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Dave Appleby

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Hi.

Been reading the but around 427.1.7.

Does anyone have any idea on retrospective application?

Is this going to apply to every board change or just adapted to new builds and then as a C3 recommendation for everything else?

Given prices it's going to be a massive cost change on a board swop. Plus, I know for certain I'm going to have space issues with anything over 30 years old here in Fife.

Thoughts?
 
I see the "what price do you put on safety" comments now but I think making them mandatory is a step to far IMO especially when the AFCI's used across the pond don't appear to get good reviews as to how beneficial they really are.
But are they?

I have seen comments by some of the USA folk like @Megawatt and @Cookie to the effect they are unreliable and a significant source of problem trips, even to the point of being fitted for new installation inspection and then changed back to GFCI (RCD) afterwards.

Key here is the cost/benefit question. We can see the current costs and, while that will probably drop, it is going to be a big factor for some time on the affordability of professional electrical work. But what of the benefits? Has anyone got a proper analysis of how many fires they might stop to justify the cost?

Critically many "electrical fires" are appliances like tumble dryers with lint catching fire, or motor run caps (and similar) going up in flames, and AFDD would do nothing there.

The argument "If it saves one life" is misleading because by mandating AFDD a significant number of poor / dodgy installations simply won't be updated as they become unaffordable and so there is a real risk of a greater number of accidents due to a lack of RCD or other cheaper improvements that could have been done in-budget. I find it rather strange there is not any proper analysis being put forward to justify them even by the manufacturers, but maybe I just have not seen it.
 
Last edited:
From what testing I have seen of them on YouTube they are utterly useless. I have not seen a manufacturer test one and Bragg about how great they are!
There should be evidence from the USA surely as they have been around a while there now.

I think it's a secret ploy to limit the amount of electricity we use by having them trip out for no obvious reason whenever they feel like it! That will sort the impending electrical doom without having to build more wind farms or power stations ?
 
When we already struggle to get customers to pay fair prices at times because "someone they know" can do it for half the price, I believe this will potentially make us lose even more work.

If we abide by the regs and cost a board change for ÂŁ2000 for example includings AFDDs, how are we supposed to compete with builders/handymen/cowboys who will completely ignore that part of the regulations and price for a dual split board and the customer will be clueless?
 
So is there no AFDD which can be installed and protect multiple circuits (like an RCD on a dual split board for instance)?
Yes there is but it would create a whole new problem of which circuit caused it to trip or was it a nuisance trip
 
If we abide by the regs and cost a board change for ÂŁ2000 for example includings AFDDs, how are we supposed to compete with builders/handymen/cowboys who will completely ignore that part of the regulations and price for a dual split board and the customer will be clueless?

I don't see current prices being sustained for long, should manufactured quantities significantly increase, and expect most to be on the market at the sort of prices RCBOs were a couple of years ago - although that's an entirely separate issue from the actual effectiveness of AFDDs.
 
I don't see current prices being sustained for long, should manufactured quantities significantly increase, and expect most to be on the market at the sort of prices RCBOs were a couple of years ago - although that's an entirely separate issue from the actual effectiveness of AFDDs.

The ÂŁ2000 I came up with was based on a domestic install as well and I don't even do any domestic work!

We usually install anything from 36-way to 72-way boards. Imagine the cost to populate one of those ?‍?
 
The ÂŁ2000 I came up with was based on a domestic install as well and I don't even do any domestic work!

We usually install anything from 36-way to 72-way boards. Imagine the cost to populate one of those ?‍?

Presently I see prices upwards of ÂŁ100 for a single RCBO/AFDD, but would guess ÂŁ30 per unit might be likely in a few years - obviously dependant on widespread uptake.
 
But are they?

I have seen comments by some of the USA folk like @Megawatt and @Cookie to the effect they are unreliable and a significant source of problem trips, even to the point of being fitted for new installation inspection and then changed back to GFCI (RCD) afterwards.

Key here is the cost/benefit question. We can see the current costs and, while that will probably drop, it is going to be a big factor for some time on the affordability of professional electrical work. But what of the benefits? Has anyone got a proper analysis of how many fires they might stop to justify the cost?

Critically many "electrical fires" are appliances like tumble dryers with lint catching fire, or motor run caps (and similar) going up in flames, and AFDD would do nothing there.

The argument "If it saves one life" is misleading because by mandating AFDD a significant number of poor / dodgy installations simply won't be updated as they become unaffordable and so there is a real risk of a greater number of accidents due to a lack of RCD or other cheaper improvements that could have been done in-budget. I find it rather strange there is not any proper analysis being put forward to justify them even by the manufacturers, but maybe I just have not seen it.

You would be correct, AFCI in the US are a constant never ending battle of nuisance tripping. To make matter worse we find burned up splices, screws, terminals and sockets where the combination AFCI breaker (serial+parallel arcing protection) never tripped.

