diy

Posted on by Jean-Luc Aufranc (CNXSoft) - 6 Comments on 2-channel DSO-500K WiFi oscilloscope is based on Raspberry Pi Pico W board

2-channel DSO-500K WiFi oscilloscope is based on Raspberry Pi Pico W board

Scoopy Android oscilloscope app

FHDM TECH DSO-500K is a 2-channel 500kS/s WiFi oscilloscope based on Raspberry Pi Pico W board that can also work over USB, and offers an analog bandwidth of up to 150kHz. We previously had seen the Raspberry Pi Pico board used as a logic analyzer, so it should come as no surprise that somebody has also come up with a Raspberry Pi Pico W-based oscilloscope that enabled visualization on Android over WiFi or USB. DSO-500K specifications and features (through the Scoppy app): MCU board – Raspberry Pi Pico W board with RP2040 dual-core Cortex-M0+ microcontroller, 2MB SPI flash, WiFi 4 and Bluetooth connectivity Sample rate – Up to 500kS/s sample rate (250kS/s with both channels enabled) Analog bandwidth – 150kHz Record length – 2048 samples per channel in RUN mode, 100kS total for single shot captures Inputs – BNC connectors or 0.1-inch headers Input Impedance – 1MΩ / 22pF Input […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 5 Comments on Ploopy – 3D printed open-source hardware headphones feature Raspberry Pi RP2040 MCU, TI PCM3060 24-bit DAC

Ploopy – 3D printed open-source hardware headphones feature Raspberry Pi RP2040 MCU, TI PCM3060 24-bit DAC

Ploopy open-source hardware headphones

I don’t think I’ve ever written about open-source hardware headphones. But that’s precisely what Ploopy offers with an amplifier based on a Raspberry Pi RP2040, a Texas Instruments PCM3060 24-bit DAC, and an amplifier circuit, as well as 3D printed parts and open-source firmware written in C. As we’ll see further below the project is reasonably well documented, and you can either build it from scratch, purchase a fully-assembled kit, or something in the middle. I suppose you could even do some knitting since woven covers are part of the build just in case making your own PCBs and 3D printing parts are not your things. The electronics are comprised of two boards: The Gould amplifier board with the Raspberry Pi RP2040, Texas Instruments PCM3060 24-bit 96/192 kHz DAC, and several TI OPA1688 audio operational amplifiers The Mazzoleni driver flex boards going into the left and right rings with a […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on Raspberry Pi 400 powers dual-display retro-gaming console

Raspberry Pi 400 powers dual-display retro-gaming console

DIY Enclosure Raspberry Pi 400 console

“Block after Block” has designed a dual-display tabletop retro-gaming console using plywood edge grain and a Raspberry Pi 400 keyboard PC that allows players to physically face each other during a fight or other gameplay. While there’s a galore of projects based on Raspberry Pi SBCs, the Raspberry Pi 400 keyboard PC is more like a consumer product due to its form factor, but Block after Block integrated the PC into its own retro-gaming console which involved a lot of woodworking skills and installing RetroPie on the Pi 400 device. This DIY project mostly involves spending time in a workshop cutting wood, and once you’re done with this part, it should be pretty straightforward. The following items are required for the project: A Raspberry Pi 400 keyboard PC Two monitors (second-hand monitors will do) An HDMI splitter to mirror the output from the Pi 400 along with a micro HDMI […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Eduponics Mini v2.0 Smart Agriculture IoT kit gets more flash, new sensors, 4-channel valve board (Crowdfunding)

Eduponics Mini v2.0 Smart Agriculture IoT kit gets more flash, new sensors, 4-channel valve board (Crowdfunding)

Eduponics Mini 2.0 Smart Agriculture IoT Kit

Eduponics Mini v2.0 is a Smart Agriculture IoT kit based on the ESP32 wireless microcontroller with built-in sensors to measure temperature, humidity, barometric pressure, and ambient light, and interfaces to connect water level and soil moisture sensors. The new board builds upon the Eduponics Mini introduced two years ago, but based on the 8MB flash version of the ESP32-WROVER-B module, a different mix of sensors, a BM8563 RTC module replacing the DS1307 RTC chip, and the addition of Grove connectors for external sensors from companies such Elecrow. Eduponics Mini v2.0 specifications with highlights in bold or strikethrough showing the differences with the first revision of the board: Wireless module – ESP32-WROVER-B module with ESP32 Wi-Fi and Bluetooth SoC, 8MB QSPI flash loaded with MicroPyhon firmware, 8MB SPRAM, PCB antenna Built-in sensors BH1750 I2C light sensor Footprint for BME280 I2C temperature, humidity, and barometric sensor QMP6988 I2C Barometric air pressure sensor […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on FOSSBot open design 3D printed educational robot is made with Raspberry Pi and off-the-shelf parts

