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We're working on a comprehensive educational guide for the Wire Gauge Converter in your language. The content below is shown in English.

What is Wire Gauge Converter?

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The Wire Gauge Converter translates between four major electrical wire sizing systems used worldwide: AWG (American Wire Gauge, the dominant standard in US/Canada/Mexico), SWG (Standard Wire Gauge, traditional British system still found in some legacy equipment), mm diameter (used in continental European scientific and technical specifications), and mm² cross-section area (modern international standard adopted in IEC electrical codes globally). The calculator additionally displays maximum ampacity (current-carrying capacity in amps) and categorizes each wire size by typical use case from signal wire through industrial applications. Wire gauge measurement evolved during the 19th century when wire was manufactured by repeatedly drawing copper through progressively smaller dies. The AWG system uses a logarithmic scale derived from this manufacturing process — the number indicates how many die-passes were required, so smaller AWG numbers represent larger wires (a counterintuitive feature that catches many beginners). AWG ranges from -3 (very large, used for service entry and battery cables) up to 40+ (extremely thin, used in fine electronics). Common residential wiring uses AWG 14 (15A circuits) and AWG 12 (20A circuits). The four-system reality of wire sizing creates real-world challenges. American electronics imports specify AWG. European products use mm² (sometimes labeled as 'sqmm' or 'sq mm'). British heritage equipment may still specify SWG. Scientific papers and precision applications use mm diameter. When sourcing wire across regions or building international projects, accurate conversion is essential — using the wrong gauge can cause fires (undersize wire overheating under load) or unnecessarily expensive overkill (oversize wire for low-current applications). This calculator handles all four conversions instantly with an integrated ampacity reference. Enter wire size in any system, and outputs include all equivalent measurements plus the chassis-wiring maximum amperage and use-case category (signal wire, low voltage, residential, heavy duty, industrial). Use for: importing electronics requiring wire selection, electrical wiring projects matching code requirements, scientific/maker projects needing precise specifications, automotive wiring (typical 14-18 AWG for accessories), and any cross-regional electrical work.

Calkulon makes complex calculations simple — built for students and everyday problem-solvers.

Formula

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f(x)

Diameter (mm) = 0.127 × 92^((36-AWG)/39); Cross-section (mm²) = π × (D/2)²; Ampacity scales non-linearly with cross-section

Variable Legend

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Symbol	Ime	Jedinica	Opis
AWG	American Wire Gauge	number	US/North American standard. Smaller number = larger wire. Range: -3 (huge) to 40 (thin).
SWG	Standard Wire Gauge	number	British traditional system. Similar pattern to AWG but different exact values.
D	Diameter	mm	Wire diameter measured across. Most direct physical measurement.
A	Cross-section Area	mm²	Conducting cross-sectional area. Primary factor in current capacity.
I_max	Maximum Ampacity	amps	Maximum continuous current for chassis wiring. Power transmission ampacity is typically 60-70% of this.

How to Wire Gauge Converter

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1Step 1 — Enter Wire Value: Input wire size in any of the four systems. Most common: AWG 12-14 (residential), 2.5mm² (European residential), AWG 18-22 (electronics).
2Step 2 — Select Source System: Choose AWG (North American), SWG (British), mm diameter (scientific/European), or mm² cross-section (modern international standard).
3Step 3 — Calculator Finds Closest Match: Standard wire reference table contains all common sizes from AWG 0 (8.25mm dia) down to AWG 30 (0.255mm dia). Calculator finds row matching your input most closely.
4Step 4 — Review All System Equivalents: Output shows AWG, SWG, mm diameter, mm² area, and maximum ampacity. Use whichever measurement system your project requires.
5Step 5 — Note Use Case Category: Calculator categorizes wire by typical application: Signal (<5A), Low Voltage (5-20A), Residential Wiring (20-50A), Heavy Duty (50-100A), Industrial (>100A). Helps validate appropriate sizing for use case.
6Step 6 — Apply Safety Margin for Power Transmission: Listed ampacity is for chassis (short-run) wiring. For power transmission (long runs, in conduit, bundled with other wires), reduce ampacity by 30-40% per NEC code requirements.

Worked Examples

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Example 1AWG 14 — standard US residential wiring

Given:AWG 14

Rezultat:SWG 15, 1.628mm diameter, 2.08mm² cross-section, 20A max ampacity, 'Low Voltage' category

Standard US residential 15A circuits use AWG 14

AWG 14 is the most common residential wire gauge in North America for 15-amp circuits powering lighting and standard outlets. Equivalent to European 2.5mm² and British SWG 15. The 20A chassis rating drops to about 15A for in-wall installation in conduit. NEC code requires AWG 12 (larger) for 20A kitchen and bathroom circuits.

Example 22.5mm² — European residential equivalent

Given:2.5 mm² cross-section

Rezultat:AWG 14, SWG 15, 1.78mm diameter, 20A max

Direct equivalent of US residential wiring in European standards

European countries use mm² rating directly. 2.5mm² is the standard for residential 16A circuits (Europe uses 16A as standard residential breaker). This is functionally identical to US AWG 14, slightly different by manufacturing tolerance. Allows electricians to source equivalent wire across regions without conversion confusion.

