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The ultimate Arduino tutorial for beginners. Learn how to choose an Arduino, dim LEDs, build a motor speed controller and more. Sponsored by Audible - Get a free 30 day trial & download one free title: 🤍 Example UNO kit: 🤍 Example UNO robot kit: 🤍 Website: 🤍 Twitter: 🤍 Facebook: 🤍 If you are feeling extra generous, bookmark this link and use it as your Amazon home page: 🤍 If you do that, I get a percentage of everything you buy, and you don't have to spend an extra dime! #Arduino #Science #Engineering
Hoofdstukken van deze gemakkelijke les uit de cursus Arduino uitleg voor beginners in het Nederlands: 00:04 Wat is Arduino? 00:18 Wat kun je doen met Arduino? 00:49 Hoe werkt Arduino? 01:28 Welk programma heb ik nodig? 01:51 Maar ik kan niet programmeren? 02:13 Onderdelen van de Arduino UNO Link naar website Arduino om Arduino IDE te downloaden: 🤍 De tutorial Arduino voor beginners Nl legt stap voor stap uit hoe je de onboard LED op het Arduino bord eenvoudig kan programmeren met Arduino IDE. Arduino voor beginners is de les voor beginners die eenvoudige uitleg willen. In elke video wordt een schakeling eenvoudig uitgelegd. In de les Arduino voor beginners wordt ook de programmeer code voor Arduino IDE uitgelegd. Leren programmeren in Arduino Nl is dankzij deze lessenreeks voor iedereen. Welke componenten? Arduino Uno
You guys can help me out over at Patreon, and that will keep this high quality content coming: 🤍 This is a tutorial series for absolute beginners. We show complete newbies how to get an arduino up and running, and in this lesson you will write your first three programs. You can get the following Elegoo kit, to follow these lessons and play along at home 🤍 You can see details of this lesson on our WEB site HERE: 🤍 [Disclosure of Material Connection: I am a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to amazon.com. This means if you visit the link and purchase the item, I will receive an affiliate commission. Regardless, I only recommend products or services I use personally and believe will add value to my readers. #Arduino
This video talks in detail about the components of Arduino UNO board.The major components of Arduino UNO board are as follows: 1. USB connector 2. Power port 3. Microcontroller 4. Analog input pins 5. Digital pins 6. Reset switch 7. Crystal oscillator 8. USB interface chip 9. TX RX LEDs About us: HackerEarth is the most comprehensive developer assessment software that helps companies to accurately measure the skills of developers during the recruiting process. More than 500 companies across the globe use HackerEarth to improve the quality of their engineering hires and reduce the time spent by recruiters on screening candidates. Over the years, we have also built a thriving community of 2.5M+ developers that come to HackerEarth to participate in hackathons and coding challenges to assess their skills and compete in the community. Interested in coding? Want to solve the most commonly asked tech interview problems? Click here to view our Codexplained playlist - 🤍
Een korte introductie op de hard- en software van de Arduino Uno. Na deze video kun je de Uno aansluiten, software installeren en aanpassen. Software uploaden naar de Uno. Kijk ook naar de andere Arduino-video's die ik maakte: Arduino Uno hardware: 🤍 Arduino en sensoren: 🤍 Arduino en actuatoren: 🤍
*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.*
Learn how to use Arduino hardware and software in this full course for beginners. Arduino is an easy-to-use, open-source electronics platform. Arduino boards are able to read inputs - light on a sensor, a finger on a button, or a Twitter message - and turn it into an output - activating a motor, turning on an LED, publishing something online. You can tell your board what to do by sending a set of instructions to the microcontroller on the board. No hardware is required for to follow along with this course! ✏️ Course developed by Ashish Bansal. 📸 Ashish on Instagram: 🤍 Tinker with the circuits used in the course : 🔗 custom blink function: 🤍 🔗 digitalRead & digitalWrite : 🤍 🔗 analogRead : 🤍 🔗 analogWrite : 🤍 ⭐️Course Contents ⭐️ Section 1: Objective of the course (0:00) Course Introduction (01:21) Section 2: Foundation of Electronics (01:36) Electricity (02:10) Static Electricity (03:37) Current Electricity (04:12) Voltage (06:09) Current (08:45) Resistance (10:05) Ohm’s Law (11:55) Ohm’s Law Example (13:46) Resistances in Series and Parallel (26:03) Resistance Color Coding (28:26) Section 3: Intro to Arduino Board (28:46) What is Microcontroller and Microprocessor (31:16) What category Arduino falls into? (31:33) Different Types of Arduino Boards (32:03) About Arduino (33:04) Parts of Arduino Uno (35:52) Technical Specifications of Arduino Uno Section 4: Intro to Arduino IDE (38:58) What is IDE? (40:14) Downloading and Installing the official IDE (41:51) Preparing your computer (43:08) Testing the Arduino. (44:22) What if you don’t have an Arduino board? (46:34) Section 5: Before we move ahead (47:04) What is breadboard? (49:16) How to make connections in breadboard? (1:00:10) Some safety instructions and Do’s and Don’ts (1:01:53) Input & Output (1:08:47) Analog & Digital (1:14:04) Bit & Byte (1:16:26) Section 6: Arduino Programming (1:16:46) Introduction (1:17:41) The First Step into Programming (1:19:37) Bare minimum structure of an Arduino Program (1:20:21) Comments (1:21:37) White Spaces and Case Sensitivity (1:24:06) pinMode (1:26:44) digitalWrite and delay (1:29:51) Camel casing Section 6.1 Introduction to Variables and Data Types (1:30:51) What are variables and data types (1:31:31) Int data type (1:35:11) Arithmetic operators (1:41:51) Incrementing and Decrementing our variables (1:44:14) Float data type (1:46:48) Bool/Boolean data type (1:49:24) Byte data type (1:50:27) Char data type (1:52:46) Conclusion Section 6.2 Variable Scope and Qualifiers (1:53:19) What is Scope? Global and Local Variables (1:57:59) What are Qualifiers, starting with const qualifier (1:59:51) Alternative to const qualifier: #define (2:01:55) Static Qualifier Section 6.2 Comparison and Logical Operators (2:04:25) What are comparison operators? (2:08:58) What are Logical Operators? (2:13:16) Section 6.3 Control Structures (2:14:21) if statement (2:20:47) else statement (2:24:24) A joke :P (2:25:10) if - else Simulation (2:29:27) Introduction to loop control structures (2:30:52) For loop (2:41:02) While loop (2:45:49) do…while loop (2:50:16) break (2:52:24) continue (2:55:05) return (2:56:41) switch..case Section 6.4 Remaining data types (3:01:30) Arrays (3:09:34) Strings Section 6.5 Functions (3:15:14) What are functions? (3:19:03) Create your own functions Section 6.6 Arduino Built-in Functions and related concepts (3:35:20) digitalRead & digitalWrite (3:41:49) analogRead and Analog to Digital Converter (ADC) (3:47:50) analogWrite and Pulse Width Modulation (PWM) Section 6.7 Libraries (3:56:25) What are Libraries? (3:59:22) How to add Libraries in Arduino IDE (4:02:30) What next? 🎉 Thanks to our Champion and Sponsor supporters: 👾 Wong Voon jinq 👾 hexploitation 👾 Katia Moran 👾 BlckPhantom 👾 Nick Raker 👾 Otis Morgan 👾 DeezMaster 👾 Treehouse Learn to code for free and get a developer job: 🤍 Read hundreds of articles on programming: 🤍
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 🤍
Arduino Tutorial: LED Sequential Control- Beginner Project Inexpensive Arduino Starter Kit: 🤍 Link to Arduino IDE: 🤍 Link to Sketch for this project: 🤍 Today I am going to show you guys a very simple arduino project for beginners. We’re going to get three different LEDs to turn on and turn off in a simple sequence, like you see here. For this, you’re going to need an Arduino Uno or similar Arduino board, a breadboard (preferably with a positive and negative rail like this one), four breadboard jumper wires, a USB cable to for the Uno, three LEDs of different colors(here we are using Blue, Red and Green) and 3 220ohm resistors. Now we’re using 220ohm resistors, because they seem to work best with the LEDs we have- but you could use different resistors, depending on your LEDs and your circuit. I’ve put a link to an inexpensive arduino kit that contains all these components in the description below, in case you’re looking to get an arduino uno and all the basic components for this tutorial. So lets first setup the hardware. The first step is to establish a common ground. To do this, use a jumper wire to connect the Ground pin on the arduino to the negative rail on the breadboard. This allows all the LEDs to use the ground pin on the arduino. Now we’ll insert the resistors into the breadboard. Space the resistors out with one leg connected to the the negative rail. Now its time to insert the LEDs. Before inserting the LEDs, its important to note that the longer of the two leads on most through-hole LEDs is the positive leads. Connecting it the wrong way, will cause this circuit to not work. Connect the negative lead of the LED to the horizontal rail on which the resistor is connected and connect the positive lead to an adjacent rail. Repeat this process for all three LEDs. Now its time to complete the circuit. We are going to use output ports 13, 12 and 11 for the input signal. Connect the positive lead of the LED on the right to pin 13, the LED in the center to 12 and the LED on the left to pin 11. The circuit is now complete. Power on the Arduino Uno by connecting it to your computer using the USB cable. The LEDs on the board turn on and the board powers up. Before we work on our sketch, make sure to download the Arduino IDE for your specific operating system. I’ll leave a link to where you can download this software, in the description below. Once you’ve downloaded and installed the arduino IDE, go ahead and download the Sketch to run this program, using the link I’ve put in the description. 🤍 Open the downloaded file. The program first creates 3 variables. LED1, LED2 and LED3. This allows us to change the output pins, without having to modify the entire program. The code in the setup part of the program tells the arduino that pins 13, 12 and 11 will be outputs. The loop portion of the program is where the actual instructions live. The first three digitalwrite functions turn on one LED at a time with a 200ms delay between each of them turning on. The next three digitalwrite functions turn off the leds with a 300ms delay between each LED. Now you can change the delay between each LED to change the rhythm of the LEDs turning on and off. I’ve found that using 200ms and 300ms gives it a nice smooth rhythm. Now you’re ready to upload the program to the board. Now click on the Tools tab of the Arduino Window, make sure the Arduino Uno is selected as your board and make sure you select the COM port your board is connected to. Most of the times there will be one COM port available and that will be the one you need to select. Click on the upload button on the top left hand corner of the screen to upload the program to the Uno. A green progress bar on the lower right hand corner will indicate upload progress. And unless any errors appear in the black message bar at the bottom of the screen, your board should now be running the program and the LEDs should be turning on and off like you can see here. Hope this tutorial was useful. Please hit LIKE for more Arduino tutorials and subscribe to stay tuned.
