I am not. I said the wiring of a single phase (two secondary windings) transformer ahd more in common with the wiring and analyis of a delta transformer than it did with a wye connection. Simply reinforcing the point that identification and interconnection of windings is more important than being simply manipulate math.
Like Vbn = -Vnb, like Van+Vnb=Van-Vbn?
This is the heart of the discussion.
The answer is: because of the way the single transformer is connected.
It also shows that Ia and Ib are not in phase.
Does that mean you don't agree that the time while either Ia or Ib are zero because they are clipped or rectified is still part of the period of their fundamental harmonic?.
You, in part of your double-speak. You say the voltages at the windings MUST be in phase and anything else is a math trick. We all agree that V12 is in phase with V34. Then you agree that V43 is not in phase with V12. If V43 is not in phase with V12 then, by double-speak, V43 is not a real voltage because only in-phase voltages exist at the transformer output. It appears you try to have your cake and eat it too.
And none of it changes the winding voltages that exist before or after the connections.
5 is not connected to 3,7,2. The dashed line was to represent the missing 120? voltage. I'll replace it with a labeled arrow to avoid any confusion.
Why don't we just look at the transformer as-is for a starting point. The voltage across 1-2-3-4 is from the standard, single-phase transformer we have all been discussing. We would all agree that V12 is in phase with V34 in this transformer. But as the usage indicates, V12 is phase-opposed to V43. It is not a math trick but a physical reality. The use of the phase-opposed voltage allows us to produce the missing 120? voltage.
Why don't we address what I presented first before moving on?
If we discuss phase differences, it is only natural to include examples from familiar systems with phase differences.
Take any two terminals that define a voltage between them, directly connect them together and you will more than likely get fireworks.:slaphead:
The 1-2-3-4 winding in my example has the "V12 in phase with V34" voltages as well as the "V12 phase-opposed to V43" voltages. You do not have to physically rotate the transformer connections for these voltages to exist as they are already there waiting to be used.
I have seen it noted many times in different reference texts that the voltages at the ends of a winding are 180? out of phase with each other. But the reader certainly should understand the context of the use and I think we all do.
Has anyone disputed that?
Do you not agree that rotating a generator winding 180? is the same as the 180? mathematical rotation?
Right back at you.
The mathematical operations that show
Understood.
I have not shown that connection in my example. I have shown that both X1->X2+X3->X4 and X2->X1+X6->X5 are present. Read it again: both X1->X2 and X2->X1 are there as the transformer is connected. I'm not re-connecting anything from series to parallel and back again.
OK. But V12+V43=V13 is not what I have connected so what is your point?
It means that Ia and Ib are not in phase.
In the circuit in post #1004, are Ia and Ib in phase?
It means in 1004 you don't recognize you have effectively superimposed two voltage traces and you don't recognize you have two currents, Ia and Ib, with the same period P as their respective driving voltages.
