Voltage Drop Calculation is one of the key calculation we have to do when we design the load and finalize cables.
In usual practice, if the distance increase over 15mts, we will be doing a voltage drop calculation.
Different countries have different values for cables (voltage drop/mtr). I'll be explaining here as per Qatar Standards (Since am working in Qatar :-)) and the calculations are based on Qatar General Electricity & Water Corporation (Kahraama) rules.
VOLTAGE DROP CALCULATION for Cables
Basic Equation , Vd = Lx I x (Vd/Amp/M)
1000
Vd = Voltage Drop
L = Length of Cable
I = Current
Vd/Amp/M = Voltage drop/Amp/Mtr
Percentage of Voltage drop = (Vd/V) x 100
How to Calculate ?
I would prefer an example to show you how we calculate.
Consider a 3Phase Load of 90Kw which is 100mtr apart from the feeder panel.
We need to calculate the cable size?
So as per formula Vd = = Lx I x (Vd/Amp/M)
1000
Length = 100Mtr
I = ? (We need to find that )
P=1.73VICosPhi (To know this calculation, please refer my previous post. i explained there how to calculate current )
90,000 = 1.73 x 415 x I x 0.8 (assuming V = 415v , Power-factor = 0.8)
I = 90000
1.73x415x0.8
= 156.69Amps
Please find the attached table for 3/4 core XLPE SWA cables as reference (Qatar's Standard Chart)
I will assume the cable is laid in ground and for 156.69 Amps, we can choose 70mm2 cable from the chart which have a current carrying capacity of 164Amps when laid in ground.
Actual calculation
Now lets consider the 70mm2 cable will be suitable or not using voltage drop formula.
voltage drop/Amp/Mtr of 70mm2 cable as per the above table is 0.61Mv
Vd = Lx I x (Vd/Amp/M)
1000
Vd = 100 x 156.69 x (0.61)
1000
= 9.55809
Percentage of Voltage drop = (Vd/V) x 100
= (9.55809/415) x 100
= 2.303%
This is acceptable since it doesn't cross 2.5%. But considering the maximum load and for safer purpose we will be choosing the next cable size ie., 95mm2 with voltage drop of 0.45mv
Vd = 100 x 156.69 x (0.45)
1000
= 7.05105
Percentage of Voltage drop = (Vd/V) x 100
= (7.05105/415) x 100
= 1.699%
This value is far more consistent and safer. so we will be going for the 95mm2 cable.
Nb:- Also Please find the excel file i've prepared for easy calculation under the link
click for excel file
In usual practice, if the distance increase over 15mts, we will be doing a voltage drop calculation.
Different countries have different values for cables (voltage drop/mtr). I'll be explaining here as per Qatar Standards (Since am working in Qatar :-)) and the calculations are based on Qatar General Electricity & Water Corporation (Kahraama) rules.
VOLTAGE DROP CALCULATION for Cables
Basic Equation , Vd = Lx I x (Vd/Amp/M)
1000
Vd = Voltage Drop
L = Length of Cable
I = Current
Vd/Amp/M = Voltage drop/Amp/Mtr
Percentage of Voltage drop = (Vd/V) x 100
How to Calculate ?
I would prefer an example to show you how we calculate.
Consider a 3Phase Load of 90Kw which is 100mtr apart from the feeder panel.
We need to calculate the cable size?
So as per formula Vd = = Lx I x (Vd/Amp/M)
1000
Length = 100Mtr
I = ? (We need to find that )
P=1.73VICosPhi (To know this calculation, please refer my previous post. i explained there how to calculate current )
90,000 = 1.73 x 415 x I x 0.8 (assuming V = 415v , Power-factor = 0.8)
I = 90000
1.73x415x0.8
= 156.69Amps
Please find the attached table for 3/4 core XLPE SWA cables as reference (Qatar's Standard Chart)
I will assume the cable is laid in ground and for 156.69 Amps, we can choose 70mm2 cable from the chart which have a current carrying capacity of 164Amps when laid in ground.
Actual calculation
Now lets consider the 70mm2 cable will be suitable or not using voltage drop formula.
voltage drop/Amp/Mtr of 70mm2 cable as per the above table is 0.61Mv
Vd = Lx I x (Vd/Amp/M)
1000
Vd = 100 x 156.69 x (0.61)
1000
= 9.55809
Percentage of Voltage drop = (Vd/V) x 100
= (9.55809/415) x 100
= 2.303%
This is acceptable since it doesn't cross 2.5%. But considering the maximum load and for safer purpose we will be choosing the next cable size ie., 95mm2 with voltage drop of 0.45mv
Vd = 100 x 156.69 x (0.45)
1000
= 7.05105
Percentage of Voltage drop = (Vd/V) x 100
= (7.05105/415) x 100
= 1.699%
This value is far more consistent and safer. so we will be going for the 95mm2 cable.
Nb:- Also Please find the excel file i've prepared for easy calculation under the link
click for excel file
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