👨🏽‍🎨 📍 👨🏽‍🍳 Maquillaje para cyber cinderella. Proyecto de fin de semana Arduino. Pestañas led 🏀 📵 🤘

Por primera vez, el diseñador Tien Pham mostró las pestañas LED en The Maker Faire en San Francisco. Eso fue hace dos años. Bueno, y casi de inmediato en la cueva de Alibaba, los ladrones chinos comenzaron a distribuir análogos por 400 o incluso 300 rublos.

En las imágenes, se trata de dos placas de circuito impreso delgadas con doce LED que están conectadas por cables delgados a la placa de control con una batería. Las pestañas luminosas se unen con pegamento especial en la parte superior o normal, y el controlador y la batería están ocultos en el cabello. Técnicamente, a primera vista, nada complicado. Pero! Si observa detenidamente la pestaña, hay 12 LED y solo hay tres cables en el bucle. Al mismo tiempo, los LED no solo se iluminan o parpadean, sino que también funcionan como luces de marcha. Me pregunté medio día cómo lo hicieron. Revisé un montón de comerciales. Y, en cámara lenta, resultó que los LED realizan cualquier efecto en pares. Es decir, la tarea se redujo inmediatamente para controlar seis LED en tres cables. Pero aún así, tres! Seis de cada tres! Una vez más, seis de cada tres. Y más ... Luego repitió de nuevo y la respuesta apareció de alguna manera por sí misma. Aquí está: ¡el número de todas las permutaciones de los tres elementos es 6!

Resulta que el microcontrolador clasificó tres señales en un bucle que consta de tres conductores: cero, uno y el tercer estado. Obtenemos seis combinaciones / permutaciones, lo que significa que en cada una de las permutaciones uno de los seis LED está encendido. Si están incluidos en este esquema:

Por ejemplo, encienda el LED D2. En A-cero, en B - el tercer estado, en la unidad C. ¡Solo el LED D2 está encendido!

Ahora en Cero y uno en las salidas del microcontrolador es fácil. ¿Y el tercer estado? Aún más fácil Establece el modo de entrada. Ahora la entrada de alta impedancia, que no se tira a cero ni a la unidad, está prácticamente desconectada del circuito de control.

El siguiente es el código, que controla dinámicamente las salidas del microcontrolador, enciende cualquier cantidad de LED. Hacemos luces de marcha, parpadea, brilla, apaga al final.
A continuación se muestra el código para el Arduino con varios efectos para dos pestañas con seis grupos de LED cada uno.

