If you’re working on a project that involves electrical wiring, you may have heard the term “AWG magnet wire.” But what exactly is AWG magnet wire, and how can you determine the right size for your needs? The AWG magnet wire size chart is a handy tool that can help you navigate the different gauges available. AWG stands for American Wire Gauge, a system that has been used since the 1800s to standardize the diameter of electrically conducting wire.
Magnet wire, also known as enameled wire, is a type of wire that’s coated in a thin layer of insulation, allowing it to be used in a range of electrical applications. The AWG magnet wire size chart lists the different gauge sizes of magnet wire, which range from 18 to 4 The higher the gauge number, the thinner the wire.
AWG Magnet Wire
AWG Size ▴ | Nominal Bare Wire Diameter | Film Addition Min | Film Addition Max | Outside Diameter Min | Outside Diameter Nom | Outisde Diameter Max | Pounds/MFT Nominal | Feet/Pounds Nominal | OHMS/MFT Nominal | OHMS/Pound Nominal | Wire Per Square Inch |
8 | .1285 | .0016 | .0026 | .1288 | .1306 | .1324 | 50.23 | 19.91 | 0.6281 | 0.0125 | 59 |
9 | .1144 | .0016 | .0026 | .1149 | .1165 | .1181 | 39.80 | 25.13 | 0.7925 | 0.01991 | 74 |
10 | .1019 | .0015 | .0025 | .1024 | .1039 | .1054 | 31.57 | 31.68 | 0.9987 | 0.03163 | 93 |
11 | .0907 | .0015 | .0025 | .0913 | .0927 | .0941 | 25.05 | 39.92 | 1.261 | 0.0503 | 116 |
12 | .0808 | .0014 | .0024 | .0814 | .0827 | .0840 | 19.93 | 50.18 | 1.588 | 0.0797 | 146 |
13 | .0720 | .0014 | .0023 | .0727 | .0739 | .0750 | 15.81 | 63.25 | 2.001 | 0.1266 | 183 |
14 | .0641 | .0014 | .0023 | .0649 | .0660 | .0670 | 12.50 | 80.80 | 2.524 | 0.2019 | 230 |
15 | .0571 | .0013 | .0022 | .0578 | .0589 | .0599 | 9.95 | 100.50 | 3.181 | 0.3197 | 288 |
16 | .0508 | .0012 | .0021 | .0515 | .0525 | .0534 | 7.89 | 126.70 | 4.018 | 0.5093 | 363 |
17 | .0453 | .0012 | .0020 | .0460 | .0469 | .0478 | 6.26 | 159.70 | 5.054 | 0.8073 | 455 |
18 | .0403 | .0011 | .0019 | .0410 | .0418 | .0426 | 4.97 | 201.20 | 6.386 | 1.2849 | 572 |
19 | .0359 | .0011 | .0019 | .0366 | .0374 | .0382 | 3.95 | 253.20 | 8.046 | 2.037 | 715 |
20 | .0320 | .0010 | .0018 | .0327 | .0334 | .0341 | 3.13 | 319.50 | 10.13 | 3.2364 | 896 |
21 | .0285 | .0010 | .0018 | .0292 | .0299 | .0306 | 2.483 | 402.70 | 12.77 | 5.143 | 1119 |
22 | .0253 | .0010 | .0017 | .0260 | .0267 | .0273 | 1.970 | 507.60 | 16.2 | 8.223 | 1403 |
23 | .0226 | .0009 | .0016 | .0233 | .0239 | .0244 | 1.565 | 650.00 | 20.3 | 12.971 | 1751 |
24 | .0201 | .0009 | .0015 | .0208 | .0213 | .0218 | 1.240 | 805.50 | 25.67 | 20.702 | 2204 |
25 | .0179 | .0009 | .0014 | .0180 | .0191 | .0195 | .988 | 1012.1 | 32.37 | 32.763 | 2741 |
26 | .0159 | .0008 | .0013 | .0165 | .0170 | .0174 | .784 | 1276 | 41.02 | 52.32 | 3460 |
27 | .0142 | .0008 | .0013 | .0149 | .0153 | .0156 | .623 | 1605 | 51.44 | 82.57 | 4272 |
28 | .0126 | .0007 | .0012 | .0132 | .0136 | .0139 | .495 | 2820 | 65.31 | 131.94 | 5407 |
