Wires are widely used in the field of electrical networks for various purposes. At first glance, the transportation of energy through cable and wire products seems simple and straightforward.
However, to ensure the safe operation of electrical wiring, it is necessary to take into account a number of important nuances in the design and construction of electrical networks. One of such details is the ability to correctly calculate the wire cross-section by diameter, because the boundary of the permissible current passing through the conductor depends on the accuracy of the determination.
How to determine the cross section or diameter, is there a difference between these parameters? We will try to understand the article. In addition, we have prepared summary tables that will help you choose a conductor depending on the conditions of installation of the electrical network, the material for manufacturing the cable core and the power characteristics of the connected units.
The need and procedure for the calculation
A variety of equipment with different capacities is powered by electric current. And the range of capacities is very extensive.
Each individual electrical apparatus represents a load, depending on the magnitude of which a current supply of a certain strength is required.
By “default” or banal ignorance of the basics of electrics, conductors are easy to connect, ignoring all existing requirements for diameters and cross sections. Another question is what can be obtained from such practice during operation.
The required amount of current for the required load can be passed through wires of different diameters (cross-sections).
But in conditions of insufficient conductor cross-section for the passage of a given volume of current, the effect of increased resistance arises. As a result, heating of the wire (cable) is noted.
If you ignore this phenomenon and continue to pass current, there is a real danger of heating up to the moment of ignition. This situation threatens with a serious emergency. That is why the calculations and selection of current transfer circuits to the load require special attention.
The consequences of inaccurate calculations of electrical conductors along the cross-section (diameter) can be accompanied by phenomena from slight deformation of the insulating material to real fire and major fire
Correct calculation, proper selection of cables and wires has a positive effect on the operation of equipment acting as a load.
So, in addition to the safety factor, the calculation of the cross-sections of the electric cable by diameter or vice versa is a mandatory action from the point of view of ensuring the efficient operation of electric machines.
Determination of the conductor core diameter
Actually, you can perform this operation with a simple linear measurement. For accurate measurement, it is recommended to use a point instrument, for example, a caliper, or even better, a micrometer.
A relatively low accuracy result, but quite acceptable for many applications of the wires, gives a diameter measurement with an ordinary ruler.
Measurement and determination of the diameter of the core with a point instrument, which is a vernier caliper. This method of linear measurement gives a result accurate enough for the subsequent calculation of the cross section of the conductor
Of course, the measurement should be carried out in the state of the bare conductor, that is, the insulation coating is first removed.
By the way, an insulating coating, for example, of a copper wire, is also considered a thin layer of varnish spraying, which also needs to be removed when a very accurate calculation is required.
There is a “household” method of measuring diameter, suitable in cases where there are no point measuring instruments at hand. To use the method, you will need an electrician's screwdriver and a school ruler.
The conductor for measurement is preliminarily stripped of insulation, after which it is wound tightly round to round on the screwdriver bar. Usually a dozen turns are wound - a convenient number for mathematical calculations.
Linear diameter measurement is another common way to determine the conductor parameter for calculating power (throughput). It is used using an ordinary ruler and any base where it is permissible to wind the conductor (+)
Next, the coil wound on the screwdriver rod is measured with a ruler from the first to the last turn. The obtained value on the line must be divided by the number of turns (in this case, by 6). The result of such a simple calculation will be the diameter of the wire core.
Calculation of the cross section of the electric wire
To determine the value of the cross section of the conductor core, you will have to use the mathematical formulation.
In fact, the cross-section of the conductor core is the cross-sectional area - that is, the area of the circle. The diameter of which is determined by the method described above.
The core section is actually the area of a circle. Accordingly, the calculation of this segment of geometric mathematics can be performed using a traditional formula, provided that the known value of the diameter or radius
Based on the diameter value, it is easy to obtain the radius value by dividing the diameter in half.
Actually, you need to add the π constant (3.14) to the data obtained, after which you can calculate the cross section value using one of the formulas:
S = π * R2 or S = π / 4 * D2,
Where:
- D - diameter;
- R - radius;
- S - transverse section;
- π Is a constant corresponding to 3.14.
