Kunbus RevolutionPi RevPi Core Raspberry Pi based Industrial Computer Sells with Digital I/O Modules and Fieldbus Gateways

Kunbus, a German company specialized in industrial network solution, has decided to design an industrial system based on Raspberry Pi Computer module supporting variable power supply, a wide temperature range, DIN rail mounting, etc, as well as corresponding digital I/O modules and fieldbus gateways. RevolutionPI RevPi Core specifications: SoC – Broadcom BCM2835 ARM11 processor @ 700 MHz System Memory – 512 MB Storage – 4GB flash Video Output – Micro HDMI port Connectivity – 10/100M Ethernet port USB – 2x USB 2.0 host ports, 1x micro USB port Misc – RTC, 3x status LEDs (2 programmable) Power Supply – 10.7 V to 28.8 V; polarity protection; 4 kV / 8 kV ESD protection & EMI passed (according to EN61131-2 and IEC 61000-6-2), surge and burst tests passed Power Consumption – Max: 10 Watts including 2 x 450 mA USB load; typ.: 4 watts. Dimensions – 96 x 22.5 x 110.5 […]

Nvidia Provides More Details About Parker Automotive SoC with ARMv8 Cores, Pascal GPU

Nvidia demonstrated DRIVE PX2 platform for self-driving cars at CES 2016, but did not give many details about the SoC used in the board. Today, the company has finally provided more information about Parker hexa-core SoC combining two Denver 2 cores, and four Cortex A57 cores combining with a 256-core Pascal GPU. Nvidia Parker SoC specifications: CPU – 2x Denver 2 ARMv8 cores, and 4x ARM Cortex A57 cores with 2MB + 2 MB L2 cache, coherent HMP architecture (meaning all 6 cores can work at the same time) GPUs – Nvidia Pascal Geforce GPU with 256 CUDA cores supporting DirectX 12, OpenGL 4.5, Nvidia CUDA 8.0, OpenGL ES 3.1, AEP, and Vulkan + 2D graphics engine Memory – 128-bit LPDDR4 with ECC Display – Triple display pipeline, each at up to 4K 60fps. VPU – 4K60 H.265 and VP9 hardware video decoder and encoder Others: Gigabit Ethernet MAC Dual-CAN […]

Forlinx Embedded Introduces a Features-packed Freescale i.MX6 Industrial Board

Forlinx Embedded Technology has made several ARM9, ARM11, and Cortex A8 boards in the past, and they’ve now launched their first ARM Cortex-A9 board powered by Freescale i.MX6 Quad processor with 1GB RAM, 8GB eMMC Flash, HDMI, LCD, and LVDS interfaces, mPCIe connector for 3G module, SATA, GPS, CAN bus, RS485 port, and more. The board is composed of a baseboard and a 220-pin CPU module (soldered) with the following combined specifications: SoC – Freescale i.MX6 Quad with 4x ARM Cortex A9 cores @ up to 1.2 GHz and Vivante GC2000 3D GPU System Memory – 1GB DDR3 Storage – 8GB eMMC, SATA connector, and SD card slot up to 32GB Video Output / Display I/F – HDMI  1.4, LCD interface (7″ capacitive touch available), and 2x 8-bit LVDS interface. 4-wire resistive touch. Audio – 1x stereo audio jack, 1x mono microphone jack, 2x speaker headers Camera I/F – 1x […]

Freescale To Give Away StarterTRAK Development Boards for Automotive Applications

Freescale StarterTRAK development boards are based on the company’s Kinetis EA Cortex M0+ MUCs or Qorivva 32-bit MCU targeting automotive applications with support a wide temperature range (–40° to +125°C) and interfaces such as LIN (Local Interconnect Network) and CAN. These development boards can be used for body and security, powertrain, and safety & chassis applications. Freescale has decided to giveaway 60 StarterTRACK development board to random winners, so if you are knowledgeable in this field it could be an opportunity to try the platform. There will be 5 different kits given away, all based on Kinetis MCU: TRK‐KEA8, TRK‐KEA64, TRK‐KEA128, KEA128LEDLIGHTRD and KEA128BLDCRD. Let’s have a closer look at TRK-KEA128 development board. Key features and specifications of  TRK-KEA128 board: MCU – Kinetis KEA128 ARM Cortex M0+ MCU @ 48MHz with 16KB RAM and 128KB flash in a 80 LQFP package On-board openSDA debugging and programming circuit using the PK20DX128 MCU […]

$21 CARAPP APP327 Bluetooth OBD2 Car Diagnostic Scanner

As cars become more sophisticated, you’re now able to access all sort of data from your car and display this on a computer or tablet to diagnose problems or simply to create your own high-end dashboard. This morning, I’ve come across CARAPP APP327, a Bluetooth diagnostic scanner compatible with OBD2 standard (On-Board Diagnostic II), which could can just connect on an OBD2 connector if your car is recent enough. This has been around for many years (since 1996), but I had never heard about this technology until today. Wikipedia OBD2 page explains the OBD2 connector (16-pins) should be within 2 feet (0.61 m) of the steering wheel according to the standard, which also specifies the type of diagnostic connector and its pinout, the electrical signaling protocols available, and the messaging format. After you connect the Bluetooth adapter, you just need to install the applications needed for your platform (e.g. Android, […]

EmbeddedTS embedded systems design