Senin, 19 September 2016

Mini Oscilloscope with LCD Nokia5110 Module

Module yang dibutuhkan :

1x Module LCD Nokia 5110/3310 for Arduino
1x Potensiometer / trimpot / VR 10K
1x Arduino Uno/Nano/Pro mini atau type lain
Probe (optional) bisa pakai kabel jumper atau probe multitester
beberapa pcs kabel jumper dupont male to female
Breadboard (optional)




Library yang dibutuhkan :

#include <SPI.h> // Sudah bawaan Arduino IDE tidak perlu download lagi
#include <Adafruit_GFX.h> //Optional (tidak dibituhkan pada sketch kali ini)
#include <Adafruit_PCD8544.h> //Optional (tidak dibituhkan pada sketch kali ini)

Wiring :

LCD Nokia5110 to Arduino
-RST     --> D3
-CE / CS --> D4
-DC        --> D5
-Din        --> D6
-Clk / Sck --> D7
-Vcc        --> pin 3.3V Arduino
-BL          --> pin 5V Arduino
-Gnd         --> pin GND Arduino

Potensiometer to Arduino
-Pin 1 (pinggir kanan)     --> pin GND Arduino
-Pin 2 (tengah)    --> pin A1 Arduino
-Pin 1 (pinggir kiri)    --> pin 5V Arduino
 //Potensiometer digunakan untuk setting update kecepatan/delay pembacaan Signal

Probe to Arduino
-Probe Merah (+)     --> pin A0 Arduino
-Probe Hitam (-)     --> pin GND Arduino
 

Sourche Code :



#include <Adafruit_GFX.h>
#include <Adafruit_PCD8544.h>
#include <SPI.h>

#define DISPLAY_WIDTH 84
#define DISPLAY_HEIGHT 48
#define ARDUINO_PRECISION 1023.0
Adafruit_PCD8544 display = Adafruit_PCD8544(7, 6, 5, 4, 3);
 
//Analog Pins
int channelAI = A0;      // probe

//disabled it I don't have it connected
#define DELAY_POTENTIMETER 
#ifdef DELAY_POTENTIMETER
int delayAI = A1;       // delay potentiometer on  Analog A1
#endif

float delayVariable = 0;
float scale = 0;
int xCounter = 0;
int yPosition = 0;
int readings[DISPLAY_WIDTH+1];
int counter = 0;

unsigned long drawtime = 0;
unsigned long lastdraw = 0;
int frames = 0;

void setup(void) 
{
  display.begin();
  display.setContrast(60);
  display.clearDisplay();
}

void loop() 
{  
  #ifdef DELAY_POTENTIMETER
  delayVariable = analogRead(delayAI);
  delayVariable = (delayVariable/100);
  #endif
  scale = (float)(DISPLAY_HEIGHT-1)/ARDUINO_PRECISION; 
  
  //record readings
  for(xCounter = 0; xCounter <= DISPLAY_WIDTH; xCounter++)
  {                                 
    yPosition = analogRead(channelAI);
    readings[xCounter] = (yPosition*scale);
    #ifdef DELAY_POTENTIMETER
    delay (delayVariable);
    #endif
  }
  
  display.clearDisplay();

  //Draw Voltage Ref Lines
  display.drawLine( 10, 0, 10, DISPLAY_HEIGHT-1, BLACK);
  display.drawLine( 5, (DISPLAY_HEIGHT-1)-(.2 *ARDUINO_PRECISION * scale), 10, (DISPLAY_HEIGHT-1)-(.2 *ARDUINO_PRECISION * scale), BLACK);
  display.drawLine( 0, (DISPLAY_HEIGHT-1)-(.4 *ARDUINO_PRECISION * scale), 10, (DISPLAY_HEIGHT-1)-(.4 *ARDUINO_PRECISION * scale), BLACK);
  display.drawLine( 5, (DISPLAY_HEIGHT-1)-(.6 *ARDUINO_PRECISION * scale), 10, (DISPLAY_HEIGHT-1)-(.6 *ARDUINO_PRECISION * scale), BLACK);
  display.drawLine( 0, (DISPLAY_HEIGHT-1)-(.8 *ARDUINO_PRECISION * scale), 10, (DISPLAY_HEIGHT-1)-(.8 *ARDUINO_PRECISION * scale), BLACK);
  //display.drawLine( 5, (DISPLAY_HEIGHT-1)-(.84 *ARDUINO_PRECISION * scale), 10, (DISPLAY_HEIGHT-1)-(.84 *ARDUINO_PRECISION * scale), BLACK);
  
  //Draw Voltage Ref Numbers
  display.setCursor(0,((DISPLAY_HEIGHT-1)-(.2 *ARDUINO_PRECISION * scale))-3);
  display.print((int)(5.0*0.2));
  display.setCursor(0,((DISPLAY_HEIGHT-1)-(.4 *ARDUINO_PRECISION * scale))-3);
  display.print((int)(5.0*0.4));
  display.setCursor(0,((DISPLAY_HEIGHT-1)-(.6 *ARDUINO_PRECISION * scale))-3);
  display.print((int)(5.0*0.6));
  display.setCursor(0,((DISPLAY_HEIGHT-1)-(.8 *ARDUINO_PRECISION * scale))-3);
  display.print((int)(5.0*0.8));
  
  for(xCounter = 0; xCounter <= DISPLAY_WIDTH; xCounter++)
  {
    display.drawPixel(xCounter, (DISPLAY_HEIGHT-1)-readings[xCounter], BLACK);
    if(xCounter>1){
      display.drawLine(xCounter-1, (DISPLAY_HEIGHT-1)-readings[xCounter-1], xCounter, (DISPLAY_HEIGHT-1)-readings[xCounter], BLACK);
    }
  }
  //Draw FPS
  display.setCursor((DISPLAY_WIDTH-1)-11,0);
  display.print(frames);
  
  //Draw Voltage
  display.setCursor(((DISPLAY_WIDTH-1)/2),0);
  display.print(analogRead(channelAI)/ARDUINO_PRECISION*5.0);
  
  display.display();
  
  //Calculate FPS
  drawtime = micros();
  frames=1000000/*a second*//(drawtime-lastdraw);
  lastdraw = drawtime;
}

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