Files
kicad-mcp-server/docs/SCHEMATIC_TOOLS_REFERENCE.md
KiCAD MCP Bot f047a4e4d1 docs: comprehensive documentation overhaul for v2.2.3
Major documentation update bringing all docs current with the 122-tool,
16-category state of the project (previously frozen at v2.1.0-alpha/59 tools).

New documentation (9 files):
- FREEROUTING_GUIDE.md - autorouter setup, Docker/Podman, all 4 tools
- SCHEMATIC_TOOLS_REFERENCE.md - all 27 schematic tools with parameters
- ROUTING_TOOLS_REFERENCE.md - all 13 routing tools with examples
- FOOTPRINT_SYMBOL_CREATOR_GUIDE.md - 8 creator tools with examples
- SVG_IMPORT_GUIDE.md - SVG logo import tool
- DATASHEET_TOOLS_GUIDE.md - datasheet enrichment tools
- PCB_DESIGN_WORKFLOW.md - end-to-end design guide
- ARCHITECTURE.md - system architecture for contributors
- INDEX.md - documentation table of contents

Updated documentation (12 files):
- README.md - tool count 64->122, feature list, contributor credits
- TOOL_INVENTORY.md - complete rebuild with all 122 tools
- STATUS_SUMMARY.md - updated to v2.2.3 feature matrix
- ROADMAP.md - marked completed milestones, added v2.3+ vision
- KNOWN_ISSUES.md - removed resolved issues, added v2.2.x fixes
- CLIENT_CONFIGURATION.md - added KICAD_MCP_DEV, FREEROUTING_JAR env vars
- LIBRARY_INTEGRATION.md - added symbol and project-local library support
- ROUTER_ARCHITECTURE.md, ROUTER_QUICK_START.md - updated tool counts
- IPC_BACKEND_STATUS.md - updated dates
- JLCPCB_USAGE_GUIDE.md - added cross-reference note
- CONTRIBUTING.md - added ARCHITECTURE.md reference, updated tool count

Archived 10 completed planning docs to docs/archive/.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
2026-03-21 01:31:44 -04:00

16 KiB

Schematic Tools Reference

Added in: v2.1.0, expanded in v2.2.0-v2.2.3 Contributors: @Mehanik (PRs #60, #66), @Kletternaut (PR #57)

This document provides a complete reference for the 27 schematic tools in the KiCAD MCP Server. These tools enable a complete schematic design workflow, from creating projects and adding components to wiring, validation, and synchronization with PCB boards. The dynamic symbol loading feature provides access to approximately 10,000 standard KiCad symbols.

Component Operations (8 tools)

add_schematic_component

Add a component to the schematic. Symbol format is 'Library:SymbolName' (e.g., 'Device:R', 'EDA-MCP:ESP32-C3').

Parameter Type Required Description
schematicPath string Yes Path to the schematic file
symbol string Yes Symbol library:name reference (e.g., Device:R, EDA-MCP:ESP32-C3)
reference string Yes Component reference (e.g., R1, U1)
value string No Component value
footprint string No KiCAD footprint (e.g. Resistor_SMD:R_0603_1608Metric)
position object No Position on schematic with x and y coordinates

Usage Notes: The dynamic symbol loader provides access to ~10,000 KiCad standard symbols. If a symbol is not in the static template map, it will be loaded dynamically from the specified library.

delete_schematic_component

Remove a placed symbol from a KiCAD schematic (.kicad_sch). This removes the symbol instance (the placed component) from the schematic. It does NOT remove the symbol definition from lib_symbols. Note: This tool operates on schematic files (.kicad_sch). To remove a footprint from a PCB, use delete_component instead.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
reference string Yes Reference designator of the component to remove (e.g. R1, U3)

edit_schematic_component

Update properties of a placed symbol in a KiCAD schematic (.kicad_sch) in-place. Use this tool to assign or update a footprint, change the value, or rename the reference of an already-placed component. This is more efficient than delete + re-add because it preserves the component's position and UUID. Note: operates on .kicad_sch files only. To modify a PCB footprint use edit_component.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
reference string Yes Current reference designator of the component (e.g. R1, U3)
footprint string No New KiCAD footprint string (e.g. Resistor_SMD:R_0603_1608Metric)
value string No New value string (e.g. 10k, 100nF)
newReference string No Rename the reference designator (e.g. R1 → R10)
fieldPositions object No Reposition field labels: map of field name to {x, y, angle} (e.g. {"Reference": {"x": 12.5, "y": 17.0}})