This video is about 15 Great Arduino Projects for beginners from 🤍makeuseof.com 🤍 1. Make a Buzz Wire Game With an Arduino 🤍 2. Arduino MIDI Controller 🤍 3. Gesture control using Arduino and Python 🤍 4. Arduino Game Controller 🤍 5. Arduino RFID Smart Lock 🤍 6. Simple Arduino Alarm System 🤍 7. Traffic Light Controller . . 🤍 8. Companion Cube Mood Lamp 🤍 9.Arduino Temperature Controlled Fan Speed 🤍 10. Arduino Game Project: Pong Game using an Arduino Uno and Color OLED display 🤍 11. IR Prank Project with Arduino 🤍 12. Make Your Own Ambilight 🤍 13. Arduino-Powered Laser Turret 🤍 14. Pulsating LED Cube 🤍 15. Weekend Project: Build a Giant LED Pixel Display 🤍
Rotary encoder and 7 segment display connected to Arduino UNO #elektronik #electrician #raspberrypi #elektroniker #arduinoproject
Source code and schematic can be found on my GitHub 🤍 PART LIST: 5mm diffused blue LEDs x 512 20 AWG tinned copper wire 5V 10A regulated switching power supply Ribbon cables PN2222 transistors x 16 220 ohm resistors x 64 74HC595 shift registers x 9 Arduino Uno R3 Solder Soldering iron Prototyping board Wires Buttons Red LED Green LED Wooden board Wood glue Clamps Spray paint Foam boards
In diesem Video möchte ich euch den #Arduino #UNO vorstellen. Wir sehen uns an wie er aufgebaut ist und machen danach zwei Programmierbeispiele zum besseren Verständniss. Nach diesem Video bin ich sicher, …….JEDER KANN DAS!!! Hinweis: Die beiden ICSP- Header sind nicht parallel geschalten, sondern die Darstellung dient der Pin-Zuweisung. Ein ICSP-Header wird für den ATmeg328P und der andere für den ATmega16U2 verwendet. Danke Frank B. ★☆★ 🛒 On-line shop bei Edi's Techlab 📒 ★☆★ ► Edi’s Techlab e-book Shop: 🤍 ► Edi’s Techlab Webseite: 🤍 ★☆★ 💶 Wenn ihr den Kanal unterstützen wollt oder mir ein Bier ausgeben wollt: ★☆★ 🤍 ★☆★ ✏️ Die Links und Videos zu der Beschreibung vom Projekt ★☆★ ► Edis’s Techlab Webseite über den Arduino UNO: 🤍 ► Video LDO Spannungswandler: 🤍 ► Video Widerstände: 🤍 ► Video Pull-up Pull-down Widerstände: 🤍 ► Video Dioden Teil 1: 🤍 ► Video Dioden Teil 2: 🤍 ► Video Kondensatoren: 🤍 ► Video Pulsweitenmodulation: 🤍 ► Video Datentypen: 🤍 ► Video UART: 🤍 ► Video I2C: 🤍 ► Video SPI: 🤍 ★☆★ 🧰 Material ★☆★ ►Arduino: * 🤍 - Arduino Starter Kit für Anfänger * 🤍 - Arduino Uno Rev 3 * 🤍 - Arduino Nano * 🤍 - Arduino Mega 2560 ►Jumper Wire: * 🤍 - Female to Female F2F 40 STK. je 20 cm * 🤍 - Set 3 x 40 STK. je 20 cm M2M/ F2M / F2F ►Breadboard: * 🤍 - Breadboard Steckbrett mit 830 Kontakten * 🤍 - 3 Stk. Breadboard Steckbrett mit 400 Kontakten ►USB Kabel: * 🤍 - USB A auf Micro USB Kabel 0.5m * 🤍 - USB auf Mini USB Kabel 0.5m * 🤍 - USB A zu USB B Kabel 0.5m ► Elektronik Bauteile: * 🤍 - Widerstand Set * 🤍 - Drehpotentiometer * 🤍 - Dioden Set 200 Stück * 🤍 - 300 Stk. Leuchtdioden Set 3 und 5 mak mak * 🤍 - 180 Stück Taktilen Drucktaster Sortiment ►Netzteile: * 🤍 - 2er-Pack USB Ladegerät 5V/2A * 🤍 - Raspberry Pi 4 Netzteil, USB-C, 5.1V, 3A * 🤍 - HomeSpot Netzteil 3A/5V inkl. 1,5M Micro USB Kabel ★☆★ 🛠 Werkzeug ★☆★ * 🤍 - Ersa RDS80 Lötstation - Professionell * 🤍 - Lötkolbem Set - Kostengünstig * 🤍 - Lötzinn * 🤍 - KNIPEX Electronic Knips * 🤍 - Schraubendreher Set * 🤍 - Cuttermesser * 🤍 - Isolierband Set ★☆★ 📷 Verwendete Kamera und Mikrofon ★☆★ * 🤍 - Sony ZV1 und Bluetooth Handgriff * 🤍 - Rode NT-USB Mikrofon Mehr von Edi's Techlab FACEBOOK: 🤍 INSTAGRAM: 🤍 WEBSEITE: 🤍 TWITTER: 🤍 PATREON: 🤍 IMPRESSUM: 🤍 - Meine Videos enthalten bezahlte Produktplatzierungen. Alle Links mit "*" sind Amazon Affiliate Links. Edi’s TechLab ist Partner am Amazon Affiliate Partner Programm Alle Geräte wurden selbst erworben.
Complete Arduino Uno Pins overview. Understand what each pin does, and what are the hidden functionalities of the Arduino board. 👉 Complete Arduino Course for Beginners: 🔥 🤍 🔥 ✅ Click Here for the corresponding Written Tutorial: 🤍 0:00 Intro 0:38 Ground pins (GND) 1:45 Power pins 4:07 Digital pins 6:16 Digital pins - PWM 8:07 Digital pins - Interrupts 9:04 Analog pins 11:32 Communication protocols 12:10 UART 13:29 I2C 14:32 SPI 16:27 How to get started with Arduino pins 👉 Get my full-length courses 👉 🤍 💥 FREE for 1 month! 💥 If you like what I do and want to support my channel, consider enrolling in my courses. Thank you! Twitter: 🤍 More Free Tutorials: 🤍
Купить плату Arduino Uno: 🤍 Стартовый набор Ардуино: 🤍 Набор модулей и датчиков Ардуино: 🤍 Электрическая схема платы: 🤍 Группа в ВК: 🤍 Реклама на канале: 🤍 Почта (для сотрудничества): daymon911🤍mail.ru В этом выпуске вы узнаете: что такое плата Arduino Uno, как она устроена и какие элементы на ней есть; на каком микроконтроллере работает Arduino; с каким напряжением работает плата Arduino Uno и от какого напряжения питается. _ 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.
