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me puedes ayudar a conectar este circuito lo que hace es: enciende un led si no ...
thegonther

thegonther

@copilot me puedes ayudar a conectar este circuito lo que hace es: enciende un led si no hay luz PERO si la hay la apague
1y

copilot

¡Claro! Podemos usar el transistor $2N3904$ como un interruptor para controlar el LED basado en la luz detectada por la LDR ($R2$). Aquí tienes una propuesta de conexión:
  1. LDR ($R2$) y Resistencia ($R1$):
    • Conecta $R1:P1$ a VCC (la fuente de voltaje positivo).
    • Conecta $R1:P2$ a $R2:1$.
    • Conecta $R2:2$ a GND (tierra).
  2. Transistor $Q1$ ($2N3904$):
    • Conecta $R2:1$ (donde $R1$ y $R2$ se conectan) a $Q1:B$ (Base). Esto permitirá que el transistor se active con la caída de voltaje en el LDR cuando hay luz.
    • Conecta $Q1:C$ (Colector) a VCC.
    • Conecta $Q1:E$ (Emisor) a $LED1:A$ (Ánodo).
  3. LED ($LED1$):
    • Conecta $LED1:K$ (Cátodo) a GND.
Notas adicionales:
  • Asegúrate de que la polaridad del LED sea correcta para que encienda.
  • Puedes ajustar el valor de $R1$ para calibrar cuándo el LED debería encender o apagar según la iluminación.
Si necesitas más detalles o modificaciones, házmelo saber.
1y
thegonther

thegonther

@copilot como puedo mejorar este circuito ya sea agregando otro componente y eliminando alguno
1y