get_schematic_component

Get full component info from a schematic: position, field values, and each field's label position (at x/y/angle). Use this to inspect or prepare repositioning of Reference/Value labels.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
reference string Yes Component reference designator (e.g. R1, U1)

list_schematic_components

List all components in a schematic with their references, values, positions, and pins. Essential for inspecting what's on the schematic before making edits.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
filter object No Optional filters with libId and/or referencePrefix fields
filter.libId string No Filter by library ID (e.g., 'Device:R')
filter.referencePrefix string No Filter by reference prefix (e.g., 'R', 'C', 'U')

move_schematic_component

Move a placed symbol to a new position in the schematic.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
reference string Yes Reference designator (e.g., R1, U1)
position object Yes New position with x and y coordinates

rotate_schematic_component

Rotate a placed symbol in the schematic.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
reference string Yes Reference designator (e.g., R1, U1)
angle number Yes Rotation angle in degrees (0, 90, 180, 270)
mirror enum No Optional mirror axis ("x" or "y")

annotate_schematic

Assign reference designators to unannotated components (R? → R1, R2, ...). Must be called before tools that require known references.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file

Wiring and Connections (8 tools)

add_wire

Add a wire connection in the schematic.

Parameter Type Required Description
start object Yes Start position with x and y coordinates
end object Yes End position with x and y coordinates

add_schematic_connection

Connect two component pins with a wire. Use this for individual connections between components with different pin roles (e.g. U1.SDA → J3.2). WARNING: Do NOT use this in a loop to wire N passthrough pins — use connect_passthrough instead (single call, cleaner layout, far fewer tokens).

Parameter Type Required Description
schematicPath string Yes Path to the schematic file
sourceRef string Yes Source component reference (e.g., R1)
sourcePin string Yes Source pin name/number (e.g., 1, 2, GND)
targetRef string Yes Target component reference (e.g., C1)
targetPin string Yes Target pin name/number (e.g., 1, 2, VCC)

add_schematic_net_label

Add a net label to the schematic.

Parameter Type Required Description
schematicPath string Yes Path to the schematic file
netName string Yes Name of the net (e.g., VCC, GND, SIGNAL_1)
position array Yes Position [x, y] for the label

connect_to_net

Connect a component pin to a named net.

Parameter Type Required Description
schematicPath string Yes Path to the schematic file
componentRef string Yes Component reference (e.g., U1, R1)
pinName string Yes Pin name/number to connect
netName string Yes Name of the net to connect to

Usage Notes: Creates a wire stub from the pin and places a net label at the stub endpoint. The stub direction follows the pin's outward angle. Default stub length is 2.54mm (0.1 inch, standard grid spacing).

connect_passthrough

Connects all pins of a source connector (e.g. J1) to matching pins of a target connector (e.g. J2) via shared net labels — pin N gets net '{netPrefix}_{N}'. Use this for FFC/ribbon cable passthrough adapters instead of calling connect_to_net for every pin.

Parameter Type Required Description
schematicPath string Yes Path to the schematic file
sourceRef string Yes Source connector reference (e.g. J1)
targetRef string Yes Target connector reference (e.g. J2)
netPrefix string No Net name prefix, e.g. 'CSI' → CSI_1, CSI_2 (default: PIN)
pinOffset number No Add to pin number when building net name (default: 0)

Usage Notes: This is the most efficient way to wire passthrough adapters. For an N-pin connector, this replaces N individual connect_to_net calls with a single operation.

get_schematic_pin_locations

Returns the exact x/y coordinates of every pin on a schematic component. Use this before add_schematic_net_label to place labels correctly on pin endpoints.

Parameter Type Required Description
schematicPath string Yes Path to the schematic file
reference string Yes Component reference designator (e.g. U1, R1, J2)

delete_schematic_wire

Remove a wire from the schematic by start and end coordinates.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
start object Yes Wire start position with x and y coordinates
end object Yes Wire end position with x and y coordinates

delete_schematic_net_label

Remove a net label from the schematic.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
netName string Yes Name of the net label to remove
position object No Position to disambiguate if multiple labels with same name (x and y coordinates)

Net Analysis (4 tools)

get_net_connections

Get all connections for a named net.

Parameter Type Required Description
schematicPath string Yes Path to the schematic file
netName string Yes Name of the net to query

Usage Notes: Uses wire graph analysis to find all component pins connected to the specified net. Returns a list of {component, pin} pairs.

list_schematic_nets

List all nets in the schematic with their connections.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file

list_schematic_wires

List all wires in the schematic with start/end coordinates.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file

list_schematic_labels

List all net labels, global labels, and power flags in the schematic.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file

Schematic Creation and Export (5 tools)

create_schematic

Create a new schematic.

