IoT

Renesas brings the high performance of Arm Cortex-M85 processor to cost-sensitive applications

Tue, Nov 05, 2024

Renesas has introduced the RA8E1 and RA8E2 microcontroller (MCU). Introduced in 2023, the RA8 Series MCUs are the first to implement the Arm Cortex-M85 processor, enabling them to deliver market-leading 6.39 Coremark/MHz1 performance. The new RA8E1 and RA8E2 MCUs offer the same performance but with a streamlined feature set that reduces costs, making them excellent candidates for high-volume applications such as industrial and home automation, office equipment, healthcare, and consumer products.

The RA8E1 and RA8E2 MCUs deploy Arm Helium technology, Arm’s M-Profile Vector Extension that provides up to a 4X performance boost for digital signal processor (DSP) and machine learning (ML) implementations versus MCUs based on the Arm Cortex-M7 processor. This performance uplift enables applications in the fast-growing field of AIoT where high performance is crucial to execute AI models.

RA8 Series devices integrate low power features and multiple low power modes to improve power efficiency, even while providing industry-leading performance. A combination of low power modes, independent power domains, lower voltage range, fast wakeup time and low typical active and standby currents enables lower overall system power and allows customers to lower overall system power consumption and meet regulatory requirements. The new Arm Cortex-M85 core also performs various DSP/ML tasks at much lower power.

RA8 Series MCUs are supported by Renesas’ Flexible Software Package (FSP). The FSP enables faster application development by providing all the infrastructure software needed, including multiple RTOS, BSP, peripheral drivers, middleware, connectivity, networking, and TrustZone support as well as reference software to build complex AI, motor control and cloud solutions. It allows customers to integrate their own legacy code and choice of RTOS with FSP, thus providing full flexibility in application development. Using the FSP will ease migration of existing designs to the new RA8 Series devices.

Key Features of the RA8E1 MCUs
• Core: 360 MHz Arm Cortex-M85 with Helium and TrustZone
• Memory: 1MB Flash, 544 KB SRAM (including 32KB TCM w/ ECC, 512KB user SRAM with parity protection), 1KB standby SRAM, 32KB I/D caches

• Peripherals: Ethernet, XSPI (Octal SPI), SPI, I2C, USBFS, CAN-FD, SSI, ADC 12bit, DAC 12bit, HSCOMP, temperature sensor, 8-bit CEU, GPT, LP-GPT, WDT, RTC
• Packages: 100/144 LQFP

Key Features of the RA8E2 MCUs
• Core: 480 MHz Arm Cortex-M85 with Helium and TrustZone
• Memory: 1MB Flash, 672 KB SRAM (including 32KB TCM w/ ECC, 512KB user SRAM with parity protection+128 KB additional user SRAM), 1KB standby SRAM, 32KB I/D caches

• Peripherals: 16-bit external memory I/F, XSPI (Octal SPI), SPI, I2C, USBFS, CAN-FD, SSI, ADC 12bit, DAC 12bit, HSCOMP, temperature sensor, GLCDC,2DRW, GPT, LP-GPT, WDT, RTC
• Packages: BGA 224

Availability
The RA8E1 and RA8E2 Group MCUs are available now, along with the FSP software. Renesas is also shipping a Fast Prototyping Board for the RA8E1 and will offer an RA8E2 Evaluation Kit including a TFT Display in early Q1 2025.

https://www.renesas.com

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Omnivision debuts industry’s smallest-footprint sensor for presence detection

Tue, Nov 05, 2024

Omnivision has announced the new OV0TA1B monochrome (mono)/infrared (IR) CMOS image sensor, the first and only solution that fits 3mm module Y dimension and smaller notebook computers, webcams and IoT devices. The OV0TA1B is a low-power device that is ideal for artificial intelligence (AI)-based human presence detection (HPD), facial authentication and always-on (AON) technology.

“Stand-alone 940nm IR cameras are becoming more mainstream, especially in the latest generation of ultrathin-bezel design notebooks that feature personalised AI features and require HPD and facial authentication capabilities,” said Jason Chiang, staff marketing manager computing, Omnivision. “The OV0TA1B is the newest mono/IR sensor in our computing portfolio designed to be a cost-effective, ultra-small-footprint device; it is ideal for HPD and facial authentication in 3mm module Y bezel and smaller designs. The ultra-small size of the OV0TA1B sensor also makes it useful for webcams and IoT devices, like those used for people and traffic counting.”