It's really easy to mix up terms when talking about "Arduino Uno" boards. Is one better than the other? Is it bad to buy clone boards? What's the difference between a clone and a counterfeit? This is the podcast I mentioned. 🤍 If you're looking to buy some boards, using my referral links helps the channel with a small commission. US and Global Links (Canada Below) Genuine Board 🤍 Bikini Board 🤍 🤍 Duck Board 🤍 Clone 🤍 🤍 (2 pack) Keyestudio Plus 🤍 CANADA Links Genuine UNO 🤍 3x cloneduinos 🤍 keyestudio uno 🤍 rgbduino not available in canaderp
This video will cover wiring of the led, gear motors, push button and ultrasonic sensor. I will explain the programing part of arduino: void setup, void loop, digitalread digitalwrite, analogwrite and pulsein with examples. At the end I will show you how you can program a routine to make a small arduino robot car move. This is the best way to learn how to use arduino! SUBSCRIBE for more on How to Make a Robot! 🤍Robottronic Follow me on Instagram for daily updates on how my next project is progressing. 🤍robottronic Tutorials on Instructables 1. 3 Ways to Power Up Arduino Uno: 🤍 2. Arduino and an LED: 🤍 3. Arduino and the PWM: 🤍 Video Content: 0:25 Three ways to power arduino uno r3 Digital Output 2:05 Connecting an LED to arduino uno r3 2:45 Programing with digitalwrite in the void setup 3:45 Programing with ditital write in the void loop 4:35 Runing the LED code Gear Motors 4:56 Testing digital pins 5:32 How to connect brushed gearmotors with the arduino 6:30 Working with PWM Digital Input 7:30 Wiring a push button for LED control 8:02 Programing with digitalread the arduino for a push button 8:47 Testing how it works First Sensor 8:55 Wiring the HC-SR04 9:20 Programing the arduino for HC-SR04 10:22 Testing the code Robot Car Project 10:30 Programming a routine for a robot car 11:54 Seeing it in action! #robot #howtomakearobot #robottronic
today we are checking out a fake clone arduino uno, and comparing it to a genuine arduino uno board! I bought this clone board for about $4 online, and it turns out that this cheap arduino clone is actually pretty good! BUY a cheap Arduino UNO R3 clone for yourself with the following links! Amazon - 🤍 Aliexpress - 🤍 Banggood - 🤍 Overall, I've been using fake arduino uno clone boards for years now and they have always worked perfectly. If you need a spare, or dont have much money to afford a genuine arduino uno, then I definitely recommend you grab a clone like this board, as it works perfectly once you install the CH340G driver - CH340G driver download - 🤍 If you do want to support Arduino, then definitely consider purchasing one of the genuine Arduino UNO boards - 🤍 thanks for watching! ### 🤍
Learn to use LCD displays with an Arduino. All types of LCDs, including I2C and display shields are covered here. Article with code at 🤍 More articles and tutorials: 🤍 Join the conversation on the forum: 🤍 Subscribe to the newsletter and stay in touch: 🤍 Today in the workshop we will look at Liquid Crystal Displays or LCDs. We will examine the use of two types of LCD displays - the common LCD1602 display module and a popular LCD Keypad Shield for the Arduino. We’ll also see how to use the I2C adapter for the LCD1602 display module. LCDs are a very simple way to add display capabilities to your Arduino project. They are inexpensive, easy to use, and very versatile. They also don’t consume a lot of current so they are ideal for battery-powered projects. I'll show you a couple of ways to interface an LCD with an Arduino, including the use of an I2C adapter. If you’re not familiar with the I2C (Inter-Integrated Circuit) bus it’s a very versatile method of adding sensors and peripherals to your Arduino using only a few wires. I’ll give a brief explanation about the operation of the IC2 bus in the video. To use the I2C adapter we'll make use of a library called NewLiquidCrystal. I'll show you how to install it, you'll find the link to this library in the article at 🤍 The library is actually a replacement for the Arduino LiquidCrystal library so you can use it for all your LCD sketches, not just the I2C ones. We will also build something practical while we are at it - a digital temperature and humidity gauge. This will make use of the I2C adapter and the DHT22 Temperature and Humidity sensor. The video, and the accompanying article, will also show you how to use a very common LCD Keypad Shield for the Arduino Uno. The neat thing about this device is how the pushbuttons are wired. I’ll explain that and show you a demonstration sketch that you can build upon for your own projects. Here is the Table of Contents for this video: 00:00 - Introduction 04:27 - The LCD1602 Display Module 07:04 - Hooking up the LCD and Arduino 09:49 - Demo Sketch 1 - Hello World 12:59 - Demo Sketch 2 - Scroll 15:39 - Demo Sketch 3 - Custom Characters 20:00 - Introducing I2C 23:44 - Hooking up the I2C Adapter 26:15 - I2C Address Test 27:08- I2C Display Test 32:48 - Building the Temperature & Humidity Gauge 37:39 - LCD Keypad Shield 41:00 - LCD Keypad Shield Demo Sketch By the way, I should mention I had a “slip of the tongue” while narrating this video. During the “Custom Character” demo I described the LCD as having a 5 x 7 matrix, it’s actually 5 x 8. Sorry about that! One extra row for you to define your custom characters. The article accompanying this video at 🤍 contains a link to a very handy resource, an online custom character generator that you can use to write the code to define your own custom characters. You’ll want to check that out. As usual, the article has links to more resources and to a ZIP file with all of the code you see displayed here. Hope you enjoy this video and that you use it to display something wonderful in your next Arduino project!
En el video de hoy os explicare paso a paso como meter códigos en Arduino, instalaremos todo lo necesario juntos y así no se pierde nadie. Una vez explicado como meter tus programaciones en Arduino vamos a realizar el ejercicio del video anterior de forma física. Este es el ejercicio que te deje en el video anterior: 🤍 Y por ultimo unos enlaces por si quieres adquirir algo referente a Arduino. Arduino UNO original: 🤍 Arduino UNO imitación: 🤍 Kit iniciación con Arduino UNO imitación incluido: 🤍 Kit de iniciación imitación en Amazon: 🤍 Aquí tenéis 100 interruptores de diferentes larguras por 7€ en Amazon: 🤍 Y aquí la magia de Aliexpress, 100 interruptores por 1€ y con envió gratis a España jajajaja: 🤍 Y si quieres sensores de temperatura... pues aquí te salen a 20 céntimos jejejeje: 🤍 Nada mas familia, nos vemos en el siguiente. UN ABRAZO ENORME.
