10/2 or 10/3 Wire for Air Conditioners: Which One to Choose?
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10/2 or 10/3 Wire for Air Conditioners: Which One to Choose?

When it comes to wiring air conditioners, choosing the right wire size is crucial. In the case of 10/2 or 10/3 wire for air conditioners, the better choice is 10/2 wire. However, understanding the differences between these wire types and their applications is essential for making an informed decision. 

This article will explore the distinctions, factors affecting wire sizing, and other important considerations related to 10 2 or 10 3 wire for air conditioners, helping you choose the appropriate wiring solution for your air conditioning system.

10 2 or 10 3 Wire for Air Conditioners

When choosing between 10/2 or 10/3 wire for air conditioners, the size that works is 10/2. Here's why:

The first number in the wire designation represents the gauge (thickness) of the wire, while the second number indicates the number of non-grounding conductors or wires within the cable. These cables also include grounding conductors, which aren’t included in these numbers. Both 10/2 and 10/3 have a wire gauge of 10, which is suitable for most air conditioner installations.

The key difference lies in the number of conductors. 10/2 wire has three conductors (a black hot, a white neutral, and a green ground wire) and is commonly used for air conditioning units requiring a 240-volt power supply. On the other hand, 10/3 wire has four conductors (a black hot, a white neutral, a green ground, and a red wire) and is typically used for appliances that require both 240 volts and 120 volts, such as dryers.

Most air conditioners require a 240-volt power supply and the additional conductor is unnecessary. As such 10/3 wire offers no advantage for those who need wiring specifically for air conditioners. In fact, using a 10/3 wire can result in higher costs because it is more expensive. 

Factors affecting the sizing of the wire for air conditioners include:

  • Distance: Longer distances result in greater resistance, leading to voltage drop. To compensate for this, larger gauge wires may be required to ensure sufficient voltage reaches the air conditioner.
  • Current Rating: Different air conditioner models have varying power requirements, typically measured in amps. Higher current ratings require larger wire gauges to handle the increased electrical load without overheating or dropping voltage.
  • Local Electrical Codes: Compliance with local electrical codes is essential for safety and legal reasons. Electrical codes often specify the minimum wire size based on current rating, distance, and insulation requirements. 
  • Voltage Requirements: Air conditioners typically require a 240-volt power supply. Keep that in mind when choosing the wire sizing, and you will ensure efficient power transmission and proper operation of the unit.

Considering these factors will help you ensure a safe and reliable electrical connection for your air conditioner.

What Wire Sizes Are Needed for Different Sizes of Air Conditioner Units? 

Most air conditioners ranging from 1.5 to 5 tons require wire sizes ranging from 18 AWG to 10 AWG. These wire sizes are determined by considering factors such as the AC unit's tonnage, voltage, maximum wattage, and the 80% NEC (National Electric Code) rule.

Air Conditioner Tonnage

Max. Wattage

Amp Draw at 220V

Min. Wire Ampacity

Wire Size

1.5 Ton

1,800 Watts

8 Amps

10 Amps

18 AWG Wire

2 Ton

2,400 Watts

11 Amps

14 Amps

18 AWG Wire

2.5 Ton

3,000 Watts

14 Amps

17 Amps

14 AWG Wire

3 Ton

3,600 Watts

16 Amps

20 Amps

12 AWG Wire

3.5 Ton

4,200 Watts

19 Amps

24 Amps

12 AWG Wire

4 Ton

4,800 Watts

22 Amps

27 Amps

10 AWG Wire

4.5 Ton

5,400 Watts

26 Amps

31 Amps

10 AWG Wire

5 Ton

6,000 Watts

27 Amps

34 Amps

10 AWG Wire


You can use calculations based on the AC unit's tonnage and voltage to determine the wire size. For example, a 1.5-ton AC unit with a maximum wattage of 1,800W typically requires a wire size of 18 AWG, while a 5-ton AC unit with a maximum wattage of 6,000W requires a wire size of 10 AWG.

The 80% NEC rule is an important consideration. The AC amp draw should be at most 80% of the wire's total ampacity. To account for this, the calculated amp draw is multiplied by a factor of 1.25. This ensures the wire can handle the current without overheating or causing safety issues.

Importance of Choosing the Right Wire for Air Conditioners

Choosing the suitable wire for air conditioners is crucial for optimal performance and safety. Let's take a look at the top reasons why you shouldn't overlook this aspect:

  • Efficient Power Transmission: The appropriate wire gauge ensures efficient power transmission, minimizing energy loss and voltage drop. This means better cooling efficiency and reduced electricity consumption, ultimately saving costs.
  • Overload Protection: Using wires with the correct current-carrying capacity prevents the overloading of the electrical circuit. Undersized wires may overheat, leading to potential damage or fire hazards. Properly sized cables provide the necessary protection, ensuring the safe operation of the air conditioner.
  • Voltage Stability: The proper wire selection helps maintain voltage stability during operation. Inadequate wiring can result in voltage fluctuations, leading to inconsistent cooling performance, frequent breakdowns, or premature component failure.
  • Compliance with Electrical Codes: Choosing the appropriate wire size and type ensures compliance with electrical codes and safety regulations. These standards are essential to prevent electrical hazards, protect equipment warranties, and maintain insurance coverage.
  • Longevity and Reliability: Optimal wire selection enhances the longevity and reliability of the air conditioning system. Properly sized and insulated wires minimize the risk of short circuits, equipment damage, and premature failure, ensuring a longer lifespan for the unit.

Choose the right wires for your air conditioners, and you will maximize energy efficiency, enhance safety, and promote the overall performance and durability of your cooling systems.

What Types of Cables Are Used To Power Air Conditioners?

Air conditioners require specific types of cables to ensure a safe and reliable power supply. Here are the main types of cables used to power air conditioners:

  • NM-B Romex: NM-B Romex cables are commonly used in residential and commercial applications. These cables consist of multiple conductors encased in a non-metallic sheath. They are designed to handle the electrical load required by air conditioners efficiently. NM-B Romex cables are known for their durability, flexibility, and ease of installation, making them the primary choice for powering air conditioning units in residential and commercial buildings.
  • THHN: THHN cables are also widely used in residential and commercial applications. These cables are made of thermoplastic insulation and a nylon jacket, providing excellent heat, moisture, and abrasion resistance. THHN cables have high ampacity ratings and are suitable for powering air conditioners efficiently.
  • MICC Mineral Insulated Copper Clad Fireproof Cable: MICC cables are specifically designed for industrial air conditioner systems. These cables have a unique construction, consisting of a copper-clad conductor surrounded by mineral insulation. MICC cables are highly fire-resistant, providing enhanced safety in industrial settings.

When choosing the appropriate cable, consider the application (residential, commercial, or industrial), electrical load requirements, and safety regulations.

Vita Chernikhovska profile picture

Author Bio

Vita Chernikhovska

is a dedicated content creator at Nassau National Cable, where she simplifies complex electrical concepts for a broad audience. With over a decade of experience in educational content and five years specializing in wire and cable, her work has been cited by authoritative sources, including the New York Times. Vita's popular series, such as 'What is the amp rating for a cable size' and 'How to wire different switches and appliances,' make technical information accessible. She also interviews industry professionals and contributes regularly to the wire and cable podcast.

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