KiCad 9 DRC & ERC rules
KiCad pin_to_pin ERC: what it means and how to fix it
Understand KiCad 9's pin_to_pin ERC rule, its MakeIRL S2 gate class, why it fires, and how to fix and verify it. Includes a practical KiCad repair workflow.
Practical PCB integration · KiCad 9 · Manufacturing gate
What KiCad's pin_to_pin rule means
erc:pin_to_pin is a real KiCad 9 rule identifier from the Schematic Electrical Rules Checker. Connected symbol pins have electrical types that KiCad's ERC matrix considers incompatible, often output-to-output or conflicting power directions. The identifier is the stable part to use in reports, automation, and severity policy; the human-readable violation sentence can vary with the affected items and KiCad version.
It can expose real driver contention, but open-drain buses, debug headers, analog sharing, and imperfect library pin types generate legitimate cases.
Start from the marker’s exact items and coordinates. Cross-probe them in Schematic Editor → Inspect → Electrical Rules Checker, then inspect the surrounding net, footprint, symbol, rule scope, hierarchy, or layer state. Do not begin by changing the global rule or adding an exclusion: that can hide the symptom while leaving the wrong connectivity, fabrication geometry, library data, or schematic intent in place.
| KiCad rule ID | pin_to_pin |
|---|---|
| Source | ERC |
| Meaning | electrical pin-type conflict |
| MakeIRL class | S2 |
| Explicitly recognized | yes |
| Primary editor | Schematic Editor → Inspect → Electrical Rules Checker |
Why MakeIRL classifies it as S2
Corpus evidence moved pin_to_pin to S2 REVIEW REQUIRED; it is no longer a release blocker.
MakeIRL does not trust the severity label saved in a customer’s .kicad_pro. KiCad can be configured to ignore a rule entirely, so the gate authors a server-owned KiCad 9 reporting policy that forces the real catalog to be emitted and then applies its own rule-ID taxonomy. A project exclusion is recorded as evidence but never lowers the classification. Unknown identifiers also remain visible as S2 rather than disappearing or becoming an unjustified blocker.
S1 is reserved for evidence that a board is actually broken or assembly identity is impossible. S2 means a human engineering decision is required and can be acknowledged; it includes fab margins, many schematic conventions, parity drift, and rules whose intent depends on the product. S3 is advisory library, drafting, text, or silkscreen hygiene. This distinction explains why KiCad’s own “error” or “warning” word is evidence, not the release verdict.
How to fix pin_to_pin in KiCad 9
- 01
Inspect every driver and voltage on the net, correct library pin types or add open-collector/open-drain semantics, and only use a no-connect/ERC exclusion after documenting safe behavior.
- 02
Open Schematic Editor → Inspect → Electrical Rules Checker, select the marker, and cross-probe every reported item before changing a rule or adding an exclusion. Fix the design or library source so the correction survives the next schematic/PCB update.
- 03
Highlight the full net and review worst-case simultaneous drive, then rerun ERC.
If the marker came from a library defect, repair the controlled symbol or footprint first and update the schematic/board copy deliberately. If it came from a net class or custom rule, confirm the electrical, timing, safety, or fabrication requirement before changing the number. A narrow, documented rule is safer than weakening the global project to make one marker disappear. For parity findings, compare the exact MPN, symbol pin numbers, footprint pads, BOM, and placement output before accepting either side as authoritative.
Verify the correction before release
Highlight the full net and review worst-case simultaneous drive, then rerun ERC.
Save the corrected source files, refill zones when the board contains pours, and rerun the appropriate checker from a clean state. For PCB changes, inspect Gerber, drill, solder-mask, paste, outline, and placement outputs—not only the interactive canvas. For schematic changes, regenerate the netlist/BOM and run Update PCB from Schematic so stale board state cannot survive. Cross-probe the original coordinates and confirm the intended circuit or manufacturing constraint, not merely a zero marker count.
Finally, keep the original finding, the design change, and any remaining engineering acknowledgment in the release record. That gives reviewers a traceable reason why pin_to_pin is resolved, accepted as a deliberate S2 decision, or retained as an S3 advisory. Silencing the rule in project settings is never the fix because it changes reporting, not the board.
Check the design before fabrication
Run the release gate and review pin_to_pin with the rest of the KiCad evidence.
Check a KiCad project→