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concetalos con un arduino
lalomoc

lalomoc

@copilot concetalos con un arduino
1y

copilot

Para conectar el TRIAC BT139-600E,127 y el fototriac MOC3021 con un Arduino, puedes seguir estos pasos. Asumiré que deseas encender y apagar una carga de corriente alterna (CA) usando el Arduino a través del MOC3021 para disparar el TRIAC.
Conexiones:
  1. Arduino a MOC3021:
    • Conecta un pin digital del Arduino (por ejemplo, pin 9) al pin U1:1U1:1 (ANODE) del MOC3021.
    • Conecta el pin U1:2U1:2 (CATHODE) del MOC3021 a GND del Arduino.
    • Agrega una resistencia entre el pin digital del Arduino y el pin U1:1U1:1 (ANODE) para limitar la corriente, por ejemplo, una resistencia de 220 ohmios.
  2. MOC3021 a BT139-600E,127:
    • Conecta el pin U1:4U1:4 (MAIN_TERM) del MOC3021 al pin Q1:GQ1:G (G) del TRIAC BT139-600E,127.
    • Conecta el pin Q1:A1Q1:A1 del TRIAC a uno de los terminales de la carga CA.
    • Conecta el otro terminal de la carga CA y el pin Q1:A2Q1:A2 del TRIAC al neutro de la fuente de alimentación de CA.
  3. Consideraciones adicionales:
    • Asegúrate de que la carga CA y la fuente de alimentación estén dentro de las especificaciones del TRIAC.
    • Puedes agregar un disipador de calor al TRIAC si la carga es alta.
    • Es aconsejable usar una resistencia entre los pines del MOC3021 para controlar adecuadamente el disparo del TRIAC, generalmente en el rango de 180Ω a 470Ω.
Código de Arduino (Ejemplo): 
Cpp
int triacPin = 9; // Pin conectado al anodo del MOC3021

void setup() {
  pinMode(triacPin, OUTPUT);
}

void loop() {
  digitalWrite(triacPin, HIGH); // Activa el TRIAC
  delay(1000);                  // Espera 1 segundo
  digitalWrite(triacPin, LOW);  // Desactiva el TRIAC
  delay(1000);                  // Espera 1 segundo
}
Estos pasos te ayudarán a controlar una carga CA a través de un TRIAC utilizando un Arduino. Si tienes alguna pregunta o requieres más información, no dudes en preguntar.
1y
1
Q1
U1
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