Raspberry Pi

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Microsoft Releases Raspberry Pi 3 Web Simulator Working with Azure IoT Cloud

Microsoft Releases Raspberry Pi 3 Web Simulator Working with Azure IoT Cloud

If you were already following this blog when the first Raspberry Pi launched, you may have tried to emulate a Raspberry Pi and run Fedora in QEMU, as getting a board was a challenge at that time. Microsoft has launched its own Raspberry Pi (3) simulator running in web browsers, connecting to virtual sensors and components using Fritzing, and interfacing with the company’s Azure IoT cloud service. The preview version of the simulator does not allow you customize components on the breadboard, something you’ll be able to do in the release version, so we are stuck with a BMP280 sensor and red LED in the assembly window. on the left. On the top right, we’ve got sample source code written using Node.js to read temperature data from the sensor, push it to an Azure IoT Hub, and blink the LED in the coding area, and finally the integrated console window […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 4 Comments on MASS RPI 07 is a 7″ Industrial Touch Panel PC Based on Raspberry Pi 3

MASS RPI 07 is a 7″ Industrial Touch Panel PC Based on Raspberry Pi 3

MASS GmbH has launched RPI 07, a touch panel PC with a 7″ 800×480 display powered by a Raspberry Pi 3 board, and designed for industrial applications thanks to a 12V to 24V variable power input, aluminum housing, DIO with optocouplers, an optional CAN Bus and more. MASS RPI-07 specifications: SoC – Broadcom BCM2837 quad core ARM Cortex A53 processor @ up to 1.2 GHz with VideoCore IV GPU System Memory – 1GB LPDDR2 Storage – 16GB micro SD SDHC Class 10 Display – 7″ WVGA 800×480 touchscreen display with 250cd/m² brightness, 500:1 contrast, 10-point touch Connectivity – 1x 10/100Mbps Ethernet, 802.11 b/g/n WiFi and Bluetooth 4.2 LE USB – 4x USB 2.0 Optional Interfaces – Real-time clock (RTC), DIO with optocouplers, I²C, CAN, RS232 Power supply – 12 to 24V DC (15W max) via 2-pin terminal with on/off switch Dimensions – 200 x 118 x 48mm (powder coated metal […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Husarion CORE2 STM32 Board for Robotics Projects Works with ESP32, Raspberry Pi 3, or ASUS Tinkerboard

Husarion CORE2 STM32 Board for Robotics Projects Works with ESP32, Raspberry Pi 3, or ASUS Tinkerboard

Husarion CORE2 is a board designed to make robotics projects simpler and faster to complete with pre-configured software and online management. Projects can start using LEGOs, before moving to 3D printed or laser-cut version of the mechanical parts without having to spend too much time on the electronics and software part of the project. Two versions of the board are available: CORE2 combining STM32 MCU with ESP32 WiFI & Bluetooth module, and CORE2-ROS with STM32 instead coupled to a Raspberry Pi 3 or ASUS Tinkerboard running ROS (Robot Operating System). Both solutions share most of the same specifications: MCU -STMicro STM32F4 ARM CORTEX-M4 MCU @ 168 MHz with 192 kB RAM, 1 MB Flash External Storage – 1x micro SD slot USB – 1x USB 2.0 host port with 1A charging capability; 1x micro USB port for debugging and programming via FTDI chip Expansion Headers hRPi expansion header for CORE2-ROS […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Canonical Releases Ubuntu Core 16 for Raspberry Pi 3 Compute Module

Canonical Releases Ubuntu Core 16 for Raspberry Pi 3 Compute Module

Now that Canonical has refocused its development efforts on Cloud and IoT, Ubuntu Core has become even more important for the company, which has just released Ubuntu Core 16 for the Raspberry Pi 3 Compute Module, which is better suited for industrial projects than Raspberry Pi boards, for example thanks to the more resilient built-in storage of CM3 module. Ubuntu Core was already supported on Raspberry Pi 2 & 3, Intel Joule, DragonBoard 410c, Intel NUC, and Samsung Artik boards, as well as KVM to run Ubuntu Core in a virtual environment. One of the advantages of running Ubuntu Core is the availability of snaps and branded app stores, making it easy to provide updates, and promote app for the platform. Screenly is one commercial project that will take advantage of Ubuntu Core on CM3 module for their digital signage applications. You’ll find instructions to get started with Ubuntu Core […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 7 Comments on Diskio Pi 13.3″ Touch Panel Display Kit is Designed for Raspberry Pi and ODROID Boards (Crowdfunding)

