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In this episode of Product of the Week, we will be showing off the mighty, the strong, the all-incredible Arduino Nano Every! The Arduino Nano is a great development board, it's small, it's light, and it's very capable. However, the Nano is an old design, and there are a number of features that could be improved on, one being its price. The Arduino Nano Every is Arduino's answer to the dire need for upgrades on the Nano, making a number of fundamental changes while still keeping the board compatible with previous Nano projects. ▬ Support us! ▬▬▬▬▬▬▬▬▬▬ We publish a new show every week. Subscribe here: 🤍 We stock the latest products from Adafruit, Seeed Studio, Pimoroni, Sparkfun, and many more! Browse our shop: 🤍 Join us on Discord! 🤍 Follow us on Twitter: 🤍 Like us on Facebook: 🤍 Follow us on TikTok: 🤍 Follow us on Instagram: 🤍 Don't have time to watch the show? Listen to the Electromaker Show in podcast format on your favourite podcast platform! 🤍 ▬ Contents of this video ▬▬▬▬▬▬▬▬▬▬ 0:00 - Intro 0:15 - What is it? 0:40 - Why is it awesome? 1:30 - Features and specs 3:53 - Projects 5:27 - Finally...
To try everything Brilliant has to offer—free—for a full 30 days, visit 🤍 The first 200 of you will get 20% off Brilliant’s annual premium subscription. Arduino has just added another board to their Nano family. The new Arduino Nano ESP32 which unsurprisingly, is powered by an ESP32 chip, specifically the ESP32 S3. In this video we are going to review the Nano ESP32 and tell you how it stacks up. We are going cover how you can program this board and give you a couple of demos to demonstrate it’s capabilities. Purchase link (Arduino Store): 🤍 UBlox NORA-W106 Datasheet: 🤍 ESP32 S3 Datasheet: 🤍 Timestamps 00:00 Introduction 00:43 Nano Family 02:43 Brilliant 03:39 Pricing 04:05 Dimensions 04:36 Specs 07:44 Power Consumption 08:20 Programming 09:10 Demo 10:13 Conclusions You can find more embedded systems tutorials and projects on our website 🤍 Equipment we use regularly The following links are affiliate links where we 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 video was sponsored by Brilliant.
I am happy Arduino decided to add an ESP32 board to their line of products. This is an Arduino Nano ESP32 development board, small and compact but still powerful as any ESP32 S3 board. I made a simple example to test this board and here it is, I hope you like it. Here is code: 🤍 You can buy me COFFEE here: 🤍 Thank you!! #arduino #arduinoproject #esp32 #esp32project
*Learn to program and prototype with Arduino now! Join our membership.* 🤍 We designed this circuit board for beginners! Kit-On-A-Shield: 🤍 FOLLOW US ELSEWHERE - Facebook: 🤍 Twitter: 🤍 Website: 🤍
The Arduino Nano 33 IoT is an advanced 32-bit version of the original Nano, with integrated Bluetooth, Wifi, RTC, and IMU. Article with code: 🤍 More articles and tutorials: 🤍 Join the conversation on the forum: 🤍 Subscribe to the newsletter and stay in touch: 🤍 The workshop has returned with a look at the Arduino Nano 33 IoT board, a pin-for-pin low-voltage version of the original Arduino Nano board. This powerful update to an old classic features a 32-bit SAMD21 microcontroller with an integrated Real Time Counter. Arduino has added WiFi, Bluetooth, and an IMU (Inertial Measurement Unit) to this little gem, making it ideal for remote control and IoT applications. This board also lives up to its name, as it is compatible with the Arduino Cloud IoT services. We won’t be covering that today, however, as that's a subject for another video. In this video, we will look at the Arduino Nano IoT board, and examine the similarities and differences between it and the original Nano. We will set up the Arduino IDE, install some libraries, and give the board a test. Here is what we will be doing today: 00:00 - Introduction 03:11 - Arduino Nano 33 IoT 09:22 - Arduino IDE Setup 14:01 - WiFi Scan 17:39 - WiFi Connect 19:42 - WiFi Real-Time Clock 24:34 - Accelerometer & Gyroscope 28:44 - Bluetooth Scan 31:52 - Bluetooth Central & Peripheral 39:01 - Conclusion This is an easy board to work with, and we will be using it in a few IoT projects that you will be seeing very soon. Hope you enjoy the video, which you can now see in 4K! Bill
The Nano ESP32 officially brings the ESP32-S3 to the world of Arduino and MicroPython programming. It uses the well-known Arduino Nano form factor and includes Wi-Fi and Bluetooth. I got hold of one and I have been testing it. Here is what I found out. - Let Me Explain T-shirt: 🤍 Twitter: 🤍 Instagram: 🤍 #garyexplains
