Tugas Pendahuluan 2

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DAFTAR ISI

1. Kondisi

2. Rangkaian Simulasi

3. Listing Program

4. Video

5. Prinsip Kerja

6. Link Download

1. Kondisi [Kembali]

Modul 3 Percobaan 2 Kondisi 8   

Tambahkan resistor sebelum button sebesar 1k ohm

2. Rangkaian Simulasi [Kembali]

3. Listing Program [Kembali]

#include<SPI.h>                             //Library for SPI 

#define LED 7           

#define ipbutton 2

int buttonvalue;

int x;

void setup (void)

{

  Serial.begin(115200);                   //Starts Serial Communication at Baud Rate 115200 

  

  pinMode(ipbutton,INPUT);                //Sets pin 2 as input 

  pinMode(LED,OUTPUT);                    //Sets pin 7 as Output

  

  SPI.begin();                            //Begins the SPI commnuication

  SPI.setClockDivider(SPI_CLOCK_DIV8);    //Sets clock for SPI communication at 8 (16/8=2Mhz)

  digitalWrite(SS,HIGH);                  // Setting SlaveSelect as HIGH (So master doesnt connnect with slave)

}

void loop(void)

{

  byte Mastersend,Mastereceive;          

  buttonvalue = digitalRead(ipbutton);   //Reads the status of the pin 2

  if(buttonvalue == HIGH)                //Logic for Setting x value (To be sent to slave) depending upon input from pin 2

  {

    x = 1;

  }

  else

  {

    x = 0;

  }

  

  digitalWrite(SS, LOW);                  //Starts communication with Slave connected to master

  

  Mastersend = x;                            

  Mastereceive=SPI.transfer(Mastersend); //Send the mastersend value to slave also receives value from slave

  

  if(Mastereceive == 1)                   //Logic for setting the LED output depending upon value received from slave

  {

    digitalWrite(LED,HIGH);              //Sets pin 7 HIGH

    Serial.println("Master LED ON");

  }

  else

  {

   digitalWrite(LED,LOW);               //Sets pin 7 LOW

   Serial.println("Master LED OFF");

  }

  delay(1000);

}

//SPI SLAVE (ARDUINO)

//SPI COMMUNICATION BETWEEN TWO ARDUINO 

//CIRCUIT DIGEST

//Pramoth.T

#include<SPI.h>

#define LEDpin 7

#define buttonpin 2

volatile boolean received;

volatile byte Slavereceived,Slavesend;

int buttonvalue;

int x;

void setup()

{

  Serial.begin(115200);

  

  pinMode(buttonpin,INPUT);               // Setting pin 2 as INPUT

  pinMode(LEDpin,OUTPUT);                 // Setting pin 7 as OUTPUT

  pinMode(MISO,OUTPUT);                   //Sets MISO as OUTPUT (Have to Send data to Master IN 

  SPCR |= _BV(SPE);                       //Turn on SPI in Slave Mode

  received = false;

  SPI.attachInterrupt();                  //Interuupt ON is set for SPI commnucation

  

}

ISR (SPI_STC_vect)                        //Inerrrput routine function 

{

  Slavereceived = SPDR;         // Value received from master if store in variable slavereceived

  received = true;                        //Sets received as True 

}

void loop()

{ if(received)                            //Logic to SET LED ON OR OFF depending upon the value recerived from master

   {

      if (Slavereceived==1) 

      {

        digitalWrite(LEDpin,HIGH);         //Sets pin 7 as HIGH LED ON

        Serial.println("Slave LED ON");

      }else

      {

        digitalWrite(LEDpin,LOW);          //Sets pin 7 as LOW LED OFF

        Serial.println("Slave LED OFF");

      }

      buttonvalue = digitalRead(buttonpin);  // Reads the status of the pin 2

      if (buttonvalue == HIGH)               //Logic to set the value of x to send to master

      {

        x=1;

      }else

      {

        x=0;

      }

  Slavesend=x;                             

  SPDR = Slavesend;                           //Sends the x value to master via SPDR 

  delay(1000);

}

}

4. Video [Kembali]

5. Prinsip Kerja [Kembali]

    Pada rangkaian ini digunakan komunikasi SPI ( Serial Peripheral Interface). Komunikasi SPI digunakan pada dua arduino yang masing-masing berperan sebagai master dan slave. Komunikasi ini dilakukan dengan menghubungkan mosi dari master dengan mosi dari slave, miso dari slave dengan miso dari master, sclk dari master dengan sclk dari slave, dan ss dari slave dengan ss master.  Push button berfungsi sebagai input pullup dari master, artinya apabila push button ditekan maka akan berlogika low (0) dan apabila diangkat maka akan berlogika high (1). Saat master mengirimkan logika low ke slave maka LED akan hidup dan mati secara bergantian dengan jeda 1000 ms atau 1 s. Sedangkan saat master mengirimkan logika high ke slave maka LED akan mati

6. Link Download [Kembali]

Download Video disini

Dowload Rangkaian disini

Download Listing Program disini 

Download LED disini

Download Resistor disini