Sector News

Advantech announces innovative solutions for edge computing and industrial applications

Wed, May 08, 2024

Advantech has introduced a new lineup of industrial servers and solutions, harnessing the power of the 14th Generation Intel Core processors. This lineup includes the ASMB-588, ASMB-788, ASMB-610V3, and the Edge Accelerator Server HPC-6120 +ASMB-610V3, all designed to improve industrial and edge computing applications.
Leveraging Intel Core processors, their products are built to handle demanding AI and graphics workloads. These processors merge the performance profile and power ranges of the 13th Gen Intel Core mobile processors with LGA socket flexibility, making them ideal for developers needing high AI and graphics performance.
Support up to DDR5 5600 module, the new range maximises performance and efficiency. The inclusion of PCIe 5.0 and Thunderbolt 4 ensures future-proof connectivity and fast data transfer rates, catering to diverse industrial requirements.

ASMB-588: This micro-ATX server board, ideal for Automated Optical Inspection (AOI) systems, integrates with HPC-5000 or HPC-7120 chassis. It features 1 x PCIe 5.0 x16 and 2 x PCIe 4.0 x4 slots, providing substantial bandwidth and flexibility for various industrial applications. The board’s construction and thermal design ensure reliable performance in demanding environments.

ASMB-788: Tailored for high-end industrial applications requiring exceptional computing power, this ATX server board offers a unique blend of performance and expandability. It includes 1 x PCIe 5.0 x16, 2 x PCIe 4.0 x4, 5 x SATA 3.0, and 1 x M.2 connector (PCIe), making it adaptable for complex tasks like machine learning and data analysis. Compatible with HPC-8208 and HPC-7484 chassis, the ASMB-788 stands out for its high connectivity and storage options, providing industrial systems with the scalability they need for future growth.

Edge Accelerator Server HPC-6120 + ASMB-610V3: This server solution is optimised for tackling the unique challenges of edge computing. Supporting up to 4 expansion cards, it is designed to complete data-intensive tasks efficiently. It’s an ideal fit for AI, industrial broadcasting, and complex computational workloads. This 1U edge accelerator server provides a combination of processing power and storage capacity, enabling rapid data processing and real-time analytics in edge deployments.

http://www.advantech.com

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CHERRY Embedded Solutions and Rutronik conclude distribution agreement

Tue, May 07, 2024

Rutronik and Cherry Embedded Solutions have concluded a distribution agreement for the whole of Europe with immediate effect. As a result, Rutronik is expanding its product portfolio of Rockchip-based System-on-Modules (SoM) and single-board computers (SBC) for professional and industrial customers in the future markets of robotics, digital healthcare, smart displays, and intelligent video surveillance.

CHERRY Embedded Solutions is part of the listed Cherry SE and can thus leverage the parent company’s global network for purchasing and qualifying electronic and mechanical parts, as well as for launching its products on different markets. The company provides products certified according to the Common Criteria for Information Technology Security Evaluation (ISO/IEC 15408) and fulfils, for example, the high security standards of the German healthcare telematics infrastructure.

“In the context of advancing automation and digitalisation in industrial and professional environments, whether for autonomous mobile robots (AMR) or human-machine interfaces (HMI), there is particularly high demand for reliable processing modules with the corresponding computing power,” explains Anja Schaal, Senior Manager Product Marketing at Rutronik. “Through our partnership with CHERRY Embedded Solutions, we can now offer high-quality modules tailored to support a wide range of smart applications, including autonomous mobile robots, smart medical devices, and professional, intelligent high-resolution displays for intuitive user interaction. A further advantage is the geographical proximity to existing and future customers, which ensures that the products are always available for the European market.”

“We design, develop and produce our products at our company site in Vienna, in the heart of Europe. This enables us to guarantee high product quality and compliance with the highest security standards,” says Dr. Stefan Roth, Managing Director of CHERRY Embedded Solutions. “With Rutronik, we have a distribution partner who knows the requirements and challenges of manufacturers of smart products inside out. Their in-depth understanding of processes along the entire product life cycle is also an enormously valuable quality that will help us to expand our European customer base.”

CHERRY Embedded Solutions’ core products include the JAGUAR SBC-RK3588-AMR, a single-board computer (SBC) developed for the mass production of cost-effective autonomous mobile robots (AMR) and TIGER SOM-RK3588-Q7, which has been specially designed to meet the needs of demanding, smart IoT applications.

