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Wow, the Raspberry Pi Foundation has been on a roll over the last year! What's their latest venture? A microcontroller! What's that, you ask? Well, lucky you! I'm about to tell you! Just sit back and watch this video and you'll never have any questions about microcontrollers and the Pi Pico ever again. Ever. Period. Maybe. Chapters: 0:00 Introduction 0:48 What Is The Pico? 1:25 What Is A Microcontroller? 2:08 Arduino vs Pico 3:05 Booting the Pi Pico 3:35 Installing Micropython 4:16 Writing Our First Script 5:31 The Blink Example _ 📲🔗🔗📲 IMPORTANT LINKS 📲🔗🔗📲 Buy a Pi Pico - 🤍 Getting started - 🤍 💰💰💰💰 SUPPORT THE SHOW 💰💰💰💰 🤍 📢📢📢📢 Follow 📢📢📢📢 🤍 🤍 🤍 🤍 🤍raspberrypi 🤍JeffGeerling #raspberrypi #tinkernut #pico #micropython
Connecting a low-cost LCD module to a Raspberry Pi Pico, and checking out some project applications. All code and wiring diagrams can be accessed at 🤍 My previous Pi Pico Input & Servo Control video is here: 🤍 And my Raspberry Pi Anemometer video is here: 🤍 At the time of uploading this video, the Waveshare LCD module I used in the video was available from: The Pi Hut: 🤍 Amazon US: 🤍 Amazon UK: 🤍 Note the above Amazon links are affiliate, and that I earn a commission from any qualifying purchases you may make. The Waveshare LCD 1602 I2C module support page is here: 🤍 And you can directly download the drivers and test files here: 🤍 The “Reflective IR Sensor” used in the anemometer is available from vendors including Pimoroni: 🤍 and from Adafruit: 🤍 (NOT affiliate). For additional ExplainingComputers videos and other content, you can become a channel member here: 🤍 More videos on computing and related topics can be found at: 🤍 You may also like my ExplainingTheFuture channel at: 🤍 Chapters: 00:00 Introduction 01:03 LCD I2C (unboxing) 03:44 MicroPython Control 07:15 Does it Game? 12:46 Measuring the Wind (anemometer) 16:33 Wrap #Pico #LCD #RaspberryPi #explainingcomputers
PicoMiteVGA boot-to-BASIC computer built from a Raspberry Pi Pico using the circuit designs and code available on Geoff Graham’s website here: 🤍 The PicoMiteVGA was created by Peter Mather, Geoff Graham and Mick Ames, also building on work by Miroslav Nemecek, as detailed on the aforementioned page. My previous video about the PicoMite, where we look in more detail at MMBasic and GPIO control, is here: 🤍 There are a number of cool, short videos demonstrating various aspects of PicoMite VGA on Peter Mather's channel here: 🤍 The Siliconchip PicoMiteVGA kit that I could not order in the UK, but which looks excellent, is here: 🤍 If you wish to build a PicoMiteVGA, everything you require is available at 🤍 However, I have shared the STL files for the solderable breadboard brackets I created here: 🤍 And my breadboard layout is here: 🤍 For information, the parts I ordered from Pimoroni and CPC Farnell were as listed below. Please note that I have no association with either company. MicroSD card breakout: 🤍 also available from Pololu here: 🤍 Raspberry Pi Pico H: 🤍 Female headers to mount Pico: 🤍 2N7000, TO92 package MOSFET two required: 🤍 1N4148 TR diode (100V, 200mA) two required, but minimum order quantity of five: 🤍 Trimmer (trim pot), 25 Turn 200R - 3296W-1-201LFx1: 🤍 100 nF capacitor, one required, but minimum order quantity of five. This is a bypass capacitor for the SD card wiring, and as explained in the video, in the end I did not need to fit it. But you may need to add one of these capacitors for stable SD card operation: 🤍 15-pin D-Sub (VGA) socket: 🤍 Mini DIN 6-pin (PS/2) socket: 🤍 Large perfboard (solderable breadboard): 🤍 Reset switch the one I had in stock was very similar to this: 🤍 I also has in stock the required resistors, namely: 220Ω resistors (red, red, brown, gold), 0.25W or higher seven required. 10KΩ resistors (brown, black, orange, gold), 0.25W or higher four required. Buying resistors like this individually is hard! These are the cheapest packs of these values I could find on CPC Farnell: 220Ω - 🤍 and 10KΩ - 🤍 Also used were eight M3 nuts and bolts, about 12mm long, and some wires. I actually cut up a Pimoroni jumper pack, as again buying a lot of different wire colours in small quantities is difficult: 🤍 For additional ExplainingComputers videos and other content, you can become a channel member here: 🤍 More videos on computing and related topics can be found at: 🤍 You may also like my ExplainingTheFuture channel at: 🤍 Chapters: 00:00 Introduction 01:15 Plan A 05:07 Plan B 07:24 The Components 09:56 Brackets & Firmware 12:19 Making Progress 16:37 Assembled 19:02 Final Demo 23:10 Wrap #PicoMiteVGA #MMBasic #BASIC #explainingcomputers
Free Altium Designer Trial: 🤍 OctoPart: 🤍 Previous video: 🤍 Arduino Alternative video series: 🤍 Facebook: 🤍 Twitter: 🤍 Instagram: 🤍 Support me for more videos: 🤍 You can get the Raspberry Pi Pico (W) here: (affiliate links) Amazon.com: 🤍 Amazon.de: 🤍 In this video we will be having a closer look at the first microcontroller board from Raspberry Pi, the Raspberry Pi Pico. The board is 1.5 years old but back then I was convinced that it was overrated. But things changed and nowadays I think it is a good Arduino alternative. So let me show you how to use the board and what exactly happened that made me change my mind. Let's get started! Websites which were shown/used in the video: 🤍 🤍 🤍 🤍 🤍 🤍 🤍 🤍 🤍 🤍 🤍 🤍 🤍 🤍 Thanks to Altium for sponsoring this video. 0:00 Why I think the Pico was Overrated! 1:24 Intro 2:00 General Overview of the Pico 3:43 Good Parts of the Pico 6:55 One Bad Thing about the Pico 8:01 Truly Great Stuff about the Pico 9:35 Verdict
