Hi folks,
I'm installing a 3-ph 32A 60309 socket and just wanted to double check my design calcs are right...
The circuit will be part of a 3-ph sub-board (200A main switch) supplied by our main 3-ph distribution board. The final circuit length is approx 30m. The sub board comprises just power/lighting, no inductive loads, motors etc.
Ib = 32A
In = 3-ph 32A type C (there's already a spare MCB in the board)
Going for an XLPE SWA cable, clipped direct, no other rating factors play a part.
4mm carries 42A, but going for a 6mm because cost isn't a factor and would rather err on the side of too much capacity!
EFLI calcs:
Measured Zs @ DB = 0.05
R1+R2 calculated from table F8A in the IET design guide = 0.2214 ((3.08/1000*30)+(4.3/1000*30))
Total Zs = 0.2714
Max measured Zs for 32A type C = 0.54 ... disconnection times satisfied
Volt drop calcs:
Board supplied by 95mm SWA 109m run, 3-ph.
Pre-diversity total = 463A
Diversity applied as per OSG appendix A = 247A
Diverstiy applied as per IET design guide (0.9 lighting 0.1 power) = 141A
I've based calcs on a figure about 1/2 way between the 2 diversity values = 180A
Volt drop to sub-board = (109m x 180A x 0.45)/1000 = 8.8V
Volt drop on final circuit = (30m x 32A x 6.8)/1000 = 6.5V
Total volt drop = 15.3V ... volt drop less that 5%
Adiabatic calcs:
fault current at end of run:
1.1 x 230V / 0.2714 = 932A
932A = disconnection time of 0.1s for MCB
0.95 x 230V / 0.2714 = 805A
Worst case: S = √( 932 x 932 x 0.1) / 51 = 5.78mm
CSA of 6mm 4-core armouring = 38mm ... adiabatic compliant.
Many thanks in advance to anyone who has the time to help me with this, still learning it all at the moment, lots to consider!
All the best,
Tom.
I'm installing a 3-ph 32A 60309 socket and just wanted to double check my design calcs are right...
The circuit will be part of a 3-ph sub-board (200A main switch) supplied by our main 3-ph distribution board. The final circuit length is approx 30m. The sub board comprises just power/lighting, no inductive loads, motors etc.
Ib = 32A
In = 3-ph 32A type C (there's already a spare MCB in the board)
Going for an XLPE SWA cable, clipped direct, no other rating factors play a part.
4mm carries 42A, but going for a 6mm because cost isn't a factor and would rather err on the side of too much capacity!
EFLI calcs:
Measured Zs @ DB = 0.05
R1+R2 calculated from table F8A in the IET design guide = 0.2214 ((3.08/1000*30)+(4.3/1000*30))
Total Zs = 0.2714
Max measured Zs for 32A type C = 0.54 ... disconnection times satisfied
Volt drop calcs:
Board supplied by 95mm SWA 109m run, 3-ph.
Pre-diversity total = 463A
Diversity applied as per OSG appendix A = 247A
Diverstiy applied as per IET design guide (0.9 lighting 0.1 power) = 141A
I've based calcs on a figure about 1/2 way between the 2 diversity values = 180A
Volt drop to sub-board = (109m x 180A x 0.45)/1000 = 8.8V
Volt drop on final circuit = (30m x 32A x 6.8)/1000 = 6.5V
Total volt drop = 15.3V ... volt drop less that 5%
Adiabatic calcs:
fault current at end of run:
1.1 x 230V / 0.2714 = 932A
932A = disconnection time of 0.1s for MCB
0.95 x 230V / 0.2714 = 805A
Worst case: S = √( 932 x 932 x 0.1) / 51 = 5.78mm
CSA of 6mm 4-core armouring = 38mm ... adiabatic compliant.
Many thanks in advance to anyone who has the time to help me with this, still learning it all at the moment, lots to consider!
All the best,
Tom.