FOSSBot open design 3D printed educational robot is made with Raspberry Pi and off-the-shelf parts

DIY open design robot Raspberry Pi SBC

FOSSBot is an “open design” 3D printed educational robot comprised of a Raspberry Pi SBC and various off-the-shelf modules, as well as open-source software that can be used for education purposes. The FOSSBot DIY robot has been developed by the Harokopio University of Athens and the Greek Free and Open Source Software (GFOSS) community, and builds upon the “GSOC 2019 – A DIY robot kit for educators” with the main goal being to have a platform to “familiarize teachers with modern education models based on the S.T.E.A.M approach. (Science, Technology, Engineering, Arts, Mathematics)”. FOSSbot key components: SBC – Raspberry Pi Zero W, Raspberry Pi 3, or Raspberry Pi 4. Mechanically and electrically compatible Raspberry Pi alternatives could be an option too although part of the software would have to be modified Storage – 32GB MicroSD card Expansion board – Adafruit Perma-Proto HAT for Pi – No EEPROM to connect sensors […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on ultraArm P340 Arduino-based robotic arm draws, engraves, and grabs

ultraArm P340 Arduino-based robotic arm draws, engraves, and grabs

ultraArm P340 robotic arm draw engrave grabber

Elephant Robotics ultraArm P340 is a robot arm with an Arduino-compatible ATMega2560 control board with a 340mm working radius whose arm can be attached with different accessories for drawing, laser engraving, and grabbing objects. We’ve previously written and reviewed the myCobot 280 Pi robotic arm with a built-in Raspberry Pi 4 SBC, but the lower-cost ultraArm P340 works a little differently since it only contains the electronics for controlling the servos and attachments, and needs to be connected to a host computer running Windows or a Raspberry Pi over USB. ultraArm P340 specifications: Control board based on Microchip ATMega2560 8-bit AVR microcontroller @ 16MHz with 256KB flash, 4Kb EEPROM, 8KB SRAM DOF – 3 to 4 axis depending on accessories Working radius – 340mm Positioning Accuracy – ±0.1 mm Payload – Up to 650 grams High-performance stepper motor Maximum speed – 100mm/s Communication interfaces – RS485 and USB serial Attachment […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on TwoTrees TS2 laser engraver review – Part 2: A beginner’s experience with LaserGRBL and MKSLaser

TwoTrees TS2 laser engraver review – Part 2: A beginner’s experience with LaserGRBL and MKSLaser

TwoTrees TS2 laser engraver with MELE PCG02 PC stick

I’ve now had time to play with TwoTrees TS2 laser engraver after doing an unboxing and providing assembly instructions last month, so I can report my experience in this review using LaserGRBL program and MKSLaser mobile app. Note that this is my first laser engraver, and I’ll detail the many issues and mistakes I’ve come across so it might be useful to other beginners. Testing TS2 laser engraver assembly Before doing some engravings and cuts, we’ll have to test the TS2 to make sure it was properly assembled and we can operate it normally. The company is recommending the open-source and free LaserGRBL or the paid Lightburn program to control the TS2. I went with the former which happens to only work in Windows or macOS, while most of my hardware is running Linux or Android. So I dug out an older HDMI PC stick, the MeLE PCG01 running Windows […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 7 Comments on Making a DIY Raspberry Pi camera mount with privacy mode!

Making a DIY Raspberry Pi camera mount with privacy mode!

XYLITOL Raspberry Pi Camera Mount

I’ve just repurposed an empty XYLITOL gum bottle into a DIY camera mount for the Raspberry Pi Camera Module 3 with privacy mode to boot… In order to avoid confusion, while Xylitol is a chemical compound, it’s also a Japanese brand of chewing gums (Lotte XYLITOL) that is sold in Thailand and other countries. I’m specifically talking about the latter in this post. Raspberry Pi Trading has just sent me a bunch of Raspberry Pi Camera Modules 3 for review, and since I don’t have any camera mount I initially thought maybe I’ll laser cut some mount or use some LEGOs as I did with the e-CAM20_CURB camera for Raspberry Pi 4. But then I saw some empty XYLITOL gum bottles, noticed the cap would open vertically, and it seemed like the modules might fit in there as well. And indeed they do with the Raspberry Pi camera modules snugged […]