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misaelbautista

@copilot

copilot

Hello! It looks like you have a fascinating project setup here with various components ready to be incorporated into a circuit design in Flux. Since no electrical connections have been made yet in your project, Satisfactory Indigo TARDIS, I'd be happy to help you get started or provide guidance on any specific aspects you have in mind.

Given the components listed, there are countless possibilities for creating interesting circuits. For example, you might be aiming to build a temperature sensor circuit using the TMP36GT9Z (U1) with an indication system using LED1 or designing a power supply circuit with rectification and regulation stages using the diodes D1, D2 and the voltage source V1.

Do you have any specific goals or functions in mind for this project? Or would you like recommendations on how to connect these components for a particular application?

misaelbautista

realizame la conexion en base a esto: Invernadero didáctico (control de lampara y ventilador por sensor de temperatura)

copilot

Para un proyecto de invernadero didáctico que controle una lámpara y un ventilador basado en la lectura de un sensor de temperatura, podemos utilizar el sensor de temperatura TMP36GT9Z (U1) para monitorear la temperatura. Aunque tu lista de componentes no incluye específicamente un ventilador ni una lámpara, asumiré que la lámpara puede representarse por el LED (LED1) y el ventilador por el motor (M1), aunque en la práctica se requerirían relevadores o transistores de potencia para controlar cargas más grandes como un ventilador real. También usaremos el transistor 2N2222 (Q1) como un interruptor controlado por la temperatura para la lámpara y Q2 (cuyas especificaciones exactas no se proporcionaron) para el ventilador, haciendo algunas suposiciones sobre cómo podrías querer que esto funcione en términos de lógica de control.

Esquema básico de conexiones:

Sensor de temperatura (TMP36GT9Z U1):
- Conecta U1:1 (+VS) a V1:1 (ANODE).
- Conecta U1:3 (GND) a V1:2 (CATHODE).
- Conecta U1:2 (VOUT) al pin base (B) de Q1 (2N2222) a través de R1 para limitar la corriente. Esto significa que cuando la temperatura suba, aumentará el voltaje en VOUT, lo que a su vez hará que Q1 conduzca.
Control de la lámpara (LED1) con Q1 (2N2222):
- Conecta Q1:E (emisor) a V1:2 (CATHODE).
- Conecta Q1:C (colector) a LED1:K (pin 1).
- Conecta LED1:A (pin 2) a V1:1 (ANODE) a través de un resistor limitador de corriente (supongamos un valor típico de 330 ohmios para este, aunque no se haya especificado como parte de los componentes).
Control del ventilador (M1) con Q2:
- Conecta Q2:E (emisor) a V1:2 (CATHODE).
- Siendo Q2 un transistor genérico y necesitando asumir valores, usaremos un 2N2222 para este ejemplo también, aunque para un ventilador real puede requerirse un MOSFET o un transistor con mayor capacidad de corriente.
- Si la temperatura detectada supera otro umbral, la salida del sensor, quizás a través de otro camino de resistencia (digamos R2, no especificado en la lista pero necesario para este diseño), se conecta a Q2:B (base).
- Conecta el "motor" M1 en serie con Q2:C (colector) y luego conecta el otro extremo de M1 a V1:1 (ANODE).

Estas sugerencias proporcionan un inicio básico para tu proyecto. La activación del transistor Q1 y Q2 depende directamente de los valores de voltaje proporcionados por el sensor de temperatura U1, que variarán con la temperatura. Es importante notar que el diseño detallado de este sistema, especialmente las especificaciones del ventilador (M1), la corriente necesaria para el ventilador y el LED, y las resistencias específicas utilizadas (como R1), dependerán de las especificaciones de los componentes reales que se utilicen.

Nota: Esta es una simplificación y, en una aplicación real, se podrían necesitar componentes adicionales, como reguladores de voltaje, circuitos de protección, y una lógica de control más compleja posiblemente utilizando un microcontrolador para un control más preciso y opciones de configuración expandibles.

LED1

U1 GND - V1 CATHODE

Resistance

500 Ω

U1 +VS - V1 ANODE

U1 GND - V1 CATHODE

U1 +VS - V1 ANODE

U1 GND - V1 CATHODE

Reviews

Generic Inductor
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
jharwinbarrozo
16.1k
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
jharwinbarrozo
1.5M
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
jharwinbarrozo
1.5M
Ground
A common return path for electric current. Commonly known as ground.
jharwinbarrozo
20.5M
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An electrical connector acting as reusable interface to a conductor and creating a point where external circuits can be connected.
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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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43.0M
RMCF0805JT47K0
General Purpose Thick Film Standard Power and High-Power Chip Resistor 47 kOhms ±5% 0.125W, 1/8W Chip Resistor 0805 (2012 Metric) Automotive AEC-Q200 Thick Film Features: - RMCF – standard power ratings - RMCP – high power ratings - Nickel barrier terminations standard - Power derating from 100% at 70ºC to zero at +155ºC - RoHS compliant, REACH compliant, and halogen free - AEC-Q200 compliant
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1.2M
875105359001
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jharwinbarrozo
1.2M
CTL1206FYW1T
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jharwinbarrozo
1.1M
1070TR
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700.5k

Project Name

Satisfactory Indigo TARDIS

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
Digi-Key	$2.80
LCSC	$4.03
Mouser	$2.20

Controls

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misaelbautista / Satisfactory Indigo TARDIS

Schematic