How Toroidal Transformers Works? Working of Toroidal Transformer Explained with 3D Animation
How Toroidal Transformers Works? Working of Toroidal Transformer Explained with 3D Animation...
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LearningTranscript
00:00In this video, we'll delve into the fascinating world of toroidal transformers.
00:04But first, let's solidify some foundational concepts.
00:08Current induces a magnetic field which reciprocally can induce current,
00:12enabling wireless power transmission,
00:15particularly effective with spiral or coil shapes.
00:18Transformers, as the name suggests, transform voltage and current
00:23while maintaining a relatively constant power output,
00:26relying on the difference in turns between primary and secondary coils.
00:31Cores with high magnetic permeability amplify magnetic flux,
00:36crucial for energy transfer between coils.
00:39Now, on to toroidal transformers.
00:43Their toroidal shape optimizes magnetic field distribution,
00:47enhancing efficiency and compactness.
00:50With the coil completely enveloping the core, eddy currents are minimized,
00:54leading to lower operating temperatures.
00:57This design inherently facilitates better induction throughout the coil.
01:02But let's not overlook the secondary winding.
01:05Constructing a toroidal transformer involves a toroidal core,
01:09typically coated to prevent direct contact with the primary winding.
01:14Layers are added to insulate the primary winding from the secondary,
01:19followed by washers and fasteners to secure the assembly.
01:22The primary winding usually has more turns than the secondary,
01:26resulting in voltage reduction.
01:29This ratio determines the output voltage,
01:32exemplified by a simple mathematical calculation.
01:36Adding secondary coils allows for multiple output voltage options,
01:41offering flexibility in various applications.
01:44Furthermore, this flexibility extends to the primary winding,
01:48where different combinations cater to varying input voltages,
01:52allowing for a wide range of output possibilities.
01:56However, despite their versatility, toroidal transformers aren't omnipresent.
02:03Their complex construction and higher cost, coupled with size limitations,
02:08restrict their widespread use, typically to lower kilovolt ampere ratings.
02:13So while toroidal transformers offer efficiency and compactness,
02:17their intricate design and higher production costs
02:20limit their application in certain scenarios,
02:23emphasizing the importance of considering various factors
02:26when selecting transformers for specific purposes,
02:29like comment, share, and follow.