What is the Correct Wire Size for 80A Breaker and Load?

How to Determine the Suitable Wire Size for a 80A Breaker and Load Circuits Based on NEC?

An 80-amp breaker is typically used for high-demand devices such as large air conditioning units, electric vehicle chargers, and heavy-duty appliances. Proper wire size selection is crucial for safety, efficiency, and compliance with the National Electrical Code (NEC). In this article, we’ll guide you on how to determine the correct wire size for an 80A breaker, based on NEC standards.

According to NEC, the recommended wire size for an 80-amp circuit is #3 AWG copper or #1 AWG aluminum. However, factors such as voltage drop, distance, temperature, and insulation type also play a role. For specific projects, always consult a licensed electrician to ensure compliance with NEC and local regulations.

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Factors Affecting Wire Size for an 80A Breaker

When determining the wire size for an 80-amp breaker, consider these factors:

1. Voltage Drop: As the length of the wire increases, so does the voltage drop. For wire runs longer than 50 feet, it’s advised to increase the wire size to minimize the voltage drop and ensure efficient power delivery.
2. Temperature Rating: The ampacity (current-carrying capacity) of the wire depends on the temperature rating of the wire’s insulation. For example:
   • At 60°C (140°F), #3 AWG copper wire can carry 85 amps.
   • At 75°C (167°F), it can handle 100 amps.
3. Wire Insulation Type: Common wire insulation types include THHN (Thermoplastic High Heat-resistant Nylon-coated) and THWN (Thermoplastic Heat and Water-resistant Nylon-coated). These materials provide better heat tolerance, which affects ampacity.

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What is the Correct Wire Size for an 80A Circuit?

According to NEC Table 310.15(B)(16), the correct wire size for an 80-amp breaker is:

• #3 AWG copper
• #1 AWG aluminum

However, these values can be affected by the temperature and distance of the wire run. Copper wire is generally preferred for its higher conductivity and lower resistance compared to aluminum.

Both #3 gauge copper and #1 gauge aluminum conductors have the following ampacities at different ambient temperatures.

• • 85-Amps at 60°C (140°F)
  • 100-Amps at 75°C (167°F)
  • 115-Amps at 90°C (194°F)

These values based on NEC Table 310.15(B)(16) illustrate that #3 AWG copper or #1 AWG aluminum is suitable for an 80A breaker. It is good to consider both ambient temperature and conductor material while selecting the wire size to counter the voltage drop.

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Selecting the Correct Wire Size for an 80A Breaker

Continuous Load Circuit

The NEC mandates that continuous loads should not exceed 80% of the breaker’s rating. For an 80-amp breaker:

80A × 80% = 64A

This means the breaker should not be loaded with more than 64 amps continuously. On the other hand, If your equipment has a Minimum Circuit Ampacity (MCA) of 64A, and you want to find the right size of breaker for 64-Amp continuous load circuit, the breaker should handle 125% of the load current amperes.

64A × 125% = 80A

Thus, a #3 AWG copper wire or #1 AWG aluminum wire can carry the necessary current up to 64-Amp safely.

Non-Continuous Load Circuit

For non-continuous loads, such as short-term operations, the breaker can handle the full 80 amps without any derating. In this case, both #3 AWG copper and #1 AWG aluminum wires are adequate for the load.

• Good to Know: Always consider voltage drop in long run and ambient temperature when selecting the wire size.

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How Many Amps Can an 80A Breaker Safely Handle?

According to NEC guidelines, an 80A breaker can safely handle:

• 64A for continuous load circuits (80A × 80% = 64A)
• 80A for non-continuous load circuits

This complies with NEC sections 210.19(A) and 215.2.

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How Many Watts Can an 80A Breaker Hold?

To calculate the wattage for an 80-amp breaker, use the formula:

Watts = Volts × Amps

120V Circuit:

A 1-P, 80A breaker on a 120V circuit can hold:

• 80A × 120V = 9,600W … (maximum)
  • Continuous load: 80A × 80% = 64A
  • Safe Load: 64A × 120V = 7,680W

240V Circuit:

A 2-P, 80A breaker in a 240V circuit holds:

• 80A × 240V = 19,200W
  • Continuous load: 80A × 80% = 56A
  • Safe Load: 64A × 240V = 15,360W

You can safely connect up to 15,360 watts of load on a two pole, 80A breaker in a 240V circuit. As a result, you may only use a single load up to 80A per 90A breaker (NEC 210.23) or multiple load circuits in the subpanel where the total load amperes doesn’t exceed 80A.