Raspberry Pi Pico W microcontroller review, plus tutorial connecting the board to a BME280 sensor module to create a wireless weather station that transmits temperature, pressure and humidity readings to a web browser. On this web page you can find the wiring diagram and a link to the final code: 🤍 The excellent Pi Pico W "getting started" instructions from the Raspberry Pi Foundation are here: 🤍 The page with links to download the MicroPython UF2 file is here: 🤍 The Pimoroni BME280 sensor I used in the video is available directly from Pimoroni, or on Amazon.co.uk here: 🤍 A compatible board is available on Amazon.com here: 🤍 Note that these are affiliate links, and that as an Amazon Associate I earn a commission from any qualifying purchases you may make. If you like this video, you may also be interested in my other Pi Pico videos, including: Raspberry Pi Pico W: WiFi Controlled Robot: 🤍 Raspberry Pi Pico: Inputs & Servos: 🤍 PicoMite: Running BASIC on a Raspberry Pi Pico: 🤍 IN CASE OF DIFFICULTIES: If during your experimentation you end up with a Pi Pico W that executes a program that you cannot interrupt by pressing Ctrl-C or Ctrl-F2 in Thonny, you can return the board to its factory state by holding down the boot select switch, connecting to a PC, and copying over a special UF2 file to reset the flash. You can find a link to this UF2 file at the bottom of this page: 🤍 Note that after execution you will have to reinstall MicroPython and any required libraries, such as the one for the BME280. All programs will also be erased! Hence, during program development, it is wise to save a copy to both the Pico W and to the PC you are working on. For additional ExplainingComputers videos and other content, you can become a channel member here: 🤍 More videos on computing and related topics can be found at 🤍 You may also like my ExplainingTheFuture channel at: 🤍 Chapters: 00:44 Pico + Wireless 02:37 MicroPython & Thonny 06:23 BME280 (Sensor) 08:13 Reading the Sensor 11:26 Final Code 15:13 Remote Test 16:23 Wrap #RaspberryPicoW #PicoW #BME280 #ExplainingComputers
The Pico W adds WiFi to the already-popular Pico, and the price is right. Find out more about the Pico W: 🤍 Support me on Patreon: 🤍 Sponsor me on GitHub: 🤍 Merch: 🤍 2nd Channel: 🤍 Mentioned in this video (some links are affiliate links): - GitHub repo - Garage Door Sensor: 🤍 - Enforcer Garage Door contact switch: 🤍 - ESPHome Pico Support: 🤍 - Thonny: 🤍 - Wio RP2040 by Seeed Studio: 🤍 - Arduino Nano RP2040 Connect: 🤍 - D1 Mini dev board (ESP8266): 🤍 - PicoCart64 Project for N64: 🤍 #RaspberryPi #PicoW #ESPHome Contents: 00:00 - WiFi for $6 00:24 - My project idea 01:38 - A garage door sensor 03:39 - Take me to the... 04:04 - ESPHome for the Pico 04:32 - Testing Pico's WiFi 06:01 - Powered by RP2040 07:12 - Availability
Altium Designer: 🤍 Raspberry Pi Pico Complete Course, Read Article: 🤍 Subscribe to my New YouTube Channel, if you want to watch my videos in Hindi/Urdu 🤍 Support me on Patreon: 🤍 Project Description: * Raspberry Pi Pico is the best microcontroller board and it's capable of doing things, which you can’t even imagine doing with the Arduino boards. Raspberry Pi Pico is much cheaper than the Arduino Uno, Arduino Nano, and other Arduino boards. I got this Raspberry Pi Pico board from the DFrobot for only 4 dollars. Anyway, since this is a getting started tutorial; so, I will try my level best to explain each and every detail including, 1. Raspberry Pi Pico Comparison with Arduino 2. Raspberry pi Pico Technical Specifications 3. Raspberry Pi Pico Pinout details 4. Raspberry Pi Pico Onboard Components 5. Raspberry Pi Pico MicroPython installation, Driver installation, and Thonny IDE installation. I will start with the easiest example which is controlling the Raspberry Pi Pico onboard LED, I will write a very basic program to Turn ON and Turn OFF the Onboard LED. Then in the 2nd example, I will show you how to connect an external LED. In 3rd example, I will show you how to connect multiple LEDs and then how to modify the existing code to make some cool patterns. These LED example projects will help you in understanding how to turn ON and turn OFF any GPIO pin on the Raspberry Pi Pico. In the 4th example, I will show you how to read a digital input on any GPIO pin of the Raspberry Pi Pico, for this, I will use a Pushbutton. We will be reading and controlling both at the same time. The Raspberry Pi Pico board will sense the button click and will then accordingly turn ON or turn OFF the LED. In the 5th example, I will show you how to connect an Oled display module with the Raspberry Pi Pico. I will write a very basic program to print some text on the Oled display module. This is really an important example because in maximum of the projects you will need displays to print text and sensors values. In the 6th example, I will show you how to use an analog sensor with the Raspberry Pi Pico and display its value on the Oled display module. For demonstration purposes, I will be using a Potentiometer as the sensor. In the 7th example, I will show you how to use an Ultrasonic Sensor with the Raspberry Pi Pico and display its value on the Oled display module. In the 8th example, I will show you how to make a temperature monitoring system and by the way, I will be using the Raspberry Pi Pico onboard Temperature sensor. In the 9Th example, I will show you how to make the day and night detection system. This is really an important example as I will be explaining how to use an LDR sensor and a relay module for controlling a 110/220Vac Light Bulb. In the 10th and final example, we will be making a small security system using a PIR sensor and a buzzer. The PIR sensor will sense the motion which will trigger the Raspberry Pi Pico and then the Raspberry Pi Pico will turn ON the buzzer. Amazon Purchase links: * Other must-have Tools and Components: Raspberry Pi Pico from DFrobot: 🤍 Raspberry Pi Pico from Amazon: 🤍 Arduino Uno, Nano, Mega, Micro "All types of Arduino Boards": 🤍 Top Arduino Sensors: 🤍 Super Starter kit for Beginners 🤍 Top Oscilloscopes 🤍 Variable Supply: 🤍 Digital Multimeter: 🤍 Top Soldering iron kits: "best" 🤍 Top Portable drill machines: 🤍 3D printers: 🤍 CNC Machines: 🤍 Electronics Accessories: 🤍 Hardware Tools: 🤍 DISCLAIMER: This video and description contain affiliate links, which means that if you click on one of the product links, I will receive a small commission. This helps support the channel and allows me to continue to make videos like this. Thank you for your support! * For more Projects and tutorials visit my Websites Electronic Clinic: 🤍 Programming Digest: 🤍 Follow me on Instagram: 🤍 Follow my Facebook Page Electronic Clinic: 🤍 Follow my Facebook Group, Arduino Projects: 🤍 Email: stu_engineering🤍yahoo.com #RaspberryPiPico #RP2040 #RaspberryPiPicoExamples
