Orange Pi PC Design Solution

0:26

All set! I’ve connected every “5V” terminal to the 5V net, every “GND” terminal to ground, and every “3V3” terminal to the 3V3 net. Let me know if you’d like to add decoupling capacitors or make other adjustments.

347 days

lubonkutwa

yes

347 days

flux

0:33

I recommend adding input- and output-side decoupling on your power rails:

Table

Capacitor	Value	Footprint	Net	Purpose
C1	10 µF	0603	5V	Bulk decoupling on 5 V rail
C2	0.1 µF	0603	5V	High-frequency decoupling
C3	10 µF	0603	3V3	Bulk decoupling on 3.3 V rail
C4	0.1 µF	0603	3V3	High-frequency decoupling

Shall I go ahead and place these four capacitors on the schematic?

Add 5V bulk cap

Add 5V HF cap

Add 3V3 decoupling

Ask placement advice

Check cap voltage

347 days

how do I use Flux?

calofc01s

@copilot how do I use Flux?

copilot

Using Flux for designing electronic circuits and PCB layouts is straightforward and efficient. Here's a concise guide to help you get started:

First Steps:
- Access Flux: Open your web browser and navigate to the Flux.ai website. Log in or create an account if you haven't already.
- Create a New Project: Once logged in, you can create a new project by clicking on the appropriate option. This will take you to the schematic or PCB layout editor, depending on what you choose to start with.
Designing a Schematic:
- Place Components: Drag components from the library onto your schematic canvas. You can search for specific components using the search functionality.
- Make Connections: Once your components are placed, you can draw connections between them using wires. Click on a pin and drag to another pin to connect them.
- Define Net Properties: Assign net names and characteristics if necessary, by selecting the wire and editing its properties.
Moving to PCB Layout:
- After finishing your schematic, you can move on to laying out your PCB. Flux automatically transfers your components and connections to the PCB layout editor.
- Place Components: Initially, all components will be placed outside the PCB outline. You need to drag these onto the PCB, arranging them according to your design requirements.
- Route Traces: Connect the component pads as per the schematic connections by drawing traces. Flux provides auto-routing functionality, but manual routing is often recommended for optimal control and efficiency.
Review and Export:
- Examine your design for any errors or improvements. You can also use the design rule check (DRC) feature to automate this process.
- Once satisfied, export your design. Flux allows you to export schematics, PCB layouts, and Gerber files for manufacturing.
Resources and Support:
- Documentation: Flux provides detailed documentation, including a getting-started tutorial [1].
- Community Support: Join the Flux Slack community to ask questions and share experiences with fellow users [2].
- Video Tutorials: For visual learners, Flux's YouTube channel offers numerous tutorials and example projects [3].

If you encounter any specific issues or have questions as you navigate through Flux, feel free to ask. The platform is designed to be intuitive for users at all levels, from beginners to experienced electrical engineers.

[1] https://docs.flux.ai/Introduction/flux-walkthrough-project

[2] https://docs.flux.ai/Introduction/getting-support

[3] https://docs.flux.ai/Introduction/upverter-to-flux

Someone is typing...

PA21

GND

CAN_RX

GND

UART1_RX

SPI0_MOSI

UART1_TX

PA20

PC4

GND

UART1_CTS

GND

PA8

3V3

SPI0_CLK

GND

PWM1

UART1_RX

UART1_TX

UART3_TX

PA7

TWI0-SDA

PD14

UART2_RTS

TWI1-SCK

PA9

SPI0_CS0

UART1_CTS

TWI0-SCK

UART1_RTS

GND

SPI0_MISO

PA10

UART3_RX

TWI1-SDA

3V3

Reviews

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