Zapraszam Was na pierwszy odcinek kursu poświęconego platformie Arduino. Dziś przedstawię podstawowe informację na temat płytek i platformy Arduino oraz napiszę prawdopodobnie najprostszy program, jaki istnieje. Muzyka: 🤍 Inspiracja: 🤍 #Arduino #Elektronika
Source Files: 🤍 OLED display: 🤍 PCBWay - 🤍 WOKWI - 🤍 In this tutorial, I will show you how to create a simple menu using a 128x64 SSD1306 OLED Display connected using the IIC (I2C) interface to Arduino UNO together with three push buttons. The menu is inspired by the menu from Flipper Zero - 🤍 This tutorial is for beginners, and I try to describe every single step in an understandable way. We would be using Photopea to create graphics, image2cpp to convert images into C code arrays, and WOKWI online Arduino emulator to test our sketch before running this on the real Arduino UNO. The final project uses Arduino UNO, a prototyping shield (but any breadboard is fine), an OLED display, and 3 push buttons (and, of course, some wires). Links from the video: WOKWI start project progress bar - 🤍 128x64 SSD1306 OLED Display: 🤍 Transparent OLED display: 🤍 Arduino UNO: 🤍 Arduino UNO MINI: 🤍 Big OLED Display: 🤍 Arduino breadboard prototyping shield: 🤍 u8g fonts (fonts available for u8g library): 🤍 u8g documentation: 🤍 Photopea (online Photoshop-like tool): 🤍 image2cpp (convert images into C code): 🤍 Push buttons with caps - 🤍 Related videos: Arduino Parking Sensor - 🤍 Turbo pressure gauge with Arduino and OLED display - 🤍 Arduino Car Cluster with OLED Display - 🤍 Knob over OLED Display - 🤍 Arduino + OLED = 3D ? - 🤍 Arduino OLED Gauge - 🤍 Smaller & Faster Arduino - 🤍 PCBWay is a service for manufacturing custom PCBs. If you click the link above, you will get a coupon for $5, which is exactly the price of 10 pieces of custom PCBs. In that case, you will only pay for shipping. Do you have any experience doing this? Please let me know in the comment section! Hashtags: #OLED #arduino Do you have any questions? Suggestions for the next video? Please put those down in the comment section. I try to answer as many questions as I can. Thank you for watching and reading the video description, and I hope to see you next time. Good luck with your projects!
En este short veremos las diferencias que existen entre las placas arduino uno y wemos D1 usadas en la robótica educativa. 📲¿𝐐𝐮𝐞𝐫𝐞𝐬 𝐞𝐬𝐭𝐚𝐫 𝐚𝐥 𝐭𝐚𝐧𝐭𝐨 𝐝𝐞 𝐥𝐚𝐬 𝐧𝐨𝐯𝐞𝐝𝐚𝐝𝐞𝐬 𝐝𝐞𝐥 𝐜𝐚𝐧𝐚𝐥? ► Instagram: 🤍 ► Twitter: 🤍 ► Página web: 🤍 #innovativalab #tecnologia #robotica #arduino #arduinouno #wemosd1
The most powerful Arduino yet - meet the new Arduino GIGA R1 WiFi board! Article with code: 🤍 More articles and tutorials: 🤍 Join the conversation on the forum: 🤍 Subscribe to the newsletter and stay in touch: 🤍 What looks like an Arduino Mega, works like an Arduino Portenta (but costs a lot less), and has a ton of exciting new features? It’s the Arduino GIGI R1 WiFi, the newest microcontroller board from Arduino. This beast may look like a Mega 2560, but that’s where the resemblance ends. The GIGA has even more I/O ports, 76 of them. It has an integrated Real Time Clock, 16-bit Analog to Digital Converters (ADCs), 12-bit Digital to Analog Converters (DACs), and CANBUS connections. It also has a USB-A connector that you can use with a keyboard, mouse, or USB storage device. Its STM32H747XI microcontroller has two powerful high-speed cores, and you can even run a MicroPython program in one core and an Arduino C program in the other. The GIGA has a Murata LBEE5KL1DX-883 radio module for Wi-Fi and Bluetooth communication. Here is a breakdown of today's video: 00:00 - Introduction 02:23 - Arduino GIGA R1 WiFi 11:07 - Look at GIGA board 13:54 - Getting Started with the GIGA 15:46 - Fixing Linux Error 22:18 - Example - WiFiWebClient 26:45 - Real Time Clock 28:25 - RTC Manual Code & Demo 33:19 - RTC WiFi Code & Demo 36:38 - Working with USB 38:41 - Read USB Directory 41:52 - Write to USB Drive 44:23 - Read from USB Drive 46:05 - Using the ADCs 50:55 - Using the DACs - Waveform Generator 58:03 - Conclusion While the hardware for the GIGA is nothing short of amazing, the software is currently in development. I had many issues getting it all to work. I’ll show you how to resolve these issues if you encounter them. But software issues aside, this powerful microcontroller board will find many great applications in robotics, process control, and IoT (it’s ready for the Arduino IoT Cloud). Hope you enjoy the video! Bill
Learn to use Servo Motors with an Arduino. Directly, and with a PCA9685 I2C Servo Driver. Accompanying article with code: 🤍 More articles and tutorials: 🤍 Join the conversation on the forum: 🤍 Subscribe to the newsletter and stay in touch: 🤍 Today we’ll be making things move with Servo Motors! Analog servo motors are inexpensive little powerhouses that can be perfect when you're designing something that needs to move. They pack a lot of torque for their size and their shaft position can be pretty accurately controlled. We will start out by taking a look at how analog servo motors work and what kind of signal we’ll need to control them. We will also learn how to read the specs so that we can choose the best servo motor for our application. There are two types of servo motors we will look at - conventional servos that rotate 180 or 270 degrees and continuous rotation servo motors. Then it's time for the experiments. We will use a couple of the example sketches written for the Arduino Servo library to show just how easy it is to control a servo motor with an Arduino. We will also examine a method of controlling LOTS of servo motors, the PCA9685 16-channel PWM controller board. As its name would imply this board lets you control 16 devices like servo motors and it interfaces to your Arduino or Raspberry Pi using the versatile I2C bus. And if 16 servos still isn’t enough you can cascade up to 62 of these boards to drive an unimaginable 992 servo motors with just one Arduino! I’ll settle for a more reasonable 4 servo motors, the 4 servo motors in the MeArm that I built in an earlier video. I’ll show you how to build a controller for the MeArm using an Arduino Uno and a PCA9685 board. Here is the Table of Contents for this video: 00:00 - Introduction 02:14 - Servo Motor Basics 07:26 - Understanding Servo Specifications 09:25 - Servo Tester Demo 14:09 - Arduino Sweep Sketch 18:56 - Arduino Knob Sketch 25:12 - The PCA9685 30:05 - MeArm Controller As always you'll find a detailed article on the DroneBot Workshop Website at 🤍 It includes the sketches we cover in the video in an easy to download ZIP file as well as detailed explanations and links to other useful resources. And speaking of useful resources please sign up for the DroneBot Workshop newsletter at 🤍 . I hope you enjoy the video, and if you haven’t already please subscribe to the YouTube channel.
