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Murata’s Type 1SC-NTN module achieves Skylo U.S. certification for cellular and non-terrestrial <span style='color:red'>network</span> connectivity

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Murata’s Type 1SC-NTN module achieves Skylo U.S. certification for cellular and non-terrestrial network connectivity

　　Murata announced today that its Type 1SC-NTN has received Skylo U.S. certification for its dual-mode cellular and non-terrestrial network (NTN) capabilities, making it the first ultra-compact resin mold module to achieve this recognition from an NTN service provider. The product seamlessly integrates the latest Rel-17 NTN standard, enabling satellite data communication capabilities without necessitating any hardware design changes. When paired with Skylo's NTN service, it extends the reach of satellite connectivity, ensures uninterrupted communication, and delivers a new class of solution for the demanding satellite IoT market.　　Murata’s Type 1SC is the world’s smallest form factor LTE Cat M/NB-IoT module with both global regulatory and NTN certification. It supports GPS/GNSS, OpenMCU, and Integrated SIM to support the applications that are defining today’s market, such as dual-mode cellular IoT. In addition to its unmatched size, low power, and cost-efficiency, its high level of integration accelerates time to market while lowering development and deployment costs for customers. Target uses include wearable, tracking, and medical monitoring devices, as well as M2M communication, smart meters, and other size-limited IoT edge products.

Key word：

Murata

Release time：2024-10-15 13:19 reading：520 Continue reading>>

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AMEYA360 Agent:Fibocom Unveils Non-Terrestrial Networks Module MA510-GL

　　During MWC Shanghai 2023, Fibocom announces the global launch of the Non-Terrestrial Networks (NTN) module MA510-GL (NTN) and showcases the live NTN demonstration based on Qualcomm's NB-IoT over NTN technology. The module focuses on enabling satellite and cellular communication for IoT devices at global reach, making it possible to connect reliably and seamlessly anywhere, anytime.　　Fibocom, a global leading provider of IoT (Internet of Things) wireless solutions and wireless communication modules, unveils the Non-Terrestrial Networks (NTN) module MA510-GL (NTN) at MWC Shanghai 2023. Compliant with 3GPP Release 17 standard, the Qualcomm® 9205S modem empowered module MA510-GL (NTN) is capable of exploiting the highly resilient GEO (Geostationary Earth Orbit) satellite communication and cellular connectivity to IoT scenarios such as maritime transportation, emergency communication, scientific research in rural areas, etc.　　It is estimated that there are roughly 15% of the globe covered by cellular connectivity along with the rollout of cellular infrastructure in terrestrial. While the implementation keeps developing, combining reliable and robust satellite communication technology to the use of cellular network is an ideal method of improving the network reliability and coverage on land, on water, and in the air. Driven by the increased market demands from enterprises, airlines, and telecommunication service providers, the integration of cellular and satellite communication is becoming more and more important for IoT industries.　　Fibocom MA510-GL (NTN) is a high-performance NTN module, which is tailor-made for the global IoT market. Developed on the Qualcomm® 9205S modem, the module supports GEO (Geostationary Earth Orbit) satellite communication as well as LTE Cat M/NB2/EGPRS cellular communication that is perfectly applied for massive IoT applications. Adopting LCC+LGA form factors, MA510-GL (NTN) integrates multiple interfaces such as UART/USB/I2C/I2S for industrial customers. Built-in with GNSS and equipped with eDRX capability, the module is suitable for IoT applications with low power consumption and ultra-small size, such as maritime transportation, emergency communication, and scientific research in remote areas while maintaining long battery life.　　“Expanding the network coverage in the non-terrestrial and terrestrial by utilizing the cellular and NTN communication technology is a significant milestone in deploying the IoT applications even to the most unreachable areas on earth,” said Jason Zhu, General Manager of MTC Product Management BU, Fibocom. “We are optimistic to offer a reliable, high-resilient NTN solution to customers worldwide by launching the NTN module MA510-GL (NTN).”

