Acelink SM81 is a compact (50x36mm) system-on-module based on the MediaTek Filogic 820 (MT7981A/B) processor with WiFi 6 and Ethernet connectivity designed for IoT applications such as routers, access points, and gateways. The wireless module ships with up to 1GB DDR4 memory, a 2MB NOR flash for the bootloader, a 32GB eMMC flash for Linux or an optional NAND flash, and exposes various I/Os such as gigabit Ethernet, USB 3.0, PCIe 2.1, UART, and more through castellated holes. Acelink SM81 specifications: SoC (one or the other) MediaTek MT7981AA (Filogic 820) dual-core processor @ 1.3 GHz MediaTek MT7981BA (Filogic 820) dual-core processor @ 1.3 GHz without PCIe interface System Memory – 1GB DDR4 @ 2133 Mbps Storage 2MB NOR flash for bootloader 16GB or 32GB eMMC flash for main OS (OpenWrt) Footprint for NAND flash Wireless Radio Mode – 2.4GHz 2×2 + 5GHz 3×3 MIMO via MT7976CN RF IC Radio Frequency […]
STMicro ST4SIM-300 eSIM complies with SGP.32 GSMA eSIM Standard for IoT
STMicroelectronics has recently released the ST4SIM-300 eSIM, the first embedded SIM (eSIM) IC that complies with the new GSMA eSIM IoT Technical Specification (SGP.32). The chip is fully compliant with remote SIM provisioning of the GSMA eSIM IoT standards, so it works with 2G, 3G, 4G (LTE), CDMA, NB-IoT, and Cat-M networks. It is designed for small IoT devices and allows system operators to remotely program device subscriber identities over the air (OTA), making it a plug-and-play solution for seamless integration and management. Previously, we have written about Hologram’s IoT eSIM Chip that provides global connectivity and comes with 2FF, 3FF, 4FF, and Mff2- M2M form factors. We have also written about the Conexio Stratus Pro battery-powered nRF9161 development kit that supports eSIM as an option. ST4SIM-300 eSIM specifications Microcontroller – ST33K1M5M 32-bit Arm Cortex-M35P MCU Designed based on eSIM + eSE (embedded Secure Element) I/O Asynchronous serial I/O port […]
MW-100-NAS Intel N100 motherboard features six SATA ports, two M.2 PCIe sockets, 2.5GbE and 10GbE interfaces
The MW-100-NAS mini-ITX motherboard is powered by an Intel Processor N100 Alder Lake-N CPU and seems especially suited for NAS (networked-attached storage) applications with six SATA connectors, two M.2 Key-M sockets for NVMe drivers, one 10GbE port, and two 2.5GbE RJ45 jacks. The motherboard supports up to 32GB DDR5 memory, features HDMI and DisplayPort video output ports, a COM port header, and plenty of external and internal USB interfaces. It takes power from a standard ATX connector. NW-N100-NAS motherboard specifications: SoC – Intel Processor N100 quad-core Alder Lake-N processor @ up to 3.4 GHz (Turbo) with 6MB cache, 24EU Intel HD graphics @ up to 750 MHz; TDP: 6W System Memory – Up to 32GB DDR5-4800 via SO-DIMM socket Storage 2x M.2 sockets for NVMe SSDs onboard 6x SATA connectors MicroSD card slot Video Output – 1x HDMI, 1x DisplayPort Networking 2x 2.5GbE RJ45 ports via Intel i226-V controllers 1x […]
Panthor open-source driver achieves OpenGL ES 3.1 conformance with Arm Mali-G610 GPU (RK3588 SoC)
Collabora has just announced that the Panthor open-source GPU kernel driver for third-generation Arm Valhall GPUs (Arm Mali-G310, Mali-G510, Mali-G610, and Mali-G710) has now achieved OpenGL ES 3.1 conformance with the Arm Mali-G610 GPU found in the Rockchip RK3588 SoC. Just a few days ago, Linux 6.10 was released with “support for Mali CSF-based GPUs found on recent Arm SoCs from Rockchip or Mediatek”, as expected from the earlier article entitled “Panthor open-source driver for Arm Mali-G310, Mali-G510, Mali-G610, and Mali-G710 GPUs to be part of Linux 6.10” published last March. But this did not say anything about the level of support for the Valhall GPU since it’s common for new hardware to be added with minimal support, and OpenGL ES 3.1 compliance means it’s ready for business… Collabora’s announcement explains this was tested on a Radxa Rock 5B single board computer: The conformance tests ran on a Rock5b board […]
ASRock IMB-A8000 industrial Ryzen Embedded 8000 mini-ITX motherboard takes up to 96GB DDR5 RAM
