Type A rcd . EICR coding ? etc

Type AC, in terms of standards-requirements or modern designs, shouldn't trip in any case where type A would not.  Rather, it's the failure of AC to trip in certain cases that makes A preferable. 


However, modern RCD standards (whether for A or AC) require a test of immunity to false trips during transient residual currents. Some older RCDs that didn't have this requirement can trip easily on the brief residual currents through, e.g., a power-supply filter during turn-on or rapid changes in voltage.  I'm not sure where the boundary in time lies, but certainly the current IEC61008 specifies tests of transient immunity, whereas I've come across very [over]sensitive RCDs from the 1990s. 


So it's true that changing an old RCD (which incidentally happens to be type AC) to a modern one (that's type A), would [edit: could] help avoid the false trips.  But I'd be surprised if it's because of the "type" in itself: it's because of another feature (transient immunity) that varies between old and new models. 


See for example this thread elcb and borehole pump where another motor-type load caused an old RCD to trip.  


As far as I'm aware, the suggestions that manufacturers make (whether "use this type of RCD" or "this contains a rectifier") are concerned more with the problem of RCDs not responding to particular waveforms.

Type AC, in terms of standards-requirements or modern designs, shouldn't trip in any case where type A would not.  Rather, it's the failure of AC to trip in certain cases that makes A preferable. 


However, modern RCD standards (whether for A or AC) require a test of immunity to false trips during transient residual currents. Some older RCDs that didn't have this requirement can trip easily on the brief residual currents through, e.g., a power-supply filter during turn-on or rapid changes in voltage.  I'm not sure where the boundary in time lies, but certainly the current IEC61008 specifies tests of transient immunity, whereas I've come across very [over]sensitive RCDs from the 1990s. 


So it's true that changing an old RCD (which incidentally happens to be type AC) to a modern one (that's type A), would [edit: could] help avoid the false trips.  But I'd be surprised if it's because of the "type" in itself: it's because of another feature (transient immunity) that varies between old and new models. 


See for example this thread elcb and borehole pump where another motor-type load caused an old RCD to trip.  


As far as I'm aware, the suggestions that manufacturers make (whether "use this type of RCD" or "this contains a rectifier") are concerned more with the problem of RCDs not responding to particular waveforms.