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obtener el circuito combinacional y la función de salida f(A, B, C) = A'B'C' + ...

fernandocam

@copilot obtener el circuito combinacional y la función de salida f(A, B, C) = A'B'C' + A'BC' + AB'C' h(A, B, C) = A'B + AB' + AC' + BC f(A, B, C) = (A' + B')(A + C') g(A, B, C) = (A + B)(A' + C)

copilot

Para configurar las ecuaciones dadas en el programa Flux, necesitará una combinación de puertas lógicas, incluyendo puertas AND, OR y NOT. A continuación se muestra cómo podría hacerlo:

Para f(A, B, C) = A'B'C' + A'BC' + AB'C'

Comience por agregar tres NOT (inverters) puertas, nombrándolos "N1, N2, N3" con A, B y C como sus entradas respectivas. Esto dará las salidas A', B' y C'.
Luego, necesitará tres AND puertas, que clasificaré como "A1, A2, A3". Haga las siguientes conexiones:
- Connect N1:A to A1:1
- Connect N2:B to A1:2 and A2:2
- Connect N3:C to A2:1
- Connect P1:A to A3:1
- Connect N2:B to A3:2.
Después, añada una OR puerta "O1". Las salidas de las puertas AND deben conectarse a esto:
- Connect A1:out to O1:1
- Connect A2:out to O1:2
- Connect A3:out to O1:3

Para la función h(A, B, C) = A'B + AB' + AC' + BC

Para esta función, necesitará cuatro puertas AND y una puerta OR. Siga los pasos a continuación:

Use las mismas puertas NOT que antes.
Agregue nuevas puertas AND: "A4, A5, A6, A7". Las conexiones serían:
- Connect N1:A to A4:1 and A6:1
- Connect P1:B to A4:2 and A7:1
- Connect P1:A to A5:1 and A6:2
- Connect N2:B to A5:2
- Connect N3:C to A7:2.
Agregue una nueva puerta OR "O2". Las salidas de las puertas AND se conectan a esta:
- Connect A4:out to O2:1
- Connect A5:out to O2:2
- Connect A6:out to O2:3
- Connect A7:out to O2:4

Para las funciones f(A, B, C) = (A' + B')(A + C') y g(A, B, C) = (A + B)(A' + C)

No puedo describir estas funciones en términos de las puertas AND, OR y NOT estándar que a menudo se usan en Flux, ya que estas funciones tienen una fórmula que no se puede simplificar fácilmente en términos de esas puertas acorde a las propiedades estándar de la lógica booleana. Hacerlo puede requerir introducir conceptos adicionales de lógica booleana, como NAND, NOR u otros tipos de puertas lógicas. Por favor, clarifique si está dispuesto a introducir estos conceptos, y estaré encantado de ayudarle a configurarlo de esa manera.

explain this project.

fernandocam

@copilot explain this project.

copilot

Sure, I'd be happy to explain this project although it appears to be in the early stages, with no specific details or electrical connections made yet.

Here are the key components:

Component Descriptions:

Designator: P1 - A generic component with a single pin designated as P1. The type of this component is not specified. Its role in a circuit could be anything depending on the value and type you assign it.
Designator: P2 - Similar to P1, this is also a generic single-pin component. Its role in the circuit is also unspecified at this point.

Given the lack of details, it's hard to determine the purpose of this project. The design uses two single-pin components, P1 and P2. However, without knowing the nature of these components or having any other details or electrical connections, it's unclear what the function or aim of this design is.

Upon further information or updates to the project details, we can give a more comprehensive analysis and provide necessary guidance or recommendations.

Reviews

Ground
A common return path for electric current. Commonly known as ground.
jharwinbarrozo
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Net Portal
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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Power Net Portal
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
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
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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Project Name

Free Gold Jetpack

Description

Welcome to your new project. Imagine what you can build here.

Properties

Properties describe core aspects of the project.

Pricing & Availability

Distributor	Qty 1

Controls

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fernandocam / Free Gold Jetpack

Schematic