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$200 Direct Insight Triton-TXEK EvalKit for iMX6 Features Freescale i.MX 6Quad Processor

With Wandboard Quad, SABRE Lite, Nitrogen6X, and UDOO, we already have some choices when it comes to low cost Freescale i.MX 6Quad development platforms. Direct Insight, a British company, has developed another called TRITON-TXEK EvalKit for iMX6 that includes the company’s Triton-TX6Q SoM, for 130 GBP (about $200). TRITON-TXEK for iMX6 Specifications: Specifications listed for the Triton-TXEK evaluation kit include: SoC – Freescale i.MX 6Quad quad core Cortex-A9 @ 1GHz with Vivante GC2000 GPU System Memory – 1GB DDR3 Storage – 128MB NAND flash + SD card slot Display – TFT panel via 40-pin LCD flat cable header Connectivity – 10/100M Ethernet USB – USB 2.0 host + mini USB 2.0 host/device Serial – RS232on D-Sub connector Audio – 3.5mm headphone jack Power Supply – 5V Dimensions – Module: 68mm × 31mm, Baseboard: Who knows… Operating temperature – -20 to 70°C Since the only easily accessible display option is the […]

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12MB Minimal Image for Raspberry Pi using the Yocto Project

Last year, I wrote instructions and provided a download link about a minimal image for Raspberry Pi based on Raspbian. The compressed image is 84MB, and the good thing about it is that you can just use apt-get to install packages. The problem is that it’s not actually that small as once it is uncompressed the rootfs is still a massive 414 MB. So today, I’ll explain how to create a smaller (and custom) image using the Yocto Project, a platform that let you build an embedded Linux distribution matching exactly your project’s requirements. Other advantages are that the build is configurable with config files, so it’s easily reproducible with a few command lines, and it might turn out to be useful to learn more about the Yocto Project as many boards and SoC are now making use of the framework, including Freescale i.MX6 (Wandboard, Olinuxino-imx233, Sabrelite, etc…), the Beagleboard, […]

ArmSoM RK3588 AIModule7 NVIDIA Jetson Nano-compatible SOM
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F&S armStoneA9 is a Pico-ITX Board Powered by Freescale i.MX 6 with up to 4GB RAM

F&S Elektronik Systeme GmbH has announced the armstoneA9, a pico-ITX board featuring Freescale i.MX 6 Solo/Dual or Quad Cortex A9 processor with up to 4GB DDR3 SDRAM, and 128 MB flash (1GB+ flash optional) that available in both commercial and industrial temperature range. Here are the specifications of the board: SoC – Freescale i.MX 6 Cortex-A9 (Quad-/ Dual-/ Single-Core) @ 800 MHz to 1 GHz with Vivante GPU System Memory – 1GB (standard version) to 4 GB DDR3 SDRAM Storage – 128MB Flash (1GB+ optional), micro-SD Card Slot, and SATA interface Display: up to SVGA (800 x 600, 65536 colors) via RGB up to WUXGA (1920 x 1200, 18Bit/ 24Bit) via 2x LVDS up to FullHD (1920 x 1080, 24Bit) via HDMI Touch Panel – 4-wire, analogue resistive and PCAP-Touch Interface via I2C Interfaces: 1x 10/100/1000MBit Ethernet 3x Serial (2x RS232, 1x TTL 3.3V Level) 1x USB 2.0 Host, 1x […]

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How to Access the Serial Console in HI802 / GK802 mini PC

One of the advantage of HiAPad Hi802 (aka Zealz GK802) is that it provides access to UART and I2C pins via through holes on the board. UART4 Tx and Rx pins give you access to the serial console which is a must for bootloader (U-boot), and kernel development or for debugging. The first thing is the open the casing and locate the debug pins on the board. The very best way is probably to solder a pin header, but since I don’t have header, nor soldering iron, I’ve done it the “MacGyver” way with 3 wires connected to TxD, RxD and GND, and some sticky tape. You can now insert the other side of the wires into your USB to TLL debug board (GND <-> GND, Tx <-> Rx, and Rx <-> Tx), and connect it to your Windows or Linux PC. The serial board should be recognized as a […]

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VIA Announces VIA VAB-800 Pico-ITX Board Based on Freescale i.MX537 Processor