Key word：

Fibocom

Release time：2023-08-22 11:55 reading：3766 Continue reading>>

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IC TRADING NETWORK IC ELECTRONIC COMPONENTS TRADING PLATFORM

　　Ameya360.com is a solution provider of Integrated Circuits. We are helping companies to search and deliver “not easy to get instant” IC’s in a secure and fast way for acceptable prices. As a solution provider, we have several partners who are capable of finding the most components, ready stock and adding the option to validate the authenticity and quality by a well reputated independent technical lab of all products. With the increasing need for constant technological advancements in every segment nowadays, our company realized a valuable growth of opportunity for microcontroller products that enable heightened business scope and be able to support all industries.　　Electronic Circuit Facts　　Fact 1: Open Circuit　　As mentioned before, a circuit must always form a loop to allow the current to flow through it. However, when it comes to an open circuit, the current can’t flow as one or more components are disconnected either intentionally (by using a switch) or accidentally (broken parts). In other words, any circuit that does not form a loop is an open circuit.　　Fact 2: Closed Circuit　　A closed circuit is one that forms a loop without any interruptions. Thus, it is the exact opposite of an open circuit. However, a complete circuit that doesn’t perform any function is still a closed circuit. For example, a circuit connected to a dead battery may not perform any work, but it is still a closed circuit.　　Fact 3: Short Circuit　　In the case of short-circuit, a low-resistance connection forms between two points in an electric circuit. As a result, the current tends to flow through this newly formed connection rather than along the intended path. For example, if there is a direct connection between the battery’s negative and positive terminal, the current will flow through it rather than passing through the circuit.　　Fact 4: Printed Circuit Boards (PCBs)　　Most electronic appliances require complex electronic circuits. That’s why designers have to arrange tiny electronic components on a circuit board. It comprises a plastic board with connecting copper tracks on one side and lots of holes to affix the components. When the layout of a circuit board is printed chemically onto a plastic board, it is called a printed circuit board or PCB.　　For further information on our product range visit our website here, or to discuss your requirements with our team please call: +86 (21) 6401-6692 or email: amall@ameya360.com.

Key word：

Electronic component

Release time：2023-08-04 09:55 reading：3156 Continue reading>>

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AMEYA360:How ABB Is Getting Ahead of Network Outages

　　Issues tend to crop up at the worst possible time. Network engineers know this all too well. This is just one reason why it’s critical to have a reliable out-of-band management solution available when you experience a network outage.　　Network engineers already understand the many factors that could cause a disruption: Hardware failures cause 34%, human errors cause another 21.5%, and hacks or security breaches bring another 18.7%.　　Matt Witmer, Senior Principal Engineer, Opengear　　Regardless of an outage’s root cause, every minute of downtime is costly. A recent survey of global managers, directors, VPs and executives found the average amount lost due to network outages is roughly $13,000 per minute — and that’s just the financial element. Damage to a company’s reputation, stress put on IT professionals rushing to fix the problem, dissatisfied customers — and the corresponding fallout from each — all represent significant costs as well.　　Consider the case of ABB, a leading global industrial technology company with a comprehensive portfolio of products in the robotics and electronics spaces. ABB was recently looking for a reliable out-of-band solution to monitor and secure its network and the numerous AIoT devices connected to it. The modernization was much needed, as the company had previously relied on 56Kbps modems and analog telephone lines to provide 24/7 connectivity to multiple physical locations, including data centers, distribution centers, manufacturing facilities and sales offices. So, any disruption would result in lost business, service interruptions and poor customer service experiences.　　ABB’s U.S. network and voice services team was tasked with overseeing the upgrade, opting for Opengear solutions, starting with our ACM7000 Resilience Gateways. These products provide in-band and out-of-band access to AIoT devices. Providing secure, out-of-band remote access at edge locations, thanks to an embedded, global 4G-LTE cellular modem that provides an alternate path when the primary link is down, the gateways were deployed at different ABB facilities, with the 4-port versions going to manufacturing sites. Our eight-port gateways were placed at ABB’s distribution centers to ensure business continuity. Finally, for its data centers, ABB chose our 48-port CM7100 Console Server, which offers 16-96 serial console ports with simple straight-through cabling to Cisco-style serial consoles, ideal for large compute locations.　　Not long after a successful deployment of our advanced routers, modems and remote-management tools, ABB experienced a network outage during a standard data center migration from one circuit carrier to another. ABB’s IT team was able to quickly access the data center network with new, out-of-band management capabilities, keeping downtime to a minimum and keeping AIoT devices secure.　　Since the initial rollout, ABB has added more Opengear devices in its network. Today, the company has hundreds of them across two data centers, two distribution centers, plus its manufacturing sites and sales offices — all in the name of business continuity and AIoT device security.　　ABB is now able to remotely monitor, safeguard against and repair network outages when they occur. As a result, the company ensures its IoT devices are securely connected and minimizes costly downtime.