Previous video: 🤍 Make your own Coilgun: 🤍 DIY Buck/Boost Converter (Flyback) || How to step up/down DC voltage efficiently: 🤍 Facebook: 🤍 Twitter: 🤍 Support me for more videos: 🤍 You can get Arduino boards here (affiliate links): Aliexpress: Arduino Uno: 🤍 Arduino Nano: 🤍 Arduino Pro Mini: 🤍 FTDI board: 🤍 Ebay: Arduino Uno: 🤍 Arduino Nano: 🤍 Arduino Pro Mini: 🤍 FTDI board: 🤍 Amazon.de: Arduino Uno: 🤍 Arduino Nano: 🤍 Arduino Pro Mini: 🤍 FTDI board: 🤍 In this first epsiode of this Arduino Basics video series I will talk about the main functions of the ATmega328P Arduino boards and the fundamental code commands that you will need to create very basic Arduino sketches. Music: 2011 Lookalike by Bartlebeats Ecstatic Wave, Jens Kiilstofte 🤍
A complete beginner's guide to getting started with Arduino - featuring a special guest at 3:36 . This video assumes you have no knowledge of Arduino. It clearly explains how to do your first wire up, install the necessary software and how to flash your device. You'll need: A breadboard (about £3) A yellow LED (around £2 for 50!) A 47 ohm (or near) resistor (around £2 for 50!) An Arduino Nano (around £2.50 pre-soldered) A mini USB cable (around £1) and a computer... :-)
For first time Arduino users this is a step by step demo of attaching your Arduino to a PC, selecting and troubleshooting the Com Port and finally uploading a Sketch. #arduinonano #loadsketch
Download Code & Proteus Simulation here: 🤍 Arduino Nano Library for Proteus V2.0: 🤍 Arduino Library for Proteus V2.0: 🤍 LCD Library for Proteus: 🤍 Table of Content: 0:00 Welcome to TEP Channel 0:33 Table of Content 1:21 What is Arduino Nano? 3:28 Arduino Nano Pinout 4:33 Arduino Nano Communication Protocols 6:15 Arduino Nano PWM Pins 7:47 Arduino Nano BuiltIn Memories 9:05 Proteus Simulation of Arduino Nano 10:00 Downloading Proteus Library for Arduino Nano 11:07 Adding Proteus Library of Arduino Nano 11:53 Simulating Arduino Nano 13:25 Uploading Arduino Code 14:52 Arduino Nano Simulation Results In this tutorial, I have given a detailed overview of Arduino Nano. We have discussed What is Arduino Nano? How to use Arduino Nano Pinout? and finally designed a Proteus Simulation of Arduino Nano. Moreover, you should also visit our: Website: 🤍 Blog: 🤍 Shop: 🤍 FbPage: 🤍 Twitter: 🤍 Google+ : 🤍 YouTube: 🤍 Email: help🤍theengineeringprojects.com Skype: theenggprojects Thanks for Watching.
Another new Arduino board! This time it’s the Arduino Nano ESP32, and we’ll test it out today. Includes MicroPython and Arduino IoT Cloud experiments. Article with code: 🤍 More articles and tutorials: 🤍 Join the conversation on the forum: 🤍 Subscribe to the newsletter and stay in touch: 🤍 Arduino has certainly been busy lately. After releasing the Arduino Giga at the beginning of the year, they followed up by releasing two new Arduino Uno boards. And, as if that wasn’t enough, they have just added another member to the growing Arduino Nano family - the Arduino Nano ESP32. Although a few of the Nano boards already have ESP32 chips, those boards use the ESP32 as a communications coprocessor. This new Nano is the first Arduino board to use the ESP32 as its main processor. We will begin by looking at the board features and pinouts. Of course, all Nano boards use the same pinout, allowing you to repurpose any prototyping tools you have gathered for the other family members. At the heart of the board is an ESP32-S3 module, so the new Nano board has essentially the same specifications as other boards built around that chip. We’ll also use the board with MicroPython, and I’ll show you how to install the MicroPython bootloader. Don’t worry; you can revert to C by reinstalling the Arduino Bootloader. I’ll show you how to do that as well. And we will build a project for the Arduino IoT Cloud. The Arduino Nano ESP32 is an inexpensive way of creating IoT applications. Here is the Table of Contents for today's video: 00:00 - Introduction 01:56 - Arduino Nano ESP32 09:32 - Arduino IDE Setup & WiFi Scan Test 12:13 - Nano ESP32 as a Human Interface Device 19:07 - Using MicroPython 23:30 - Installing MicroPython 27:40 - Using the Arduino Labs Python Editor 32:28 - Reloading the C Bootloader 34:28 - Arduino IoT Cloud 37:09 - IoT Cloud Project Hookup 38:05 - Connect Nano ESP32 to IoT Cloud 41:06 - Build a Thing 44:29 - IoT Cloud Project Code 49:01 - Build a Dashboard 53:49 - Running Remote & OTA Updates 54:52 - Conclusion If Arduino releases any more new boards this year, I’ll need a new Arduino shirt! Hope you enjoy the video. Bill