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Existen diferencias entre un arduino uno original y un arduino uno clon (pirata), independientemente del hardware, el software y algunos programas permiten trabajar más facilmente con un original, debido al modelo del microcontrolador atmega328p-xx que tiene cada tarjeta. Mis redes sociales: - Beneficios para que pidan sus PCB's: 🤍 Consigue PCB's de alta calidad: 🤍 SMT Service e Impresión 3D: 🤍 🔥 Series de Youtube Short acerca de proyectos electrónicos interesantes para todos los niveles de Makers, DIYers, Hobbyists, Engineers, Technicians y Amateurs. YouTube: 🤍 TikTok: 🤍 Facebook: 🤍 Instagram: 🤍 Instructables: https://🤍 #JLCPCB #arduino #arduinouno Gracias por seguir mi contenido, no olvides suscribirte a mi canal, compartir mi video y dejar tus comentarios.
Hoy te explicamos qué es el proyecto Arduino, así como las principales características que lo definen. Se trata de un tipo de placas muy populares en el mundo maker, pero que a diferencia de la Raspberry Pi no cuenta con un único modelo, sino que ofrece bases de hardware abierto para que otros fabricantes y usuarios puedan crear sus propias placas. Pero si todo esto aún te suena un poco a chino quédate a ver el vídeo y te explicamos… Te dejamos por aquí el link a los posts y guías de Arduino en Xataca.com , que aproveche! ;) Proyectos de Arduino: 🤍 Guías de Ardumaniaco: 🤍 🤍 🤍 #Arduino #Tutorial #Hardware 🔋🔋🔋🔋 Suscríbete 🤍 📹Echa un vistazo a nuestros vídeos 🤍 📹Sigue de cerca nuestras playlists 🤍 📘Facebook 🤍 🕊Twitter 🤍 📸Instagram 🤍 💬Telegram 🤍 🖥Leer más: 🤍 📡📡📡📡 Xataka TV, canal de Youtube del medio líder en tecnología. Te informamos sobre la actualidad de los mejores productos tecnológicos: smartphones, teléfonos móviles y sus apps (Android e iPhone), ordenadores e informática, televisiones y smart tv, tablets, drones, videoconsolas y juegos, cámaras de fotos y fotografía, todos los gadgets que puedas imaginar del mundo tech. Hacemos pruebas de producto que nos permiten hacer los mejores análisis y reviews siempre en español. Compartimos nuestras impresiones con comparativas con competidores. Expresamos nuestra opinión, siempre objetiva, para que estés siempre a la vanguardia de la información.
ПОДДЕРЖАТЬ КАНАЛ (разово): 🤍 ПОДДЕРЖАТЬ (ежемесячно): 🤍 ЗАКАЗАТЬ Футболку, Кепку, Аксессуары с символикой канала БОЛЬШАЯ МАСТЕРСКАЯ ТОМА: 🤍 Заказ плат Ардуино на Алиэкспресс: НАБОР НОВИЧКА! 🤍 Arduino Nano 🤍 Arduino UNO 🤍 Arduino MEGA: 🤍 Arduino Pro Micro: 🤍 Монтажная плата Arduino UNO 🤍 Монтажная плата Arduino MEGA 🤍 Модуль клавиатуры 5 кн. 🤍 Модуль LCD: 🤍 Модуль дисплея 1602А 🤍 Модуль WiFi: 🤍 Модуль Ethernet: 🤍 Модуль генератора AD9850 🤍 БЛОК ПИТАНИЯ DPS-5020 🤍 ПАЯЛЬНИК из видео: 🤍 Паяльник с олово-отсосом 🤍 МУЛЬТИМЕТР 🤍 ОСЦИЛЛОГРАФ 🤍 КЛЕЩИ ЗАЧИСТКИ 🤍 КУСАЧКИ 🤍 ОБЖИМКА: 🤍 Макетные платы 🤍 Платы SMD 🤍 Набор транзисторов 🤍 Набор резисторов: 🤍 Набор стабилитронов 🤍 Набор конденсаторов 🤍 Набор электролитических конденсаторов 🤍 Набор диодов 🤍 Сайт разработчика и производителя оригинальных плат Ардуино: 🤍 Видео о логических элементах: 🤍 0:00 Что такое Ардуино и зачем он нужен? 0:52 Что тако микроконтроллер и чем он отличается от обычного процессора? 2:27 Где применяются микроконтроллеры? 3:04 Что такое Ардуино и как им пользоваться? 3:26 Что сделало Ардуино таким популярным среди радиолюбителей во всём мире? 4:17 Ключевые отличия Ардуино от других аналогичных плат. 4:50 Что такое бутлоадер (читается «бутлоудер», bootloader)? 5:11 Как программируется Ардуино и что для этого нужно. 5:27 Виды плат Ардуино и их отличие 5:45 Где скачать Arduino IDE и как его установить? 6:13 Что такое скетчи и где их брать? 6:30 Как указать тип платы Ардуино в программе? 6:50 Что такое COM порт и как он работает? Настройка COM порта в Ардуино. 7:35 Эмуляторы USB-COM и их особенности. 8:19 В чём отличие оригинального Ардуино от китайского? CH340 и ATMEGA 16U2. 12:08 Устройство Ардуино Уно (Arduino Uno). Узел формирования сигнала RESET, тактовый генератор. Питание процессора: VCC и AVCC. 13:54 Внешние порты ATMEGA328P. Почему у портов всего 6 разрядов вместо 8-ми? 14:30 Обозначение и нумерация линий ввода-вывода Ардуино. Условные номера линий ввода-вывода. 15:26 Создаём наш первый скетч для Ардуино. С чего начать? Встроенный светодиод Ардуино. 16:05 Процедуры setup() и loop(). Для чего они нужны, в каком порядке выполняются и как работают? 17:29 Программируем линию Ардуино на вывод и зажигаем светодиод LED_BUILTIN. 