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If you're just starting out as a tinkerer, sometimes it's difficult to know what tools are best to use. When it comes to learning computing and electronics, two platforms reign supreme: Arduino and Raspberry Pi. They're often compared with each other, so which one is best for beginners? This video looks at their differences and similarities so that you can be better informed. _ 📲🔗🔗📲 IMPORTANT LINKS 📲🔗🔗📲 🤍raspberrypi.org 🤍arduino.cc _ 💰💰💰💰 SUPPORT THE SHOW 💰💰💰💰 🤍 _ 🤔💡🤔💡 SUBMIT YOUR IDEAS 🤔💡🤔💡 🤍 📢📢📢📢 Follow 📢📢📢📢 🤍 🤍 tinkernut_ftw 🤍 🤍
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
Edureka IoT Training: 🤍 Looking for the right kind of development boards for your IoT projects? It obviously boils down to either the Raspberry Pi or the Arduino. Now, while both might look very similar, but they’re actually very different. They’re both designed for separate utilities and are used under different circumstances. So, it is very important to know when to use which to get the best out of your projects while keeping the entire system energy-efficient and minimal. I’ve explained how the electronic control provided by both these popular boards differ and pointed out their key differences so that you understand which one of these single board systems are better suited to the needs of your projects. Subscribe to our channel to get video updates. Hit the subscribe button above. #IoT #AdruinoVsRaspberryPi #IoTtutorial #RaspberryPi #Arduino #IoTboards #DevelopmentBoards #InternetOfThings #iotonlinetraining #Edureka About our IoT Training IoT Certification Training is designed by industry experts to make you a Certified IoT Developer. Edureka IoT training covers: Understanding of IoT architecture and IoT Decision Framework Configure Raspberry Pi, Understand Sensors, Actuators & get started with python on Raspberry Pi Program Sensors (Sense-HAT board), Face Detection and reorganization using OpenCV-Python Understand various IoT Networking Protocols which are mainly used to develop communication solutions Getting started with Cloud and Azure IoT Hub, demonstration of Azure IoT Hub APIs Architect an End-to-End Solution using Raspberry Pi, Sense HAT, and Azure Perform Data Analytics on the collected sensor data, use prediction algorithms to get useful insights IoT challenges, business solutions, research scope and current development, Alexa Voice Bot on Raspberry Pi Who should go for this IoT Training? This IoT Certification Training on Azure is for all the professionals who are passionate about work with IoT devices and want to go ahead and make their career as an IoT Developer. It is best suited for individuals who are: Software Developers who are venturing into IoT space Solution Architects Technical Architects Students who seek IoT knowledge Business Executives and Managers who want to understand the essentials of IoT - Why Learn IoT? Internet of Things is considered as the next big technology revolution after invention of the Internet. It is supposed to make tremendous impacts on lives and may possibly lead to the betterment of millions of lives throughout the world. According to Cisco, over 50 million devices are expected to be connected to IoT by 2020. Healthcare, Logistics, Aviation, Education, Information Technology name any thing and IoT will become an integral part of all these verticals. Internet of Things is believed to bring about the singularity which will ultimately converge into becoming the Internet of Everything. IoT has, therefore, become a leading interest of technologists globally and is perceived to be the NEXT BIG THING in IT industry. Learning IoT will not only provide you a career boost but you will also be able to gain insights on how technology has affected the world and will continue to do so in the coming decades. For more information, Please write back to us at sales🤍edureka.co or call us at IND: 9606058406 / US: 18338555775 (toll-free). Instagram: 🤍 Facebook: 🤍 Twitter: 🤍 LinkedIn: 🤍 Customer Review: Michael Harkins, System Architect, Hortonworks says: “The courses are top rate. The best part is live instruction, with playback. But my favourite feature is viewing a previous class. Also, they are always there to answer questions, and prompt when you open an issue if you are having any trouble. Added bonus ~ you get lifetime access to the course you took!!! ~ This is the killer education app... I've taken two courses, and I'm taking two more.”
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.