copilot

Para mejorar el circuito y hacerlo más eficiente o sensible, podrías considerar las siguientes modificaciones:
  1. Agregar un Amplificador Operacional:
    • Función: Un comparador basado en un amplificador operacional puede proporcionar una conmutación más definida entre el encendido y apagado del LED.
    • Conexión Básica:
      • Conecta el nodo que une $R1$ y $R2$ a la entrada no inversora ($+$) del amplificador operacional.
      • Utiliza un divisor de voltaje (como dos resistencias) para fijar un punto de referencia en la entrada inversora ($-$) del amplificador para determinar el umbral de luz.
  2. Eliminar el Transistor Q1Q1:
    • Al usar un amplificador operacional como comparador, el transistor puede no ser necesario, ya que el OPAMP puede controlar directamente el LED si es capaz de manejar la corriente del LED.
  3. Agregar un Potenciómetro:
    • Función: Permite ajustar el umbral de luz sobre el cual el LED se enciende o apaga fácilmente.
    • Conexión: Usa el potenciómetro como parte del divisor de voltaje para ajustar el umbral de referencia en el amplificador operacional.
Consideraciones:
  • Fuente de Alimentación del OPAMP: Asegúrate de alimentar el amplificador operacional dentro de su rango de voltaje operativo.
  • Tipo de Amplificador Operacional: Un OPAMP como el LM358 puede ser adecuado debido a su baja potencia y capacidad de funcionar con una sola fuente de alimentación.
  • Resistencia de Polarización (Pull-up): Si eliminas el transistor y usas un OPAMP, considera la corriente máxima que pasa a través del LED para seleccionar una resistencia adecuada y proteger el OPAMP.
Si te gustaría que desarrolle más esta propuesta o explore otro componente en particular, házmelo saber.
1y
1
R1 P2 - R2 ~
Q1 E - LED1 A
LED1
R1 P2 - R2 ~
R1 P2 - R2 ~
Q1 E - LED1 A
Q1
R1
Resistance
500 Ω
R2
  • Ground
    Ground
    A common return path for electric current. Commonly known as ground.
    jharwinbarrozo
    20.5M
  • Net Portal
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    Wirelessly connects nets on schematic. Used to organize schematics and separate functional blocks. To wirelessly connect net portals, give them same designator. #portal
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    Wirelessly connects power nets on schematic. Identical to the net portal, but with a power symbol. Used to organize schematics and separate functional blocks. To wirelessly connect power net portals, give them the same designator. #portal #power
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  • Generic Resistor
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    A generic fixed resistor ideal for rapid circuit topology development. Its footprint automatically adapts based on the selected package case code—supporting 0402, 0603, 0805, 1203, and many other standard SMD packages, as well as axial horizontal and vertical configurations. Save precious design time by seamlessly add more information to this part (value, footprint, etc.) as it becomes available. Standard resistor values: 1.0 ohm, 10 ohm, 100 ohm, 1.0k ohm, 10k ohm, 100k ohm, 1.0M ohm 1.1 ohm, 11 ohm, 110 ohm, 1.1k ohm, 11k ohm, 110k ohm, 1.1M ohm 1.2 ohm, 12 ohm, 120 ohm, 1.2k ohm, 12k ohm, 120k ohm, 1.2M ohm 1.3 ohm, 13 ohm, 130 ohm, 1.3k ohm, 13k ohm, 130k ohm, 1.3M ohm 1.5 ohm, 15 ohm, 150 ohm, 1.5k ohm, 15k ohm, 150k ohm, 1.5M ohm 1.6 ohm, 16 ohm, 160 ohm, 1.6k ohm, 16k ohm, 160k ohm, 1.6M ohm 1.8 ohm, 18 ohm, 180 ohm, 1.8K ohm, 18k ohm, 180k ohm, 1.8M ohm 2.0 ohm, 20 ohm, 200 ohm, 2.0k ohm, 20k ohm, 200k ohm, 2.0M ohm 2.2 ohm, 22 ohm, 220 ohm, 2.2k ohm, 22k ohm, 220k ohm, 2.2M ohm 2.4 ohm, 24 ohm, 240 ohm, 2.4k ohm, 24k ohm, 240k ohm, 2.4M ohm 2.7 ohm, 27 ohm, 270 ohm, 2.7k ohm, 27k ohm, 270k ohm, 2.7M ohm 3.0 ohm, 30 ohm, 300 ohm, 3.0K ohm, 30K ohm, 300K ohm, 