These classical formulas are also used to determine the cross section of stranded conductors. The calculation strategy remains virtually unchanged, with the exception of some details.
In particular, the cross section of one core from the beam is initially calculated, after which the result is multiplied by the total number of wires.
The cross-section of a multicore conductor can be calculated using the same mathematical method that applies to a single wire, but the number of existing cores as a factor is additionally taken into account
Why should cross section determination be considered an important factor? The obvious point, connected directly by the Joule-Lenz law, is because the boundary parameter of the conductor determines the limit of the permissible current flowing through this conductor.
Sectional diameter determination
It is permissible by mathematical calculation to determine the diameter of the conductor core when the section parameter is known.
This, of course, is not the most practical option, given the availability of simpler methods for determining the diameter, but the use of this option is not excluded.
Measurement of the diameter with high accuracy using a bench tool - a micrometer, gives almost the same result when the calculations are carried out using the formula
To perform the calculation, you will need virtually the same numerical information that was used to calculate the cross section using a mathematical formula.
That is, the constant "π" and the value of the area of the circle (section).
Using these formula values below, the diameter value is obtained:
D = √4S / π,
Where:
- D - diameter;
- S - transverse section;
- π Is a constant corresponding to 3.14.
The application of this formula may be relevant when the section parameter is known and there are no suitable tools for measuring the diameter at hand.
The cross-section parameter can be obtained, for example, from the documentation for the conductor or from the calculation table, which presents the most commonly used classic options.
Tables for choosing a suitable conductor
A convenient and practical option for selecting the desired wire (cable) is the use of special tables, which indicate the diameters and cross sections relative to the power and / or conducted currents.
Having such a table at hand is an easy and simple way to quickly determine the conductor for the required electrical installation.
Determining the desired values using the classic table is one of the most convenient ways to select the required conductor during installation work
Given that traditional conductors of electrical installation are products with copper or aluminum conductors, there are tables for both types of metals.
Also, tabular data often presents values for voltages of 220 volts and 380 volts. Plus, the values of the installation conditions are taken into account - closed or open wiring.
In fact, it turns out that on one sheet of paper or on a picture downloaded to a smartphone contains voluminous technical information that can do without the mathematical (linear) calculations noted above.
Moreover, many manufacturers of cable products, in order to simplify the choice of the necessary conductor for the buyer, for example, for installing outlets, offer a table in which all the necessary values are entered.
It remains only to determine what load is planned for a particular electric point and how the installation will be performed, and based on this information, select the correct wire with copper or aluminum conductors.
Examples of such options for calculating the wire diameter over the cross section are given in the table, where options for copper and aluminum conductors are considered, as well as methods for laying wiring - open or hidden type. From the first table, you can determine the cross-sectional indicator for power and current.