Briefly comparing the Arduino UNO, Nano and Pro Mini. Over 30 Arduino tutorials at 🤍 Compare all Arduino boards in one table: 🤍 In this tutorial I compare the technical specs of Arduino UNO, Nano and Pro Mini. Beside this comparison I explain which Arduino I use for my projects. I made mistake soldering the Arduino Pro Mini. In this video I show you what I did wrong, and how you can prevent this when you are soldering yours. The Arduino for beginners tutorials series guides you through the world of Arduino. A video is around 10 minutes and shows you step-by-step how to build the circuit and write the code. The website contains the course material, circuit diagram, Arduino code and shopping list of all the components used in the tutorial. 👉 More tutorials and projects on 🤍 🇳🇱 Bekijk deze tutorial in het Nederlands op 🤍 DATA SOURCES: See the "Tech specs" tab on the following pages: • Arduino Uno R3: 🤍 • Arduino Nano: 🤍 • Arduino Pro Mini: 🤍 CHAPTERS: 00:00 Introduction 00:27 Arduino Uno 01:18 Arduino Uno Shields 02:08 Arduino Nano 03:39 Arduino Pro Mini 05:37 Conclusion 🛒 COMPONENTS: Arduino Uno V3 🤍 Arduino Nano soldered 🤍 Arduino Pro Mini 5V / 16Mhz 🤍 Arduino Pro Mini 3.3V / 8Mhz 🤍 ARDUINO SHIELDS Ethernet shield W5100 🤍 Sensor shield v5.0 🤍 2x16 LCD with keypad shield 🤍 Gamepad shield 🤍 TFT LCD touch display shield 🤍 Data logging shield width SD-card 🤍 Motor driver shield L293D 🤍 GSM GPRS shield 🤍 DHT11 / Buzzer / LED / buttons shield 🤍 Arduino Nano IO shield 🤍 #arduino #BasOnTech
Arduino Nano Every Setup and Testing 🤍 - Nano Every in this video we get the ARDUINO IDE setup for the new Nano Every. The every uses an upgraded processor, and has more memory that the standard Nano. Get 5 PCB's for $5 (plus shipping) - 🤍 My Amazon link: Anything you buy through this link helps support the channel, it doesn't cost you extra, and I make a few%. 🤍 Yes!! I now have merch: 🤍 Electronics themed T-ShirtsIf you are shopping for electronic components, test gear or consumables please consider visiting my Amazon shop 🤍 🤍 Please check out 🤍 and pledge a dollar if you can. It will go a long way to keeping the channel alive. It costs a bit of money to buy all the items and produce these videos. You help is appreciated. - Or....if you'd like to send a one-time donation you can use this link: paypal.me/learnelectronics Here is all the gear I currently use: Oscilloscope 1: Rigol 1054Z 🤍 Oscilloscope 2: Siglent SDS1202X-E 🤍 Power Supply 1: TekPower TP3005N 🤍 Power Supply 2: RUIDENG DP50V5A 🤍 Signal Generator: JS2800 🤍 DMM1: Owon18B 🤍 DMM2: Aneng 8008 🤍 DMM3: Aneng 8009 🤍 DMM4: Uni-T UT801 🤍 Soldering Station1: Zeny (Yihua)862D+ 🤍 Soldering Station2: KSGR T12 🤍 Light Meter Smart Sensor AS803 🤍
The Arduino Nano RP2040 Connect is finally here! This video gives you a first look at the new Arduino Nano RP2040 Connect. This board is a fantastic addition to the Nano line up and showcases a wide range of features that you might want to use in your project! The Arduino Nano RP2040 Connect uses the Raspberry Pi RP2040 microcontroller and has 16MB of on board flash storage, u-blox NINA-W102 radio module to provide full WiFi 802.11b/g/n connectivity, along with Bluetooth and BLE v4.2. It also has an onboard six axis IMU, a microphone and a cryptographic IC. It has plenty of programmable I/O pins which have functions that bigger boards only dream of; 22 digital, 20 with PWM and 8 analog. The RP2040 chip supports 4 12-bit ADC channels, two UARTs, two SPI and I2C controllers. It also has 8 PIO state machines, USB 1.1 host and device support and 16 PWM channels. Programming the Arduino Nano RP2040 Connect is very easy in the Arduino IDE, simply install the “Arduino Mbed OS Nano” board package from the board manager and you are good to go! My apologies for the somewhat unscripted nature of this video, I wanted to show you all that you can now get your hands on the Arduino Nano RP2040 Connect! You can purchase it from the Arduino website from this link: 🤍 Timestamps: 00:00 Introduction and Unboxing 01:10 Size 01:45 Features 04:35 Programming 06:24 Thoughts and Conclusions Take a look at some other RP2040 boards covered 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.
