BOM (Bill of Materials) management for electronics projects — the primary orchestrator skill that coordinates DigiKey, Mouser, LCSC, element14, JLCPCB, PCBWay, and KiCad skills into a unified workflow. Create, update, and maintain BOMs with part numbers, costs, quantities stored as KiCad symbol properties. ALWAYS trigger this skill for any task involving component sourcing, pricing, ordering, distributor searches, BOM export, or fabrication preparation — even if the user names a specific distributor or fab house (e.g. "search DigiKey for...", "generate JLCPCB BOM", "order from Mouser"). This skill decides which distributor/fab skills to invoke and in what order. Also trigger on phrases like "what parts do I need", "order components", "how much will this cost", "export for JLCPCB", "find parts for this board", "cost estimate", "compare pricing", or "check stock".
BOM data lives in KiCad schematic symbol properties as the single source of truth. This skill orchestrates the full lifecycle: analyze the schematic, search distributors, validate parts, write properties back, export tracking CSVs, and generate order files.
| Skill | Purpose |
|---|---|
kicad | Read/analyze schematics, PCB, footprints |
digikey | Search DigiKey, download datasheets (primary prototype source) |
mouser | Search Mouser (secondary prototype source) |
lcsc | Search LCSC (production/JLCPCB parts) |
element14 | Search Newark/Farnell/element14 (international) |
jlcpcb | PCB fabrication & assembly ordering |
pcbway | Alternative PCB fab & assembly |
Use <skill-path> to reference the BOM skill directory.
# Analyze schematic (JSON output, recursive sub-sheets)
python3 <skill-path>/scripts/bom_manager.py analyze path/to/schematic.kicad_sch --json --recursive
# Export BOM tracking CSV (creates new or merges with existing)
python3 <skill-path>/scripts/bom_manager.py export path/to/schematic.kicad_sch -o bom/bom.csv --recursive
# Generate per-distributor order files (5 boards + 2 spares/line)
python3 <skill-path>/scripts/bom_manager.py order bom/bom.csv --boards 5 --spares 2
# Quick single-distributor order (bypasses Chosen_Distributor column)
python3 <skill-path>/scripts/bom_manager.py order bom/bom.csv --distributor digikey
# Write properties to schematic (dry-run first, then apply)
echo '{"R1": {"MPN": "RC0805FR-0710KL", "Manufacturer": "Yageo"}}' \
| python3 <skill-path>/scripts/edit_properties.py path/to/schematic.kicad_sch --dry-run
# Sync datasheet URLs from index.json back into schematic Datasheet properties
python3 <skill-path>/scripts/sync_datasheet_urls.py path/to/schematic.kicad_sch --recursive --dry-run
Skip steps that don't apply. Common shortcuts:
--gaps-only, address each missing fieldsync_datasheet_urls.py to backfill empty Datasheet fields from index.jsonpython3 <skill-path>/scripts/bom_manager.py analyze path/to/schematic.kicad_sch --json --recursive
The output tells you the project's field naming convention, which distributors are populated, what's missing, and the preferred distributor. Also look for an existing BOM tracking CSV in the project directory or bom/ folder.
The script covers common patterns, but some projects use internal key systems or parametric fields. See references/part-number-conventions.md for the full catalog. Read the schematic if something seems off.
Do this immediately. Datasheets are essential context for validation and part selection. Run the preferred distributor's sync first; if some fail, try others — they share the same datasheets/ directory and skip already-downloaded parts.
python3 <digikey-skill-path>/scripts/sync_datasheets_digikey.py path/to/schematic.kicad_sch --recursive
python3 <lcsc-skill-path>/scripts/sync_datasheets_lcsc.py path/to/schematic.kicad_sch --recursive
python3 <element14-skill-path>/scripts/sync_datasheets_element14.py path/to/schematic.kicad_sch --recursive
DigiKey is best (direct PDF URLs). element14 is reliable (no bot protection). LCSC works for LCSC-only parts. Mouser is a last resort (often blocks downloads).