Abrimos y miramos

#include <PinChangeInt.h> #define LEFT_PIN_1 2 #define LEFT_PIN_2 3 #define LEFT_PIN_3 4 #define RIGHT_PIN_1 5 #define RIGHT_PIN_2 6 #define RIGHT_PIN_3 7 #define KEY_PIN 8 #define EFFECT_0 0 #define EFFECT_1 1 #define EFFECT_2 2 #define EFFECT_3 3 #define EFFECT_4 4 #define EFFECT_5 5 #define EFFECT_6 6 #define EFFECT_7 7 #define EFFECT_LAST EFFECT_7 uint8_t EffectCnt = 0; void setup() { pinMode(LEFT_PIN_1, OUTPUT); pinMode(LEFT_PIN_2, OUTPUT); pinMode(LEFT_PIN_3, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_2, OUTPUT); pinMode(RIGHT_PIN_3, OUTPUT); pinMode(KEY_PIN, INPUT); digitalWrite(KEY_PIN, HIGH); PCintPort::attachInterrupt(KEY_PIN, &Key_ISR, FALLING); } //------------------------------------------------------ void loop() { void (*EFFECTS[])(void) = { Lashes_0, Lashes_1, Lashes_2, Lashes_3, Lashes_4, Lashes_5, Lashes_6, Lashes_7, }; (*EFFECTS[EffectCnt])();//EffectCnt delay(100); Lashes_Off(); while(!digitalRead(KEY_PIN)); delay(300); PCintPort::attachInterrupt(KEY_PIN, &Key_ISR, FALLING); } //------------------------------------------------------ void Lashes_0() { const uint16_t ViewDelay = 5; while(EffectCnt == EFFECT_0) { digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_2, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); } } //------------------------------------------------------ void Lashes_1() { const uint16_t ViewDelay = 5; const uint8_t LashesON = 27; const uint16_t PauseDelay = ViewDelay * LashesON * 3; while(EffectCnt == EFFECT_1) { for (uint8_t i = 0; i < LashesON; i++) { digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_2, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); } Lashes_Off(); delay(PauseDelay); } } //------------------------------------------------------ void Lashes_2() { const uint16_t ViewDelay = 5; const uint8_t LashesON = 17; while(EffectCnt == EFFECT_2) { for (uint8_t i = 0; i < LashesON; i++) { digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_2, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); } Lashes_Off(); for (uint8_t i = 0; i < LashesON; i++) { digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(LEFT_PIN_3, HIGH); delay(ViewDelay); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); delay(ViewDelay); } Lashes_Off(); } } //------------------------------------------------------ void Lashes_3() { const uint16_t ViewDelay = 70; pinMode(LEFT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); pinMode(LEFT_PIN_2, INPUT); pinMode(RIGHT_PIN_2, INPUT); pinMode(LEFT_PIN_3, OUTPUT); pinMode(RIGHT_PIN_3, OUTPUT); while(EffectCnt == EFFECT_3) { digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); pinMode(LEFT_PIN_1, INPUT); pinMode(RIGHT_PIN_1, INPUT); pinMode(LEFT_PIN_2, OUTPUT); pinMode(RIGHT_PIN_2, OUTPUT); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(RIGHT_PIN_2, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); pinMode(LEFT_PIN_3, INPUT); pinMode(RIGHT_PIN_3, INPUT); pinMode(LEFT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(RIGHT_PIN_2, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_2, HIGH); //  delay(ViewDelay); digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(RIGHT_PIN_2, LOW); delay(ViewDelay); pinMode(LEFT_PIN_1, INPUT); pinMode(RIGHT_PIN_1, INPUT); pinMode(LEFT_PIN_3, OUTPUT); pinMode(RIGHT_PIN_3, OUTPUT); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); pinMode(LEFT_PIN_2, INPUT); pinMode(RIGHT_PIN_2, INPUT); pinMode(LEFT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); } } //------------------------------------------------------ void Lashes_4() { const uint16_t ViewDelay = 30; randomSeed(analogRead(0)); while(EffectCnt == EFFECT_4) { uint8_t randNumber = random(0, 7); switch(randNumber) { case 0: digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(LEFT_PIN_3, HIGH); break; case 1: digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); break; case 2: digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(LEFT_PIN_2, HIGH); break; case 3: digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_2, HIGH); break; case 4: digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, HIGH); break; case 5: digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); break; } delay(ViewDelay); Lashes_Off(); } } //------------------------------------------------------ void Lashes_5() { const uint8_t DelayMin = 1; const uint8_t