One of the big questions in DIY electronics circles is which DIY platform is going to be the best for me? And the two biggest platforms right now is Arduino and Raspberry Pi. Whilst at first glance they might seem the same; circuit board with some electronic chips and header pins. However they really are completely different beasts. Today we’ll be looking at a broad feature comparison on each platform Full overview 🤍 Raspberry Pi in Australia 🤍 Arduino in Australia 🤍 Core Electronics is your home in Australia for: Raspberry Pi 🤍 Arduino 🤍 Sparkfun 🤍 Adafruit 🤍 Pololu 🤍 DFRobot 🤍
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 🤍
In this video on Arduino and Raspberry Pi: In depth comparison, we will discuss about Arduino and Raspberry Pi in depth with it sfeatures, specifications, applications and many more. The Arduino amd Raspberry Pi are small, low-cost computer the size of a credit card that connects to a computer monitor or television and utilizes a conventional keyboard and mouse. It's a capable compact device that allows individuals of all ages to learn about computers and programming languages 🔥FREE IoT Course With Completion Certificate: 🤍 ✅Subscribe to our Channel to learn more about the top Technologies: 🤍 ⏩ Check out the IoT training videos: 🤍 #ArduinoAndRaspberryPiInDepthComparison #ArduinoVsRaspberryPiTutorial #RaspberryPiZeroTutorial #RaspberryPiZeroExamples #RaspberryPiZeroBestOS #RaspberryPiZeroWBeginnersGuide #IoTTutorialForBeginners #IoTTutorial #IoTProjects #Simplilearn What Is Raspberry Pi? The Raspberry Pi is a small, low-cost computer the size of a credit card that connects to a computer monitor or television and utilizes a conventional keyboard and mouse. It's a capable compact device that allows individuals of all ages to learn about computers and programming languages like Scratch and Python. It can do everything a desktop computer does, including accessing the internet and watching high-definition video, as well as spreadsheets, word processing, and gaming. The Raspberry Pi can communicate with the outside world and has been used in a variety of digital maker projects, including music machines and parent detectors, as well as weather stations and tweeting birdhouses with infrared cameras. Simplilearn IoT Course Overview: If you’re new to the Internet of Things (IoT) and want to leverage it across business functions, then this introductory course is for you. You’ll get a glimpse into the ever-growing field of IoT, a technology that allows the intelligent exchange of data among a network of internet-connected objects. The primary objective of this Introduction to IoT Training Course is to give you insights into the bright and exciting future of the Internet of Things (IoT). The course will familiarize you with IoT concepts, its origin, impact, methodologies and tools, and how IoT is integrated into business applications to improve business results. Key Features: - 2 hours of in-depth elearning - Lifetime access to self-paced learning - Industry-relevant course completion certificate - Comprehensive industry-relevant use cases and case studies Eligibility: This IoT course caters to CXO level and middle management professionals who want to enhance business value and ROI leveraging IoT. Simplilearn’s Introduction to IoT Training Course is ideal for anyone who wants to learn the fundamentals of IoT or pursue a career in this growing field. 👉Learn more at: 🤍 - Facebook: 🤍 - Twitter: 🤍 - LinkedIn: 🤍 - Website: 🤍 - Instagram: 🤍 - Telegram Mobile: 🤍 - Telegram Desktop: 🤍 Get the Simplilearn app: 🤍
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: 🤍
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 🤍
In this video on Arduino vs Raspberry Pi, we will see the key differences between two popular electronic Boards that is Arduino and Raspberry Pi. Audrino is an open-source electronic gadget that reads inputs and generates outputs based on those inputs. The Raspberry Pi is a small, low-cost computer the size of a credit card that connects to a computer monitor or television and utilizes a conventional keyboard and mouse. Here is the list of topics covered in this video: 00:00 - What is Arduino? 01:56 - What is Raspberry Pi? 02:49 - Arduino vs Raspberry Pi 08:40 - Which is better Arduino or Raspberry Pi? 