ModerateNEC 2023 · 2026 · Updated Apr 2026

1 AWG NM-B Copper Ampacity & Derating

Table 310.16 values are identical across NEC 2017, 2020, and 2023 editions.
1 AWG NM-B copper is rated 145A at 90°C and 110A at 60°C per NEC 2023 Table 310.16. Most equipment terminations are rated 60°C, making 110A the practical limit. Suitable for 110A circuits.
90°C145A
60°C110A
Breaker110A
Conduit1" EMT
V-Drop/100ft1.4%
Ampacity Derating Walkthrough
Base Ampacity Table 310.16, 90°C
145A
Temp Correction 86°F × 1.0
145A
Bundling ≤3 CCC × 1.0
145A
Termination 334.80 60°C
110A −24%
Usable Ampacity
110A
Common inspection failure: Using 145A (90°C) without accounting for the 60°C termination limit. Most panels and breakers are rated 60°C per 110.14(C). The usable ampacity is 110A, not 145A.

Calculation Walkthrough

Step 1Look Up Base Ampacity
Table 310.16

Per NEC 2023 Table 310.16, 1 AWG copper NM-B (90°C column) = 145A base. Assumes ≤3 CCC at 30°C ambient.

Base =145A
Step 2Temperature Correction
Table 310.15(B)(1)

At 30.0°C (86°F), factor = 1.0. No reduction. At 50°C attic: factor drops to ~0.82 for 60°C insulation.

After temp =145A × 1.0 = 145A
Step 3Bundling Adjustment
Table 310.15(C)(1)

≤3 CCC = factor 1.0. EGC + neutral (unbalanced) not counted per 310.15(E). Typical 240V circuit: 2 hots + N + G = 2 CCC.

After bundling =145A × 1.0 = 145A
Step 4Termination Limit
334.80

Equipment termination governs the final ampacity. Circuits ≤100A: use 60°C column unless conductor + equipment both rated 75°C. Modern panels and breakers are listed for 60°C terminations, so the 60°C column value of 110A becomes the ceiling. The 90°C rating is only used as the starting point for temperature correction and bundling derating. After all adjustments, the result cannot exceed the termination column value. This is the single most commonly failed inspection item.

Final =110A
Step 5Voltage Drop at 100 ft
210.19(A) Note 4

NEC recommends limiting voltage drop to 3% on branch circuits and 5% total (branch + feeder combined). For 1 AWG copper carrying 110A at 240V single-phase over a 100-foot one-way run: Vd = (2 × L × I × R) / 1000. The resistance per 1000 ft for 1 AWG copper at 75°C is used from NEC Chapter 9 Table 8. At 110A and 100 ft, the drop is 3.4V (1.4%). For longer runs or higher loads, use the voltage drop calculator with your specific distance and load.

V-Drop =1.4% (3.4V at 240V)

Common Applications

1 AWG NM-B copper at 110A covers 110-130A feeders and serves as a common choice for 125A subpanels or upgraded service feeds. Paired with a 110A or 125A breaker. At this conductor size, the cost difference between copper and aluminum becomes significant. A 1 AWG copper feeder may be 2-3x the material cost of the equivalent aluminum conductor (1/0 or 2/0 AWG Al for equivalent ampacity). For feeders to outbuildings, detached garages with heavy loads, or workshop subpanels requiring more than 100A, 1 AWG copper provides capacity without the conduit size increase required by larger gauges. Termination torque values increase at this size, so always use a calibrated torque wrench per manufacturer specifications.

NEC 2020 vs NEC 2023

Feature
20202023
Table #
310.15(B)(16)310.16
60°C
110A110A
90°C
145A145A
NEC 2020
Table 310.15(B)(16)
1 AWG Cu 60°C = 110A
1 AWG Cu 90°C = 145A
NEC 2023
Table 310.16 renumbered
1 AWG Cu 60°C = 110A
1 AWG Cu 90°C = 145A

Ampacity values for 1 AWG copper are identical across NEC 2017, 2020, and 2023 editions. The only change affecting this conductor is the table renumbering from Table 310.15(B)(16) to Table 310.16 in the 2023 edition. This renumbering was part of a broader reorganization of Article 310 that also moved temperature correction factors from Table 310.15(B)(2)(a) to Table 310.15(B)(1) and bundling adjustment factors from Table 310.15(B)(3)(a) to Table 310.15(C)(1). When citing NEC references on permits or inspection reports, use the table numbers that match your state's adopted code year. States on NEC 2020 or earlier should cite Table 310.15(B)(16); states that have adopted NEC 2023 should cite Table 310.16.

