a PMIC?  power management ICs are furnished with an amalgam of characteristics bespoke to their targeted domains. Some quintessential characteristics encompass:  1.Multitudinous Output Channels: It is commonplace for power management ICs to embrace numerous output channels with variegated voltage and current stipulations, facilitating the power provision to manifold components.  2.Programmability: An assemblage of PMICs boasts programmability, bestowing upon the user the prerogative to tailor Power Management IC parameters, a fact that engenders versatility.  3.Efficiency Enhancement: These PMICs integrate mechanisms such as voltage modulation, dynamic voltage-frequency modulation (DVFS), and power-conservation modes in their design to elevate overall efficiency.  4.Fault Identification and Safeguard: PMICs are proficient in ferreting out faults and instigating measures to avert devastation of the contraption or system.  5.Thermal Oversight: In select PMICs, temperature gauges and thermal management functionalities are incorporated to avert thermal inundation.  How do I choose a PMIC?  Electing an appropriate Power Management IC for your particular application necessitates a meticulous consideration of several elements:  1.Power Prerequisites: It is imperative to ascertain the voltage and current requisites of the apparatus’s constituent parts.  2.Efficiency: The efficacy of the PMIC in the domain of power conversion and distribution warrants scrutiny.  3.Programmability: The exigency for a programmable PMIC is contingent on the requisite for customization and adaptability within the application.  4.Fault Defenses: Appraising the extent of fault containment mandated by the system is a judicious practice.  5.Package Dimensions: The physical constraints and design configuration of the contraption must be factored in.
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Release time:2023-10-08 13:39 reading:1833 Continue reading>>
How the touch chip works,How many chips does the touch chip have
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How the touch chip works,How many chips does the touch chip have

  A touch chip is a microprocessor that can sense human touch and can convert human touch operations into electrical signal input that can be read by a computer. It is widely used in various digital devices such as mobile phones, tablets, and smart watches, and has become an indispensable part of modern electronic products.  “Touch” specifically refers to single-point or multi-point touch technology; the chip is an IC, which refers to a metal or non-metal sheet whose end surface can be integrated with the friction lining and friction material layer, and a circuit module that integrate a variety of electronic components on a silicon board to achieve a specific function. It is the most important part of electronic equipment, responsible for computing and storage functions. The application scope of integrated circuits covers almost all electronic equipment for military and civilian. A small piece of silicon containing integrated circuits, often is a part of a computer or other device.  Touch chip, also called touch IC. “Touch” refers to single or multi-touch technology. The touch chip is located between the touch sensor and the PC/or embedded system controller. The chip can be mounted on a controller board inside the system or placed on a flexible printed circuit (FPC) attached to the glass touch sensor. The chip extracts information from the touch sensor and converts it into information that the PC or embedded system controller can understand. Most touch chips now use the capacitive effect, that is, the proximity of the human body will increase the capacitance, thereby changing the original oscillation frequency or changing the charge and discharge time of the RC circuit.  How the touch chip works  This is achieved by sensing capacitance changes caused by human touch. When the human body approaches the touch screen surface, it will cause the capacitance between the touch screen and the human body to change, and a new electric field distribution will be formed. The chip will calculate the specific touch position and operation gesture based on this capacitance change. This process requires the use of a series of advanced sensor technologies, signal processing, algorithm optimization and other technologies to achieve high precision and sensitivity.  Touch chips basically use four multi-touch technologies  1. “LLP (laser light plane) technology” mainly uses infrared laser equipment to project infrared rays onto the screen. When the screen is blocked, infrared light is reflected, and a camera under the screen captures where the reflection goes. After systematic analysis, a response can be made.  2. “FTIR (Frustrated Total Internal Reflection) technology” will add LED light to the interlayer of the screen. When the user presses the screen, the light in the interlayer will cause different reflection effects. The sensor will receive the changes in light and capture the point of force application to react.  3. “ToughtLight technology” uses projection method to project infrared rays onto the screen. When the screen is blocked, infrared light is reflected, and a camera under the screen captures where the reflection goes. After systematic analysis, a response can be made.  4. “Optical Touch technology”, which has a lens at each end of the top of the screen to receive the user’s gesture changes and the position of the touch point. After calculation, it is converted into coordinates and then reacted.  How many chips does the touch chip have?1. Capacitive touch chip: Uses the capacitive principle to detect charge changes on the touch screen, with high accuracy, fast response, and supports multi-touch.  2. Resistive touch chip: It uses the principle of resistance to detect voltage changes on the touch screen. It is cheap, but does not support multi-touch, has low accuracy and short service life.  3. Acoustic wave touch chip: Uses acoustic wave sensors to detect sound reflections on the touch screen, which can support non-contact touch, but is sensitive to environmental noise and other interference.  4. Optical touch chip: Using optical sensors to detect optical changes on the touch screen has high accuracy, but is expensive and not suitable for large-scale applications.  5. Pressure-sensitive touch chip: Uses a pressure-sensitive sensor to detect pressure changes on the screen and supports multi-touch, but the price is higher.
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Release time:2023-09-21 16:42 reading:2185 Continue reading>>
AMEYA360 VIETNAM Electronics Production Equipment and Microelectronics Industry Exhibition NEPCON VIETNAM successfully concluded
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AMEYA360 VIETNAM Electronics Production Equipment and Microelectronics Industry Exhibition NEPCON VIETNAM successfully concluded

