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IAR Systems I-jet Hardware Debugging Probe Is Now Available

IAR Systems has announced the availability of I-jet, a new in-circuit debugging probe that can be used in conjunction with Embedded Workbench for ARM, IAR C/C++ compiler and debugger tool suite. I-jet provides download speeds of up to 1 MB per second, JTAG and Serial Wire Debug (SWD) clocking at up to 32 MHz (no limit on the MCU clock speed), and Serial Wire Output (SWO) frequencies of up to 60 MHz. I-jet probe is powered by USB and can also power the target board (Up to 400mA) and measure the power consumption accuratly (200 uA @ 200khz). The probe is plug-and-play, and supports automatic core recognition, and direct download into the flash memory. I-Jet supports ARM7, ARM9, ARM11, ARM Cortex-M, ARM Cortex-R4, and ARM Cortex-A5/A8/A9 cores. Serial Wire Viewer (SWV), Embedded Trace Buffer (ETB) and JTAG adaptive clocking are supported and all JTAG signals can be monitored. The probe […]

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25 USD Hacker Friendly Electric Imp “WiFi-ises” Your Coffee Machine

Electric Imp is a device in an SD card form factor that aims at providing Wi-Fi connectivity to household appliances at low cost and bringing the Internet of Things (IoT) closer to reality. The Imp will also connect to a Cloud service handled by the company (which is also called Electric Imp). The device Wi-Fi connection can easily be configured using an iOS or Android smartphone thanks to  BlinkUp, a patent-pending scheme supporting WEP, WPA and WPA2 encryption schemes as well as WPS setup. Electric Imp developers expect this device to save resources (e.g. electricity) by taking into account environmental conditions (e.g. occupancy, temperature..), improve security & safety and overall provide better monitoring and control of devices. For example, this could enable support services to remotely diagnose a device, and provide timely customer support. Here are the Electric Imp hardware specifications: ST Micro STM32 Cortex M3 MCU 802.11b/g/n WiFi 6 […]

ArmSoM CM5 Raspberry Pi CM4 alternative with Rockchip RK3576 SoC
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Getting Ubuntu armel/armhf Rootfs in Ubuntu 12.04

I’ve recently upgraded to Ubuntu 12.04 and this is a great operating system. However, if you do some arm development and expect to be able to install cross libraries (armel/armhf) or easily generate an arm rootfs using the tools you’ve been used to, you’ll be disappointed. In Ubuntu 11.10 (Oneiric), I used xapt and dpkg-cross to retrieve armel libraries, but it’s broken for Ubuntu 12.04, at least on my system. I’ve been told to switch to multiarch because this will be how it’s done from now on. But I soon discovered this is work in progress as quite a few packages are not multiarched yet including python. Ubuntu developers also decided to remove rootstock (which makes sense since xapt/dpkg-cross will be deprecated), so if you want to generate a rootfs the “gool ol’” way (which won’t be supported much longer), you’d have to install an Oneric chroot to run rootstock, […]

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VIA Technologies Announces VIA AMOS-3002 System For Embedded Applications

VIA Technologies has just unveiled the VIA AMOS-3002, a fanless system based on VIA EPIA-P900 Pico-ITX board, targeting embedded applications such as telematics, in-vehicle control, machine to machine controller (M2M), digital signage and kiosks. The VIA EPIA-P900 Pico-ITX board is powered by VIA Eden X2 dual core processor (1GHz) together with VIA VX900H media system processor (MSP) and VIA Chrome 9 video processor which render VIA AMOS-3002 systems capable of handling hardware video decoding for MPEG-2, WMV9 and H.264 codecs at 1080p resolution. Two models are available: AMOS-3002-2D10A1 and AMOS-3002-2D10A1. The latter features a 2.5” SATA hard disk drive bay which is not available in AMOS-3002-2D101A1. Here are the specifications for both VIA AMOS-3002 Models: CPU – VIA Eden X2 @ 1.0GHz Chipset – VIA VX900H Media System Processor Memory – 1x DDR3 1066 204-pin SODIMM socket (Up to 4GB) Storage: 1x CFast Flash disk socket 1 x 2.5” SATA hard […]

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Phytec phyCORE-AM335x System on Module (SOM) Based on TI Sitara AM335x

