What is the formula to calculate wire size?

Perform the following calculation to get the cross-sectional area that's required for the wire: Multiply the resistivity (Ω m) of the conductor material by the peak motor current (A), the number 1.25, and the total length of the cable (m). Divide the result by the voltage drop from the power source to the motor.

How do I know what size electric cable I need?

Normally 6 mm² are used for the uprights, 2.5 mm² for the circuits that power the sockets or fixed appliances such as the air conditioner and 1.5 mm² for the light circuits. Continuing with general information, the larger the section of an electric cable, the greater the current that will pass .

What is the BS 7671 standard?

This standard lays out the requirement for installation of fixed cabling within a building to ensure the adherence of safety and proper practice . It also covers the testing of wiring. Wiring regulations are designed to ensure a consistent, safe approach to wiring and electrical works throughout the UK.

Is that any software calculator to calculate the size of cable?

ElectricalOM is the ideal cable sizing software Cable sizing calculations for phase, neutral and earthing conductors are based on the following criteria: Source characteristics (earthing system, fault levels etc) Load current. Voltage drop.

What size cable for 60 amps?

For a 60-amp circuit, a 4 AWG battery cable is often recommended. This size ensures the cable can safely handle the current without overheating, thus maximizing system efficiency and safety.

What size wire for 32 amps?

Breaking Force for Copper Wire AWG gauge Conductor Diameter Inches Maximum amps for chassis wiring 13 0.072 35 14 0.0641 32 15 0.0571 28 16 0.0508 22 39 more rows Apr 18, 2023

What are the methods of cable size selection?

There are two main methods for cable sizing: ampacity and voltage drop . Ampacity focuses on the current-carrying capacity of the cable, while voltage drop considers the voltage loss across the cable's length due to its resistance.

How do you calculate cable size and voltage drop?

Voltage Drop Calculations For cables operating under dc conditions, the appropriate voltage drops may be calculated using the formula. 2 x route length x current x resistance x 10¯³ . = 10.5 volts for 3 phase working or 0.025 x 240 = 6.0 volts for single phase working.

What is the formula for calculating 3 phase cable?

3-Phase Calculations For 3-phase systems, we use the following equation: kW = (V × I × PF × 1.732) ÷ 1,000 . Again, assuming unity PF and solving this equation for “I,” you get: I = 1,000kW ÷ 1.732V.

How do you calculate carrying capacity of a cable?

I = KA/L . Here, I stands for the maximum current load in amperes (amps), K is a constant that depends on the type of material used in the cable, A stands for the cross-sectional area of the cable in square millimeters (mm2), and L stands for length in meters (m).

Electrical Cable Size Calculator and BS7671 Wire Sizing Chart (2024)

Use our free Cable Sizing Calculator for High/ Medium Voltage power cables

There are a variety of cables available in the market in various sizes. However, to decide which size will be appropriate for your application you require an Electrical Cable Size Calculator. It helps you understand the best fit size for your requirement. It is calculated against IEC and British standards. A power factor of 0.8 is used in calculating The KW. Cable Sizing Calculator 230V and 415V Voltage Drop.

To calculate the Cable Sizing one needs to divide the voltage running through the cable by the target current. For instance, If your wire has a voltage current of 150 Volts and your target is 30 then you divide 150/30. This gives you your target resistance of 5 which is required. Electrical Cable Size Calculator helps in calculating it in large numbers.

When you are searching for wires for your home and domestic lighting then usually 1.5mm or 1mm is used. However, in most cases, an Electrical Cable Sizing of 1mm is more than enough. 1.5 should be used only when cable run is over a long distance and to cope with supply demand and voltage drop.

While selecting a cable Electrical Cable Sizing Chart helps you make a better and informed decision. These charts help in deciding the size of cable required for your application. For instance, if a small sized cable is used then it may melt due to the heavy flow of current. Hence Cable Sizing Chart helps in determining the size and the diameter. The smaller the diameter the higher it will resist the energy flow.

The Medium Voltage Cable Sizing has a voltage rating of 1KV to 100 VK. They have highly engineered connections that need to be cut properly. If they are not cut properly they may blow up and injure personnel or equipment. The concept of Mv Cable Sizing was introduced due to the increase in demand for a level of voltage. As the demand increased so did the classification. These days extra low and extra high classifications are also available

Cable with different amounts of electrical resistance are used in different applications hence Power Cable Size Calculator helps in determining the size of the cable required to avoid any mishap.

Electrical Cable Size Calculation Formula is tedious and complicated hence we get you the simplest way to calculate the size appropriate for your application. We use the Bs7671 Cable Sizing method to calculate the size which is the British standard for the current carrying capacity of single core armoured XLPE insulated copper cable.

Table of Content

Electrical Cable Size Calculator
Electrical Cable Sizing Chart
Cables impedance calculation
Loop impedance calculation
Voltage drop calculation
Short circuit calculation

Electrical Cable Size Calculator

Disclaimer

Recommended cables sizes are based upon information given by user and are intendend to use as guide only. Above calculation is derived from BS7671 Requirements for IEE Wiring Regulations, Installation method C, for cable types BS5467 and BS6724 and is bease on voltage drop selected at 230 and 400 volts

Electrical Cable Sizing Chart

Step 1. DC Amps: Locate the flow of current in amps of your circuit along the top of the chart below.
Step 2. Circuit Type: Select the correct type of circuit. Examples of Non Critical circuit are bait pumps, windlasses, general lighting, general appliances. Examples of Critical circuits are bilge blowers, panel main feeders, navigation lights, electronics.
Step 3. Cable Length: Find the correct length range of cables. Please note that the length is the total length of the positive and negative wires. I.E. Distance from battery to appliance multiplied by 2.
Step 4. Correct Cable Size: Intersect the DC Ampere with the cables length range to identity the correct coloured symbol.

Cables impedance calculation

Impedance is calculated by below formula:

$Z_{c} = \sqrt{R_{c}^{2} + X_{c}^{2}}$

This method calculates the impedance when the cable and load power factor is the same, this scenario is worse case power factor.

cable sizing calculator uses the resistance Rc from Table 35 in AS/NZS 3008-2017. The reactance for single core cables is selected from the flat

Loop impedance calculation

The maximum loop distance is calculated by below formula:

$L_{m a x} = \frac{0.8 \cdot V_{1 ϕ} \cdot 1000}{I_{m i n} \cdot Z_{c}}$

Where:

V_1Φ is the single phase voltage.
I_min is the minimum alowable tripping current of the MCB or other protection device.
Z_c is the cable impedance in Ohm/km.

Voltage drop calculation

The three phase AC voltage drop is calculated as below

$V_{d 3 ϕ} = \frac{I L (\sqrt{3} Z_{c})}{1000}$

The single phase AC voltage drop is calculateda as below

$V_{d 1 ϕ} = \frac{I L (2 Z_{c})}{1000}$

Where I is the load current, L is the distance, and Z_c is the cable impedance in Ohm/km.

Short circuit calculation

The short circuit capacity of the cables is calculated according to AS/NZS 3008-2017

$I^{2} t = K^{2} S^{2}$