I've commented/questioned about this in the other thread. However, I've only just noticed the last few words (emboldened above). What happens if (as is far from impossible at the extremes of voltage), the frequency differs from the declared frequency (within the ±1% permitted variation). Are the voltage limits then different? If not, what is the significance of those last few words?
And they won't even have problems dealing with changes of frequency, e.g. 50/60Hz.A lot of the latest electronics (laptop and mobile-phone chargers, for example) come with switched-mode power supplies which will accept a wide range of supply voltages by nature of their design, often over a range of about 90 to 270V, so they'll generally have no problems whatsoever on anything from the (nominal) 100V supplies in places like Japan up the 250V in some parts of Africa and, I believe, India.
Yes, I understand that - but the voltage tolerance is quoted 'at nominal frequency', which begs the question as to what the voltage tolerance becomes at other (permitted) frequencies, doesn't it?
Many won't as they use a capacitor in series with the supply to limit the amount of power that the switch mode circuit can take from the supply.
Yes, some do, but many I've dissected the have the supply going straight to the rectifier.
No, because it is quoted at nominal frequency.
So do I take it that the regulations give absolutely no indication of permitted voltage tolerances when the frequency is not exactly equal to the 'nominal' value (which, strictly speaking, will almost never be the case - 50.000000000000000000000000... Hz would be a distinct rarity!).
Ah, so they mention frequency because, if the frequency dropped outside the acceptable range, it would be pointless to specify or demand an 'acceptable' voltage, since the system is already faulty.
I guess I'm naive. It seems that when I see a specification which says ""a variation not exceeding .... at the declared frequency" I am making the mistake of assuming that it means what it says!
As you know only too well, I am in at least as strong a position as anyone else here to understand the statistics. As I'm sure you are aware, if one has a Normal distribution with a mean of 50, the probability of any item/measurement/whatever having a value of exactly 50 is zero (or, more correctly, 'infinitely small').
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