Correspondence table for the diameter of copper and aluminum conductors depending on installation conditions
Power, W | Current, A | Copper conductor core | Aluminum conductor core | ||||||
Open type | Closed type | Open type | Closed type | ||||||
S mm2 | D mm | S mm2 | D mm | S mm2 | D mm | S mm2 | D mm | ||
100 | 0,43 | 0,09 | 0,33 | 0,11 | 0,37 | 0,12 | 0,40 | 0,14 | 0,43 |
200 | 0,87 | 0,17 | 0,47 | 0,22 | 0,53 | 0,25 | 0,56 | 0,29 | 0,61 |
300 | 1,30 | 0,26 | 0,58 | 0,33 | 0,64 | 0,37 | 0,69 | 0,43 | 0,74 |
400 | 1,74 | 0,35 | 0,67 | 0,43 | 0,74 | 0,50 | 0,80 | 0,58 | 0,86 |
500 | 2,17 | 0,43 | 0,74 | 0,54 | 0,83 | 0,62 | 0,89 | 0,72 | 0,96 |
750 | 3,26 | 0,65 | 0,91 | 0,82 | 1,02 | 0,93 | 1,09 | 1,09 | 1,18 |
1000 | 4,35 | 0,87 | 1,05 | 1,09 | 1,18 | 1,24 | 1,26 | 1,45 | 1,36 |
1500 | 6,52 | 1,30 | 1,29 | 1,63 | 1,44 | 1,86 | 1,54 | 2,17 | 1,66 |
2000 | 8,70 | 1,74 | 1,49 | 2,17 | 1,66 | 2,48 | 1,78 | 2,90 | 1,92 |
2500 | 10,87 | 2,17 | 1,66 | 2,72 | 1,86 | 3,11 | 1,99 | 3,62 | 2,15 |
3000 | 13,04 | 2,61 | 1,82 | 3,26 | 2,04 | 3,73 | 2,18 | 4,35 | 2.35 |
3500 | 15,22 | 3,04 | 1,97 | 3,80 | 2,20 | 4,35 | 2,35 | 5,07 | 2,54 |
4000 | 17,39 | 3,48 | 2,10 | 4,35 | 2,35 | 4,97 | 2,52 | 5,80 | 2,72 |
4500 | 19,57 | 3,91 | 2,23 | 4,89 | 2,50 | 5,59 | 2,67 | 6,52 | 2,88 |
5000 | 21,74 | 4,35 | 2,35 | 5,43 | 2,63 | 6,21 | 2,81 | 7,25 | 3,04 |
6000 | 26,09 | 5,22 | 2,58 | 6,52 | 2,88 | 7,45 | 3,08 | 8,70 | 3,33 |
7000 | 30,43 | 6,09 | 2,78 | 7,61 | 3,11 | 8,70 | 3,33 | 10,14 | 3,59 |
8000 | 34,78 | 6,96 | 2,98 | 8,70 | 3,33 | 9,94 | 3,56 | 11,59 | 3,84 |
9000 | 39,13 | 7,83 | 3,16 | 9,78 | 3,53 | 11,18 | 3,77 | 13,04 | 4,08 |
10000 | 43,48 | 8,70 | 3,33 | 10,87 | 3,72 | 12,42 | 3,98 | 14,49 | 4,30 |
In addition, there is a standard for cross-sections and diameters that applies to round (shaped) unsealed and sealed conductive conductors of cables, wires, cords. These parameters are regulated GOST 22483-2012.
Cables made of copper (tinned copper), aluminum wire without a metal coating or with a metal coating fall under the standard.
Copper and aluminum conductors of cables and wires of stationary laying are divided into classes 1 and 2. Wires, cords, cables of unsteady and stationary laying, where an increased degree of flexibility at installation is required, are divided into classes from 3 to 6.
Classification table for cable (wire) copper conductors
Nominal cross section, mm2 | The most admissible diameter of copper veins, mm | ||||
single wire (class 1) | multiwire (class 2) | multiwire (class 3) | multiwire (class 4) | flexible (classes 5 and 6) | |
0,05 | – | – | – | 0,35 | – |
0,08 | – | – | – | 0,42 | – |
0,12 | – | – | – | 0,55 | – |
0,20 | – | – | – | 0,65 | – |
0,35 | – | – | – | 0,9 | – |
0,5 | 0,9 | 1,1 | 1,1 | 1,1 | 1,1 |
0,75 | 1,0 | 1,2 | 1,2 | 1,3 | 1,3 |
1,0 | 1,2 | 1,4 | 1,5 | 1,5 | 1,5 |
1,2 | – | – | 1,6 | 1,6 | – |
1,3 | 1,5 | 1,7 | 1,8 | 1,8 | 1,8 |
2,0 | – | – | 1,9 | 2,0 | – |
2,5 | 1,9 | 2,2 | 2,4 | 2,5 | 2,6 |
3,0 | – | – | 2,5 | 2,6 | – |
4 | 2,4 | 2,7 | 2,8 | 3,0 | 3,2 |
5 | – | – | 3,0 | 3,2 | – |