VIA Technologies has announced the VIA VAB-800 Pico-ITX board powered by a Freescale i.MX537 (ARM Cortex A8) processor clocked at 800MHz or 1GHz depending on the requirements, with 1GB DDR3-800 SDRAM and support for eMMC Flash with a capacity of up to 64 GB. The VIA VAB-800 is an industrial board that can operate in a wide temperature range and targets high-end industrial and in-vehicle embedded applications. Here are the specs of the board: Processor – Freescale Cortex-A8 single core iMX537 @800MHz System Memory – 1GB DDR3-800 SDRAM, using 128M x16 memory devices Flash – eMMC Flash, up to 64GB Graphics  – Supports two independent, integrated graphics processing units: an OpenGL® ES 2.0,  3D graphics accelerator and an OpenVG™ 1.1 2D graphics accelerator Ethernet – SMSC LAN8720A 10/100 PHY transceiver with HP Auto-MDIX support Audio – Freescale SGTL5000 low power stereo codec with headphone amp HDMI – Silicon image SiI9024A […]

SOMDEVICES uSMARC module Renesas RZ V2N
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SOMDEVICES µSMARC RZ/V2N system-on-module packs Renesas RZ/V2N MPU in a 82x30mm “micro SMARC” form factor

SOMDEVICES µSMARC RZ/V2N is a system-on-module powered by the Renesas RZ/V2N AI MPU and offered in a micro SMARC (µSMARC) form factor that’s quite smaller at 82x30mm than standard 82x50mm SMARC modules. The company told CNX Software it’s still 100% compatible with SMARC 2.1 with a 314-pin MXM 3.0 edge connector. It’s also cost-effective with a compact PCB and can be used in space-constrained applications. The µSMARC features up to 8GB LPDDR4, up to 128GB eMMC flash, two gigabit Ethernet PHY, and an optional WiFi 5 and Bluetooth 5.1 wireless module. µSMARC RZ/V2N specifications: SoC – Renesas RZ/V2N CPU Quad-core Arm Cortex-A55 @ 1.8 GHz Arm Cortex-M33 @ 200 MHz GPU – Arm Mali-G31 3D graphics engine (GE3D) with OpenGL ES 3.2 and Open CL 2.0 FP VPU – Encode & decode H.264 – Up to 1920×1080 @ 60 fps (Renesas specs, but SOMDEVICES also mentions up to 4K @ 30 […]

Rockchip RK3568, RK3588 and Intel x86 SBCs and SoMs in 2025
RoboDesigner SBC designer program 3D view
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Compulab RoboDesigner – Design and order a custom SBC within one hour from your web browser

Compulab RoboDesigner is a new web-based tool and service that allows you to design and or a custom SBC using one of Compulab’s system-on-module within about one hour instead of going through the more lengthy process of designing a carrier board by yourself. I’ve given it a try, and it’s really easy to use even if you don’t have any engineering skills. It’s very similar to Gumstix Geppetoo introduced in 2013 for Overo SoMs, and now called Upverter with support for a wider range of modules including Raspberry Pi Compute Modules. The first step is to go to https://robo-designer.com/ and click on Select Functions. Right now, the selection of SoMs is rather limited because there’s only one: CMiMX8M C-Lab CORE with an NXP i.MX 8M Mini processor, 2GB of RAM, and a 16GB eMMC flash. You can then select the I/O modules you want from the list with the remaining […]

AAEON RICO-3568 Pico-ITX Plus board
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AAEON RICO-3568 is a Pico-ITX Plus board powered by a Rockchip RK3568 SoC

AAEON RICO-3568 is a Pico-ITX Plus single board computer powered by a Rockchip RK3568 quad-core Cortex-A55 AI SoC, up to 8GB LPDDR4, 16GB eMMC flash, four display interfaces (HDMI, LVDS, eDP, MIPI DSI), gigabit Ethernet, and various expansion headers for industrial applications. Most have already heard about the Pico-ITX form factor, but it’s the first time I’ve ever come across a Pico-ITX Plus board. It looks like it’s an AAEON-specific “standard” right now, with the Pico-ITX Plus boards (100x80mm) being slightly wider than Pico-ITX SBCs (100x72mm). AAEON RICO-3568 specifications: SoC – Rockchip RK3568 CPU – Quad-core Cortex A55 processor at up to 2.0 GHz GPU – Mali G52 GPU with support for OpenGL ES 1.1/2.0/3.2, OpenCL 2.0, Vulkan 1.1 VPU 4Kp60 H.264, H.265, VP9, 1080p60 MPEG-4/-2/-1, VP8, and VC1 video decoder 1080p60 H.264/H.265 video encoder AI accelerator – 0.8 TOPS NPU System Memory – 2GB, 4GB, and 8GB LPDDR4 Storage […]

Boardcon CM3588 Rockchip RK3588 System-on-Module designed for AI and IoT applications