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On the surface, both the Arduino and Raspberry Pi look like the same thing: inexpensive controller boards for electronics projects. Support on Patreon: 🤍 However, one is a simple 8-bit controller while the other is a 32-bit single board computer. Understand how an Arduino and Pi are different and which to use in your project. Web: 🤍 Twitter: 🤍addohms #arduino #raspberrypi #electronics
Master Raspberry Pi with our Course Bundle (96% off): 🤍 The Arduino microcontroller is a complete ecosystem of boards, software, 3rd party libraries, clones, and an online community. Likewise, the Raspberry Pi is a complete maker ecosystem of boards, software, 3rd party libraries, and an online community. You can get an Arduino board for less than $10 and similarly you can get a Raspberry Pi board for less than $10. So, what are the differences and which is best? Introduction to Android app development: 🤍 Let Me Explain T-shirt: 🤍 Twitter: 🤍 Instagram: 🤍 #garyexplains Affiliate Disclosure: When you buy through links in our description Gary Explains may earn an affiliate commission.
In this episode of Bits, we compare the functions and uses for the Arduino line of micro controllers and the Raspberry Pi microcomputer. Each can control your electronics projects, but which one should you use? Arcade project: 🤍 TOOLS & SUPPLIES (affiliate links): 🤍 🤍 MUSIC: 🤍 Subscribe: 🤍 Check out my TopVideos!: 🤍 Learn 3d modeling, get digital plans, and cool merch at 🤍 Want to support ILTMS? Get exclusive content and more... 🤍 FOLLOW: 🤍 🤍 🤍 #ILikeToMakeStuff About I Like To Make Stuff: We have lots of projects including woodworking, metalworking, electronics, 3D printing, prop making and more! These videos are our attempt inspire and empower others to make the stuff that they want to have. Hopefully you'll see something here that will inspire you to make something that you're passionate about! Arduino vs. Raspberry Pi // Bits | I Like To Make Stuff 🤍 I Like To Make Stuff 🤍
Arduino is a programmable circuit board that makes it possible for the average developer to build custom hardware products. Learn about Arduino's architecture, microcontroller, programming language, and IDE in 100 seconds. #programming #arduino #100SecondsOfCode 💬 Chat with Me on Discord 🤍 🔗 Resources - Arduino Docs 🤍 - Raspberry Pi in 100 Seconds 🤍 🔥 Get More Content - Upgrade to PRO Upgrade at 🤍 Use code YT25 for 25% off PRO access 🎨 My Editor Settings - Atom One Dark - vscode-icons - Fira Code Font 🔖 Topics Covered - What is an Arduino? - CPU vs Microcontroller - Raspberry Pi vs Arduino - How do electrical circuits work? - What is a microcontroller? - How to get started with Arduino? - What programming language does Arduino use?
Professor Brailsford with an example of what he had to do when Computer A didn't talk to Computer B. 🤍 🤍 This video was filmed and edited by Sean Riley. Computer Science at the University of Nottingham: 🤍 Computerphile is a sister project to Brady Haran's Numberphile. More at 🤍
Qual é a diferença entre as placas Raspberry Pi e Arduino? Raspberry Pi é melhor que Arduino? Arduino é melhor que Raspberry Pi? Diferença entre microprocessadores e microcontroladores? Arduino é um microcontrolador. Raspberry Pi é um microprocessador. Entenda as semelhanças e diferenças entre eles. Quer comprar um Raspberry Pi para acompanhar as aulas? Aqui vai uma lista do que você pode adquirir: - Raspberry Pi 4B na Stutu: 🤍 - Loja oficial da Stutu: 🤍 - Raspberry Pi 4B na Adrol: 🤍 - Case oficial Raspberry Pi 4B: 🤍 - Case de alumínio e ventoinhas Raspberry 4B: 🤍 - Raspberry Pi 3B+ na JunRoc: 🤍 - Case oficial Raspberry Pi 3B+: 🤍 - Kit Retroflag para Games: 🤍 Curso de Raspberry Pi: primeiros passos, criado pelo professor Gustavo Guanabara em uma parceria entre o CursoemVideo e o Estudonauta. Transforme um computador de US$35 em uma poderosa máquina para aprender a programar. Curso em Vídeo Seja um apoiador: 🤍 Doe Bitcoins: 18A9Se4FK2hSsDT7xZ7n5FdRQ47WCjcftw Site: 🤍 YouTube: 🤍 Instagram: 🤍 Instagram do Guanabara: 🤍 Facebook: 🤍 Twitter: 🤍 Patrocínio HOSTNET: 🤍 ESTUDONAUTA: 🤍 #RaspberryPi #Arduino #ComputadorBarato
