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@copilot pon un coparador de schmitt para que cuando la salida del opamp llegue ...

mam

@copilot @copilot pon un coparador de schmitt para que cuando la salida del opamp llegue a 25 mv se encienda el motor hasta que descienda aa 10mv, pero si la señal esta creciendo de 1omv a 25mv no se va a prender el motor

copilot

Para implementar un comparador Schmitt con histéresis utilizando un amplificador operacional (LM324N) en tu circuito, puedes seguir estos pasos:

Objetivo

Encender el motor (M1) cuando la señal sea igual o superior a 25 mV.
Apagar el motor cuando la señal descienda a 10 mV.
Asegurarte de que el motor no se encienda cuando la señal esté subiendo desde 10 mV a 25 mV.

Configuración del Comparador Schmitt

Un comparador Schmitt añade histéresis, que te permite definir los niveles de disparo de encendido y apagado. Usaremos una configuración positiva para definir los umbrales de disparo.

Componentes Necesarios

Resistencia de realimentación $R_f$
Resistencia de entrada $R_{in}$
Amplificador operacional (parte del LM324N)

Conexiones

Entrada de Señal: Se conecta a la entrada no inversora $\ (1IN+)\ $ del U1.
Realimentación: Conectar $\ U1:1OUT\ $ a la entrada inversora $\ (1IN-)\ $ a través de una resistencia $R_f$.
Divisor de Voltaje:
- Conecta un divisor de voltaje a la entrada inversora $\ (1IN-)\ $, usando $R_f$ y $R_{in}$.
- El voltaje de referencia se ajusta para cambiar entre 25 mV y 10 mV.

Cálculo de Resistencia para Histéresis

Supongamos que alimentamos el opamp con una fuente de 3V (

V_{REF}

conectado en $\ U1:VCC+\ $) y conectamos el negativo del opamp a tierra. Usa la fórmula para el umbral de un comparador Schmitt:

V_{UTP} = \frac{R_f}{R_f + R_{in}} \cdot V_{CC} + V_{ref}

V_{LTP} = \frac{R_f}{R_f + R_{in}} \cdot V_{CC} - V_{ref}

Donde $V_{UTP}$ es el umbral superior (25 mV) y $V_{LTP}$ es el inferior (10 mV).

Actuación del Motor

Conexión del Motor:
- Usa un transistor (TIP41C) como interruptor.
- Conecta $\ U1:1OUT\ $ a la base del transistor Q1.
- Conecta el colector de Q1 a $\ M1:+\ $ del motor.
- Conecta el emisor a $\ U2:GND\ $.

Ajustes

Tendrás que ajustar $R_f$ y $R_{in}$ para obtener el comportamiento deseado en los niveles de umbral. También es importante realizar pruebas para validar los niveles de histéresis y asegurarte de que el motor se encienda y apague en los momentos correctos.

Aquí tienes un ejemplo de conexión básica:

Conectar $\ U1:1OUT\ $ a la base de Q1.
Conectar $\ Q1:C\ $ a $\ D1:K\ $.
Conectar $\ D1:A\ $ a $\ M1:+\ $.

Esta configuración te permitirá activar el motor basándote en las condiciones de voltaje definidas. Puedes ajustar las relaciones de $R_f$ y $R_{in}$ para afinar los puntos de activación.

Resistance

500 Ω

BATT1

Resistance

500 Ω

Reviews

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Generic Capacitor
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Project Name

Obedient Apricot Dejarik

Description

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Properties

Properties describe core aspects of the project.

Pricing & Availability

Distributor	Qty 1
Arrow	$3.81–$8.16
Digi-Key	$7.91–$10.04
LCSC	$7.31–$7.74
Mouser	$8.80
Verical	$7.47–$7.72

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