LABORATORIO PRESENCIAL: PRÁCTICA 1 – INTERRUPTOR INTERRUPTOR CREPUSCULAR PRACTICA 2-AMPLIFICADOR DE BAJA SEÑAL CON JFET. PRACTICA 3-MEZCLADOR DE SEÑAL CON AMPLIFICADOR OPERACIONAL PRACTICA 4-LUCES AUDIO RÍTMICAS DE 3 CANALES
ELECTRÓNICA ANÁLOGA
243006_30
PRESENTADO POR: MIGUEL ANDRES NIETO LOZANO COD: 1065904413
TUTOR: FAVER AMOROCHO
UNIVERSIDAD NACIONAL ABIERTA Y A DISTANCIA “UNAD”
ESCUELA DE CIENCIAS BÁSICAS, TECNOLOGÍA E INGENIERÍA – ECBTI ECBTI AGUACHICA CESAR, COLOMBIA 2019
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INTRODUCCIÓN en el informe de laboratorio presentado a continuación trabajamos en las practicas 1 interruptor crepuscular con transistor BJT controlando un relé para encender un LED, una segunda practica con transistor amplificador de señal JFET, una tercera con ampliadores operacionales con diferentes configuraciones y una cuarta que es un circuito de luces rítmicas de tres canales con filtros activos conformados con amplificadores operacionales en sus diferentes configuraciones con el famoso LM324 que es un integrado de 14 pines. Para estos laboratorios se nos pidió hallar algunos valores del circuito reales y simulados. En este informe encontraran los valores de cada circuito hallados, medidos en simulación y tiempo real; con las diferentes herramientas que nos ofrece la universidad para nuestro aprendizaje.
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PRIMERA PRÁCTICA: INTERRUPTOR CREPUSCULAR.
Suponga que trabaja para una compañía que diseña, prueba, fabrica y comercializa instrumentos electrónicos. Su primera asignación es presentar trabajando en equipo con cuatro compañeros, una solución llamada interruptor crepuscular, el cual permite automatizar el encendido y apagado de una lámpara según las condiciones de iluminación existentes, de modo tal, que esta, permanezca encendida por ejemplo durante la noche y apagada durante el día.
Fig. 1 Diagrama esquemático del sistema. Fuente: Autor.
1.1
Cada participante debe realizar el montaje sobre protoboard o baquelita universal del circuito interruptor crepuscular propuesto en el que se evidencie el correcto funcionamiento del mismo.
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1.2 Luego de la puesta en marcha del circuito se debe realizar las siguientes mediciones Usando el milímetro mida:
Voltaje RMS (Eficaz) del primario y secundario del transformador. utilizando el voltímetro AC. Medida en simulador 125V 14.3V
Medida real 124.1V 15.4V
Voltaje pico del primario y secundario del transformador. Utilizando el osciloscopio. Medida en simulador
Medida real
87.5V
88V
10V
10.8V
Voltaje de salida del rectificador con filtrado.
Medida en simulador
Medida real
18.3V
15.4V
Voltaje VBE (Voltaje Base Emisor) del BJT.
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1.3 Presente en el informe una reflexión de lo aprendido durante la realización de la práctica.
En el desarrollo de esta práctica pude aprender a diferenciar los dos tipos más comunes de transistores BJT como son los NPN o los PNP, donde el transistor es alimentado por una fuente que está conformada por un transformador que es el encargado de reducir la tención de entrada de aproximadamente 124 V alternos a unos 15 V alternos aproximadamente, que luego los pasamos por unos puentes de diodos encargados de rectificar el voltaje obteniendo un voltaje continuo con rizado el cual es reducido por un capacitor electrolítico que se encarga de filtrar nuestro rizado ya que tiene la propiedad de almacenar voltaje, ya teniendo nuestro voltaje completamente continuo pero un poco más alto al voltaje solicitado para que nuestro circuito funcione calculamos una resistencia de carga y un diodo zener a la inversa para reducir el voltaje al requerido, este zener disipa el voltaje sobrante solo permitiendo obtener el voltaje deseado para que nuestro circuito funcione, luego ya de calcular y completar la fuente de alimentación de nuestro circuito, ya encontramos la fotorresistencia que es la encargada de recibir los rayos de ley y permitir conducir la corriente a la base de nuestro transistor el cual fue calculada para que se comporte en modo de corte y de saturación cuando exista corriente en la base, el potenciómetro nos permitirá graduar el tiempo de disparo seguir sea la cantidad del luz que queramos para que se energice la base del BJT, el cual me energiza un relé que tiene un terminal a positivo y el otro a negativo pero con un diodo a la inversa ya que como es una bobina que se imanta y al cortar el flujo de corriente nos genera una corriente alterna que nos puede provocar un daño a nuestro BJT y por ultimo nuestro relé está configurado en comúnmente cerrado esto quiere decir que cuando este activado nuestro LED estará apagado.