Two of the most popular microcontrollers are the Arduino and the Raspberry Pi Pico. There are quite a lot of similarities, but also some important differences. Which is the best one for your project? Let me explain! Let Me Explain T-shirt: 🤍 Twitter: 🤍 Instagram: 🤍 #garyexplains
Best PCB prototyping ($2 for 10 boards): 🤍 Previous video: 🤍 Arduino Basics 101: 🤍 Arduino Basics 102: 🤍 Arduino Basics 103: 🤍 Facebook: 🤍 Twitter: 🤍 You can get a Raspberry Pi here: (affiliate links) Aliexpress: 🤍 Ebay: 🤍 Amazon.de: 🤍 Useful websites that were partly shown in the video: 🤍 🤍 🤍 🤍 🤍 🤍 🤍 In this video I will show you how to use the C and Python programming language in order to control the GPIOs of a Raspberry Pi. Along the way I will demonstrate for what projects the Raspberry Pi can be used and when you should rather use an Arduino instead. Thanks to JLCPCB for sponsoring this video Visit 🤍 to get professional PCBs for low prices Music: 2011 Lookalike by Bartlebeats Ecstatic Wave, Jens Kiilstofte 🤍
In this video we do a head to head comparison of the Arduino, the Raspberry Pi 2 and the Beablebone Black. We show that each machine has its place, and we show the strengths and Weaknesses of each machine. See full details at our WEB site at: 🤍
Заведи Raspberry — 🤍 В марте семнадцатого основатель Raspberry Pi Fondation Эбен Кристофер Аптон объявил, что за пять лет существования проекта было продано 12,5 миллионов одноплатников. Платформа обогнала легендарного старичка Commodore 64 и заняла третье место по продажам среди компьютеров общего назначения. До PC и Apple «Малине» ещё очень и очень далеко, но для железки, которая по первоначальному бизнес-плану должна была продаться тиражом 10 000 экземпляров, успех невероятный. Разумеется, такая популярная плата, да ещё и долгое время продававшаяся по принципу «одна штука в одни руки», обросла кучей легенд и мифов. И сегодня мы разберём самые популярные из них. 00:40 История Raspberry Pi: зачем плата создавалась, что такое компьютерный дарвинизм и причём тут BBC. 04:57 Raspberry Pi: «полноценный компьютер размером с кредитку» — так ли это и как работает Windows 10 на «малине». 06:59 RPi — очередная дорогая и бесполезная игрушка или полноценная платформа разработки. Scratch. Mincraft и противотанковые ракеты. 08:40 Придётся ли докупать ещё десяток железок — на чём можно сэкономить, а без чего не обойтись. 10:38 Raspberry чистокровная англичанка — где производятся платы и чем китайские отличаются от «китайских». 12:18 Raspberry Pi или Arduino. Наш взгляд на великий холивар. P.S. Nobody expects the Spanish Inquisition! — 14:36 P.P.S. В перебивках использовались милые меломанскому сердцу обложки Kraftwerk, Nirvana, Pink Floyd, Sex Pistols и Queen. _ Raspberry и всё для неё — 🤍 Набор для изучения Raspberry — 🤍 Как запустить и настроить плату — 🤍 #rpi #raspberrypi #amperka #железкиамперки
Twitter: 🤍 Facebook: 🤍 Previous video: 🤍 Get started with the Banana Pi: 🤍 Fixed Android Image: 🤍 Want to buld the DIY Screen from this video?: 🤍 In this video I talk about the advantages and disadvantages of the Banana Pi in comparison to the Raspberry Pi (Model B). I also talk about how to get started with the Banana Pi and why it is useful in the coming years.