Pick up a Pico at Adafruit: 🤍 Get your Pico prepped for usage by soldering two strips of headers - and you’re good to go. #raspberrypi #adafruit #collinslabnotes Visit the Adafruit shop online - 🤍 - LIVE CHAT IS HERE! 🤍 Adafruit on Instagram: 🤍 Subscribe to Adafruit on YouTube: 🤍 New tutorials on the Adafruit Learning System: 🤍 -
Protect your passwords (what I use): 🤍 🧪🧪Links and Guide: 🤍 What you might think is just a regular usb flash drive is actually a BAD USB (badusb), a device designed by hackers to hack your computer. In this video, I’m going to show you how to use one and build one with a Raspberry Pi Pico. - 🥇🥇ENTER TO WIN a USB Rubber Ducky from HAK5: 🤍 (must be a member of NetworkChuck. Join here: 🤍 ) - Get a Raspberry Pi Pico: 🤍 ($8) (affiliate) Get a USB Rubber Ducky: 🤍 (affiliate) 🔥🔥Join the NetworkChuck membership: 🤍 Sponsored by Dashlane SUPPORT NETWORKCHUCK - ➡️NetworkChuck membership: 🤍 ☕☕ COFFEE and MERCH: 🤍 Check out my new channel: 🤍 🆘🆘NEED HELP?? Join the Discord Server: 🤍 STUDY WITH ME on Twitch: 🤍 READY TO LEARN?? - -Learn Python: 🤍 -Get your CCNA: 🤍 FOLLOW ME EVERYWHERE - Instagram: 🤍 Twitter: 🤍 Facebook: 🤍 Join the Discord server: 🤍 0:00 ⏩ Intro 0:28 ⏩ BadUSB attacks 2:35 ⏩ how BADusb’s work 4:48 ⏩ Build your own Bad USB (Raspberry Pi Pico) 10:08 ⏩ Create your Bad USB attack!! (Ducky Script) 15:34 ⏩ How to defend against BadUSB attacks!! AFFILIATES & REFERRALS - (GEAR I USE...STUFF I RECOMMEND) My network gear: 🤍 Amazon Affiliate Store: 🤍 Buy a Raspberry Pi: 🤍 #badusb #usbrubberducky #raspberrypi
The Raspberry Pi Foundation seems to be searching for a new vision and so has decided to get into the crowded microcontroller market with the Raspberry Pi Pico. Based on a dual-core Cortex-M0+ microcontroller, it runs MicroPython or C/C and is designed for makers, enthusiasts, and hobbyists. Here is my review and getting start guide. Useful Raspberry Pi Pico links: Thonny - 🤍 Getting Started - 🤍 SD1306 driver - 🤍 Introduction to Android app development: 🤍 Let Me Explain T-shirt: 🤍 Twitter: 🤍 Instagram: 🤍 #garyexplains
This video contains 10 New Raspberry pi Pico projects/project ideas that you can try. Subscribe to our channel to never miss any good project ideas. Get your free trial version of the Altium designer: 🤍 Want to learn Electronics the easy way, then check out our course: 🤍 About Altium: Altium is the industry’s leading PCB design software that combines schematic, layout, and everything else you need in one environment to effortlessly design printed circuit boards. Kits we recommend: SunFounder Raspberry Pi Pico Robot Car Kit: 🤍 SunFounder Raspberry Pi Pico Starter Kit: 🤍 - Disclaimer: All the projects in this video are the sole property of the creators. We are thankful to each one of them for sharing their projects with us or allowing us to include their project in this video. Check out the full project video of the respective creators below: - Project links: 10. Multifunctional control knob | Source: magi 🤍 9. Smartphone Oscilloscope | Source: How To Electronics 🤍 8. Coffee Grinder | Source: VEEB Projects 🤍 7. Pico Drone | Source: ravibutani03 🤍 6. Emulating EPROM | Source: element14 presents 🤍 5. Pico Keyboard and Gamepad | Source: Print 'N Play 🤍 4. Pico Pong | Source: Nick Bild 🤍 3. PicoHash | Source: Hash Robotics 🤍 2. Passcode Lock | Source: The Motor Channel 🤍 1. Mining rig | Source: The Common Channel 🤍 Chapters: 00:00 Intro 00:11 Multifunctional control knob 00:54 Smartphone Oscilloscope 01:43 Coffee Grinder 02:50 Pico Drone 03:36 Emulating EPROM 04:28 Pico Keyboard and Gamepad 05:08 Pico Pong 05:56 PicoHash 06:48 Passcode Lock 07:29 Mining rig 08:19 Outro Kits we recommend- The only Raspberry Pi kit you need(our pick):- Amazon: 🤍 All in one Arduino Kit (our pick):- Amazon: 🤍 ESP8266 Weather Station Kit:- USA: 🤍 Best ESP32 Kit(our pick):- USA: 🤍 -
You guys can help me out over at Patreon, and that will help me keep my gear updated, and help me keep this quality content coming: 🤍 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 introductory video, I will show you how to install micropython on the Raspberry Pi Pico W, I will show you how to install Thonny, the IDE, on your PC. Thonny will allow you to interact with the Pico W. Then in today's short introductory video, you will write your first four programs, and will get a homework assignment. This class is for absolute beginners, and I do not assume you already understand the material I am presenting. My goal is not to 'Show Off', but to genuinely teach you how you can do this type of work and projects on your own. Enjoy! [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. ] #raspberrypipico #tutorial #sunfounder
Raspberry Pi Pico VS ESP32 S2 speed comparison benchmark using CircuitPython Which board is faster? 🛒 ESP32 S2: 🤍 🛒 Raspberry Pi Pico: 🤍 🛒 Display: 🤍 🛒 USB Meter: 🤍 💻 Code: 🤍 Join this channel to get access to perks: 🤍 #circuitpython #educ8stv #raspberrypi In this video I am going to do a speed comparison between the Raspberry Pi Pico and the ESP32 S2 board, two of the most powerful and inexpensive boards for makers. Before running the computation speed benchmark, I have developed, let’s take a quick look at the most basic specs of each board to get a sense of what to expect. The Raspberry Pico board features two 32-bit Arm Cortex M0+ cores operating at 133Mhz. It also offers 264KBs of RAM memory and 2MB of Flash memory and it costs at the time of this recording around $7. The Lilygo ESP32 S2 Board on the other hand features a single-core 32-bit LX7 microcontroller operating at 240MHz. It also offers 320KBs of RAM memory and 4MBs of Flash memory. Its price today is around $8. So, based on the specifications, we can conclude that the ESP32 S2 is faster than the Raspberry Pi Pico in single-core workloads. How much faster is the question? We can't know without running a benchmark, because the boards employ processors with different architectures. Based on the operating frequencies of each board, we can estimate that the ESP32 S2 single core performance will be roughly 80% faster than the Raspberry Pi Pico's single core performance. Is this correct?
