Auto-Layout Placement Review
1:39
Thought for 3 sec
1/3 Regenerate schematic documentation using alternate export formats
Thought for 2 sec
Exporting project.
Exporting project.
Read schematic.
Thought for 6 sec
2/3 Create readable schematic/netlist fallback if export is blank
Thought for 11 sec
Exporting project.
Thought for 6 sec
3/3 tasks completed.
Thought for a moment
You’re right — that PDF export appears unusable for schematic review.
I generated alternate documentation instead:
Gerbers do not include schematic sheets; the netlist/connectivity files are the right companion documents for fabrication and debugging.
export .kicad_pcb and .kicad_sch files
0:18
Thought for 11 sec
Thought for a moment
I’ll check whether a native KiCad project export is available for this design and provide the closest usable export if not.
0:25
Thought for 11 sec
Thought for a moment
I can’t generate native
.kicad_pcb or .kicad_sch files from this project right now — Flux does not currently expose a KiCad project-file export for this design.Closest usable files already generated are:
- Gerbers for fabrication
- Pick-and-place CSV for assembly
- BOM CSV
- IPC-D-356 netlist
- SVG/PDF-style documentation fallback
I also flagged the missing KiCad export capability internally.
Export manufacturing files
Export netlist
KiCad recreation steps
Export documentation
Create BOM spreadsheet
Refine this doc
Ask about this doc
Project Specification
Project Overview
- Project Name: ArcBridge
- Product: ArcBridge by Bridgeway Audio
- Purpose: Digital-to-digital audio converter that accepts S/PDIF from TOSLINK or coaxial RCA and embeds the selected audio into HDMI with dummy 640x480 black video, ARC return audio on HDMI pin 14, and CEC participation.
- Primary Use Case: Replace a commercial HDMI audio embedder + HDMI dongle in an RV AV chain feeding a FeinTech VAX04101A HDMI matrix for eARC distribution.
- Firmware Repo: https://github.com/jacobwtyler/pico-ddc (subdirectory: pcb-v2)
Architecture Summary
- MCU/Core: Raspberry Pi Pico 2 castellated module used as the main controller and TMDS generator.
- Audio Inputs:
- TOSLINK optical receiver
- Coaxial RCA S/PDIF input with AC coupling and mid-supply bias
- HDMI Output: Type-A receptacle with four AC-coupled TMDS differential pairs, HPD pull-up, VBUS sourcing, CEC direct connection, and AC-coupled ARC S/PDIF.
- User I/O: Two status LEDs, SPDT input-select switch, optional 2-pin RF/button header.
- Power: Entire board powered from the Pico 2 USB-C connector; no separate onboard supply.
Functional Blocks
- Pico 2 Core / TMDS Source
- HDMI Output Interface
- TOSLINK Receiver Input
- Coaxial S/PDIF Input Bias Network
- User Controls and Indicators
- Mounting / Mechanical Features
Key Schematic Requirements
- Route Pico GP12-GP19 as HSTX TMDS source pairs through AC coupling capacitors to HDMI pins 1/3/4/6/7/9/10/12.
- Drive HDMI pin 14 from Pico GP11 through a 100 nF AC-coupling capacitor for ARC S/PDIF.
- Hold HDMI HPD high from VBUS with a 10 kOhm pull-up.
- Connect HDMI pin 18 directly to VBUS from the Pico module.
- Leave HDMI DDC pins 15/16 unconnected.
- TOSLINK receiver operates from 3.3 V with a local 100 nF decoupling capacitor.
- Coax input uses 100 nF AC coupling into a 2 kOhm / 2 kOhm divider to 3.3 V and GND, centered at 1.65 V into Pico GP1.
- Switch common goes to GND; throws go to Pico GP4 and GP5.
- LEDs are active-high from Pico GPIOs through 330 Ohm resistors into LED anodes with cathodes to GND.
- Add 10 uF bulk decoupling on 3.3 V near Pico and 1 uF bulk decoupling on VBUS near HDMI.
PCB / Manufacturing Requirements
- Board: JLCPCB 4-layer, 1.6 mm, ENIG.
- Stackup Goal: Top signal / inner GND plane / inner 3.3 V plane / bottom signal.
- High-Speed Constraint: TMDS pairs on top layer only with ~100 Ohm differential geometry per user requirement.
- Assembly Split: JLCPCB assembles SMD parts; user hand-solders Pico module and through-hole parts.
- Mechanical: Four M3 mounting holes, 1.5 mm corner radius, top-edge access for USB-C/TOSLINK/RCA/switch, bottom-edge HDMI connector.
Validation Goals
- Schematic must match device datasheets and user pin map.
- Every power pin must have proper supply and decoupling.
- ERC should be clean or any residual warnings must be explicitly justified.
- Pause for user confirmation before moving from schematic into layout.
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