Designing your own Arduino shield. The full step-by-step tutorial to design the board is here: 🤍 Be an inventor: - FEDEVEL online courses: 🤍 Would you like to support me? It's simple: - Sign up for online courses hosted on our platform: 🤍ion/ - Sign up for my Hardware design and PCB Layout online courses: 🤍 - You can also support me through Patreon: 🤍 - Or sign up for my Udemy course: 🤍 It is much appreciated. Thank you, - Robert
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. To compare features with Arduino UNO board. $4 ARM Microcontroller ::::::::::: SUPPORT CHANNEL :::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: Please Donate To Help Me Afford New Equipment And Software To Make My Videos More : 🤍 Don't forget to subscribe! Song: MBB - Feel Good (Vlog No Copyright Music) Music provided by Vlog No Copyright Music. Video Link: 🤍
Learn how to host your website on a Raspberry Pi 4 after your app gets booted from Amazon Web Services (AWS) 🤍 #aws #rpi #tech Raspberry Pi 🤍 AWS & Parler 🤍 Install the quiz app 🤓 iOS 🤍 Android 🤍 Upgrade to Fireship PRO at 🤍 Use code lORhwXd2 for 25% off your first payment. My VS Code Theme - Atom One Dark - vscode-icons - Fira Code Font
Реализация обмена данными между Raspberry PI и Arduino UNO используя I2C Купить товар можно на aliexpress Arduino UNO: 🤍 Ruspberry PI 3: 🤍 CashBack 7%: 🤍 Код: 🤍
Ludovic vous explique les différences entre un Arduino et un Raspberry Pi et vous montre les meilleures applications pour chaque plateforme.
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Check out Raspberry pi vs Arduino comparison. Difference between Arduino and Raspberry Pi. Here we provide you the comparison between both the development boards. Price for Arduino and raspberry pi is also mentioned in this video. You can also learn about the purpose for which both the board can be used. Which will help you to execute your project.
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
It's been so long since the last Dremel CNC update. Here is one that I wanted to build for a long time to protect my laptop from the dust. Raspberry Pi is a small computer that you can install Linux on and together with a 7-inch screen and custom buttons it is just a perfect choice for a CNC controller. Raspberry Pi: 🤍 Screen: 🤍 Buttons: 🤍 Power supply: 🤍 Dremel CNC parts list: 🤍 Support my projects on Patreon → 🤍 Raspbian: 🤍 Balena Etcher: 🤍 RetroGame: 🤍 Universal Gcode Sender: 🤍 Facebook group: 🤍 Instagram: nikodembartnik #raspberrypi #cnc #computer Music: On My Way by Ghostrifter Official 🤍 Creative Commons — Attribution-ShareAlike 3.0 Unported — CC BY-SA 3.0 Free Download / Stream: 🤍 Music promoted by Audio Library
इस वीडियो में हम समझेंगे कि Arduino और Raspberry Pi में क्या क्या अंतर हैं और हमें शुरआत में कौन सा खरीदना चाहिए | Arduino vs raspberry pi In this video I'll explain the difference between arduino uno and raspberrypi 3 in Hindi and I will also suggest which one to buy. - ✔️ Arduino Programming Tutorial in HIndi (Red Series) Link 🤍 Your queries - What is Arduino What is Raspberrypi Diffrence between arduino and raspberrypi Arduino in Hindi Raspberrypi in Hindi 💗 💗 PLEASE SUPPORT ME 🙏 🔗 Join our WhatsApp Group 🤍 🔗 Join our Signal Group 🤍 🔗 Join our Telegram Channel 🤍 🔗 Join our Telegram Group 🤍 Like my Facebook Page - 🤍 Join my Facebook Group - 🤍 Follow on Twitter - 🤍 Follow on Instagram - 🤍 Video is for educational purpose only. Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational or personal use tips the balance in favor of fair use. #scitivex
Get Code at: 🤍 You can connect a Raspberry Pi to your Arduino with a USB cable and read the Serial Output into Variable Values. Prerequisites: Analog Temperature Sensor with Arduino Raspberry Pi – How to Begin Coding Python on Raspberry Pi Functional Parts in the Project: Arduino Uno – 🤍 Breadboard Kit – 🤍 Analog Temperature Sensor – 🤍 Raspberry Pi 4 B USB Cable
(Links Below) This super easy method allows you to connect any Arduino's usb cable directly to a Raspberry Pi (Or even a PC!) and grab the data. Note: I will cover installing Node-Red on a PC in a later video in this playlist. Once you have it in node red, you can do anything from sending emails, UDP, TCP, or some really cool dashboards. Arduino Code - 🤍 Node-Red Code - 🤍 For Node-Red, hit the hamburger menu, click import, click clipboard. Paste the raw contents of the code above and click import. Pi Starter Kit - 🤍 Good SD Card - 🤍 Arduino Starter Kit - 🤍
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?
