Note: Highly revised, ignore the first form of this post.
i am still not seeing it...I see the current as also being identical in all 6 coils of the transformer. The current vectors also add at 120° and will be the same in the two coils connected that way with a resultant vector that is an extension of the current vector from the other secondary coil.
Not if you only load one of the two line-to-line phases.
In a
parallel circuit two out-of-phase currents can add to produce a net current of an intermediate phase (in this case lying along the same line as the third current vector). But in a
series circuit both currents will have the same phase, but they will both be out of phase with their own coil voltage vector.
The current in the two coils in series will then be in parallel with the current from the third coil.
The commonly shown zig zag and double delta each allow a high output from the three phases of a generator, but does not allow full rated three phase kVA of the generator to be delivered to a single phase load. So, using either zig-zag or double delta a 75kVA generator will produce 50kVA into a single phase load. The prime mover mechanical load will be 50kW but the current in some windings will be that corresponding to a 75kVA load or some windings will deliver their current at a low power factor.
The circuit I am referring to uses three identical transformers each with to identical and isolated secondaries (although the two secondaries on one of the three will end up with a common terminal).
It cannot, even if there are no transformer losses, derive 75kVA single phase from a three phase 75kVA generator. Only 50kVA, since some of the component currents have a low power factor.
Note that as long as the generator provides two identical and completely isolated output windings for each phase it can be connected in the Leyton configuration. It will provide single phase 120/240 from a set of six 120V windings and should have a uniform power drain on the prime mover over the entire cycle.
The Leyton connection allows you to have the same effect as the generator but starting from a normal three phase source/service. It requires larger than normal single phase transformers to handle the extra current, but will draw only as much
power from the primary as is consumed by the load.
In the generator case a 50kW generator with three winding pairs each rated at 25kVA can deliver 50kW output with only 50kW mechanical load on the prime mover.
For an accurate and complete description, see:
http://wpedia.goo.ne.jp/enwiki/User:Hugh_Leyton/sandbox
