Make work with great variety of things

This commit is contained in:
Neale Pickett 2016-12-11 21:02:37 -07:00
parent 3fbafaf0ec
commit 5b3f64ae79
2 changed files with 61 additions and 20 deletions

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@ -15,7 +15,7 @@ I found a good 10A power supply for about $12 on Amazon.
You can probably salvage one from some old thing. You can probably salvage one from some old thing.
If you have under 80 lights, you can use an Adafruit Trinket. If you have under 80 lights, you can use an Adafruit Trinket.
I used an Adafruit Pro Trinket for mine, which has 150+ lights. I used an Adafruit Pro Trinket for my 182-light display.
(It's an issue of RAM). (It's an issue of RAM).
Of course, a standard Arduino will work just fine too! Of course, a standard Arduino will work just fine too!
@ -23,9 +23,9 @@ Of course, a standard Arduino will work just fine too!
This was coded to color-correct a specific type of GRB LEDs on wires I got from Amazon. This was coded to color-correct a specific type of GRB LEDs on wires I got from Amazon.
It's coded to match the lights we already have, which are biased toward yellow and amber. It's coded to match the lights we already have, which are biased toward yellow and amber.
You may have gotten lights wired RGB, in which case this is going to look very green. You may have gotten lights wired GRB, in which case this is going to look very green.
It should be just a matter of switching the first two bytes in each color definition It should be just a matter of switching the first two bytes in each color definition
to go from GRB to RGB. to go from RGB to GRB.
@ -33,7 +33,6 @@ Setup
------- -------
Plug your lights into pin 6 (or whatever you set `PIN` to in the code). Plug your lights into pin 6 (or whatever you set `PIN` to in the code).
Set `NUM_LEDS` in the code to how many are in your strip.
Give the strip power and ground. Give the strip power and ground.
If you have more than about 80 LEDs, you might need to provide an external If you have more than about 80 LEDs, you might need to provide an external
@ -42,7 +41,12 @@ You can plug the LED strip into the +5v on the power supply;
You can power your microcontroller from the beefier power supply, too, You can power your microcontroller from the beefier power supply, too,
so you don't have to run USB just to power the microcontroller. so you don't have to run USB just to power the microcontroller.
The code as written wants pin 4 to be connected to ground.
When you disconnect it, Usage
the whole strand goes white. -------
My family has a tradition of the tree going from colors to white on the morning of the 25th.
Just provide power.
If you connect `WHITE_PIN` to ground,
everything goes white,
which is a tradition in my family on xmas morning.

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@ -3,21 +3,42 @@
#include <avr/power.h> #include <avr/power.h>
#endif #endif
#define PIN 6 // Which pin your LED strip is connected to
#define NUM_LEDS 150 #ifdef Attiny85
# define PIN 3
#else
# define PIN 6
#endif
// Which pin to pull to go full white. Comment to disable this feature.
#define WHITE_PIN 4 #define WHITE_PIN 4
Adafruit_NeoPixel strip = Adafruit_NeoPixel(NUM_LEDS, PIN, NEO_GRB | NEO_KHZ800); // Order of the lights you got
// How many LEDs you have. It's okay if this is too big.
#ifdef Attiny85
# define NUM_LEDS 80
#else
# define NUM_LEDS 200
#endif
// What percentage chance a chosen light has of being on
#define ACTIVITY 50
// Debug LED
#define LED_PIN 1
Adafruit_NeoPixel strip = Adafruit_NeoPixel(NUM_LEDS, PIN, NEO_RGB | NEO_KHZ800);
const uint32_t colors[] = { const uint32_t colors[] = {
0x440000, // Green 0x004400, // Green
0x44dd00, // Yellow 0xdd4400, // Yellow
0x44dd00, // Yellow 0xdd4400, // Yellow
0x22dd00, // Amber 0xdd2200, // Amber
0x22dd00, // Amber 0xdd2200, // Amber
0x00ff00, // Red 0x0000ff, // Red
0x008844, // Purple 0x880044, // Purple
0x000088, // Blue 0x000088, // Blue
}; };
@ -26,13 +47,19 @@ const int ncolors = sizeof(colors) / sizeof(*colors);
void setup() { void setup() {
strip.begin(); strip.begin();
strip.show(); strip.show();
#ifdef WHITE_PIN
pinMode(WHITE_PIN, INPUT_PULLUP); pinMode(WHITE_PIN, INPUT_PULLUP);
#endif
#ifdef LED_PIN
pinMode(LED_PIN, OUTPUT);
#endif
} }
void loop_color() { void loop_color() {
for (int i = 0; i < NUM_LEDS/12; i += 1) { for (int i = 0; i < NUM_LEDS/12; i += 1) {
int pos = random(NUM_LEDS); int pos = random(NUM_LEDS);
if (random(100) < 20) { if (random(100) < ACTIVITY) {
int color = random(ncolors); int color = random(ncolors);
strip.setPixelColor(pos, colors[color]); strip.setPixelColor(pos, colors[color]);
} else { } else {
@ -57,9 +84,19 @@ void loop_white() {
} }
void loop() { void loop() {
if (digitalRead(WHITE_PIN)) { #ifdef WHITE_PIN
if (! digitalRead(WHITE_PIN)) {
loop_white(); loop_white();
} else { } else {
#else
{
#endif
loop_color(); loop_color();
} }
#ifdef LED_PIN
static bool led = true;
digitalWrite(LED_PIN, led);
led = !led;
#endif
} }