Take a look at the two smallest Raspberry Pi Routers in existence: The DFRobot IoT Router Board Mini and the Seeed Studio Routerboard! Along the way, learn about networking, OpenWRT, and how these two routerboards stack up against each other. Support me on Patreon: 🤍 Sponsor me on GitHub: 🤍 See my blog post with more links and data: 🤍 DFRobot's IoT Router Carrier Board Mini: 🤍 Seeed's Dual Gigabit Carrier Board: 🤍 GitHub issue for DFRobot Board: 🤍 GitHub issue for Seeed Board: 🤍 See all the PCI Express cards and CM4 boards I'm testing: 🤍 #RaspberryPi #HomeNetwork #Router Contents: 00:00 - Raspberry Pi Routers 00:55 - Tiny Routerboards 02:08 - Seeed Board overview 03:25 - DFRobot Board overview 04:24 - Getting OpenWRT working 06:24 - DFRobot test and benchmarks 08:54 - Seeed test and benchmarks 12:41 - WAP and WiFi Routing 13:28 - Verdict and 2.5 Gbps option? 14:17 - Outtakes
3 Modi per SCOPRIRE se il TUO COMPUTER è stato HACKERATO: Link: 🤍 Non CRACCARE SPOTIFY! Link: 🤍
Doing some art on touchscreen shield for Arduino UNO #engineering #engineer #raspberrypi #electrician #arduinoproject #technology LInk to display: 🤍
Breaking News: Arduino IDE support for the Pi Pico is available! No, not the official one. This probably still will take its time. But Earle F. Philhower, III published an unofficial support! Does it work, and how can we install it? And, of course, how fast is the Pico if we use the Arduino IDE? Really faster than anything we saw up till now? I am a proud Patreon of 🤍greatscottlab 🤍ElectroBOOM , 🤍ELECTRONOOBS , 🤍EEVblog , and others. No Docker, No Microsoft Teams, Zoom Links: Github with JSON string: 🤍 Pi Pico: 🤍 The links above usually are affiliate links that support the channel (no additional cost for you). Supporting Material and Blog Page: 🤍 Github: 🤍 My Patreon Page: 🤍 Discord: 🤍 If you want to support the channel, please use the links below to start your shopping. No additional charges for you, but I get a commission of your purchases to buy new stuff for the channel My Amazon.com shop: 🤍 For Banggood 🤍 For AliExpress: 🤍 For Amazon.de: 🤍 For Amazon UK: 🤍 For ebay.com: 🤍 🤍 🤍 🤍 Please do not try to email me. This communication channel is reserved for my primary job As an Amazon Associate, I earn from qualifying purchases #no#midroll#ads
Existen pantallas táctil que puedes agregar a tus proyectos electrónicos, también puedes diseñar tu propia interfaz gráfica para hacerlo más intuitivo, conoce proyectos en mi canal. #comolohiceinventor
Review of the 37 Sensors and Modules Kit (Version 2) for Raspberry Pi and Arduino Last year, I did a video review of Sunfounder's 37 sensors and modules kit for the Raspberry Pi and Arduino. They've recently updated the kit with a version 2 that includes updated modules and better instructions. In this video, I'm going to take a look at each sensor in the V.2 kit and explain a little about how each sensor works and what it can be used for. It's a really nice kit to have, especially if you're just starting out in DIY electronics. There are enough sensors to keep you busy for a very long time! Get the kit here: 🤍 Check out the Circuit Basics blog for articles and tutorials on the Raspberry Pi, Arduino and other DIY electronic projects! 🤍 Facebook: 🤍 Twitter: 🤍 Instagram: 🤍
Enroll in the full version of 'Electronics Crash Course' here: 🤍 My FREE introduction to robotics course- 🤍 Full Video article: 🤍 Facebook- 🤍 Twitter- 🤍 Website: 🤍 _ Video Article- SPI is an ultra simple communication protocol that is cheap to implement, supports fast 10mbs transfer speeds, and is incredeibily simple to implement in your project. SPI Stands for Serial Peripheral Interface (SPI) and is traditionally used used to send data between microcontrollers and small peripherals such as shift registers, sensors, and SD cards. It uses separate clock and data lines, along with a select line to choose the device you wish to talk to. Like I2C, SPI uses devices called slaves and masters. Masters are typically your microcontroller such as arduino or rpi, while slaves are typically your peripherals or sensors. Note that SPI only supports one master per communication loop but SPI does support multiple slaves. Now lets actually understand how the SPI Signal works. Firstly we must understand that SPI uses 3-4 wires- sck, mosi, Miso, and the optional SS if you have more than one slave. Firstly a common clock is established by the master