TP modul 1 MICRO
DAFTAR ISI
2. Gambar Rangkaian Simulasi
2. Gambar Rangkaian Simulasi [Kembali]
4. List Program [Kembali]
void setup()
{
pinMode(2, OUTPUT);
pinMode(3, OUTPUT);
pinMode(4, OUTPUT);
pinMode(5, OUTPUT);
pinMode(6, OUTPUT);
pinMode(7, OUTPUT);
pinMode(8, OUTPUT);
pinMode(9, OUTPUT);
}
void loop()
{
//menyala secara bergilir kekiri
digitalWrite(2, HIGH);
digitalWrite(3, HIGH);
digitalWrite(4, HIGH);
digitalWrite(5, LOW);
digitalWrite(6, LOW);
digitalWrite(7, LOW);
digitalWrite(8, LOW);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, HIGH);
digitalWrite(4, HIGH);
digitalWrite(5, HIGH);
digitalWrite(6, LOW);
digitalWrite(7, LOW);
digitalWrite(8, LOW);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, LOW);
digitalWrite(4, HIGH);
digitalWrite(5, HIGH);
digitalWrite(6, HIGH);
digitalWrite(7, LOW);
digitalWrite(8, LOW);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, LOW);
digitalWrite(4, LOW);
digitalWrite(5, HIGH);
digitalWrite(6, HIGH);
digitalWrite(7, HIGH);
digitalWrite(8, LOW);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, LOW);
digitalWrite(4, LOW);
digitalWrite(5, LOW);
digitalWrite(6, HIGH);
digitalWrite(7, HIGH);
digitalWrite(8, HIGH);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, LOW);
digitalWrite(4, LOW);
digitalWrite(5, LOW);
digitalWrite(6, LOW);
digitalWrite(7, HIGH);
digitalWrite(8, HIGH);
digitalWrite(9, HIGH);
delay(100);
digitalWrite(2, HIGH);
digitalWrite(3, LOW);
digitalWrite(4, LOW);
digitalWrite(5, LOW);
digitalWrite(6, LOW);
digitalWrite(7, LOW);
digitalWrite(8, HIGH);
digitalWrite(9, HIGH);
delay(100);
digitalWrite(2, HIGH);
digitalWrite(3, HIGH);
digitalWrite(4, LOW);
digitalWrite(5, LOW);
digitalWrite(6, LOW);
digitalWrite(7, LOW);
digitalWrite(8, LOW);
digitalWrite(9, HIGH);
delay(100);
}
void setup()
{
pinMode(2, OUTPUT);
pinMode(3, OUTPUT);
pinMode(4, OUTPUT);
pinMode(5, OUTPUT);
pinMode(6, OUTPUT);
pinMode(7, OUTPUT);
pinMode(8, OUTPUT);
pinMode(9, OUTPUT);
}
void loop()
{
//menyala secara bergilir kekiri
digitalWrite(2, HIGH);
digitalWrite(3, HIGH);
digitalWrite(4, HIGH);
digitalWrite(5, LOW);
digitalWrite(6, LOW);
digitalWrite(7, LOW);
digitalWrite(8, LOW);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, HIGH);
digitalWrite(4, HIGH);
digitalWrite(5, HIGH);
digitalWrite(6, LOW);
digitalWrite(7, LOW);
digitalWrite(8, LOW);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, LOW);
digitalWrite(4, HIGH);
digitalWrite(5, HIGH);
digitalWrite(6, HIGH);
digitalWrite(7, LOW);
digitalWrite(8, LOW);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, LOW);
digitalWrite(4, LOW);
digitalWrite(5, HIGH);
digitalWrite(6, HIGH);
digitalWrite(7, HIGH);
digitalWrite(8, LOW);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, LOW);
digitalWrite(4, LOW);
digitalWrite(5, LOW);
digitalWrite(6, HIGH);
digitalWrite(7, HIGH);
digitalWrite(8, HIGH);
digitalWrite(9, LOW);
delay(100);
digitalWrite(2, LOW);
digitalWrite(3, LOW);
digitalWrite(4, LOW);
digitalWrite(5, LOW);
digitalWrite(6, LOW);
digitalWrite(7, HIGH);
digitalWrite(8, HIGH);
digitalWrite(9, HIGH);
delay(100);
digitalWrite(2, HIGH);
digitalWrite(3, LOW);
digitalWrite(4, LOW);
digitalWrite(5, LOW);
digitalWrite(6, LOW);
digitalWrite(7, LOW);
digitalWrite(8, HIGH);
digitalWrite(9, HIGH);
delay(100);
digitalWrite(2, HIGH);
digitalWrite(3, HIGH);
digitalWrite(4, LOW);
digitalWrite(5, LOW);
digitalWrite(6, LOW);
digitalWrite(7, LOW);
digitalWrite(8, LOW);
digitalWrite(9, HIGH);
delay(100);
}
6. Prinsip Kerja Rangkaian [Kembali]
Pada TP ini, kita dituntut mengetahui bagaimana proses keluaran atau output dari sebuah arduino yang mana pada kasus ini berupa led. kondisi nya yaitu dimana led hidup secara bergantian 3 buah dari kiri kekanan. Hidup nya led karena pada arduino akan tegangan pada led sebesar 5 volt kemudian kita membuat program pada arduino 3 led hidup secara bergantian dari kiri. sebelum led dipasang resistor yang berfungsi menurunkan tegangan tadi menjadi 2,2 volt (tegangan pada led) sehingga didapatlah nilai resistor sebesar 280 ohm dan kemudian led dapat menyala.
untuk mengubah data digital dalam format BCD untuk ditampilkan dalam format angka desimal secara visual
Read more at: http://elektronika-dasar.web.id/dekoder-bcd-ke-7-segmen-cmos-4511/
Copyright © Elektronika Dasar
Read more at: http://elektronika-dasar.web.id/dekoder-bcd-ke-7-segmen-cmos-4511/
Copyright © Elektronika Dasar
Fungsi dari dekoder BCD
ke 7 penampil 7 segmen ini adalah untuk mengubah data digital dalam
format BCD untuk ditampilkan dalam format angka desimal secara visual
Read more at: http://elektronika-dasar.web.id/dekoder-bcd-ke-7-segmen-cmos-4511/
Copyright © Elektronika Dasar
Read more at: http://elektronika-dasar.web.id/dekoder-bcd-ke-7-segmen-cmos-4511/
Copyright © Elektronika Dasar
Fungsi dari dekoder BCD
ke 7 penampil 7 segmen ini adalah untuk mengubah data digital dalam
format BCD untuk ditampilkan dalam format angka desimal secara visual
Read more at: http://elektronika-dasar.web.id/dekoder-bcd-ke-7-segmen-cmos-4511/
Copyright © Elektronika Dasar
Read more at: http://elektronika-dasar.web.id/dekoder-bcd-ke-7-segmen-cmos-4511/
Copyright © Elektronika Dasar