High quality PCB prototypes: 🤍 🔥We have a new microcontroller on the market, the Raspberry Pi PICO. Here I show you how to start with this board, upload the MicroPython and start programming in Thonny. See all the examples. 🔀LINKS - Download MicroPython: 🤍 Download Thonny: 🤍 Prepare the PICO: 🤍 Blink Example: 🤍 Permanent code main.py: 🤍 ADC example: h🤍 SSD1306 library: 🤍 i2c OLED example: 🤍 PWM Example: 🤍 🤝SUPPORT - Join my Arduino Course (Spanish): 🤍 ELECTRONOOBS.io: 🤍 Help my projects on Patreon : 🤍 my Q&A page: 🤍 Facebook page: 🤍 Canal en Español: 🤍 00:00 Intro 01:51 Main Specs 03:41 Micropython 04:56 Install Micropython 05:50 Blink Example 07:22 Permanent main.py 08:26 ADC example 09:46 i2c Example 13:23 PWM Example 15:15 Outro Like share and subscribe to motivate me. Thank you #raspberry #programming #micropython
Let’s hook up some common components to the new Raspberry Pi Pico and see how to code for them in MicroPython! Detailed Article with Code downloads: 🤍 More articles and tutorials: 🤍 Join us on the forum: 🤍 Subscribe to the newsletter and stay in touch: 🤍 The Raspberry Pi Pico is the first microcontroller produced by the Raspberry Pi Foundations, and they even designed the MCU for it. It has a wealth of features and a budget-friendly 4-dollar price tag. With all of the hype around the Pico since its announcement a few weeks ago I wanted to actually DO something with it. So I decided to hook up a few simple I/O devices to it and see how to code for them using MicroPython. I did all the coding on the Thonny IDE, and to keep things in the family I used a Raspberry Pi 4 as my host computer. You can also use Thonny and the Pico with Linux, Windows, and Mac OS X workstations as well, but it’s already installed and ready to go with the latest Raspberry Pi Operating System release. All of these are basic I/O experiments with very simple code, but they each illustrate a useful technique that can be applied to other I/O devices. Plus, if you’re not familiar with MicroPython, it will help you ease into it, as all of the code is very elementary. For those of you who are put off by the need to solder your own Pico pins fear not, I’ll show you just how easy it is. I'll even give my Pico a bath after I finish soldering it! Here is what you will see in today's detailed look at the Raspberry Pi Pico: 00:00 - Introduction 03:17 - Raspberry Pi Pico 12:02 - Pico Soldering 19:15 - Set up Thonny IDE 23:36 - LEDs and Switches Intro & Hookup 26:12 - RGB Blink Demo 28:55 - Switch Test 31:36 - Interrupts & Toggle Demo 36:09 - LED & Switch Demo 37:42 - Analog Input Intro & Hookup 38:59 - Analog Input Demo 42:32 - LED PWM Demo 44:26 - OLED Display Intro & Hookup 45:49 - Display Demo 49:13 - Motor & H-Bridge Intro & Hookup 51:21 - Motor Demo 54:37 - The Everything Demo 58:05 - Running Programs at Boot-up 1:00:42 - Conclusion It will be interesting to see what the future holds for this cute little microcontroller. It has some very nice design features but it also faces a lot of competition from devices like the Seeeduino XIAO, Arduino 33 IoT series, and, of course, the ESP32 boards. But as I just received a big bag of Pico accessories, with more on the way, you're sure to see the Pico here in the workshop again very soon! Hope you enjoy the video, if you want to discuss it in detail there is a dedicated thread on the forum at 🤍
The challenges of making a project on the raspberry pi Pico in C, without using an IDE. Measuring microwave oven power consumption to figure out when we forgot food in the microwave and alert us to take it out. Code on github: 🤍 Please see docs directory for how to set up development envoronment and how to build it.
Let's get set up with coding/scripting in Thonny for the Raspberry Pi Pico. We'll install Thonny, configure for Pico and write our first MicroPython script. To follow along you'll need: - A Raspberry Pi Pico - A USB micro B lead - PC/Mac/Linux/Raspberry Pi (computer) with Internet The full guide: 🤍 If you have any questions about this content or want to share a project you're working on head over to our maker forum 🤍 Core Electronics is located in the heart of Newcastle, Australia. We're powered by makers, for makers. Drop by if you are looking for gear from: • Raspberry Pi Pico 🤍 • Raspberry Pi 🤍 • Arduino 🤍 • Sparkfun 🤍 • Adafruit 🤍 • Pololu 🤍 • DFRobot 🤍
Register and get $100 from NextPCB: 🤍 PCB Assembly capabilities info: 🤍 𝗣𝗿𝗼𝗷𝗲𝗰𝘁 𝗗𝗲𝘀𝗰𝗿𝗶𝗽𝘁𝗶𝗼𝗻: This is a getting started tutorial with Raspberry Pi Pico W, a brand new exciting Microcontroller board based on RP2040 Microcontroller & CYW43439 WiFi+BLE Chip. The Raspberry Pi Pico W is a low-cost Arm-based microcontroller that we can program using C/C and MicroPython. Raspberry Pi Pico W also adds on-board single-band 2.4GHz wireless interfaces (802.11n) using the Infineon CYW43439 while retaining the Pico form factor, so in addition to the basic GPIO function, it can also connect to the network so we can use it for some IoT projects. For example, using IFTTT for a security system, building a cloud player and a cloud service bell system using MQTT, and so on. The tutorial covers the overview of Raspberry Pi Pico W, its features & specifications. The detailed guide of Raspberry Pi Pico W Pins like ADC pins, I2C Pins, SPI Pins, UART, etc can help you to interface any sensors or module with this powerful board. Later we will we through the MicroPython Setup & programming like Blinking of LED, Scanning WiFi Networks & Connecting to the WiFI Network. 𝗦𝗼𝘂𝗿𝗰𝗲 𝗖𝗼𝗱𝗲 & 𝗪𝗿𝗶𝘁𝘁𝗲𝗻 𝗧𝘂𝘁𝗼𝗿𝗶𝗮𝗹: 🤍 𝗥𝗲𝗰𝗼𝗺𝗺𝗲𝗻𝗱𝗲𝗱 𝗥𝗮𝘀𝗽𝗯𝗲𝗿𝗿𝘆 𝗣𝗶 𝗣𝗶𝗰𝗼 𝗪 𝗦𝘁𝗮𝗿𝘁𝗲𝗿 𝗞𝗶𝘁: 🤍 .................................................................................................................................................................................................................................... Drop a like if you liked this video. Don't forget to subscribe to our channel for more Electronics projects and tutorials. Website: 🤍 Facebook: 🤍 Instagram: 🤍 Twitter: 🤍