🔥FREE IoT Course With Completion Certificate: 🤍 ✅Subscribe to our Channel to learn more about the top Technologies: 🤍 ⏩ Check out the IoT training videos: 🤍 #ArduinoVsRaspberryPi #InternetOfThings #Arduino #RaspberryPi #AurduinoInternetOfThings #RaspberryPiExplained #IoTTutorialForBeginners #IoTTutorial #IoTProjects #Simplilearn What Is Raspberry Pi? The Raspberry Pi is a small, low-cost computer the size of a credit card that connects to a computer monitor or television and utilizes a conventional keyboard and mouse. It's a capable compact device that allows individuals of all ages to learn about computers and programming languages like Scratch and Python. It can do everything a desktop computer does, including accessing the internet and watching high-definition video, as well as spreadsheets, word processing, and gaming. The Raspberry Pi can communicate with the outside world and has been used in a variety of digital maker projects, including music machines and parent detectors, as well as weather stations and tweeting birdhouses with infrared cameras. What Is Arduino? Audrino is an open-source electronic gadget that reads inputs and generates outputs based on those inputs. Audrino was created at the Ivrea Interaction Design Institute as a simple tool for students with no prior experience with electronics or programming. After acquiring popularity, it began to evolve in order to meet new demands and obstacles. Arduino boards are microcontrollers, not entire computers with operating systems of their own, like the Raspberry Pi. They just run C/C code that is stored in their firmware. The Arduino Integrated Development Environment (IDE) is free software that allows you to create and upload code to an Arduino board. Simplilearn IoT Course Overview: If you’re new to the Internet of Things (IoT) and want to leverage it across business functions, then this introductory course is for you. You’ll get a glimpse into the ever-growing field of IoT, a technology that allows the intelligent exchange of data among a network of internet-connected objects. The primary objective of this Introduction to IoT Training Course is to give you insights into the bright and exciting future of the Internet of Things (IoT). The course will familiarize you with IoT concepts, its origin, impact, methodologies, and tools, and how IoT is integrated into business applications to improve business results. Key Features: - 2 hours of in-depth elearning - Lifetime access to self-paced learning - Industry-relevant course completion certificate - Comprehensive industry-relevant use cases and case studies Eligibility: This IoT course caters to CXO level and middle management professionals who want to enhance business value and ROI leveraging IoT. Simplilearn’s Introduction to IoT Training Course is ideal for anyone who wants to learn the fundamentals of IoT or pursue a career in this growing field. 👉Learn more at: 🤍 - Facebook: 🤍 - Twitter: 🤍 - LinkedIn: 🤍 - Website: 🤍 - Instagram: 🤍 - Telegram Mobile: 🤍 - Telegram Desktop: 🤍 Get the Simplilearn app: 🤍
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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
Arduino vs Raspberry Pi - Difference between Arduino and Raspberry Pi Arduino and Raspberry Pi are the most popular devices among engineering students, hobbyists, and professionals. Experienced and professionals know the differences and utility between the Arduino and Raspberry Pi. But both beginners and students are just confused between them, like which board is easy to learn or which board to use for their project or why should they use Arduino over Raspberry Pi and vice versa. So, in this video, we discuss between difference between Arduino and Raspberry Pi . More videos:- Electrical Safety - Electrical Safety Testing 🤍 Types of Water Valves - Plumbing Valve Types 🤍 Types of Rotors - Different types of Rotors and their characteristics 🤍 #Arduino #Raspberry_Pi #Learning_Engineering #konok_kamruzzaman Follow me on Facebook: 🤍 Join on my Facebook group: 🤍 Dear Sir, Thanks for watching my videos. If you have any question write in the comment box. Don’t forget to like and share. More updates please subscribe to our channel Learning Engineering, and get a notification to press the bell icon. arduino vs raspberry pi for robotics,arduino,arduino definition,arduino meaning,arduino tutorial,arduino vs raspberry pi,raspberry pi uses,raspberry pi model b,raspberry pi kit,raspberry pi 3 model b,raspberry pi 4,raspberry pi 2,raspberry,raspberry pi 3,raspberry pi,arduinos,arduino programming,arduino robot,arduino bluetooth,arduino kit,arduino starter kit,arduino uno,learning engineering
Je arduino of Raspberry pi is kapot of werkt niet en je project mislukt. In deze video leggen we uit hoe je dit soort problemen kan voorkomen. Wij hebben net een Raspberry pi opgeblazen dus spreken uit ervaring. Vaak worden er trouwens ook fouten gemaakt bij de aanschaf van materialen en daar hebben we ook tips voor. Het achtergrondverhaal Mancave is druk bezig met een social counter. Dat is een zelfgemaakte digitale social media like teller waarmee je je aantal volgers op facebook en youtube kan zien. Het idee is leuk, maar het ding werkt niet. Waar ging het mis? In dit filmpje leggen we uit welke fouten we hebben gemaakt zodat jij ze kan voorkomen. Fouten en tips Fout 1: verkeerde materialen gekocht We hebben verschillende spullen aangeschaft waaronder LED segmenten (die werkten perfect) een chip en wat transistors. Allemaal prima producten. Maar... we hebben niet alle beschrijvingen gelezen en het past dus niet bij elkaar; verkeerde verbindingen, potentiaal niet groot genoeg etc. Misschien ken je het. Misser 2: LED brandt door (2:33 min) Yep, we zijn vergeten om weerstanden tussen de driver chip en de panelen te zetten