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reliza las conexiones para un sensor de proximidad con el fototransistor
david118

david118

@copilot reliza las conexiones para un sensor de proximidad con el fototransistor
2y

copilot

Entiendo que deseas implementar un sensor de proximidad utilizando un fototransistor. Veo que tienes un fototransistor Q1 (BPW77NB) en tu proyecto. Para simplificar, asumiré que deseas utilizar el LM358P (U2) como un comparador para procesar la señal del fototransistor y determinar la proximidad. El IR67-21C/TR8 (U1), siendo un LED infrarrojo, puede servir como fuente de luz para el sensor de proximidad.
Un circuito básico de sensor de proximidad puede configurarse de la siguiente manera, teniendo en cuenta los componentes que tienes:
  1. Excitación del LED Infrarrojo (U1):
    • Alimentaremos el anodo (A) directamente desde una fuente de voltaje adecuada para el LED infrarrojo. Este voltaje dependerá del LED específico y de su resistencia de serie si es necesario, pero supongamos que U1 se alimenta correctamente de acuerdo con sus especificaciones.
    • El cátodo (K) se conectará a tierra.
  2. Configuración del Fototransistor (Q1):
    • El colector (C) de Q1 se conectará a la fuente de alimentación a través de una resistencia de pull-up. Podemos usar R1 como esta resistencia. Por lo tanto, conectaré R1:P2 a la fuente de voltaje (quedeberıˊaserlamismaqueU2:V+).(que debería ser la misma que U2:V+).
    • El emisor (E) se conectará a tierra.
  3. Conexiones al Op-Amp (U2 como comparador):
    • La señal del fototransistor (voltaje en el colector) se usará como una de las entradas del comparador. Por lo tanto:
      • Conectar Q1:C a U2:+IN1.
    • Para establecer un umbral de detección, utilizaremos R2 como divisor de voltaje o una resistencia fija a una entrada inversora del comparador. Pero, dada la simplicidad de este ejemplo, supongamos que conectas un voltaje de referencia adecuado a -IN1 a través de R2. Así que:
      • Conectar R2:P1 a U2:-IN1 (yaconfigurado).(ya configurado).
    • La salida del comparador (U2:OUT1) puede ir a un circuito de procesamiento posterior o ser utilizada para activar un LED indicador o un relé.
  4. Alimentación y Tierra para U2:
    • U2:V+ se conectará a la misma fuente de voltaje utilizada para R1:P2 y Q1:C.
    • U2:V- se conectará a tierra.
Assumptions:
  • La fuente de voltaje mencionada es adecuada para el LED U1, U2, y el fototransistor Q1.
  • R1 y R2 ya están seleccionadas para trabajar con las tensiones en el circuito y establecer correctamente los niveles de voltaje para la sensibilidad y el umbral requerido por el diseño.
Esto te proporciona una configuración básica para tu sensor de proximidad. Dependiendo de tu aplicación específica, podrías necesitar ajustar los valores de las resistencias, la configuración del Op-Amp, o incluir más etapas de procesamiento de la señal.
2y
2
R1 P2 - U2 V+
U1 K - U2 V-
R1 P2 - U2 V+
R1 P2 - U2 V+
U1 K - U2 V-
R1 P2 - U2 V+
R1 P2 - U2 V+
R2 P1 - U2 -IN1
U2
R2
Resistance
220 Ω
U1
Q1
R1
Resistance
500 Ω
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