Low Voltage Electrical Installation MODULE 6 Chapter 3 ...
Transcript of Low Voltage Electrical Installation MODULE 6 Chapter 3 ...
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Low Voltage Electrical Installation
MODULE 6
Chapter 3: Wiring System
by
Dr. Ahmad Syahiman Mohd ShahFaculty of Electrical & Electronics Engineering
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Module Description
• Expected Outcomes– Interpret rules and regulation for electrical wiring comprising of
cable selection and load calculation.
– Apply ethical principles and commit to professional ethics.
• Module Outline– ST Regulation of Electrical Wiring
– Voltage Drop based on Suruhanjaya Tenaga (ST) (Table 4D1B)
– Cable Sizing
– Calculation of Cable’s Voltage Drop
– Cable Sizing Calculation
– Cable Effect by The High Voltage Drop
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ST Regulation of Electrical Wiring
Source: [1]
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Voltage Drop based on ST (Table 4D1B)
Source: [1]
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Cable Sizing
• It is very important to do a proper sizing of cable inorder to minimize the cost.
• Cable sizing must follow the IEE regulation.
• Voltage Drop (Vd) at the cable must not exceed than4% of supplied power [2]. For instance;
a) 240V x 4% = 9.6V
b) 415V x 4% = 16.6V
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Cable Sizing
• Formula Voltage drop (Vd) [2];
𝑉𝑑 =𝑚𝑉×𝐼𝑏×𝐿
1000
Vd = Voltage drop [V}
Ib = Full load current [A]
mV = [mV/A/m] - refer table 4D1B
l = length [m]
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Calculation of Cable’s Voltage Drop
Example..
• Calculate the voltage drop for an installation of 240Vsupplied system by a 40m-long single core of 16mm2
PVC-insulated cable in conduit with the maximumload of 40 A.
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Calculation of Cable’s Voltage Drop
Solution..
• Find the value of the Vd for the cable size of 16 mm2
by using the third column in table 4D1B.
• From table 4D1B, the obtained value is 2.8 mV/A/m
𝑉𝑑 =𝑚𝑉×𝐼𝑏×𝐿
1000=
2.8×40×40
1000= 4.48 𝑉
• Since the Vd does not exceed 4% from power supply(9.6 V), based on IEE regulation [2], the cable of 16mm2 is permitted to be used in this installation.
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Cable Sizing Calculation
Example…
• One small unit factory needs a main power supply of415V/50Hz to support 10 kW of load. The nearestdistance is quite far, which is around 130m. Eventhough the wiremen does not recommend thischoice, the company owner insists to stick to thisplan. Thus, please calculate the most suitable cablesize based on the IEE regulation standard.
POWER SOURCE 415V/50Hz 10 kW
130 m
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Cable Sizing Calculation
Solution :
Calculate the full load current,
I = V = 10 kW = 24.096 Amp
P 415 V
Choose the cable size 6.0 mm2;
By referring table 4D1B - mV = 7.3 mV/A/m
Vd = mV x Ib x L
1000
Vd = 24.096 x 7.3 x 130 = 22.89 V
1000
* The cable 6.0 mm2 are not suitable – Vd more than 4% = 16.6 V
Choose the cable size 9.0 mm2 ;
By referring table 4D1B - mV = 4.4 mV/A/m
Vd = mV x Ib x L
1000
Vd = 24.096 x 4.4 x 130 = 13.78 V
1000
* The cable 9.0 mm2 are suitable.
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Cable Effect by The High Voltage Drop
1. Voltage value of the load drops significantly.
2. Efficiency of electrical equipment becomes low.
3. Power loss of the cable is high.
4. Cable insulation will break.
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References
[1] Suruhanjaya Tenaga, Guideline For Electrical Wiiring in Residential
Buildings, 2008.
[2] IEE, 16th IEE Wiring Regulations, 2001.
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Thank you