waardoor de LED's doorbrandden. Okay, we waren de weerstanden niet vergeten, maar hadden gewoon de verkeerde datasheet gelezen. Flater 3: we blazen de Raspberry Pi op (3:08 min) We hebben een Rasberry Pi volledig doorgebrand. Hartstikke zonde, dus zorg dat je dit voorkomt. Zie hier een aantal tips: - Zet de stroom uit als je iets aanpast aan je circuit - Haal een bufferbordje voor je Raspberry Pi (of arduino) Mocht je toch iets fout doen, dan gaat de buffer stuk, maar blijft je Raspberry Pi heel - Meet alles door met een multimeter. Doe dit terwijl het circuit uitstaat en dus geen stroom krijgt. In de video zie je hoe je dat moet doen. - Maak je circuit eerst op een breadboard Nog een tip: doe niet te moeilijk over je fouten. Vergeet het en ga lekker door. Het hoort erbij en je leert ervan. Deze producten bespreken we in de video * Raspberry Pi 🤍 * Labvoeding 🤍 * Bufferboard 🤍 * Multimeter 🤍 * Breadboard 🤍 Social counter Benieuwd geworden naar die like teller? Je kan hem zelf maken. Hoe je dat doet, zie je hier: 🤍 In deze tutorial leggen we ook uit wat multiplexing is Laat je horen! Heb jij leuke ideeën voor een gaaf project of heb jij iets vets gemaakt dat je graag met ons wilt delen? Neem contact met ons op! We horen graag van je. Wacht! Subscribe nog even op ons kanaal zodat je op de hoogte blijft van nieuwe tutorials 🤍 Voor nieuwtjes en ideeën voor je man cave kun je ons volgen op: Facebook: 🤍 Instagram: 🤍 En bezoek onze website ook eens: 🤍 Alle gebruikte producten in deze video zijn gesponsord door 🤍
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This video on what is arduino? by simplilearn will help you learn the fundamentals of arduino software and the critical components required to work with one. later, you will be enlightened with the top arduino projects to get your hands on in the year 2022. finally we will wrap up the session with discussing the critical differences between arduino and RPA. 🔥FREE IoT Course With Completion Certificate: 🤍 ✅Subscribe to our Channel to learn more about the top Technologies: 🤍 ⏩ Check out the IoT training videos: 🤍 #WhatIsArduino #ArduinoProjects #ArduinovsRaspberryPi #ArduinoExplained #BasicConceptsOfArduino #ArduinoProgramming #AurduinoTutorial #IoTTutorialForBeginners #IoTTutorial #IoTProjects #Simplilearn Simplilearn IoT Course Overview: If you’re new to the Internet of Things (IoT) and want to leverage it across business functions, then this introductory course is for you. You’ll get a glimpse into the ever-growing field of IoT, a technology that allows the intelligent exchange of data among a network of internet-connected objects. The primary objective of this Introduction to IoT Training Course is to give you insights into the bright and exciting future of the Internet of Things (IoT). The course will familiarize you with IoT concepts, its origin, impact, methodologies and tools, and how IoT is integrated into business applications to improve business results. Key Features: - 2 hours of in-depth elearning - Lifetime access to self-paced learning - Industry-relevant course completion certificate - Comprehensive industry-relevant use cases and case studies Eligibility: This IoT course caters to CXO level and middle management professionals who want to enhance business value and ROI leveraging IoT. Simplilearn’s Introduction to IoT Training Course is ideal for anyone who wants to learn the fundamentals of IoT or pursue a career in this growing field. 👉Learn more at: 🤍 - Facebook: 🤍 - Twitter: 🤍 - LinkedIn: 🤍 - Website: 🤍 - Instagram: 🤍 - Telegram Mobile: 🤍 - Telegram Desktop: 🤍 Get the Simplilearn app: 🤍
Raspberry Pi turns 10! To celebrate, here's the list of my ten favorite Raspberry Pi projects through the years. Support me on Patreon: 🤍 Sponsor me on GitHub: 🤍 Merch: 🤍 2nd Channel: 🤍 #RaspberryPi #Top10 Mentioned in the video (in order of appearance): - I Block Ads shirt: 🤍 - OSMC: 🤍 - Kodi: 🤍 - Plex: 🤍 - Pi Dramble Cluster: 🤍 - Turing Pi 2 Cluster: 🤍 - Turing Pi 2 on a FARM: 🤍 - 4G LTE on a Pi: 🤍 - Waveshare 5G/4G Dual Ethernet Carrier Board: 🤍 - PiVPN: 🤍 - Open Media Vault: 🤍 - NextCloud: 🤍 - $5000 48 TB All-SSD Pi NAS: 🤍 - Home Assistant Yellow: 🤍 - Arducam 16MP Autofocus Camera: 🤍 - Showmewebcam: 🤍 - DIY Air Quality Monitoring: 🤍 - RetroPie: 🤍 - Retro Lite CM4: 🤍 - Picosystem: 🤍 - Null 2 DIY Retro Gaming Handheld Build: 🤍 - Pi-Hole: 🤍 - Red Shirt Jeff - I block ads shirt: 🤍 - FTC Report on ISP Privacy Practices: 🤍 Contents: 00:00 - Happy 10th Birthday! 00:19 - 10 - Media Center 00:42 - 9 - Cluster for learning 01:27 - 8 - 4G / 5G Hotspot 02:00 - 7 - PiVPN 02:35 - 6 - NAS (OMV, NextCloud) 03:16 - 5 - Home Automation Hub 03:47 - 4 - Camera 04:31 - 3 - Environment Monitoring 05:00 - 2 - Retro Gaming 05:42 - 1 - Pi-Hole (Privacy + DNS)
