Realistic Fire Simulation
In this page is described how to create a realistic flickering fire effect with LEDs and an Arduino board. In this case I used a Digispark due to its small size.
The intention is to give some light to a small clay decoration house, one of those prepared for lighting a small candle inside and evaporate water with essence. Instead of using a candle I put a simple battery with some LEDs inside but it looked too boring so I tried to imitate the movement of a candle inside it. Here it is described the design and process followed.
Component Schematics
The three LEDs (two reds and one yellow - I guess one red and two yellows would also look nice) are connected to the PWM ports of the arduino (Digispark, which has exactly 3 PwM pins).
The pin P1 of the Digispark board already has red LED attached to it, so there is no need to add a new one, or to remove the current one. For this reason the new schematics is:
Building
Code
For schematic 1, with all LEDs logically inverted:
int p1 = 0; // Set the 3 pins with PWM int p2 = 1; int p3 = 4; void setup() { pinMode(p1, OUTPUT); // Set the pins as output pinMode(p2, OUTPUT); pinMode(p3, OUTPUT); } void loop() { int v1, v2, v3; v1 = random(155) + 100; // Calculate the new light v2 = random(155) + 100; // intensity values for each LED v3 = random(155) + 100; analogWrite(p1, 255 - v1); // Apply the light intensity analogWrite(p2, 255 - v2); // to each LED analogWrite(p3, 255 - v3); delay(20 + random(80)); // Wait some random time for next udpate }
For schematic 2 (reusing the LED attached to Pin 1, which is not "logically inverted"):
int p1 = 0; // Set the 3 pins with PWM int p2 = 1; int p3 = 4; void setup() { pinMode(p1, OUTPUT); // Set the pins as output pinMode(p2, OUTPUT); pinMode(p3, OUTPUT); } void loop() { int v1, v2, v3; v1 = random(155) + 100; // Calculate the new light v2 = random(155) + 100; // intensity values for each LED v3 = random(155) + 100; analogWrite(p1, 255 - v1); // Apply the light intensity to each LED analogWrite(p2, v2); // This LED is not "logically inverted" analogWrite(p3, 255 - v3); delay(20 + random(80)); // Wait some random time for next udpate }