17:48 Логические уровни в Ардуино. Команда digitalWrite(). Константы LOW и HIGH. 18:58 Команда задержки delay() в Ардуино и как она работает. 20:10 Программирование выходов Ардуино для ШИМ. Команда analogWrite(). 20:52 Подключаем внешний светодиод к Ардуино. Пишем код с использованием ШИМ. 22:07 Программирование линий Ардуино на ввод. Цифровые входы. Команда digitalRead(). 22:50 Встроенные пуллап-резисторы ATMEGA 328P и как их активировать в Ардуино. 23:32 Пишем программу, считывающую нажатие кнопки и выдающую уровень на светодиод. 24:35 Инвертируем логику работы программы при помощи операции XOR. 24:57 Собираем кодовый замок домофона на Ардуино. Подключаем 10 кнопок к цифровым линиям Ардуино с 0 по 9. 25:25 Логика работы кодового замка. Управление электромагнитом. 25:53 Проверяем работу кнопок при помощи тестовой программы. 26:50 Реализуем основную логику работы кодового замка при помощи операции логическое И. 28:18 Спасибо за просмотр видео! Подписывайтесь на канал MajorTomWorkshop! #majortomworkshop #majortommusic
Hello 3D Printing Friends! Today we'll take a look at the Elegoo Super Starter Kit, which Elegoo sent me, free of charge. Let’s take our first tentative steps into the worlds of electronics and coding for the Arduino Uno! This is the smaller sibling to the Arduino Mega, which forms the basis of the RAMPS boards found in so many 3D printers. We’ll start by getting the Arduino Integrated Development Environment installed on the computer, and then we’ll write a little bit of code to blink one of the LEDs built into the Uno. Future episodes in this series will see us combining basic electronics and code, and as we gain experience, we can make ever-cooler things! Want to buy an ELEGOO UNO Project Super Starter Kit for yourself? You can pick one up here: • 🤍 🇺🇲US [affiliate link] • 🤍 🇨🇦Canada [affiliate link] LINKS: BV3D Arduino Prototyping Base • 🤍 Elegoo Software Downloads • 🤍 - Click SOFTWARE, then download the Arduino IDE - Click UNO R3 STARTER KITS, then download the Elegoo UNO R3 Super Starter Kit files Did this video help you out, save you a bunch of time, or help you learn something new? If so, please consider becoming a channel member, or buying me a coffee, or leaving a tip! Your support really helps, and is VERY MUCH APPRECIATED! ✅ BV3D Channel Membership: 🤍 ☕️ Buy Me a Coffee: 🤍 👍🏻 PayPal tip jar: 🤍 *️⃣ The BV3D Channel Storefront on Amazon: • 🤍 *️⃣ Popular 3D printer affiliate links: • BIQU: 🤍 • Creality: 🤍 • Comgrow: 🤍 [Check out the Creality REFURBS!] • Elegoo: 🤍 • FLSun: 🤍 • Pergear: 🤍 • Sovol: 🤍 • Sunlu: 🤍 • Voxelab: 🤍 *️⃣ In the market for a magnetic flexible build system for your 3D printer? 💥Wham Bam Systems flex plates: 🤍 As a Wham Bam Systems Associate I earn from qualifying purchases. *️⃣ Shop for just about anything: 🛒🇺🇲US: 🤍 [affiliate link] 🛒🇨🇦Canada: 🤍 [affiliate link] As an Amazon Associate I earn from qualifying purchases. SOCIAL MEDIA Follow me on Twitter (🤍bryan_vines): 🤍 Disclosure: I sometimes receive compensation such as discounted or free products, and when applicable, this is disclosed in videos and their descriptions. Whether free, discounted, or paid full price, any reviewed product is tested to the best of my ability, and I give my honest impression. All opinions expressed are my own. #BV3D #BV3DChannel #3DPrintingFriends
Aktualnie pod hasłem Arduino kryje się kilka rzeczy. Po pierwsze, mówimy o serii płytek Arduino, czyli małych obwodach drukowanych z mikrokontrolerami, czyli małymi procesorkami, które można bardzo łatwo programować... 🟥 Ważne linki: ➡ Darmowy kurs Arduino » 🤍 ➡ Zestawy do kursu » 🤍 ➡ Film z przykładowymi projektami » 🤍 ➡ Seria filmów o podstawach elektroniki » 🤍 ...po drugie, Arduino to dedykowane środowisko programistyczne wraz ze specjalnym językiem programowania, który bazuje na C. Całość została jednak przygotowana w taki sposób, aby była ekstremalnie przyjazna dla osób początkujących. Po trzecie, Arduino to Włoska firma założona przez pomysłodawców tej platformy, którzy dbają teraz o rozwój całego ekosystemu tworząc nowe płytki i udoskonalając środowisko programistyczne. Czym jest Arduino UNO? Sztandarową płytką, od której zaczyna zdecydowana większość osób jest Arduino UNO. Płytka ta powstała jako pomoc dydaktyczna dla włoskich studentów, szybko stała się jednak międzynarodowym hitem, który używany jest obecnie przez miliony osób z całego świata...