🔗 *The full guide* : _🤍 In this guide, we'll learn how a *Servo* works, the difference between a *Positional Servo* and *Continous Rotation Servo* , how to use a Servo with a *Raspberry Pi Pico*, and what to consider when choosing a Servo. 🔧🔨🧰 Hardware featured in this guide: *Feetech FS90 180 degree Servo:* _🤍 *Feetech FS90R Continous Rotation Servo:* _🤍 *Raspberry Pi Pico:* _🤍 *Robot Arm* _🤍 *Servos:* _🤍 💡❓ If you have any questions about this content or want to share a project you're working on head over to our *maker forum:* _🤍 0:00 Intro 0:40 How a Servo Works 1:23 Positional Servos vs. Continous Rotation Servos 2:03 Connecting a Servo to a Raspberry Pi Pico 2:44 Installing MicroPython-servo library 3:34 Using a Positional Servo with the Pico 6:40 Using a Continous Rotation Servo with the Pico 9:36 What to Consider when Choosing a Servo 11:27 Conclusion 🌏🦘 *Core Electronics* is located in the heart of Newcastle, Australia. We're powered by makers, for makers. Drop by if you are looking for: • *Raspberry Pi* _🤍 • *Arduino* _🤍 • *Sparkfun* _🤍 • *Adafruit* _🤍 • *Pololu* _🤍 • *DFRobot* _🤍 The following trademarks are owned by *Core Electronics Pty Ltd:* "Core Electronics" and the Core Electronics logo "Makerverse" and the Makerverse logo "PiicoDev" and the PiicoDev logo "GlowBit" and the GlowBit logo
Clones of the Raspberry Pi Pico have started to appear for sale. These clones offer more features, for less money. But are they truly compatible? What extra features do you get? Let's find out. Local Forecast - Elevator Kevin MacLeod (incompetech.com) Licensed under Creative Commons: By Attribution 3.0 License 🤍 Let Me Explain T-shirt: 🤍 Twitter: 🤍 Instagram: 🤍 #garyexplains
Follow Graham's tutorial to get four-player DOOM running on our $4 Raspberry Pi Pico: 🤍 Subscribe to our channel: 🤍 Looking for kid-friendly projects, educator-led seminars, and information about our non-profit work? Check out the Raspberry Pi Foundation YouTube channel: 🤍 BUY A RASPBERRY PI Raspberry Pi Pico: 🤍 Raspberry Pi 4: 🤍 Raspberry Pi 400: 🤍 All Raspberry Pi products: 🤍 Raspberry Pi Store, Cambridge: 🤍 READ OUR BOOKS & MAGAZINES The MagPi magazine: 🤍 HackSpace magazine: 🤍 Wireframe magazine: 🤍 Custom PC: 🤍 Raspberry Pi Press online store: 🤍 GET HELP WITH YOUR RASPBERRY PI Getting started with your Raspberry Pi: 🤍 Raspberry Pi Help Guides: 🤍 Raspberry Pi Forums: 🤍 Technical documentation: 🤍 FOLLOW US Twitter: 🤍 Instagram: 🤍 Facebook: 🤍 Raspberry Pi blog: 🤍 SUPPORT RASPBERRY PI FOUNDATION Free coding projects: 🤍 Digital Making at Home: 🤍 Free online courses: 🤍 Raspberry Pi Foundation: 🤍 Donate: 🤍 #RaspberryPi #PiDay
Let's take our first steps with the Raspberry Pi Pico development board. We'll load MicroPython onto the Pico and then program it using the interactive REPL. Learn more about the new Raspberry Pi Pico here 🤍 📜 Read the full article here: 🤍 💾 MicroPython for Pico: 🤍 💻 CoolTerm: 🤍 CoolTerm works with Windows, Mac and Linux You can now write programs and access the REPL using the MicroPython editor Mu. At the time of filming, Pico was not supported by Mu. Download Mu: 🤍 If you have any questions about this content or want to share a project you're working on head over to our maker forum 🤍 Core Electronics is located in the heart of Newcastle, Australia. We're powered by makers, for makers. Drop by if you are looking for: • Raspberry Pi 🤍 • Arduino 🤍 • Sparkfun 🤍 • Adafruit 🤍 • Pololu 🤍 • DFRobot 🤍
Now my wife doesn't get angry at me for leaving the garage door open all day! Here's the open source Raspberry Pi Pico W garage door sensor project, with instructions for how you can set up the same thing at your house: 🤍 And here are the items I purchased to complete the installation (some are affiliate links): - Seco-Larm SM-4201-LQ Overhead Door Sensor: 🤍 - RPi Pico Terminal Block Breakout Board: 🤍 - Small breadboards for prototyping: 🤍 - Breadboard solderless jumper wires: 🤍 You can also buy the Pico WH ('W with Headers') if you want to avoid having to solder headers on the Pico W yourself. Support me on Patreon: 🤍 Sponsor me on GitHub: 🤍 Merch: 🤍 2nd Channel: 🤍 #RaspberryPi #ESPHome #HomeAssistant Contents: 00:00 - Here in my garage... 01:32 - Programming without code 02:19 - Hello, world! 04:51 - Kinda crazy YAML 06:53 - Home Assistant integration 07:39 - Garage install 09:13 - This is the good part 09:48 - Push notifications 10:47 - ESPHome - Pico vs ESP32?
In today’s episode, we’re building Pico-GB, a 3d printed GameBoy emulator handheld gaming console for Raspberry Pi Pico that ressembles to the original Nintendo Game Boy released in 1989. This homemade Game Boy emulator is a fun and creative way to bring back old games on the beloved classic Game Boy console. With just a few basic components and a little bit of tinkering and programming you can build your own handheld gaming console capable of playing original Game Boy titles. All you need is a Raspberry Pi Pico, an ILI9225 LCD display, an SD card and a couple of micro-push buttons to get started!! With a few hours and some basic soldering skills, you can build yourself a beautiful handheld Game Boy emulator to play all your favorite classic games. So, if you’re feeling nostalgic for some good old fashion Game Boy gaming then building a homemade emulator handheld is a great and inexpensive way to do just that! Pico-GB is based on the $4 Raspberry Pi Pico microcontroller. The shell and buttons are 3D printed. The screen is a 2.2-inch LCD with a resolution of 220×176 pixels and 65K colors. There are 8 buttons: 4 for the DPAD + 4 action buttons (A, B, select, start). The buttons are 6x6x6mm micro push buttons. The Game Boy emulator used by Pico-GB is Peanut-GB by Mahyar Koshkouei /deltabeard (🤍 with some changes done by me to support sound and accommodate SD card menu/save games on Raspberry Pi Pico (🤍 Peanut-GB has been specially optimized to run at full speed on low specs computers or microcontrollers. It runs at 60 frames per second on the Pico, at the expense of some emulation accuracy. It can play most of the 1000+ original Game Boy DMG games! More information, materiel needed, assembly instructions, circuit diagrams, firmware, 3d printed parts etc. can be found on 🤍 Music: Rich in the 80s - DivKid - YouTube Audio Library