The Raspberry Pi and Arduino are both excellent platforms in their own right, but they both have their pros and cons. As I discovered in my earlier video why accept compromise when you can have the best of both: 🤍 This video shows you how you can connect a Raspberry Pi to an Arduino, both to program the Arduino and then to communicate with the Arduino. In this case the Raspberry Pi takes on the role of a primary controller with the Arduino acting as a secondary device responding to the instructions of the Raspberry Pi. #raspberrypi #arduino This is achieved using serial communications over USB, although could also be applied to direct serial from the Raspberry Pi GPIO to the Arduino Serial pins (with appropriate voltage level-shifting). This example uses the USB port which uses UART serial communications. These are generally asynchronous communications sent half-duplex with one side sending at a time. This is similar to RS-232 serial communications that you may have used on older computers, but this uses different voltages and doesn't meet the full RS-232 specification. #uart The video explains the circumstances this can be useful, before working step-by-step through a practical exercise with the Arduino measuring an analog input voltage and reporting that to the Raspberry Pi, and the Raspberry Pi telling the Arduino when to turn an LED on and off. The communication between the Raspberry Pi and the Arduino is over a custom text based protocol, making it easy for humans to understand the communication. First the code is created on the Arduino using C which can be tested using the Arduino IDC serial monitor. Then the serial code for the Raspberry Pi is added in Python which sends instructions to the Arduino. This is going to form the basis of more advanced projects that I'm hoping to work on in future. So if you want to see more please subscribe to my channel and click on the notification icon to be notified of my future videos. More details are available on my website at: 🤍 The 3d print design plans breadboard mount that the Arduino and breadboard is on are available from 🤍 Chapters: 00:00 Introduction 00:34 Advantages of Raspberry Pi 01:53 Advantages of the Arduino 03:36 Taking the best of each platform 04:28 Using GPIO serial pins 06:05 Creating the circuit 06:46 Installing the Arduino on the Raspberry Pi 07:19 Launching the IDE and programming the Arduino 08:35 Basic electronics code 10:05 Adding serial code to the Arduino 33:27 Adding Python serial code to the Raspberry Pi 37:43 Running the Raspberry Pi and Arduino code together Raspberry Pi UART Information 🤍 Arduino Serial Information 🤍
➤ Skip Intro: 00:01:56 Looking for a career upgrade & a better salary? We can help, Choose from our no 1 ranked top programmes. 25k+ career transitions with 400 + top corporate companies. Exclusive for working professionals: 🤍 🔥 Get your free certificate of completion for the What is IoT? Course, Register Now: 🤍 🔥 Today’s video discusses the difference between Arduino vs Rasberry Pi, and also talks about which of the two is better for IoT projects! Internet of Things, popularly abbreviated as IoT, is a system of interrelated objects connected by the internet that can collect as well as transfer data wirelessly without any human intervention. IoT can be understood as the network of physical objects that are embedded with sensors and processors for the purpose of collecting, exchanging, and connecting data with other devices and systems over the Internet. Great Learning brings you this explanatory video on Arduino vs Rasberry Pi, to help you understand which is better for IoT Projects and getting started on the journey to learn about them well. This video starts with an introduction to Arduino and Raspberry Pi, followed by understanding their build, usage, expansion and other characteristics. Following this, we will understand which of the two is better for IoT projects. This video explains Arduino vs Rasberry Pi in-depth and lets you understand which of the either will prove to be better for IoT projects. 00:00:00 Introduction 00:01:56 Agenda 00:02:56 Introduction to Arduino and Raspberry Pi 00:07:14 Arduino vs Raspberry Pi 00:07:51 Build 00:08:57 Usage 00:10:09 Expansion 00:12:08 Connectivity 00:12:46 Power supply 00:13:55 Storage 00:15:05 Programming 00:16:42 Expandability 00:18:08 Cost 00:20:18 Which one to choose? 00:23:55 Summary Visit Great Learning Academy, to get access to 300+ free courses with 1000+ hours of content on Data Science, Data Analytics, Artificial Intelligence, Big Data, Cloud, Management, Cybersecurity, Software Development and many more. These are supplemented with free projects, assignments, datasets, quizzes. You can earn a certificate of completion at the end of the course for free. 🤍 Get the free Great Learning App for a seamless experience, enroll for free courses and watch them offline by downloading them. 🤍 About Great Learning: - Great Learning is an online and hybrid learning company that offers high-quality, impactful, and industry-relevant programs to working professionals like you. These programs help you master data-driven decision-making regardless of the sector or function you work in and accelerate your career in high growth areas like Data Science, Big Data Analytics, Machine Learning, Artificial Intelligence & more.