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Suitable Cable Types for an 80A Breaker

When selecting a cable for an 80-amp breaker, the material and insulation type play key roles in ensuring the safe and efficient operation of the circuit. Below are the suitable types of cables for an 80A breaker:

Copper Wire:

• • THHN (Thermoplastic High Heat-resistant Nylon-coated): THHN, suitable for both dry and wet environments, can withstand high temperatures of up to 90°C or 194°F. It’s commonly used in residential and commercial wiring.
  • THWN (Thermoplastic Heat and Water-resistant Nylon-coated): This wire is ideal for wet locations, offering resistance to water and heat.

Aluminum Wire:

• • XHHW (Cross-Linked Polyethylene High Heat-resistant Water-resistant): This insulation is highly durable. Hence, making it suitable for underground installations and high-temperature environments.
  • USE (Underground Service Entrance Cable): This cable, designed for direct burial, is suitable for outdoor applications requiring moisture resistance.

MC (Metal-Clad Cable):

• • MC Cable: Used in commercial and industrial settings, MC cables consist of copper or aluminum conductors inside a metal sheath, providing enhanced protection and flexibility in tough environments.

SE (Service Entrance Cable):

• • Type SE Cable: Primarily used for delivering electrical power to residential and small commercial service panels, SE cables come with a rugged outer covering suitable for outdoor installation.

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Applications of 80A Breakers

80-amp breakers are typically used as dedicated circuits or multiple circuits that require higher power levels. These breakers are common in both residential and commercial applications where large, power-hungry appliances and systems are used. Below are some key applications:

1. Main Panels in Homes: An 80-amp are used in the main electric panel to supply power to a single sub-circuits e.g. water heater element, dryer, electric stoves etc. or use to feed power to multiple branch circuits and outlets.
2. Subpanels in Workshops or Garages: 80A breakers are often used to feed subpanels in areas where multiple power-hungry tools or appliances are run, such as workshops, garages, or large home additions for better power distribution management.
3. Electric Vehicle (EV) Chargers: EV chargers, especially those rated for faster charging, often require higher amperage. An 80A breaker is suitable for high-powered Level 2 or Level 3 EV charging stations.
4. Air Conditioning and HVAC Systems: Large central air conditioning units, commercial HVAC systems, or heat pumps typically need 80-amp breakers to ensure sufficient current flow for startup and continuous operation.
5. High Power Lighting: An 80A breaker are commonly used for lighting fixtures and lighting control systems for large power lighting circuits such as concert venues, stadiums, and theaters.
6. Electric Furnaces and Water Heaters: High-powered electric furnaces, large electric water heaters, and tankless water heaters demand significant current. Hence, 80-amp rated breakers are suitable for these installations.
7. Commercial Kitchen Equipment: In commercial kitchens, electric ovens, large stoves, and other heavy-duty equipment frequently require dedicated 80-amp circuits to handle the high power demands safely.
8. Welding Equipment: Welding machines, especially in industrial settings, often require 80-amp circuits due to their high power consumption during operation.
9. Motors & Inductive Loads: Compressors, pumps, submersible and large inductive loads such as motors need high amperage to start and run the circuit. An 80-Amp dedicated circuit are used for such types of loads.
10. Data-centers: 80A circuits are used for high amperes date centers equipment and devices such as servers, inverters and fan cooling system. 
11. Hot Tubs and Spas: Larger hot tubs or spas with advanced heating and jet systems may require 80A circuits to manage the power draw efficiently.

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Good to Know:

Resources:

• What is the Right Wire Size for 15A Breaker and Outlet?
• What is the Suitable Wire Size for 20A Breaker and Outlet?
• What is the Right Wire Size for a 4.8kW, 240V Range: #10 or #12?
• How to Find the Right Wire Size for 100 Amp in AWG?
• How to Size a Load Center, Panelboards and Distribution Board?
• How to Determine the Number of Circuit Breakers in a Panelboard?
• How to Find the Proper Size of Circuit Breaker? Breaker Size Calculator & Examples
• How to Find The Suitable Size of Cable & Wire for Electrical Wiring Installation? (Metric & Imperial Systems)
• How to Find Voltage & Ampere Rating of Switch, Plug, Outlet & Receptacle
• American Wire Gauge “AWG” Chart – Wire Size & Ampacity Table
• American Wire Gauge “AWG” Calculator – AWG Size Chart & Table
• Standard Wire Gauge “SWG” Calculator – SWG Size Chart & Table
• AWG/SWG to mm/mm², inch/inch² & kcmil Calculator & Conversion
• How to Wire 120V & 240V Main Panel? Breaker Box Installation
• How to Wire a Subpanel? Main Lug Installation for 120V/240V
• How to Wire a GFCI Circuit Breaker?
• How to wire a GFCI Outlet?
• How to Wire an AFCI Breaker?
• How to Wire an AFCI Outlet?
• How to Wire an Outlet Receptacle? Socket Outlet Wiring Diagrams
• Wire and Cable Size Calculator in AWG
• Electrical Wire and Cable Size Calculator (Copper & Aluminum)