Both products are based on Rockchip’s high-end, low power SoC RK3588. It features cryptographic extensions, supports deep learning frameworks, and provides interfaces to multiple high-resolution cameras. To significantly shorten the product development cycle of customers, both modules are accompanied by a board support package (BSP) that is optimally configured to the hardware and runs on Linux supported by Debian and Yocto.

https://embedded.cherry.de

https://www.rutronik.com

 

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ST reveals automotive-grade inertial modules

Tue, May 07, 2024

ST has introduced the ASM330LHBG1 automotive 3-axis accelerometer and 3-axis gyroscope module with a safety-software library that enables a cost-effective solution for functional-safety applications.

The ASM330LHBG1 is AEC-Q100 Grade-1 qualified for the ambient operating temperature range -40°C to 125°C, allowing use such as next to the engine compartment and in areas exposed to sunlight. The modules deliver high accuracy and reliability for systems such as vehicle navigation, body electronics, in driver support and highly automated driving systems. Typical uses include support for precise positioning in navigation systems, digitally stabilising cameras, lidars, and radars, and in active suspension, door modules, vehicle-to-everything (V2X) applications, adaptive lighting, and motion-activated functions.

Equipped with ST’s machine-learning core (MLC) and programmable finite state machine (FSM), the ASM330LHBG1 can run artificial intelligence (AI) algorithms in the sensor to provide smart functionality at very low power. This IMU is pin-to-pin compatible and shares the same configuration of registers as ST’s automotive IMUs with a lower operating temperature range, permitting a seamless upgrade.

In addition, the modules contain embedded temperature compensation, which ensures stability over wide-ranging operating conditions, and provide a six-channel synchronised output to enhance the accuracy of dead-reckoning algorithms. There are also I²C, MIPI I3C, and SPI serial interfaces, smart programmable interrupts, and a 3KB FIFO that eases managing sensor data to minimise load on the host processor.

The independently tested and certified software adheres to ISO26262 and enables safety-compliant redundancy with two ASM330LHBG1 modules. Fulfilling safety element out of context (SEooC), this combination based on general-purpose hardware supports system certification up to automotive safety integrity level B (ASIL B) . This library provides software for configuring the sensing module, checking for correct operation before starting to acquire data, and handling the acquisition of the data coming from the sensing module. Each of these steps is associated with an error code that provides confirmation if a fault is detected. This solution comprising two identical sensors provides redundancy, checking the data coming from two different sensing sources are consistent.

https://www.st.com/safer-driving-smarter-life

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Mouser and Vishay examine battery management solutions in new eBook

Fri, May 03, 2024

Mouser Electronics, has released a new eBook in collaboration with Vishay Intertechnology, analysing the considerations and challenges of designing high-performing and reliable battery systems.

The eBook, 8 Industry Experts Discuss Battery Management Solutions, focuses on the battery management system (BMS), which is the electronic control circuit that monitors and regulates the charging and discharging of batteries. The BMS informs the systems of the state of charge (SOC) of the battery, ensures that the conditions are optimal for the battery’s state of health (SOH), and protects the battery from fault conditions that could damage it. The eBook explores proper BMS design and the ways that Vishay helps its customers achieve the best performance and reliability for battery systems. The eBook also includes examples from Vishay’s wide portfolio of discrete semiconductors and passive components to help extend battery life, improve operational safety, and ensure reliable data acquisition for precise battery health monitoring and efficient power management.

The Vishay VOA300 linear optocoupler is ideal for voltage and current monitoring in the BMS of electric and hybrid vehicles (EV/HV). The automotive-qualified device provides a fast response, gain stability, and isolation voltage greatly improved over other standard optocouplers.

The WSBE series Power Metal Strip shunt resistors feature a very low resistance and a high power capability, enabling high current sensing to 1825A. These resistors are made using a proprietary processing technique that reduces the temperature coefficient of resistance (TCR) to < 10 ppm/°C across the entire operating range of -55 °C to 150 °C. The devices also offer many other advantageous attributes that help simplify BMS designs and reduce costs while achieving the highest levels of performance.

Vishay surface-mount PAR transient voltage suppressor (TVS) diodes protect sensitive electronics against voltage transients induced by inductive load switching and lightning on ICs, MOSFET, and signal lines of sensor units for automotive.

Consisting of two resistors integrated into one surface mount molded package, the CDMM thick film chip dividers provide a single-component replacement for multiple discrete resistors used in high voltage up to 1.5KV divider applications. The space-saving AEC-Q200 qualified device is optimised for high-power DC/DC converters and inverters in electric automobiles.

The Vishay / Siliconix SQ automotive power MOSFETs are AEC-Q101 qualified and produced using a special process design that is optimised for use in the automotive industry. These devices are available in a wide range of package options for design flexibility.

To read the new eBook, visit https://manufacturers.mouser.com/vishay-automotive/vishay-8-industry-experts-discuss-battery-management-solutions-2/

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