Clearance & Creepage Calculator
IEC 60664-1 Compliant • Safety Critical Design
Calculate minimum clearance (through air) and creepage (along surface) distances for high-voltage and safety-critical PCB applications.
Safety Parameters
Safety Distances (IEC 60664-1)
Quick Reference: IEC 60664-1 Distances
| Voltage | Clearance (PD1) | Clearance (PD2) | Creepage (PD2) |
|---|---|---|---|
| 48V | 0.04mm | 0.4mm | 0.6mm |
| 120V | 0.15mm | 0.5mm | 1.2mm |
| 230V | 0.35mm | 1.5mm | 3.2mm |
| 400V | 0.60mm | 3.0mm | 5.0mm |
| 600V | 1.00mm | 3.0mm | 6.3mm |
*PD = Pollution Degree. Basic insulation, Material Group II (FR4). Use calculator for precise values.
Understanding Clearance vs Creepage
Clearance (Through Air)
The shortest distance through air between two conductive parts. Prevents electrical breakdown through ionization of air.
- •Affected by voltage and pollution degree
- •Must account for altitude (reduced air density)
- •Direct line-of-sight measurement
Creepage (Along Surface)
The shortest path along the surface of insulating material between conductors. Prevents tracking and surface flashover.
- •Affected by material CTI rating
- •Must follow actual PCB surface path
- •Often larger than clearance requirement
Pollution Degree Selection
No Pollution
Sealed enclosure, no pollution. Examples: hermetically sealed equipment, conformal coated PCBs.
Non-Conductive
Normal indoor environment. Most common for consumer and industrial electronics. Non-conductive pollution possible.
Conductive
Harsh industrial environment. Conductive pollution or dry non-conductive that becomes conductive due to condensation.
Techniques to Increase Creepage
Creepage Slots
Cut slots in the PCB between high and low voltage areas. Each slot adds 2× its depth to the creepage path. Minimum slot width is typically 0.5mm.
Conformal Coating
Apply conformal coating to reduce effective pollution degree. Can allow using PD1 values instead of PD2, significantly reducing required distances.
Ribs and Barriers
Add molded ribs in enclosure design or use insulating barriers on PCB. Each barrier adds 2× its height to the creepage path.
High CTI Materials
Use PCB substrates with higher CTI ratings. High-CTI FR4 (CTI ≥ 600V) requires less creepage than standard FR4 (CTI 400-599V).
Important Safety Notice
This calculator provides guidance based on IEC 60664-1. For safety-critical applications, always consult the full standard and relevant product-specific safety standards (IEC 60950, IEC 62368, etc.). Have designs reviewed by a qualified safety engineer.
Related Safety Tools
Complete your safety-critical PCB design with our other calculators.
Clearance & Creepage FAQ
When is creepage larger than clearance?
At higher voltages and lower CTI materials, creepage typically exceeds clearance. Surface tracking is more likely than air breakdown at voltages above ~200V.
What is reinforced insulation?
Reinforced insulation provides protection equivalent to double insulation (two independent insulating layers). It requires 2× the basic clearance and creepage distances.
How does altitude affect clearance?
Above 2000m, air density decreases and breakdown voltage drops. Clearance must be increased by approximately 10% per 1000m above 2000m.
What CTI should I use for standard FR4?
Standard FR4 typically has CTI of 175-400V (Material Group IIIa). High-CTI FR4 can achieve 400-599V (Group II) or ≥600V (Group I).
Related Tools & Resources
Trace Width Calculator
CalculatorCalculate PCB trace width for your current requirements
Impedance Calculator
CalculatorCalculate microstrip and stripline impedance
Automotive PCB Calculator
IndustryADAS, EV, and automotive electronics design
Medical Device PCB Design
IndustryIEC 60601 compliant medical device calculations
Aerospace Trace Calculator
IndustrySpace-grade and aviation PCB design
FR4 Trace Calculator
MaterialTrace calculations for standard FR4 PCB material