Menampilkan Suhu pada 8x8 Dot Matrix Arduino

Pagi...jumpa lagi bersama saya mimin symask.blogspot.com. Pada postingan kali ini saya akan membahas kembali seputar modul led yaitu 8x8 Dot Matrix, dimana pada postingan sebelumnya saya sudah membahas tentang cara menampilkan icon dan cara kontrol running text menggunakan smarphone android dengan koneksi bluetooth. Jika teman-teman belum mencoba silahkan coba dulu ya... Nah berbeda dengan postingan sebelumnya di atas, pada postingan ini akan membuat project bagaimana cara menampilkan suhu pada 8x8 Dot Matrix dan sensor suhu yang dipakai adalah DHT11. Sementara modul dot matrix yang digunakan hanya satu, namun jika teman-teman ingin menambahkan modul lagi silahkan.

Adapun komponen-komponen yang dibutuhkan pada project ini sebagai berikut :

Software :

1. Arduino IDE
2. Library MaxMatrix , download
3. Library DHT11, download

Hardware :

1. Arduino Uno/Nano atau jenis lainnya.
2. Kabel USB downloader
3. Modul 8x8 Dot Matrix
4. Sensor DHT11
5. Kebel jumper

Konsep :

"Data suhu yang dideteksi sensor DHT11 akan dikirimkan ke arduino kemudian data ditampilkan pada modul 8x8 Dot Matrix".

Rangkaian :

Keterangan :

Led 8x8 Dot Matrix

- DIN dihubungkan ke pin 12 arduino

- CS dihubungkan ke pin 10 arduino

- CLK dihubungkan ke pin 11 ardino

- VCC dihubungkan ke 5v arduino

- GND dihubungkan ke GND

Sensor DHT11

- DATA dihubungkan ke pin A0 arduino

- VCC dihubungkan ke 5v arduino

- GND dihubungkan ke GND arduino

Download rangkaian lainnya pada modul pembelajaran "TOP 20 Schematics With Arduino"

Langkah-langkah :

1. Rangkai komponen-komponen seperti rangkaian di atas
2. Hubungkan Arduino dan PC/laptop dengan kabel USB downloader
3. Buka Arduino IDE > menu Tools > Board : Arduino Uno atau jenis lain > Port : misalnya COM20 terceklis.
4. Masukkan library satu-persatu yang digunakan ke menu sketch > Include Library > Add ZIP Library > dan pilih library zip MaxMatrix dan DHT_sensor
5. Upload sketch berikut ini :

#include <MaxMatrix.h>
#include <avr/pgmspace.h>
#include <stdlib.h>
#include "DHT.h"
#define DHTPIN A0
#define DHTTYPE DHT11
DHT dht(DHTPIN, DHTTYPE);
 
