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Hi
I've got my 2391 assessment at the end of the week and I've managed to confuse myself (and not for the first time)
I get how performing R1+R2 and R1+Rn on a ring also confirms polarity.
The thing that is confusing me is how does performing only a R1+R2 on a radial socket cct (and operating switches to make sure it breaks) confirm polarity.
I get it confirms you are not switching the neutral but it doesn't confirm that the line and cpc are not swapped over. I can't see what dead test would confirm this isn't the case and you don't want to be energising a cct if the line is connected to the CPC terminal!
Thanks
 
R1+R2 as you say only confirms L and E are somehow connected to L and E of the socket.

R1+Rn confirms that L and N are somehow connected to L and N of the socket.

Together you know that L has to have been at the L socket. (And thus E and N are also right)
[automerge]1598194159[/automerge]
In this sense it is no different to the ring case, there you also depend on the pair of tests to know unambiguously that you have them wired up right.

What the ring test adds is a very good check of resistance as you know they should all be the same in the figure of 8. A poor joint or dodgy switch, etc, with even 0.05 ohm extra is easier to spot than the radial case where at different lengths to multiple sockets you have different cable resistances to allow for.
 
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Hi
I've got my 2391 assessment at the end of the week and I've managed to confuse myself (and not for the first time)
I get how performing R1+R2 and R1+Rn on a ring also confirms polarity.
The thing that is confusing me is how does performing only a R1+R2 on a radial socket cct (and operating switches to make sure it breaks) confirm polarity.
I get it confirms you are not switching the neutral but it doesn't confirm that the line and cpc are not swapped over. I can't see what dead test would confirm this isn't the case and you don't want to be energising a cct if the line is connected to the CPC terminal!
Thanks
R1+R2 as you say only confirms L and E are somehow connected to L and E of the socket.

R1+Rn confirms that L and N are somehow connected to L and N of the socket.

Together you know that L has to have been at the L socket. (And thus E and N are also right)
[automerge]1598194159[/automerge]
In this sense it is no different to the ring case, there you also depend on the pair of tests to know unambiguously that you have them wired up right.

What the ring test adds is a very good check of resistance as you know they should all be the same in the figure of 8. A poor joint or dodgy switch, etc, with even 0.05 ohm extra is easier to spot than the radial case where at different lengths to multiple sockets you have different cable resistances to allow for.
I get where the OP is coming from. An R1+R2 test on a radial is carried out with the line and cpc joined either at the DB or at the farthest point on a circuit. A low range resistance test is then carried out at the opposite end between line and cpc. The test will confirm that the line and cpc are continuous but will not confirm that cpc and line connections at a socket outlet have been reversed. The test will produce the same result at a socket outlet whichever way line and cpc are connected. One way to verify line and cpc are not reversed at a socket outlet would be an R2 test to the earth pin at each outlet, but this is never carried out on socket outlets during initial verification. Or as stated an R1+Rn....I am not aware of anyone carrying out that test either.
But it is a requirement that testing is carried out alongside visual inspection, which should be sufficient to spot a wrong connection before a circuit is energised.
 
Sockets with the obvious bare CPC terminal are very unlikely to be wired L/E swapped for sure, but those with 3 similar looking terminals do have that risk.

Going round with a wander lead and poking the fixing screws is certainly an easy way to verify CPC connectivity and then you know the R1+R2 verifies L/N polarity.
 
On initial verification R1+R2 needs to be checked at every point on the circuit not just the furthest. This will then prove CPC continuity and polarity. if you can’t see the connections, for example sockets on a radial, what’s to stop you doing a quick R1+Rn or a R2 at the earth pin if you can’t verify polarity visually?

On a periodic inspection, R1+R2 could be checked at just the furthest point or it could be checked at every point, it would be up to you as the inspector and whoever has ordered the test to agree limitations. Also the test sequence doesn’t have to be followed to the letter as the system is already energised so polarity can be confirmed via Zs. Although granted I wouldn’t have done that in my 2395 exam and doing the tests in order and taking a couple of sockets off to confirm polarity is no bother for the exam.
 
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So you would not do a R1+Rn test on a radial?
I'm confused here!
I was taught to test R1+Rn on a radial as well as R1+R2. It makes sense to me as it confirms polarity and shows any poor connections. But I note that there's no mention of it in either the OSG or guidance note 3
 
I agree with you and think I was taught the same. I know I was always told that there is nothing stopping you recording the values on an EIC even if they aren’t required (R1+Rn or resistance of MPBC). Even though there is no mention specifically of an R1+Rn, I think it does say you have to prove visually or with a low resistance ohm meter and this is probably the best way to do that. Even on a large 32a radial it’s only going to add another 10 minutes to your testing
 
Thanks for the replies .
I guess a visual inspection would probably do the trick. However, in the exam I understand there are some accessories which you are not allowed to take off. I guess on a test rig the easiest thing to do is an R1+R2 and an R2 which would tell you all 3 connections are ok. Seems strange GN3 doesn't cover this eventuality in it's test sequence.
 

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