Want to learn more? Check out our courses! 🤍 *Get the code, transcript, challenges, etc for this lesson on our website* 🤍 We designed this circuit board for beginners! Kit-On-A-Shield: 🤍 SHOP OUR FAVORITE STUFF! (affiliate links) - Get your Free Trial of Altium PCB design Software 🤍 We use Rev Captions for our subtitles 🤍 Arduino UNO R3: Amazon: 🤍 Newegg: 🤍 Budget Arduino Kits: Amazon:🤍 Newegg:🤍 Multimeter Options: Amazon: 🤍 Newegg: 🤍 Helping Hands: Amazon: 🤍 Newegg: 🤍 Soldering Stations: Amazon: 🤍 Newegg: 🤍 AFFILIATES & REFERRALS - ►Audible Plus Free trial: 🤍 ►Join Honey- Save Money 🤍 ►Download Glasswire for Free:🤍 FOLLOW US ELSEWHERE - Facebook: 🤍 Twitter: 🤍 Website: 🤍 ARDUINO NANO EVERY – SOLDER ON PIN HEADERS Did you order an Arduino Nano Every, and then realize you have to solder on those metal things that go into a breadboard (AKA Pin Headers)? In this lesson, we’ll walk through how to solder an Arduino Nano Every From everything you’ll need before you get started A couple tips, tricks, and resources if you’re new to soldering And a demo of soldering the Arduino Nano Every ARDUINO NANO EVERY I ordered a 3 pack of the Arduino Nano Every, a newer style Arduino board, and when I opened one of the boxes, I realized I was going to have to do some soldering, because out came two rows of little metals pins held together by some plastic – these are called header pins. You can buy these with the header pins already soldered on, but that is not the kind I bought. These header pins are what make electrical contact with different components on the circuit board and they allow you to use a solderless breadboard, so you can connect other electrical components to the Arduino Nano Every. Now you might be like, why the heck don’t these things come already soldered on anyway? Those Arduino people are so lazy! The reason is because this style header pins actually go through the circuit board – they are called through-hole components – and it takes a real human being to solder them on (which costs extra money during production). Unlike the other components on the Arduino Nano Every, which can be soldered on using a machine. These are surface-mount devices (SMD). So since they figure only cool people with soldering irons will buy an Arduino Nano Every anyway, hey, let’s get these made a little cheaper. WHAT YOU WILL NEED TO SOLDER AN ARDUINO NANO EVERY So here’s what you’ll need to solder your Arduino Nano Every (Full Disclosure – These are affiliate links that allow us to buy gold toilet seat covers for our yachts) A soldering iron solder (I prefer rosin core) A wet sponge, or a brass wire coils to clean the tip of your And ideally, a bread board, but if you don’t have, you could still manage. (Optional) Deep Learning GPU optimized for Cat Image Recognition Models SOLDERING THE ARDUINO NANO EVERY START HEATING UP YOUR SOLDERING IRON First I am going to get my soldering iron turned on. I have one where I can adjust the temperature, and usually I’ll set it around 250℉ to 260℉. Your soldering iron may not have an adjustable temp – no big deal. PLACE YOUR PIN HEADERS INTO THE BREADBOARD While my soldering iron is heating up, I set the pin headers into a breadboard. The long side of the pins goes into the breadboard, and the short side sticks up. I start at the end of the breadboard, to make sure both headers start at the same place. One header will be spaced a little farther from the center than the other. Sometimes, you can accidentally dislodge one of the pins out of the plastic while trying to push the header pin into the breadboard – if this happens, no big deal, just push it back into the breadboard, and make it even with the other pins. You’ll want to make sure the header pin header pin plastic is tight to breadboard, and it is not uneven or crooked. Then set the Arduino Nano Every on top of the header pins. Important point here: There are mounting holes on the Arduino Nano Every – you don’t want to accidentally set the circuit board so those mounting holes have a pin through them. You want the header pins to fill those shiny crescent edged holes on the circuit board. SOLDER THE ARDUINO NANO EVERY CONTINUED… 🤍
Hello all and welcome to my channel. I found this new USB type C Arduino Nano Compatible board on Robu.in. So, I decided to buy it as it will be convenient to use due to its USB-C port. I made this video to share about this USB-C Arduino compatible development board. You can buy it from the link given below: USB-C Arduino Nano compatible Board: Disclaimer: This video is not sponsored and I bought everything on my own money for my personal projects. The link mentioned above is not affiliated. I added it so that you can find the development board quickly.
Checking out these REXQualis made Arduino Nano Clones that are SUPER cheap at about $14 for 3 boards WITH USB cables and fully assembled and well packed compared to the usual stuff you get in a zip lock bag. NOT SPONSERED BY THEM, found it on Amazon and purchased myself. So are these worth it? Do they work as expected? Let's find out! Great deal on REXQualis 3 set Nano: 🤍 Safe CH340/341 drivers from manufacturer: 🤍
Get Free PCB on First Order: 🤍 Register here and get $100 coupon: 🤍 Get your components here: 🤍 Hello Guys, in this video i will show you how i made Amazing Looking Hollow Clock. Stepper Motor :🤍 Codes, STL Files : 🤍 Gerber File with Upgraded STLs - 🤍 3D Printer that i used: 🤍 Original Author of This Project: 🤍 That's it for today guys, i hope you like this video thanks for watching and don't forget to Like, Comment Subscribe and Share. Share, Support, Subscribe.!!!!!!! Subscribe: 🤍 Facebook: Instagram: 🤍
Let's take a look at some of the members of the Arduino AVR "family"! More articles and tutorials: 🤍 Join the conversation on the forum: 🤍 Subscribe to the newsletter and stay in touch: 🤍 The Arduino Uno is definitely the most popular Arduino board, it’s been used in thousands of different designs and is usually the Arduino you buy when you first get started. But the Uno is not the only member of the Arduino Family, it’s just one of many boards that you can use in your projects. In this video I take a look at some of the more popular Arduino (and clone) boards): 00:00 - Introduction 06:04 - The Arduino Uno - the old faithful workhorse that everyone loves 10:28 - The Arduino Mega - the Big Daddy with more I/O ports than you’ll know what to do with 12:43 - The Arduino Nano - A powerful board in a small package 17:10 - The Arduino Pro-Mini - Another great option when you don’t need a USB port 20:38 - The Digispark ATtiny85 - A micro-sized board with lots of applications 23:20 - The Atmel ATmega328 - the heart of the Arduino Uno 26:13 - The Atmel ATtiny85 - small and easy to use, the baby of the family So come on into the workshop and meet the family!
