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Konnect
AI-assisted PCB design for KiCAD 10. Native KiCAD plugin — a single Rust binary exposing 171 schematic, layout, routing, design-review, and manufacturing too…
{
"mcpServers": {
"Konnect": {
"command": "npx",
"args": ["-y", "https://github.com/mixelpixx/Konnect"]
}
}
}Konnect *BETA Release
AI-assisted PCB design for KiCAD 10. Konnect is a native KiCAD plugin — a single Rust binary — that lets Claude and other AI assistants design schematics and PCBs through the Model Context Protocol (MCP).
171 tools across 17 on-demand toolsets. Schematic capture, PCB layout and routing, ERC/DRC, design-review audits, JLCPCB part search, Freerouting, reference circuits, and a full manufacturing export pipeline — with bundled skills and agents that teach Claude KiCAD conventions out of the box.
Status: beta. The core toolchain is tested and working, but this is a young release and it wants real-world mileage and review. Issues and PRs are welcome — see CONTRIBUTING.md.
Why Konnect exists
Konnect is the successor to KiCAD-MCP-Server, a Python/TypeScript project that proved AI-driven PCB design works — and, in the process, showed exactly where that architecture runs out of road. Konnect was built to fix those specific problems:
The call path was too long. In the original server, a single tool call travels through TypeScript, schema validation, a spawned Python subprocess, JSON over stdin/stdout, a command router, and finally SWIG-generated C++ proxy objects before anything touches your board. That's four language and serialization boundaries, each with its own failure modes — subprocess lifecycle management, stdout parsing that filters out warnings KiCAD leaks into the stream, chunked-JSON reassembly. In Konnect, a tool call is a function call. One process, one language, no plumbing.
The dependency surface was enormous. Running the original means carrying Node.js and its npm tree, Python and its pip packages, wxPython, kicad-skip, and KiCAD's SWIG bindings — two package ecosystems plus a binding layer, every one of them a moving target that can break an install. Konnect is a single static binary, about 5 MB. There is nothing to install alongside it and nothing to version-match.
SWIG is a dead end. The original's PCB backend depends on KiCAD's SWIG Python bindings, which KiCAD is deprecating in favor of its IPC API. SWIG also carried real operational scars: a zone-fill call that can segfault the backend, proxy-object comparison bugs, and a fallback path that can silently swap backends mid-session. Konnect talks to KiCAD 10 through the official IPC API (protobuf over NNG) — the interface KiCAD is investing in — with real-time board edits that integrate with KiCAD's own undo/redo.
Schematic edits should not corrupt files. Konnect edits .kicad_sch files
through its own S-expression engine with atomic writes (write, fsync, rename), UUID
preservation, and round-trip tests — no third-party schematic library with known
gaps, no text-manipulation workarounds.
Context economy is a feature. Exposing ~180 tools to an LLM costs roughly 23K
tokens of context on every listing. Konnect's router loads a starter kit (~2K
tokens) and lets the model pull in toolsets on demand — plus built-in observability
(get_recent_calls, server_stats, JSONL call logs) so the model can diagnose its
own tool failures.
The result is smaller, faster to install, aligned with where KiCAD is going, and built for production use rather than experimentation. The original project remains open, maintained, and useful — see the comparison below.
What it does
Instead of describing changes and applying them by hand, the AI works your project directly:
- Place and wire schematic components — add resistors, ICs, connectors; wire them together by pin name
- Lay out the PCB — place, move, rotate, and route footprints in real time via KiCAD's IPC API, with full undo/redo integration
- Run design checks — ERC, DRC, connectivity validation, decoupling audits, power-rail review, BOM health checks
- Export production files — Gerbers, drill, BOM, pick-and-place, 3D models, PDF
- Search JLCPCB parts — find in-stock components in a local 2.5M-part catalog and suggest alternatives
- Start from reference circuits — USB-C, LDO, buck converter, STM32, I2C, LED templates with verified component values
- Watch it happen — a live schematic viewer auto-refreshes as the AI edits
The full tool catalog is documented in tool-directory.md.