Na pierwszy rzut oka widać, że RASPBERRY PI 3 B PLUS ma o wiele mniej elementów niż jej poprzedniczka RASPBERRY PI 3 B, ale na tym różnice się nie kończą. Po pierwsze oprócz zmiany w postaci ekranowanego radia (Cypress CYW43455) zmieniła się również antena. W RASPBERRY PI 3B była to antena ceramiczna, a w nowej RASPBERRY PI 3 B + mamy antenę wytrawioną w PCB. Na płytce RASPBERRY PI 3 B PLUS zostały umieszczone 4 nowe piny, które będą służyły do połączenia z opcjonalnym PoE HAT, pozwalając zasilić nową malinę bezpośrednio z sieci LAN (48V). Następnie widzimy różnice w postaci nowego chipu odpowiedzialnego za sieć LAN i USB (LAN7515 zamiast LAN951x), ten w nowej malince jest przysunięty bliżej w kierunku gniazda rj45, o czym należy pamiętać, jeśli chcemy nałożyć na niego radiator i umieścić w obudowie (obudowy do RPI 3B mogą nie być kompatybilne z RPI 3B+). Sam procesor BCM2837B0 to odgrzewany kotlet, czyli BCM2837 z na stałe zamontowanym metalowym radiatorem, podkręcony o 200MHz. Przetestowałem nowe RASPBERRY PI 3 B+ pod kątem uzyskiwanych temperatur i poboru energii. No i oczywiście porównałem te wyniki z jej poprzedniczką czyli RASPBERRY PI 3B. TU JESTEM ► FACEBOOK 🤍 ► INSTAGRAM 🤍 ► INTELIGENTNA GRUPA 🤍 LINKI DO TEMATÓW WSPOMNIANYCH W ODCINKU: Test RPI 3B+ na MALINOWE PI (zobaczycie tu m.in. prędkość LAN i WiFi) 🤍 Porównanie LAN7515 vs. LAN9514 🤍 Specyfikacja Cypress CYW43455 🤍 JEŚLI INTERESUJE CIĘ TEMATYKA INTELIGENTNEGO DOMU ZOBACZ KONIECZNIE INNE MOJE FILMY Wszystkie odcinki INTELIGENTNY DOM DIY 🤍 Wszystkie odcinki SZYBKI SZMAL 🤍 Wszystkie TESTY i RECENZJE 🤍 Dziękuję za wszystkie komentarze! NIE ZAPOMNIJ SUBSKRYBOWAĆ MOJEGO KANAŁU :) #raspberrypi3bplus #rpi3bplus #raspberrypi3b+ #rpi3b+
Namaskaar Dosto, is video mein maine aapse Arduino ke baare mein baat ki hai, aap mein se bahut se users ne pucha hai ki Arduino kya hota hai? Arduino Projects kya hote hai? Arduino aur Raspberry Pi mein kya difference hai. Maine aapse is video mein inhi sab ke baare mein baat ki hai. Mujhe umeed hai ki aapko Arduino ke baare mein yeh video pasand aayega. Share, Support, Subscribe!!! Subscribe: 🤍 Android App: 🤍 Youtube: 🤍 Twitter: 🤍 Facebook: 🤍 Facebook Myself: 🤍 Instagram: 🤍 Google Plus: 🤍 Website: 🤍 Merchandise: 🤍 About : Technical Guruji is a YouTube Channel, where you will find technological videos in Hindi, New Video is Posted Everyday :)
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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
This is a video series! Check out the playlist: 🤍 This is version 3 of my Raspberry setup Containing: - GPS receiver - dual AIS receiver - temperature, pressure, humidity measurement - GPS tracker - AIS Cache - NAVTEX - WiFi
Dave takes a look at the Orange Pi One $10 single board 4 ARM Cortex A7 processor computer and compares it to the Raspberry Pi 2. Coving the install of the ARMbian flavour of Debian. Beware the security bug! And what is the power/watt efficiency between the two? 🤍 Schematic: 🤍 Allwinner H3 datasheet: 🤍 Open source Allwinner H3 community: 🤍 Forum: 🤍 EEVblog Main Web Site: 🤍 The 2nd EEVblog Channel: 🤍 Support the EEVblog through Patreon! 🤍 EEVblog Amazon Store (Dave gets a cut): 🤍 T-Shirts: 🤍 💗 Likecoin – Coins for Likes: 🤍
In the third installment of the I2C series, I will show you two ways to interface a 3.3-volt Raspberry Pi with a 5-volt Arduino Uno. Article with code samples - 🤍 More tutorials and articles - 🤍 Join us on the forum and have your say - 🤍 Sign up for the newsletter - 🤍 Today we are back working with the I2C bus, and this time we’ll be interfacing an Arduino with a Raspberry Pi. By hooking an Arduino to a Raspberry Pi we can get the best of both worlds. The Raspberry Pi is a powerful single-board computer, capable of running a Linux operating system and connecting natively to the internet. The Arduino is a very capable microcontroller with several I/O pins, an Analog to Digital converter, and precise timing and interrupt capabilities. Together, they make an incredible team. But one issue is that the two devices use different logic levels. The Raspberry Pi GPIO (General Purpose Input/.Output) bus operates using 3.3-volt logic, while most Arduino’s use 5-volt logic. Incorrectly interfacing them can lead to a non-functional Raspberry Pi, a situation best avoided! You CAN hook the two devices together directly, providing that certain specific conditions are met. Alternatively, you can use a very inexpensive logic level converter to isolate the 3.3-volt and 5-volt logic safely. In this video, I will show you both methods. Here is what you will see in today's video: 00:00 - Introduction 03:42 - I2C Logic Levels 06:47 - Raspberry Pi I2C Busses 08:30 - Setting up the Raspberry Pi 14:15 - Direct Hookup 15:35- Arduino Sketch 17:31- Raspberry Pi Python Code 20:30- Running the Demo 24:02- Using a Logic Converter While the demonstration is extremely simple it does effectively illustrate how easy it is to interface these two popular boards. We will be looking at I2C one more time, in a couple of weeks. So if you haven’t subscribed to the channel yet please do, that way you won’t miss out on anything. Thanks for watching! Looking forward to chatting with you on the DroneBot Workshop Forum soon.