Key word：

AMEYA360,ABB

Release time：2023-04-11 11:44 reading：2996 Continue reading>>

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Ameya360:NXP Semiconductors GoldBox 3 Vehicle Networking Development Platform

　　NXP Semiconductors GoldBox 3 Vehicle Networking Development Platform is designed for vehicle Service-Oriented Gateways (SoGs), domain control applications, high-performance processing, and safety and security applications. This development platform offers high-performance computing capacity, real-time network performance, multi-Gigabit packet acceleration, security, and rich input/output (I/O).　　These target the central gateway, domain controller, FOTA, secure key management, smart antenna, and high-performance central compute nodes. The GoldBox 3 vehicle networking development platform supports low-power mode, multiple wake-up sources, and two M.2 modules. Typical applications include Firmware Over-the-Air (FOTA), automotive access points, safety processors, service-oriented gateway, vehicle compute, and zonal gateways.　　FEATURES　　Hardware:　　Supports service-oriented gateway and domain controller applications　　Multiple network interfaces featuring 18 CAN/CAN FD and 12 Ethernet ports　　Supports low-power mode and multiple wake-up sources　　Supports two M.2 modules (M-key slot and E-key slot)　　12V AC-DC adapter power supply　　Interfaces:　　LIN, CAN/CAN FD, 100BASE-T1, 1000BASE-T / 2.5GBASE-T, 100BASE-TX, 1000BASE-T, FlexRay, USB, PCIe, JTAG, UART, AURORA, and M.2 slots　　Safety:　　ISO 26262 support by using safety components and architecture　　KIT CONTENTS　　Rugged enclosure with integrated thermal management　　S32G reference design board 3　　Universal AC adapter　　AC/DC 12V 6.67A power supply　　32GB SD card　　DuPont line　　2x USB A-to-micro B cables (UART0/1)　　CAT6A Ethernet cable　　Ethernet loopback cable　　3x Heatsinks　　FAN solution for S32G　　Screws (M.2 slots)　　1.27mm mini jumpers and cables　　APPLICATIONS　　Automotive access point　　Automotive data logger　　Automotive zone controller　　Domain controllers　　Firmware Over-the-Air (FOTA)　　Gateway　　In-vehicle networks　　Safety processors　　Service-oriented gateway　　Vehicle compute　　Zonal gateways

Key word：

AMEYA360,NXP

Release time：2023-03-24 13:44 reading：1892 Continue reading>>

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AMEYA360:NXP Semiconductors S32G3 Vehicle Networking Reference Design

　　NXP Semiconductors S32G3 Vehicle Networking Reference Design is designed for vehicle Service-Oriented Gateways (SoGs), domain control applications, high-performance processing, and safety and security applications. This reference design is based on the octal Arm Cortex-A53 cores and quad, dual-core lockstep Arm Cortex-M7 cores. The S32G3 vehicle networking reference design offers high-performance, real-time network performance, multi-gigabit packet acceleration and security, and rich input/output (I/O). Typical applications include Firmware Over-the-Air (FOTA), automotive access points, safety processors, service-oriented gateway, vehicle compute, and zonal gateways.　　FEATURES　　Hardware:　　Supports service-oriented gateway and domain controller applications　　Multiple network interfaces, featuring 18 CAN/CAN FD and 12 Ethernet ports　　Supports low-power mode and multiple wake-up sources　　Supports two M.2 modules (M-key slot, E-key slot)　　ISO 26262 support by using safety components and architecture　　12V AC-DC adapter　　Interfaces:　　LIN, CAN/CAN FD, 100BASE-T1, 1000BASE-T / 2.5GBASE-T, 100BASE-TX, 1000BASE-T, FlexRay, USB, PCIe, JTAG, UART, AURORA, and M.2 slots　　KIT CONTENTS　　S32G Reference Design Board 3　　Universal AC adapter　　AC/DC 12V 6.67A power supply　　32GB SD card　　DuPont line　　2x USB A-to-micro B cables (UART0/1)　　CAT6A Ethernet cable　　Ethernet loopback cable　　3x Heatsinks　　FAN solution for S32G　　Screws (M.2 slots)　　1.27mm mini jumpers and cables　　APPLICATIONS　　Automotive access point　　Automotive data logger　　Automotive zone controller　　Domain controllers　　Firmware Over-the-Air (FOTA)　　Gateway　　In-vehicle networks　　Safety processors　　Service-oriented gateway　　Vehicle compute　　Zonal gateways

