I think some of the confusion is a result of using the term “voltage drop” when discussing ANSI 84.1. NEC Voltage drop or (rise) is a delta from voltage variable. ANSI is a voltage range (tolerance) of Nominal voltage. You can have Zero voltage drop from service to branch circuit load and be less than ANSI’s acceptable voltage “Range”, if utility voltages are too high or low.

In the industry, its standard to consider 5% voltage drop from Transformer terminals right upto the consumer terminals. This ensures that we remain in an envelope inspite of source voltage fluctuations, Transformer regulation (load depended) and effect of overloading the device itself. Increasing this envelope to 10% means now you don't have much flexibility in operating the power system and voltages at load end may routinely go below 10%.

First let me say, thank you for sharing all of this knowledge...I also have to say, somewhat tongue in cheek...If you turned these videos into cartoons (a la Joe Rogan) and had the practical information being demonstrated that way with all of you guys talking in the background, oh man, I think it would be a hit...love your videos, teaching myself maybe for a new career...

One interesting aspect of voltage drop calculation is: Nobody talks about the actual load current to be used for voltage drop calcs. Motors seldom operate at their nameplate rating and the Code is clear about the basis for ampacity for cable sizing. But when it comes down to voltage drop, no standard or Code on earth tells if you need to take the nameplate rating or actual load, and there lies a flexibility to get the actual BHP value (shaft kW) and take the actual load Amps which will never be exceeded.

Question: Franklin Electric Motors tells me plus or minus 10% of 230 volts, PG&E tells me plus or minus 5% at 240 volts. Who's correct..

I've been reading a lot, can i take the electrical exam even if i still do not complete the required hours?