6 | 2,9 | 3,3 | 3,9 | 4,0 | 3,9 |
8 | – | – | 4,0 | 4,2 | – |
10 | 3,7 | 4,2 | 4,7 | 5,0 | 5,1 |
16 | 4,6 | 5,3 | 6,1 | 6,1 | 6,3 |
25 | 5,7 | 6,6 | 7,8 | 7,8 | 7,8 |
35 | 6,7 | 7,9 | 9,1 | 9,1 | 9,2 |
50 | 7,8 | 9,1 | 11,6 | 11,6 | 11,0 |
70 | 9,4 | 11,0 | 13,7 | 13,7 | 13,1 |
95 | 11,0 | 12,9 | 15,0 | 15,0 | 15,1 |
120 | 12,4 | 14,5 | 17,1 | 17,2 | 17,0 |
150 | 13,8 | 16,2 | 18,9 | 19,0 | 19,0 |
185 | – | 18,0 | 20,0 | 22,0 | 21,0 |
240 | – | 20,6 | 23,0 | 28,3 | 24,0 |
300 | – | 23,1 | 26,2 | 34,5 | 27,0 |
400 | – | 26,1 | 34,8 | 47,2 | 31,0 |
500 | – | 29,2 | 43,5 | – | 35,0 |
625 | – | 33,0 | – | – | – |
630 | – | 33,2 | – | – | 39,0 |
800 | – | 37,6 | – | – | – |
1000 | – | 42,2 | – | – | – |
For aluminum conductors and cables, GOST 22483-2012 also provides parameters for the nominal cross section of the core, which correspond to the corresponding diameter, depending on the class of core.
Moreover, according to the same GOST, the indicated diameters can be used for a copper conductor of class 1, if it is necessary to calculate its minimum diameter.
Classification table for cable (wire) aluminum conductors
Nominal cross section, mm2 | Diameter of round veins (aluminum), mm | |||
Grade 1 | Class 2 | |||
minimum | maximum | minimum | maximum | |
16 | 4,1 | 4,6 | 4,6 | 5,2 |
25 | 5,2 | 5,7 | 5,6 | 6,5 |
35 | 6,1 | 6,7 | 6,6 | 7,5 |
50 | 7,2 | 7,8 | 7,7 | 8,0 |
70 | 8,7 | 9,4 | 9,3 | 10,2 |
95 | 10,3 | 11,0 | 11,0 | 12,0 |
120 | 11,6 | 12,4 | 12,5 | 13,5 |
150 | 12,9 | 13,8 | 13,9 | 15,0 |
185 | 14,5 | 15,4 | 15,5 | 16,8 |
240 | 16,7 | 17,6 | 17,8 | 19,2 |
300 | 18,8 | 19,8 | 20,0 | 21,6 |
400 | – | – | 22,9 | 24,6 |
500 | – | – | 25,7 | 27,6 |
625 | – | – | 29,0 | 32,0 |
630 | – | – | 29,3 | 32,5 |
Additional recommendations on choosing the type of wires and cables for arranging electrical networks in an apartment and a house are given in the articles:
- Which wire to use for wiring in the house: recommendations for selection
- What cable to do wiring in a wooden house: types of non-combustible cable and its safe installation
- What cable to use for wiring in the apartment: a review of the wires and choosing the best option
The video below demonstrates a practical example of determining the cross section of a conductor by simple methods.
Watching the video is recommended, since clearly presented information helps to increase the volume of knowledge:
Work with electric wires always requires a responsible attitude in terms of calculation.
Therefore, an electrician of any rank should know the calculation methodology and be able to use existing technical tables. This ensures not only significant savings in installation costs due to accurate calculation, but most importantly - the operation safety of the input line is guaranteed.
Is there anything to supplement, or have questions about determining the cross section of the wire? You can leave comments on the publication, participate in discussions and share your own experience in selecting wires for arranging the electrical network in a house or apartment. The contact form is located in the lower block.