Parameter Type Required Description
name string Yes Schematic name
path string No Optional path

export_schematic_svg

Export schematic to SVG format using kicad-cli.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
outputPath string Yes Output SVG file path
blackAndWhite boolean No Export in black and white

export_schematic_pdf

Export schematic to PDF format using kicad-cli.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
outputPath string Yes Output PDF file path
blackAndWhite boolean No Export in black and white

get_schematic_view

Return a rasterized image of the schematic (PNG by default, or SVG). Uses kicad-cli to export SVG, then converts to PNG via cairosvg. Use this for visual feedback after placing or wiring components.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch file
format enum No Output format ("png" or "svg", default: png)
width number No Image width in pixels (default: 1200)
height number No Image height in pixels (default: 900)

generate_netlist

Generate a netlist from the schematic.

Parameter Type Required Description
schematicPath string Yes Path to the schematic file

Usage Notes: Returns a complete netlist with component information (reference, value, footprint) and net connections (net name with all connected component/pin pairs).

Validation and Synchronization (3 tools)

run_erc

Runs the KiCAD Electrical Rules Check (ERC) on a schematic and returns all violations. Use after wiring to verify the schematic before generating a netlist.

Parameter Type Required Description
schematicPath string Yes Path to the .kicad_sch schematic file

Usage Notes: Returns violations categorized by severity (error, warning, info) with location coordinates. Essential for catching design errors before PCB layout.

sync_schematic_to_board

Import the schematic netlist into the PCB board — equivalent to pressing F8 in KiCAD (Tools → Update PCB from Schematic). MUST be called after the schematic is complete and before placing or routing components on the PCB. Without this step, the board has no footprints and no net assignments — place_component and route_pad_to_pad will produce an empty, unroutable board.

Parameter Type Required Description
schematicPath string Yes Absolute path to the .kicad_sch schematic file
boardPath string Yes Absolute path to the .kicad_pcb board file

Usage Notes: This is the F8 equivalent. It synchronizes the schematic design to the PCB, creating footprints on the board and assigning nets. This step is critical in the workflow: design in schematic → sync_schematic_to_board → place and route on PCB.

Example Workflows

Basic Circuit Design

  1. Create project: Use create_schematic to initialize a new schematic file
  2. Add components: Use add_schematic_component to place resistors, capacitors, ICs, etc.
    • Example: Add a resistor with symbol: "Device:R", reference: "R1", value: "10k"
  3. Wire components: Use add_schematic_connection to connect component pins
    • Or use connect_to_net to connect pins to named nets (VCC, GND, etc.)
  4. Add net labels: Use add_schematic_net_label to label important signals
  5. Validate: Run run_erc to check for electrical rule violations
  6. Review: Use list_schematic_components and get_schematic_view to verify the design
  7. Sync to PCB: Use sync_schematic_to_board to transfer the design to the PCB layout

FFC Passthrough Adapter

  1. Add connectors: Place two FFC connectors using add_schematic_component
    • Example: J1 and J2, both 20-pin FFC connectors
  2. Connect passthrough: Use connect_passthrough with sourceRef: "J1", targetRef: "J2", netPrefix: "CSI"
    • This single call connects all 20 pins (J1.1 ↔ J2.1 via CSI_1, J1.2 ↔ J2.2 via CSI_2, etc.)
  3. Sync to board: Use sync_schematic_to_board to create the PCB layout
  4. Verify: Use list_schematic_nets to confirm all connections are correct

Source Files

The schematic tools are implemented across the following source files:

  • TypeScript (Tool Definitions):

    • /home/chris/MCP/KiCAD-MCP-Server/src/tools/schematic.ts - All 27 schematic tool definitions with parameter schemas and handlers
  • Python (Backend Implementation):

    • /home/chris/MCP/KiCAD-MCP-Server/python/commands/component_schematic.py - ComponentManager class (add, delete, edit, list components with dynamic symbol loading)
    • /home/chris/MCP/KiCAD-MCP-Server/python/commands/connection_schematic.py - ConnectionManager class (wiring, net labels, passthrough, netlist generation)
    • /home/chris/MCP/KiCAD-MCP-Server/python/commands/wire_manager.py - WireManager class (low-level wire manipulation)
    • /home/chris/MCP/KiCAD-MCP-Server/python/commands/pin_locator.py - PinLocator class (pin location lookup and angle calculation)
    • /home/chris/MCP/KiCAD-MCP-Server/python/commands/dynamic_symbol_loader.py - DynamicSymbolLoader class (runtime symbol loading from KiCad libraries)