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AMEYA<span style='color:red'>360</span>:3peak released auto-class 16-channel 12-bit SAR ADC -- TPC5120Q

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AMEYA360:3peak released auto-class 16-channel 12-bit SAR ADC -- TPC5120Q

　　The auto class 16-channel 12-bit SAR ADC-- TPC5120Q is available at a sampling rate of up to 1MHz, using SPI data interface and operating temperature range from -40℃ to +125℃. With the advantages of high performance, TPC5120Q can fully meet the total voltage and total current detection, temperature and humidity and other sensor signal acquisition, power supply voltage monitoring and other applications.　　TPC5120Q Features:　　In line with the condition requirements of AEC-Q100 Grade 1　　16-channel 12bit resolution SAR ADC　　Sampling rate up to 1MHz　　Single analog power supply range VA: 2.7V to 5.5V　　Flexible logical interface level range VBD: 1.7V to 5.5V　　External reference voltage input range: 2V to VA　　The software can configure the input voltage range: 0~Vref or 0~2*Vref　　Supports manual and automatic channel selection modes　　Each channel provides a programmable high and low alarm threshold　　Provides four independently configurable GPIOs　　Supports low power mode, and the sleep power is as low as 10uA　　SPI data interface, speed 20MHz　　Small size TSSOP38 package　　Wide operating temperature range: -40℃ to +125℃　　Typical application of TPC5120Q　　TPC5120Q is mainly used for PACK total voltage and total current detection in automotive BMS. The advantage of multiple channels can be used to detect the voltage difference between the main positive and negative contactors, so as to judge the adhesion condition and contact resistance aging condition of contactors. At the same time, the TPC5120Q is also suitable for insulation detection, temperature and humidity sensor or NTC for temperature and humidity detection, monitoring chip power supply voltage and a series of reliability diagnosis.　　TPC5120Q samples are available now, if you have sample needs or product inquiries, please visit AMEYA360 electronic components purchase website to buy!

Key word：

AMEYA360,3peak,TPC5120Q

Release time：2023-03-14 13:21 reading：2904 Continue reading>>

AMEYA<span style='color:red'>360</span>:Murata Electronics MRUS Magnetic Sensors

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AMEYA360:Murata Electronics MRUS Magnetic Sensors

　　Murata Electronics MRUS Magnetic Sensors offer a voltage range of 2V to 3.6V, 1mT to 3.5mT operating magnetic field, and 500ns pulse boost time. The sensors operate ON/OFF when a magnetic field is detected and feature a wide operating temperature range of -40°C to +85°C. Murata Electronics MRUS Sensors are suitable for consumer and industrial equipment, including home appliances, communication equipment, base stations, and industrial robotics.　　FEATURES　　2V to 3.6V voltage range　　6V power supply voltage　　500ns pulse boost time　　Up to 3.6mA current consumption　　30kHz pulse frequency　　Operating Magnetic Field　　1mT to 2mT (MRUS74SD)　　2.5mT to 3.5mT (MRUS74SK)　　-40°C to +85°C operating temperature range　　APPLICATIONS　　Home appliances　　Communication equipment　　Base stations　　Industrial robotics

Key word：

Murata,AEMYA360

Release time：2023-03-13 13:30 reading：2127 Continue reading>>

AMEYA<span style='color:red'>360</span>:STMicroelectronics STM32H5 Arm® Cortex®-M33 32-Bit MCU+FPU

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AMEYA360:STMicroelectronics STM32H5 Arm® Cortex®-M33 32-Bit MCU+FPU

　　TMicroelectronics STM32H5 Arm? Cortex?-M33 32-Bit MCU+FPU extends the STM32 high-performance portfolio and offers enhanced performance and power efficiency. The STMicroelectronics STM32H5 has 128KB of Flash, 32KB of RAM, 25- to 64-pin WLCSP packages, and LQFP profiles. The line contains the Arm Cortex-M33 with DSP and floating‐point unit (FPU) running up to 250MHz.　　FEATURES　　High performance at 250MHz　　Delivers 375 DMIPS/1023 CoreMark performance executing from Flash memory　　0-wait states using ST's ART Accelerator?　　Embedded peripherals with up to 13 communication peripherals, including I3C, FD-CAN, and USB 2.0 full-speed host and device　　Power efficiency with 86?/MHz typical @VDD= 3.3V and 25°C in run mode (peripherals off)　　54A typical in stop mode (low-power mode)　　3.5A typical in standby mode (low-power mode)　　380nA typical in VBAT mode with RTC (low-power mode)　　APPLICATIONS　　Industrial (PLC, industrial motor control, pumps, and compressors)　　Smart home (air conditioner, refrigerators, freezers, central alarm, system, washing machines)　　Personal electronics (keyboard, smartphones, IoT tags, tracking devices)　　Smart city (industrial communication, lighting controls, digital power)　　Medical and healthcare (CPAP and respirators, dialysis machines, pills distributors, powered patient beds)