Tell the user where datasheets are (e.g., hardware/<project>/datasheets/). They'll reference them often.
Cross-revision projects: Use a single shared datasheets directory at the project level rather than per-revision. The same MPN's datasheet doesn't change between revisions.
Re-sync after writing new MPNs (Step 5) — the scripts are idempotent. Then backfill Datasheet URLs into the schematic:
python3 <skill-path>/scripts/sync_datasheet_urls.py path/to/schematic.kicad_sch --recursive
This reads datasheets/index.json and writes discovered datasheet URLs into empty schematic Datasheet properties. Opportunistic — only fills blanks. If a schematic already has a different URL, it warns about the mismatch without overwriting (use --overwrite to replace). Run with --dry-run first to preview.
Watch for comma-separated MPNs. Some symbols track multiple physical parts (e.g., battery holder + clip). Split on commas and search each MPN independently — searching the combined string matches the wrong product.
Search strategy based on what's available:
Use the project's preferred distributor first, then alternates. Prototype: DigiKey primary, Mouser secondary. Production: LCSC.
Don't assume existing PNs are correct — distributor PNs go stale (discontinued, renumbered). Verify existing PNs resolve against the API. If a PN returns 404, flag it for replacement.
For every match, verify:
If ambiguous, ask the user. A wrong part is worse than a missing part.
KiCad coexistence. The script detects KiCad's lock file and warns but proceeds. KiCad doesn't auto-detect external changes — it keeps its in-memory copy. If KiCad is open, tell the user: "Close and reopen the schematic (File → Open Recent) to see the changes. Don't save from KiCad first."
If unsaved KiCad work exists, ask them to save first (Ctrl+S), then run the script, then reopen.
echo '{"R1": {"MPN": "RC0805FR-0710KL", "Manufacturer": "Yageo", "DigiKey": "311-10.0KCRCT-ND"}}' \
| python3 <skill-path>/scripts/edit_properties.py path/to/schematic.kicad_sch
Backups: By default, no .bak file is created (git tracks changes). Pass --backup if the schematic is not in a git repo or has uncommitted changes the user wants to preserve.
Respect the project's convention. Write to "Digi-Key_PN" if that's what exists, not "DigiKey". Use canonical names only for new projects.
Always write Manufacturer alongside MPN — every API returns it, it's free data.
python3 <skill-path>/scripts/bom_manager.py export path/to/schematic.kicad_sch -o bom/bom.csv --recursive
CSV columns are dynamic — only distributors the project uses get columns. Base columns: Reference, Qty, Value, Footprint, MPN, Manufacturer. Each active distributor gets a PN column + stock column. Tail columns: Chosen_Distributor, Datasheet, Validated, DNP, Notes.
Merge behavior: Re-exporting preserves user-managed columns (stock, Chosen_Distributor, Validated, Notes) while updating schematic-derived columns.
For each part with a distributor PN, query current stock via the corresponding distributor skill. Update stock columns in the CSV. Stock data goes stale — note the date and re-check before ordering.
If the chosen distributor is out of stock, flag it and suggest the alternate.
Factors: stock availability, price at order qty, minimum order/multiples, lead time, shipping consolidation (fewer distributors = fewer shipments).
For prototypes, consolidate to 1-2 distributors (DigiKey + Mouser). For production, LCSC/JLCPCB is cheapest.
Re-run Step 2 (download + URL backfill) to pick up parts added in Steps 3-5. Fast — already-downloaded files are skipped.
Read downloaded datasheets and verify parts are functionally correct for the circuit. This catches wrong-part-number errors that Step 4 might miss.
What to check by type:
For large BOMs (50+ parts), focus on power components, critical signal paths, and anything the user flagged. Commodity passives usually don't need deep review.
Ask how many boards if not already known — this sets the --boards multiplier.
Pre-flight: verify no gaps, CSV is current, Chosen_Distributor is set (or use --distributor flag), stock is fresh.