Doing some art on touchscreen shield for Arduino UNO #engineering #engineer #raspberrypi #electrician #arduinoproject #technology LInk to display: 🤍
ВКонтакте: 🤍 Группа ВК: 🤍 Ютуб канал: 🤍 Инстаграмм: 🤍 E-mail: ardublock🤍mail.ru #arduino #ardublock
Combining engineering and art with embedded systems. Stylus in action!
Thank you to all my Subscribers! you all had made this channel possible. If you enjoy the videos, please Like and Subscribe, it motivates me to create more videos🥰 Let me know in the comments, Do you like this 3D Printed Arduino Case or not ? "Feel free to leave a comment because I answer every single one of them"😊❤️ Follow Not A DIY on: Instagram: 🤍 Thingiverse: 🤍 ... Design : 🤍 Music : 🤍 Infraction music: instagram: 🤍 spotify: 🤍 Tag : #3dprint #shorts #3dprinted #3dprinting
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This is an unboxing of Arduino UNO Mini LE - the new, limited revision of a legendary microcomputer. 25% smaller, equipped with USB-C and powerful ATmega328P processor. Arduino has been a core of many innovative projects around the world. This Limited Edition is a tribute to all creators and innovators that put their trust in this microcontroller. Black board with golden accents make the Arduino UNO mini LE a true collector's item, a piece of art. But it's still a fully functional, powerful, reliable and affordable prototype board for your project. But it's up to you, whether you will use this microcontroller as a brain of your device, or as a work of art in your home gallery. Get your own Arduino UNO Mini LE now on tme.eu: ▶▶ 🤍 ◀◀ 🎬 Thank you for watching! ✦✦✦ See where else you can find us! ✦✦✦ ✔ Subscribe to our YouTube channel ➡ 🤍 ✔ Visit our website ➡ 🤍 ✔ Like us on Facebook ➡ 🤍 ✔ Our Instagram ➡ 🤍 ✔ Join our TEAM ➡ 🤍 #TransferMultisortElektronik
Привет, друзья! В этом видео я сделаю распаковку набора Arduino Uno (набор Starter Kit на базе UNO R3). Расскажу о его преимуществах и недостатках. Набор на базе Arduino – платы с микроконтроллером и приличным набором датчиков, радиокомпонентов, периферией. Включает в себя, все, что нужно на первое время изучения робототехники и программирования, проверки и испытаний ваших проектов не выходя из дома. Применение данного оборудования позволит освоить проектирование с нуля, автоматизировать и роботизировать в производственных процессах предприятий, повысит твои знания в робототехнике. В набор входит: - Плата Arduino Uno R3 ATmega328P-AU + USB кабель - Макетная плата MB102 на 830 точек - LCD 1602A модуль / ЖК дисплей (16х2, голубая подсветка) - Модуль I2C интерфейса для дисплея - Сервопривод Tower Pro 9g SG90 - 4-фазный 5 В шаговый двигатель 25BYJ-48 + драйвер ULN2003 - Матричная кнопочная клавиатура 4х4 - РЧИД-модуль RC522 c картой и брелком - Модуль ИК-управления HX1838/KY-022 с пультом - Модуль управления, джойстик, манипулятор - Модуль с датчиком температуры и влажности DHT11 - Модуль с акустическим датчиком / датчиком звука LM393 - Модуль с датчиком уровня воды / глубиномером T1592 - Модуль часов реального времени DS1307 - Модуль RGB светодиода KY-016 - Светодиодная матрица / матричный дисплей (анод, 8х8, 16 контактов, 32 x 32 мм, 2.1-2.5 В) - 7-сегментный индикатор (катод, 10 контактов, 0.56", красное свечение, 2.1-2.8 В) - 4-разрядный 7-сегментный индикатор под часы (катод, 12 контактов, красное свечение, 2.1-2.8 В) - Излучатель звука, пассивный зуммер / buzzer 3-12 В - Излучатель звука, активный зуммер / buzzer 5 В - Датчик температуры LM35DZ - Резистор переменный, потенциометр WH148 B5K 5 кОм с колпачком - 1-канальный модуль реле SRD-05VDV-SL-C - Микросхема SN74HC595N - 8-и битный сдвиговый регистр - 2x Датчик вибрации, наклона SW-520D - 4х Кнопка тактовая / микрик (4 контакта, 12 х 12 х 7.3 мм) с колпачком - 5x Светодиод красный (5 мм, 1.8-2 В) - 5x Светодиод синий (5 мм, 3-3.2 В) - 5x Светодиод желтый (5 мм, 2-2.3 В) - Светодиод инфракрасный, излучатель (5 мм, 1.27-1.4 В, 940 нм) - Фотодиод, фотоприемник, ИК-приемник (5 мм, 1.1-1.4 В, 940 нм, чёрная колба) - Фоторезистор GL5516 - Фоторезистор GL5528 - Фоторезистор GL5539 - 5х Резистор 220 Ом - 5х Резистор 1 кОм - 5х Резистор 10 кОм - 10x Dupont кабель папа-мама 20см - 20x Dupont кабель папа-папа 8-23 см - Адаптер питания, переходник с батарейки «Крона» на коннектор 5.5x2.1мм - Пластиковый кейс для хранение и транспортировки #kursach2 #курсач2 #ардуино
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![КАК УСТРОЕНА ПЛАТА ARDUINO UNO [Уроки Arduino #2]](https://i.ytimg.com/vi/739WmHH4uSY/mqdefault.jpg "КАК УСТРОЕНА ПЛАТА ARDUINO UNO [Уроки Arduino #2]")