How it works
| Layer | Mechanism |
|---|---|
| Schematic editing | Direct .kicad_sch S-expression editing with atomic writes (no KiCAD required) |
| PCB editing | KiCAD 10 IPC API (NNG + protobuf) — real-time, undo-aware, requires KiCAD running |
| Exports & checks | kicad-cli subprocess (Gerber, PDF, ERC, DRC, …) |
| Transport | MCP JSON-RPC over stdio (default), or Streamable HTTP (transport = "http" / "both") |
Installation
From the KiCAD Plugin Manager (recommended)
- Download
konnect-pcm-v<version>.zipfrom Releases (thekonnect-pcm-*asset is the KiCAD plugin package; the other archives are standalone server binaries) - Open KiCAD 10 → Plugin and Content Manager
- Click Install from File and select the zip
- Restart KiCAD
Verify: open the PCB Editor → Tools → External Plugins → you should see Konnect.
Build from source
# protoc is required (protobuf code generation)
# Windows: choco install protoc / macOS: brew install protobuf / Linux: apt install protobuf-compiler
cargo build --release -p konnect
Setup with Claude Desktop
After a PCM install, the server binary lives in your KiCAD documents folder:
C:\Users\<YOU>\Documents\KiCad\10.0\3rdparty\plugins\com_github_mixelpixx_konnect\bin\konnect.exe
Edit %APPDATA%\Claude\claude_desktop_config.json:
{
"mcpServers": {
"konnect": {
"command": "C:\\Users\\<YOU>\\Documents\\KiCad\\10.0\\3rdparty\\plugins\\com_github_mixelpixx_konnect\\bin\\konnect.exe"
}
}
}
Restart Claude Desktop and the Konnect tools appear. For Claude Code, drop the same
snippet into a .mcp.json in your project root (see examples/).
Schematic viewer
A standalone viewer that auto-refreshes as the schematic file changes:
schematic-viewer.exe path\to\your\schematic.kicad_sch
Pan with click-drag, zoom with the wheel, 0 to fit, R to refresh, drag-and-drop
to open a different file. Also launchable by the AI via the open_schematic_viewer
tool.
Requirements
- KiCAD 10 (Windows today; Linux and macOS builds are on the roadmap — the code already compiles and passes tests on all three platforms in CI)
kicad-cli(ships with KiCAD — used for exports, ERC, DRC)- For PCB tools: KiCAD running with the target board open (IPC API)
License: free for the little guys
Konnect is licensed under the GNU AGPL-3.0.
If you're a hobbyist, student, freelancer, or open-source project: use it freely, no strings attached. Design boards, ship them, sell them.
If you're a business: the AGPL requires that anything you build on or around Konnect — including software provided over a network — be open-sourced under the same license. If that doesn't work for you, commercial licenses are available: see COMMERCIAL.md.
Relationship to KiCAD-MCP-Server
The original Python/TypeScript project remains fully open (MIT) and maintained. Konnect is where new development happens — the architecture it proved, rebuilt for production:
| KiCAD-MCP-Server | Konnect | |
|---|---|---|
| Runtime | Node.js + Python + SWIG bindings | Single static binary (~5 MB) |
| Tool call path | TS → subprocess → Python → SWIG C++ | Direct function call |
| PCB backend | SWIG (deprecated by KiCAD) + experimental IPC | KiCAD 10 IPC API |
| Schematic backend | kicad-skip + custom loaders | Native S-expression engine, atomic writes |
| Context cost | Router pattern | Load/unload toolsets + observability |
| Skills / agents | — | 6 skills + 2 agents bundled |
| License | MIT | AGPL-3.0 + commercial |
Troubleshooting
Plugin doesn't appear in KiCAD — install via the Plugin and Content Manager (not manual copy), then restart KiCAD.
PCB tools return "IPC connect failed" — open KiCAD with your board file first; PCB tools talk to the running PCB editor.
"kicad-cli not found" — common install paths are auto-detected; set the path
explicitly in the plugin settings dialog or your konnect-settings.json if yours
is elsewhere.
Support
- Issues & feature requests: GitHub Issues
- Roadmap: ROADMAP.md
- Contributing: CONTRIBUTING.md
// compatibility
| Platforms | cli, api, desktop |
|---|---|
| Operating systems | — |
| AI compatibility | claude |
| License | AGPL-3.0 |
| Pricing | open-source |
| Language | Rust |
// faq
What is Konnect?
AI-assisted PCB design for KiCAD 10. Native KiCAD plugin — a single Rust binary exposing 171 schematic, layout, routing, design-review, and manufacturing tools to Claude, or the LLM of your choosing. It is open-source on GitHub.
Is Konnect free to use?
Konnect is open-source under the AGPL-3.0 license, so it is free to use.
What category does Konnect belong to?
Konnect is listed under mcp-servers in the Claudeers registry of Claude-compatible tools.
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