Key word：

AMEYA360,STM,STM32H5

Release time：2023-03-13 13:26 reading：3221 Continue reading>>

AMEYA<span style='color:red'>360</span>：Renesas Electronics launched 10 new successful product portfolios

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AMEYA360：Renesas Electronics launched 10 new successful product portfolios

　　Renesas Electronics, a global semiconductor solutions provider, announced the launch of 10 new "winning product portfolios" that combine Renesas's broad portfolio of products -- including electric vehicle (EV) charging, dashboard control and low-voltage converter capabilities for traction motors, among other applications.　　The Renesas "Portfolio of Successful Products" is a technologically proven design excellence that enables users to implement their design concepts with a high-level platform, shortening product development cycles and reducing the overall risk of bringing a design to market. Renesas now has over 300 "successful product portfolios" for a wide range of users and markets.　　In November 2022, Renesas announced the creation of a unified global sales and marketing organization, combining teams from its Automotive Electronics Solutions Business Unit (ABU) and Internet of Things and Infrastructure Business Unit (IIBU) to accelerate collaboration across business units. The new organization allows Renesas to leverage scale by facilitating cross-selling opportunities and wider user coverage. The new "Portfolio of Successful Products" is the first to combine automotive and non-automotive products.　　"　　Chris Allexandre, Senior Vice President and Chief Sales and Marketing Officer of Renesas Electronics, said: "These 'portfolio of successful products' are outstanding examples of how Renesas can leverage synergies from a new organizational structure. By combining Renesas's deep experience in technology, markets and customers, we can deliver solutions at the best value for the large, rapid growth opportunities in all geographies."　　"　　Nitin Bhambri, Senior Manager, Renesas Systems and Solutions Team, introduces the OCPP Interface Card (OIC) solution for smart electric vehicle chargers. Click below to view the video:　　The 10 new "winning Product portfolios" include the following solutions　　The OCPP interface card (OIC) for intelligent electric vehicle chargers and the Open charging Protocol (OCPP) are used for communication between networked charging stations and networked charge management systems. Today, charging stations can connect to OCPP, but with this new solution, stand-alone EV chargers will also be able to connect to OCPP servers to authorize vehicles, remotely manage charger configurations, get real-time alerts, and more. This gives users and manufacturers the flexibility to use any charger for any EV system that supports multiple charging technologies. This "portfolio of success" includes Renesas Bluetooth Low Power? , Wi-Fi and MCU products.　　3 kw non-on-board electric vehicle charger　　High power non-on-board chargers are functional modules that support battery pack solutions. The charger combination operates within a universal input range, using a high-end MCU to control power factor correction (PFC) and manage zero voltage switches (ZVS). This "portfolio of successful products" includes Renesas's MCU, analog, power and PWM controller products.　　Connected Android dashboard　　This networked cockpit design provides developers with all the modules and peripherals needed for full cockpit application development. The custom board comes with a variety of wireless connectivity options including Wi-Fi, LTE and GPS. Information from outside the vehicle CAN be fed via dual CAN/FD communication channels. It supports three display connections and a variety of startup options, support for Android-based infotainment systems, and dashboard apps via FreeRTOS. This "portfolio of successful products" includes Renesas R-Car Automotive System-on-chip (SoC), power management devices, timing products, Wi-Fi, modules and Bluetooth products.　　Other "winning portfolios" include:　　Charging and communication unit of electric vehicle charging pile　　Vehicle control unit　　Low-cost TFT dashboard with telematics system　　Low voltage inverter for 2/3 wheel traction motor control　　Vehicle telematics box module　　High-performance electric vehicle charging wall box solution　　Portable electric car charger　　Supply with more information　　In addition to the existing "successful portfolio" of over 300 models, the new Renesas EV "successful Portfolio" includes block diagrams, product information, as well as sample acquisition and product purchase information.

