Fair enough, but my point remains that there would inevitably be a finite limit to how small a differential current would trip it.
True, but if that crucial, it could presumably be battery backed-up.
Interesting, but I'm not sure I understand that. If both voltage source and 'leak' were on the load side of the RCD (with incomers either O/C or effectively connected through a 'dead' transformer winding), why/how would the device trip?
Well, yes, I'd always assumed that this was how virtually all 'breakers' worked - in fact, it's difficult to think of what alternative there would be. Indeed, even manual switches/isolators often/usually use spring action, in one way or another, to separate contacts rapidly and positively. However, as I've been discussing with bernard, it obviously must take a finite amount of mechanical effort to 'release the latch'.
Fair enough (whatever it exactly means!)
Again, fair enough. I've never really understood why there is so much apparent interest in the exact value of Ze, given that electricians will/should usually be measuring Zs on each of their final circuits, rather than calculating/estimating from Ze and (R1+R2) of the circuit. If it transpires that Ze is clearly too high, they will obviously want to speak to you and your colleagues but, otherwise, it's really just the Zsthat matters o them.
I don't doubt that. Albeit in a totally different field (and 'the other way around'), it's always rather amazed/impressed me that the tiny amount of electricity coming from the 'flame failure thermocouple' in a gas appliance is able to 'hold back the latch' of the mechanism of what can be a fairly substantial gas valve.
It was something to do with a damaged feeder that had been dis-connected at the sub station and may have been auto re-connected while still faulty. I am going to have to ask an old colleague who was more involved in the power provision.
Fair enough - that sounds like an extremely unusual, and probably pretty unique, situation! Faced with the same, I think I would probably want to have the 'damage feeder' well-and-truly disconnected at my end - at least until the issue was resolved
True - which I suppose means that it would be 'nice' (for consumers/ electricians) if (as with supply voltage) DNOs had to comply with some 'real maximum' Ze (on services for which they provide an earth'), rather just a 'maximum expected' - so that everyone knew where they stood.
I think that we're aware of the theoretical downsides but, in an attempt to translate them into anything practical, are you aware of any RCDs (at least, ones for domestic etc. use) currently being manufactured which are not electronic? ... As for a couple of the specifics you mention:
It is surely 'vanshingly improbable' that such would occur at the very moment that one needed a RCD to operate. Anyway, as previously discussed, if one were actually worried about that possibility, it could be addressed by having a 'functional earth'.
At worst that affects only a tiny proportion of users. In reality, truly 'spontaneous and unexplained random trips' (which might be due to RF pickup in some cases) are incredibly rare.
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