PHYTEC announced the phyCORE-AM335x System on Module (SOM) powered by Texas Instruments Sitara AM335x Cortex-A8 processor clocked at 720Mhz and PowerVR SGX530 GPU. This SoM targets industrial applications and supports standards such as EtherCAT, Ethernet/IP, PROFINET, PROFIBUS, POWERLINK, SERCOS-III and CANopen. Here are phyCORE-AM335x SOM specifications: TI’s Sitara AM335x ARM Cortex-A8 processors @ 720 MHz (AM3352, AM3354, AM3356, AM3357, AM3358 and AM3359) PowerVR SGX530 Graphics (AM3359, AM3358, AM3354 only) 512 MB DDR3, 512MB/1GB NAND, 8 MB SPI Flash, 32 KB EEPROM 6x  UARTs, 3x I2C, 2x McASP, 2x SPI, 2x CAN 2x USB OTG 2x 10/100/1G Ethernet (Gigabit PHY on carrier board) 24 bpp TTL or LVDS 44 x 50 mm form factor -40 degrees to +85 degrees C temperature range Linux, Compact 7, Android The phyCORE-AM335x SOM will be available in a PHYTEC Rapid Development Kit (RDK) including: phyCore-AM335x SOM A carrier board Board support packages (BSP) Demo images […]

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74 USD AllWinner A10 Android 4.0 Mini PC

A cheap white brand Android 4.0 USB/HDMI Stick based on AllWinner A10 has started to show up in Chinese websites. Initially, I thought it was like a low cost version of FXI Tech Cotton Candy (which will start shipping this month), but as you can see in the image below, the HDMI port is female so you’d still need a HDMI cable. The hole next to the USB port should be for the power supply, so this device is apparently not powered via USB (TBC). Connect a wireless mouse and keyboard to the device, the power supply, and an HDMI cable to your TV, and you’ve got yourself a cheap PC running Android 4.0. Since this is based on AllWinner A10, you could also insert a microSD card with Ubuntu, Debian or your other favorite Linux distribution and have yourself a Linux PC. Here are the specifications of the device […]

Rockchip RK3568, RK3588 and Intel x86 SBCs and SoMs in 2025
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Energy Micro EFM32 Tiny Gecko (Cortex-M3) Starter Kit Unboxing

I’ve been lucky recently, after winning a TI Piccolo controlStick last month, I’ve just received Energy Micro EFM32 Starter Kit (EFM32-TG-STK3300) based on EFM32 Tiny Gecko MCU. This development board include: EFM32 Tiny Gecko Cortex-M3 MCU 8×20 LCD A light sensor A touch slider A battery compartment SEGGER J-Link mini USB port 2 Button + 1 reset button 1 User LEDs 2 expansion ports. Lots of through holes to access the different pins of the MCU Today, I’ll just show the content of the kit and next time, I’ll post more about the things I’ve done with it. Here’s the package of the EFM32 Starter Kit. The 2 gecko eggs were not included… Actually, those are house geckos eggs which are smaller than real geckos. We’ve got those here as well, but there are very shy, whereas house geckos just run around the walls and ceilings all day. Well, it’s […]

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Atmel Unveils AVR XMEGA C, tinyAVR ATtiny1634 and AVR UC3 L3/D4 MCUs

Atmel announced 14 new Atmel AVR microcontrollers divided into 4 families: AVR XMEGA C, tinyAVR ATtiny1634, AVR UC3 L3 and AVR UC3 D4. Atmel AVR XMEGA C MCUs Atmel AVR XMEGA C MCUs are 8-/16-bit general-purpose MCUs with Full-Speed USB, 12-bit ADC, up to 384 KB flash and 32 KB SRAM. They can support Atmel QTouch Library for implementation of capacitive buttons, sliders and wheels functionality. The AVR XMEGA C MCUs consume 700nA in sleep mode with RTC. There 8 new XMEGA C MCUs which target consumer, industrial and home automation applications such as thermostats with display, building and climate control, utility meters with RF and ZigBee connectivity. The smallest XMEGA C MCU (ATxmega16C4), which comes in 44-pin package and has 16KB device, is the cheapest AVR XMEGA device with USB provided by Atmel. You can find further information on Atmel AVR XMEGA C page. Atmel tinyAVR ATtiny1634 MCU Atmel […]

Boardcon EM3562 Rockchip RK3562 SBC with 8 analog camera inputs