Mockup Circuit Diagram Creation

brooks

brooks

I need to check something with our mermaid diagram renderer. Make me a mock up diagram of a circuit. Could be anything. Don't think to hard about it
86 days

flux

1:08

Clarifying Mermaid guidelines.

Understanding Mermaid constraints.

Navigating Mermaid linking rules.

Focusing on Mermaid guidelines.

```mermaid flowchart TD VIN["Power In 5V"] FUSE["Fuse"] TVS["TVS Diode"] BUCK["Buck Converter 3V3"] LDO["LDO 1V2"] MCU["Microcontroller"] XO["Crystal 12MHz"] USB["USB Connector"] LED["Status LED"] BTN["Button"] SENSOR["I2C Sensor"] HDR["Expansion Header"] GND["Ground"] VIN --> FUSE FUSE --> TVS TVS --> BUCK BUCK --> MCU BUCK --> SENSOR BUCK --> LED BUCK --> LDO LDO --> MCU USB --> MCU XO --> MCU BTN --> MCU MCU --> LED MCU --> HDR MCU -->|I2C| SENSOR VIN --> USB GND --- MCU GND --- SENSOR GND --- USB GND --- LED ```.

Diagram



  
    
  
  
    
  





















I2C













"Power In node_5V"
"Fuse"
"TVS Diode"
"Buck Converter node_3V3"
"LDO node_1V2"
"Microcontroller"
"Crystal node_12MHz"
"USB Connector"
"Status LED"
"Button"
"I2C Sensor"
"Expansion Header"
"Ground"
Tweak labels/pins
Add signal integrity detail
Make it a real schematic-like view
Check renderer edge cases
Generate alternate topology
86 days
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Project Specification
Version: 0.1.0 Date: ... Author: ... Status: ... Tags: ...
1. Executive Summary
What board we're building and the intended outcome in one paragraph. ...
2. Goals and Non-Goals
What must be true in this rev, and what is explicitly out of scope. ...
2.1 Goals
...
2.2 Non-Goals
...
3. System Overview
High-level description of the system and how the board fits into it. ...
3.1 Block Diagram
A space for a simple block diagram (power + data paths). ...
4. Requirements
What the design must do (behaviorally and electrically), independent of implementation details. ...
4.1 Functional Requirements
...
4.2 Electrical Requirements
Power input, rails, currents, interfaces, sensing accuracy, etc. ...
4.3 Environmental and Reliability Requirements
Operating ranges, expected lifetime, handling constraints, safety/compliance. ...
5. Constraints
Hard limits that shape the design choices. ...
5.1 Mechanical Constraints
Size, mounting, connector access, enclosure interactions. ...
5.2 Power and Thermal Constraints
Power source limits, dissipation ceilings, heat-sensitive components. ...
5.3 Layout / Implementation Constraints
High-level layout rules (keepouts, grounding intent, routing classes), without detailed PCB guidance. ...
5.4 Cost and Sourcing Constraints
Target cost range, availability requirements, preferred vendors/alternates policy. ...
6. Assumptions and Dependencies
What we assume is true, and what the design depends on (parts, standards, external systems). ...
7. Validation Criteria
What “done” means in terms of checks and evidence (not task lists). ...
7.1 Acceptance Tests
...
7.2 Review Checklist
...
Appendix (Optional)
Any supporting urls, analysis, datasets, or taxonomy notes that informed this spec. ...

    1. Executive Summary

    2. Goals and Non-Goals

    2.1 Goals

    2.2 Non-Goals

    3. System Overview

    3.1 Block Diagram

    4. Requirements

    4.1 Functional Requirements

    4.2 Electrical Requirements

    4.3 Environmental and Reliability Requirements

    5. Constraints

    5.1 Mechanical Constraints

    5.2 Power and Thermal Constraints

    5.3 Layout / Implementation Constraints

    5.4 Cost and Sourcing Constraints

    6. Assumptions and Dependencies

    7. Validation Criteria

    7.1 Acceptance Tests

    7.2 Review Checklist

    Appendix (Optional)

Documents

    Project Specification

Assets

PCB template.png

PCB template.png

PCB template
USB-C to 4 USB-A Hub V1-removebg-preview.png

USB-C to 4 USB-A Hub V1-removebg-preview.png

USB-C to 4 USB-A Hub V1-removebg-previewThumbnail
USB-C to 4 USB-A Hub V1 thumbnail
Introducing my USB-C to 4 USB-A Hub V1, a compact and efficient solution for expanding your device's connectivity. Easily connect multiple USB-A peripherals to a single USB-C port. The USB-C and USB-A high speed differential pairs were done with the help of Flux Automated Impedance Control. #USBCHub #Connectivity #project

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$8.99–$9.81

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$6.64

TME

$0.16

Verical

$6.61–$14.24

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