EDA PCB Skill
PCB layout, component placement, and routing.
Auto-Activation Triggers
This skill activates when:
- •User asks to "layout PCB", "place components", "route traces"
- •User is working with
.kicad_pcbfiles - •User asks about placement, routing, copper pours, vias
- •Project has schematic but no PCB layout
- •User mentions DFM, trace width, or clearance
Context Requirements
Requires:
- •
hardware/*.kicad_sch- Completed schematic with netlist - •
docs/component-selections.md- Component details - •
docs/design-constraints.json- Board size, layer count, etc. - •
datasheets/- For placement/routing recommendations
Produces:
- •
hardware/*.kicad_pcb- KiCad PCB file - •
docs/pcb-status.md- Layout progress tracking
Workflow
1. Load Context
code
@docs/design-constraints.json @docs/component-selections.md @docs/schematic-status.md @datasheets/ (for placement guidance)
1.5 Pre-Layout Validation
Before starting layout, verify:
| Check | Source | Action if Missing |
|---|---|---|
| Schematic ERC clean | schematic-status.md | Complete schematic first |
| Layer count decided | design-constraints.json | See LAYER-COUNT-DECISION.md |
| Stackup selected | design-constraints.json | See STACKUP-DECISION.md |
| Board dimensions | design-constraints.json | Define constraints |
| Critical interfaces | design-constraints.json | USB, SPI speeds, etc. |
| Thermal budget | design-constraints.json | Power dissipation known |
Extract key constraints:
json
{
"board": {
"layers": 4,
"thickness": 1.6,
"dimensions": {"width": 50, "height": 40}
},
"dfmTargets": {
"manufacturer": "JLCPCB",
"minTraceWidth": 0.15,
"minClearance": 0.15,
"impedanceControl": true
},
"interfaces": {
"usb": true,
"highSpeedSpi": false
},
"thermal": {
"maxPowerDissipation": 2.5
}
}
Architecture Validation Warnings:
| Condition | Warning |
|---|---|
| USB + 2-layer board | Cannot achieve 90Ω impedance |
| Buck converter + no ground plane | EMI issues likely |
| WiFi/BLE + 2-layer | Antenna performance degraded |
| High-speed SPI (>20MHz) + long traces | Signal integrity risk |
| No thermal plan + >1W dissipation | Thermal issues likely |
2. Initialize PCB
- •Create PCB file or open existing
- •Import netlist from schematic
- •Set board outline per constraints
- •Configure layer stackup
- •Set design rules
3. Configure Design Rules
Set rules appropriate for manufacturer:
code
JLCPCB standard: - Min trace width: 0.127mm (5mil) - Min clearance: 0.127mm (5mil) - Min via drill: 0.3mm - Min via annular ring: 0.13mm
4. Place Components
Priority order:
- •Fixed position items - Connectors (edge), mounting holes
- •MCU/Main IC - Central location
- •Crystal/oscillator - Within 5mm of MCU
- •Power components - Near input, thermal considerations
- •Decoupling capacitors - Adjacent to IC power pins
- •Sensitive analog - Away from noisy digital
- •Remaining components - Grouped by function
See reference/PLACEMENT-STRATEGY.md for detailed guidelines.
5. Route Critical Signals First
Priority:
- •Power delivery (wide traces, pours)
- •Crystal/oscillator (short, guarded)
- •USB differential pairs (90Ω impedance)
- •High-speed signals (length matching)
- •Sensitive analog (away from digital)
- •General signals
See reference/ROUTING-RULES.md for trace width and clearance guidelines.
6. Create Copper Pours
- •GND pour on bottom layer (2-layer)
- •Or GND on layer 2, power on layer 3 (4-layer)
- •Thermal relief on pads
- •Stitch vias for plane continuity
7. Route Remaining Signals
- •Follow schematic groupings
- •Minimize vias
- •Avoid acute angles (use 45°)
- •Keep trace lengths reasonable
8. DRC Check
- •Run design rule check
- •Fix violations
- •Document intentional exceptions
9. Visual Review
- •Generate board images
- •Check silkscreen readability
- •Verify component orientation marks
- •Review for manufacturing issues
10. Pre-Manufacturing Review
Validation checklist before ordering:
| Category | Check | Reference |
|---|---|---|
| DRC | 0 errors, 0 warnings | DRC-VIOLATIONS-GUIDE.md |
| Clearances | Meet manufacturer minimums | DFM-RULES.md |
| Via sizes | Drill ≥ 0.3mm (JLCPCB std) | DFM-RULES.md |
| Annular rings | ≥ 0.13mm (1oz copper) | DFM-RULES.md |
| Trace widths | Power traces sized for current | ROUTING-RULES.md |
| USB traces | 90Ω impedance, length matched | HIGH-SPEED-ROUTING.md |
| Silkscreen | Not on pads, readable | Visual check |
| Board outline | Closed shape, proper clearance | DFM-RULES.md |
Thermal verification:
- • Power components have thermal relief
- • Thermal vias under QFN/thermal pads
- • Heat sink areas connected to copper pour
- • No thermal bottlenecks (narrow traces for high current)
Signal integrity verification:
- • High-speed signals over solid ground
- • Return paths not broken by splits
- • Crystal area guarded, no traces crossing
- • Antenna keep-out respected (if applicable)
Output Format
pcb-status.md
markdown
# PCB Layout Status Project: [name] Updated: [date] ## Board Specifications - Size: X × Y mm - Layers: N - Thickness: 1.6mm ## Progress - [x] Board outline defined - [x] Mounting holes placed - [x] Critical components placed - [x] All components placed - [ ] Power routing complete - [ ] Signal routing complete - [ ] Copper pours added - [ ] DRC clean ## Layer Usage | Layer | Usage | |-------|-------| | F.Cu | Signals, components | | B.Cu | GND pour, some signals | ## DRC Status - Errors: X - Warnings: Y - Unrouted nets: Z ## Design Rules - Trace width: 0.2mm (signals), 0.5mm (power) - Clearance: 0.2mm - Via: 0.3mm drill, 0.6mm pad ## Notes - [Any special considerations] ## Next Steps - [What remains to be done]
Guidelines
- •Always check datasheets for recommended layouts
- •Keep high-current paths short and wide
- •Maintain ground plane integrity under sensitive signals
- •Consider thermal management early
- •Use the DRC frequently during layout
Reference Documents
| Document | Purpose |
|---|---|
reference/PLACEMENT-STRATEGY.md | Component placement guidelines |
reference/ROUTING-RULES.md | Trace width and routing rules |
reference/EMI-CONSIDERATIONS.md | EMI/EMC best practices |
reference/DFM-RULES.md | Design for manufacturing rules |
reference/DRC-VIOLATIONS-GUIDE.md | Common DRC errors and fixes |
reference/STACKUP-DECISION.md | Layer stackup selection |
reference/HIGH-SPEED-ROUTING.md | USB, SPI, I2C, antenna routing |
Upstream documents:
| Document | What to Extract |
|---|---|
LAYER-COUNT-DECISION.md (eda-architect) | Layer count rationale |
THERMAL-BUDGET.md (eda-architect) | Power dissipation limits |
DECOUPLING-STRATEGY.md (eda-research) | Cap values and placement |
SCHEMATIC-REVIEW-CHECKLIST.md (eda-schematics) | Pre-layout verification |
Next Steps
After PCB layout is complete:
- •Run
/eda-checkfor comprehensive validation - •Update
design-constraints.jsonstage to "validation"