Wire Size at 50 Feet (50 ft)
A 50-foot conductor run is typical for most residential branch circuits within the main structure. This distance covers the average run from an electrical panel to bedrooms, bathrooms, and kitchen circuits in a standard single-story home. At 50 feet, voltage drop starts to become a consideration for 120-volt circuits carrying 20 or more amps, and the standard NEC minimum wire gauge is often adequate.
Voltage Drop at 50 Feet
At a distance of 50 feet, the voltage drop across any conductor is proportional to the current draw, the conductor resistance, and the type of circuit (single-phase or three-phase). On a 120-volt single-phase circuit, the 3% limit allows a maximum of 3.6 volts of drop. On a 240-volt circuit, the 3% limit allows 7.2 volts. The tables below show the recommended wire gauge for every common voltage and amperage combination at exactly 50 feet, making it easy to find the right conductor without performing manual calculations.
The recommendations consider both ampacity (from NEC Table 310.16 at 75 degrees C) and voltage drop (using NEC Chapter 9, Table 8 resistance values). The recommended gauge is the smallest standard size that satisfies both requirements simultaneously. When the 3% column and 5% column show different gauges, voltage drop is the controlling factor, and you may be able to use the smaller gauge if your circuit qualifies for the 5% combined feeder-plus-branch limit.
120V Wire Sizes at 50 ft
Recommended wire gauges for 120-volt circuits at a one-way distance of 50 feet. The copper columns show the recommended gauge at both 3% and 5% voltage drop limits. The aluminum column shows the 3% recommendation, which is typically one to two sizes larger than copper.
| Amps | Copper (3%) | Cu V-Drop | Copper (5%) | Cu V-Drop | Aluminum (3%) | Al V-Drop |
|---|---|---|---|---|---|---|
| 15A | 12 AWG | 2.48% | 14 AWG | 3.93% | 10 AWG | 2.55% |
| 20A | 10 AWG | 2.07% | 12 AWG | 3.30% | 8 AWG | 2.13% |
| 30A | 8 AWG | 1.95% | 10 AWG | 3.10% | 6 AWG | 2.02% |
240V Wire Sizes at 50 ft
Recommended wire gauges for 240-volt circuits at a one-way distance of 50 feet. The copper columns show the recommended gauge at both 3% and 5% voltage drop limits. The aluminum column shows the 3% recommendation, which is typically one to two sizes larger than copper.
| Amps | Copper (3%) | Cu V-Drop | Copper (5%) | Cu V-Drop | Aluminum (3%) | Al V-Drop |
|---|---|---|---|---|---|---|
| 15A | 14 AWG | 1.96% | 14 AWG | 1.96% | 12 AWG | 2.03% |
| 20A | 14 AWG | 2.62% | 14 AWG | 2.62% | 12 AWG | 2.71% |
| 30A | 10 AWG | 1.55% | 10 AWG | 1.55% | 8 AWG | 1.60% |
| 40A | 8 AWG | 1.30% | 8 AWG | 1.30% | 8 AWG | 2.13% |
| 50A | 8 AWG | 1.62% | 8 AWG | 1.62% | 6 AWG | 1.68% |
| 60A | 6 AWG | 1.23% | 6 AWG | 1.23% | 4 AWG | 1.27% |
| 80A | 4 AWG | 1.03% | 4 AWG | 1.03% | 3 AWG | 1.34% |
| 100A | 3 AWG | 1.02% | 3 AWG | 1.02% | 1 AWG | 1.05% |
| 150A | 1/0 AWG | 0.76% | 1/0 AWG | 0.76% | 3/0 AWG | 0.79% |
| 200A | 3/0 AWG | 0.64% | 3/0 AWG | 0.64% | 250 kcmil | 0.71% |
208V Wire Sizes at 50 ft
Recommended wire gauges for 208-volt circuits at a one-way distance of 50 feet. The copper columns show the recommended gauge at both 3% and 5% voltage drop limits. The aluminum column shows the 3% recommendation, which is typically one to two sizes larger than copper.
| Amps | Copper (3%) | Cu V-Drop | Copper (5%) | Cu V-Drop | Aluminum (3%) | Al V-Drop |
|---|---|---|---|---|---|---|
| 15A | 14 AWG | 1.96% | 14 AWG | 1.96% | 12 AWG | 2.03% |
| 20A | 14 AWG | 2.61% | 14 AWG | 2.61% | 12 AWG | 2.71% |
| 30A | 10 AWG | 1.55% | 10 AWG | 1.55% | 8 AWG | 1.60% |
| 40A | 8 AWG | 1.30% | 8 AWG | 1.30% | 8 AWG | 2.13% |
| 50A | 8 AWG | 1.62% | 8 AWG | 1.62% | 6 AWG | 1.68% |
| 60A | 6 AWG | 1.23% | 6 AWG | 1.23% | 4 AWG | 1.27% |
| 80A | 4 AWG | 1.03% | 4 AWG | 1.03% | 3 AWG | 1.34% |
| 100A | 3 AWG | 1.02% | 3 AWG | 1.02% | 1 AWG | 1.05% |
| 150A | 1/0 AWG | 0.76% | 1/0 AWG | 0.76% | 3/0 AWG | 0.79% |
| 200A | 3/0 AWG | 0.64% | 3/0 AWG | 0.64% | 250 kcmil | 0.71% |
277V Wire Sizes at 50 ft
Recommended wire gauges for 277-volt circuits at a one-way distance of 50 feet. The copper columns show the recommended gauge at both 3% and 5% voltage drop limits. The aluminum column shows the 3% recommendation, which is typically one to two sizes larger than copper.
