Where ya going to school?

same! I'm in the middle of 2nd year right now in Canada.

Keep it up! You're absorbing more than you think you are.

PS thanks - great video!

The connection draws the "first" 600V directly from the input before the transformer, then the transformer adds or subtracts it's secondary voltage of 120V to/from the 600V of the input. The key here is that most of the power does not pass through the transformer, instead only the 120V which is 120/600 = 1/5 of the input voltage passes through the transformer, and the transformer is limited to a maximum output current of (15000/120) = 125A. Thus the output can consume 125A from the input in both buck and boost connection with the difference only being that in buck the output voltage is subtracted from by 1/5 to 4/5 of the input voltage, and in boost the output voltage is added to by 1/5 to 6/5 of the input voltage. Since the kVA going through the transformer is the same in both cases due to the secondary side current being identical, the observation that in buck connection the output voltage is 4/5 of the input voltage where 1/5 corresponds to 15kVA giving 4/5 => 4 * 15kVA = 60kVA, and in boost connection the output voltage is 6/5 of the input voltage where 1/5 corresponds to 15kVA giving 6/5 => 6 * 15kVA = 90kVA. I just watched the video to learn to understand how it works myself, I hope that my explanation is not too far off, and not using too bad naming conventions, it was many years since I last studied any of this :)

@@danielnilsson2076 That makes perfect sense! Sir, I thank you.

SwirlVanHalen I’m glad you liked it. I don’t right now but I can definitely add that one to the queue.

It does from neg to pos but in AC it'll be both directions. You can pick any direction and it will still work out the same as long as you follow that path

Yes - to +

I'm still trying to wrap my head around this stuff, but the 150A supply side current isn't directly through the 25A rated primary winding -- it's being split with the secondary 125A rated winding due to the configuration (125+25 = 150), so it's not overloading the winding. It's also not supplying more power than the input, the VA value is equal on both sides. Again, I'm suffering through class trying to grasp how these kVA values work because I have similar mental blocks as you (at least you 8 months prior to this reply!).

This is the same way we learn it in electrical school. The point of using pos and neg polarities is so you can draw the circuit as 2 batteries to figure out the load voltage and amperage.