29 | .0113 | .0007 | .0012 | .0119 | .0123 | .0126 | .394 | 2538 | 81.21 | 206.12 | 6610 |
30 | .0100 | .0006 | .0011 | .0155 | .0109 | .0112 | .312 | 3205 | 103.7 | 332.37 | 8417 |
31 | .0089 | .0006 | .0010 | .0094 | .0097 | .0100 | .2480 | 4032 | 130.9 | 527.8 | 10628 |
32 | .0080 | .0006 | .0010 | .0085 | .0088 | .0091 | .1966 | 5086 | 162 | 824 | 12913 |
33 | .0071 | .0005 | .0009 | .0075 | .0078 | .0081 | .1570 | 6369 | 205.7 | 1310.2 | 16437 |
34 | .0063 | .0005 | .0008 | .0067 | .0070 | .0072 | .1244 | 8039 | 261.3 | 2100.5 | 20408 |
35 | .0056 | .0004 | .0007 | .0059 | .0062 | .0064 | .0989 | 10111 | 330.7 | 3343.8 | 26015 |
36 | .0050 | .0004 | .0007 | .0053 | .0056 | .0058 | .0788 | 12690 | 414.8 | 5264 | 31888 |
37 | .0045 | .0003 | .0006 | .0047 | .0050 | .0052 | .0624 | 16026 | 512.1 | 8207 | 40000 |
38 | .0040 | .0003 | .0006 | .0042 | .0045 | .0047 | .0494 | 20243 | 648.2 | 13121 | 49383 |
39 | .0035 | .0002 | .0005 | .0036 | .0039 | .0041 | .0393 | 25445 | 846.6 | 21542 | 65746 |
40 | .0031 | .0002 | .0005 | .0012 | .0035 | .0037 | .0313 | 31949 | 1079 | 34473 | 81633 |
41 | .0028 | .0002 | .0004 | .0029 | .0031 | .0033 | .02470 | 40486 | 1323 | 53563 | 104058 |
42 | .0025 | .0002 | .0004 | .0026 | .0028 | .0030 | .01946 | 51387 | 1659 | 85252 | 127551 |
43 | .0022 | .0002 | .0003 | .0023 | .0025 | .0026 | .01548 | 64599 | 2143 | 138437 | 160000 |
44 | .0020 | .0001 | .0003 | .0020 | .0022 | .0024 | .01233 | 81103 | 2593 | 210300 | 206611 |
45 | .00176 | .0001 | .00022 | .00179 | .0012 | .00205 | .00965 | 103627 | 3348 | 346943 | 345304 |
46 | .00157 | .0001 | .00021 | .00161 | .00173 | .00185 | .00767 | 130378 | 4207 | 548501 | 420521 |
47 | .00140 | .0001 | .00024 | .00145 | .00158 | .00170 | .00615 | 162602 | 5291 | 860325 | 510204 |
48 | .00124 | .0001 | .00021 | .00129 | .00140 | .00150 | .00487 | 205339 | 6745 | 1385010 | 649773 |
49 | .00111 | .0001 | .00014 | .00117 | .00240 | .00130 | .00385 | 258000 | 8417 | 2200000 | |
50 | .00099 | .0001 | .00017 | .00105 | .00112 | .00120 | .00310 | 312000 | 10580 | 3400000 | |
51 | .00088 | .00010 | .00018 | .00095 | .00102 | .00110 | .00240 | 416600 | 13390 | 5500000 | |
52 | .00078 | .00010 | .00019 | .00085 | .00092 | .00100 | .00180 | 555000 | 17050 | 9400000 | |
53 | .00070 | .00005 | .00031 | .00072 | .00079 | .00085 | .00150 | 667000 | 21170 | 14000000 | |
54 | .00062 | .00005 | .00020 | .00065 | .00070 | .00075 | .00120 | 859000 | 26980 | 23000000 | |
55 | .00055 | .00005 | .00013 | .00058 | .00064 | .00070 | 0.00092 | 1090000 | 34280 | ||
56 | .00049 | .00005 | .00014 | .00052 | .00059 | .00065 | 0.00072 | 1380000 | 43190 |
What is AWG Magnet Wire?
AWG magnet wire is a type of wire that is used in electrical applications where a compact and powerful electromagnet is required. The “AWG” in AWG magnet wire stands for American Wire Gauge, which is a standardized system used to measure wire size. The AWG magnet wire size chart ranges from 58 to 4/0 and each gauge represents different measurements of the wire’s diameter.
