super explanation bro, college lo eh lecturer intha clarity ga cheppaledhu🥺, lecturers ki kuda theliyadhu anukunta just topic batti patti cheppestharu anthe👿. practical knowledge most of the faculty ki undadhu🤬. finally after completing 3 years in electronics engineering ippudu ardham ayyindhi clear ga 😂. A lot of thanks bro for your efforts💯 💝 🤩.
ఇంతవరకు నా జీవితంలో ఇంత అర్థవంతంగా ఎవరు చెప్పలేదు, మీరు చెప్పిన అన్ని టాపిక్స్ అన్నీ చదివాను, విన్నాను కానీ ఈ మట్టి బుర్ర బట్టి పెట్టాను కానీ అర్థం కాలేదు కానీ మీరు చెప్పింది విన్నాక ఇలా స్కూల్ & కాలేజీలలో చెప్తే ఎంతోమంది ఇంజనీర్లు డాక్టర్లు అవుతారు, ఇంకెంతో మంది ఉద్యోగాలు సాధిస్తారు. 🙏🙏🙏🙏🙏🙏🙏🙏
Anna meeru chaa Baga explain chestharu meeru chesina concept videos vere channel lo epudo chusanu kani artham kaledu . Meru late Aina parledu kani Inka videos cheyandi anna
Can you explain this types of generators in in-depth videos and working principle of all genaretors❤❤❤❤❤❤❤ AC generators ❤ 1. *Alternator*: A type of AC generator used in power plants, automotive applications, and renewable energy systems. It consists of a rotor, stator, and magnetic field. 2. *Synchronous Generator*: A generator that rotates at a constant speed, synchronized with the frequency of the output current. It's commonly used in power plants and grid-connected applications. 3. *Induction Generator*: A generator that uses electromagnetic induction to produce current. It's commonly used in wind turbines, micro-hydro systems, and renewable energy applications. 4. *Brushless Generator*: A generator with a brushless design, eliminating the need for maintenance. It uses a rotor with a permanent magnet or electromagnet. 5. *Wound Rotor Generator*: A generator with a rotor winding, used in high-power applications like industrial drives and power plants. 6. *Salient Pole Generator*: A generator with a salient pole rotor design, used in hydroelectric power plants. The rotor has projecting poles with windings. 7. *Cylindrical Rotor Generator*: A generator with a cylindrical rotor design, used in thermal power plants. The rotor is a smooth cylinder with a uniform magnetic field. 8. *Axial Flux Generator*: A generator with an axial flux design, used in wind turbines and small-scale power generation. The magnetic field flows parallel to the shaft. 9. *Radial Flux Generator*: A generator with a radial flux design, used in high-speed applications like aerospace and industrial drives. The magnetic field flows perpendicular to the shaft. 10. *Permanent Magnet Generator*: A generator using permanent magnets, commonly used in wind turbines, small-scale power generation, and automotive applications. DC genaretors❤ 1. *Separately Excited Generator*: - Field winding is connected to an external power source. - Excitation voltage is independent of the generator output. - Used in applications requiring precise control over the magnetic field. 2. *Self-Excited Generator*: - Field winding is connected to the generator's own output. - Excitation voltage is dependent on the generator output. - Used in applications where a separate power source is not available. 3. *Shunt Generator*: - Field winding is connected in parallel with the armature. - Field current is independent of the load current. - Used in applications requiring a stable output voltage. 4. *Series Generator*: - Field winding is connected in series with the armature. - Field current is dependent on the load current. - Used in applications requiring a high starting torque. 5. *Compound Generator*: - Combination of shunt and series windings. - Provides a stable output voltage and high starting torque. - Used in applications requiring both stability and high torque. 6. *Permanent Magnet Generator*: - Uses permanent magnets instead of electromagnets. - Eliminates the need for an excitation power source. - Used in applications requiring a small, lightweight, and efficient generator. 7. *Brushless Generator*: - Eliminates the need for brushes and commutators. - Reduces maintenance and increases reliability. - Used in applications requiring high reliability and low maintenance. 8. *Dynamos*: - An older type of DC generator. - Often used in historic or nostalgic applications. - Typically uses a commutator and brushes.
Electronic pai naku picha prema ...basic ga middle class student la confusions yela untayo vatiki taggattu mi vedios lu unnai tnks .sir miku ok id link pamputanu danni telugulo convert chesi cheppandi sir .👍
@@ExplanationOnWorking_GPRAJ brother , total computer made Transistor and phasor diagram ( circuits ) so computer only understand 0 and 1 and we used normal language to communicate the computer how to understand the computer normal language plz can you explain what is the science behind that can you explain brother !! That thing every one must
super explanation bro, college lo eh lecturer intha clarity ga cheppaledhu🥺, lecturers ki kuda theliyadhu anukunta just topic batti patti cheppestharu anthe👿. practical knowledge most of the faculty ki undadhu🤬.
finally after completing 3 years in electronics engineering ippudu ardham ayyindhi clear ga 😂.