Key word：

AMEYA360,Renesas

Release time：2023-03-10 11:45 reading：2587 Continue reading>>

AMEYA<span style='color:red'>360</span>:Murata added four Japanese factories to import self-generating equipment with solar panels and batteries

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AMEYA360:Murata added four Japanese factories to import self-generating equipment with solar panels and batteries

　　To achieve the RE100, Murata will introduce new battery systems at four plants in Japan, which will use 100 percent renewable energy in the future. The four plants that have introduced new battery systems include Sendai Murata Manufacturing Plant (Sendai, Miyagi Prefecture), Ise Murata Manufacturing plant (Tsumi, Mie Prefecture), HAKUI Murata Manufacturing plant (Yuba, Ishikawa Prefecture), and WAKURA Murata Manufacturing Plant (Shichio, Ishikawa Prefecture).　　With the goal of achieving a sustainable society, we will continue to promote the renewable energy of the electricity used in the whole business activities of Murata Group and contribute to reducing the environmental load of the regional society. The battery system was first introduced into use in Kanazu Murata Manufacturing Company (Fukui Prefecture Tohara City) in November 2021.　　After this introduction, there will be 5 plants operating this system in Japan, and the cumulative CO2 emission reduction will reach 1,897 tons.　　The system integrated management of production plan, electricity consumption, weather information, power generation forecast information in large-scale solar panels and battery units, and combined with Murata's unique energy management system, can optimize the use of energy in real time. In the daytime, the system can monitor the increase and decrease of production and the change of weather, but also can efficiently manage the use of self-generated electricity and battery charging and discharging, and reduce the power supply load of the system stably. In addition, the system will charge the battery at night, in case of daytime power demand, help to stabilize the supply load.　　In recent years, the rise of sea level and temperature and abnormal weather caused by global warming have become major social issues, and the use of renewable energy has become very important. In particular, it is difficult to predict the supply and demand of electricity in summer and winter in Japan, and the supply network is unstable due to the instability of renewable energy generation. Therefore, companies not only need to promote the use of renewable energy with additionality, but also need to improve the efficiency of energy management. In order to solve such social problems, Murata is making continuous efforts to achieve a sustainable society by optimizing energy use by using battery units as well as solar panels for self-generating electricity.　　The storage unit used in this system fully demonstrates the advantages of the secondary batteries of Murata Production, which can realize long-term stable operation.　　According to the different weather conditions and production projects, the operation conditions of each village station vary greatly. In the future, we will analyze and accumulate knowledge and experience on the system operation of each stronghold, and strive to extend this system to more business offices and factories.　　Murata has identified "Strengthening climate change measures" as an important task and has been promoting the introduction of renewable energy in a bid to contribute to solving global social issues. We strive to achieve the group's total greenhouse gas emission reduction target in business operations, and actively invest in all businesses to promote energy conservation and the use of renewable energy.　　In the future, the Murata Group will continue its efforts to promote the use of renewable energy in Japan and overseas locations, and continue to promote measures to combat climate change.

Key word：

AMEYA360,Murata,batteries

Release time：2023-03-10 11:37 reading：1988 Continue reading>>

Ameya<span style='color:red'>360</span>:ROHM Semiconductor RLD90QZWx 905nm Invisible Pulsed Laser Diodes

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Ameya360:ROHM Semiconductor RLD90QZWx 905nm Invisible Pulsed Laser Diodes

　　ROHM Semiconductor RLD90QZWx 905nm Invisible Pulsed Laser Diodes feature narrow emission width and high energy conversion efficiency. The narrow emission width helps achieve an impressive detection distance and sensing accuracy. These laser diodes have a unique structure that reduces wavelength fluctuations. The RLD90QZWx 905nm invisible pulsed laser diodes come in industry standard Φ5.6 package. Typical applications include laser range finders, Automatic Guided Vehicles (AGVs), and security applications.　　FEATURES　　905nm wavelength　　Narrow emission width　　High energy conversion efficiency　　Reduced wavelength fluctuations　　Low power consumption　　Industry-standard Φ5.6 package　　APPLICATIONS　　Laser range finders　　Automatic Guided Vehicles (AGVs)　　Security

Key word：

Ameya360,ROHM

Release time：2023-03-09 11:24 reading：2302 Continue reading>>

Ameya<span style='color:red'>360</span>:Advanced Thermal Solutions fanSINK™ Designed for Analog Devices Eval Boards

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Ameya360:Advanced Thermal Solutions fanSINK™ Designed for Analog Devices Eval Boards