🔗 *The full guide* : _🤍 In this guide, we'll get a *Raspberry Pi Pico W* to send and receive data to the cloud using the *MQTT* protocol. By the end of this video, we'll be controlling real hardware over the cloud using a web-based dashboard ( *Adafruit IO* ). If you need help setting up *WiFi* on the *Pico W* head here: _🤍 If you're new to *Raspberry Pi Pico* and *Thonny* give this a read: 🤍 🔧🔨🧰 Hardware featured in this guide: *Raspberry Pi Pico W:* _🤍 *PiicoDev Ultrasonic Rangefinder:* _🤍 *PiicoDev 3x RGB LED Module:* _🤍 *Other Pico Products:* _🤍 💡❓ If you have any questions about this content or want to share a project you're working on head over to our *maker forum:* _🤍 0:00 Intro 0:39 Setting Up Adafruit IO 1:47 Publishing To The Dashboard With Your Pico W 3:53 Code Walkthrough 4:24 Subscribing To Data With Your Pico W 6:08 Reconnecting After Losing Power 7:05 Code Walkthrough 8:09 Controlling Hardware Via The Cloud 🌏🦘 *Core Electronics* is located in the heart of Newcastle, Australia. We're powered by makers, for makers. Drop by if you are looking for: • *Raspberry Pi* _🤍 • *Arduino* _🤍 • *Sparkfun* _🤍 • *Adafruit* _🤍 • *Pololu* _🤍 • *DFRobot* _🤍 The following trademarks are owned by *Core Electronics Pty Ltd* : "Core Electronics" and the Core Electronics logo "Makerverse" and the Makerverse logo "PiicoDev" and the PiicoDev logo "GlowBit" and the GlowBit logo
The Raspberry Pi Foundation today introduced a new $4 microcontroller board, the Pico. It uses a brand new custom dual-core Arm M0+ processor, the RP2040. What makes it tick, and how is it to use it? Why buy it instead of another microcontroller, or even a Raspberry Pi Zero that's only a dollar more? I'll answer all these questions in this comprehensive review of the Pico! Check out the Raspberry Pi Pico: 🤍 And here's a blog post for this video: 🤍 Mentioned in this video: - Baby Safe Temperature Monitor on GitHub: 🤍 - My older Raspberry Pi Temperature Monitoring App on GitHub: 🤍 - OpenSource.com Post on the Temperature Monitor: 🤍 Support me on Patreon: 🤍 Sponsor me on GitHub: 🤍 #RaspberryPi #Pico #Microcontroller Contents: 00:00 - tl;dw - The Pico 00:58 - A Pico Project 02:07 - Pico Specs and Comparisons 03:54 - Get started with Pico 04:41 - Pico vs Pi Zero? 05:47 - What do microcontrollers do? 06:25 - Baby Safe Temperature Monitor 07:38 - Build montage! 08:44 - Does it work? 09:37 - Minor gripes and verdict 10:41 - Thanks and Bloopers
Channel: IoT Projects Ideas Title: Home Automation Project with Raspberry Pi Pico W and Blynk IoT using MicroPython Code Link: Watch the video Description: Learn to transform your home with IoT using Raspberry Pi Pico and Blynk. In this tutorial by IoT Projects Ideas, discover how to create a home automation system with MicroPython code. Control devices remotely and enhance your living space! #HomeAutomation #RaspberryPiPico #BlynkIoT Channel: YouMakeTech Title: Build your own GameBoy with Raspberry Pi Pico 🕹️ DIY Guide Link: Watch the video Description: Dive into nostalgia and creativity with YouMakeTech's DIY guide on building your own GameBoy using Raspberry Pi Pico. Experience the joy of crafting and gaming combined in this hands-on project! #DIYGameBoy #RaspberryPiPico #Gaming Channel: Cytron Technologies Title: Ultrasonic Navigation Aid for the Visually Impaired | Pi Pico Project Link: Watch the video Description: Witness innovation at its finest! Cytron Technologies presents a Pi Pico project that aids the visually impaired using ultrasonic navigation. Experience technology's positive impact on accessibility. #AccessibilityTech #RaspberryPiPico #Innovation Channel: Embedded Club Title: IR Temperature Sensing - Raspberry Pi Pico | Micropython Link: Watch the video Description: Dive into the world of temperature sensing with Embedded Club's tutorial. Learn how to use Raspberry Pi Pico and Micropython to measure IR temperatures. Explore the applications of this technology! #TemperatureSensing #RaspberryPiPico #Micropython Channel: svsembedded Title: Automatic Railway Gate Control Using Raspberry Pi Pico & IR Sensor Link: Watch the video Description: Discover the magic of automation! svsembedded presents a project using Raspberry Pi Pico and IR sensors to control railway gates automatically. Experience the blend of electronics and convenience. #RailwayGateControl #RaspberryPiPico #Automation Channel: Ronin Title: #Raspberrypi Pi Pico Robotic Arm & Snake Game +Proto Shield Link: Watch the video Description: Ronin introduces the fascinating combination of a Raspberry Pi Pico robotic arm and a Snake game using a Proto Shield. Discover the versatility and creativity that Raspberry Pi Pico offers. #RoboticArm #SnakeGame #RaspberryPiPico Channel: Ronin Title: Make Mini Sumo Robot with #raspberrypi Pi Pico Link: Watch the video Description: Join Ronin in the exciting world of robotics! Learn to create a mini sumo robot using Raspberry Pi Pico. Build your own competitive robot and explore the realms of engineering and coding. #MiniSumoRobot #RaspberryPiPico #Robotics #IoTProjects, #RaspberryPiPico, #LEDControl, #Microcontrollers, #WeatherStation, #DIYGameBoy, #Gaming, #AccessibilityTech, #Innovation, #EmbeddedSystems, #TemperatureSensing, #Automation, #RailwayGateControl, #GameDevelopment, #ArduinoPong, #ArduinoSnake, #CodingFun, #RoboticArm, #SnakeGame, #MiniSumoRobot, #Robotics, #TechTutorial, #MakerCommunity, #CreativeProjects, #LearningByDoing, #STEMEducation, #HandsOnLearning, #ElectronicsProjects, #ProgrammingSkills, #EducationalContent.