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
how to Make an Arduino Nokia 5110 Oscilloscope with DDS Signal and Generator, DIY Atmega328 Oscilloscope Get a free trial of Altium Designer 👇👇👇👇👇👇👇 🤍 Free search engine for electronic parts 🤍 Circuits diagrams and code can be found on the blog 👇👇👇👇👇👇 🤍 That's an interesting topic! Making your own oscilloscope can be a fun and rewarding project, but it's important to keep in mind that a DIY oscilloscope may not have the same level of accuracy and reliability as a regular oscilloscope. If you're on a tight budget and want to experiment with electronics, a DIY oscilloscope using a Nokia 5110 LCD and an Arduino Nano can be a great option. It can be a fun project to build and can help you learn more about electronics and programming. However, keep in mind that it may not be suitable for more advanced or precise measurements. On the other hand, a regular oscilloscope can be a significant investment, but it offers a higher level of accuracy and reliability. It's designed specifically for measuring electronic signals and can provide more detailed and precise measurements. If you're serious about electronics and need to make precise measurements, a regular oscilloscope may be the better option. Ultimately, the choice between a DIY oscilloscope and a regular oscilloscope depends on your needs and budget. If you're just starting out and want to experiment with electronics, a DIY oscilloscope can be a great option. If you need more precise measurements, a regular oscilloscope may be the better choice. description link : $2 for 1-4 layer; free SMT assembly for PCBs 👇👇👇👇👇👇👇👇👇👇 🤍 Register to win a $54 coupon . You can buy all electronic components for the product here 👇👇👇👇👇👇 🤍 For business enquiries 👇👇👇👇👇👇 electronicsk66🤍gmail.com Support me on patreon here 👇👇👇👇 🤍 #inventor_KR #altiumdesigner #oscilloscope #AltiumDeisgn #arduino_nano #jlcpcb
dfrobot . website 👇👇👇👇👇👇 🤍 Circuits and diagrams can be found on the blog 👇👇👇👇👇👇 🤍 COMPONENTS oscilloscope 👇👇👇👇👇👇 1- Arduino Nano 🤍 2- OLED Display- SSD1306 🤍 3- Diode - 1N4148 🤍 4- Switch 🤍 5- Resistor 100ohm,100k , 470k 🤍 6- POT 10K For business enquiries 👇👇👇👇👇👇 electronicsk66🤍gmail.com I hope to help me grow the channel through PayPal 👇👇👇👇👇👇 🤍 All you have to do is join this channel to take advantage of the benefits 👇👇👇👇👇👇 🤍 Hello my friends I am an electrical engineer and uploading Science &Technology videos twice a week ( Friday and Sunday ). Please Subscribe My channel. if you want to learn how to make mini oscilloscope, using Arduino nano ,dfrobot #inventor_KR #oscilloscope #arduino_nano #dfrobot Song: DayFox - Candy Friends (Instrumental) Music provided by Vlog No Copyright Music. Video Link: 🤍 Get a free trial of Altium Designer 👇👇👇👇👇👇👇 🤍 Free search engine for electronic parts 🤍
Oggi parliamo della scheda Arduino Nano Every: installazione e blink. Video n.400 del corso Arduino in 100+ video. La trovi su Amazon: 🤍 Sorgenti, schemi e slide su GitHub: 🤍 Il libro abbinato ai video (fino al 120 circa): "Arduino trucchi e segreti" - 🤍 Il manuale di Arduino (va bene per chi inizia): 🤍 Indice dei video: 🤍 La playlist elettronica: 🤍 La playlist su Arduino: 🤍 La playlist coding sul: 🤍 Puoi scaricare gratuitamente i miei libri: "Il manuale di Arduino - 🤍 "Il cookbook di Arduino": 🤍 Altre informazioni e sul libri mio sito: 🤍 ATTENZIONE: Per ovvi motivi di tempo non posso correggere o analizzare gli sketch e schemi che postate nei commenti o che inviate via mail. Cerco di rispondere a tutte le domande e le richieste sensate ma "non faccio i compiti per voi".