With that said I want to simply state two facts:

1) earth fault loop impedance and RCDs provide the exact same level of parallel arcing protection as AFDDs.

2) Serial arcing is the end stage of joule heating, assuming fire hasn't already ensued.
 
You would be correct, AFCI in the US are a constant never ending battle of nuisance tripping. To make matter worse we find burned up splices, screws, terminals and sockets where the combination AFCI breaker (serial+parallel arcing protection) never tripped.

With that said I want to simply state two facts:

1) earth fault loop impedance and RCDs provide the exact same level of parallel arcing protection as AFDDs.

2) Serial arcing is the end stage of joule heating, assuming fire hasn't already ensued.
Maybe a dumb Q , but i'm not quite sure what the 'RCD" vs 'AFCI difference is Cookie....

~S~
 
Maybe a dumb Q , but i'm not quite sure what the 'RCD" vs 'AFCI difference is Cookie....

~S~
In the UK we refer to an RCD (residual current device), where as in the USA it is GFCI (ground fault circuit interrupter). If you have a partial fault to earth/ground then it will disconnect quickly and so stop a modest fault getting hot enough to start a fire.

With a hard high-current fault then the OCPD (over current protection device, i.e. fuse or circuit breaker) should also disconnect fast. In the UK that aspect of design is deeply embedded in the wiring regulations and the way that any professional electrical will test a circuit before and after putting it in to use (energising it). Before we would check the DC resistance of the line and earth cables (known as R1 and R2) and check that the supply impedance Ze along with R1+R2 is low enough to force disconnection in under 0.4s (typically, can be more or less in specific cases) under worst case of low supply volts and cables at max working temperature. After we would measure the supply impedance at the end point Zs (which should be Ze + R1 + R2)

We in the UK are now seeing AFDD = AFCI being introduced and they are intended to detect the high frequency 'buzz' of an arcing fault, with the aim of stopping it before it becomes a fire. Problem is a lot of things arc normally, like switch, relays, or some muppet plugging in or removing live. So they have to balance sensitivity and detection approach to try and trip on real fault arcs, but not on normal operating arc. Tricky...

Another difference between the UK and the USA (I think, not qualified in the ways of US electrical code) is the norm in UK/EU is to put the RCD or AFDD in the distribution board, where as I believe the USA favours them at outlet sockets. That seems odd and a poor choice to me, as more expensive and no protection for faults on the fixed wiring. Maybe some USA members like @Cookie or @Megawatt can comment on this aspect in case I'm hopelessly wrong.
 
Maybe a dumb Q , but i'm not quite sure what the 'RCD" vs 'AFCI difference is Cookie....

~S~

Any arcing to earth produces a current imbalance which trips the RCD. You don't need to look at the current signature on the active to do that, nor does said current signature analysis need to discriminate between a vacuum cleaner motor vs an actual fault.
 
In the UK we refer to an RCD (residual current device), where as in the USA it is GFCI (ground fault circuit interrupter). If you have a partial fault to earth/ground then it will disconnect quickly and so stop a modest fault getting hot enough to start a fire.

With a hard high-current fault then the OCPD (over current protection device, i.e. fuse or circuit breaker) should also disconnect fast. In the UK that aspect of design is deeply embedded in the wiring regulations and the way that any professional electrical will test a circuit before and after putting it in to use (energising it). Before we would check the DC resistance of the line and earth cables (known as R1 and R2) and check that the supply impedance Ze along with R1+R2 is low enough to force disconnection in under 0.4s (typically, can be more or less in specific cases) under worst case of low supply volts and cables at max working temperature. After we would measure the supply impedance at the end point Zs (which should be Ze + R1 + R2)

We in the UK are now seeing AFDD = AFCI being introduced and they are intended to detect the high frequency 'buzz' of an arcing fault, with the aim of stopping it before it becomes a fire. Problem is a lot of things arc normally, like switch, relays, or some muppet plugging in or removing live. So they have to balance sensitivity and detection approach to try and trip on real fault arcs, but not on normal operating arc. Tricky...

Another difference between the UK and the USA (I think, not qualified in the ways of US electrical code) is the norm in UK/EU is to put the RCD or AFDD in the distribution board, where as I believe the USA favours them at outlet sockets. That seems odd and a poor choice to me, as more expensive and no protection for faults on the fixed wiring. Maybe some USA members like @Cookie or @Megawatt can comment on this aspect in case I'm hopelessly wrong.
well this is interesting, and thx for your reply pc1966...

fwiw, i'm a US spark, don't really know much other than what i'm shown here

Yet i'm reading that you folks over the 'pond' seem far more aware of any given circuit's ~R~ factor

As well as mag trip times..........so this would seem the crux , or specific science behind either 'enhanced' OCPD , be it on your turf or mine...:) ~S~
 

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