　　Advanced Thermal Solutions fanSINK is a high-performance 21.0mm x 21.0mm x 13.5mm BGA heat sink with a superGRIP? attachment. The ATS superGRIP is a proven high-reliability mechanical attachment system. The superGRIP hardware includes a high-performance plastic frame clip and 300 series stainless steel spring clip, avoiding PCB through holes.　　The Advanced Thermal Solutions fanSINK is designed for Analog Devices evaluation boards AD9166, AD9986, AD9988, AD9081, AD9082, and the quad-MxFE design, which is 4x AD9081/2. The device does not include a fan.　　FEATURES　　Heat sink includes 7/8" screws, which fit 10mm thick fans　　Product hole pattern is 20mm C-C (center-to-center)　　Component attachment, ATS superGRIP?, is a proven high-reliability mechanical attachment system　　superGRIP hardware includes a high-performance plastic frame clip and 300 Series stainless steel spring clip, avoiding PCB through holes　　Provided with pre-assembled Thermal Interface Material (TIM) centered on the base　　“Keep-Out” requirements - An “Un-Populated” border zone of 3.5mm around the component is necessary to facilitate the installation/removal of the superGRIP?　　Fan not included　　ADDITIONAL RESOURCES　　superGRIP Clearance Guidelines　　superGRIP Installation Guide

Key word：

Ameya360,ATS

Release time：2023-03-09 11:21 reading：1860 Continue reading>>

Ameya<span style='color:red'>360</span>:NXP Semiconductors TEA2096T synchronous Rectifier Controller

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Ameya360:NXP Semiconductors TEA2096T synchronous Rectifier Controller

　　The NXP Semiconductors TEA2096T synchronous Rectifier Controller is ideal for switching mode power supplies. The TEA2096T uses an adaptive grid drive method to provide maximum efficiency under any load. The controller can be used for synchronous rectification of the secondary side of the resonant converter. The device has two driver stages that drive SR MosFETs and corrects the output of the center tapped secondary transformer windings.　　characteristic　　Efficiency characteristic　　Adaptive grid drive for maximum efficiency under any load　　The power supply current is 80μA in energy saving mode　　Voltage regulator: -29mV, used to drive low resistance mosFeTs　　Application characteristics　　Drain detection voltage: up to 200V　　Wide supply voltage range: 4.5V to 38V　　Dual-channel synchronous rectifier for LLC resonance　　Support 5V power supply operation, with logical level SR MOSFET　　Differential input, used to detect the drain-source voltage of each synchronous rectifier MOSFET　　SO8 package　　Control characteristic　　SR control, no minimum on-off time　　Adaptive grid drive for quick shutdown at the end of on-off　　Undervoltage latching (UVLO) protection with active grid pull-down function　　Interlocking function prevents external MOSFeTs from being switched on at the same time　　Supports 1MHz switching frequency　　application　　adapter　　Desktop and all-in-one power supplies　　Television power supply　　Server power supply　　Industrial power supply

Key word：

Ameya360,NXP

Release time：2023-03-07 13:34 reading：1508 Continue reading>>

Ameya<span style='color:red'>360</span>:Infineon’s WBG catch-up with GAN Systems acquisition

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Ameya360:Infineon’s WBG catch-up with GAN Systems acquisition

