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Welcome to Flux

Treat Flux like your intern. Tell it what you'd like to build and it'll get to work. You can also ask it questions, brainstorm ideas, and teach it your preferences. Learn More

Explain project
Write a project description
Find schematic issues
Create a test plan
Simulate a circuit
Prepare for Manufacturing
Component Selection Workflow
New Subsystem Wizard
Write I2C initialization code
Generate firmware skeleton
USB1
U1
how do I use Flux?
mrbrown188

mrbrown188

@copilot how do I use Flux?
1y

copilot

Using Flux is a straightforward process that can be broken down into several key steps:
  1. Create a Flux Account: Sign up for a Flux account to get started[1].
  2. Migrate Projects: If you have existing projects in other tools like EasyEDA or KiCad, you can migrate them to Flux by following dedicated migration tutorials[2][3].
  3. Design Schematics and PCBs: Use the schematic editor to create circuit designs by dragging components from the library onto the canvas and connecting them as needed.
  4. Simulation: You can simulate your designs to validate their functionality. There's a specific tutorial to help you learn how simulation models run inside Flux[4].
  5. Documentation & Tutorials: For a comprehensive overview of Flux’s features and how to integrate them into your workflow, consult the full documentation[5].
Flux offers various features to help bring your electronic ideas to life, all within a browser-based platform. Do you have a specific project in mind that you’re planning to start with Flux?
[1] https://www.flux.ai/p/blog/raspberry-pi-pinouts-a-comprehensive-guide
[2] https://www.flux.ai/p/blog/easyeda-vs-flux
[3] https://www.flux.ai/p/blog/flux-vs-kicad-5-key-differences
[4] https://docs.flux.ai/reference/how-the-simulator-works
[5] https://www.flux.ai/p/blog/flux-for-librarians
1y
1
D2
ESP_RX
GPIO36
ESP_RX
CC1
ESP_TX
GPIO18
USBDP
USBDN
GPIO15
GPIO14
ESP_TX
GPIO21
USBDP
GPIO34
GPIO34
GPIO25
CC2
GPIO27
ESP_IO0
GPIO25
USBDN
ESP_IO0
GPIO22
GPIO16
GPIO5
ESP_IO0
CC1
USBDP
GPIO13
GPIO17
GPIO12
GPIO35
GPIO16
GPIO18
GPIO33
GPIO12
USBDN
ESP_RX
GPIO33
GPIO19
GPIO4
GPIO36
GPIO32
GPIO15
USBDN
ESP_EN
USBDP
GPIO2
GPIO26
GPIO13
GPIO22
CC2
GPIO2
GPIO4
GPIO39
GPIO26
GPIO19
GPIO39
USBDN
GPIO32
ESP_EN
GPIO14
GPIO21
ESP_TX
ESP_EN
GPIO23
GPIO23
ESP_IO0
GPIO5
GPIO27
ESP_EN
GPIO17
USBDP
GPIO35
D1
C4
Capacitance
10uF
+3V3
C3
Capacitance
10uF
VBUS
R1
Resistance
Resistance
Resistance
10kΩ
C11
Capacitance
0.1uF
+3V3
J1
C8
Capacitance
10uF
+5V
R2
Resistance
Resistance
Resistance
5.1kΩ
+3V3
C6
Capacitance
0.1uF
C7
Capacitance
0.1uF
R4
Resistance
1kΩ
J2
R3
Resistance
Resistance
Resistance
5.1kΩ
+5V
C10
Capacitance
0.1uF
+3V3
C2
Capacitance
0.1uF
C1
Capacitance
0.1uF
VBUS
+5V
+3V3
+3V3
+3V3
+3V3
PWR
C9
Capacitance
10uF
RST
Q1
U2
C5
Capacitance
10uF
BOOT
Q2
IC1

To get started, talk to Flux or create a New Document.

Documents

    Documents are markdown text files which describe project goals, capture details, or even simulation outputs.

    Assets

    ESP32-WROOM-32E Reference Design-removebg-preview.png

    ESP32-WROOM-32E Reference Design-removebg-preview.png

    ESP32-WROOM-32E Reference Design-removebg-previewThumbnail

    ESP32-WROOM-32E Reference Design

    ESP32-WROOM-32E Reference Design thumbnail
    This project is a reference design for an ESP32-WROOM-32E based device. It features USB-C for power and data transfer, onboard voltage regulation, and multiple peripheral connections. It also includes a CH340C for USB to serial conversion #referenceDesign #project #ESP32 #ESP32WROOM #RF #WIFI #MCU #simpleEmbedded #espressif #template

    Properties

    creativecommons.org/licenses/by/4.0/

    Pricing & Availability

    Distributor

    Qty 1

    Arrow

    $0.09–$0.53

    Digi-Key

    $1.05–$10.12

    LCSC

    $5.44–$6.11

    Mouser

    $1.28

    Verical

    $0.06–$0.33

    Controls