The full guide: 🤍 Let's connect our Raspberry Pi Pico W to the internet! In this guide we'll connect to a WiFi network, query a webpage, and get the current time from a server. This is the first step to success with wireless projects on the Pico W! For products featured in this guide: • Raspberry Pi Pico W: 🤍 • Raspberry Pi Pico: 🤍 If you have any questions about this content or want to share a project you're working on head over to our maker forum 🤍 Core Electronics is located in the heart of Newcastle, Australia. We're powered by makers, for makers. Drop by if you are looking for: • Arduino 🤍 • Sparkfun 🤍 • Adafruit 🤍 • Pololu 🤍 • DFRobot 🤍 The following trademarks are owned by Core Electronics Pty Ltd: "Core Electronics" and the Core Electronics logo "Makerverse" and the Makerverse logo "PiicoDev" and the PiicoDev logo "GlowBit" and the GlowBit logo
🔗 *The full guide* : _🤍 In this guide, we'll learn what a *Relay* is, why we might use one, how to choose a Relay, and finally how to use one with a *Raspberry Pi Pico* . Note: Not all Relays are compatible with the Raspberry Pi Pico or other 3.3V devices. The 5V Relay Module we are using is compatible with 3.3V power and logic. If you are following along with a different Relay, please check the product page/datasheet to confirm it is 3.3V compatible and that it will work with this guide. 🔧🔨🧰 Hardware featured in this guide: *5V Single Channel Relay Module:* _🤍 *Raspberry Pi Pico:* _🤍 *LED and Resistor Pack:* _🤍 *12V Blower Fan:* _🤍 *12V Plugpack:* _🤍 *Barrel Jack Adapter:* _🤍 *Relays:* _🤍 💡❓ If you have any questions about this content or want to share a project you're working on head over to our *maker forum:* _🤍 0:00 Intro 1:06 Poles and Throws Explained 2:28 Why and When to Use a Relay 3:54 How to Choose the Right Relay 4:43 Connecting a Relay to a Rasberry Pi Pico 6:39 Example 1 - Controlling an LED 7:38 Example 2 - Controlling a 12V Fan 8:44 Example 3 - Normally Open vs Normally Closed 11:22 Conclusion 🌏🦘 *Core Electronics* is located in the heart of Newcastle, Australia. We're powered by makers, for makers. Drop by if you are looking for: • *Raspberry Pi* _🤍 • *Arduino* _🤍 • *Sparkfun* _🤍 • *Adafruit* _🤍 • *Pololu* _🤍 • *DFRobot* _🤍 The following trademarks are owned by *Core Electronics Pty Ltd:* "Core Electronics" and the Core Electronics logo "Makerverse" and the Makerverse logo "PiicoDev" and the PiicoDev logo "GlowBit" and the GlowBit logo
Raspberry Pi Pico W robot tutorial, using a Pololu Zumo chassis and L298N, with the robot controlled over WiFi from a local web page. Here you can find the wiring diagram and a link to all code: 🤍 This video is a follow-up to my first Raspberry Pi Pico W video, in which I detailed setting up the board with MicroPython and creating a simple weather station: 🤍 The video in which I constructed the Zumo chassis is here: 🤍 And the video in which I demonstrate speed control with an L298N is here: 🤍 You can also learn about writing HTML in my video here: 🤍 The excellent Pi Pico W "Getting Started" instructions from the Raspberry Pi Foundation are here: 🤍 You can download the design for the 3D printed bracket for the Pico W Zumo robot here: 🤍 The Zumo robot chassis, micro metal gear motors and L298N motor controller are in this part of the ExplainingComputers Amazon.com store: 🤍 Note that as an Amazon Associate I earn from qualifying purchases when you make a purchase from or via the store. THE PICO’S IP ADDRESS As we saw in the video, the local IP address allocated to the Pico W may change, depending on other devices connected to and active on the local area network. To prevent this from happening you can provide the Pico W with a fixed IP address in your router’s control panel. You can also scan to see what IP address has been allocated to the Pico using a free tool such as Angry IP Scanner 🤍 I personally use the legacy edition that does not require installation. RE-SETTING THE PICO If during your experimentation you end up with a Pi Pico W that executes a program that you cannot interrupt by pressing Ctrl-C or Ctrl-F2 in Thonny, you can return the board to its factory state by holding down the boot select switch, connecting to a PC, and copying over a special UF2 file to reset the flash. You can find a link to this UF2 file at the bottom of this page under “Resetting Flash Memory”: 🤍 Note that after execution you will have to reinstall MicroPython. All programs will also be erased. Hence, during program development, it is wise to save your programs on the PC, and of course to keep backups. :) For additional ExplainingComputers videos and other content, you can become a channel member here: 🤍 More videos on computing and related topics can be found at 🤍 You may also like my ExplainingTheFuture channel at: 🤍 Chapters: 00:00 Introduction 00:37 Hardware 01:40 WiFi Interface 06:15 Zumo & L298N 10:19 Motor Code & Test 13:56 Final Robot 17:01 Wrap #PicoW #RaspberryPi #Robot #ExplainingComputers
This is a beginners guide for adding a display to the Pi Pico. Adding a display is a great way to get your Pi Pico to show text, basic graphics, and output information. Chapters: 0:00 Intro 0:29 Project Overview 1:20 I2C LCD Display 2:03 Connecting Everything 3:23 Downloading Libraries 4:10 Finding The I2C Address 4:46 Running The Demo 4:52 Creating A Custom Script 5:59 Creating Custom Characters _ 🤖💾🤖💾 PARTS LIST 💾🤖💾🤖 _ (Links May Be Affiliated) • Raspberry Pi Pico - 🤍 • 16x2 Serial LCD - 🤍 • Breadboard - 🤍 • Jumper Wires - 🤍 • Header Pins - 🤍 • Soldering Equipment - 🤍 _ 📲🔗🔗📲 IMPORTANT LINKS 📲🔗🔗📲 _ • 💻PROJECT PAGE💻 - 🤍 • Pi Pico I2C LCD Library - 🤍 • LCD Character Creator - 🤍 • LCD Assistant - 🤍 • Decimal To Hex Converter - 🤍 • Learn More About LCD's - 🤍 _ 💰💰💰💰 SUPPORT THE SHOW 💰💰💰💰 _ 🤍 _ 📢📢📢📢 Follow 📢📢📢📢 🤍 🤍 🤍 🤍 #raspberrypi #pico #tinkernut 🤍raspberrypi 🤍The8BitGuy
LOW LEVEL RUSTACEANS! Welcome back! In today's video we discuss embedded rust. Specifically, we talk about Hardware Abstraction Layer crates as they're used in rust. We use a HAL Crate for the RP2040 to upload and execute the Blink LED example onto the RP2040. Rust is an incredible programming language that gives the programmer the power of memory safety and performance on embedded systems. 🏫 COURSES 🏫 🤍y/courses/ LINKS: LLL Merch: 🤍 Buy the RP2040: 🤍 Learn Rust with this Book!: 🤍 Embedded Rust: 🤍 RP2040 HAL: 🤍 SOCIALS: Follow me on Twitter: 🤍 Follow me on Twitch: 🤍 Join me on Discord!: 🤍
In this video I demonstrate an unusual use of a Pi Pico - emulating a USB Ethernet adapter to server a website. This is possible because the arduino is kind of like a souped up Arduino, which comes awake quickly and begins emulating the hardware almost instantly. It's a cool trick, but I'm not sure it's useful.