PROGMEM const unsigned char CH[] = {
  3, 8, B00000000, B00000000, B00000000, B00000000, B00000000, // space
  1, 8, B01011111, B00000000, B00000000, B00000000, B00000000, // !
  3, 8, B00000011, B00000000, B00000011, B00000000, B00000000, // "
  5, 8, B00010100, B00111110, B00010100, B00111110, B00010100, // #
  4, 8, B00100100, B01101010, B00101011, B00010010, B00000000, // $
  5, 8, B01100011, B00010011, B00001000, B01100100, B01100011, // %
  5, 8, B00110110, B01001001, B01010110, B00100000, B01010000, // &
  1, 8, B00000011, B00000000, B00000000, B00000000, B00000000, // '
  3, 8, B00011100, B00100010, B01000001, B00000000, B00000000, // (
  3, 8, B01000001, B00100010, B00011100, B00000000, B00000000, // )
  5, 8, B00101000, B00011000, B00001110, B00011000, B00101000, // *
  5, 8, B00001000, B00001000, B00111110, B00001000, B00001000, // +
  2, 8, B10110000, B01110000, B00000000, B00000000, B00000000, // ,
  4, 8, B00001000, B00001000, B00001000, B00001000, B00000000, // -
  2, 8, B01100000, B01100000, B00000000, B00000000, B00000000, // .
  4, 8, B01100000, B00011000, B00000110, B00000001, B00000000, // /
  4, 8, B00111110, B01000001, B01000001, B00111110, B00000000, // 0
  3, 8, B01000010, B01111111, B01000000, B00000000, B00000000, // 1
  4, 8, B01100010, B01010001, B01001001, B01000110, B00000000, // 2
  4, 8, B00100010, B01000001, B01001001, B00110110, B00000000, // 3
  4, 8, B00011000, B00010100, B00010010, B01111111, B00000000, // 4
  4, 8, B00100111, B01000101, B01000101, B00111001, B00000000, // 5
  4, 8, B00111110, B01001001, B01001001, B00110000, B00000000, // 6
  4, 8, B01100001, B00010001, B00001001, B00000111, B00000000, // 7
  4, 8, B00110110, B01001001, B01001001, B00110110, B00000000, // 8
  4, 8, B00000110, B01001001, B01001001, B00111110, B00000000, // 9
  2, 8, B01010000, B00000000, B00000000, B00000000, B00000000, // :
  2, 8, B10000000, B01010000, B00000000, B00000000, B00000000, // ;
  3, 8, B00010000, B00101000, B01000100, B00000000, B00000000, // <
  3, 8, B00010100, B00010100, B00010100, B00000000, B00000000, // =
  3, 8, B01000100, B00101000, B00010000, B00000000, B00000000, // >
  4, 8, B00000010, B01011001, B00001001, B00000110, B00000000, // ?
  5, 8, B00111110, B01001001, B01010101, B01011101, B00001110, // @
  4, 8, B01111110, B00010001, B00010001, B01111110, B00000000, // A
  4, 8, B01111111, B01001001, B01001001, B00110110, B00000000, // B
  4, 8, B00111110, B01000001, B01000001, B00100010, B00000000, // C
  4, 8, B01111111, B01000001, B01000001, B00111110, B00000000, // D
  4, 8, B01111111, B01001001, B01001001, B01000001, B00000000, // E
  4, 8, B01111111, B00001001, B00001001, B00000001, B00000000, // F
  4, 8, B00111110, B01000001, B01001001, B01111010, B00000000, // G
  4, 8, B01111111, B00001000, B00001000, B01111111, B00000000, // H
  3, 8, B01000001, B01111111, B01000001, B00000000, B00000000, // I
  4, 8, B00110000, B01000000, B01000001, B00111111, B00000000, // J
  4, 8, B01111111, B00001000, B00010100, B01100011, B00000000, // K
  4, 8, B01111111, B01000000, B01000000, B01000000, B00000000, // L
  5, 8, B01111111, B00000010, B00001100, B00000010, B01111111, // M
  5, 8, B01111111, B00000100, B00001000, B00010000, B01111111, // N
  4, 8, B00111110, B01000001, B01000001, B00111110, B00000000, // O
  4, 8, B01111111, B00001001, B00001001, B00000110, B00000000, // P
  4, 8, B00111110, B01000001, B01000001, B10111110, B00000000, // Q
  4, 8, B01111111, B00001001, B00001001, B01110110, B00000000, // R
  4, 8, B01000110, B01001001, B01001001, B00110010, B00000000, // S
  5, 8, B00000001, B00000001, B01111111, B00000001, B00000001, // T
  4, 8, B00111111, B01000000, B01000000, B00111111, B00000000, // U
  5, 8, B00001111, B00110000, B01000000, B00110000, B00001111, // V
  5, 8, B00111111, B01000000, B00111000, B01000000, B00111111, // W
  5, 8, B01100011, B00010100, B00001000, B00010100, B01100011, // X
  5, 8, B00000111, B00001000, B01110000, B00001000, B00000111, // Y
  4, 8, B01100001, B01010001, B01001001, B01000111, B00000000, // Z
  2, 8, B01111111, B01000001, B00000000, B00000000, B00000000, // [
  4, 8, B00000001, B00000110, B00011000, B01100000, B00000000, // \ backslash
  2, 8, B01000001, B01111111, B00000000, B00000000, B00000000, // ]
  3, 8, B00000010, B00000001, B00000010, B00000000, B00000000, // hat
  4, 8, B01000000, B01000000, B01000000, B01000000, B00000000, // _
  2, 8, B00000001, B00000010, B00000000, B00000000, B00000000, // `
  4, 8, B00100000, B01010100, B01010100, B01111000, B00000000, // a
  4, 8, B01111111, B01000100, B01000100, B00111000, B00000000, // b
  4, 8, B00111000, B01000100, B01000100, B00101000, B00000000, // c
  4, 8, B00111000, B01000100, B01000100, B01111111, B00000000, // d
  4, 8, B00111000, B01010100, B01010100, B00011000, B00000000, // e
  3, 8, B00000100, B01111110, B00000101, B00000000, B00000000, // f
  4, 8, B10011000, B10100100, B10100100, B01111000, B00000000, // g
  4, 8, B01111111, B00000100, B00000100, B01111000, B00000000, // h
  3, 8, B01000100, B01111101, B01000000, B00000000, B00000000, // i
  4, 8, B01000000, B10000000, B10000100, B01111101, B00000000, // j
  4, 8, B01111111, B00010000, B00101000, B01000100, B00000000, // k
  3, 8, B01000001, B01111111, B01000000, B00000000, B00000000, // l
  5, 8, B01111100, B00000100, B01111100, B00000100, B01111000, // m
  4, 8, B01111100, B00000100, B00000100, B01111000, B00000000, // n
  4, 8, B00111000, B01000100, B01000100, B00111000, B00000000, // o
  4, 8, B11111100, B00100100, B00100100, B00011000, B00000000, // p
  4, 8, B00011000, B00100100, B00100100, B11111100, B00000000, // q
  4, 8, B01111100, B00001000, B00000100, B00000100, B00000000, // r
  4, 8, B01001000, B01010100, B01010100, B00100100, B00000000, // s
  3, 8, B00000100, B00111111, B01000100, B00000000, B00000000, // t
  4, 8, B00111100, B01000000, B01000000, B01111100, B00000000, // u
  5, 8, B00011100, B00100000, B01000000, B00100000, B00011100, // v
  5, 8, B00111100, B01000000, B00111100, B01000000, B00111100, // w
  5, 8, B01000100, B00101000, B00010000, B00101000, B01000100, // x
  4, 8, B10011100, B10100000, B10100000, B01111100, B00000000, // y
  3, 8, B01100100, B01010100, B01001100, B00000000, B00000000, // z
  3, 8, B00001000, B00110110, B01000001, B00000000, B00000000, // {
  1, 8, B01111111, B00000000, B00000000, B00000000, B00000000, // |
  3, 8, B01000001, B00110110, B00001000, B00000000, B00000000, // }
  4, 8, B00001000, B00000100, B00001000, B00000100, B00000000, // ~
};
 