# Using Chosen_Distributor column, 5 boards + 2 spares
python3 <skill-path>/scripts/bom_manager.py order bom/bom.csv -o bom/orders/ --boards 5 --spares 2
# Or quick single-distributor order
python3 <skill-path>/scripts/bom_manager.py order bom/bom.csv --distributor digikey
--boards multiplies all quantities. --spares adds a flat extra per line after multiplication. --distributor bypasses Chosen_Distributor — generates an order for all parts with that distributor's PN.
Comma-separated PNs (accessories) are auto-split into separate order lines. DNP parts excluded. The script produces one file per distributor in the correct upload format (see references/ordering-and-fabrication.md for format details).
Present the order summary and let the user review/edit before ordering.
Cost estimate: After generating order files, query pricing from distributor APIs at the order quantity and present a total per distributor. See references/ordering-and-fabrication.md for the cost summary template.
| Imperial | Metric | KiCad Footprint |
|---|---|---|
| 0201 | 0603 | R_0201_0603Metric |
| 0402 | 1005 | R_0402_1005Metric |
| 0603 | 1608 | R_0603_1608Metric |
| 0805 | 2012 | R_0805_2012Metric |
| 1206 | 3216 | R_1206_3216Metric |
Replace R_ with C_ or L_ as appropriate. Prefix with Resistor_SMD:, Capacitor_SMD:, etc.
When the schematic changes between revisions, compare the old and new BOM to identify added, removed, and changed parts. Highlight which new parts need sourcing.
Generates an HTML page showing component locations on the PCB — essential for hand-assembly.
pip install InteractiveHtmlBom
generate_interactive_bom board.kicad_pcb \
--dest-dir bom/ --name-format "%f_ibom_%r" \
--extra-fields "MPN,Manufacturer,DigiKey,Mouser,LCSC" \
--group-fields "Value,Footprint,MPN" \
--checkboxes "Sourced,Placed" --dnp-field "DNP" --no-browser
Read these when you need detailed lookup data:
references/kicad-fields.md — field definitions, aliases, S-expression format, part number patternsreferences/ordering-and-fabrication.md — distributor paste formats, gerber export, CPL, cost templatesreferences/part-number-conventions.md — detailed analysis of naming patterns across 56+ real projectsjlcpcb or pcbway skill)The BOM and distributor skills create files in the project tree. Know what they are so you can clean up or .gitignore them.
| File/Dir | Created By | Purpose | Keep in git? |
|---|---|---|---|
datasheets/ | DigiKey, LCSC, element14, Mouser sync scripts | Downloaded PDF datasheets | No — large binaries, re-downloadable |
datasheets/index.json | Datasheet sync scripts | Tracks download status per MPN | No — regenerated by sync |
bom/bom.csv | bom_manager.py export | BOM tracking spreadsheet | Yes — user-curated data |
bom/orders/*.csv | bom_manager.py order | Per-distributor order upload files | No — regenerated before each order |
*.YYYYMMDD_HHMMSS.bak | edit_properties.py --backup | Schematic backup before edits | No — use git instead |
The kicad skill also creates analyzer JSON and design review markdown reports with user-chosen filenames — see its "Generated Files" section for tracking and cleanup guidance.
| File | Location | Purpose |
|---|---|---|
digikey_token_cache.json | System temp dir | OAuth token cache (9-min TTL, mode 0600) |
index.tmp | datasheets/ | Atomic write staging — renamed to index.json, never persists |
# Remove downloaded datasheets (re-downloadable)
rm -rf datasheets/
# Remove order files (regenerate before ordering)
rm -rf bom/orders/
# Remove schematic backups
rm -f *.bak
# Remove KiCad analyzer/report files (filenames vary — check project CLAUDE.md)
# BOM skill working files
datasheets/
bom/orders/
*.bak
Keep bom/bom.csv tracked — it contains user-curated data (Chosen_Distributor, Validated, Notes) that can't be regenerated from the schematic alone.
AltMPN field for critical parts