Transformer Core types
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- Опубликовано: 12 авг 2014
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Different types of transformer core assemblies are illustrated in this video with help of animation. The core and shell type of constructions are explained for single and 3 phase transformers.
Thankyou so much for this video. And lots of love and respect from india.
Good day
really helpful. thank you so much
Thanks for the video 💎
it is helpful. thank you!
Excellent video ... very useful.
thanks... nice..... load and clear.... which software did you use for 3D animation...?
Very helpful videos, learned so much! Good job mates
What are you doing in this time?
@@Vivek-kw2ep hi
Thank u sooo much... for good expaination...
Loud and clear, thanks bud
Thank you for always good explanation
shell type cooling is not effective
Nice explanation sir...
You guys are awesome :D:D:D
More than meets the eye.
Thank you❤️
thank you
For single phase core type, the primary and secondary are split into halves, with each half being wound around one limb. The primary and secondary still share limbs, but in halves. The primary and secondary are not on separate limbs. This is done to improve magnetic coupling and reduce leakage flux.
Brother how lv and hv winding are connected to each other ?
@@mayurdeshmukh2444 HV and LV winding are not electrically connected. They are electrically isolated with paper and pressboard insulation. Assuming it is a step-down transformer, HV winding is the primary and the LV winding is the secondary. When the HV winding is energised, it produces a magnetic field that magnetically couples with the LV winding, causing an EMF to be induced in the LV winding. If the LV winding is connected to a complete circuit, current will flow through the secondary and the transformer is said to be loaded. The core acts as a low reluctance magnetic circuit to concentrate the magnetic flux.
By default, high voltages require greater insulation, and if we place it closer to the core, we require even more insulation. To reduce the amount of insulation required, the LV winding is placed closest to the core, followed by the HV winding placed over the top of it. Another reason we have the HV winding on top of the LV winding is so we can easily connect tap changer to the HV winding. A tap changer is used for voltage compensation (increase or decrease output) by adjusting the turns ratio. The HV winding is most suitable for tap changers because it has relatively low current in comparison to the LV winding. In many cases tap changing has to be done without disturbing the supply, we do this by using an ‘On load tap changer’ (OLTC) which can adjust the turns ratio of the transformer when the transformer is still live and loaded. Changing tap positions creates sparking, this is reduced by placing it on the HV side.
Back in the 70's, the company I worked at, wound the cores on specially designed machines that sheared the core steel in a specific pattern. The cores were pressed into a rectangle shape and annealed to retain that shape for stacking into the coil assembly. The processes were designed for maximum efficiency and production.
very interesting !!!
Thank you
Well dats breifly explains thank u..
As someone who used to design substation transformers, to this day I still find this text-book explanation is missing something. Consider a 3-phase 5-legged core-type transformer. In that case, the core surrounds the winding assemblies and looks very similar to the single-phase shell-type transformer, except that there are 5 core legs and 3 winding assemblies instead of 3 core legs and 1 winding assembly. I've always felt like the most accurate description was that shell-type transformers do not share a common top and bottom core yoke with all other winding assemblies. Conversely, core-type transformers do share a top and bottom yoke with all winding assemblies. Just my opinion, though.
Unfortunately, these videos are more _descriptions_ , than explanations.
Wel said and factual.
Without a technical understanding, the illustration given can be confusing. Because, in a three phase shell type xfmr, the middle phase fits the description of a single phase core type xfmr.
simple explanation
Thanks ✌️
Thanks
You missed the toroidal type. Great videos. tks
Thanku sir
Good
good
For high voltage and high power applications core type transformer is used,not shell type
helpful
Hello...how u make these animations?...is there a 3D program or something?
Xrip100 We use Blender for animation works.
thks
shell type is used for low power& voltage,core type used for high power&voltage
អរគុណThank👏
Would you please make a video about how generators produce Megawatt ? What's the mystery of load angle ?
If you were to explain this phenomenon in term of magnetic field principle, I would certainly say that you are the best instructive and impressive ones on earth !
Thanks a lot
its good. but need to know how a shell type transformer works. actually we are habituated to see mainly core type transformer. so it is very hard for us to assume how shell type transformer works..
Tq
The picture showing Shell type is misleading. The commentary that core surrounds winding. But it is a core type shown as shell type
what are the different kinds of transformer core material?
It’s usually just iron
So why is the shell type has better performance? next video?
Can you please make a video about flip-flops?
Doesn't explain how core parts as joined together. First plates are insulated. Then different parts of joined plates are joined together. Anyone knows how?
It's not clear whether those laminations are insulated from each other.
They are insulated with a lacquer coating
toroidal...
මේ වීඩියෝ එක සිංහලෙන් බලන්න මෙන්න ලින්ක් එක.
ruclips.net/video/lPNrzp9K4Lg/видео.html
How to pay .I have no bank account
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Thank you❤️