1. Accessing Flux: First, ensure you have a stable internet connection and access Flux through your web browser.
2. Starting a Project:
   • Create a new project by selecting the option from the Flux interface. This will open a blank workspace where you can begin your schematic drawing.
   • For a detailed walkthrough of creating your first project in Flux, accessing tutorials, and using the reference materials, see the provided resources$7d1dc5ac-589b-501a-937a-ab108f100902$.
3. Drawing a Schematic:
   • Drag components from the library to your schematic canvas.
   • Connect components using wires to define the electrical connections between parts.
   • Use labels to identify different parts of your circuit and make the schematic easier to understand.
4. Designing a PCB:
   • Once your schematic is complete, you can transition to the PCB layout phase.
   • Place your components on the PCB, and use the routing tools to connect the pins according to the schematic connections.
   • Pay attention to the layout guidelines for the optimal placement of components and to minimize electrical noise.
5. Validation and Export:
   • Use the built-in design rule checker (DRC) to verify your design for any errors or issues.
   • Once validated, you can export your design for manufacturing, including generating Gerber files and the bill of materials (BOM).
6. Learning Resources:
   • Flux offers a variety of tutorials and documentation to help you get started and master its features. Explore the in-depth tutorials, YouTube videos with example projects, and join the Slack community for direct support and to connect with other users$5a0c451e-a3e6-5760-abef-c220882439d3$.

1. Conectar los Servomotores al Arduino Uno
   • Los servomotores SG90 tienen tres cables: alimentación (rojo), tierra (marrón o negro) y señal (naranja o amarillo). Conectaremos cada servo al Arduino de la siguiente manera:
     • Conectar Servo1:Alimentación a Arduino:5V.
     • Conectar Servo1:Tierra a Arduino:GND.
     • Conectar Servo1:Señal a Arduino:PWM(Pin 9).
     • Repetir para los demás servomotores, conectando los pines de señal a otros pines PWM disponibles en el Arduino (por ejemplo, 6, 5, y 3).
2. Alimentación
   • El Arduino Uno puede alimentar directamente los servomotores SG90 si solo realizan tareas ligeras. Sin embargo, si planeas cargar a los servos o usarlos durante períodos prolongados, considera usar una fuente de alimentación externa de 5V para evitar sobrecargar el Arduino.
     • Si usas una fuente externa, asegúrate de conectar la tierra (GND) de la fuente externa al GND del Arduino para tener un sistema de referencia común.
3. Programación
   • Utilizarás la biblioteca Servo de Arduino para controlar los servomotores. Primero, incluye la biblioteca con #include al principio de tu programa.
   • Declara un objeto Servo para cada servo. Por ejemplo, Servo servo1;
   • Inicializa los servos en el setup() con servo1.attach(9); para designar los pines de señal que controlarán.
   • Usa servo1.write(angle); en el bucle principal para mover cada servo a la posición deseada, donde angle es el ángulo en grados.

Cpp
#include 

Servo servo1;
Servo servo2;
Servo servo3;
Servo servo4;

void setup() {
  servo1.attach(9);  // Pin PWM al que está conectado el primer servo
  servo2.attach(6);  // Sigue este patrón para los demás servos
  servo3.attach(5);
  servo4.attach(3);
}

void loop() {
  servo1.write(90);  // Cambia 90 por el ángulo deseado
  delay(1000);       // Espera un segundo
  servo2.write(90);
  delay(1000);
  // Repite para los otros dos servomotores
}

• Servo 1: Señal -> Pin 9
• Servo 2: Señal -> Pin 6
• Servo 3: Señal -> Pin 5
• Servo 4: Señal -> Pin 3

Cpp
#include 

Servo servo1;
Servo servo2;
Servo servo3;
Servo servo4;

void setup() {
  servo1.attach(9); // Conecta el primer servo al pin 9
  servo2.attach(6); // Conecta el segundo servo al pin 6
  servo3.attach(5); // Conecta el tercer servo al pin 5
  servo4.attach(3); // Conecta el cuarto servo al pin 3
}

void loop() {
  // Mueve los servomotores a la posición 0 grados
  servo1.write(0);
  servo2.write(0);
  servo3.write(0);
  servo4.write(0);
  delay(1000); // Espera un segundo

  // Mueve los servomotores a la posición 180 grados
  servo1.write(180);
  servo2.write(180);
  servo3.write(180);
  servo4.write(180);
  delay(1000); // Espera un segundo
}

1. First Project in Flux: The best way to begin is by creating your first project. This involves designing a schematic, which is the diagrammatic representation of your circuit. You'll then translate this into a physical PCB layout, defining the position of components and routing connections between them.
2. Tutorials and Documentation: Flux offers in-depth tutorials that cover every aspect of the tool, from basic operations to advanced techniques. You can find these under the Help and Tutorials section. These resources are designed to guide you through all the functionalities within Flux.
3. Video Resources: If you prefer learning through videos, Flux has a selection on its YouTube channel. These range from example projects to crash courses on using Flux effectively [1].
4. Live Support and Community: For any specific questions or if you encounter any challenges, you can reach out for live support or join the Flux Slack community. Here, you can interact directly with the Flux team as well as other engineers, designers, and hobbyists who use Flux. This community is an excellent resource for getting help and sharing knowledge [2].