Is there any differences in the transformers themselfs? If you connect H2 to X2 in the additave transformer, would it work exactly the same as the subtractive one? If you connect H2 and X1 in the subtractive transformer, would it work exactly the same as the additave one? How are these different than buck/ boost transformers?
Wonderful information. Believe the DIRECTION of the secondary winding compared to the direction of the primary DECIDES if this in an additive or subtractive transformer?
Thank you thank you very informative. So do I have to purchase a additive or subtractive Transformer or can they be wired differently to achieve the result
Sorry, I don't do lessons on-on-one If you have any topics that you think would make good videos let me know. I have a lot of 3-phase transformers in the works, but they won't be out for a bit. Good luck!
Every electrician including me learns this in school and a textbook. This video helped me wrap my mind around the subject a bit easier. Thank you
Better than my textbook. Thanks!
This was never explained to me and you did a great job with this presentation!
Omg thank you so much I was trying to learn this from a textbook my brain couldn’t hack it
good explanation of transformer polarity. Thanks
I’m sorry I’m missing something. How can you have specific polarity in an a/c environment??
Hahahaha I guess I should’ve waited till the end of it lol. I see it’s the current you’re talkin about lol. Sry bud I get it now lol.
Is there any differences in the transformers themselfs?
If you connect H2 to X2 in the additave transformer, would it work exactly the same as the subtractive one?
If you connect H2 and X1 in the subtractive transformer, would it work exactly the same as the additave one?
How are these different than buck/ boost transformers?
Did you ever find an answer to your question?
How do I know which is the hot leg on the secondary. Is H1 always negative?
Superb explain. Now No any doubt.
Thank you sir 🙏
Great video sir ! Thank you
Always intriguing 🤔
very good idea abt polarity
Is there a way to test this without a voltage applied?
Solid video as always Zack 👌!!
Wonderful information. Believe the DIRECTION of the secondary winding compared to the direction of the primary DECIDES if this in an additive or subtractive transformer?
Correct! It's all about how it is wound
Hey Zack! Great videos! Super helpful while I'm in school. Any chance you could make an IP prep video? Thanks!
I mean, aren't they all kind of IP prep videos?
Good day sir. How can I turn my 4 face transformer into 3 face secondary 12v dc
Thanks!!!!
Brilliant explanation. Just a small question, why is this concept important when paralleling transformers?
Just so that when you connect them, all the polarities work together and not against each other
Thank you thank you very informative. So do I have to purchase a additive or subtractive Transformer or can they be wired differently to achieve the result
It depends how they are wound when manufactured
thank you sir you got a subscriber
Thanks for the sub!
what are you using to draw the lesson? (whiteboard but clear and it's the right direction when i view the writing)
Just a clear whiteboard and some fancy camera tricks. I'm writing normally for me and inversing the image.
What was over there at 1:20?
Just some notes probably. Sometimes I lose my train of thought. Ha ha.
Thanks for watching!
Hey great video…. Would to know do you do one and one lesson need help with three phase transformers I will pay you for your time test coming up ..
Sorry, I don't do lessons on-on-one
If you have any topics that you think would make good videos let me know. I have a lot of 3-phase transformers in the works, but they won't be out for a bit. Good luck!
Are these transformers or auto-transformers?
Just regular single phase transformers
@@ZackHartle
Can they be named as auto-transformers ?
Does "H" mean Primary? Why not use "P"?
H is for High, so the higher voltage. For a step down, it would be the primary.
@@ZackHartle So "X" means Low. Are H and X universal conventions for High and Low?