*Learn to program and prototype with Arduino now! Join our membership.* 🤍 *Get your Free Trial of Altium PCB design Software* 🤍 *Get the code, transcript, challenges, etc for this lesson on our website* 🤍 *We designed this circuit board for beginners!* Kit-On-A-Shield: 🤍 00:00 - Introduction 01:04 - PART 1 | What can Arduino do? 06:23 - PART 2 | What Arduino Stuff Should I Buy? 11:54 - PART 3 | What's on an Arduino Board? 20:50 - PART 4 | Downloading the Arduino IDE 34:37 - PART 5 | How to Use Variables (Setup & Loop) 50:00 - PART 6 | How to Use Control Structures 1:09:54 - PART 7 | How to Use Arduino Libraries 1:23:02 - PART 8 | Offer FOLLOW US ELSEWHERE - Facebook: 🤍 Twitter: 🤍 Website: 🤍 Are you looking for the perfect series of videos to get started with Arduino? Well, you are in luck, because in this series of videos, you are going to learn everything you need to get started with Arduino. By the time you're done here, you're gonna know exactly what hardware to get and why, you'll know the ins and outs of an Arduino board, you'll know which software to get, you'll know the key Arduino programming functions to control tons of electronic stuff. And if you've never programmed before, you're gonna know the coding structures found in all programming languages. But do you wanna know the best part? This core workshop that you're gonna walk through is only gonna take about an hour of your time. So let's go. Before we start, please do subscribe to our YouTube channel. It doesn't cost you anything but a click, but it really helps us bring you great content like this Arduino workshop. Thanks a ton. I really appreciate that. Okay. So what the heck is this thing called Arduino? Well, Arduino is a tool that helps you control electronic stuff with code. So if you're building a house, you'd probably go grab a hammer. Well, if you're gonna build a project using electronic stuff, grab yourself an Arduino. But what do I mean exactly by electronic stuff? Well, let's make two big general groups. Inputs and outputs. Inputs are devices that gather information, and outputs are devices that have some action in the world. So for inputs, think of things, like temperature sensors, light sensors, touch sensors, flex sensors, humidity sensors, infrared sensor, distance sensors. Just to name a few. Then you have things like outputs. DC motors, stepper motors, servo motors, LEDs, LED strips, buzzers, speakers, LCD displays, OLED displays. The list goes on. What Arduino can do is stand in the middle of these input and output devices and control them with some cool logic that you get to create. So Arduino can be used to read inputs and control outputs. Okay. So now you have a general idea of what Arduino is. It's a tool to control electronic stuff. Great! Okay. But how do you actually get started using Arduino? What do you have to do? So here's what you're gonna need. We're gonna talk about the big three. It's what I like to call the Arduino trifecta. You've got Arduino hardware, the Arduino IDE, and the actual Arduino code that you're gonna need to write. So first, we have the physical component of Arduino, which is called an Arduino board. There's a bunch of different types of Arduino boards out there. When someone says Arduino board, it could mean a number of these different circuit boards. In just a little bit, I'm gonna tell you exactly which one to go by if you haven't purchased one yet. And here's some quick good news. If you have bought one already, it's probably gonna work just fine. Now, all Arduino boards share one thing in common. They have a microcontroller on them. A microcontroller is basically a really small computer. So when you use an Arduino, you're really just using a microcontroller. The microcontroller is what enables us to read those different inputs and control those outputs. So again, when somebody says Arduino board, they're talking about something physical... CONTINUED... 🤍 *About Us:* This Arduino lesson was created by Programming Electronics Academy. We are an online education company who seeks to help people learn about electronics and programming through the ubiquitous Arduino development board. *We have no affiliation whatsoever with Arduino LLC, other than we think they are cool.*
I thought I should take a look at the Arduino Nano ESP32 as it seems to be doing the rounds on YouTube. Thanks as always to 🤍 for sponsoring the video. The board is pretty nice, and it's breadboard friendly. I'd be interested in what you think. If you want to pick up one - you can get them on Amazon here: 🤍 - or from wherever you normally get your dev boards locally. YouTube is pretty bad at notifying viewers when a new video comes up - so if you want to be in the front row you can subscribe to my newsletter here: 🤍 - If you'd like to help support the channel and help me buy more nonsense - I have a Patreon page: 🤍 And if you're shopping on AliExpress or Amazon then if you click on these links I will get a little bit of affiliate money: Aliexpress - 🤍 Amazon - 🤍 You can also join us on Discord here: 🤍 And don't forget about the MakerNews newsletter - 🤍
Hello Friends, in this video i will show you 3 Awesome ideas with Arduino Board. Things That i Used: NodeMcu : 🤍 Relay Module: 🤍 DC Socket: 🤍 2CH Relay Module: 🤍 Ardunio Nano : 🤍 Servo Motor : 🤍 Arduino CNC Shield V3UNO: 🤍 EleksMaker Focusable 200-250mWL: 🤍 Codes For Coin Bank: 🤍 Google Home Automation Programing: 🤍 CNC Machine: Diagram and Software Link: 🤍 STL File Link: 🤍 That's it for today guys, i hope you like this video thanks for watching and don't forget to Like, Comment Subscribe and Share. Share, Support, Subscribe.!!!!!!! Subscribe: 🤍 Google+: 🤍 #newideas #newinventions Music: Song: Ehrling - You And Me (Vlog No Copyright Music) Music provided by Vlog No Copyright Music. Video Link: 🤍 Jim Yosef - Speed [NCS Release] Watch: 🤍 Song: KEVIN FLY - One More Thing Music provided by FreeMusicWave. Video Link: 🤍
#Arduino #arduinonano #arduinoproject #electronics Can you add more Flash memory for large Arduino Nano sketches? I'll show you how a fuse setting in Arduino bootloader is losing you 1.5KB of space to nothingness and how to gain that space back. Even a genuine Nano is missing this extra space! You will need to reload the bootloader as part of the process so if you haven't seen the video on loading/upgrading bootloader check it out here: 🤍 FuseByte sketch for verifying current fuse settings: 🤍 Nano's I use in my videos: 🤍 More projects: 🤍
TIMESTAMPS: 0:00 Boards von Arduino 1:01 Überblick Nano vs. Nano Every 3:41 Hardware: Bauelemente & technische Daten 5:42 Spannungsversorgung der Boards 8:58 Pinbelegung, Schnittstellen 9:46 Inbetriebnahme / Setup 10:55 Fazit ➣ Original Arduino Nano Every 3er Pack: 🤍 ➣ Arduino Nano von AZDelivery 3er Pack: 🤍 ➣ 📖 Das Buch zum Kanal als Paperback: 🤍 📖 Das Buch zum Kanal als eBook & Hardcover: 🤍 ➣ Original Arduino Starter-Set 🤍 ➣ Günstige Alternative: 🤍 ➣ 🔬 Mein Elektronik Mikroskop: 🤍 ➣ 🛠️ Mein Multimeter: 🤍 ➣ 🛠️ Meine Abisolierzange: 🤍 ➣ 🛠️ Meine Lötstation: 🤍 🌐 Website: 🤍 📧 E-Mail: info🤍elektrotechnik-einfach.de Facebook: Facebook: 🤍 Mit den mit ➣ markierten Links kannst du mich unterstützen :) Es handelt sich hierbei um Affiliate-Links. Das heißt ich bekomme eine kleine Aufwandsentschädigung für die Vermittlung. Für dich entstehen natürlich keine zusätzlichen Kosten!