ASRock Industrial recently launched the IMB-A8000, an industrial and embedded motherboard in a mini-ITX form factor. As an embedded motherboard, it is powered by AMD Ryzen Embedded 8000 series APU which features 8 cores and 16 threads, built with 4nm technology, and including a 16 TOPS AI accelerator. The motherboard supports up to 96GB of dual-channel DDR5-5600MHz memory and includes one 2.5GbE LAN port and one GbE LAN port. With a wide temperature range of -20ºC to 70ºC this motherboard can be used in applications like manufacturing, robotics, machine vision, and more. Previously we have seen SolidRun introduce the Bedrock R8000 industrial PC built around the Ryzen Embedded 8000 APU family. Other than that we have written about other Ryzen Embedded mini-ITX motherboards/SBCs such as the Flex Logic InferX Hawk combining an AMD Ryzen Embedded R2314 SoC with AI accelerators, the DFI RNO171 with Ryzen Embedded V2000 family, or more […]
RK3568-based MYC-LR3568 system-on-module comes with up to 8GB RAM, 32GB storage for cost-sensitive Edge AI applications
MYIR Tech has announced the release of the Rockchip RK3568-based MYC-LR3568 Edge AI system-on-module (SoM) offered in a compact 381-pin expansion LGA package design. It features up to 8GB LPDDR4 RAM, 32GB eMMC flash storage, a power management integrated circuit, and various connectivity options. The base configuration of the MYC-LR3568 system-on-module offers only 2GB RAM and 16GB storage but the module supports up to 8GB RAM and 32GB eMMC storage. It supports several video codecs, including 4K 60fps H.265/H.264/VP9 decoding and 1080P 60fps H.265/H.264 encoding, for high-quality video playback and recording. The MYC-LR3568 SoM works with Debian and Linux operating systems. It is designed for cost-sensitive industrial applications including but not limited to IoT gateways, NVR storage, industrial control, human-machine interface (HMI), cloud terminals, and facial recognition systems. MYIR Tech’s MYC-LR3568 specifications: SoC – Rockchip RK3568 (B2 or J variant) CPU RK3568B2 – Quad-core processor with four Cortex-A55 cores @ 2.0 […]
StackyFi ESP32-S3 board features camera connector, 40-pin GPIO header for Raspberry Pi HAT (Crowdfunding)
SB Components’ StackyFi is an ESP32-S3 WiFi and Bluetooth IoT board with a 40-pin GPIO header compatible with most Raspberry Pi HAT expansion boards and a camera connector for image capture to a microSD card or machine learning applications. The Raspberry Pi Zero-sized board also comes with two USB Type-C ports, one “native” and the other for serial debugging, an IMU sensor, an RGB LED, and Boot and Reset buttons. The board can be powered through one of the USB-C ports or a LiPo battery. It partially builds upon the earlier StackPi board with a Raspberry Pi RP2040 microcontroller. StackyFi specifications: Wireless module – ESP32-S3-WROOM-1 MCU – ESP32-S3 dual-core Tensilica LX7 up to 240 MHz with 512KB SRAM Memory – TBD PSRAM Storage – TBD flash Wireless – WiFi 4 and Bluetooth LE 5 PCB antenna Storage – MicroSD card Camera I/F – FPC connector that works with OV2640 camera […]
SONOFF SWV Review – A Zigbee Smart Water Valve tested with eWelink and Home Assistant
Today, we are going to test and review another new Zigbee product from SONOFF, the SONOFF Zigbee Smart Water Valve (SWV). This is the first water valve built by SONOFF. When it comes to devices related to water control, whether watering plants or opening and closing valves in tanks or pools, many people might be familiar with the SONOFF 4CHPro model, which is a WiFi smart switch that controls solenoid valves with DC or AC power (valve sold separately). The SONOFF SWV is an all-in-one device that integrates both valve control and IoT functionality in one. It is ideal for plant watering around the house or controlling water filling into pools or tanks. Besides being able to set schedules for opening and closing valves, it also has other interesting features. Let’s look at the details. Unboxing the SONOFF Zigbee Smart Water Valve Inside the box, you will find the valve […]