시리얼 모니터로 0~9999 4자리수 입력,
이 때 새줄 모드로 입력해야 정상동작
In this circuit, we will show how to display numerals on a 4-digit 7-segment display using a Max7219 chip.
The Max7219 is an 8-digit LED display driver, meaning it can connect to and control as many as 8 digits.
In this circuit, we're simply going to control a 4-digit 7-segment display, however.
Components
- Max7219 Chip
- 4-digit 7-segment LED display
- 40KΩ resistor
- 10μF capacitor
- 100nF capacitor
The Max7219 is a 8-digit LED display driver, meaning it can drive up to 8 digits. It can be obtained very cheaply from a number of online retailers for under $1 on ebay.
The pinout of the Max7219 is shown below, so that you can see how to connect it in the circuit.
Just so that you can have a frame of reference, we show the pinout of a 4-digit 7-segment LED display below.
A 4-digit 7-segment LED display has 12 pins. 8 of the pins are for the 8 LEDs on a 7 segment display, which includes A-G and DP (decimal point). The other 4 pins represent each of the 4 digits from D1-D4.
The Max7219 pinout should make a lot more sense now.
The Max7219 needs about 5V to operate. So we connect V+, pin 19, to 5V and the ground pins, pin 4 and 9, to ground. We don't just connect the 5V to ground. We connect 2 capacitors in parallel to ground. This includes a 100nF capacitor and a 10μF capacitor. This helps filter out noise from the power supply and to make sure the power supply is steady.
All of the seg pins connect to the corresponding segment on the 7-segment LED display. So Seg A connects to the A pin on the 7 segment LED display. Seg B connects to B. Seg C connects to C and so on until you connect all the way to Seg G and DP. This covers 8 connections.
Now we connect the digits. Just like with the segment connections, the digits on the Max7219 connect to the corresponding digits on the 7 segment LED display. Digit 0 on the Max7219 connects to pin 12 on the 4-digit LED display, which is D1. Digit 1 on the Max7219 connects to D2. Digit 2 connects to D3. Digit 3 connects to D4.
The Max7219 works on in synchrony with the microcontroller it is connected to on a clock signal. On the rising edge of the clock signal are commands and instructions executed. So the clock pin of the Max7219, pin 13, connects to digital pin 13 of the arduino. This way, the microcontroller and the Max7219 can operate in synchrony.
The ISET pin is the pin that allows us to set the current that is output to the digit and segment pins. These are the pins that supply current to the output device, which in this case is a 4-digit 7-segment display. We set ISET through the use of an external resistor connected to V+. Being that we want about 10mA of current to be supplied to the 7-segment LED display, we use a 40KΩ connected to V+.
The DIN pin, pin 1, of the Max7219 connects to pin 11 of the arduino. Pin 11 of the arduino is the MOSI pin, which stands for Master Out Slave In. This is the pin which allows the arduino to communicate and send data to the Max7219 chip. In this circuit, there is only one-way communication between the microcontroller and the Max7219 chip. The arduino simply needs to send instructions to the Max7219 chip on how to control the output device without the Max7219 chip needing to send data to the micrcontroller.
The load/CS, pin 12, is the load/chip select pin. In order for data to be loaded into the Max7219, this pin must be LOW.
The DOUT is left unconnected. This is used if we are daisychaining multiple Max7219 chips together.
Max7219 4-Digit 7-Segment LED Display Driver Circuit
The 4-Digit 7-Segment LED display driver circuit we will build using a Max7219 chip is shown below.
Arduino D10 SS - Max7219 Pin12 Arduino D11 MOSI - Max7219 Pin1 (=Din) Arduino D12 MISO - X Arduino D13 SCK - Max7219 Pin13 |
So we have 5V connected to V+ and connected to ground through a 100nF ceramic capacitor and a 10μF electrolytic capacitor.
To set the current output from the output pins, which will feed our output device, we connect a 40KΩ resistor to V+. This allows for about 10mA of current outflow.
We connect all the digits and segments, as they correspond on the Max7219 and the microcontroller.
We connect the slave Select or Chip Select (CS) pin, pin 12, to digital pin 10 on the arduino.
We connect DIN, pin 1, to D11 on the arduino.
We connect the clock pin, pin 13, to digital pin 13 on the arduino.
This establishes all the hardware connections.
Next, we just now need the code in order for this circuit to operate.
Code
This code displays a number from 0 to 9999 on a four-digit display.
#include <SPI.h>
const int slaveSelect= 10; //pin used to enable the active slave
const int numberofDigits= 2;
const int maxCount= 99;
int number=0;
void setup()
{
Serial.begin(9600);
SPI.begin(); //initialize SPI
pinMode(slaveSelect, OUTPUT);
digitalWrite(slaveSelect, LOW); //select Slave
//prepare the 7219 to display 7-segment data
sendCommand (12,1); //normal mode (default is shutdown mode)
sendCommand (15,0); //Display test off
sendCommand (10,8); //set medium intensity (range is 0-15)
sendCommand (11, numberofDigits); //7219 digit scan limit command
sendCommand (9, 255); //decode command, use standard 7-segment digits
digitalWrite(slaveSelect, HIGH); //deselect slave
}
void loop(){
//display a number from serial port terminated by end of line character
if(Serial.available())
{
char ch= Serial.read();
if (ch == '\n')
{
displayNumber(number);
number=0;
}
else
number= (number * 10) + ch - '0';
}
}
//function to display up to 4 digits on a 7-segment display
void displayNumber (int number)
{
for (int i=0; i < numberofDigits; i++)
{
byte character= number % 10; //get the value of the rightmost digit
if (number == 0 && i > 0)
character = 0xf;
sendCommand(numberofDigits-i, character);
number= number/10;
}
}
void sendCommand(int command, int value)
{
digitalWrite(slaveSelect, LOW); //chip select is active low
SPI.transfer(command);
SPI.transfer(value);
digitalWrite(slaveSelect,HIGH);
}
This code will display a number between 0 and 9999.
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