Level 3 C&G cable sizing calculations

[EFLImpudence]

So what you do is, get a figure for It, look up a cable size that has capacity of equal to or greater than that, find the voltage drop, calculate it, check against limits (<11.5V) and if bigger, go to next cable up. That's how you get the numbers.

Yes, I know but in the C&G example, the volt drop on 2.5mm² is very low so no need to have larger cable.

Regarding resistance, when you say quarter, you mean because it's Line and Neutral lengths in parallel with Line and Neutral again to form the ring?

A ring is two cables in parallel each of which is half the length of the circuit.
18 x 20 x 37 / 4 / 1000 = 3.32V

I'm not sure thats right as the length given is the length of the whole cable, not the middle of the ring.

It works out the same 2 x 9 = 17 + 1.

Table F6 gives drop for a 2.5mm2 cable of 18mV,

Yes.

so this is for the line and neutral, so 9mV drop on each per meter, per amp. 9mV drop on 2.5mm2 wire gives a resistance of 0.009 ohms. A resistivity of 2.25x10-8, pretty close to pure copper of 1.77x10-8

The resistance of 2.5mm² conductors is 7.32 mΩ/m

7.32 x 1.2 (temperature adjustment for 70º) = 8.784 x 2 = 17.568 (the 18 value) mV/A/m.

 

[richardindorset]

Yes, I know but in the C&G example, the volt drop on 2.5mm² is very low so no need to have larger cable.


A ring is two cables in parallel each of which is half the length of the circuit.
18 x 20 x 37 / 4 / 1000 = 3.32V


It works out the same 2 x 9 = 17 + 1.


Yes.


The resistance of 2.5mm² conductors is 7.32 mΩ/m

7.32 x 1.2 (temperature adjustment for 70º) = 8.784 x 2 = 17.568 (the 18 value) mV/A/m.

OK, so let me see if I have this right, per metre, per amp, there's 9mV drop in the live and 9mV drop in the neutral. For a ring, you have another pair in parallel, so the volt drop is half on each side. 4.5mV in all 4 wires, per amp, per metre. 9mV in total. Half of the 18mV.

The length of the ciruit in a ring is the whole length of the cable from the DB and back again.

I can only see the 18mV divded by 2 as the 18mV is for a pair of conductors.