In this video we take a look at the Raspberry Pi vs Arduino and which one is best for certain tasks. Full Guide: 🤍 These two devices are often compared of being quite similar but in fact are very different. Both the devices have their pros and cons these are covered in the video. We will briefly list some highlights below. The Arduino is known as a microcontroller board, these boards are designed to run small programs and interact with devices. They don’t feature an operating system but are able to interact with sensors, devices and execute code a lot faster. The Arduino is very barebones so you will find that I don’t have any networking support, USB ports or anything you will find in a typical computer. The Raspberry Pi on the other hand is a mini computer and needs an operating system in order to run. It features everything you will find in a normal computer is very cheap. This makes it perfect for cool little projects and stuffing around with. Since the Raspberry Pi features everything a computer does you get networking straight out of the box. This means you can setup your Pi so you can remotely access it from in the house or whilst on the go. One of the biggest things you will need to keep in mind when choosing between the Raspberry Pi and the Arduino is what projects you plan to do with it. The Arduino is better suited for electronic projects whilst the Raspberry Pi is better for software projects. I hope this video has helped clear up a lot of questions on the Raspberry Pi vs Arduino debate. If you like the video and would love to stay up to date, then please make sure subscribe to the channel!
In most robot projects you'll have a battery to power the motors and actuators. You also need a controller, where Raspberry Pi and Arduino are convenient and powerful options. In this video I show how you can power that controller from the LiPo battery. In the first part I cover various parts you can use to generate 5 volts. Next I cover some parts and techniques to deliver 5V into the board. 0:00 Introduction 0:38 Please use a fuse 1:31 PCB mounted step-down converters 2:38 Standalone converter modules 3:21 Using the BEC on an ESC 4:25 Where 5V can go into the Pi 5:09 Warning against high resistance 6:55 High resistance problem explanation 8:20 Feeding slightly more than 5V 8:57 Using a USB cable 10:23 Using a HAT 11:08 HAT as used in robot 11:46 Using separate PCB and ribbon cable 13:17 Monitoring battery voltage 16:03 Arduino 18:16 Outtro Instagram: 🤍 Website: 🤍
Raspberry Pi 3 Model B+ review and demo, including processor speed and thermal performance tests compared to the previous Raspberry Pi 3. Note that since posting this video I have been informed by OpenMediaVault that there is a much better BananaPro image available from this link: 🤍 If you like this video, you may enjoy some of my other single board computer reviews: Tinker Board S: 🤍 Odroid-XU4: 🤍 Rock64: 🤍 LattePanda: 🤍 UDOO x86 Advanced Plus: 🤍 More videos on the Raspberry Pi and other computing-related topics can be found at: 🤍 You may enjoy my recent book “Digital Genesis: The Future of Computing, Robots and AI”: 🤍 I also have another YouTube channel called ExplainingTheFuture at: 🤍
Use the new Pico W with the Arduino IDE instead of microPython! Article with code: 🤍 More articles and tutorials: 🤍 Join the conversation on the forum: 🤍 Subscribe to the newsletter and stay in touch: 🤍 On June 30, 2022, Raspberry Pi announced the latest iteration of it’s RP2040-based Pico microcontroller. The Pico W has the same pinout and form factor as the original Pico and has WiFi capabilities. Raspberry Pi also released a new UF2 file and several samples using microPython with the new WiFi chip. However, although they did release a C SDK, there was no update to the Arduino IDE for the new microcontroller. But you CAN use the Pico W with the Arduino IDE by using a new boards manager file that covers virtually every RP2040-based board. And today, I’ll show you how to install that for the classic Arduino IDE 1.8 and the newer IDE 2.0. After installing the new boards manager, we’ll give it a test. Then we’ll see how we can use the new WiFi features to control LEDs and servo motors with a web-based interface. Here is the Table of Contents for today's video: 00:00 - Introduction 03:25 - Raspberry Pi Pico W 08:05 - Bluetooth issues? 10:55 - Pico W vs. ESP32 13:35 - Installing the Boards Manager 18:22 - Blink test 20:48 - WiFi Network Scan 23:10 - Using the WiFi Library 28:07 - Using Web Data 30:56 - Pico W LED Control 37:43 - Pico W Servo Control 47:28 - Conclusion The Arduino IDE is a popular interface for programming microcontrollers, and now we can use it with the Pico W. Hope you enjoy the video! Bill
Prefer to read this? 🤍 (sorry for spamming, we found a bug in the rendering of the last video!) What’s MakeUseOf? Technology, simplified. The MakeUseOf blog covers all types of technology, including advice for all the popular operating systems and gadgets on the market, and tips for your browsing, social media and gaming habits. We’re also keen to help you personally make more of your time using technology, so we include a lot about personal productivity, finance, smart home tech, entertainment and more. Plus, we’re always running giveaways and finding great deals we can share with you. So keep an eye out for them! Plenty of our readers have won iPhones, tablets and more through our giveaways. So FOLLOW US on your favourite social media sites and get MakeUseOf.com into your RSS feeds. And come say hi in the comments of our posts anytime! We’d love to meet you! Website: 🤍 RSS: 🤍 iTunes App Store: 🤍 Google Play: 🤍 Deals: 🤍 Latest Giveaway: 🤍 Twitter: 🤍 Facebook: 🤍 Pinterest: 🤍 Instagram: 🤍 LinkedIn: 🤍 Google+: 🤍
In this tutorial we will be looking at the Arduino and how to use it with the Raspberry Pi... I will show you how to install all the necessary software in order to program the Arduino, I will tell you all you need to know about Arduino and where you should get one etc. By the end of this episode you will be able to understand an entire C Arduino program that makes a LED flash on and off. I hope you enjoy this tutorial and also hope that you will subscribe, like and watch my other videos: 🤍 CODE AND INFO: My Arduino is the: Arduino Mega 2560 which I purchased from eBay for £17. I would recommend getting the UNO as this is the Arduino flagship model... Here is the forum post with all the commands: 🤍 Please email me and comment on my videos if you have any problems or would like some support with your Raspberry Pi project: theraspberrypiguy🤍gmail.com The Raspberry Pi Guy WHAT ARE YOU DOIN'? Why haven't you subscribed yet?