The lower the number of the gauge, the thicker the wire. AWG magnet wire is made from a variety of materials including copper and aluminum and comes in a range of insulation thicknesses, colors, and types. This wire is commonly used in applications that require high-performance and reliability such as in motors, transformers, and solenoids.
AWG magnet wire plays a crucial role in many industries, so it is important to choose the right size and type to ensure optimal performance and safety. If you’re unsure of which AWG magnet wire to choose, be sure to consult the AWG magnet wire size chart or speak to an expert in the field.
Defining the Basics of AWG Magnet Wire Sizes
AWG Magnet Wire AWG magnet wire is a type of wire that is used for making electromagnets and other types of electrical coils. It is a type of wire that is made out of copper or aluminum and is coated with a layer of insulation. This insulation layer is important as it helps to prevent the wire from short circuiting or overheating during use.
The term “AWG” stands for American wire gauge and is a standard that is used for measuring the size of the wire. The size of the wire is important as it determines how much current the wire can carry without getting damaged. The larger the wire size, the more current it can carry.
AWG magnet wire is commonly used in a variety of applications such as motors, transformers, and generators. It is an essential component in many different types of electronics and is an important tool for anyone working in the field of electrical engineering.
Importance of a Wire Size Chart
An AWG magnet wire size chart is an essential tool for any electrical engineer or DIY enthusiast. It can be daunting to figure out the correct wire size to use for a specific application, especially if you’re not familiar with the American Wire Gauge (AWG) system. Thankfully, an AWG magnet wire size chart takes the guesswork out of the equation and ensures that you use the right wire size for your project.
Not only does using the correct wire size promote safety and efficiency, but it also saves you time and money in the long run by reducing the risk of electrical failures or damage to your equipment. Whether you’re wiring a simple circuit or working on a complex project, referencing an AWG magnet wire size chart should be a top priority before getting started. Don’t take chances with your electrical work – consult a wire size chart and ensure that your project is a success.
Matching Your Project’s Needs to the Correct Gauge
Choosing the right wire gauge is crucial in any project, whether you’re creating a circuit board or wiring a new appliance. Using a wire size chart is essential to ensuring that you’re using the appropriate wire thickness for your project. Without the right gauge, you risk causing damage or creating a safety hazard.
The wire gauge refers to the wire’s diameter, and as the thickness increases, the gauge number decreases. It’s important to note that thicker wires can handle more significant amounts of current, making them a better choice for high-power applications. In contrast, thinner wires are better suited for low-power applications.
By matching your project’s needs to the correct gauge and ensuring that the wires are properly installed, you’ll be able to create a safe and effective electrical system that will last for years to come.
AWG Magnet Wire Size Chart
If you’re working with electronics, you’ll likely come across the need to use magnet wire – a type of wire coated in insulation that’s perfect for coils. But choosing the right size can be tricky, which is where the AWG magnet wire size chart comes in. AWG stands for American Wire Gauge, and it’s a standardized system used to measure wire diameters.
The chart lists the different sizes of wire, from 4/0 (the thickest) to 40 (the thinnest), along with their corresponding millimeter equivalents. It’s important to choose the right size for your project, as using wire that’s too thin can result in too much resistance and overheating, while wire that’s too thick can take up too much space and be difficult to work with. Using the AWG magnet wire size chart can ensure you choose the perfect wire for your needs, helping you to create efficient and effective coils for all your electronic projects.
Overview of the Chart’s Information
The AWG Magnet Wire Size Chart is an important tool for those working with electrical equipment and wiring. Essentially, this chart provides information on the size of magnet wire needed for different electrical applications. The chart includes a range of wire gauges from 36 gauge to 4/0, and provides the corresponding diameter, turns of wire per inch, and current capacity of each wire gauge.
This information is crucial for determining the appropriate wire size for a given application and ensuring that the equipment is safe and efficient. In short, the AWG Magnet Wire Size Chart is an essential resource for anyone working with electrical equipment, from DIYers to professional electricians and engineers. So, if you want to ensure the safety and effectiveness of your electrical equipment, make sure to consult this chart!
