If you start looking at the physics of ungrounded systems you might find the L-L voltage might actually be a too low number, the maximum value of some could be 480*1.732 or 832 volts or even more.
Not disputing that, but the question was specifically about the (apparently minority) case of L-L faults.
Which still leaves the question of why that 480V needs to be limited to 277V L-G. The whole "products coming out the arc chute can connect to a ground metal case to make a ground reference" idea made sense to me. But Jim indicated it was more than that.
I agree with Jonathon it would have saved everyone much confusion, or if there were an engineering wiki/thesaurus
I was confused with that too earlier. And take anything I say with a massive grain of salt. But the way they explained it is because of the path it takes when they are connected L-L in series. Path it takes is source, first pole breaker load, 2nd pole breaker source. They act like 2 resistors in series. Example 10V source, with equally sized resistors. The voltage drop across the resistors is half. So each resistor is only seeing half the voltage. Thus each pole is only seeing the phase voltage. Which in WYE is less than than the line voltage. sqrt3
A L-G fault does not involve a load at all. There is a single Line, therefore there is a single pole breaking the fault.
Wow. 26 words rather than an NEC and ANSI standard voltage rating of 480Y/277V.
I wonder why do they then use the single phase marking '120/240' on 240V breaker and not 240Y/139 ?
Ask UL.
So the path is source ->breaker > fault?
Yes. Faults, other than overloads, are considered to have no impedance other than the source and conductors.
Just wait until I'm done with 120/208 'single phase'....
But 120/208 follows the ANSI voltage format for single phase.Just wait until I'm done with 120/208 'single phase'....
There was somebody on another forum who just ran into one at a feed mill or grain elevator or something.
With the 120/240 high leg it's done to eliminate the need for another transformer for your 120 loads. 240/480 high leg seems like you'd need another transformer anyway. I wonder if it's just an alternative to corner grounding because people are freaked out by corner grounds
Yeah, that one bugs me too. I saw a 3 phase motor on a saw hooked up to that 120/208 "single". It ran fine until they tried to make heavy cuts and tripped the overloads. Tested the voltage at the motor starter and one phase was "dead" relative to ground, and spent 15 minutes scratching my head wondering how something with a dead phase could be startingJust wait until I'm done with 120/208 'single phase'....
240Y would be 139V line to ground so I take it that exceeds the rating of a 120/240 breaker.
Open wye? is that just delta? Im guessing when they say open it means ungrounded?
so the 120/240 breaker is that specifically for the. I forget the term but "single phase hi leg" wher there's a neutral stuck in the middle of a winding to provide 120 power. I dont know how common that is but it seems like a really specific scenario to build a breaker around
