Hi, I currently am working on some cable sizing calculations for an exercise in which we apply our knowledge and use of the OSG. We have a ficticious single-phase, light commercial installation for which we have designed the circuits to supply a range of requirements and loads. We have selected the accessories, cable types, containment systems etc.
These have resulted a cooker circuit, water heater circuit, two ring final circuits and two lighting circuits.
I have been applying the process for sizing the cables as follows:
1. determine the design current Ib
2. select the over-current protective device In
3. apply correction factors to determine tabulated current carrying capacity It
4. check volt drop
5. finally I will check ADS/shock protection, when I get that far!
All cables are flat PVC/PVC/Cu thermoplastic.
So I am on step 4 and am a bit stuck. I understand the calculation for volt drop and where to get the appropriate values for the calculation but I am not certain on when and how it should be applied to some circuits.
For example, for ring final circuits serving BS1363-2 socket outlets, if you meet all the specifications in Appendix H, are these circuits exempt from this separate calculation?
And perhaps more importantly, for lighting circuits, I am getting especially concerned, where the volt drop must be a maximum of 3%. Please could anyone offer some advice on how the circuit length should be calculated?
Each of my two lighting circuits serve a few rooms each. Allowing for 100W per lamp position the design currents are 4.3 and 5.9A.
Should the calculation include the total cable length of the feed, switch wires and final supply to the lamp?
In which case, would this be undertaken for the lamp with the longest amount of cable on the circuit?
For example amongst my rooms I have two way and intermediate switched lamps with switches quite far apart so this would soon add up.
Also for the Amps, is the design current used or In, as this would also have quite a different depending on the values?
Thanks for any advice.
These have resulted a cooker circuit, water heater circuit, two ring final circuits and two lighting circuits.
I have been applying the process for sizing the cables as follows:
1. determine the design current Ib
2. select the over-current protective device In
3. apply correction factors to determine tabulated current carrying capacity It
4. check volt drop
5. finally I will check ADS/shock protection, when I get that far!
All cables are flat PVC/PVC/Cu thermoplastic.
So I am on step 4 and am a bit stuck. I understand the calculation for volt drop and where to get the appropriate values for the calculation but I am not certain on when and how it should be applied to some circuits.
For example, for ring final circuits serving BS1363-2 socket outlets, if you meet all the specifications in Appendix H, are these circuits exempt from this separate calculation?
And perhaps more importantly, for lighting circuits, I am getting especially concerned, where the volt drop must be a maximum of 3%. Please could anyone offer some advice on how the circuit length should be calculated?
Each of my two lighting circuits serve a few rooms each. Allowing for 100W per lamp position the design currents are 4.3 and 5.9A.
Should the calculation include the total cable length of the feed, switch wires and final supply to the lamp?
In which case, would this be undertaken for the lamp with the longest amount of cable on the circuit?
For example amongst my rooms I have two way and intermediate switched lamps with switches quite far apart so this would soon add up.
Also for the Amps, is the design current used or In, as this would also have quite a different depending on the values?
Thanks for any advice.
