Electronics > Beginners

Can anyone help me to understand wire gauge?

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Cnoob:
standard hook up wires sizes are 7/0.2 (1.5A), 16/0.2 (3.0A), 24/0.2(4.5A) and 32/0.2(6.0A) at 85C.

First number is number of strands, second is diameter of each strand. Cross sectional area is number of strands times diameter of each strand divided by 2 pie: (16*0.2)/2*3.14.

I have include a link to a wire chart but you can also look up Wikipedia for AWG and have tables show metric equivalents.

https://www.canford.co.uk/Technical/Article/MetricAWGWireSizeEquivalents

I hope this is of some help.

ArthurDent:
This link will give you more info than you need but it does have everything. It lists larger AWG sizes on the top part of the chart and smaller AWG/metric on the lower part. The chart column you'd be interested in for choosing wire size for a needed current handling capacity is 'chassis wiring'.

The way I see you using the chart is, say you want to choose wire for 3.5A, you look down the chassis wiring column to 3.5A then read over to the left hand column to see AWG 24 is what you need. If you want to figure what stranding wire to use you can figure that, if you use 7 strand wire, you divide 3.5A by 7 and each strand would need to be able to carry about 0.5A and using the chart, AWG 32 will handle 0.53A so 7/32 stranded wire in AWG will work.

If you're calculating this metrically, then for 7 strand wire go to the lower part of the chart and see that right below 32 AWG there is metric 2.0 (equal to 0.2MM from the 'conductor diameter mm' column) that is rated 0.51A so 7/0.2 is the metric stranded wire size you would need for 3.5A.

http://www.powerstream.com/Wire_Size.htm

Cerebus:

--- Quote from: Cnoob on July 04, 2018, 12:48:32 pm ---First number is number of strands, second is diameter of each strand. Cross sectional area is number of strands times diameter of each strand divided by 2 pie: (16*0.2)/2*3.14.

--- End quote ---

Apple or cherry pie? Your maths is, how can I put this nicely, not exactly quite right in the sense that it's completely wrong.

The area of a circle is ∏r2, not ∏d/2. So the cross sectional area is in fact the number of strands times pi times the radius squared of an individual strand. e.g in the case of 16/0.2mm, cross sectional area = 16 * 3.14159 * 0.12  ~ 0.5mm2.

Docara:
Hi LektroiD,

I notice your in the UK - I'm a UK spark. I will give you some info about cabling in the electrical world that should also apply in the electronic world (in the UK at least)

In my experience the only time you will probably come across AWG in anger is with marine or solar cabling or buying cable from abroad. Purchasing overseas is not a good idea because of our VERY high standards pertaining to grades of copper and insulation values of cables which are all covered by the BSI. All cables need to have a BS number. I've been on 1 big installation where we have had to strip out the whole of the cable out because they didn't meet our regs.

Now, we use CSA or Cross Sectional Area for our 'units' pertaining to cable size and are in mm squared (mm2 from now on). So Xmm2 cable will give you XMM2 of copper which determines your basic current carrying capacity eg 1mm2 = 13A, 2.5mm2 = 23Amps and  10mm2 =45A for a shower or cooker And the incoming cables to your house will be 16mm2 or more likely 25mm2. So on a house ring circuit the total theoretical current carrying capacity wound be 46A but we would install a 32A breaker. (In the electrical world you then apply 'De-rating Factors' to this cable to take into account fixing methods, temperature and volt drops).
Electrically we have fixed sizes of cable 1mm2, 1.5mm2, 2.5mm2, 4mm2, 6mm2 10mm2, 16mm2, 25mm2, 35mm2 50mm2, 70mm2, 95mm2, 120mm2 up to 400mm2 in normal usage. However there are smaller sizes outside these figures eg panel wiring 0.5mm2, 0.75mm2.

These can also have the a strand figure instead of CSA for small cable eg automotive which you sometimes see as for example - 7/0.30 meaning there are 7 strands at 0.30mm DIAMETER not CSA so (PI r^2) x strands gives you the CSA of the cable

This sort of sizing system applies across all 'normal' home grown cables you will buy in the UK and most of (f***ing) Europe


AWG - American Wire Gauge

I don't know too much about them but what I do know is as follows:-

Unless your an American or Canadian they are counter intuitive and confusing to use. The American's, in their wisdom, have decided to have the smallest number reflecting the biggest cables so a cable 000 AWG is bigger than 0 AWG, 3 AWG is smaller than 1 AWG. Their sizes are for diameter in thousanths of an inch so 3 AWG = 0.2294" NOT CSA which we use.

The trouble comes when you have a connector which originated in the US and you have to use this tool with that die in this crimper blah blah eg Molex. I have had to do many connections on a board a boat using UK sourced cabling and Molex, Tyco kit and it is painful VERY painful, when you look at the crimper with AWG numbers on it which don't really mean anything to us aarrgghh!

In the end I resorted to knocking up a laminated sheet with AWG cable conversions and crimp sizes on it which worked well and carried it with me.

Finally, in all honesty if you HAVE to use AWG just hit the internet and use an online conversion tool which gives you a comparable CSA figure. If you use CSA values you can cross reference it to our system very easily, and remember go up a size if in doubt!

I have included a link to a site which should help you out, unfortunately it's geared towared power ditribution but you should work it out OK. Towards the buttom is a cable calculator and a little further down is AWG converter.

https://www.12voltplanet.co.uk/cable-sizing-selection.html

Hope this helps

Matt

ArthurDent:
The link I referenced above will allow you to easily convert from AWG to metric for the sizes you are interested in and to calculate the number of strands and wire size used in stranded wires for point to point wiring which sounded like what you were looking for.

If you are planning on using 2-3 wires to make a cable, you have to derate the current rating of a single wire by a factor of 1.75 to 2. The more wires in the cable, or the longer the run, the more you have to derate.

You can see from the chart I referenced that a single 12 AWG can handle 41 amps while NEMA code for 12-2 with ground cable used in house wiring in the U.S. (up to about 50 feet) is rated at 20A.  Over about 50 feet you have to go to AWG 10 to compensate for losses caused by wire resistance. Ambient temperature can also be a factor in some cases.

There is an application where I’m concerned about a microvolt drop across a 6 inch long AWG 24 single wire caused by a 35 ma current and careful grounding and remote current sensing are necessary. Depending what you are trying to accomplish, and your particular needs, these are just guidelines. 

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