A lot of thanks bro for your efforts💯 💝 🤩.
Avunu😅
God of explanation ❤❤❤🙏
Chla nacchindhi sir me explanation ❤😊
ఇంతవరకు నా జీవితంలో ఇంత అర్థవంతంగా ఎవరు చెప్పలేదు, మీరు చెప్పిన అన్ని టాపిక్స్ అన్నీ చదివాను, విన్నాను కానీ ఈ మట్టి బుర్ర బట్టి పెట్టాను కానీ అర్థం కాలేదు కానీ మీరు చెప్పింది విన్నాక ఇలా స్కూల్ & కాలేజీలలో చెప్తే ఎంతోమంది ఇంజనీర్లు డాక్టర్లు అవుతారు, ఇంకెంతో మంది ఉద్యోగాలు సాధిస్తారు. 🙏🙏🙏🙏🙏🙏🙏🙏
Idi kada asalina topic super explanation
Really super explanation... Zero basic knowledge people also understand this explanation 🫂🤗
Really great sir meeru..❤..chala bhaga chepparu..🥰
Anna meeru chaa Baga explain chestharu meeru chesina concept videos vere channel lo epudo chusanu kani artham kaledu . Meru late Aina parledu kani Inka videos cheyandi anna
Super talented bro
Mi explanation ki handsup anna😊
Beo really you great cjalanandi video s chusanu transistor kosam miru chalabaga cheparu
The best video on youtube to understand about transistor
Your really God gifted sir bro
Super explanation ❤❤❤❤❤
Excellent excellent explanation sir.....❣️❣️❣️❣️
Your are brilliant bro 👌👏👏👏😊😊❤ good explanation
Explaination bagundhi bro ...bro koncham SCR gurinchi kuda chepu bro
chala baga chapparu sir tq alaga editing chase chupunchinadhuku hadsup❤❤❤❤❤❤
Well done explanation in 12 minutes... 🎉👏
Very very excellent bro ne valla na doubts kuda Thiripoyayi
Resp Sir! Vaav Sir. -- ChinnaRao Paderu Andhrapradesh
Explanation super Sir....😅❤❤❤
Best teacher...❤
How did u analysis this... Super explanation
Super explanation bro. Thank you
Can you explain this types of generators in in-depth videos and working principle of all genaretors❤❤❤❤❤❤❤
AC generators ❤
1. *Alternator*: A type of AC generator used in power plants, automotive applications, and renewable energy systems. It consists of a rotor, stator, and magnetic field.
2. *Synchronous Generator*: A generator that rotates at a constant speed, synchronized with the frequency of the output current. It's commonly used in power plants and grid-connected applications.
3. *Induction Generator*: A generator that uses electromagnetic induction to produce current. It's commonly used in wind turbines, micro-hydro systems, and renewable energy applications.
4. *Brushless Generator*: A generator with a brushless design, eliminating the need for maintenance. It uses a rotor with a permanent magnet or electromagnet.
5. *Wound Rotor Generator*: A generator with a rotor winding, used in high-power applications like industrial drives and power plants.
6. *Salient Pole Generator*: A generator with a salient pole rotor design, used in hydroelectric power plants. The rotor has projecting poles with windings.
7. *Cylindrical Rotor Generator*: A generator with a cylindrical rotor design, used in thermal power plants. The rotor is a smooth cylinder with a uniform magnetic field.
8. *Axial Flux Generator*: A generator with an axial flux design, used in wind turbines and small-scale power generation. The magnetic field flows parallel to the shaft.
9. *Radial Flux Generator*: A generator with a radial flux design, used in high-speed applications like aerospace and industrial drives. The magnetic field flows perpendicular to the shaft.
10. *Permanent Magnet Generator*: A generator using permanent magnets, commonly used in wind turbines, small-scale power generation, and automotive applications.
DC genaretors❤
1. *Separately Excited Generator*:
- Field winding is connected to an external power source.
- Excitation voltage is independent of the generator output.
- Used in applications requiring precise control over the magnetic field.
2. *Self-Excited Generator*:
- Field winding is connected to the generator's own output.
- Excitation voltage is dependent on the generator output.
- Used in applications where a separate power source is not available.
3. *Shunt Generator*:
- Field winding is connected in parallel with the armature.
- Field current is independent of the load current.
