LED Audio Project Files

pin8 goes to +5v and pin 4 goes to ground and theres a 100nf feedback capacitor between those
Got it — I’ll correct the LM358 supply wiring to pin 8 = +5V and pin 4 = GND, and add/use a 100nF capacitor across those rails at U2 for decoupling, then re-run ERC.
I applied your correction: LM358 U2 pin 8 was moved to +5V, pin 4 to GND, and C3 100nF was reassigned as the capacitor between those rails.
I’m blocked now because the account has no available ACUs, so I can’t run the follow-up ERC/connection verification or continue into PCB layout.
Open items:
  • Re-run schematic/ERC checks to confirm the LM358 power-net edit is clean.
  • Verify C3 is correctly across +5V and GND and did not disturb the AUDIO_REF network.
  • Then proceed with board placement and routing.
Once ACUs are available, the next step is to verify the schematic, fix any net issues if found, then make the PCB.
Check then place
Verify C3 nets
Check LM358 power
Suggest placement

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KiCad Migration Report
Source files
  • LED-Audio-Project.kicad_sch
  • LED-Audio-Project.kicad_pcb
  • LED-Audio-Project.kicad_pro
Imported schematic components
Imported 10 schematic components using Flux library equivalents:

Table


KiCad refKiCad symbol/valueFlux part usedNotes
J1Conn_01x15_SocketPin Socket 01x15 2.54mm VerticalEquivalent 15-position 2.54 mm socket
J2Conn_01x15_SocketPin Socket 01x15 2.54mm VerticalEquivalent 15-position 2.54 mm socket
J3AudioJack3FC681313-pole TRS audio jack equivalent
J4Barrel_JackPJ-037A2-pin through-hole DC barrel jack equivalent
J5Screw_Terminal_01x02KF128-5.08-2P-AA2-position 5.08 mm terminal block
J6Screw_Terminal_01x02KF128-5.08-2P-AA2-position 5.08 mm terminal block
J7Screw_Terminal_01x02KF128-5.08-2P-AA2-position 5.08 mm terminal block
J8Screw_Terminal_01x02KF128-5.08-2P-AA2-position 5.08 mm terminal block
U1SN74HCT125NSN74HCT125NExact PDIP-14 match
U2LM358LM358_2247708DIP-8 LM358 match
Migration limitations found
  • The uploaded .kicad_pcb file contains only layer/setup metadata. It does not include a board outline, footprints, tracks, vias, or PCB nets to import.
  • Flux does not directly import KiCad schematic/PCB design files as native schematic/layout. I reconstructed the component set from the schematic text using Flux library equivalents.
  • The file extraction did not expose a usable complete netlist/wire connectivity table, so no schematic nets were recreated yet.
Verification results
  • Schematic now contains 10 components and 0 nets.
  • BOM shows 6 unique part groups and 10 total instances.
  • Layout has auto-generated/default placements for all 10 components on a 160 mm × 100 mm, 4-layer board.
  • ERC reports floating-pin warnings on the imported components because connectivity was not recoverable from the extracted schematic data.
  1. Provide/export a KiCad netlist or a schematic screenshot/PDF showing the wiring, or allow manual reconstruction from the design intent.
  2. Recreate the nets in Flux once connectivity is available.
  3. Define the intended board outline/dimensions, then place connectors and ICs intentionally.
  4. Route the PCB and run ERC/DRC after connectivity is reconstructed.
  • Source files

  • Imported schematic components

  • Migration limitations found

  • Verification results

  • Recommended next steps

Documents

  • KiCad Migration Report

  • Schematic Confirmation — ESP32 Socket Audio/WLED Board

Assets

Assets are files uploaded to this project which can be used in various ways.

LED Audio Project thumbnail
KiCad LED Audio Project migration with reconstructed schematic component set and pending net/layout reconstruction.

Properties

Properties describe core aspects of the project.

Pricing & Availability

Distributor

Qty 1

Arrow

$0.56–$0.71

Digi-Key

$2.40

HQonline

$0.90–$0.95

LCSC

$2.52–$2.68

Mouser

$1.65

TME

$0.00

Verical

$0.66–$1.12

Controls