3.0M ohm 3.3 ohm, 33 ohm, 330 ohm, 3.3k ohm, 33k ohm, 330k ohm, 3.3M ohm 3.6 ohm, 36 ohm, 360 ohm, 3.6k ohm, 36k ohm, 360k ohm, 3.6M ohm 3.9 ohm, 39 ohm, 390 ohm, 3.9k ohm, 39k ohm, 390k ohm, 3.9M ohm 4.3 ohm, 43 ohm, 430 ohm, 4.3k ohm, 43K ohm, 430K ohm, 4.3M ohm 4.7 ohm, 47 ohm, 470 ohm, 4.7k ohm, 47k ohm, 470k ohm, 4.7M ohm 5.1 ohm, 51 ohm, 510 ohm, 5.1k ohm, 51k ohm, 510k ohm, 5.1M ohm 5.6 ohm, 56 ohm, 560 ohm, 5.6k ohm, 56k ohm, 560k ohm, 5.6M ohm 6.2 ohm, 62 ohm, 620 ohm, 6.2k ohm, 62K ohm, 620K ohm, 6.2M ohm 6.8 ohm, 68 ohm, 680 ohm, 6.8k ohm, 68k ohm, 680k ohm, 6.8M ohm 7.5 ohm, 75 ohm, 750 ohm, 7.5k ohm, 75k ohm, 750k ohm, 7.5M ohm 8.2 ohm, 82 ohm, 820 ohm, 8.2k ohm, 82k ohm, 820k ohm, 8.2M ohm 9.1 ohm, 91 ohm, 910 ohm, 9.1k ohm, 91k ohm, 910k ohm, 9.1M ohm #generics #CommonPartsLibrary
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  • Generic Capacitor
    Generic Capacitor
    A generic fixed capacitor ideal for rapid circuit topology development. You can choose between polarized and non-polarized types, its symbol and the footprint will automatically adapt based on your selection. Supported options include standard SMD sizes for ceramic capacitors (e.g., 0402, 0603, 0805), SMD sizes for aluminum electrolytic capacitors, and through-hole footprints for polarized capacitors. Save precious design time by seamlessly add more information to this part (value, footprint, etc.) as it becomes available. Standard capacitor values: 1.0pF, 10pF, 100pF, 1000pF, 0.01uF, 0.1uF, 1.0uF, 10uF, 100uF, 1000uF, 10000uF 1.1pF, 11pF, 110pF, 1100pF 1.2pF, 12pF, 120pF, 1200pF 1.3pF, 13pF, 130pF, 1300pF 1.5pF, 15pF, 150pF, 1500pF, 0.015uF, 0.15uF, 1.5uF, 15uF, 150uF, 1500uF 1.6pF, 16pF, 160pF, 1600pF 1.8pF, 18pF, 180pF, 1800pF 2.0pF, 20pF, 200pF, 2000pF 2.2pF, 22pF, 220pF, 2200pF, 0.022uF, 0.22uF, 2.2uF, 22uF, 220uF, 2200uF 2.4pF, 24pF, 240pF, 2400pF 2.7pF, 27pF, 270pF, 2700pF 3.0pF, 30pF, 300pF, 3000pF 3.3pF, 33pF, 330pF, 3300pF, 0.033uF, 0.33uF, 3.3uF, 33uF, 330uF, 3300uF 3.6pF, 36pF, 360pF, 3600pF 3.9pF, 39pF, 390pF, 3900pF 4.3pF, 43pF, 430pF, 4300pF 4.7pF, 47pF, 470pF, 4700pF, 0.047uF, 0.47uF, 4.7uF, 47uF, 470uF, 4700uF 5.1pF, 51pF, 510pF, 5100pF 5.6pF, 56pF, 560pF, 5600pF 6.2pF, 62pF, 620pF, 6200pF 6.8pF, 68pF, 680pF, 6800pF, 0.068uF, 0.68uF, 6.8uF, 68uF, 680uF, 6800uF 7.5pF, 75pF, 750pF, 7500pF 8.2pF, 82pF, 820pF, 8200pF 9.1pF, 91pF, 910pF, 9100pF #generics #CommonPartsLibrary
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  • Generic Inductor
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    A generic fixed inductor suitable for rapid circuit topology development. The footprint automatically adapts based on the selected package, supporting standard SMD sizes (e.g., 0402, 0603, 0805) as well as well-known inductor packages such as SDR1806, PA4320, SRN6028, and SRR1260. Standard inductor values: 1.0 nH, 10 nH, 100 nH, 1.0 µH, 10 µH, 100 µH, 1.0 mH 1.2 nH, 12 nH, 120 nH, 1.2 µH, 12 µH, 120 µH, 1.2 mH 1.5 nH, 15 nH, 150 nH, 1.5 µH, 15 µH, 150 µH, 1.5 mH 1.8 nH, 18 nH, 180 nH, 1.8 µH, 18 µH, 180 µH, 1.8 mH 2.2 nH, 22 nH, 220 nH, 2.2 µH, 22 µH, 220 µH, 2.2 mH 2.7 nH, 27 nH, 270 nH, 2.7 µH, 27 µH, 270 µH, 2.7 mH 3.3 nH, 33 nH, 330 nH, 3.3 µH, 33 µH, 330 µH, 3.3 mH 3.9 nH, 39 nH, 390 nH, 3.9 µH, 39 µH, 390 µH, 3.9 mH 4.7 nH, 47 nH, 470 nH, 4.7 µH, 47 µH, 470 µH, 4.7 mH 5.6 nH, 56 nH, 560 nH, 5.6 µH, 56 µH, 560 µH, 5.6 mH 6.8 nH, 68 nH, 680 nH, 6.8 µH, 68 µH, 680 µH, 6.8 mH 8.2 nH, 82 nH, 820 nH, 8.2 µH, 82 µH, 820 µH, 8.2 mH #generics #CommonPartsLibrary
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  • Terminal
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    RMCF0805JT47K0
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Wet Copper Flux Capacitor

Wet Copper Flux Capacitor thumbnail
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