SolidRun’s "Marvell MacchiatoBIN" is a $349, Mini-ITX networking SBC that runs Linux 4.4 on Marvell’s quad -A72 Armada 8040, and supports ODP, OFP, and NFV.
This is one of my news digests. If you like my editorial choices, there are more to be found by clicking on the "dear reader" link, and on my name above. Enjoy !
Takeoff projects help students complete their academic projects. Register at takeoff projects today to find and learn about different interesting big data projects and grab the best jobs. Get started right now.
Neste vídeo mostro como controlar display's de 7 segmentos com a Raspberry Pi pico usando apenas suas GPIO's, sem o uso de bibliotecas externas. Enjoy!
Banana Pi released its Wi-Fi 6 router based on the board that uses OpenWrt open-source router firmware that it has been selling for a while but with casing, antennas, and power adapter all for $30 excluding shipping.
En: Today, I'm testing relays. A relay let us trigger high current from a low current. An example would be to turn a 220V AC lamp with an arduino. If you plug 220V AC circuit into an arduino, you will burn, maybe shock yourself and die. DON'T DO IT. The safe way to do it is to use a relay. It separates the 2 circuits' high and low voltage, and when you send a high on the data pin, it triggers a coil to close the circuit. Which triggers the led at the top. Here "on the bench" I'm using only low voltage to be safe.
Fr: Aujourd'hui je test les relais. Un relais permet de commander un circuit haut voltage à partir d'un circuit bas voltage. Un exemple serait d'allumer une lampe 220V courant alternatifavec un arduino. Si on branche un circuit courrent alternatif 220V dans un arduino, il va cramé, peut-être vous électrocuté et mourir. NE LE FAITES SURTOUT PAS. La façon la plus sûre est d'utiliser un relais. Cela sépare les circuits haut et bas voltage. Quand vous envoyez une valeur haute sur la broche des données, cela déclenche une bobine pour fermer le circuit. Cela déclenche la led en haut. Ici "sur le banc" j'utilise seulement des courants bas voltage pour travailler en sécurité.
Faites ce qui vous tient à cœur. Do things that matters to you. Luuna.
#fanaticus Learn how to supercharge your network with Pi-Hole – the ultimate ad-blocking solution for your home or cloud environment! In this video, we'll walk you through the step-by-step process of setting up Pi-Hole on a Raspberry Pi or an EC2 instance, enabling you to block ads, trackers, and malware at the network level.
Follow along as we guide you through the installation and configuration of Pi-Hole, including setting up DNS settings, configuring blocklists, and customizing your Pi-Hole dashboard. Discover how Pi-Hole can enhance your browsing experience, improve network performance, and protect your privacy.
Whether you're tired of intrusive ads, concerned about online privacy, or simply looking to optimize your network, Pi-Hole is the solution you've been searching for.
Join us and unlock the power of Pi-Hole on your Raspberry Pi or EC2 instance today!
You know we’re fans of putting electronics in handy little tins (sup MintyBoost) so of course we were delighted to come across flurples’ tiny keyboard on YouTube!
[caption id="attachment_668546" align="alignright" width="400"] Composite output shield with audio driver and controller inputs for Arduino Uno (Credit: Scott Porter)[/caption]
Our college mini project involves the development of an Android application designed to establish communication with Arduino devices via Bluetooth technology. This application serves as a versatile tool for interfacing Android smartphones with Arduino hardware, enabling users to send commands and receive data wirelessly.
Key Features:
Bluetooth Connectivity: The application seamlessly connects with Arduino modules equipped with Bluetooth HC05/HC06 modules, facilitating bidirectional communication between Android devices and Arduino hardware.
Command Transmission: Users can transmit commands from the Android app to control various functionalities of the connected Arduino devices. These commands can include instructions for motor control, sensor readings, LED manipulation, and more.
Real-time Data Monitoring: The Android application provides a platform for real-time monitoring of data received from Arduino sensors or other peripherals. Users can view sensor readings, status updates, or any other relevant information directly on their mobile screens.
Intuitive User Interface: With a user-friendly interface, the application offers ease of navigation and interaction, ensuring a smooth user experience. Intuitive controls and visual feedback enhance usability, making it accessible to users with varying levels of technical expertise.
Project Customization: The project is highly adaptable and can be customized to suit specific requirements or applications. Whether it's for educational purposes, hobbyist projects, or practical applications in fields like home automation or IoT (Internet of Things), the Android app provides a flexible platform for experimentation and innovation.
If you missed this week’s Python on Microcontrollers Newsletter, here is the ICYMI (in case you missed it) version. To never miss another issue, subscribe now!– You’ll get one terrific newsletter …...
