What Wire Size for 183.33 Amps at 200 Feet?

300 kcmil copper is a typical pick for 183.33A at 200 feet on 120V under a 3% drop target. It balances NEC branch-circuit ampacity and voltage drop over distance. Drop with 300 kcmil at these inputs: 3.15V (2.62%). Real-world sizing also depends on insulation temperature rating, cable type, and install conditions.

183.33A at 200ft · 120V single-phase / DC · 3% drop target

300 kcmil copper

Aluminum option500 kcmil

On a 240V circuit (copper)3/0 AWG

Voltage drop (120V, copper)3.15V (2.62%)

check_circle Within the 3% branch and 5% feeder+branch total drop targets

Amps

Feet

Gauge (Cu / Al)

300 kcmil Cu / 500 kcmil Al

Assumes a 120V source on a single-phase / DC circuit and a 3% voltage-drop target. Each material is picked independently against the same target, so the copper and aluminum results are two separate recommendations, not an ampacity equivalence. Switch to three-phase L-L →

How Wire Size Is Determined

Step 1: NEC Branch-Circuit Ampacity

300 kcmil branch-circuit OCP (285A) ≥ 183.33A ✓

The conductor needs to carry at least 183.33A without going past its temperature rating, and the OCP protecting it needs to respect the NEC branch-circuit cap. Under the typical assumptions used in this table (copper, 75°C termination, no bundling or ambient derates), 300 kcmil sits at a branch-circuit OCP of 285A. That is not a universal number: NM-B cable (Romex) follows the 60°C column in residential use per NEC 334.80 (300 kcmil NM-B = 240A), bundling more than three current-carrying conductors requires a 310.15(C)(1) adjustment, ambient temperatures above 30°C require a 310.15(B) correction, and 60°C terminations on typical residential equipment can pull the usable value lower still. Use the nameplate and local code for the actual install value.

Step 2: Voltage Drop Check

%VD = (2 × L × I × R) ÷ (1000 × V) × 100 (single-phase / DC; round-trip factor of 2)

(2 × 200 × 183.33 × 0.0429) ÷ (1000 × 120) × 100 = 2.62%

NEC 210.19(A) Informational Note 4 recommends ≤ 3% for branch circuits and ≤ 5% for feeder + branch total as performance targets, not hard code requirements. This run sits within the 3% target used for this calculation.

Practical Information

What If You Go One Size Smaller?

Using 250 kcmil (one size thinner) at these inputs gives a voltage drop of 3.78V (3.15% on 120V), and its branch-circuit OCP cap under typical conditions is 255A.

Limiting factor here: voltage drop, not ampacity. 250 kcmil is still above the 183.33A load at its 255A branch-circuit OCP cap, so the conductor temperature margin is fine for this run. What pushes it off this page's pick is the 3.15% drop sitting past the 3% target, which is a performance recommendation (NEC 210.19(A) Informational Note 4), not a code requirement. On shorter runs or at higher source voltage the same gauge would often clear the drop target too.

What If You Go One Size Larger?

Using 350 kcmil (one size thicker) would reduce voltage drop to 2.69V (2.24% on 120V). More expensive wire but better performance and more headroom for future load increases.

Wattage at This Amperage

183.33A at 120V delivers 21,999.6 watts (DC / resistive load). See conversion.

Related Calculations

Frequently Asked Questions

What wire size for 183.33 amps at 200 feet on 120V?expand_more

183.33A at 200ft on 120V is commonly served by 300 kcmil copper to land under the 3% voltage-drop target, under the typical 75°C-termination assumptions used in this table. Actual install sizing also depends on conductor material, insulation and termination temperature rating, cable type, ambient and bundling conditions, and local code.

What is the NEC voltage drop recommendation?expand_more

NEC 210.19(A) Informational Note 4 recommends ≤3% for branch circuits and ≤5% total (feeder + branch). These are performance recommendations, not hard code requirements.

Do I need to upsize wire for continuous loads?expand_more

NEC 210.19(A) (branch circuits) and 215.3 (feeders) size the conductor and overcurrent device at not less than 125% of the continuous load plus 100% of any non-continuous load. For a 183.33A continuous load that points the sizing math at the 229.16A figure, but the actual conductor and breaker pick still depends on termination temperature rating, cable type, bundling and ambient conditions, and any 240.4(D) or 240.4(B) provisions. Treat this as the input to a sizing decision, not the output.

Can I run 183.33A on a longer distance?expand_more

Yes, but you may need thicker wire. At 400ft on 120V, check the wire size calculator. You may need to go up one or two gauges.

How much does 300 kcmil wire cost?expand_more

Copper wire pricing tracks the LME copper spot price and varies with insulation type, cable assembly (THHN, NM-B, MC, SE, USE), and quantity. Check current pricing with a local electrical supply house or distributor catalog; commodity-driven numbers inlined on a calculator page age quickly.

This calculator provides estimates for reference purposes only. Always consult a licensed electrician and verify compliance with the National Electrical Code (NEC) and local electrical codes before performing any electrical work.