The OV0TA1B comes in either IR or mono, depending on the customers’ design needs (in cases where the system has another stand-alone RGB camera). It features a 2-micron (µm) pixel based on PureCel pixel technology for high-performance sensitivity and MTF (modulation transfer function), allowing it to maintain the HPD and facial authentication.

The OV0TA1B delivers 440 x 360 resolution at 30 frames per second (fps). It is a low-power 220×180 (2.58mW@3fps) image sensor in a 1/15.8-inch optical format. https://www.ovt.com

 

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Mouser is now shipping the new MCX W series MCUs from NXP Semiconductors

Tue, Oct 29, 2024

The MCX W series are compact, secure, wireless MCUs designed to enable interoperable, scalable and innovative designs for the next generation of smart and secure connected devices in edge, IoT, smart home, building automation and controls, and smart energy applications.

The NXP Semiconductors MCX W series is based on the Arm Cortex-M33 core, offering a unified range of pin-compatible multiprotocol wireless MCUs for Matter, Thread, Bluetooth Low Energy and Zigbee. The MCX W series includes the industry’s first wireless MCU to support the new Bluetooth Channel Sounding standard, which improves the accuracy and security of distance measurement compared to traditional Bluetooth technology for a wide range of applications, such as secure access, asset tracking and indoor wayfinding. With NXP’s Trimension portfolio of ultra-wideband (UWB) secure radar and fine-ranging products, The MCX W series enhances a broad range of market segments and applications in ambient computing. The MCX W series supports both standalone or hosted architectures and is pin- and software-compatible, allowing developers to easily migrate to the part that best fits their use case. The MCX W series is supported by the MCUXpresso Developer Experience.

Also available is the NXP FRDM-MCXW71 development board. The FRDM-MCXW71 is a compact and scalable multiprotocol board for rapid prototyping and easy evaluation of the MCXW71 wireless MCU, with wireless support for Bluetooth LE, Zigbee, Thread, and Matter. This board includes an onboard MCU-Link debugger, industry-standard headers for easy access to the MCU’s I/Os, an accelerometer, a light sensor, and external SPI flash memory.

https://eu.mouser.com

 

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ST adds network-ready convenience and dual-wireless resilience to IoT module

Mon, Oct 21, 2024

ST is making large-scale IoT deployments easier to connect and manage with new enhancements to its cellular data-communications module, accelerating the adoption of sustainable smart grids and smart industry.

The ST87M01 module platform is NB-IoT certified, with an optional state-of-the-art ST4SIM embedded SIM (eSIM) for accessing connectivity services. Furthermore, the modules now come pre-loaded with a Vodafone profile so customers can have quick and easy access to Vodafone’s extensive global connectivity footprint.

Also, ST has added wireless Meter-Bus (wM-Bus) connectivity in the same module, that provides an additional standardised channel, backing up the cellular connection, for collecting data such as household utility consumption. Using wM-Bus can provide cover in case of a cellular network outage and gives flexibility for drive-in and work-in meter readings.

Central to this module’s flexibility is the software-defined radio that ST has specially designed for this device, which enables dynamic switching between cellular NB-IoT and sub-GHz wM-Bus communication modes. This lets the module support a wide variety of use cases and adapt to specific needs including using wM-Bus as backup communication for extra resilience. Further flexibility comes from letting users embed their own code directly in the module for simple applications or connect to a separate host microcontroller in more sophisticated use cases.

In addition, the Vodafone profile is available in the ST87M01 variant that integrates NB-IoT with a multi-constellation GNSS receiver to enable location-based applications such as safety monitoring for remote workers, asset tracking, and general intelligent logistics. The embedded GNSS receiver saves power by operating during NB-IoT sleep time slots. All the ST87M01 module variants are industrial-grade qualified and come with a 10.6mm x 12.8mm package enabling designers to create reliable and cost-effective products with an ultra-compact overall form factor.

By combining location and multi-connectivity options on the same module, the ST87M01 platform can be used for industrial condition monitoring, factory automation, smart agriculture, environmental monitoring, and in smart buildings, smart cities, and smart infrastructure.

The module itself and all the internal components are entirely conceived, designed, and industrialised by ST, which ensures the complete control and management of the bill of materials and supply chain. This represents a unique market offer in terms of product quality, security, and longevity.

The ST87M01 platform is in production now and only available directly from ST. Please contact your local ST sales office for pricing and sample options.

https://www.st.com/st87m01 

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