Different types of DC Generator, animation | Classification of DC Generator with animation |Mruduraj
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- เผยแพร่เมื่อ 30 มิ.ย. 2024
- Different types of DC Generator, Classification of DC Generator and diagram with animation explanation is provided. Basically dc generator are classified in two categories. This video is one of its kind where I have explained connection diagram and single line diagram of different types of dc generator with animation. The connection of different types of dc generator with diagram and animation is provided to improve learning experience. The initial section of the video explains about separately excited dc generator with diagram. The next thing in video is explanation about self-excited dc generator and all three types of it. Which are shunt dc generator, series dc generator and compound dc generator this. The next section in different types of dc generator is long shun and short shunt generator. Finally at the end there is a trick to remember the classification of dc generator.
00:00 Info of video
00:36 Intro of channel
01:00 Separately excited dc generator
02:00 Self excited dc generator
02:15 Shunt dc generator
03:35 Series dc generator
04:30 Compound dc generator
04:45 Long shunt dc generator
06:25 Short shunt dc generator
07:28 Short question for you
08:10 Trick to remember
08:46 Important information
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Open circuit characteristics of DC Generator with experiment performance : th-cam.com/video/L0g1go8_yAk/w-d-xo.html
best video on youtube for dc genarators.😍
Very unique concept of explaining DC Generator...!!
Very well explained with excellent animation sir:-)
Very helpful sir.
You cleared all my doubts.
Superb Explanation...
Ans. Is E ..and your explanation and short but crystal and concise video help me in last time .... thank you for all ❤
Welcome 😁
Superb animation and camera focus on you !!! Hatsoff!!
Thanks for your feedback
Great video sir! Thank you!
Fabulous video..... Very much informative.... Thank you sir
Thankyou
Sir you are awesome!!!! Your explanation + animation......what a combo🤩🤩🤩🤩...Thank you very much sir😄😄😄
Thank you so much for your appreciation
Very nice👌
This was a very helpful video! The animations really helped.
Thanks man.
You from where?
@@LearningVibes I am from Ohio in the United States.
@@andrewdettra2644 What do you study there?
@@LearningVibes I am a sophomore in an electrical engineering program. We just had a test on different types of DC generators.
Superb video bro thanks for this
Very good video sir
Very useful video
🙏👍 best superb
Such great animated video sir
Thanks for appreciation
Join our learning community for free here we learn together
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Gajab bawaaal
Very nice sir
Nice video
👍💝
Super sir 😮😮
this Community will definitely grow more and more in time.
Thanks for your application
You are from where ?
DC232 is nice way to remember
tq sir
Please make video on working of dc generator
All of these are correct ans
True
Sir make a video on emf equationof dc machine
Please check dc machine playlist
There is video on this topic
Ok sir
Make video for speed control DC motor
Sure
Please join our telegram group i will solve your queries there
t.me/mjlearningvibes
Video is very helpful but video subtitle is placed over the animation picture 😢
Subtitle can be turned off through setting
If electricity can be induced by an electromagnet with a direct source, in a direct current generator, why should the coils of each ( armture or rotor & stator ) be connected to a direct current source?Why don't they just connect the winding of the moving part with a D.C, which produces a magnetic flux, and move the crankshaft by any means that induces electricity on the Winding of the stator part, and thus it can be exploited?( i.e. direct current is supplied to the rotor coils rather than the stator coils )
In a direct current generator, the coils of both the rotor and stator must be connected to a direct current source for the generator to function. The reason for this is that the magnetic fields produced by the rotor and stator must be synchronized in order to produce a continuous output of electrical power.
The rotor of the generator is typically rotated by an external power source, which induces an electromagnetic field in the rotor coils. This electromagnetic field then interacts with the magnetic field produced by the stator coils, inducing an electrical current in the stator winding. If the rotor coils were connected to a DC source, while the stator winding was not, the magnetic fields of the rotor and stator would not be synchronized, and the generator would not produce a continuous output of electrical power.
In addition, the rotation of the rotor produces a changing magnetic field, which induces a current in the stator winding. This is known as electromagnetic induction and is the basic principle behind the operation of generators. By rotating the rotor, a changing magnetic field is produced, which induces a current in the stator winding. If the rotor coils were connected to a DC source, this changing magnetic field would not be produced, and the generator would not produce any electrical power.
Therefore, it is necessary to connect both the rotor and stator coils to a direct current source in order to synchronize the magnetic fields and produce a continuous output of electrical power through electromagnetic induction.
What about separately excited dc generator
All of these
Sir you left cumulative and differential dc generator
Answer : all of these
DC232
E.:- All of these
Shunt dc generator and series dc generator
E
all of these
The answer is all of these
E All of these
E is the ans
Ans - (E) all of these
Answer is (E All of these) called as DC Generator
no no no no noo.........!
E(all of these )
Sir you left cumulative and differential dc generator
All of these
E
All of these
All of these
All of these
E
E
E
Mera kam pasand he to muje support karneke liye mere dusare channel ko subscribe kare.
th-cam.com/video/3Wp1CwW5OAI/w-d-xo.html
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