Bassalisk said:
I have the ultimate question: WHY did US go for 120 V?
At the time Thomas Edison was making his improvements to the incandescent light bulb (which had been invented much earlier), he apparently figured out that at a lower voltage, the filament would be designed with a lower resistance, which means that it would be thicker and/or shorter. Such a filament at a lower voltage would actually be more reliable than one of equal wattage at a higher voltage. The higher voltage filament would be thinner and evaporate sooner and/or be longer and more vulnerable to vibrations (including startup vibrations).
There was already a migration to using 220 volts as the delivery on various electrical distributions systems of the day (but not very widespread, yet, due to the lack of a practical lightbulb). What Mr. Edison figured out was a way to use a 3 wire scheme to allow him the advantages of distribution at the higher voltage of 220, while also having the advantage of the lower voltage of 110 that made his lightbulbs more reliable. His business model was not in selling the lightbulbs per se, but in selling the electricity that they use.
Although his scheme was based on DC, and thus was a mixed positive/neutral/negative system, it happened to work (most likely to Mr. Edison's displeasure) just as well on AC (as did his light bulbs). So when and where systems were established with AC, they used the same 3-wire scheme. It did, however, come with a 50% cost penalty for the cost of the wire. But that didn't seem to stop them. I presume copper was lower in price back then as it was not in such widespread demand compared to today.
So basically, the AC system adopted Mr. Edison's DC system voltages, which Mr. Edison devised to make the light bulb work more reliably.
You will find that even lower voltages like 12 volts make for even more reliably light bulbs. That reliability can then be traded off to operate the filament at an even higher temperature, gaining some efficiency (but not like what we can do today with FL, HID and LED lighting). Then there is the halogen cycle that can operate at the higher temperature, which can improve the filament reliability.
If Mr. Edison had accepted alternating current, he might have realized that using a transformer to reduce 220 volts down to 10 volts would have produced a much more reliable light bulb. Then he could have delivered electricity at 220 volts and had transformers in each home and office to step that down to 10 or 20 volts. And at that point he could have used even higher distribution voltages and widened the scale of his electricity business.
So, blame the existence of 110, 115, 120 volts on Edison's fascination with DC and his business model of making reliable lightbulbs to sell electricity. BTW, the standard in the USA for common utilization voltage was boosted to 115 volts during WW2 and 120 volts later on.
Anyone know why Japan uses 100 volts?