Diskio Pi 13.3″ Touch Panel Display Kit is Designed for Raspberry Pi and ODROID Boards (Crowdfunding)

If your project requires a touch panel, there are plenty of solutions for Raspberry Pi and ODROID boards, with Hardkernel even selling ODROID-VU8C fully integrated touch panel display. However, most display kits require you to make your own case, and feature smaller displays with lower resolution. One developer has however come up with Diskio Pi, a higher-end touch panel kit with a 13.3″ Full HD display that works with the most popular Raspberry Pi and ODROID boards. Diskio Pi specifications: Display –  13.3″ AUO TFT IPS display with 1920×1080 resolution connected via a 30-pin eDP connector ; 330 cd/m2 brightness; 85° viewing angles in all directions. Touch panel – 10-point capacitive touch; G/G structure; USB 2.0 interface; ≥6H surface hardness. Main board: HDMI to eDP driver Stereo sound amplifier USB 2.0 hub with 3x ports:  2x external + 1x internal Battery balance circuit (3S/3S2P) Expansion – Various headers for prototyping […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 4 Comments on IceZero Lattice iCE40 FPGA Board is Designed for Raspberry Pi Zero

IceZero Lattice iCE40 FPGA Board is Designed for Raspberry Pi Zero

Yesterday, we reported about Olimex’s open source hardware iCE40HX8K-EVB board with a Lattice iCE40 (HX8K) FPGA, and today, another iCE40 FPGA board, also open source hardware, appeared in my news feed with Trenz Electronic’s IceZero board specifically designed to be programmed using a Raspberry Pi Zero board. IceZero board specifications: FPGA – Lattice ICE40HX4K with 3520 logic gates, and 80 Kbit memory Storage – SPI Flash for FPGA self-configuration Misc – 3x User LEDs;  User Clock: 100 MHz Expansion – 4x unpopulated PMOD Connectors; 40-pin Raspberry Pi female header Dimensions – 56 x 30.5mm (Raspberry Pi HAT Compatible) The board is supported by icoTC open source FPGA toolchain for Windows and Linux, which you can use in Raspberry Pi Zero (W), and other RPi board with a 40-pin header running Raspbian, as explained in that simple example in Github. Trenz electronic only shared part of the documentation, but you’ll find […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 3 Comments on MangOH Red Open Source Hardware Board Targets Cellular Industrial IoT Applications

MangOH Red Open Source Hardware Board Targets Cellular Industrial IoT Applications

Sierra Wireless has announced MangOH Red open source hardware platform designed for IIoT (Industrial IoT) applications with a snap-in socket for 2G to 4G & LTE-M/NB-IoT modules, built-in WiFi and Bluetooth, various sensors, a 26-pin expansion header, and more. MangOH Red board specifications: Snap-in socket to add any CF3-compatible modules, most of which based on Qualcomm MDM9215 ARM Cortex A5 processor including: Airprime WP7502 LTE Cat 3, HSPA, WCDMA, EDGE/GPRS module Airprime WP7504 LTE Cat 3, HSPA, WCDMA, CDMA module Airprime WP7601 LTE Cat 4 module Airprime WP7603 LTE Cat 4, WCDMA module Airprime WP8548 HSPA, WCDMA, EDGE/GPRS, and GNSS module AirPrime HL6528RD quad-band GSM/GPRS Embedded Wireless Module designed for the automotive market And more…. Storage – micro SD slot Wireless MCU Module – Wi-Fi 802.11 b/g/n and Bluetooth 4.2 BLE module with an ARM Cortex-M4 core MCU (Mediatek MT7697) providing access to real-time I/Os Wireless Connectivity “Accessories” Micro SIM card […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 38 Comments on Micro SD Cards for Development Boards – Classes, Tools, Benchmarks, Reliability, and Tips & Tricks

Micro SD Cards for Development Boards – Classes, Tools, Benchmarks, Reliability, and Tips & Tricks

When people plan to use a development board for their project, they mainly focus on the requirements of the development board itself, as well as software support. But selecting the right accessories may be just as crucial for good performance and stability. For example, selecting a proper power supply is important, as the board may freeze or randmly rebooted if it is not feed at the right voltage. Part of this is selecting a micro USB cable, as you’ll want a cable with minimal resistance which can be achieved through shorter cables and/or a low AWG value. Another important item that can impact stability and performance of the systems are micro SD cards when used to run the operating system in development boards. Understanding SD Card Performance Metrics & Classes Until a few years ago, (Micro) SD cards were primary used to store data such as photos, videos and music. […]

UP 7000 x86 SBC