  From September 6th to 8th, 2023, the three-day 2023 VIETNAM Electronic Production Equipment and Microelectronics Industry Exhibition NEPCON VIETNAM was held grandly at Hanoi International Exhibition Center, Vietnam. The exhibition brought together electronic component material and production equipment manufacturers and agents, suppliers and visitors from around the world, making it an important event in the field of Vietnam’s electronics manufacturing industry.  The exhibition covered a wide range of areas, including raw materials, equipment, systems and services used in printed circuit board , semiconductor packaging, production, design, testing and assembly. It also included microelectronic components such as active/passive components, electromechanical components, and electronic processing services including surface mount technology equipment and services, test and measurement equipment and services, electronic product manufacturing services, electronic components and mobile phone components and other fields. In recent years, Vietnam has become one of the latest advanced electronics product manufacturing centers in ASEAN, attracting numerous excellent electronic companies to establish their presence.  AMEYA360 as a professional electronic components agent/distributor also participated in this exhibition. During the exhibition, AMEYA360 booth received a continuous flow of visitors seeking information and consultation. It attracted customers from different countries for discussion and exchanges. The team from AMEYA360 , with high spirits, warmly welcomed every visitor to the booth, providing professional and meticulous services to exhibition attendees, allowing customers to gain a deeper understanding of AMEYA360’s remarkable capabilities in the industry.  Exhibition  The exhibition was a showcase of our company’s strength on a global scale, as well as an opportunity to drive the development of the electronic component industry. We engaged in-depth exchanges with industry elites from around the world, learning from each other, and striving to provide more efficient and intelligent services for the global electronics manufacturing industry, thus promoting the overall advancement of the industry.  From the initial preparation to the closing, from the past to the present, AMEYA360 has continuously working hard, staying true to its mission, and committed to pursuing excellent quality to create a great user experience. We value every opportunity to communicate, negotiate, and cooperate with each customer and sincerely appreciate your visits, trust, and support. In the future , AMEYA360 will continue to innovate and accelerate its development, driving the electronic industry’s supply chain to reduce costs and increase efficiency!
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Release time:2023-09-11 15:52 reading:2697 Continue reading>>
Panasonic Wins the Case Brought by Dyson Regarding Nanoe EH-NA0G Hair Dryer
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Panasonic Wins the Case Brought by Dyson Regarding Nanoe EH-NA0G Hair Dryer

  Panasonic Corporation (Panasonic) announced today (April 27, 2023) that the Tokyo District Court (“the Court”) has rendered judgement (“the Judgement”) to dismiss all claims by Dyson KK (Dyson) relating to the June 9, 2022 case that Dyson brought against Panasonic regarding Panasonic’s EH-NA0G Hair Dryer (“the Case”).  Dyson filed the Case, seeking an injunction against advertisement of Panasonic’s nanocare EH-NA0G Hair Dryer. Upon filing, Dyson officially stated that it was confident that hair dryer advertisements related to the effects of nanoe technology on hair were misleading to consumers, and submitted test results supporting this claim as evidence to the court.  In today’s Judgement, the Court points out that the tests were conducted under inappropriate conditions and the results from them cannot be relied upon, and as such it could not conclude that the data proved Dyson’s claim that Panasonic’s advertisements were misleading to consumers. The Court concluded that Panasonic’s advertisements do not violate the Unfair Competition Prevention Act.  Panasonic will continue to convey accurate information about the value of our nanocare Hair Dryer series to our customers in compliance with all relevant laws, regulations, and guidelines.
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Release time:2023-05-10 11:16 reading:3478 Continue reading>>
AMEYA360:How to Avoid Electronic Component Storage Woes You
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AMEYA360:How to Avoid Electronic Component Storage Woes You

