Amendment 2 and AFDD's

[Cookie]

From above curve, worst-case it is 0.03s at 200A PFC.

I guess the real question is what sort of fault will start a fire but only an AFDD will trip, and how common/likely are they?

In my limited experience of sorting out fixed wiring, the only two cases of a long-term serial arc were light bulb holders in the days of 60W/100W lights and you could sometimes here the buzzing and see the light dim slightly. Yes, those are circuits for which AFDD are not recommended...

Right, which at worse case would translate to 1 1/2 cycles on a 50Hz supply and about 2 cycles on a 60Hz supply if I have my math right. The maximum time which an arc fault can persist is 8 half cycles or 4 cycles on a 60Hz supply according to standard UL1699.


Testing done by UL in the United States has shown that the parallel resistance is only 0.03 ohms; page 337.


https://www.nfpa.org/assets/files/AboutTheCodes/70/70_A2022_NEC_P02_FD_PIReport_1of2_rev.pdf


When maximum Zs, 0.03 ohms arc impedance and the typical length of flex resistance are summed together the resulting current flow universally clears the fuse fast enough that the time (incident energy) does exceed those set by UL1699 and IEC-62606.


What folks in the UK have to realize is that before AFCIs were created in the US, the EU and British systems were extensively studied and determined to significantly limit short circuit energy (sputtering) which was theorized (key word) to be behind a sizable percentage of US residential electrical fires.

Where it all went horribly wrong was instead of mandating set earth fault loop impedance requirements in NFPA-70, research went out to determine the lowest reasonable short circuit current that may be found in a dwelling as is- which was discovered to be around 75 amps. And so the original concept was to lower the magnetic pickup on 15 and 20 amp breakers to 75 amps. When it was realized this would result in nuisance tripping on high inrush items like motors, tools and ballasts the electronic AFCI was created so tripping would be accomplished via AND logic looking for both ripple & magnitude instead of magnitude alone to achieve security. Although we know said security was not so- every time someone switched on a vaccuum cleaner with a brushed motor it was (and still is) another callback for the electrician.

Considering that Zs values almost always permit current flow over 125% of an MCB magnetic pickup there is absolutely no parallel event in the UK that will trip an AFDD but won't also trip an MCB.

Which leaves us with serial events. Serial events are the end stage of joule heating and rarely if ever occure on their own. The only way to stop a fire occurring from joule heating is by catching the event in its infancy- detecting local temperature rise before it reaches 1000*C. With AFDDs by then its to late, the only hope being the glowing connection will not have ignited any material long enough to produce a current signature.

 

[LastManOnline]

They do work on RFC

It's an interesting point this.Considering an RFC is 2 conductors in parallel, an arc in one leg is strictly speaking bridged out by the other leg. So theoretically there should be no arc on the damaged leg? Am I missing something here?

 

[AJshep]

It's an interesting point this.Considering an RFC is 2 conductors in parallel, an arc in one leg is strictly speaking bridged out by the other leg. So theoretically there should be no arc on the damaged leg? Am I missing something here?

It wont work on a RFC if there is just a loose connection on the RFC. But will/should work on a series arc from socket to appliance. Providing the load after the arc is 2.5amps (1.5amps For Electrium devices).
The trouble is most internal appliance wiring is parallel so it depends where the loose connection is, if its loose connection to just one low power internal component within the appliance it wont detect anything.

 

[pc1966]

As above, a real high-current arc is still detected, but a poor connection on the RFC will not show up as practically no arcing takes place. Typically you will only see ~10V drop at the break and that is not enough to sustain an arc of any note.

 

[LastManOnline]

It wont work on a RFC if there is just a loose connection on the RFC. But will/should work on a series arc from socket to appliance.

OK. This is the part I want to get straight in my head. Is it more correct to say then that arcing in the fixed wiring of an RFC won't be detected while arcing in appliances connected to an RFC will likely be detected?

 

[Aaron b]

Hager has a document claiming that they work on RFC's but acknowledge that only if the fault is on a spur or appliance connection (Arc Fault Detection - Hager UK - https://hager.com/uk/support/regulations-18th-edition/arc-fault-detection-devices). The AFDD's for use in Europe are substantially different to the ones used in the US, ours will be microcontroller based and will be tested against criteria to check that they play nice with other equipment. IEC62606 can be found online if you are interested in how they perform.

 

[Dave Appleby]

Just a thought.

I'm not seeing the Amendment 2 ready hype from any board manufacturers yet!

 

[Dustydazzler]

There is a few vids on affdddds on the tube from eefix in conjunction with wylex

but apart from that I have seen little out in the real world about how much and when affdddds will come out and when we are expected to fit them as standard

 

[stevethesparks]

Nice units by Wylex, but still £150 a pop at the moment.

 

[Dave Appleby]

Yeah.

But with BG at under 100 for a populated board there's still a massive gap.

I'd also expect to see some form of public engagement otherwise all hell is going to break loose come Feb.

Are wholesalers going to stop selling 17th Amd3 boards?

I think not.

Or it gets worse and we start ending up sorting DIY s*it!

Be afraid, be very afraid....

 

[Dustydazzler]

Nice units by Wylex, but still £150 a pop at the moment.

My local wholesaler is £165 + vat for a wylex afdd rcbo , and they are special order not a stock item at the moment

 

[Dave Appleby]

So £1500+ for a new board.

This is going to be interesting

 

[Dustydazzler]

I have done just 1 estimate for a afdd rcbo based upon my wholesalers prices (no mark up on my end) 13 circuits , spd , tail pack , gland pack etc etc it came to £2679 inc vat that is parts only not my labour added

 

[stevethesparks]

My local wholesaler is £165 + vat for a wylex afdd rcbo , and they are special order not a stock item at the moment

Screwfix £150 in stock.

 

[UNG]

Screwfix £150 in stock.

Only availble for next day collection at the branches near me

 

[Norah Nabino]

So is there no AFDD which can be installed and protect multiple circuits (like an RCD on a dual split board for instance)?

Not yet,most of them are for individual circuits

 

[Dustydazzler]

I personally wouldn't want an affdddd covering 5 or 6 or 7 circuits

for me its individual units or not at all

 

[IAmSparkytus!]

Ive never seen them put into practice so wasn't sure how sensitive they are. I was just thinking it would make things a lot cheaper until the prices came down. Much like when dual split boards were much cheaper than full RCBO boards but now the prices have dropped.

 

[pc1966]

I did read over the proposed amendment and AFDD are not being pushed for lights or high current loads like showers. Odd really, as most seriously burned out examples I have seen have been shower circuits, but maybe good old fashioned resistance and so no arcing to make one trip?

So it might be a case that really they only get used for sockets, in which case I foresee the return of a single/dual RFC per property!

 

[LastManOnline]

Hager has a document claiming that they work on RFC's but acknowledge that only if the fault is on a spur or appliance connection

Helpful link. Confirming then what we suspected, that RFC fixed wiring is not protected against a series arc, except in the extremely unlikely scenario of 2 arcs taking place simultaneousely.