Key word：

NXP,S32G3

Release time：2023-03-24 13:41 reading：2140 Continue reading>>

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AMEYA360：Networking a Smart City: Using Fit-for-Purpose Tech

　　Multiple market forecasts project smart cities will grow at a compounded annual growth rate of as much as 25% between now and 2030, making cities a very attractive market for internet of things (IoT) solution providers. However, cities present various unique challenges for vendors seeking to enter this market.　　Cities are highly complex deployments for any technology, and IoT networking is no exception. Let’s examine the challenges to understand why selecting a networking technology designed to meet a city’s needs is vital.　　Diagram of a smart city, where LoRaWAN is essential for networking.　　First, there are very real physical challenges to deploying networks in cities. Cities are largely built with steel and concrete, which creates connectivity issues as wireless signals often struggle to penetrate these materials. Further, many IoT sensors reside in basements or underground, which also presents a challenge for achieving reliable connections. So, it is important to select a networking technology with a track record of success in urban environments, like LoRaWAN (LoRa stands for Long Range).　　LoRaWAN is proven to transmit signals through cement, metal and underground. The recent addition of battery-operated relays provides an easy-to-deploy, low-power and standards-based approach to extend LoRaWAN coverage beyond its current physical limits at a fraction of the cost of adding additional gateways.　　Second, the vast majority of IoT applications transmit tiny amounts of data, making low-bandwidth networking desirable because it meets the connectivity and scaling requirements at a fraction of the cost of high-bandwidth technologies. With LoRaWAN, a single gateway supports thousands of sensors and costs only hundreds of dollars, making it highly cost effective to expand the system as new applications are added to the network. This scalability is a critical benefit for cities that want to be sure their networking choice will continue to be optimal even with future urban development and growth.　　Third, it is crucial to consider the power consumption of the devices. Maintenance and ongoing operation are key drivers of cost that must be considered when making a networking decision. Using end devices with low-power consumption extends battery life to more than 10 years, saving time, money and our environment.　　It is important to note that there will be millions of devices operating in hard-to-reach places, or buried underground, so longer battery life also saves significant time and labor costs. This allows LoRaWAN to deliver considerable cost savings over a device’s lifetime, which increases environmental and energy sustainability in turn.　　Fourth, having flexible business models future proofs a networking solution because a city’s needs will evolve over time. LoRaWAN addresses this by offering the most network flexibility of any LPWAN, allowing it to meet the needs of all departments, which each have their own unique requirements. A city can build a private network, subscribe to a public or satellite one, join a community network, or utilize a hybrid. Finally, a city also has the ability to roam across these various types of deployment options.　　Fifth, because cities are governmental entities, there are many rules, regulations and requirements to consider. Open standards are the only viable choice when investing in long-term solutions because they enable longevity and are backed by dynamic ecosystems that foster competition and give cities a choice in terms of vendors and pricing. Proprietary solutions are problematic because they lock cities into a single vendor, which restricts the quantity and types of available products and may include price lock-ins.　　These are serious drawbacks that risk not meeting all a city’s long-term needs. Further, cities should insist on using end devices that are certified by a regulatory body. Certification is the only way to have confidence that devices will be reliable and compliant with the standards, thus reducing potential support costs and ensuring interoperability. LoRaWAN meets these requirements, having been officially approved as a standard by the International Telecommunications Union (ITU). Additionally, the technology is backed by the LoRa Alliance Certification Program.　　Because cities that want to become smart must anticipate future needs and consider current challenges, open standards like LoRaWAN are ideal because they bring reliability, flexibility and ecosystems that offer a wide variety of choices. These features allow cities to find strong partners who are willing to innovate and collaborate to solve the city’s challenges. Combine the use of open standards with a requirement to deploy certified end devices, and cities’ IoT connectivity selections will offer a return on investment for years to come.

