- Joined
- Dec 2, 2008
- Messages
- 93
- Reaction score
- 14
Hey peeps!
First of all hoping you all had a sound bank holiday weekend (mine was obviously working and earning the pennies but hey ho).
Secondly, apologies if I should simply be replying to my previous thread rather than making a new one. Hope I’m not breaking any rules moderators. Just assumed that the thread had been closed.
Okay, thanks to the guys for advise regarding IR testing the lighting circuits – you know the L/N – CPC method. I must admit though, the guy that mentioned frying something and having to bull his way out of it really got me going lol. Was really cautious and things seemed to take ages like double and even treble checking things.
I must have checked the IT equipment in the office was all unplugged 20 dozen times. I was ssssoooo slow on this job. Glad I did it on day rate
Now, I am in the process of sorting the customers invoice and writing his certificate(s). However and as per usual I am a little stuck and in need of some much needed help. This is a very first for me so please bear with me as I cannot make a mistake and this guy has promised me future work so I want to make the best possible impression. Basically rather than go on and on (which I might add I tend to do) I will simply ask the questions in order.
Please bear in mind there are quite a lot of them and I am quite prepared to be told how to “suck eggs” and yes I admit some questions are leaning on the lazy side so please don’t just answer “go and look yourself”. I have done so with OSG and regs but want to be absolutely sure. I appreciate sometimes looking yourself and finding out is the process of learning and what makes a good spark but I don’t want to make any mistakes and I want this cert to be A1.
Thanks guys in advance and I hope you can help me.
Regards
Sparky05084
Q1. The main incomer is a three phase TNC-S 415V supplying three phase board to final circuits which are:
3x 16A 60898 C type three phase, neutral and cpc sockets
1x 63A 60898 C type single phase sub main supply to office
1x 32A 61009-1 C type workshop ring main (3x twin sockets metal clad)
1x 16A 61009-1 twin socket outlet metal clad
1x 10A 60898 C type alarm supply
1x 6A 60898 C type workshop lights (6 x twin florescent fittings)
With regards to RCD protection, previously, the workshop ring main was just protected by a standard 32A 60898 B type MCB as was the single twin socket outlet (radial) by 16A 60898 type B MCB. I have changed these for RCBO’s to afford RCD protection. As the three phase sockets are unique and clearly labelled and meant for only one item of equipment then I do not need to have these circuits RCD protected? What about the alarm and lighting?
Q2. The Ze at the origin of supply was measured at 0.14Ω. When I got on to testing the office board I got a measurement for Ze at 0.29Ω. In the details at distribution, consumer unit section (ethos booklet) it is asking in “system characteristics” for Ze/Zs. Do I simply put 0.29 or would I deduct the original 0.14 at origin? Also, on previous periodic where test cert has been wrote out for DB2 (office), the supply type is recorded as TNS. Basically the C63A MCB in three phase board is protecting 16mm T+E that goes to office board. Is then to put TNS correct?
Q3. With regard to the RCBO’s for workshop ring main and radial twin socket, are the maximum permissible trip times the same where a 30mA RCD is concerned so 1x 200mS and 5x 40mS? I heard somewhere that for 61009-1 RCBO’s up to 32A that 5x is 150mS or am I completely mistaken?
Q4. I believe that 0.4 seconds disconnection time is compulsory now but I am a little unsure. What are then the max disconnection times for these?
16A 60898 C type three phase – these are fixed equipment so 5secs?
63A 60898 C type – sub supply to office board
32A 61009-1 C type and B workshop/office ring main
16A 61009-1 C type and B workshop/office radial sockets
10A 60898 C type – alarm
6A 60898 C – lights
Q5. Going back to supply characteristics I am presented with this for fault level(s) for my PEFC/PSCC readings.
1 f
3 f
Erm lol. I got my reading at origin (three phase board) at 2.4kA, 0.72kA at office board. Measured with Megger MFT 1553 tester if helps at all. As I am supplying 2 separate sheets for each individual board and circuits then what is the 3 f for? I put my three phase reading in there and then the single phase reading in 1 f?
Am I missing something?
Q6. Extent of electrical installation covered by this report. I am going to write in “entire”. Is this correct?
Also, in small print in extent and limitations box at bottom it states “ This inspection has been carried out in accordance with BS 7671:2008 (IEE Wiring Regulations), amended to……..blar blar blar. The……indicates a blank space. Do I put 17th edition in here?
Q7. Finally, this is one for you experts and I will either (a) get laughed at and ridiculed for missing something completely obvious or (b) will be a stumbling block or a genuine fault. During IR testing at 3 phase board I did my 10 step tests as you do. I got to N – E and immediately got a dead short (0.00MΩ). So, I was like ok that’s not supposed to happen. Removed all the outgoing neutrals and tested between N – E bars again. Still dead short. Now I got myself thinking it’s a TNC-S system so neutral and CPC are common. Is that why I’m getting the reading? Removed the main incoming 16mm earth (don’t ask why was just clutching at straws now). I even isolated as stated in safe isolation but building was empty anyway. Good practise don’t you think? Tested again and still getting a short. All the neutrals had been removed one by one and tested each time I removed one from bar so why am I getting a short between N – CPC??
First of all hoping you all had a sound bank holiday weekend (mine was obviously working and earning the pennies but hey ho).
Secondly, apologies if I should simply be replying to my previous thread rather than making a new one. Hope I’m not breaking any rules moderators. Just assumed that the thread had been closed.
Okay, thanks to the guys for advise regarding IR testing the lighting circuits – you know the L/N – CPC method. I must admit though, the guy that mentioned frying something and having to bull his way out of it really got me going lol. Was really cautious and things seemed to take ages like double and even treble checking things.
I must have checked the IT equipment in the office was all unplugged 20 dozen times. I was ssssoooo slow on this job. Glad I did it on day rate
Now, I am in the process of sorting the customers invoice and writing his certificate(s). However and as per usual I am a little stuck and in need of some much needed help. This is a very first for me so please bear with me as I cannot make a mistake and this guy has promised me future work so I want to make the best possible impression. Basically rather than go on and on (which I might add I tend to do
) I will simply ask the questions in order.Please bear in mind there are quite a lot of them and I am quite prepared to be told how to “suck eggs” and yes I admit some questions are leaning on the lazy side so please don’t just answer “go and look yourself”. I have done so with OSG and regs but want to be absolutely sure. I appreciate sometimes looking yourself and finding out is the process of learning and what makes a good spark but I don’t want to make any mistakes and I want this cert to be A1.
Thanks guys in advance and I hope you can help me.
Regards
Sparky05084
Q1. The main incomer is a three phase TNC-S 415V supplying three phase board to final circuits which are:
3x 16A 60898 C type three phase, neutral and cpc sockets
1x 63A 60898 C type single phase sub main supply to office
1x 32A 61009-1 C type workshop ring main (3x twin sockets metal clad)
1x 16A 61009-1 twin socket outlet metal clad
1x 10A 60898 C type alarm supply
1x 6A 60898 C type workshop lights (6 x twin florescent fittings)
With regards to RCD protection, previously, the workshop ring main was just protected by a standard 32A 60898 B type MCB as was the single twin socket outlet (radial) by 16A 60898 type B MCB. I have changed these for RCBO’s to afford RCD protection. As the three phase sockets are unique and clearly labelled and meant for only one item of equipment then I do not need to have these circuits RCD protected? What about the alarm and lighting?
Q2. The Ze at the origin of supply was measured at 0.14Ω. When I got on to testing the office board I got a measurement for Ze at 0.29Ω. In the details at distribution, consumer unit section (ethos booklet) it is asking in “system characteristics” for Ze/Zs. Do I simply put 0.29 or would I deduct the original 0.14 at origin? Also, on previous periodic where test cert has been wrote out for DB2 (office), the supply type is recorded as TNS. Basically the C63A MCB in three phase board is protecting 16mm T+E that goes to office board. Is then to put TNS correct?
Q3. With regard to the RCBO’s for workshop ring main and radial twin socket, are the maximum permissible trip times the same where a 30mA RCD is concerned so 1x 200mS and 5x 40mS? I heard somewhere that for 61009-1 RCBO’s up to 32A that 5x is 150mS or am I completely mistaken?
Q4. I believe that 0.4 seconds disconnection time is compulsory now but I am a little unsure. What are then the max disconnection times for these?
16A 60898 C type three phase – these are fixed equipment so 5secs?
63A 60898 C type – sub supply to office board
32A 61009-1 C type and B workshop/office ring main
16A 61009-1 C type and B workshop/office radial sockets
10A 60898 C type – alarm
6A 60898 C – lights
Q5. Going back to supply characteristics I am presented with this for fault level(s) for my PEFC/PSCC readings.
1 f
3 f
Erm lol. I got my reading at origin (three phase board) at 2.4kA, 0.72kA at office board. Measured with Megger MFT 1553 tester if helps at all. As I am supplying 2 separate sheets for each individual board and circuits then what is the 3 f for? I put my three phase reading in there and then the single phase reading in 1 f?
Am I missing something?
Q6. Extent of electrical installation covered by this report. I am going to write in “entire”. Is this correct?
Also, in small print in extent and limitations box at bottom it states “ This inspection has been carried out in accordance with BS 7671:2008 (IEE Wiring Regulations), amended to……..blar blar blar. The……indicates a blank space. Do I put 17th edition in here?
Q7. Finally, this is one for you experts and I will either (a) get laughed at and ridiculed for missing something completely obvious or (b) will be a stumbling block or a genuine fault. During IR testing at 3 phase board I did my 10 step tests as you do. I got to N – E and immediately got a dead short (0.00MΩ). So, I was like ok that’s not supposed to happen. Removed all the outgoing neutrals and tested between N – E bars again. Still dead short. Now I got myself thinking it’s a TNC-S system so neutral and CPC are common. Is that why I’m getting the reading? Removed the main incoming 16mm earth (don’t ask why was just clutching at straws now
). I even isolated as stated in safe isolation but building was empty anyway. Good practise don’t you think? Tested again and still getting a short. All the neutrals had been removed one by one and tested each time I removed one from bar so why am I getting a short between N – CPC??
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