Design KiCad PCBs with natural language and safe preview-verify-commit changes.
Copy the install command and let the AI configure it · recommended for beginners
No copy-paste install info for "Coppermind" yet — see the docs or source repo.
In KiCad, create a basic ESP32 development board schematic with USB-C power, 3.3V regulation, programming interface, reset circuit, and a status LED. First provide the design plan and BOM, then preview before committing.
A schematic design plan, key connection notes, bill of materials, and a preview of changes ready for confirmation.
Review the current KiCad PCB layout and optimize power traces, decoupling capacitor placement, and ground return paths to reduce high-speed signal interference. First list issues and proposed changes, then generate a verifiable preview.
An analysis of layout issues, improvement recommendations, and a PCB modification preview for verification before commit.
Undo the last committed connector position change, then move the power connector to the board edge while keeping the mounting hole spacing unchanged. Show the differences from the previous version before committing.
The undo result, an explanation of updated design differences, and a new reviewable commit preview.
Analyze KiCad schematics and PCBs, validate designs, and generate embedded code.
Connect AI to KiCad for automated PCB design and board engineering tasks.
Control KiCad 10 for schematics, PCB edits, and production outputs by language.
Control a live KiCad instance for board queries, edits, and exports.
Create, edit, and analyze KiCad schematics through natural language commands.
Audit KiCad PCB designs against Southeast Asian fab capabilities and DFM rules.