- Used in applications requiring a stable output voltage.
4. *Series Generator*:
- Field winding is connected in series with the armature.
- Field current is dependent on the load current.
- Used in applications requiring a high starting torque.
5. *Compound Generator*:
- Combination of shunt and series windings.
- Provides a stable output voltage and high starting torque.
- Used in applications requiring both stability and high torque.
6. *Permanent Magnet Generator*:
- Uses permanent magnets instead of electromagnets.
- Eliminates the need for an excitation power source.
- Used in applications requiring a small, lightweight, and efficient generator.
7. *Brushless Generator*:
- Eliminates the need for brushes and commutators.
- Reduces maintenance and increases reliability.
- Used in applications requiring high reliability and low maintenance.
8. *Dynamos*:
- An older type of DC generator.
- Often used in historic or nostalgic applications.
- Typically uses a commutator and brushes.
Super Xplean bro
Superb explanation.
Excellent explanation,, continue
Star-delta starter gurinchi cheppu bro
Super anna ❤
Super bro chala Baga cheparu
Bro ur explanation is osm
Super explained
Bro super explanation
Good explanation
Best book to read the same concept bro
Super bro me explanation
Awesome bro..👌
Explain is super Anna
Superb 🙂
Super bro ❤
Perfect
Bro kuncham JFET and MOSFE evi kuda kuncham explain chaiu bro plzzzz bro na sem challa important plzzz clg chepindhi asalllu Ardam avadam ledhu bro kuncham explain chaiu bro
Bro migilina 3 (pnp,jfet and MOSFET) transistors gurinchi detailed video okati cheyava, please 🥺
Electronic pai naku picha prema ...basic ga middle class student la confusions yela untayo vatiki taggattu mi vedios lu unnai tnks .sir miku ok id link pamputanu danni telugulo convert chesi cheppandi sir .👍
Super bro
Superbbbbbbbbbbbbb explain
Super
Nee explanation ki kudos mawa 🫡❤
Super bro.....keep going 💪
Bro pnp , etc types of transistors kuda explain chey...
ఈ కాలానికి నీలాంటి వారు ఎంతో అవసరం❤
Avunu..meru cheppindhi nijam100%
Nice try bro
Compressor and AHU working system explain bro
Ok super
Can you explain working of Starlink satellite ❤️✅
Bhayya okkati chepu conduction period lo mobility of ions aa direction untundi .. you Said that -ve to +ve
❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤tq so much anna
Bro SYNCHRONISED MOTOR gurinchi explain chayava bro plz.....
Ok brother... Chesthaanu..
Oka velaa nenu cheyyakapothe malli malli comment cheyyandi parledhu... Thappakunda chesthaanu..
Tq bro........😊@@ExplanationOnWorking_GPRAJ
Diode gurunchi chey
Anna newton's 3 laws full explain video kavali
Nachindhi sir super❤❤❤❤😂
God brother
Anna
Electron direction
Electric field direction
Pains oka video chei anna
Plz
👍
Baga చెప్పారు ఆనండి ఇంకొకరిని తక్కువ చేసి అనవద్దు
Bro fuse s video che bro
Ma college lo kuda cheppaledu Anna
Diploma student🎉🎉😎😎
I have a small doubt brother !! Voice signal increase cheyali antey 2nd wire lo voltage ⚡ penchali kadha brother. is it right brother?
Ha avunu brother... Base ki connect chese wire lo Voltage ni increase cheyyaali
@@ExplanationOnWorking_GPRAJ brother , total computer made Transistor and phasor diagram ( circuits ) so computer only understand 0 and 1 and we used normal language to communicate the computer how to understand the computer normal language plz can you explain what is the science behind that can you explain brother !! That thing every one must
Kk brother chesthaa.... Kaani konni videos pending lo unnay.. avanni upload ayyaka thappakunda chesthaa
@@ExplanationOnWorking_GPRAJ okey thank you respond to ur subscribes .we are eagerly waiting for that vedio brother!!
Chestha annav kadhuu bro !!
нσω тσ мσвιℓє νσι¢є мαкє α єℓ¢тяι¢ωєανєѕ ¢яєαтѕ ρℓz мαкє α νι∂єσ αииα
సైన్స్ కాదు ఫిజిక్స్ 0:47
అంటే ఫిజిక్స్ మెకానికల్ ఇంజనీరింగ్ లో సబ్జెక్టు హా.l కాదు గా. సైన్స్ లోనే ఒక సబ్ బ్రాంచ్ ఫిజిక్స్ 😊
నువ్వు కేక అంతే 😄😄
Bro ivanni neku Ela telusu
Really super explanation sir 😊
Good explanation