Sequans Monarch 2 GM02S LTE IoT module is “5G-ready” for “Massive IoT”

Monarch 2 GM02S 5G-Ready Massive IoT

A couple of days ago, Sequans published a press release announcing the availability of Monarch 2 GM02S “5G-ready” LTE-M/NB-IoT module with power consumption further reduced by 60 percent, featuring an GSMA-compliant integrated SIM (ieUICC), and designed for “Massive IoT” applications. Wait… What is “Massive IoT”? Ericsson explains: Massive IoT refers to applications that are less latency sensitive and have relatively low throughput requirements, but require a huge volume of low-cost, low-energy consumption devices on a network with excellent coverage. The growing popularity of IoT use cases in domains that rely on connectivity spanning large areas, and are able to handle a huge number of connections, is driving the demand for massive IoT technologies. I see… That’s what I used to call LPWAN (Low-power wide-area network) applications, but for sure “Massive IoT” sounds much more cool. Monarch 2 GM02S Let’s go back to the module with Sequans Monarch 2 GM02S key […]

Allwinner H6 SBC offers dual Ethernet, four display outputs, M.2 expansion

Allwinner H6 SBC

While the processor was introduced in 2017, there are only a few Allwinner H6 SBC’s on the market with, for instance, Orange Pi 3 or Pine H64 boards, and it never became as popular as solutions based Allwinner H3 processor. But Boardcon has now launched its own Allwinner H6 SBC targeting professionals with Boardcon EMH6 board combining a carrier board and a computer-on-module that can be integrated into products. Boardcon EMH6 specifications: Core module SoC – Allwinner H6 quad-core Arm Cortex A53 processor with Arm Mali-T720 GPU with support for OpenGL ES3.1/3.0/2.0/1.1 System Memory – 1GB LPDDR3 Storage – 8GB eMMC Storage – MicroSD card slot, M.2 slot for NVMe SSD Video Output 1x HDMI 2.0a up to 4Kp60 1x CVBS interface 1x RGB interface or 2x eDP interface via NCS8801S RGB-to-eDP converter Backlight header Camera – 24-pin connector compatible with 13MP OV13850 camera sensor Audio – Optical S/PDIF output, […]

SolidRun launches i.MX 8M Plus SOM and devkit for AI/ML applications

SolidRun already offers NXP based solutions with AI accelerators through products such as SolidRun i.MX 8M Mini SoM with Gyrfalcon Lightspeeur 2803S AI accelerator, or Janux GS31 Edge AI server with NXP LX2160A networking SoC, various i.MX 8M SoCs and up to 128 Gyrfalcon accelerators. All those solutions are based on one or more external Gyrfalcon AI chips, but earlier this year, NXP introduced i.MX 8M Plus SoC with a built-in 2.3 TOPS neural processing unit (NPU), and now SolidRun has just unveiled the SolidRun i.MX 8M Plus SoM with the processor together with development kits based on HummingBoard carrier boards. Specifications: SoC – NXP i.MX 8M Plus Dual or Quad with dual or quad-core Arm Cortex-A53 processor @1.6 GHz (industrial) / 1.8 GHz (commercial), with Arm Cortex-M7 up to 800MHz, Vivante GC7000UL 3G GPU (Vulkan, OpenGL ES 3.1, OpenCL 1.2), 2.3 TOPS NPU, 1080p60 H.264/H.265 video encoder, 1080p60 video […]

Reading Vehicle OBD-II data through CAN within a containerized application in Embedded Linux

telematics applications overview-GNSS CAN Cloud embedded Linux

CNXSoft: This is a guest about OBD-II and CAN support in embedded Linux by Andre Márcio de Lima Curvello, Sr. FAE and Technical Evangelist, Toradex A connected world makes it possible to track your online orders being shipped to your home through your smartphone in real-time, and getting information about your vehicle such as tire pressure, outside temperature, and even details like if a lamp is broken – has begun to be possible via smartphones in modern vehicle models. But behind the magic of knowing where the truck carrying your package is at all times and other details of the vehicle, there is a very complex world made of embedded devices ‘talking’ to each other so the information makes its way from the device to you. In this article, you will learn how to create an application to communicate with a vehicle through CAN via the OBD-II standard. We use […]