Interpreting the Chart’s Data for Your Project
If you’re working on a project that requires the use of magnet wire, it’s important to select the right size for optimal performance. That’s where the AWG Magnet Wire Size Chart comes in. This chart provides valuable information regarding the diameter, resistance, and maximum current carrying capacity of various AWG sizes of magnet wire.
By utilizing this chart, you can ensure that you’re selecting the proper wire size for your specific project needs. It’s important to note that smaller wire sizes have higher resistance and are not ideal for high-current applications. On the other hand, larger wire sizes have lower resistance but may not be practical in projects with limited space or weight restrictions.
So, take the time to interpret the chart’s data and choose the appropriate magnet wire size for your project to ensure optimal results.
Common AWG Magnet Wire Applications
If you’re in the electrical industry, then you’re likely familiar with the American Wire Gauge (AWG) system that’s used to designate the diameters of copper and aluminum wire.The AWG wire size chart is a useful reference tool to determine the appropriate size of wire for specific applications, such as magnet wire. Magnet wire, also known as winding wire, is a insulated copper or aluminum wire that’s used for making coils that create magnetic fields.
This type of wire is widely used in various electrical devices, including motors, transformers, and generators. The AWG gauge number for magnet wire typically ranges from 10 to 38, with smaller numbers indicating thicker wire. For instance, thinner wire gauges such as 38 AWG are best utilized for intricate and detailed applications like inductors and sensors with a small winding area.
Whereas thicker wire gauges like 10 AWG are mostly used for winding motors and generators with larger winding areas. Overall, it’s essential to consult an AWG magnet wire size chart to ensure that the wire size is appropriate for your specific application to prevent overheating or electrical failures.
Wire Sizing for Electronics Projects
When working on electronics projects, wire sizing is crucial to ensure proper functioning and safety. One of the most common types of wire used is AWG magnet wire, which is also known as enameled wire due to its thin coating of insulation. This type of wire is commonly used in motors, transformers, and other electromagnetic systems due to its ability to efficiently conduct electricity.
The size of the wire is determined by its AWG (American Wire Gauge) measurement, with a lower number indicating a thicker wire. For example, a 16 AWG wire is thicker than a 24 AWG wire. It’s essential to choose the correct size of wire for your project, as using a wire that is too thin can lead to overheating and potential safety hazards.
Always consult a wire gauge chart or seek guidance from a professional if you’re unsure of what size wire to use.
Magnet Wire for Transformers and Motors
Magnet wire is an essential component in the manufacturing of transformers and motors. It refers to a wire that has been coated with insulation made from a thin layer of enamel or polymer. This insulation is crucial in preventing electrical current from escaping, which is vital in transformer and motor applications.
Common AWG magnet wire applications include the winding of coils in motors and transformers as it can withstand high temperatures and has excellent insulation properties. Additionally, it is used in the manufacturing of solenoid valves, inductors, and magnetic head actuators. The American Wire Gauge (AWG) system is used to measure the wire’s diameter and is a crucial factor in determining the wire’s resistance, current-carrying capacity, and insulation thickness.
The magnet wire is available in various diameters and insulation thicknesses, allowing manufacturers to choose a wire that meets their specific needs. Overall, magnet wire is an essential part of transformer and motor construction, and it is vital to select the right wire to ensure the device’s proper functioning.
Conclusion
There’s no denying that the AWG magnet wire size chart can be a bit overwhelming at first glance. But fear not! With a little bit of understanding and a lot of patience, it can unlock a world of possibilities for all your electrical and engineering needs. Whether you’re looking to build a motor or design a transformer, the right wire size is key to achieving optimal performance.
So toss out your old wire gauge and embrace the world of AWG magnet wire sizes – trust us, you won’t regret it!”
FAQs
What is AWG magnet wire size?
AWG magnet wire size refers to the American Wire Gauge (AWG) measurement used for magnet wire, which is a type of insulated copper wire used for electromagnets and other applications.
What is the difference between AWG magnet wire size and regular wire size?
AWG magnet wire size is typically smaller than regular wire size, as it needs to fit inside tight spaces within electromagnets and other devices.
What are the common AWG magnet wire sizes?
Common AWG magnet wire sizes range from 18 to 40, with 18 being the thickest and 40 being the thinnest.
How do I choose the right AWG magnet wire size for my application?
The right AWG magnet wire size depends on factors such as the amount of electricity needed, the size of the device it will be used in, and any space restrictions. It’s best to consult a wire chart or professional to determine the appropriate size.