Raspberry Pi Zero plant watering system using a resistive moisture sensor, solenoid valve and relay HAT. And there’s also a camera for recording a time lapse movie of the plants growing! You can download the code used in the video from this page: 🤍 IMPORTANT NOTE: On October 30th 2021, a new version of Raspberry Pi OS was released known as “Bullseye”. This has new camera drivers that are not compatible with the Python camera code included in this video. Sorry. If you are running the version of Raspberry Pi OS known as "Buster", or an earlier version, things should work just fine. I discuss the matter in depth in my video here: 🤍 My previous “Raspberry Pi Battery Power” video is here: 🤍 And the video where I first use the relay HAT is here: 🤍 The moisture sensor I used is here: 🤍 The FPD-270A solenoid valve I used is here: 🤍 (affiliate link). But the price has increased, and a cheaper equivalent is here: 🤍 (affiliate link). And an alternative on Amazon.com is here: 🤍 (affiliate link). Note that different FPD-270A valves have different diameter inlets and outlets, so make sure you know what you are getting and what pipe will be required! :) The two-relay Pi Zero relay HAT I showed in the video is here: 🤍 (affiliate link). The three-relay HAT I actually used is no longer available in the UK, but is listed on Amazon.com here: 🤍 (affiliate link). More videos on SBCs and broader computing and related topics can be found at: 🤍 You may also like my ExplainingTheFuture channel at: 🤍 Chapters: 00:00 Introduction 00:35 Hardware 04:26 Moisture sensor test 06:56 Solenoid valve test 09:18 A Cunning Plan 10:50 Test System 18:24 In the Wild 20:38 Biology in Action 20:59 Wrap
In this tutorial we are going to learn how to send data to remote webserver and store them into a MySQL database. Then we are going to display all the data using a simple PHP script! Amazing stuff! Hey guys, I am Nick and welcome to educ8s.tv a channel that is all about DIY electronics projects with Arduino, Raspberry Pi, ESP8266 and other popular boards. Today's project is very important and extremely useful because we will learn how to store data online! I am using a Raspberry Pi 3 board along with the Sense Hat. The Sense Hat is an add-on board for the Raspberry Pi, which offers many sensors, including a temperature sensor, a humidity sensor, a barometric pressure sensor and many more. 💻 Code & Parts: 🤍 Want to learn to code? 👨💻 Check my new YouTube channel: 🤍 🎮 My Android Game: 🤍
🤍 - (VID-CL-0059) In this video, a Raspberry Pi is compared to a CLICK PLC utilizing analog input and output controls to operate a water heater. Can a consumer electronics controller like the Raspberry Pi compare to an industrial controller like the CLICK PLC? In this video, we discuss the pros and cons of each controller style. To learn more visit 🤍 Check out all of our videos at 🤍 To subscribe: 🤍 Facebook: 🤍 Twitter: 🤍 LinkedIn: 🤍 Prices were valid at the time the video was released and are subject to change. Related AutomationDirect.com part numbers: C0-01AC, C0-12DD1E-2-D, C0-04RTD, C0-04AD-1
Here is our review of the Raspberry Pi Compute Module 3. A new day is upon us, and it is glorious. After all, it’s not often that a new Raspberry Pi board is released. As you’re probably aware, the current iteration of the popular Raspberry Pi microcomputer is the Raspberry Pi 3. It has a Broadcom BCM2837 System-on-Chip (SoC) which features a quad-core processor clocking in at 1.2GHz and is supported by 1GB of RAM. Pretty impressive given the size and cost of the device, not to mention the enormous software stack and community resources that are behind it. As we said, you’re probably already aware of this, but what you may not know is the Pi 3’s little brother; the Raspberry Pi Compute Module. Full tutorial 🤍 Raspberry Pi Compute Module 3 🤍 Compute Module 3 Lite 🤍 Raspberry Pi Compute Module 3 Development Kit 🤍 Core Electronics is your home in Australia for: Raspberry Pi 🤍 Arduino 🤍 Sparkfun 🤍 Adafruit 🤍 Pololu 🤍 DFRobot 🤍
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 🤍 🤍