Todays class ended in a bit of a fiasco trying to work out how to check compliance for measured Zs, when given various protective devices.
For example: A circuit is protected by a 20A BS88-2 fuse and measured Zs is 2.08 ohms. Ambient temp is 20 degrees C.
I approached this question using the OSG. Looked up the max Zs in table B3, 0.4s disconnection time, 1.3 ohms
Then apply temp factor in table B8 of 1.04 so the max Zs becomes 1.352 ohms maximum.
Therefore in this case 2.08>1.352 and the circuit is not compliant.
If we use the Regs book, we go to table 41.2 and find a max Zs of 1.68 ohms. This is higher due to being set at 70 degrees C.
The regs book also says you can use a formula in Appendix 3 where measured Zs must be less than or equal to 0.8 x ((Uo x Cmin)/Ia), which in this case would be ((230*0.95)/20)*0.8 = 8.74 ohms.
Which is the correct approach? Obviously the lower the value, the better, but I'd be interested to know which is correct. Our lecturer couldn't explain it.
Cheers!
For example: A circuit is protected by a 20A BS88-2 fuse and measured Zs is 2.08 ohms. Ambient temp is 20 degrees C.
I approached this question using the OSG. Looked up the max Zs in table B3, 0.4s disconnection time, 1.3 ohms
Then apply temp factor in table B8 of 1.04 so the max Zs becomes 1.352 ohms maximum.
Therefore in this case 2.08>1.352 and the circuit is not compliant.
If we use the Regs book, we go to table 41.2 and find a max Zs of 1.68 ohms. This is higher due to being set at 70 degrees C.
The regs book also says you can use a formula in Appendix 3 where measured Zs must be less than or equal to 0.8 x ((Uo x Cmin)/Ia), which in this case would be ((230*0.95)/20)*0.8 = 8.74 ohms.
Which is the correct approach? Obviously the lower the value, the better, but I'd be interested to know which is correct. Our lecturer couldn't explain it.
Cheers!