✍ The project write-up: 🤍 I strapped a Raspberry Pi Pico W to my garage door motor and now I can control my garage door from my phone! The Pico W hosts a simple webpage on my local network with three control buttons - one for Up, Stop and Down. Pressing one of the buttons does exactly what you'd expect! 💡 If you have any questions about this content or want to share a project you're working on head over to our maker forum 🤍 Grab a Raspberry Pico W: 🤍 Here is that delish protoboard from the video: 🤍 Core Electronics is located in the heart of Newcastle, Australia. We're powered by makers, for makers. Drop by if you are looking for: • Raspberry Pi 🤍 • Arduino 🤍 • Sparkfun 🤍 • Adafruit 🤍 • Pololu 🤍 • DFRobot 🤍 0:00 Introduction 0:37 Door-motor Interface 1:25 Design + Build Circuit 5:35 Testing the circuit 6:13 Firmware overview 7:10 Installation 7:47 The moment of truth 8:40 Nice finishing touches 9:05 Considerations 10:16 Extra resources The following trademarks are owned by Core Electronics Pty Ltd: "Core Electronics" and the Core Electronics logo "Makerverse" and the Makerverse logo "PiicoDev" and the PiicoDev logo "GlowBit" and the GlowBit logo
The full guide: 🤍 Now that we can connect our Raspberry Pi Pico to the internet, it's time to control something! This guide will cover setting up a server to host a simple page on your network. We'll use this page to control some hardware attached to our Pico W - drive an LED and read the status of a button. Once we master these inputs and outputs, the sky is the limit! For products featured in this guide: • Raspberry Pi Pico W: 🤍 • Raspberry Pi Pico: 🤍 If you have any questions about this content or want to share a project you're working on head over to our maker forum 🤍 Core Electronics is located in the heart of Newcastle, Australia. We're powered by makers, for makers. Drop by if you are looking for: • Raspberry Pi 🤍 • Arduino 🤍 • Sparkfun 🤍 • Adafruit 🤍 • Pololu 🤍 • DFRobot 🤍 The following trademarks are owned by Core Electronics Pty Ltd: "Core Electronics" and the Core Electronics logo "Makerverse" and the Makerverse logo "PiicoDev" and the PiicoDev logo "GlowBit" and the GlowBit logo
This video covers the basics of the I2C communication protocol and how to use it on your Raspberry Pi Pico. We use a Visual Studio Code project to program the brand-new Raspberry Pi Pico microcontroller board in C. We created a project which uses the BNO055 inertial measurement unit (IMU) to read values of acceleration over I2C and print them to a serial monitor over a USB connection to a PC. I realise that I continuously say BNO005 not BNO055 in the video, oops! This video provides the fundamental background of the I2C communication protocol and explains how to correctly wire an I2C compatible device to the Pico. It explains which functions in the Pico SDK to use in order to communicate with this device. We also cover how to configure the Raspberry Pi Pico correctly in order to enable I2C communication. As an example, the BNO055 breakout board from Adafruit is used to demonstrate writing to, and reading from, registers on a peripheral device. This video also shows you where to find the required information in your particular peripheral device’s datasheet in order to get your peripheral device functioning correctly. The source code for this project (and a written article version coming soon!) is available here: 🤍 BNO055 Breakout board is available at Amazon (Affiliate): UK: 🤍 US: 🤍 SparkFun Article regarding pull up resistors: 🤍 Timestamps 00:00 Introduction 00:48 I2C Basics 02:15 Pico Wiring 03:03 I2C Messages 04:47 Pico SDK I2C Functions 06:00 Read/Write Operations 06:25 Programming Example 16:16 Conclusion If this video helped you, please consider leaving a like and subscribing, thank you! To see my other videos on the Raspberry Pi Pico, check out the playlist here: 🤍 You can find more embedded systems tutorials and projects on my website 🤍 Equipment I use regularly The following links are affiliate links where I may make a small percentage on qualifying sales through these links. Use the respective UK or US links listed. Budget Soldering Iron: UK: 🤍 US: 🤍 Breadboards: UK: 🤍 US: 🤍 Jumper Cables: UK: 🤍 US: 🤍 Camera: UK: 🤍 US: 🤍 Lens: UK: 🤍 US: 🤍 Tripod: UK: 🤍 US: 🤍 All videos and tutorials on this channel and mentioned websites are for educational purposes only.
This firmware UF2 for the Raspberry Pi Pico W LOOKS simple enough... on boot it blinks the onboard LED 3 times and then boots into CircuitPython 8. but, looks can be deceiving! the LED on the Pico W is not connected to a GPIO on the RP2040... it's connected to a GPIO on the WiFi/BLE module! that blinking means that we're able to load firmware and communicate with the module in the CircuitPython firmware, an important first step before we implement the rest of the wireless stack. soon, we'll have CircuitPython and the hundreds of libraries and IoT examples ready to run on the Pico W, we can't wait to show you more as we get ready for folks to test it out :) Visit the Adafruit shop online - 🤍 - LIVE CHAT IS HERE! 🤍 Adafruit on Instagram: 🤍 Subscribe to Adafruit on YouTube: 🤍 New tutorials on the Adafruit Learning System: 🤍 - #adafruit #raspberrypi #circuitpython
Raspberry Pi Pico MicroPython tutorial using a switch, a potentiometer, some LEDs, and an SG90 servo. This video is a direct continuation of my earlier Pi Pico episode: 🤍 All of the code and wiring diagrams included in this video can be accessed from: 🤍 You may also be interested in my other project videos, such as the Raspberry Pi Anemometer: 🤍 More videos on SBCs and wider computing and related topics can be found at: 🤍 You may also like my ExplainingTheFuture channel at: 🤍 Chapters: 00:00 Introduction 00:42 Back in Action (recap) 04:15 Switched On (using switches) 07:20 Great Potential (potentiometer) 10:19 Servo Control 13:54 Servo & Pot 16:33 The Future #PiPico #RaspberryPi #Servo #ExplainingComputers
Use the Hammer Header Pin Install Rig for Raspberry Pi Pico to easily install pins on a Raspberry Pi Pico without any soldering. Available at : 🤍
Previously, we covered how to program the Raspberry Pi Pico using MicroPython. In this tutorial, we will show you how to create a simple blink program using C. We will also configure VS Code so that it can build projects with the push of a button. Note that the written version of this tutorial can be found here: 🤍 You will need to install the build tools for the RP2040. I recommend following Chapter 1 (for Linux) or Chapter 9 (for macOS and Windows) of the official Getting Started with Raspberry Pi Pico guide (🤍 Alternatively, if you are on Windows and do not wish to install Build Tools for Visual Studio, you can follow the guide here: 🤍 In VS Code, you will want to install the CMake and CMake Tools extensions. These tools will provide buttons on your status bar that allow you to build your project by clicking a button. All of your projects will need a unique CMakeLists.txt file, which tells the cmake tool how to generate the build files. CMake is a build system generator and does not actually build the program. The Raspberry Pi Pico SDK uses “make” as the actual build system. We can call cmake and make in the command line to build the project, or we can click on the CMake and Build buttons in VS Code to accomplish the same thing. To upload the compiled program, we put the Pico into bootloader mode by pressing and holding the BOOTSEL button when plugging in the USB cable. This will cause the Pico to enumerate as a USB drive on the computer. Then, copy the compiled .uf2 file to that drive. The Pico will reset and automatically start running the program. Product Links: 🤍 Related Videos: Intro to MicroPython – Maker.io Tutorial - 🤍 Intro to Raspberry Pi Pico and RP2040: Part 1: VS Code and Blink - 🤍 Part 2: Debug with Picoprobe - 🤍 Part 3: How to Use PIO - 🤍 Related Project Links: 🤍 Related Articles: Introduction to MicroPython - 🤍 Raspberry Pi Pico and RP2040 - MicroPython Part 1 - 🤍 Learn more: Maker.io - 🤍 Digi-Key’s Blog – TheCircuit 🤍 Connect with Digi-Key on Facebook 🤍 And follow us on Twitter 🤍
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