In this article I would like to share with you a sample applications that I wrote using C in Arduino to perform 12 LED's Running Lights. The source code is very simple and easy to understand.
programming projects, thesis and capstone projects, IT consulting.
work, computer tutorials, and web development work kindly contact me in the following email address for further details. If you want to advertise on my website kindly contact me also in my email address also. Thank you.
I am currently accepting programming work, it projects, school and application development.
programming projects, thesis and capstone projects, IT consulting.
work, computer tutorials, and web development work kindly contact me in the following email address for further details. If you want to advertise on my website kindly contact me also in my email address also. Thank you.
My email address is the following jakerpomperada@gmail.com, jakerpomperada@aol.com, and jakerpomperada@yahoo.com.
My mobile number here in the Philippines is 09173084360.
My telephone number at home here in Bacolod City, Negros Occidental Philippines is +63 (034) 4335675.
Here in Bacolod I also accepting computer repair, networking and Arduino Project development at a very affordable price.
My personal website is http://www.jakerpomperada.com
My personal website is http://www.jakerpomperada.com
Sample Program Output
Program Listing
/* A simple program to sequentially turn on and turn off 12 LED's
Author : Jake R. Pomperada, MAED-IT
January 6, 2019 Sunday
Bacolod City, Negros Occidental, Philippines
jakerpomperada@gmail.com and jakerpomperada@yahoo.com
*/
int LED1 = 13;
int LED2 = 12;
int LED3 = 11;
int LED4 = 10;
int LED5 = 9;
int LED6 = 8;
int LED7 = 7;
int LED8 = 6;
int LED9 = 5;
int LED10 = 4;
int LED11 = 3;
int LED12 = 2;
void setup() {
pinMode(LED1, OUTPUT);
pinMode(LED2, OUTPUT);
pinMode(LED3, OUTPUT);
pinMode(LED4, OUTPUT);
pinMode(LED5, OUTPUT);
pinMode(LED6, OUTPUT);
pinMode(LED7, OUTPUT);
pinMode(LED8, OUTPUT);
pinMode(LED9, OUTPUT);
pinMode(LED10, OUTPUT);
pinMode(LED11, OUTPUT);
pinMode(LED12, OUTPUT);
}
void loop() {
digitalWrite(LED1, HIGH); // turn on LED1
delay(200); // wait for 400ms
digitalWrite(LED2, HIGH); // turn on LED2
delay(200); // wait for 400ms
digitalWrite(LED3, HIGH); // turn on LED3
delay(200); // wait for 400ms
digitalWrite(LED4, HIGH); // turn on LED4
delay(200); // wait for 400ms
digitalWrite(LED5, HIGH); // turn on LED5
delay(200); // wait for 400ms
digitalWrite(LED6, HIGH); // turn on LED6
delay(200); // wait for 400ms
digitalWrite(LED7, HIGH); // turn on LED7
delay(200); // wait for 400ms
digitalWrite(LED8, HIGH); // turn on LED8
delay(200); // wait for 400ms
digitalWrite(LED9, HIGH); // turn on LED9
delay(200); // wait for 400ms
digitalWrite(LED10, HIGH); // turn on LED10
delay(200); // wait for 400ms
digitalWrite(LED11, HIGH); // turn on LED11
delay(200); // wait for 400ms
digitalWrite(LED12, HIGH); // turn on LED12
delay(200); // wait for 400ms
digitalWrite(LED1, LOW); // turn off LED1
delay(200); // wait for 400ms
digitalWrite(LED2, LOW); // turn off LED2
delay(200); // wait for 300ms
digitalWrite(LED3, LOW); // turn off LED3
delay(200); // wait for 400ms
digitalWrite(LED4, LOW); // turn off LED4
delay(200); // wait for 300ms
digitalWrite(LED5, LOW); // turn off LED5
delay(200); // wait for 400ms
digitalWrite(LED6, LOW); // turn off LED6
delay(200); // wait for 400ms
digitalWrite(LED7, LOW); // turn off LED7
delay(200); // wait for 400ms
digitalWrite(LED8, LOW); // turn off LED8
delay(200); // wait for 300ms
digitalWrite(LED9, LOW); // turn off LED9
delay(200); // wait for 400ms
digitalWrite(LED10, LOW); // turn off LED10
delay(200); // wait for 400ms
digitalWrite(LED11, LOW); // turn off LED11
delay(200); // wait for 400ms
digitalWrite(LED12, LOW); // turn off LED8
delay(200); // wait for 300ms before running program all over again
}
