Hi all, I am currently studying my C&G 2365 and need some help for unit 305. An example question that I have is shown below. I wonder if you could tell me if I am on the right lines and have these correct. I do however not know where to start for b so any help would be greatly appreciated.
A radial final circuit is protected by a 20 A type B circuit breaker to BS EN 60898 and is wired using 2.5 mm[SUP]2[/SUP] 70 [SUP]0[/SUP]C thermoplastic single-core live conductors with a 1.5 mm[SUP]2[/SUP] cpc to a length of 28 m in steel trunking. The ambient temperature is 20 [SUP]0[/SUP]C. The installation and supply form a 230 V single-phase TN-C-S system and the final circuit is supplied by a distribution board located at the origin of the installation. Z*[SUB]e[/SUB] and prospective fault current have been measured and recorded as 0.1 Ω and 2.3 kA respectively
Determine:
a)The R1 + R2 for this circuit
Table I1 of OSG. Value for R1 + R2 is 19.51
R1 + R2 = 19.51mΩ/m x 28 x 1.20 (multiplier for 70 thermoplastic from I3)
------------------------
1000
= 0.65Ω
b)The value of short circuit current at the end point of the circuit
I don’t even know where to start with this question so I would really appreciate some guidance or help on how I could work this one out? I know Pfc = Uo / Zs but this would not be at the furthest point. Also I have already been provided the Pfc so I assume I must need to find it out for this part of the circuit and then add the figure above.
c)If the circuit breaker will disconnect within the required time under earth fault conditions
Zs = Ze+(R1+R2) = (This is where we use the R1+R2 from a)
Zs = 0.1+(0.65) = 0.75Ω
Check with Table 41.3. Max Zs for Type B 20A is 1.44
0.75Ω < 1.44Ω so yes will disconnect in time
Thank you for any help, I appreciate it.
A radial final circuit is protected by a 20 A type B circuit breaker to BS EN 60898 and is wired using 2.5 mm[SUP]2[/SUP] 70 [SUP]0[/SUP]C thermoplastic single-core live conductors with a 1.5 mm[SUP]2[/SUP] cpc to a length of 28 m in steel trunking. The ambient temperature is 20 [SUP]0[/SUP]C. The installation and supply form a 230 V single-phase TN-C-S system and the final circuit is supplied by a distribution board located at the origin of the installation. Z*[SUB]e[/SUB] and prospective fault current have been measured and recorded as 0.1 Ω and 2.3 kA respectively
Determine:
a)The R1 + R2 for this circuit
Table I1 of OSG. Value for R1 + R2 is 19.51
R1 + R2 = 19.51mΩ/m x 28 x 1.20 (multiplier for 70 thermoplastic from I3)
------------------------
1000
= 0.65Ω
b)The value of short circuit current at the end point of the circuit
I don’t even know where to start with this question so I would really appreciate some guidance or help on how I could work this one out? I know Pfc = Uo / Zs but this would not be at the furthest point. Also I have already been provided the Pfc so I assume I must need to find it out for this part of the circuit and then add the figure above.
c)If the circuit breaker will disconnect within the required time under earth fault conditions
Zs = Ze+(R1+R2) = (This is where we use the R1+R2 from a)
Zs = 0.1+(0.65) = 0.75Ω
Check with Table 41.3. Max Zs for Type B 20A is 1.44
0.75Ω < 1.44Ω so yes will disconnect in time
Thank you for any help, I appreciate it.
