Wanted to do the same thing - send ctrl+z using Arduino serial monitor to escape the text string for a GSM message. Couldn't find a way with Arduino serial monitor, however the following works. Download Tera Term (a free terminal emulator, maybe others too). Very simple to use.
Description
Writes binary data to the serial port. This data is sent as a byte or series of bytes; to send the characters representing the digits of a number use the print() function instead.
Syntax
Serial.write(val)
Serial.write(str)
Serial.write(buf, len)
Parameters
Serial
: serial port object. See the list of available serial ports for each board on the Serial main page.val
: a value to send as a single byte.str
: a string to send as a series of bytes.buf
: an array to send as a series of bytes.len
: the number of bytes to be sent from the array.
Returns
write()
will return the number of bytes written, though reading that number is optional. Data type: size_t
.
Analog Read Serial
This example shows you how to read analog input from the physical world using a potentiometer. A potentiometer is a simple mechanical device that provides a varying amount of resistance when its shaft is turned. By passing voltage through a potentiometer and into an analog input on your board, it is possible to measure the amount of resistance produced by a potentiometer (or pot for short) as an analog value. In this example you will monitor the state of your potentiometer after establishing serial communication between your Arduino or Genuino and your computer running the Arduino Software (IDE).
Hardware Required
- Arduino or Genuino Board
- 10k ohm Potentiometer
Circuit
Arduino Serial Monitor Send Int
Connect the three wires from the potentiometer to your board. The first goes from one of the outer pins of the potentiometerto ground . The second goes from the other outer pin of the potentiometer to 5 volts. The third goes from the middle pin of the potentiometer to the analog pin A0.
click the image to enlarge
image developed using Fritzing. For more circuit examples, see the Fritzing project page
By turning the shaft of the potentiometer, you change the amount of resistance on either side of the wiper, which is connected to the center pin of the potentiometer. This changes the voltage at the center pin. When the resistance between the center and the side connected to 5 volts is close to zero (and the resistance on the other side is close to 10k ohm), the voltage at the center pin nears 5 volts. When the resistances are reversed, the voltage at the center pin nears 0 volts, or ground. This voltage is the analog voltage that you're reading as an input.
The Arduino and Genuino boards have a circuit inside called an analog-to-digital converter or ADC that reads this changing voltage and converts it to a number between 0 and 1023. When the shaft is turned all the way in one direction, there are 0 volts going to the pin, and the input value is 0. When the shaft is turned all the way in the opposite direction, there are 5 volts going to the pin and the input value is 1023. In between, analogRead() returns a number between 0 and 1023 that is proportional to the amount of voltage being applied to the pin.
Schematic
click the image to enlarge
Code
In the sketch below, the only thing that you do in the setup function is to begin serial communications, at 9600 bits of data per second, between your board and your computer with the command:
Serial.begin(9600);
Next, in the main loop of your code, you need to establish a variable to store the resistance value (which will be between 0 and 1023, perfect for an int
datatype) coming in from your potentiometer:
int sensorValue = analogRead(A0);
Finally, you need to print this information to your serial monitor window. You can do this with the command Serial.println() in your last line of code:
Arduino Serial Monitor Not Working
Serial.println(sensorValue)
Arduino Serial Monitor Send File
Now, when you open your Serial Monitor in the Arduino Software (IDE) (by clicking the icon that looks like a lens, on the right, in the green top bar or using the keyboard shortcut Ctrl+Shift+M), you should see a steady stream of numbers ranging from 0-1023, correlating to the position of the pot. As you turn your potentiometer, these numbers will respond almost instantly.
See Also:
Arduino Serial Monitor Send Number
- setup()
- loop()
- analogRead()
- serial
- BareMinimum - The bare minimum of code needed to start an Arduino sketch.
- Blink - Turn an LED on and off.
- DigitalReadSerial - Read a switch, print the state out to the Arduino Serial Monitor.
- Fade - Demonstrates the use of analog output to fade an LED.
Last revision 2015/07/28 by SM