Example 3AWG 0 — very heavy gauge for battery cables

Given:AWG 0

Rezultat:SWG 1, 8.252mm diameter, 53.5mm² area, 150A max

Vehicle battery cables, EV charging, welding equipment

AWG 0 (sometimes written 1/0, or 'aught') is the largest standard wire size most home users encounter. Common in: automotive starter cables, RV power, EV charging cables, welding leads, marine battery banks. The 150A rating handles peak current draws from internal combustion engine starters or electric motor controllers.

Example 4AWG 22 — electronics breadboard wire

Given:AWG 22

Rezultat:SWG 23, 0.644mm diameter, 0.326mm² area, 5A max ampacity

Standard for breadboard prototyping, signal wiring, low-current electronics

AWG 22 is the most common electronics hookup wire. Stiff enough to hold shape in breadboard pin connections, flexible enough for hand-soldering, rated for typical electronic project currents (Arduino, Raspberry Pi accessories). Available in solid (breadboard) or stranded (flexible projects).

Real-World Applications

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Electrical wiring projects — selecting correct gauge for circuit ampacity per code requirements

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Importing electronics from different regions — converting US wire specs to metric or vice versa

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DIY electronics — sourcing wire across regional standards for hobbyist and maker projects

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Automotive wiring — installing accessories, audio systems, and electric vehicle modifications

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Marine and RV electrical — high-current 12V/24V systems with battery banks

Special Cases

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Common Wire Gauges and Applications

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AWG	mm²	Max Amps	Common Use
22	0.326	5	Electronics, signal wire
18	0.823	10	Speakers, doorbell, thermostat
16	1.31	15	Light-duty extension cords
14	2.08	20	Residential 15A circuits
12	3.31	25	Residential 20A, kitchen circuits
10	5.26	30	Electric dryers, water heaters
8	8.37	50	Range, sub-panels
6	13.3	65	Service feeders
4	21.2	85	Sub-panel feeds, EV chargers
0	53.5	150	Battery cables, large appliances

Frequently Asked Questions

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Why smaller AWG = larger wire?

AWG numbering came from the number of die-passes used to manufacture wire — more passes through smaller dies produced thinner wire. AWG 36 needed 36 draws (very thin); AWG 0 was undrawn or minimally drawn (thick). The system is logarithmic with base 92^(1/39), giving each 3-step decrement approximately doubled cross-section. This counterintuitive feature is the most common source of beginner electrical errors.

Is AWG 14 or 12 better for 20A circuits?

AWG 12 is required by US National Electrical Code (NEC) for 20A circuits. AWG 14 is rated for 15A maximum. Using AWG 14 on a 20A circuit is a code violation and fire hazard — the wire will overheat under sustained 20A load. When in doubt, use the larger wire (smaller AWG number); cost difference is minimal, safety difference is significant.

What's the difference between AWG and SWG?

AWG (American Wire Gauge) is the dominant standard in North America, derived from American manufacturing practice. SWG (Standard Wire Gauge) is the older British system, used in legacy UK equipment and some industrial applications. The numbers don't directly correspond — AWG 14 ≈ SWG 15. SWG is being phased out globally in favor of metric mm² which is more direct and unambiguous.

What does mm² actually measure?

mm² measures the cross-sectional area of the conducting metal in the wire (typically copper). For a round wire of diameter D mm, area = π × (D/2)². This is the primary factor in current-carrying capacity because electrical resistance is inversely proportional to cross-sectional area. mm² is the most physically meaningful measurement and the basis for modern international standards (IEC 60228).

Why does ampacity vary by installation type?

Wire current capacity depends on how heat dissipates. In open air (chassis wiring): heat radiates freely, highest ampacity. In conduit: less air flow, reduced heat dissipation, ~70% of chassis. Bundled with other current-carrying wires: heat builds up between wires, further reduced. NEC tables specify different ampacities for different installation conditions. Always use the lower number when designing for safety.

Common Mistakes to Avoid

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!Confusing AWG (smaller number = larger wire) with metric (larger number = larger wire).
!Using chassis ampacity for power transmission — power transmission ampacity is lower (60-70% of chassis).
!Ignoring length-based voltage drop — long wire runs need larger gauges than basic ampacity calculation suggests.
!Mixing solid vs stranded ampacity ratings without checking codes — slightly different ratings apply.
!Substituting smaller wire than code requires — fire hazard from overheating under sustained load.

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Pro Tip

When in doubt, oversize the wire — voltage drop over long runs is the silent killer of electrical projects. For runs over 50 feet, go one gauge larger than minimum code. The cost difference is small; the safety and performance benefit is significant. Always pull electrical permits for residential work — code violations void homeowner insurance.

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Did you know?

The American Wire Gauge system was introduced in 1857 by JR Brown & Sharpe, replacing the older Birmingham Wire Gauge (BWG). The mathematical basis ensures that AWG 36 has a diameter 1/100 of AWG 0000 (the largest standard size, 0.46 inches), with each 1-gauge decrement increasing diameter by about 12.2%. This logarithmic scale meant manufacturers could produce wire to standard sizes by predictable die-stepping. The system has remained essentially unchanged for over 160 years despite multiple attempts at metrication.

Regional Guides

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United States▾

Europe▾

United Kingdom▾

References

📖Difficulty:Intermediate

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Reviewed June 2026

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