　　At a dinner held during CES 2023 in January, I had the opportunity to talk to a senior Infineon executive sitting next to me about the company’s widely talked about acquisition ambitions for this year expressed in a statement. The rationale was that while the semiconductor industry is going through a downward cycle, it’s a good window of opportunity to acquire strategic assets at a good price.　　A few days later, when I sat with GAN Systems CEO Jim Witham to get a sense of what’s new and latest in gallium nitride (GaN) semiconductor technology, what I found most striking was his remark about how quickly this market has emerged over the past decade or so. “If you go back five years, people were asking when GaN will happen, and now while GaN devices has established themselves in the market, it’s a little late to join the GaN party,” Witham said. Now it’s really about market penetration, he added.　　At that moment, I instantly began thinking about large power semiconductor players and what they will do to address this market reality. One company that came to mind was Microchip, which acquired Microsemi in 2018 to get hold of silicon carbide (SiC) assets. Very good timing, indeed.　　Another supplier of wide bandgap (WBG) semiconductors, UnitedSiC, was acquired by Qorvo in 2021. But what about other big analog and power semiconductor suppliers? What also came to mind was Infineon’s failed attempt to acquire Cree’s SiC business, Wolfspeed, back in 2017. Cree later named itself on its most successful brand, Wolfspeed, and its SiC business has rapidly grown since then.　　Figure 1 GaN semiconductors facilitate higher power density, higher energy efficiency, and smaller device form factor. Source: Infineon Technologies　　Well, Infineon Technologies has answered the call by snapping GAN Systems for $830 million. Industry watchers believe this could trigger a consolidation wave around the emerging WBG semiconductor industry. Besides Ottawa, Canada-based GAN Systems, other GaN semiconductor specialists include Cambridge GaN Devices, Efficient Power Conversion (EPC), Navitas Semiconductor, Transphorm, and Vanguard International Semiconductor.　　Acquisition merits　　While we’ve seen several SiC-centric acquisitions in recent years, Infineon’s deal marks the first major GaN asset purchase. And, given GaN’s crucial significance in power electronics, it’s very likely that it won’t be the last.　　For Infineon, the number one power semiconductors business in terms of market share, it’s also critical that it fills the GaN missing link in its power semiconductors portfolio. Though not a prolific acquisition player, Infineon has made two highly successful deals in recent years. First, in 2014, it bought power semiconductor pioneer International Rectifier to bolster its automotive offerings. The acquisition also brought Infineon some GaN technology assets as an add-on to this deal.　　Next, in 2019, Infineon acquired Cypress Semiconductor to further boost its portfolio for the automotive markets. Both deals—International Rectifier and Cypress—have gone well for Infineon. So, given Infineon’s track record and prevailing market conditions, the GAN Systems purchase looks like a timely call.　　Figure 2 GaN semiconductors have been incorporated into Canoo’s on-board charger (OBC) to convert AC power from the wall receptacle into the DC power that charges the EV battery. Source: GAN Systems　　Besides strengthening Infineon’s GaN technology roadmap, it provides the German chipmaker timely access to applications such as mobile charging, data center power supplies, residential solar inverters, and on-board chargers (OBCs) for electric vehicles (EVs). As GAN Systems chief Witham points out, the deal will also combine Infineon’s in-house manufacturing with GaN Systems’ foundry corridors. TSMC is GAN Systems’ manufacturing partner.　　Here, it’s important to note that in February 2022, Infineon announced to double down on WBG manufacturing by investing more than €2 billion in a new front-end fab in Kulim, Malaysia. The first wafers will leave the fab in the second half of 2024, complementing Infineon’s existing WBG manufacturing capacities in its fab at Villach, Austria.　　End of another chip startup story　　It’s the end of the road for the Canadian startup founded in Ottawa in 2006. Girvan Patterson and John Roberts co-founded GaN Systems after seeing GaN as an opportunity and growth venue in the power industry, especially in data centers, industrial motors, and mobile chargers. Ottawa, the Canadian capital, had a research facility, National Research Council (NRC), which gave the upstart a small GaN fab to acquire fast learning cycles. “That’s why we could develop working GaN transistors fast enough,” Witham told EDN at CES 2023.　　Figure 3 GaN Systems, based in Ottawa, has more than 200 employees.　　GaN Systems has been a success story in the rapidly emerging WBG semiconductors arena. GaN semiconductors are now being targeted at a wide range of power applications due to their smaller form factor and energy-saving credentials enabled by higher power density and energy efficiency. According to market research firm Yole, the GaN revenue for power applications is expected to grow by 56% CAGR to approximately $2 billion by 2027.　　GaN Systems claims it’s the only GaN semiconductors company with a production program for automotive. At CES 2023, it displayed an OBC from Canoo and a DC-DC converter from Vitesco for EVs. The adoption of GaN devices in EVs is at a tipping point, as Infineon CEO Jochen Hanebeck acknowledged in the press release announcing this acquisition.

Key word：

Infineon

Release time：2023-03-07 13:21 reading：718 Continue reading>>

Ameya<span style='color:red'>360</span>:Amphenol Air LB Germany GPC VG96927T018 Ethernet Cables

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Ameya360:Amphenol Air LB Germany GPC VG96927T018 Ethernet Cables

　　Amphenol Air LB Germany GPC VG96927T018 Ethernet Cables are designed to provide the highest performance on the conditions of VG specifications. These VG specifications include RJ45 connectors according to VG96968-03Z1, CAT7 Ethernet cable according to VG95218T031B001, and cable assembly according to VG9692. The VG96927T018 Ethernet cables feature molded strain relief with kink protection in 45° and 90° designs, S/FTP 4 x 2 x AWG 26, UV resistant, and are halogen-free. These Ethernet cables operate at -40°C to 85°C temperature range, 800N max pulling force, ≤100V operating voltage, and ≤10Ω/km screen resistance.　　FEATURES　　10 Gigabit Ethernet class EA 500MHz patch cable　　S/FTP 4 x 2 x AWG 26　　UV resistant and halogen-free　　Molded strain relief, including kink protection in 45° and 90° designs　　RoHS compliant　　SPECIFICATIONS　　-40°C to 85°C operating temperature range　　800N max pulling force　　≤100V operating voltage　　Sunlight resistant according to UL-444　　Smoke-density according to IEC 61034-2　　700V test voltage (wire/wire/screen RMS 50Hz 1min)　　≤10Ω/km screen resistance

Key word：

Ameya360,Amphenol

Release time：2023-02-28 14:50 reading：3376 Continue reading>>

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

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

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