LoStik USB Dongle Adds LoRa Connectivity to any Computer or Linux Board (Crowdfunding)

We’ve covered plenty of hardware with LoRa radio from gateways, to Arduino shields, tracker boards, and mini PCIe cards, but after reading an article on Time4EE this morning, I realized we never wrote about any LoRa USB stick. LoStik – previoulsy LoRa Stick – is an open source hardware USB dongle based on Microchip RN2903 / RN2483 LoRa module, and offered on CrowdSupply for $39. LoStik specifications: USB – USB 2.0 port LoRa Connectivity Microchip RN2903 – 915 MHz for  US, Canada, South America and Australia Microchip RN2483 – 868 Mhz for Europe Receiver Sensitivity – down to -146 dBm TX Power – adjustable up to +18.5 dBm Range – up to 15 km coverage in suburban and up to 5 km coverage in urban areas Misc – 2x user LEDs Power Consumption – 140 ma typical TX, 20 ma idle (with power LED) Dimensions – 80 mm x 25 […]

Air-T Artificial Intelligence Radio Transceiver SDR Platform Combines NVIDIA Jetson TX2 and Xilinx Artix-7 FPGA (Crowdfunding)

If often write about low end and cheaper hardware on this blog, but not in this post. Deepwave Digital Air-T (Artificial Intelligence Radio – Transceiver) is a high-end software defined radio platform with continuous frequency coverage from 300 MHz to 6 GHz. The board combines AD9371 RFIC transceiver providing up to 2 x 2 MIMO of 100 MHz of receiving bandwidth, a Xilinx Artix-7 FPGA, and NVIDIA Jetson TX2 module. Air-T hardware specifications & key features: Software-defined Radio Analog Devices 9371 2×2 MIMO transceiver 2 x RX channels (100 MHz each) 2 x TX channels (100 MHz each) Auxiliary RX channels: Observation & Sniffer. Note: Can use either Observation or Sniffer at one time; utilizes one of the RX channels NVIDIA Jetson TX2 for processing 256 NVIDIA CUDA core GPU 6 CPU cores – 2x NVIDIA Denver2, 4x Arm Cortex-A57 8GB RAM 32GB eMMC flash Xilinx Artix-7 FPGA with75k logic […]

SPIDriver Tool Allows you to Control and Monitor SPI Devices from your Computer (Crowdfunding)

SPIDriver is an interested SPI debugging / programming tool that connect to your PC’s USB port to control SPI devices, such as LCD Displays or LED strips, while showing the SPI signals and voltage/current levels on a color display. The tool can also be used as an SPI flash programmer. SPIDriver hardware specifications: Headers 5-pin SPI header up to 500 Kbps + A/B auxiliary output signal 4-pin power header with 5V and 3.3V support Maximum power out current – up to 470 mA Signal current – up to 10 mA Device current – up to 25 mA Host interface – micro USB 2.0 port Color display showing signals Dimensions – 61 mm x 49 mm x 6 mm The board works with an open source program available in Windows, Linux, and Mac OS using either a GUI or a command line. It’s also possible to program the device using C/C++ […]

ESP8266 based ANAVI Light Controller can be Programmed with Home Assistant or the Arduino IDE (Crowdfunding)

ANAVI Technology previously launched a Light pHAT allowing for RGB Light strip connection to Raspberry Pi boards, and during my review of ANAVI Light pHAT with Raspberry Pi 2, it did the job, but if that’s all you want to do, the  Raspberry Pi board is clearly oversized & overpowered for the job. So Leon ANAVI got back to the drawing board and designed a similar open source hardware board – called ANAVI Light Controller – with an built-in ESP8266 module that removes the need for a fully fledged Linux board. ANAVI Light Controller specifications: Wireless Module – ESP8266MOD module based on ESP8266 Tensilica L106 32-bit processor Connectivity – WiFi 802.11 b/g/n Expansion Terminal block for 12 V RGB LED strip 3x I2C headers for sensors Debugging – UART header Misc – Button Power Supply – 12 V via power barrel jack Dimensions – 75 mm x 40 mm Certification […]

Circumference Datacentre-in-a-Box Features up to 32 Raspberry Pi 3 B+ Managed by a UDOO x86 Ultra Board (Crowdfunding)