Quantum Mini devkit combines Allwinner H3 M.2 SoM with baseboard

Quark-N Allwinner H3 M.2 SoM

Quantum Mini may be yet another Allwinner H3 Arm Linux development board, but what makes it special is the company used the standard M.2 Key-A 22mm form factor to create Quark-N Allwinner H3 system-on-module with storage and memory. The kit is completed by Atom-N baseboard that takes the M.2 module and offers two USB 2.0 ports, one USB Type-C port, as well as 2.4 GHz WiFi 4 and Bluetooth 4.0 connectivity, and a MicroSD port for additional storage. Quantum Mini development kit specifications: Quark-N SoM SoC – Allwinner H3 quad-core Cortex-A7 @  1GHz with Mali-400MP2 GPU System Memory – 512MB LPDDR3 Storage – 16GB eMMC flash Interfaces exposed via M.2 connector – Ethernet, SPI, I2C, UART, GPIO, MIC, LINEOUT Dimensions – 31 x 22mm (6-layer PCB) Temperature Range – 0-80°C Atom-N baseboard M.2 socket for Quark-N system-on-module Storage – MicroSD card slot Display – TFT display Connectivity – 2.4 GHz […]

XuanTie C906 based Allwinner RISC-V processor to power $12+ Linux SBC’s

Allwinner XuanTie C906 RISC-V Processor

Alibaba unveiled Xuantie-910 RISC-V core (aka XT910) in 2019 for powerful SoC with up to 16 cores, but an update in 2020 revealed the company planned to have a complete RISC-V core family for a wide range of application from low-power microcontrollers to server SoCs. At the time, I just assumed the company planned to keep their cores to themselves, but time proved me wrong as T-Head, the Alibaba subsidiary in charge of developing RISC-V cores, started to cooperate with Allwinner to develop open-source processors, which should lead to low-cost Linux capable RISC-V SBC very soon according to a tweet from Sipeed. Good News: We get first chip which based on XuanTie C906 (RV64GCV), it have abundant interface (HDMI/RGB/DVP/MIPI/GMAC/…), and will be able to run Debian system.Last and most important, the basic dev board price is start at 12.5$ (1% of HiFive Unleashed)。 pic.twitter.com/EJbXTJ5eMb — Sipeed (@SipeedIO) November 6, 2020 […]

Kontron unveils RK3399K(Pro) SMARC 2.1 Module with up to 8GB RAM

RK3399K SMARC CPU Module

Embedded systems companies tend to use processors from established firms like NXP Semiconductors or Texas Instruments, we’ve seen few systems-on-module based on processors from Amlogic, Rockchip, or Allwinner which are popular on this blog due to their value proposition. One of the reasons was/is software support, but this has improved over the years, and the other is the lack of wide temperature range parts plus potential concerns about long term supplies. I’m not aware of any industrial/extended temperature range part from Amlogic, but Allwinner provides A40i/A60i industrial temperature range processors, and Rockchip RK3399K supports an extended commercial temperature range between -20 to +85°C. Kontron selected the latter for their first-ever Rockchip powered system-on-module: the SMARC-fA3399 SMARC 2.1 module. SMARC-fA3399 SoM specifications: SoC – Rockchip RK3399K hexa-core processor with two Cortex A72 cores @ 1.8/2.0 GHz (wide temp vs commercial temp), four Cortex-A53 cores @ 1.4/1.6 GHz, Arm Mali-T860MP4 GPU System […]

PolarBerry is a Compact, Linux-capable RISC-V FPGA SBC and module (Crowdfunding)

PolarBerry RISC-V SBC & Module

SiFive may just have announced a mini-ITX motherboard for RISC-V PCs, but if you’d like a RISC-V Linux platform in a more compact form factor, Sundance PolarBerry may better fit your requirements, albeit the board will target different use cases. Powered by Microchip PolarFire RISC-V SoC FPGA, PolarBerry is both a single board computer with Gigabit Ethernet and 40-pin GPIO header, as well as a system-on-module thanks to three Samtec board-to-board connectors. PolarBerry specifications: SoC – Microsemi PolarFire FPGA MPFS250T-FCVG484 penta-core processor with 1x RV64IMAC monitor core, 4x RV64GC application cores, FPGA fabric with 254K x logic elements (4LUT + DFF), 784 x math blocks (18 x 18 MACC), and 16 x SERDES lanes at 12.5 Gbps; 12 W maximum power consumption System Memory –  4 GB of 32-bit wide DDR4 memory Storage – 4GB eMMC flash, 128 Mbit SPI Serial NOR flash for boot image Networking – Gigabit Ethernet […]

Memfault IoT and embedded debugging platform