Quick Reference

ConductorTempAmpsUse
1 AWG Copper TW60°C110AWet / underground
1 AWG Copper THW75°C130AStandard circuits
1 AWG Copper THHN90°C145ADerating start only
1 AWG Copper free air75/90°C195A / 220ATable 310.17
1 AWG Aluminum THHN75°C100AAluminum equivalent
NEC 2026: Ampacity values for 1 AWG copper are unchanged. Table renumbering from 2023 is retained. See NEC 2026 changes for Article 310 updates as states begin adoption.

Frequently asked questions

What is the ampacity of 1 AWG Copper wire?

1 AWG NM-B Copper has a base ampacity of 145A at 90°C per NEC 2023 Table 310.16. After applying the 110.14(C) termination temperature limit, the usable ampacity is 110A for most installations. This is the value you use for circuit sizing and breaker selection.

What size breaker do I need for 1 AWG copper wire?

Pair 1 AWG copper with a 110A breaker. The wire's usable ampacity of 110A must equal or exceed the breaker rating. For continuous loads (running 3+ hours), the load must not exceed 80% of the breaker rating (88A on a 110A breaker). See the full ampacity table for all wire sizes.

Can I use 1 AWG wire in conduit?

NM-B cable can be sleeved through short sections of conduit for physical protection per NEC 334.15(B), but it is not a standard conduit wiring method. For conduit installations, use individual THHN or XHHW-2 conductors instead. See Romex vs conduit and 1 AWG THHN for conduit ampacity.

How far can I run 1 AWG copper wire?

The maximum distance depends on load and voltage. For 1 AWG copper at 110A on a 240V circuit, use the voltage drop calculator with your specific distance. As a rule of thumb, keep voltage drop under 3% for branch circuits. Longer runs may require upsizing the conductor.

Can I use aluminum instead of copper for 1 AWG?

Yes, but check the ampacity difference. 1 AWG aluminum NM-B is rated at 85A versus 110A for copper. For equivalent capacity, you'll typically need to go up one or two gauge sizes in aluminum. See the 1 AWG copper vs aluminum comparison for cost and installation details.

Common products for 1 AWG Copper circuits

🧵Wire1 AWG stranded copperCheck prices on Amazon (paid link) 📏Conduit1-1/4" EMT for 1 AWG runsCheck prices on Amazon (paid link) 150A SubpanelFor 1 AWG feeder circuitsCheck prices on Amazon (paid link)

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Derating matrix: all conditions

Ampacity of 1 AWG copper NM-B (145A base at 60°C) after temperature correction per 310.15(B)(1) and bundling adjustment per 310.15(C)(1). The usable limit after 110.14(C) is 110A.

Ambient °C1-3 CCC4-6 CCC7-9 CCC10-20 CCC
10°C (50°F)187A149A130A93A
15°C (59°F)176A141A123A88A
20°C (68°F)166A133A116A83A
25°C (77°F)156A125A109A78A
30°C (86°F)145A116A101A72A
35°C (95°F)131A105A92A65A
40°C (104°F)118A95A83A59A
45°C (113°F)102A82A72A51A
50°C (122°F)84A67A58A42A

At/above usable limit Below limit Severely restricted

Bottom line: In a hot attic (50°C) with standard bundling, 1 AWG copper drops to 84A - a 42% loss from the 145A base rating. Worst case (50°C, 20 conductors) drops to 42A, a 71% reduction. Use the ampacity calculator to check your exact conditions.
Calculate with this wire
Voltage Drop CalculatorWill 1 AWG Copper handle your run length? Enter distance and load to check.Ampacity CalculatorDerate 1 AWG for your conduit fill and ambient temperature.Conduit Fill CalculatorHow many 1 AWG conductors fit in your conduit?
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Important: For reference only. Not a substitute for a licensed electrician. Electrical work can cause serious injury, death, fire, or property damage if performed incorrectly. Always hire a licensed electrician for electrical work, especially for service upgrades, panel work, and 240V circuits. Values are derived from NFPA 70 (NEC) for educational purposes. Always verify against your locally adopted NEC edition and amendments - local jurisdictions may enforce stricter requirements. WireRef provides reference information only and is not responsible for work performed based on this content. NEC® is a registered trademark of the National Fire Protection Association. Free NEC access via NFPA · OSHA Electrical Safety · Terms of use.

NEC 2023 references verified April 2026

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