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How to Calculate Voltage Drop2022-06-14

 Voltage drop describes how the supplied energy of a voltage source is reduced as electric current moves through the passive elements (elements that do not supply voltage) of an electrical circuit. Voltage drops across internal resistances of the source, across conductors, across contacts, and across connectors are undesired; supplied energy is lost (dissipated).



 
 
The voltage drop of any insulated cable is dependent upon the cable length (in meters), the required current rating (in amperes), and the relevant total impedance per unit length of the cable. The maximum impedance and voltage drop applicable to each cable at maximum conductor temperature and under a.c. conditions are given in the tables. For cables operating under dc conditions, the appropriate voltage drops may be calculated using the formula.
 
Calculating the voltage drop for a single-phase circuit:
The formula for this is given as:
 
VD = (2 × L × K × I)/CM
 
In the above formula:
 
VD is the voltage drop across the circuit
L is the length of the run
K is the resistivity of the wire
I is the current across the circuit
CM is the measure of the diameter of the wire
The values for resistivity and diameter of the wire are available from NEC tables.
 
How to calculate the voltage drop
 
Example:
 
If you want to find the voltage drop across the across a single-phase circuit whose length is 200 feet and having a load of 50 A. It is also given that the wire is a copper wire, 3 wire, and 120/240 volt.
 
VD = (2 × 200 × 12 × 50)/41740
 
(Resistivity of copper is 12)
 
VD = 5.75 Volts
 
Therefore, the average voltage drop across the circuit is 5.75 volts.
 
Now, to calculate the percentage of voltage drop
 
Percentage of VD
 
(VD/ V) × 100 = 5.75 volts/240 volts
 
= 0.0239 %
 
Therefore, the voltage drop across the circuit having the above dimensions is 0.0239 %. This is less than 3% so you can use it.
 
Calculating VD for a three-phase conductor:
 
To calculate the voltage across a three-phase circuit we use the same formula, but multiply the above formula by 0.866. Basically to calculate the voltage drop between any two phase conductors we multiply it by 1.732/2.
 
Therefore, the formula for calculating for a three-phase conductor is given as:
 
VD  = 0.866 (2 × L × R × I/ CM)
 
The above formula can also be given as:
 
VD = 1.732 (L × R × I /CM)
 
You can calculate the voltage drop across the circuit using the above formula, if you know the values for the length of run, the resistivity of the conductor, current across the circuit and measure of the diameter and change the dimensions of the conductor if necessary to change the VD across the circuit.

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