In this class we will be using the Sunfounder Raspberry Pi Pico W Keppler Kit. It will make things a lot easier if we are working on identical hardware. the link below is to amazon, and is for the identical hardware I will be using in this entire class.
In this video, I will show you how to do object oriented programming in micropython using classes and methods. For this example we will create an "LED" class, and then create LED objects under that class.
[Disclosure of Material Connection: I am a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to amazon.com. ]
In this class we will be using the Sunfounder Raspberry Pi Pico W Keppler Kit. It will make things a lot easier if we are working on identical hardware. the link below is to amazon, and is for the identical hardware I will be using in this entire class.
In this video, I will show you how to write modular code in micropython using functions. We will look at how to pass values to and from functions, and examine good programming techniques.
[Disclosure of Material Connection: I am a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to amazon.com. ]
In today's tutorial, we'll walk you through the process of setting up Kali Linux on a Raspberry Pi Zero W2. Follow along as we guide you step-by-step through the installation process.
Here's what you'll need:
An SD card (We recommend using a new one to avoid any issues). HDMI adapter. USB OTG. HDMI capture card (optional for recording, a regular monitor will suffice). We opted for a 64GB SD card, but 32GB should be sufficient.
Let's get started with the installation:
Download the Kali Linux image from the official website. Follow the instructions carefully, choosing the ARM version recommended for our Pi. Utilize the official Pi loader to transfer the system onto the SD memory card. Double-check all selections to ensure accuracy before proceeding. Once the transfer is complete, safely remove the SD card from your computer.
Next steps:
Insert the SD card into the Raspberry Pi Zero W2. Connect the power source (the initial boot may take a bit longer). Confirm the green light indicates the Pi is powered on. Connect the USB OTG, HDMI, mouse, and keyboard. Log in with the default username and password: "kali."
With the system up and running, ensure to connect to the network and perform a system update for optimal performance.
Join us as we explore this fascinating DIY project, showcasing the capabilities of Kali Linux on Raspberry Pi Zero W2. Don't forget to like, share, and subscribe for more tech tutorials!
Discover the magic of Kali Linux on Raspberry Pi Zero 2W! Join us as we showcase the seamless integration of a HDMI capture USB card, turning this tiny device into a full-fledged computing powerhouse. Stay tuned for a glimpse into our prototype setup, and get ready to unleash your creativity with endless possibilities. Don't miss out – subscribe now!
Hello everyone friends. In this video, we have brought together 20 electronic projects that we have shared on our channel so far. Among these projects, there are also Arduino circuits that you can make at home. I wish you a pleasant viewing.
Welcome to our beginner's guide to Raspberry Pi! In this video, we explore what Raspberry Pi is, its history, and its various applications. Whether you're a hobbyist, educator, or DIY enthusiast, Raspberry Pi offers endless possibilities. Watch this video to learn the basics, and if you want more detailed tutorials, let us know in the comments below! Special thanks to TTSmaker for providing the free audio voice used in this video. Don't forget to like, share, and subscribe for more tech content. Follow us on our social media accounts for updates and behind-the-scenes content. Link in bio.
Join us for our Pi Day Celebration and dive into the vibrant Raspberry Pi community. On March 14th, prepare to be immersed in a world of innovation and creativity during our Pi Day projects sharing webinar.
Embark on a journey of discovery as we showcase the remarkable projects of four distinguished members from the Raspberry Pi community. From cutting-edge e-paper smart badges to advanced IoT solutions, these projects will definitely ignite your imagination and captivate your interest.
Mark your calendars and join us on March 14th, from 17:00 to 18:00 (UTC+8). Plus, seize the opportunity to win one of three Raspberry Pi 5 units!
Welcome to our YouTube channel where we explore the exciting world of Internet of Things (IoT) with our latest project - an Arduino-based radar system! In this video, we will show you how to build your own radar system using Arduino and demonstrate how it can be integrated into IoT applications. Join us as we dive into the world of DIY electronics and learn how to create your own smart devices. Don't forget to like, share, and subscribe for more tech tutorials and project ideas!" & Do Comment on the video.
WeAct STM32H743 is a small MCU development board powered by a 480 MHz STMicro STM32H743VIT6 Cortex-M7 microcontroller and equipped with a small LCD and a...
This is a quick overview of all the main stuff to know when going from Arduino to ESP microcontrollers! In this video I run through some quick comparisons, capabilities, what board to get, and some code setups!
0:00 Intro 0:13 Comparisons 1:09 What Model Should I Get? 2:04 Programming 2:56 Power 3:21 Pinout 4:26 Peripherals 6:38 Protocols 7:02 Wi-Fi & Bluetooth 7:14 Station Mode 7:34 Access Point 7:56 Dual Mode 8:17 Bluetooth 8:33 ESP-NOW
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