| Amps | Copper (3%) | Cu V-Drop | Copper (5%) | Cu V-Drop | Aluminum (3%) | Al V-Drop |
|---|---|---|---|---|---|---|
| 15A | 14 AWG | 1.47% | 14 AWG | 1.47% | 14 AWG | 2.42% |
| 20A | 14 AWG | 1.96% | 14 AWG | 1.96% | 12 AWG | 2.03% |
| 30A | 10 AWG | 1.16% | 10 AWG | 1.16% | 8 AWG | 1.20% |
| 40A | 8 AWG | 0.97% | 8 AWG | 0.97% | 8 AWG | 1.60% |
| 50A | 8 AWG | 1.22% | 8 AWG | 1.22% | 6 AWG | 1.26% |
| 60A | 6 AWG | 0.92% | 6 AWG | 0.92% | 4 AWG | 0.95% |
| 80A | 4 AWG | 0.77% | 4 AWG | 0.77% | 3 AWG | 1.01% |
| 100A | 3 AWG | 0.77% | 3 AWG | 0.77% | 1 AWG | 0.79% |
| 150A | 1/0 AWG | 0.57% | 1/0 AWG | 0.57% | 3/0 AWG | 0.59% |
| 200A | 3/0 AWG | 0.48% | 3/0 AWG | 0.48% | 250 kcmil | 0.53% |
480V Wire Sizes at 50 ft
Recommended wire gauges for 480-volt circuits at a one-way distance of 50 feet. The copper columns show the recommended gauge at both 3% and 5% voltage drop limits. The aluminum column shows the 3% recommendation, which is typically one to two sizes larger than copper.
| Amps | Copper (3%) | Cu V-Drop | Copper (5%) | Cu V-Drop | Aluminum (3%) | Al V-Drop |
|---|---|---|---|---|---|---|
| 15A | 14 AWG | 0.85% | 14 AWG | 0.85% | 14 AWG | 1.40% |
| 20A | 14 AWG | 1.13% | 14 AWG | 1.13% | 12 AWG | 1.17% |
| 30A | 10 AWG | 0.67% | 10 AWG | 0.67% | 8 AWG | 0.69% |
| 40A | 8 AWG | 0.56% | 8 AWG | 0.56% | 8 AWG | 0.92% |
| 50A | 8 AWG | 0.70% | 8 AWG | 0.70% | 6 AWG | 0.73% |
| 60A | 6 AWG | 0.53% | 6 AWG | 0.53% | 4 AWG | 0.55% |
| 80A | 4 AWG | 0.44% | 4 AWG | 0.44% | 3 AWG | 0.58% |
| 100A | 3 AWG | 0.44% | 3 AWG | 0.44% | 1 AWG | 0.46% |
| 150A | 1/0 AWG | 0.33% | 1/0 AWG | 0.33% | 3/0 AWG | 0.34% |
| 200A | 3/0 AWG | 0.28% | 3/0 AWG | 0.28% | 250 kcmil | 0.31% |
Tips for 50-Foot Runs
At 50 feet, voltage drop is manageable for most circuits. Standard NEC minimum wire gauges are typically adequate for 120-volt and 240-volt circuits at common amperages. However, always verify the calculation rather than assuming compliance, as even short runs with high current draw can exceed voltage drop limits. For example, a 30-amp, 120-volt circuit at 50 feet with 10 AWG wire may be at or near the 3% limit.
When burying conductors for outdoor runs of 50 feet, use UF cable for direct burial or install individual conductors in PVC conduit. Direct burial cable must be installed at a minimum depth of 24 inches for 120V circuits (18 inches under a 2-inch concrete slab or under a residential driveway) per NEC Table 300.5. PVC conduit reduces the burial depth requirement to 18 inches. For long runs, the cost of trenching and backfill is often more significant than the conductor cost, so there is little reason not to upsize the conductor while the trench is open.
For above-ground runs to detached structures, the conductor must be supported and protected per NEC requirements. Overhead spans require a minimum clearance of 10 feet above finished grade, 12 feet above driveways, and 18 feet above public streets. Underground installation is generally preferred for permanent structures. Always install a grounding electrode system at the detached structure per NEC 250.32.
Other Distances
Browse wire sizing recommendations for other common run distances. As distance increases, voltage drop grows linearly, and the required conductor size increases to compensate.
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