int data = 12; // DIN
int load = 10; // CS
int clock = 11; // CLK
int maxInUse = 1; // ubah jumlah modul 8x8
MaxMatrix m(data, load, clock, maxInUse);
byte buffer[10];
 
void setup() {
  m.init();
  m.setIntensity(2);
  Serial.begin(9600);
  Serial.println("Test DHT11");
  dht.begin();
}
 
void loop() {
  int t = dht.readTemperature();
  char temp[4];
  itoa(t, temp, 10);
  Serial.println(temp);
  printStringWithShift("temp: ", 100);
  printStringWithShift(temp, 100);
  printStringWithShift(" C   ", 100);
  m.shiftLeft(false, true);
}
 
 
void printCharWithShift(char c, int shift_speed) {
  if (c < 32) return;
  c -= 32;
  memcpy_P(buffer, CH + 7 * c, 7);
  m.writeSprite(32, 0, buffer);
  m.setColumn(32 + buffer[0], 0);
 
  for (int i = 0; i < buffer[0] + 1; i++)
  {
    delay(shift_speed);
    m.shiftLeft(false, false);
  }
}
 
void printStringWithShift(char* s, int shift_speed) {
  while (*s != 0) {
    printCharWithShift(*s, shift_speed);
    s++;
  }
}
 
void printString(char* s) {
  int col = 0;
  while (*s != 0) {
    if (*s < 32) continue;
    char c = *s - 32;
    memcpy_P(buffer, CH + 7 * c, 7);
    m.writeSprite(col, 0, buffer);
    m.setColumn(col + buffer[0], 0);
    col += buffer[0] + 1;
    s++;
  }
}

Bagaimana mudah bukan?, semoga pembahasan sebelumnya, kali ini dan yang akan datang dapat menjadi referensi teman-teman semua dalam proses pembelajaran dan membawa manfaat.
Baca juga : Cara Menampilkan Suhu DS1B20 pada LCD OLED

Selamat mencoba. Terima kasih. Salam.

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