Using Serial.read() with Arduino | Part 1
ðĪĐ Get the 10 Arduino Programming Tips PDF hereðð https://bit.ly/3L0pcqk Want to learn more? Check out our courses! https://bit.ly/3u7DRmd **Get the code, transcript, challenges, etc for this lesson on our website** https://bit.ly/331I3Is We designed this circuit board for beginners! Kit-On-A-Shield: https://amzn.to/3lfWClU SHOP OUR FAVORITE STUFF! (affiliate links) --------------------------------------------------- Get your Free Trial of Altium PCB design Software https://www.altium.com/yt/programming... We use Rev Captions for our subtitles https://bit.ly/39trLeB Arduino UNO R3: Amazon: https://amzn.to/37eP4ra Newegg: https://bit.ly/3fahas8 Budget Arduino Kits: Amazon:https://amzn.to/3C0VqsH Newegg:https://bit.ly/3j4tISX Multimeter Options: Amazon: https://amzn.to/3rRo3E0 Newegg: https://bit.ly/3rJoekA Helping Hands: Amazon: https://amzn.to/3C8IYXZ Newegg: https://bit.ly/3fb03X1 Soldering Stations: Amazon: https://amzn.to/2VawmP4 Newegg: https://bit.ly/3BZ6oio AFFILIATES & REFERRALS --------------------------------------------------- âšAudible Plus Free trial: https://amzn.to/3j5IGrV âšJoin Honey- Save Money https://bit.ly/3xmj7rH âšJoin Honey- Save Money https://bit.ly/3xmj7rH âšDownload Glasswire for Free:https://bit.ly/3iv1fql FOLLOW US ELSEWHERE --------------------------------------------------- Facebook:   / programmingelectronicsacademy  Twitter:   / progelecacademy  Website: https://www.programmingelectronics.com/ Are you trying to use Serial.read() to get data from a serial port to your Arduino? Maybe youâre using the Arduino Serial Monitor window and sending in data, or maybe youâve got a program running on your raspberryPi sending data via serial to your Arduino board. How do you use serial.read() to receive the data, and piece it together correctly? In this lesson you will learn exactly how to use Serial.read() to receive data from the serial port and stitch it together as one value. AN OVERVIEW WHAT WEâLL COVER: The big picture of serial communication The serial buffer Serial.read and Serial.available Developing a protocol and strategy for reading in data from the serial port Implement the strategy in Arduino code BONUS: How to convert the serial data from a string to an integer THE BIG PICTURE OF SERIAL COMMUNICATION Letâs take a step back from Serial.read(), and talk about Serial Communication. Serial communication is the process of sending one bit of data at a time, sequentially, from one place to another. Like say, sending data from your raspberryPi to a connected Arduino, or vice versa. USB is one of the most common methods used for serial communication, hence the name Universal Serial Bus. Using Arduino we can easily send and receive data over a USB cable with the built-in Arduino Serial Library. Now if you donât know what an Arduino library is, itâs basically a bunch of code that has been bundled together, because it is often used together. Imagine you were a barber, maybe you have a specific drawer in your barber shop for all your hair cutting tools. Every time somebody walks in for a haircut, you know exactly where to look, in that hair cutting drawer, and all your tools are right there. Maybe you have another drawer with all the stuff you need for dying peoples hair, when someone walks in and asks to get their hair dyed red, you know exactly which drawer to open. Same thing with Arduino libraries. Arduino libraries put together a bunch of software functions that help you with specific tasks. SERIAL LIBRARY FUNCTIONS For serial communication, we can use the built-in Arduino Serial library. The Serial library has functions like: Serial.begin() Serial.read() Serial.available() Serial.parseInt() Serial.parseString() Serial.parseFloat() Serial.print() Serial.captCrunch() OK, we know that Serial Communication over USB is how we can talk between one device and another, and we know that the Arduino Serial library is the set of tools weâll use for serial communication. But where does the data that comes from another device actually go on the Arduino? THE SERIAL BUFFER The answer is the serial buffer, or perhaps more precisely, the serial receive buffer. When bits of data start streaming in from your computer, a piece of hardware on your Arduino called a UART will assemble each of the 8 bits into a byte, and store those bytes for you in the Serial Receive Buffer. The serial receive buffer can hold 64 bytes. The data you send from your computer, to your Arduino, will end up in the serial receive buffer. How do you get this data? That is where Serial.read() comes in. CONTINUEDâĶ https://bit.ly/331I3Is
