ENIB 2022 - groupe B : Grande roue
Révision datée du 14 janvier 2022 à 16:17 par Perglaz (discussion | contributions)
Sommaire
Equipe
- Kaddah Salah El Dine
- Malherbe Julie
- Floch Louane
- La Marre Pierre
photo du projet
Que fait ce projet ?
La grande roue peut tourner dans les 2 sens, émet une musique, et est illuminée au niveau de son support
Liste des composants
Technique:
- Wemos D1 Mini x1
- servo moteur x1
- potentiomètre x1
- bandeau de led rvb adressable WS2812B x36 led
- pack son (Haut parleur; carte son ; lecteur) x1
- interrupteur x2
- buzzer
Autre:
- carton
- papiers de couleur (blanc, bleu, rose)
- pics de bois
- axe cylindrique en bois
Circuit
- Roue:
- Musique:
Code
#include <Servo.h> #include<FastLED.h> #define LED_PIN 5 #define NUM_LEDS 10 #define BRIGHTNESS 64 #define LED_TYPE WS2811 #define COLOR_ORDER GRB CRGB leds[NUM_LEDS]; #define UPDATES_PER_SECOND 100 CRGBPalette16 currentPalette; TBlendType currentBlending; extern CRGBPalette16 myRedWhiteBluePalette; extern const TProgmemPalette16 myRedWhiteBluePalette_p PROGMEM; Servo esc; // create servo object to control a servo int val; // variable to read value from analog pin void setup() { esc.attach(D7); // attaches servo on D7 to the servo object delay( 3000 ); // power-up safety delay FastLED.addLeds<LED_TYPE, LED_PIN, COLOR_ORDER>(leds, NUM_LEDS).setCorrection( TypicalLEDStrip ); FastLED.setBrightness( BRIGHTNESS ); currentPalette = RainbowColors_p; currentBlending = LINEARBLEND; } void loop() { val = analogRead(0); // reads potentiometer value (between 0 and 1023) val = map(val, 0, 1023, 0, 180); // scale it to use it with the servo (between 0 and 180) esc.write(val); // sets servo position according to scaled value delay(15); // waits for servo to get there ChangePalettePeriodically(); static uint8_t startIndex = 0; startIndex = startIndex + 1; /* motion speed */ FillLEDsFromPaletteColors( startIndex); FastLED.show(); FastLED.delay(1000 / UPDATES_PER_SECOND); } void FillLEDsFromPaletteColors( uint8_t colorIndex) { uint8_t brightness = 255; for ( int i = 0; i < NUM_LEDS; i++) { leds[i] = ColorFromPalette( currentPalette, colorIndex, brightness, currentBlending); colorIndex += 3; } } // There are several different palettes of colors demonstrated here. // // FastLED provides several 'preset' palettes: RainbowColors_p, RainbowStripeColors_p, // OceanColors_p, CloudColors_p, LavaColors_p, ForestColors_p, and PartyColors_p. // // Additionally, you can manually define your own color palettes, or you can write // code that creates color palettes on the fly. All are shown here. void ChangePalettePeriodically() { uint8_t secondHand = (millis() / 1000) % 60; static uint8_t lastSecond = 99; if ( lastSecond != secondHand) { lastSecond = secondHand; if ( secondHand == 0) { currentPalette = RainbowColors_p; currentBlending = LINEARBLEND; } if ( secondHand == 10) { currentPalette = RainbowStripeColors_p; currentBlending = NOBLEND; } if ( secondHand == 15) { currentPalette = RainbowStripeColors_p; currentBlending = LINEARBLEND; } if ( secondHand == 20) { SetupPurpleAndGreenPalette(); currentBlending = LINEARBLEND; } if ( secondHand == 25) { SetupTotallyRandomPalette(); currentBlending = LINEARBLEND; } if ( secondHand == 30) { SetupBlackAndWhiteStripedPalette(); currentBlending = NOBLEND; } if ( secondHand == 35) { SetupBlackAndWhiteStripedPalette(); currentBlending = LINEARBLEND; } if ( secondHand == 40) { currentPalette = CloudColors_p; currentBlending = LINEARBLEND; } if ( secondHand == 45) { currentPalette = PartyColors_p; currentBlending = LINEARBLEND; } if ( secondHand == 50) { currentPalette = myRedWhiteBluePalette_p; currentBlending = NOBLEND; } if ( secondHand == 55) { currentPalette = myRedWhiteBluePalette_p; currentBlending = LINEARBLEND; } } } // This function fills the palette with totally random colors. void SetupTotallyRandomPalette() { for ( int i = 0; i < 16; i++) { currentPalette[i] = CHSV( random8(), 255, random8()); } } // This function sets up a palette of black and white stripes, // using code. Since the palette is effectively an array of // sixteen CRGB colors, the various fill_* functions can be used // to set them up. void SetupBlackAndWhiteStripedPalette() { // 'black out' all 16 palette entries... fill_solid( currentPalette, 16, CRGB::Black); // and set every fourth one to white. currentPalette[0] = CRGB::White; currentPalette[4] = CRGB::White; currentPalette[8] = CRGB::White; currentPalette[12] = CRGB::White; } // This function sets up a palette of purple and green stripes. void SetupPurpleAndGreenPalette() { CRGB purple = CHSV( HUE_PURPLE, 255, 255); CRGB green = CHSV( HUE_GREEN, 255, 255); CRGB black = CRGB::Black; currentPalette = CRGBPalette16( green, green, black, black, purple, purple, black, black, green, green, black, black, purple, purple, black, black ); } // This example shows how to set up a static color palette // which is stored in PROGMEM (flash), which is almost always more // plentiful than RAM. A static PROGMEM palette like this // takes up 64 bytes of flash. const TProgmemPalette16 myRedWhiteBluePalette_p PROGMEM = { CRGB::Red, CRGB::Gray, // 'white' is too bright compared to red and blue CRGB::Blue, CRGB::Black, CRGB::Red, CRGB::Gray, CRGB::Blue, CRGB::Black, CRGB::Red, CRGB::Red, CRGB::Gray, CRGB::Gray, CRGB::Blue, CRGB::Blue, CRGB::Black, CRGB::Black };
Sources
- créer la grande roue:
https://www.lasdi.com/la-grande-roue.html
- code servo moteur:
https://raspi.tv/2018/using-wemos-d1-mini-to-control-a-brushless-motor-with-esc-and-servo-signals
- bandeau de led rvb adressable WS2812B:
https://www.raspberryme.com/guide-pour-la-bande-led-rvb-adressable-ws2812b-avec-arduino/
- bibliothèque des leds WS2812B (le code utilise l'exemple "ColorPalette" de cette bibliothèque):
https://github.com/FastLED/FastLED/archive/master.zip
- utiliser Wemos D1 Mini avec arduino:
http://www.wikidebrouillard.org/wiki/Utiliser_le_D1_mini_avec_Arduino