to all the slaves via the sck wire. There are 4 modes for sampling the clock as you can see here. More details on these modes can be found in your spi devices datasheet and a more advanced tutorial on it is available in the description. Next if you have multiple slaves, the Master will decide which slave it wants to communicate to by pulling the appropriate slave’s SS line to a low voltage. Next the Master sends over appropriate information to the slave over the Master out slave in line (MOSI). Now there are 2 ways this information can be sent. Either with the most important bit first or the least important bit first. TO understand this lets look at the number 4037. Which digit is the most important here. Another way to think of this would be to ask which digit is most critical to the data. It is the thousands digit. SO depending on your spi device, you might need to send this bit first or last. Now the master can also request to receive information from the slave. This is useful in situations where the slave device is a sensor of some sort. After the master is done sending its information it can send a bit requesting for a reply and the sensor will send its reply over the MISO line. Now there are 2 ways of wiring up multiple slave devices in SPI. Multiple slave select. This is similar to how electronics would be wired in a parallel. This method allows you to individually address each slave via a unique ss line. This method is recommended if you need individual control of slaves. However you can run out of I/O pins if you have multiple slaves since each slave needs its own SS cable Alternatively You can daisy chain them like where the data out of each slave goes into the data in of the next slave. This is similar to how electronics are wired in series. This allows you to address all slaves with through one ss line. This method requires you to send enough data for each slave since the data overflows from one slave to the next. This method is commonly used for led clusters. Let's discuss why one would want to use SPI especially when solutions like i2c exist One reason that SPI is so popular is that the receiving hardware can be a simple shift register. This is a much simpler (and cheaper!) piece of hardware than the full-up UART (Universal Asynchronous Receiver / Transmitter) that asynchronous serial requires. No start and stop bits so we can stream information continously No need to have a slave adressing system integrated in your messages. We can simply enable a slave through a dedicated wire. Separate data in and data out lines so 2 way simultaneous communication is possible. Much faster than i2c Integrating SPI into your raspberry pi or arduino project is just as simple as I2C. Raspberry pi Implementation These are the SPI Pins for the RPI To activate SPI, you need to go into raspi-config, then into interfacing options and enable i2c. Make sure to have the rpi.GPIO python package installed on your RPI Arduino Implementation Each arduino board has different SPI pins. The uno uses pins 10,11,12, & 13 Lastly import the SPI.h library to implement SPIin your code, Sources 🤍 🤍 🤍 🤍
Make things for enjoyment ... Description of this project: 🤍 Components: Raspberry Pi 3, Arduino Uno, ESP8266 Source code: 🤍 Music: Youtube Audio Library/Free music(A Quiet Though) Other projects: ESP32-CAM: Simple Surveillance RC Car 🤍 ESP32-CAM: Classification with tensorflow.js 🤍 Arduino and Android: Breath Alcohol Tester 🤍 Arduino and Android: Object Tracking Camera 🤍 ESP32-CAM: Remote Control Object Detection Camera 🤍 ESP8266 Arduino Project: Electric Lock and Unlocked by Android Fingerprint 🤍 #RaspberryPiTensorflow #RaspberryPiClassificationSystem If you like, don't forget to subscribe and share for more fun projects: 🤍
Here's how to communicate between a Raspberry Pi and an Arduino using serial USB communication. Subscribe so that you don't miss new videos as they come out 🤍 Go to the main channel page here 🤍 Link to hackaday.io project: 🤍 Link to the source code shown in this video: 🤍 See also: Making Servo Robot Eyes for YoLuke Webcam - Izzy 🤍 Making BB-8 Droid (v2) - Part 1 🤍 Make USB Power Cable 🤍 🤍