The Arduino project was started at the Interaction Design Institute Ivrea (IDII) in Ivrea, Italy.At that time, the students used a BASIC Stamp microcontroller at a cost of $50, a considerable expense for many students. In 2003 Hernando Barragán created the development platform Wiring as a Master's thesis project at IDII, under the supervision of Massimo Banzi and Casey Reas. Casey Reas is known for co-creating, with Ben Fry, the Processing development platform. The project goal was to create simple, low-cost tools for creating digital projects by non-engineers. The Wiring platform consisted of a printed circuit board (PCB) with an ATmega168 microcontroller, an IDE based on Processing and library functions to easily program the microcontroller.In 2005, Massimo Banzi, with David Mellis, another IDII student, and David Cuartielles, extended Wiring by adding support for the cheaper ATmega8 microcontroller. The new project, forked from Wiring, was called Arduino. LIKE | COMMENT | SHARE | SUBSCRIBE = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = ★★ Please like and subscribe ★★ 🤍 = = = = = = = = = = = = = = = = How to extend wifi range with another router wirelessly 🤍 Hack ip camera easy way 🤍 How to extend wifi range with another router 🤍 WiFi Jammer/ Deauther || A Simple HomeMade Wi-Fi Jammer by using an ESP8266 | DIY Project 🤍 sokoban level 11 solution 🤍 Diy Arduino Based Ultrasonic Radar System || Using Ultrasonic Sensor & Servo Motor With Arduino 🤍 How To Connect wirelessly Two Routers On One Home Network Using WDS without cable 🤍 How to Make Water Overflow Alarm With Led Indicator Save Electricity & Water 🤍 4 Ways to Turn off a Normal School Calculator Citizen CT-512 🤍 Amazing Wireless Voltage Detector, Home Made Non Contact Tester 🤍 Top 10 Electronic Project With BC547 Transistor, Tri AC, LDR, LED, Photo Diode 🤍 Automatic Plant Watering System Using Arduino Uno || YL 69 Soil Hygrometer & 5v 1 Channel Relay 🤍 Build your own Wi-Fi Repeater or Range extender using NodeMCU || WDS Bridge ESP8266 🤍 Wifi share one router to another router without any cable (WDS) 🤍 Making Use Of Old Router As Wifi Repeater Without Cable | Wifi Extender | Switch 🤍 10 Simple Tests And Experiments Identify Your Honey Pure or Fake 🐝🍯 🤍 Battery Charging Led Indicator Circuit || Monitor Battery Is Charging Or Not || Diy Charging Circuit 🤍 World's Smallest Amplifier PAM8403 (HW-104) || Mini Digital Amplifier 3W Board 🤍 How To Repair Led Light || Fix SMD Led Light || Led Bulb Repair 🤍 ★★= = = = = = = = ★★ Contact us for any enquiries : EmailForViewers🤍gmail.com 🤍facebook.com/rubel1628 ★★= = = = = = = = ★★ #yellowpurple #ARDUINONANO #Arduino = = = = = = = = = = = = = = = =
Arduino Nano 1st Time Use Download the Arduino IDE: 🤍 Cover songs collected from NCS youtube channel: 🤍 Song 1: 🤍 Song 2: 🤍 Song 3: 🤍 Please subscribe my channel for more update: 🤍 Please Like our facebook Page : 🤍 -~-~~-~~~-~~-~- Please watch: "How To Make 4x4x4 LED Cube" 🤍 -~-~~-~~~-~~-~-
Купить плату Arduino Nano: 🤍 Группа в ВК: 🤍 Реклама на канале: 🤍 Почта (для сотрудничества): daymon911🤍mail.ru В этом выпуске вы узнаете: что такое плата Arduino Nano и где и как её использовать в своих ардуино проектах. Плата ардуино нано, можно сказать аналог платы ардуино уно в компактной форме. В видео также показано подключение ардуино нано v 3.0. _ Смотрите наши видео, в которых мы простым языком рассказываем о радиотехнике, электронике и радиоэлектронике! Наши уроки будут особенно полезны для начинающих радиолюбителей и студентов радиотехнических ВУЗов. В видеороликах мы даём основы электроники: определения, описания, схемы и принцип работы различных элементов радиотехники. В наших видео вы узнаете: что такое транзистор, диод, конденсатор, резистор, микросхема, электрический ток и много других разных интересных вещей и явлений, связанных с электроникой.
