How to determine wire gauge

[chevynut]

Don't use this chart from AAW!!!

https://www.americanautowire.com/vie...tomotive-wire/

How to determine the gauge (AWG) of automotive wire

Make a small cut about 1/2″ long in the wire insulation and remove it. Count the individual strands of copper that make up the wire. Next, use a micrometer and measure one of the strands. Now use the following chart to determine the gauge of your automotive wire.


7/ .028 = 20 AWG (7 strands that measure .028 each equals 20 gauge)
16/ .030 = 18 AWG
19/ .029 = 16 AWG
19/ .027 = 14 AWG
19/ .025 = 12 AWG
19/ .023 = 10 AWG
19/ .021 = 8 AWG
37/ .021 = 6 AWG

A quick glance tells you it's wrong. The individual strands get smaller as the wire size gets bigger. I wonder how long they've had that FAQ up.


This one is better but has more variants:

https://electronics.stackexchange.co...wn-wires-gauge

[BamaNomad]

CN? Do you have and are you using a 'wire gauge' tool as shown here in this link? I happen to have one I inherited from my father ...

https://www.wikihow.com/Gauge-Wire#G...anded_Wire_sub

There's a pretty good definition of awg and how to calculate it here..
https://en.wikipedia.org/wiki/American_wire_gauge

[chevynut]

I don't have that tool and it looks like you still have to calculate the gauge, or at least count the strands. With the appropriate chart (Not AAW's ) you can just measure one strand with a caliper and count the number of strands.

I can pretty much tell the gauge of most wires by looking at them, but sometimes 18 and 20 gauge look very similar. For the most part I have been using a caliper and measuring the overall diameter with insulation. It's a pretty good way to determine wire gauge on wires from the same source and same insulation type. I have found that 20 gauge is about .080", 18 gauge is about .090", 16 gauge is about .100" and 14 gauge is around .115". For smaller wires it doesn't matter much to me what the size is, because they're low current signal wires for the most part, not power wires. Also, when stripping the insulation my wire strippers pretty much tell me the wire size too. If I try to strip 18 gauge with the 20 gauge notch, it will cut some strands. If I try to strip 18 gauge with the 16 gauge notch, it won't cut all the insulation making stripping difficult.

[Rick_L]

Most wire is stranded in geometric progressions of 6 because this is the way the stranding machines are tooled up. The same wire gauge is used for each individual strand.

A single strand speaks for itself.
The next progression is 6 strands around 1 for a total of 7 strands. The diameter of the stranded conductor is 3 * the diameter of a single strand.
The next progression is 12 strands around the previous 7 for a total of 19 strands. The diameter of the stranded conductor is 5 * the diameter of a single strand.
The next progression is 18 strands around the previous 19 for a total of 37 strands. The diameter of the stranded conductor is 7 * the diameter of a single strand.

The cross sectional area (current capacity) is the strand area * the number of strands.

If you were to draw this up to scale, you'd see that this puts strands in contact tangent to tangent everywhere with no gaps, packing the strands into the smallest overall package.

Fewer, bigger strands will give you more cross sectional area of conductor and current capacity for a given overall gauge. More, smaller strands will give you more flexibility but less cross sectional area. That's why welding cable has so many tiny strands, it's for flexibility.

[55 Rescue Dog]

There are many other factors to consider for current carrying capacity of a conductor beside wire gauge, such as insulation type, temperature, and length.
IMG_5344.JPGIMG_5345.JPG

[chevynut]

There are many other factors to consider for current carrying capacity of a conductor beside wire gauge, such as insulation type, temperature, and length.

The thread is about determining wire gauge for a wire, not current capacity. And most of that stuff you're showing is irrelevant to automotive wiring. That's for single conductor building wires. A chart like one of these is much more relevant to automotive wiring ....I have a better one somewhere:

[55 Rescue Dog]

The thread is about determining wire gauge for a wire, not current capacity. And most of that stuff you're showing is irrelevant to automotive wiring. That's for single conductor building wires. A chart like one of these is much more relevant to automotive wiring ....I have a better one somewhere:

Gee, I'm sorry. I thought the discussion WAS about wire gauge, which is what I was referring to, and it doesn't matter whether it is 5 volts, or 500 hundred volts to determine wire size, which tells you about how much current it can safely carry. As far as measuring the actual size using a micrometer to measure every strand on every wire is really not that necessary for automotive wire. It is either printed on the wire, or like you said, it's pretty easy to check with wire strippers. Multiple connections are a bigger concern usually. EVERY electrical problem simply comes down to Ohm's Law, from 1827, 192 years ago. I=E/R= AWG

[BamaNomad]

Yes, temperature and wire length are factors wrt current carrying capability (but not insulation material!). But the TOPIC here is GAUGE and none of those factors have anything to do with wire gauge.

[Rick_L]

You start with wire gauge and construction. Insulation does not enter the picture for current carrying capacity. Voltage, temperature, and service conditions are what affects insulation choice.

[55 Rescue Dog]

You might want to look at the chart again. Current carrying capacity is affected by insulation, which also involves temperature, and has nothing to do with voltage. Also they are rated in free air, not all bundled up. Almost all quality wire has the gauge size, voltage, and temperature rating printed on it. Depending on the conditions, you need to go to the next bigger wire gauge even if the wire gauge is capable of carrying the amperage for the device, otherwise you can get a voltage drop, and as the wire gets hotter the resistance goes up.