  One of the standards that separates a qualified distributor from some of its more risky peers is proper storage and handling of electronic components. It may sound simple, but that’s part of the criteria component makers use when authorizing a channel partner.  Using proper electronic component storage is a vital part of quality control. Relying on incorrect practices could mean products fail sooner than expected or never perform as they should. People also must have a problem-solving mindset as they tackle storage issues associated with electronic components. That might mean investing in climate-controlled storage or even pursuing automated options.  Here are some helpful tips to keep in mind to avoid pitfalls:  Understand the risks of electronic component storage failures  Making mistakes or simply being uninformed about how to store electronic components can have numerous negative ramifications. When people know more about what can happen, that knowledge can motivate them to take the proper precautions and adopt preventive measures.  image of electronic component storage in warehouseExperts warn oxidation and diffusion are two of the biggest risks to electronic components. However, the good news is there are strategic ways to prevent both outcomes. Oxidation does not happen in ultra-dry environments. Thus, keeping electronics parts in dry storage cabinets is one solution. Those products do not allow the required cathode reaction to occur and prevent oxidation.  Another possibility is to put the electronic parts in vacuum-packed moisture-barrier bags. This option is an oxidation preventative, provided people fill the bags with nitrogen. Recent research confirmed humans are oxidation sources due to an ozone reaction with the skin’s fats and oils. It’s impossible to stop oxidation completely, but the practical methods described here are good starting points for minimizing it.  Diffusion occurs when atmospheric vapor spreads into hygroscopic materials. As vapor pressure rises, printed circuit boards and other delicate electronic components are at a greater risk of absorbing moisture. However, putting the parts into moisture-barrier bags inside dry storage cabinets reduces the threat.  Knowing about the primary aspects of electronic component storage allows people to act accordingly, become more familiar with how to combat issues and steer clear of them.  Partner with providers of climate-controlled storage  People who work at companies providing climate-controlled storage will be well-versed in meeting the needs and expectations of individuals working in the electronics industry. Ambient warehouses often provide effective electronic component storage by protecting parts from water damage and tampering.  Keeping electronic parts at a consistent temperature is essential to ensuring they remain usable. Plastics can change shape in response to temperature fluctuations. Metals also expand and contract as the temperature shifts. However, an additional difficulty affecting electronics is it’s not typically possible to spot the damage without proceeding with disassembly.  Having the electronic components in an environment characterized by the wrong relative humidity is also problematic. When the humidity is too low, the parts become brittle. That change can make them less able to withstand regular use. Conversely, overly high humidity negatively affects the conductivity of an electronic component.  Most reputable companies offering climate-controlled storage solutions use various strategies to meet their aims. They might maintain dedicated temperature zones for different products or use seals around doors to minimize changes when people enter and exit. Another best practice is to have Internet of Things temperature sensors. They can help facility workers verify that conditions are as expected. Moreover, having backup climate-control systems is essential to planning for emergencies.  Consider how automation might help  Many of the electronics industry’s most prominent players are increasingly pursuing automation to improve workflows. Such efforts go beyond electronic component storage, but they can also include it. People have frequently raised the issue of microelectronics manufacturing returning to the U.S. in greater prominence. That won’t happen easily or quickly, but automation could streamline efforts and reduce errors.  Consider Digi-Key, a low-volume, high-mix distributor that recently opened a new facility in Minnesota. The 2.2 million-square-foot distribution center is almost entirely automated. More specifically, parts-picking is the only task done by hand there. The location contains more than 27 miles of automated conveyor belts. Additionally, the average component order travels more than 3,200 feet inside the building to reach various destinations.  Putting electronics parts in climate-controlled storage is a trusted way to protect them. However, many manufacturers go further by deploying automation to limit the amount of human contact the electronics components have as they move through a factory. Even the most conscientious people occasionally make errors that could cause storage-related risks for delicate parts.  Automation leaves most of the work to intelligent systems that don’t get distracted or tired as humans do. That’s why some manufacturers automate the handling of printed circuit boards and use storage automation solutions. If an automated system puts electronic parts in the right places, there’s a reduced likelihood of errors. Plus, a well-tuned automated system is often much more efficient than people.  Electronic component storage problems can cut into products and lead to upset customers if company representatives don’t adequately address them. Whether that means using climate-controlled storage, pursuing automation or investigating another strategy, people must act promptly and proactively rather than risk ruining valuable parts.  Many electronics components are already in high demand and short supply. Storing them properly can help people cope with supply chain problems by ensuring more of the parts companies have available perform as expected.
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Release time:2023-05-08 10:34 reading:1232 Continue reading>>
AMEYA360:STMicroelectronics X-NUCLEO-53L8A1 Sensor Expansion Board
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AMEYA360:STMicroelectronics X-NUCLEO-53L8A1 Sensor Expansion Board