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Segunda Práctica: Amplificador de Baja Señal con JFET.
Suponga que trabaja para una compañía que diseña, prueba, fabrica y comercializa instrumentos electrónicos. Su segunda asignación es presentar trabajando en equipo con cuatro compañeros, una solución llamada amplificador de baja señal con JFET, el cual permite restaurar señales débiles en los diferentes circuitos de transmisión y recepción de información las especificaciones dadas para el diseño son las siguientes:
Señal de entrada: 300mV a 1Khz senoidal. Referencia del JFET: 2N3819 ID= 3mA, VD= 10V, VGS (off)= -8V, VCC= 20V.
De catálogo se tiene que: IDSS puede Variar de 2mA a 20mA… 20 mA… para este diseño se trabajara IDSS=16mA.
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2.1
Cada participante debe realizar el montaje sobre protoboardo baquelita universal del circuito amplificador de baja señal con JFET propuesto en el que se evidencie el correcto funcionamiento del mismo.
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2.2 Luego de la puesta en marcha del circuito se debe realizar las siguientes mediciones A continuación presento los valores de la simulación en PROTEUS ya que debido a varios inconvenientes con el JFET fue imposible lograr que amplificara el montaje en protoboardo nos daba el mismo voltaje de entrada en la salida.
-
-
-
Amplitud de la señal de salida usando el Osciloscopio. Medida en simulador 570mV
Medida Real
Medida en simulador 675mV
Medida Real
Medida en simulador 15.7mV
Medida Real
Valor de VGS.
Valor de VDS.
Valor de VGD.
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Tercera Práctica: Mezclador de Señal con Amplificador Operacional Suponga que trabaja para una compañía que diseña, prueba, fabrica y comercializa instrumentos electrónicos. Su tercera asignación es presentar trabajando en equipo con cuatro compañeros, una solución llamada mezclador de señal con ampliador operacional, el cual permite combinar la información de varias señales provenientes de fuentes diferentes y entregar una salida a través de un único canal, c anal, un ejemplo de esto se puede apreciar al escuchar a través de un equipo de sonido las voces provenientes de varios micrófonos. Para lograr tal fin, cuentan con el amplificador operacional LM324, una fuente dual de +-9VDC y tres señales de entrada sinusoidal con los siguientes parámetros: V1= 1Vp, 1Khz. V2= 1Vp, 500Hz. V3= 1Vp, 3Khz.
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3.1
Cada participante debe realizar el montaje sobre protoboardo baquelita universal del circuitomezclador de señal con ampliador operacional propuesto en el que se evidencie el correcto funcionamiento del mismo.
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-
-
Amplitud de la señal de salida del amplificador a mplificador U1: D Medida en simulador
Medida Real
3V
3.1V
Amplitud de la señal de salida del amplificador a mplificador U1: A Medida en simulador
Medida Real
1.02V
.0
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Cuarta Práctica: Luces Audio Rítmicas de 3 Canales Suponga que trabaja para una compañía que diseña, prueba, fabrica y comercializa instrumentos electrónicos. Su cuarta asignación es presentar trabajando en equipo con los mismos compañeros, una solución llamada luces audio rítmicas de 3 canales, La cual permite que según el rango de frecuencias seleccionados por canal se pueda encender un led, de manera tal que al recibir una señal de audio los led se enciendan según el ritmo de los tonos, para el diseño se solicita un canal para las notas bajas uno para notas medias y uno para notas altas, se dispone nuevamente del amplificador operacional LM324 para implementar los filtros activos de segundo orden.
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4.1
Cada participante debe realizar el montaje sobre protoboardo baquelita universal del circuito de luces audios rítmicos de 3 canales propuestos en el que se evidencie el correcto funcionamiento del mismo.
FRECUENCIA DE 100 HZ
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4.2 Luego de la puesta en marcha del circuito se deben realizar las siguientes mediciones. Usando el osciloscopio mida:
-
La amplitud de la señal de salida del amplificador U1: A. para una señal sinusoidal de entrada de 100Hz, 800Hz y 3Khz. Medida en simulador 5.30V
Medida Real
Medida en
Medida Real
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-
La amplitud de la señal de salida del amplificador U1: C. para una señal sinusoidal de entrada de 100Hz, 800Hz y 3Khz.
Medida en
Medida Real
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REFERENCIAS BIBLIOGRÁFICAS Aplicaciones de diodos Mijarez, R. (2014). Electrónica (2014). Electrónica (pp. 53 - 71). Recuperado