Key word：

AMEYA360,Networking

Release time：2023-03-15 11:18 reading：1588 Continue reading>>

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Ameya360:ams OSRAM Launches Global Partner Network

　　AMS OSRAM has launched a new Global Partner Network of design consultancies, module suppliers, and supporting component manufacturers to accelerate customers’ time to market and facilitate new business opportunities, while taking advantage of the latest optical and sensor technologies.　　Partners are selected based on their technical expertise, solution offering and track record of working with customers to co-create new products. The Global Partner Network encompasses the hardware, software, tools, services and know-how required to quickly capitalize on today’s megatrends without huge investment.　　“ams OSRAM products are at the leading edge of many optical and sensor technologies. The Global Partner Network Program will deliver more customer value. It will enhance our relationship with our partner ecosystem and provide our joint customers with a comprehensive and global pool of expertise and solutions. ams OSRAM is ensuring that any customer can take advantage of our technologies, no matter how much design experience or resources it has internally,” said Pierre Laboisse, Executive Vice President of Global Sales and Marketing at ams OSRAM.　　The new ams OSRAM Partner Network is designed to give customers multiple options to procure the support that best fits their business model with the integration of advanced optical and sensor systems into end product designs.　　It includes different type of partners so that interested ams OSRAM customers are put in position to procure the appropriate solution or service: module and solutions providers; independent design houses; manufacturers of complementary offerings; and manufacturers of recommended components.　　The ams OSRAM Global Partner Network already includes more than 40 partners offering advanced lighting and sensing solutions for automotive, industrial, consumer and medical applications. ams OSRAM welcomes new members to the network to expand the range of expertise and capabilities available to its customers.　　Members of the network will benefit from a formal framework for the co-operation with ams OSRAM. This includes direct expert-to-expert interaction with ams OSRAM specialists, training materials and tools; access to samples for early design and testing; mutual promotion of each other’s products in sales collateral, online and on social media; and joint discovery of new business opportunities.

Key word：

AMS

Release time：2023-02-01 11:25 reading：3202 Continue reading>>

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SIT Announced a Dual Channel Local Interconnect Network (LIN) Transceiver--SIT1022Q

　　SIT1022Q is a dual channel Local Interconnect Network (LIN) physical layer transceiver that is compliant with LIN 2.0, LIN 2.1, LIN 2.2, LIN 2.2A, ISO 17987-4:2016 (12V) and SAE J2602 standards. It is mainly suitable for in-vehicle networks with a transmission rate of 1kbps to 20kbps. SIT1022Q controls the state of the LINx bus through the TXDx pin, and can convert the data stream sent by the protocol controller into a bus signal with the best slew rate and waveform shaping to minimize electromagnetic radiation emission (EME). The LIN bus output pin has an internal pull-up resistor. Only when used as a master node, the LIN bus port needs to be pulled up to VBAT through an external resistor in series with a diode. SIT1022Q receives the data stream on the bus through the LINx pin, and transmits the data to the external microcontroller through the receiver’s output pin RXDx.　　SIT1022Q can operate from 5.5V to 18V and supports 12V applications. SIT1022Q has an extremely low quiescent current consumption in sleep mode and standby mode. It can quickly minimize power consumption in the event of a failure. The device can be placed in normal mode via a signal on the pin SLP_Nx.　　PIN CONFIGURATION　　FEATURE　　Compliant with LIN 2.x/ISO 17987-4:2016 (12V)/SAE J2602　　Compatible with K line　　Integrated over-temperature protection function (thermal shutdown)　　Integrated dominant time out function　　Integrated bus pull-up slave termination resistor　　Bus current limiting protection　　Supply undervoltage detection　　Very low power consumption in sleep mode and standby mode　　Support LIN bus remote wake-up　　LIN data transmission rate up to 20kbps　　Available in SOP14 and DFN4.5×3-14 packages

Key word：

Silicon Lot,SIT1022Q

Release time：2023-01-03 15:44 reading：2675 Continue reading>>

Security routers make OT <span style='color:red'>network</span>s secure

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Security routers make OT networks secure

　　The new FL MGUARD 2102 and FL MGUARD 4302 Gigabit security routers from Phoenix Contact combine mGuard security software with powerful hardware.　　They are designed to protect industrial networks against unauthorized access or malware intrusion.　　With their increased data throughput of almost 1,000 Mbps, the security routers provide a higher level of security without any restrictions on data traffic. The mGuard security technology enables you to control and safeguard communication within production networks. The routers are functionally compatible with the current mGuard modules to the greatest possible extent. This makes it easy to use them in existing applications.　　The FL MGUARD 2102 is recommended for machine builders and system manufacturers who require fast integration into the production network in addition to secure remote maintenance. As well as ensuring the security of the OT network infrastructure, the FL MGUARD 4302 enables the efficient management of multiple mGuard security routers within a system.

Key word：

Phoenix

Release time：2022-12-26 16:52 reading：2142 Continue reading>>

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

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

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