We’ve previously seen several clusters made of Raspberry Pi boards with a 16 RPi Zero cluster prototype, or BitScope Blade with 40 Raspberry Pi boards. The latter now even offers solutions for up to 1,000 nodes in a 42U rack. Circumference offers an other option with either 8 or 32 Raspberry Pi 3 (B+) boards managed by UDOO x86 board acting as a dedicated front-end processor (FEP) that’s designed as a “Datacenter-in-a-Box”. Key features and specifications: Compute nodes – 8x or 32x Raspberry Pi 3 B+ boards for a total of 128x 64-bit 1.4 GHz cores max Backplane MCU – Microchip ATmega1280 8-bit AVR microcontroller Serial Comms – FTDI FT4232 quad-USB UART Switched Mode Power Supply Units (SMPSUs): 8x / 32x software controlled (one per compute node) 1x / 4x always-on (microcontroller) HW monitoring: 8x / 32x compute node energy 2x / 8x supply voltage 2x / 8x temperature Remote […]

ZiP (zGlue Integration Platform) Enables the Design & Manufacturing of Low Cost Custom Chips

When I first started to read about zOrigin on Crowdsupply, I was not really impressed. Meh… Yet another Bluetooth LE fitness tracker with a few sensors, and an Android app. But as I read further, I found out the interesting part was inside the device: ZGLZ1BA, a custom chip manufactured using ZiP (zGlue Integration Platform) chip-stacking technology, which produces something similar to SiP (System-in-Package) but at a much lower cost and manufacturing lead time. But let’s have a look at zOrigin tracker first, which acts as a demonstration / evaluation platform for ZiP technology. Key specifications & features: “SoC” – ZGZL1BA ZiP with Dialog Semiconductor DA14585 16MHz 32-bit ARM Cortex M0 MCU with BLE Analog Devices AD8233 Heart Rate Analog Front End (AFE) Macronix MX25R4035F 2 Mbit Flash Memory MCube MC3672 Accelerometer Maxim MAX77734 Power Managment IC (PMIC) SiTime SIT1552 32 kHz Oscillator Vishay SI8466EDB MOSFET 30 passive components Package […]

Hexabitz Modular Prototyping Platform Enables Wire-Free 3D Electronics Designs (Crowdfunding)

A few years ago, I made a Raspberry Pi case made of perfboard and created some sort of DIY modular 3D electronics design by using the top and sides of the case to also hold electronics components and associated circuitry like a relay, and LEDs. The just launched Hexabitz hexagonal / pentagonal modules are designed to make prototyping easier, and also provide flexibility to create all sort of wire-free (3D) electronics designs with minimal soldering. A little over a dozen of modules are currently on offer, most with an STM32F0 Arm Cortex M0 micro-controller: Modules with built-in MCU 01R00, P01R00 – RGB LED (hexagon / pentagon) with Cree Tri-color (RGB) SMD LED, 4-Pin PLCC H02R10 – Bluetooth/BLE V4 based on Laird BT900-SA + chip antenna, +8 dBm max H04R00 – Audio amplifier, speaker, and headphone jack based on ST TS4990IST 1.2W audio power amplifier, 0.7W, 8 Ohm speaker H05R00 – SPI […]

NeTV2 Open Video Development Board Works with Encrypted and Unencrypted Video Streams (Crowdfunding)

NeTV2

Chumby NeTV was an open source hardware Linux IPTV media player based on a Xilinx Spartan FPGA and a Marvell Armada 166 processor, and unveiled in 2011. Many years have passed since then, and now Bunnie Huang has come up with a new version. The NeTV2 development board is also optimized for open digital video application, but based on a more powerful Xilinx Artik-7  FPGA, and a Raspberry Pi 3 B+ can be added for things like seamless JTAG configuration and overlay video generation. Key features and specifications: FPGA – Xilinx Artik-7 XC7A35T-2FGG484 (available with XC7A50T option during campaign only) System Memory – 512 MB RAM, 32-bit wide DDR3-800 Storage – micro SD card, 8 MB SPI  flash Video Ports 2x HDMI type A inputs 1 x HDMI type A output 1 x HDMI type D output. One input/output pair configured for in-line ‘NeTV mode’ video filtering. Max Video Bandwidth […]

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UP 7000 x86 SBC