Comparing the LattePanda and Raspberry Pi 3 single board computers. Includes performance tests, and also answers some of your questions regarding Windows 10 and video performance on the LattePanda. This video is a follow-up to my first LattePanda video here: 🤍 And my third LattePanda video is here: 🤍 And here I use a LattePanda as my only computer for an entire week: 🤍 The LattePanda website is at 🤍 The LattePanda 2/32GB with a Windows 10 key can be purchased on Amazon.com here: 🤍 The LattePanda is available from DF Robot at: 🤍 If you enjoy this video, you may like my review of the Raspberry Pi 3: 🤍 More videos on computing-related topics can be found at: 🤍 You may also like my ExplainingTheFuture channel at: 🤍
*Correction* ESP32-S3 has 1 × DVP 8-bit ~16-bit camera interface. Both the Arduino Portenta H7 and Espressif ESP32-S3 are dual-core operating MCUs. The price difference between the two devices is huge. I'm going to see if it's worth it through this video. Also, you can find the source code used here on my Github repository. I hope this will help you with your project. *Timestamps 0:00 - Intro: ESP32-S3 vs Portenta H7 0:33 - Spec Comparison (Simply) 1:10 - Core: ESP32-S3 vs Portenta H7 1:34 - Test #1: Calculating Pi w/ Single Core 2:30 - Test #2: Finding Prime Numbers w/ Single Core 3:43 - H7 Dual Core 4:04 - S3 Dual Core 4:11 - Test #3: Execute two tasks at the same time 5:19 - Core Speed Test Result 5:57 - Outro: H7 Connect External Monitor [ESP32-S3-DevKitC-1-N32R8V Development Board] 🤍 [Who Cares About MCU with Camera?] 🤍 [Raspberry Pi Pico VS ESP32 S2 speed comparison benchmark using CircuitPython] 🤍 [ELECROW Raspberry Pi Monitor 7 Inch Touchscreen IPS 1024x600] 🤍 [Project GitHub] 🤍 #Comparison #Portenta #Espressif #ESP32S3 #STM32H747 #ThatProject
I realise that this video may be a repeat for some viewers, but finally, support for the Raspberry Pi Pico is available in the Arduino IDE! This is official support from Arduino and now we can program the Pico using a significantly easier toolchain. This video shows you how to install the board from the Arduino board manager and use the Raspberry Pi Pico in the Arduino IDE. This process avoids the horrible toolchain set up that we used to have to do with VSCode. Now with the Arduino IDE support out, we expect the Arduino Nano 2040 Connect shortly, I will be covering that as soon as I can get my hands on one! The first time you plug in your Pico, you must hold down the bootsel button. However, after you have programmed your first sketch to the Pico, you no longer have to hold down this button when connecting to USB. If you have trouble uploading a sketch, such as a hard fault, try pressing the bootsel whilst connecting and re-uploading your sketch. 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.
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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
WHAT IS MQTT? MQTT (Message Queue Telemetry Transport) is a simple and ‘lightweight’ way for internet-connected devices to send each other messages. This is important for home-automation because devices need to send messages back and forth like ‘turn on the lights’ or ‘turn off the sprinklers.’ Devices using MQTT communicate by publishing data to topics. MQTT devices subscribe to a topic, and when data is published to that topic it is pushed to all the subscribers. Full tutorial for this video 🤍 Core Electronics is your home in Australia for: Raspberry Pi 🤍 Arduino 🤍 Sparkfun 🤍 Adafruit 🤍 Pololu 🤍 DFRobot 🤍
If you've tried to buy a Raspberry Pi in the past year or so then you've probably experienced some level of difficulty in getting one. So in this video, I'm going to try out three Raspberry Pi alternatives that I've found online. I'll be trying some basic media playback, then I'll try to use the GPIO pins to turn an LED on and off and finally I'll have a look at the power consumption on each. ADDITIONAL INFORMATION - Visit my blog for the written tests and more information - 🤍 PURCHASE LINKS - Raspberry Pi 4B - 🤍 Orange Pi 3 LTS - 🤍 Khadas VIM2 - 🤍 Tinker Board 2S - 🤍 Power Meter - 🤍 Portable Monitor - 🤍 Screen Capture Card - 🤍 5mm LED - 🤍 330 ohm Resistor - 🤍 Some of the above parts are affiliate links. By purchasing products through the above links, you’ll be supporting this channel, at no additional cost to you. CHAPTERS - 0:00 Intro 1:15 Three Selected Boards 3:00 Orange Pi 3 LTS 8:21 Khadas VIM2 14:32 Tinker Board 2S 18:49 Final Thoughts If you've got any ideas for Raspberry Pi, Arduino, or other Electronics projects or tutorials you'd like to see, let me know in the comments section.
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