MODUL 1
PERCOBAAN 5 KONDISI 1
1. Rangkai semua komponen sesuai kondisi yang dipilih
2. Buat program di aplikasi arduino IDE
3. Setelah selesai masukkan program ke arduino di proteus
4. Jalankan program pada simulasi dan cobakan sesuai dengan modul dan kondisi
5. Selesai
2. Hardware dan diagram blok
[Kembali]
a. hardware
1. Arduino Uno
2. Dipswitch_4
3. Resistor
4. 7-Segment common cathode
2. Dipswitch_4
3. Resistor
4. 7-Segment common cathode
b. Digram Blok
3. Rangkaian Simulasi dan Prinsip kerja
[Kembali]
Rangkaian sebelum disimulasi
PRINSIP KERJA
Pada rangkaian tersebut, dipswitch berperan sebagai input yang dihubungkan ke kaki analog arduino serta komponen tambahannya resistor yang berfungsi sebagai proteksi arduino. outputnya yaitu 7-segment common cathode.
Rangkaian dapat disimulasikan setelah kodingan arduino dari arduino IDE dimasukkan ke arduino pada proteus. Dimana kodingan arduino diatur untuk dapat menampilkan angka pada 7 segmen sesuai dengan jumlah switch yang diaktifkan. Maksudnya, ketika satu switch pada dipswitch di-on kan, maka 7 segmen akan menampilkan angka satu. Begitu seterusnya, ketika 2 switch pada dipswitch di-on kan maka seven segmen akan menampilkan angka 2.
4. FlowChart
[Kembali]
a. Listing Program
//M1P5
#define a 6
#define b 7
#define c 8
#define d 9
#define e 10
#define f 11
#define g 12
#define dp 13
#define D1 4
#define D2 5
#define Dsw A0
/*39
32
26 27
19
*/
int segments[] = {a,b,c,d,e,f,g};
byte digitPatterns[10][7] = {
{1, 1, 1, 1, 1, 1, 0}, // 0
{0, 1, 1, 0, 0, 0, 0}, // 1
{1, 1, 0, 1, 1, 0, 1}, // 2
{1, 1, 1, 1, 0, 0, 1}, // 3
{0, 1, 1, 0, 0, 1, 1}, // 4
{1, 0, 1, 1, 0, 1, 1}, // 5
{1, 0, 1, 1, 1, 1, 1}, // 6
{1, 1, 1, 0, 0, 0, 0}, // 7
{1, 1, 1, 1, 1, 1, 1}, // 8
{1, 1, 1, 1, 0, 1, 1} // 9
};
void setup() {
// put your setup code here, to run once:
for (int i = 0; i < 7; i++) {
pinMode(segments[i], OUTPUT);
}
pinMode(dp,OUTPUT);
pinMode(D1,OUTPUT);
pinMode(D2,OUTPUT);
pinMode(Dsw,INPUT_PULLUP);
Serial.begin(9600);
}
void number (int display) {
if (display >= 0 && display <= 9) {
for (int i = 0; i < 7; i++) {
digitalWrite(segments[i], digitPatterns[display ][i]);
}
}
}
void loop() {
int sw = analogRead(Dsw);
Serial.print("ADC Value = ");
Serial.println(sw);
delay(100);
if(sw == 23){
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(0);
delay(50);
}
else if(sw == 22){
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(0);
delay(1000);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(1);
delay(1000);
}else if(sw == 21){
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(0);
delay(1000);
number(1);
delay(1000);
number(2);
delay(1000);
number(3);
delay(1000);
number(4);
delay(1000);
number(5);
delay(1000);
number(6);
delay(1000);
number(7);
delay(1000);
number(8);
delay(1000);
number(9);
delay(1000);
}else if(sw == 19){
digitalWrite(D1,HIGH);
digitalWrite(D2,HIGH);
number(0);
delay(1000);
number(1);
delay(1000);
number(2);
delay(1000);
number(3);
delay(1000);
number(4);
delay(1000);
number(5);
delay(1000);
number(6);
delay(1000);
number(7);
delay(1000);
number(8);
delay(1000);
number(9);
delay(1000);
}else if(sw == 16){
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(0);
delay(500);
number(1);
delay(500);
number(2);
delay(500);
number(3);
delay(500);
number(4);
delay(500);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(5);
delay(500);
number(6);
delay(500);
number(7);
delay(500);
number(8);
delay(500);
number(9);
delay(500);
}else if(sw == 13){
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delayMicroseconds (500);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(0);
delayMicroseconds (500);
}else if(sw == 10){
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(9);
delay(500);
number(8);
delay(500);
number(7);
delay(500);
number(6);
delay(500);
number(5);
delay(500);
number(4);
delay(500);
number(3);
delay(500);
number(2);
delay(500);
number(1);
delay(500);
number(0);
delay(500);
}else if(sw == 5){
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(0);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(1);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(2);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(3);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(4);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(5);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(6);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(7);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(8);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(1);
delay(50);
digitalWrite(D1,HIGH);
digitalWrite(D2,LOW);
number(9);
delay(50);
digitalWrite(D1,LOW);
digitalWrite(D2,HIGH);
number(2);
}
}
b. Flowchart
Percobaan 5 Kondisi 1
Setiap 1 Switch aktif muncul angka sesuai jumlah switch yang aktif pada digit 1
6. Video Simulasi
[Kembali]
7. Download File
[Kembali]
Download HMTL Klik disini
Download Simulasi Rangkaian Klik disini
Download Video Simulasi Klik disini
Download Datasheet ARDUINO UNO klik disini
Download Datasheet Dipswitch klik disini
Download Datasheet 7 segmen klik disini
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