Ed in Tampa wrote:I think the real question is does the PowerPro carry the UL certification? If it does then I would say any Power Pro that trips a properly functioning GFCI is defective. And if the Power Pro does not carry UL certification what is the insurance industries position of incidents where non UL approved devices were used? I believe OSHA's take is it either must be UL or OSHA approved or it isn't allowed in commercial applications.
Ho-kay! Another worm has crawled into this basket! The old Mark 5's have not only UL approval, but also have the CSA logo engraved on the nameplate(the one above the quill lock). I do not recall any instruction to remove it when installing the pp innards!
I be real curious what the hi-pot test on the band saw(sans electrical wiring/devices) was connected between?
I am not an advocate of a return to the 'good old days' of little or no 'protection' but I am skeptical of the adequacy of the 'current' (pun intended) GFCI scheme to provide total protection so we can willy nilly go around oblivious to electrical hazards.
As you pointed out broken wires and incorrectly installed devices subvert the previous 3 wire grounding scheme. This is a reason a 'permanently' wired (no plug/receptacle) is safer('acceptable') in a garage, however, even that is still dependent on yer friendly master electrician and appliance creator!
However recent appliances(those portable things plugged into power receptacles) have a need to suppress RF Interference due to the high frequencies contained within. The rfi suppression attached to the power input wiring is to prevent that 'noise' from feeding back into the power grid (which will then act as an antenna). Unfortunately they also provide a leakage path which increases(leakage) with frequency so that a noise/transient spike may trigger the GFCI. These 'detected' spikes post no hazard to an operator but hence become a nuisance trip.
BTW a producer of electrical equipment that contains these RFI suppression capacitors must use capacitors($) capable of with standing the hi-pot voltage and allowing for the resultant 'leakage' by increasing the tester limit, or disconnect them during the 'leakage' test. (assuming 100% product testing - not always an accurate assumption)