  STMicroelectronics X-NUCLEO-53L8A1 Sensor Expansion Board is an expansion board for any STM32 Nucleo board equipped with Arduino R3 connectors. It provides a complete evaluation kit that allows the user to learn, evaluate, and develop applications based on the VL53L8 series Time-of-Flight sensors.  The STMicroelectronics X-NUCLEO-53L8A1 expansion board is delivered with a cover glass holder. The user can fit three spacers of 0.25, 0.5, and 1mm height below the cover glass to simulate air gaps. Several ST expansion boards can be stacked through the Arduino? connectors, which allow, for example, the development of VL53L8 series ToF applications with Bluetooth? Low Energy or Wi-Fi interfaces.  FEATURES  VL53L8CX Time-of-Flight 8x8 multizone sensor with enhanced ranging performances  Accurate absolute ranging distance, independent of the reflectance of the target  Up to 400cm ranging  Histogram-based technology  Multiobject detection capability  0.25, 0.5, and 1mm spacers to simulate air gaps  One cover glass to protect the sensor from dust  Compatible with STM32 Nucleo development boards  Equipped with Arduino UNO R3 connectors  Full system software supplied, including code examples and a graphical user interface  RoHS, CE, UKCA, and China RoHS compliant  ADDITIONAL RESOURCES  Datasheet  User Manual
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Release time:2023-04-12 10:58 reading:1847 Continue reading>>
STMicroelectronics ALED7709 Automotive LED Drivers
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STMicroelectronics ALED7709 Automotive LED Drivers

  STMicroelectronics ALED7709 Automotive LED Drivers are AEC-Q100 Grade1 qualified and combine a boost/SEPIC controller and four low-side constant-current sinkers. The STMicroelectronics ALED7709 is designed to drive strings of high-brightness LEDs. The switching converter section provides the supply rail for the LED strings, whose value is constantly optimized for maximum efficiency. The boost/SEPIC controller supports the external synchronization and spread spectrum.  FEATURES  AEC-Q100 Grade1 qualified  Operating temperature range -40°C < TJ < 150°C  4.5V to 42V operating input voltage range  Up to 60V tolerant for load dump @ 24V battery  Supports battery cranking events down to 4V supply  Simultaneous or exclusive control by PWMI and I2C interface  Switching controller section  Low shutdown current ISHDN < 15?A  Fixed frequency peak current-mode controller  Cycle-by-cycle power switch OCP  Adjustable (250kHz to 2.2MHz) switching frequency with optional spread spectrum  Synchronized boost and SEPIC topologies support  Line switch control for standby power saving and inrush current protection  Input overvoltage and output short-circuit protection  LED strings control section  4 x 40V rated constant current outputs  Adjustable up to 200mA per channel  ±2% typ. output current accuracy  Mixed PWM and Analog dimming  100Hz to 12.8kHz dimming frequency  Dimming ratio 10000:1 at 100Hz  LED temperature sensor (NTC) management  Selectable channels phase-shifting and adjustable Rise/Fall time for reducing EMI  Open channel, LED short-circuit detection  Two versions are available ALED7709A and ALED7709B  APPLICATIONS  Automotive lighting and backlighting  Cluster/infotainment display  Head-Up Display (HUD)  Instrument lighting system  Ambient light
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Release time:2023-04-07 11:39 reading:1987 Continue reading>>

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