Led Distance Indicator Using Arduino nano - Simple Arduino Project - NANO #shorts#shortvideo#trending Comment for arduino code..... arduino code.... 🤍
The new Arduino Nano ESP32 supports ESP-NOW, a wireless communication protocol that allows two microcontrollers to share data without Wi-Fi or Bluetooth. It is easy to program using the Arduino IDE. Here are all the details you need, plus a demo and source code. - Let Me Explain T-shirt: 🤍 Twitter: 🤍 Instagram: 🤍 #garyexplains
Arduino Nano ESP32 - Installazione e primo blink - Video 770 Abbonati a questo canale per accedere a contenuti e corsi esclusivi 🤍 Info abbonamenti: 🤍 Canale Telegram: 🤍 Forum/Gruppo Telegram: 🤍 Codice: 🤍 Shop Libri e Componenti: 🤍 Libri: - "Arduino trucchi e segreti" - 🤍 - "Il manuale di Arduino" (va bene per chi inizia): 🤍 - "Progettare con Arduino": 🤍 Puoi scaricare gratuitamente i miei libri: - "Il manuale di Arduino - 🤍 - "Il cookbook di Arduino": 🤍 Altre informazioni e sul libri mio sito: - 🤍 Indice dei video: 🤍 La playlist elettronica: 🤍 La playlist su Arduino: 🤍 La playlist coding sul: 🤍 Come cercare tra i miei video: 🤍 Che cosa uso come lavagna digitale? OpenBoard (🤍). + tavoletta wacom (🤍 🤍 - Per offrirmi un caffè: 🤍 - Vuoi chiedere un video su un argomento particolare? 🤍 ATTENZIONE: Per ovvi motivi di tempo non posso correggere o analizzare gli sketch e schemi che postate nei commenti o che inviate via mail. Cerco di rispondere a tutte le domande e le richieste sensate ma sono veramente troppe: abbiate pazienza. #arduino #elettronica #newdimensionofmaking #NanoESP32
Recently, Arduino released four new products. They all look very similar but use completely different Microcontroller chips. So we have to answer two questions: Do they know what they are doing and is it any good for us Makers? And of course: How do they compare with the ESP32? In this video, we will look at these four boards: - Arduino Nano Every - Arduino Nano 33 IoT - Arduino Nano 33 BLE - Arduino Nano 33 BLE Sense And look into the following topics: - An overview of their capabilities. We will also add a typical ESP32 board for reference - We will have a look into how the Arduino IDE supports a multi-CPU Architecture environment - We will look at the new 3.3-volt world and the dangers coming from this change - Will find out bad things about the boards if they exist - We will test the BLE and Wi-Fi functions and measure power consumption - And we will try to answer the essential questions: What are the implications for the future of the Arduino platform. And: Is there a new star born? I am a proud Patreon of GreatScott!, Electroboom, Electronoobs, EEVblog, and others Links: Comparison Chart: 🤍 Arduino Shop: 🤍 NRF52840 boards: 🤍 Historic Computer video: 🤍 #CommissionsEarned: The links above usually are affiliate links which support the channel (no additional cost for you). Supporting Material and Blog Page: 🤍 Github: 🤍 My Patreon Page: 🤍 My Bitcoin address: 19FSmqbBzb5zsYB1d8Bq4KbxVmezToDNTV 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 the next 24 hours) to buy new stuff for the channel For Banggood 🤍 For AliExpress: 🤍 For ebay.com: 🤍 🤍 🤍 🤍 Please do not try to Email me or invite me on LinkedIn. These communication channels are reserved for my primary job
Soldering on pins for 9v battery. #shorts Follow me on: Twitter 🐦: 🤍 Instagram 📷: 🤍 LinkedIn 📊 : 🤍 shishani-school/ Facebook 📖: 🤍 TikTok 👓: 🤍tiktok.com/🤍crazy_hobos My Website 🌐: 🤍
Que tal aprender a fazer um relógio flutuante? Esse é um projeto bem legal para quem curte a cultura maker: 🤍 ► Projeto 3D: 🤍 ► Código traduzido: 🤍 ► Impressora 3d usada: Creality Ender 3 ► Material: Arduino Nano, Motor de passo, Drive motor de passo e Cabo USB mini ► RELÓGIO FLUTUANTE na IMPRESSORA 3D: Aprenda a fazer! 🤍 ► RELÓGIO DE SOL com garrafa PET 🤍 ► Inscreva-se: 🤍 Dúvidas e sugestões: contato🤍manualdomundo.com.br Negócios: atendimento🤍manualdomundo.com.br Imprensa e convites: assessoria🤍manualdomundo.com.br Site: 🤍 Facebook: 🤍 Instagram: 🤍 Instagram Mari: 🤍 Twitter Iberê: 🤍 CRÉDITOS Direção e apresentação: Iberê Thenório Produção executiva: Mari Fulfaro Gerência de projetos: Marcel Albert Fotografia: Felipe Reis Copyright© 2023 Manual do Mundo®. Todos os direitos reservados.
Unboxing Original Arduino Nano bought from arduino.cc
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