DelayMax = 25; const uint8_t LashesON = 6; int8_t DelayVal = DelayMin; bool Direction = false; while(EffectCnt == EFFECT_5) { for (uint8_t i = 0; i < LashesON; i++) { digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_2, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(DelayVal); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, LOW); delay(DelayVal); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(DelayVal); } if (!Direction) { DelayVal++; if (DelayVal == DelayMax + 1) { DelayVal = DelayMax - 1; Direction = true; } } else { DelayVal--; if (DelayVal == DelayMin - 1) { DelayVal = DelayMin + 1; Direction = false; } } } } //------------------------------------------------------ void Lashes_6() { const uint16_t ViewDelay = 5; const uint8_t LashesON_RED = 45; const uint8_t LashesON_RED_BLUE = LashesON_RED; pinMode(LEFT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); pinMode(LEFT_PIN_2, INPUT); pinMode(RIGHT_PIN_2, INPUT); pinMode(LEFT_PIN_3, OUTPUT); pinMode(RIGHT_PIN_3, OUTPUT); for (uint8_t i = 0; i < LashesON_RED; i++) { digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); } for (uint8_t i = 0; i < LashesON_RED_BLUE; i++) { pinMode(LEFT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); pinMode(LEFT_PIN_2, INPUT); pinMode(RIGHT_PIN_2, INPUT); pinMode(LEFT_PIN_3, OUTPUT); pinMode(RIGHT_PIN_3, OUTPUT); digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); pinMode(LEFT_PIN_1, INPUT); pinMode(RIGHT_PIN_1, INPUT); pinMode(LEFT_PIN_2, OUTPUT); pinMode(RIGHT_PIN_2, OUTPUT); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(RIGHT_PIN_2, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); } pinMode(LEFT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); while(EffectCnt == EFFECT_6) { digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_2, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); } } //------------------------------------------------------ void Lashes_7() { const uint16_t ViewDelay = 70; pinMode(LEFT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); pinMode(LEFT_PIN_2, INPUT); pinMode(RIGHT_PIN_3, INPUT); pinMode(LEFT_PIN_3, OUTPUT); pinMode(RIGHT_PIN_2, OUTPUT); while(EffectCnt == EFFECT_7) { digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(RIGHT_PIN_2, HIGH); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_2, LOW); delay(ViewDelay); pinMode(LEFT_PIN_1, INPUT); pinMode(LEFT_PIN_2, OUTPUT); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(LEFT_PIN_3, LOW); pinMode(RIGHT_PIN_1, INPUT); pinMode(RIGHT_PIN_3, OUTPUT); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); pinMode(LEFT_PIN_3, INPUT); pinMode(RIGHT_PIN_2, INPUT); pinMode(LEFT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, LOW); //  delay(ViewDelay); digitalWrite(LEFT_PIN_1, HIGH); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(RIGHT_PIN_3, HIGH); delay(ViewDelay); pinMode(LEFT_PIN_1, INPUT); pinMode(RIGHT_PIN_1, INPUT); pinMode(LEFT_PIN_3, OUTPUT); pinMode(RIGHT_PIN_2, OUTPUT); digitalWrite(LEFT_PIN_3, HIGH); digitalWrite(RIGHT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, LOW); delay(ViewDelay); digitalWrite(LEFT_PIN_2, HIGH); digitalWrite(RIGHT_PIN_3, HIGH); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_2, LOW); delay(ViewDelay); pinMode(LEFT_PIN_2, INPUT); pinMode(RIGHT_PIN_3, INPUT); pinMode(LEFT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(RIGHT_PIN_1, HIGH); digitalWrite(LEFT_PIN_3, HIGH); } } //---------------------------------------- void Key_ISR() { EffectCnt++; if (EffectCnt > EFFECT_LAST) EffectCnt = EFFECT_0; PCintPort::detachInterrupt(KEY_PIN); } //---------------------------------------- void Lashes_Off() { pinMode(LEFT_PIN_1, OUTPUT); pinMode(LEFT_PIN_2, OUTPUT); pinMode(LEFT_PIN_3, OUTPUT); pinMode(RIGHT_PIN_1, OUTPUT); pinMode(RIGHT_PIN_2, OUTPUT); pinMode(RIGHT_PIN_3, OUTPUT); digitalWrite(LEFT_PIN_1, LOW); digitalWrite(LEFT_PIN_2, LOW); digitalWrite(LEFT_PIN_3, LOW); digitalWrite(RIGHT_PIN_1, LOW); digitalWrite(RIGHT_PIN_2, LOW); digitalWrite(RIGHT_PIN_3, LOW); }

Y esta chica Veronica demuestra estos efectos.

Probablemente, para algunas personas, este método de administración ha sido familiar durante mucho tiempo y ya lo está utilizando. Pero de todos modos, realmente quería compartir. Arduins debería gustar!

Maquillaje para cyber cinderella. Proyecto de fin de semana Arduino. Pestañas led

More articles: