by ericmark »
Sat Jun 12, 2010 4:42 am
I will try and go through pros and cons.
Some consumer units just will not take RCBO length and they will not physically fit but likely such a new unit will take them. However they would be of single unit width so only switch the line the neutral is only monitored which with a TN-C-S supply is not a problem. However if the supply is TT then it would be safer to switch neutral. To switch neutral either double width RCBO or a twin RCD system is required. Since with a TT you should already have a RCD although 100ma not 30ma I would assume you have a TN-C-S supply?
The biggest problem with RCD's is the combination of many small leakages adding up to cause them to trip so the more individual units the better so where the supply allows using all RCBO's is far the better method. However they are not cheap at around £35 each changing all the MCB's in a 10 way board will cost £350 where a complete 10 way consumer unit populated is around the £80 mark.
However the labour in changing a MCB for a RCBO is far less than that for changing a consumer unit so likely will be in total around the same price. So if I was doing job I would want to fit RCBO's as a far better job where permitted.
DIY wise I am uncertain of the Part P implications. Changing a whole board does without question require fee paying and LABC involvement. Changing like for like i.e. new MCB would not required LABC involvement however it's not like for like and you would need to enquire as to if LABC involvement is required.
Personally I would not consider it to be a DIY job. You need to identify each neutral and it would be easy to swap polarity plus you could unearth existing faults which also would need correcting. If I was changing to RCBO's I would be using the insulation tester first to ensure no existing faults and testing the earth fault loop impedance as I as last person working on the system would be responsible for system safety and easy to disturb an earth wire. Once completed then I would do 6 tests on each RCBO 3 tests each on both positive and negative half cycle. So 1/2 rated ma i.e. 15ma to ensure they will not trip when they are in normal use. Then rated ma i.e. 30ma to ensure they do trip when 30ma is leaking and final 5 x ratted ma i.e. 150ma and check they trip within the required 40ms unless of course they tripped within this time on 30ma test. To complete these tests one needs a full test set which costs around £750 to buy. Not tried to hire but I think about £100 for the week. And you of course need to know how to use it and be able to fill in the installation certificate.
The other option is to use RCD sockets. These at just over £20 each and screwfix prices double is cheaper than single are not cheap. There are two types active and passive the active is most common and this means if the power fails they need manual resetting. The reason for this is should the volts drop below a threshold many RCD's will fail to work and in a consumer unit you are unlikely to get this volt drop but under fault conditions you could if at a distance from consumer unit get a volt drop causing them not to trip. Although unlikely in a house. Also second safety should you be using a hand held item which can be left switched on if you get a power cut you may leave it unaware and it could start running again when power returns without you being there. However for fridge and freezer one would want this to happen.
Before 17th Edition required cables buried in walls under 50mm to be protected with RCD or be special cable it was common to use the RCD sockets so the fridge / freezer would not be on the RCD circuit. However new build this is now rare. It is permitted to have non RCD protected sockets marked up as fridge / freezer but rare. There are also auto re-setting RCD's but about the only time I would use these expensive units would be in a disabled persons house where they could not access the consumer unit and at £350 each they are not cheap.
One final point if you use renewable power some inverters produce what is referred to as a "Modified Sine wave" and these need a "A Type" RCD not a "AC Type" RCD unlikely this will worry you but any boat/caravan users may need to be careful selecting right type.
So to re-cap likely best is RCBO and easiest is RCB sockets or fuse connection units. It is common to take power to an extension/conservatory from a single socket in a house using a fused connection unit these are available with RCD built in which would then protect all sockets after it.
I use an RCD socket for garden rated at 10ma so any faults in garden will not trip the main 30ma which protects the house. To use 10ma sockets does mean they will not be redundant if consumer unit is changed later. I would always run pond pumps through a 10ma RCD the same with garden lights. The lawn mower is not a problem as if it trips you will know but non attended items could trip out house while you are out.
Does that answer your question?
