Claude-skill-registry eda-schematics

Schematic capture and wiring. Create schematic sheets, place symbols, add wires and net labels, organize hierarchical designs.

install

source · Clone the upstream repo

git clone https://github.com/majiayu000/claude-skill-registry

Claude Code · Install into ~/.claude/skills/

T=$(mktemp -d) && git clone --depth=1 https://github.com/majiayu000/claude-skill-registry "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/data/eda-schematics" ~/.claude/skills/majiayu000-claude-skill-registry-eda-schematics && rm -rf "$T"

manifest: skills/data/eda-schematics/SKILL.md

source content

EDA Schematics Skill

Create and wire schematics for electronics projects.

Auto-Activation Triggers

This skill activates when:

User asks to "create schematic", "add component", "wire"
User is working with
```
.kicad_sch
```
files
User asks about net names, connections, or ERC
Project has component selections but no schematic
User mentions schematic organization or sheets

Context Requirements

Requires:

```
docs/component-selections.md
```
- Selected components with LCSC numbers
```
docs/design-constraints.json
```
- Project constraints
```
datasheets/
```
- Component datasheets for reference circuits

Produces:

```
hardware/*.kicad_sch
```
- KiCad schematic file(s)
```
docs/schematic-status.md
```
- Status and progress tracking

Workflow

1. Load Context

@docs/design-constraints.json
@docs/component-selections.md
@datasheets/ (relevant datasheets)

From design-constraints.json, extract:

```
power.topology
```
- LDO vs buck affects schematic complexity
```
power.rails[]
```
- All voltage rails to implement
```
board.layers
```
- 2-layer = simpler designs, 4+ = can be more complex
```
thermal.budget
```
- Identify hot components for grouping
```
dfmTargets.assembly
```
- Package sizes must match

1.5. Validate Readiness

Before starting schematic:

All required components selected in
```
component-selections.md
```
?
MCU selected with known pinout?
Voltage regulators selected?
Critical passives (decoupling values) defined?
Datasheets downloaded for reference circuits?

If not, suggest running

/eda-source [role]

first.

2. Plan Sheet Organization

See

reference/SCHEMATIC-HIERARCHY-DECISION.md

for detailed guidance.

Based on complexity, organize into sheets:

Simple design (1-2 sheets):

Sheet 1: Everything

Medium design (3-4 sheets):

Sheet 1: Power (input, regulators)
Sheet 2: MCU and core logic
Sheet 3: Interfaces and I/O

Complex design (5+ sheets):

Sheet 1: Power input and protection
Sheet 2: Voltage regulation
Sheet 3: MCU and clock
Sheet 4: Communication interfaces
Sheet 5: Connectors and I/O
Additional sheets as needed

3. Create Schematic Structure

Create main schematic file
Add hierarchical sheets if multi-sheet
Set up page sizes and title blocks

4. Place Components (Per Sheet)

For each component:

Place symbol from library
Set reference designator
Set value
Add LCSC part number to properties
Position logically

Tool syntax:

mcp__kicad-sch__add_component schematic_path="/path/to/file.kicad_sch" lib_id="EDA-MCP:SymbolName" reference="U1" value="10k" position=[100, 100]

Use
```
symbol_ref
```
from
```
library_fetch
```
response (e.g.,
```
EDA-MCP:ESP32-C3
```
)
For standard parts, use KiCad libraries (e.g.,
```
Device:R
```
,
```
Device:C
```
)
Position uses grid-aligned coordinates (1.27mm grid)

Placement guidelines:

Power flows top-to-bottom or left-to-right
Signal flows left-to-right
Group related components
Leave space for wiring

5. Add Power Symbols

Place VCC symbols for each rail
Place GND symbols
Use consistent power symbol naming

6. Wire Connections

Follow the reference circuits from datasheets:

Wire power connections first
Add decoupling capacitors to power pins
Wire critical signals (crystal, reset)
Wire communication buses
Wire remaining signals

Use net labels for:

Inter-sheet connections
Buses
Avoiding wire crossing
Named signals (for clarity)

7. Verify and Document

Check all pins connected or marked NC
Run ERC (electrical rules check)
Document status

See

reference/ERC-VIOLATIONS-GUIDE.md

for fixing common ERC errors.

8. Pre-Layout Review

Before proceeding to layout, complete

reference/SCHEMATIC-REVIEW-CHECKLIST.md

Power section verification
Decoupling validation
Interface protection check
Test points present
Net naming consistency
Documentation complete

Net Naming Convention

See

reference/NET-NAMING.md

for complete conventions.

Quick reference:

Power:    VCC_3V3, VCC_5V, VBAT, GND, GNDA
Reset:    MCU_RESET, nRESET
SPI:      SPI1_MOSI, SPI1_MISO, SPI1_SCK, SPI1_CS
I2C:      I2C1_SDA, I2C1_SCL
UART:     UART1_TX, UART1_RX
GPIO:     LED_STATUS, BTN_USER, or GPIO_PA0

Output Format

schematic-status.md

# Schematic Status

Project: [name]
Updated: [date]

## Summary
- Total sheets: X
- Components placed: Y
- Wiring: Z% complete
- ERC: X errors, Y warnings

## Sheets

### Sheet 1: Power
- Status: Complete
- Components: U1 (regulator), C1-C4 (caps)
- Notes: ...

### Sheet 2: MCU
- Status: In Progress
- Components: U2 (MCU), Y1 (crystal), C5-C10
- Notes: Needs clock wiring

## ERC Issues
- [ ] Unconnected pin on U2.PA3 (intentional NC)
- [x] Missing power flag (fixed)

## Next Steps
- Complete MCU clock circuit
- Wire SPI bus to flash
- Run final ERC

Guidelines

Always check datasheets for reference circuits
Place decoupling caps within 3mm of IC power pins (in layout)
Use net labels for any signal that crosses sheets
Keep schematic readable - avoid wire spaghetti
Add notes for non-obvious connections
Mark intentionally unconnected pins with NC flag

Architecture Validation Warnings

Check these before proceeding to layout:

Condition	Warning
Buck converter selected but no inductor in schematic	Missing critical component
USB interface but no ESD protection	Add ESD diodes before layout
External connector but no protection	Add TVS/ESD on exposed signals
MCU with <100nF per VDD pin	Verify decoupling against datasheet
Crystal but no load cap calculation	Recalculate CL values
I2C bus but no pull-ups	Add pull-ups (4.7K-10K)
SPI CS lines floating	Add pull-ups to prevent glitches
Reset pin without RC debounce	Add debounce circuit

Reference Documents

Document	Purpose
`reference/NET-NAMING.md`	Net naming conventions
`reference/SYMBOL-ORGANIZATION.md`	Schematic layout patterns
`reference/REFERENCE-CIRCUITS.md`	Common circuit patterns
`reference/SCHEMATIC-HIERARCHY-DECISION.md`	Sheet organization guidance
`reference/SCHEMATIC-REVIEW-CHECKLIST.md`	Pre-layout validation
`reference/ERC-VIOLATIONS-GUIDE.md`	Fixing ERC errors

Next Steps

After schematic is complete:

Generate netlist
Run
```
/eda-layout
```
to begin PCB layout
Update
```
design-constraints.json
```
stage to "pcb"