The timestamps for the Different topics covered in the video: 0:26 Different characteristics and Applications of Schottky Diode 4:17 Limitation of the Schottky Diode
5:16 Construction of the Schottky Diode 7:38 Reverse Recovery Time of the Diode
Dude, these topics aren't for those unwilling to put forth the effort to learn,4 for sure. This stuff isn't a read once and your good type of thing. It takes a overall knowledge of electronics to really benefit from. Videos like these help you get there though.
4:49 how both can be at same thing at same time ? 4:49 its reverse leakage current is high Then how At 3:43 it will not conduct in reverse bised even tiny bit ?
Lower recovery time means, in less time it can go from ON to OFF condition. In reverse bias condition, it will still behave like a normal diode and will remain off. The only thing is, since its reverse recovery time is lower, it can work at higher frequencies for switching applications. I hope it will clear your doubt.
The video explains the Schottky diode, highlighting its low forward voltage drop and fast reverse recovery time compared to normal diodes. It discusses the construction, operation, and applications of Schottky diodes, emphasizing their usefulness in high-power and fast-switching applications due to their unique characteristics. Key moments: 00:20 Schottky diodes have a lower forward voltage drop and faster reverse recovery time than normal diodes, making them ideal for high-power and fast switching applications. -Schottky diodes dissipate less power and generate less heat due to their lower forward voltage drop, making them efficient in high-power applications. -The fast reverse recovery time of Schottky diodes allows them to rectify high-frequency signals, making them suitable for fast switching applications like SMPS and communication circuits. 05:21 Schottky diodes have majority carriers, leading to a fast reverse recovery time without minority carriers, enabling high-frequency operation for fast switching applications. -Schottky diodes use n-type semiconductor and host metals like chrome, platinum, tungsten, with majority carriers being electrons. -The flow of electrons into the metal creates a depletion region near the junction, forming a surface barrier that restricts further electron flow.
Sir, at 4:20 you said Schottky diode has high reverse saturation current but later you explained it has no minority carrier. I am not getting that point. Please help.
Under reverse bias in schottky diode, the free electrons of the metals are attracted towards the applied positive voltage on n side which constitute for higher reverse saturation current. Whereas in normal diode there is p type semiconductor instead of metal, whose minority carrier electron concentration is much less than metal which in turn result in lower reverse saturation current.
The timestamps for the Different topics covered in the video:
0:26 Different characteristics and Applications of Schottky Diode
4:17 Limitation of the Schottky Diode
5:16 Construction of the Schottky Diode
7:38 Reverse Recovery Time of the Diode
Thank you for your video sir , why ur not consider the minor charge carriers...
why metal is on the anode side and semiconductor on the cathode side in the schottky diode
The explanation was so satisfying. Especially about reverse recovery time
If only we had more teachers like u🙏🙏🙏
Hats of from an electrical student
Outstanding explanation. I wish you had been around in the 1980s I struggled to understand this back then, it took a lot of thinking about.
Dude, these topics aren't for those unwilling to put forth the effort to learn,4 for sure. This stuff isn't a read once and your good type of thing. It takes a overall knowledge of electronics to really benefit from. Videos like these help you get there though.
Absolutely nailed the explanation 🔥🔥
I love the intro music lol, it just takes the nervousness away
Sir you are best explained the every part in electronics and that too can you prefer any channel like this for electrical concepts
Excellent lecture on Schottky diode. Thank you.
Greatly explained 👍
Excellent lecture sir thank you
splendidly useful
Thank you so much for explaining in such a beautiful way
Great video sir. Thank you so much.
4:49 how both can be at same thing at same time ?
4:49 its reverse leakage current is high
Then how
At 3:43 it will not conduct in reverse bised even tiny bit ?
thank you for the ............... explanation
Iam watching full ad before ur video to support you.keep making videos...
thank you very much for this explanation.
please make video on PIN DIODE topic
You explained it very well. Thank you.
Good explanation with mechanism
Very nice 👍👌
Very good explanation 👍👍👍
thanks for explainig in such a way.
need vedio on tunnel diode,energy band diagram
Thanks for sharing. Great video! Much appreciated.
Thx brother 💯
Superb explanation
Keep it up👍
Tq sir😇😇
Sir make a video on TUnnel diode too
You are awesome 👌
thanku soo much sir awesome video
Great video
Thanks for video
I love your videos. Keep it up 😻🙌
Excellent👍
Very well explained! Thank you!
Thank you Sir
Please sir make videos on logic family.
Thank you very awesome! Great information - thanks for putting this great information together!
Excellent.keep it up.can you explain how a dipole /monopole antena produces current generating em wave as it is open circuit?
Very nice
Thank you 😊
thx sir nice explanation
Liked and Subscribed
Sir, if reverse recovery time of schottky diode is negligible then can it be work fast in reverse bias condition.?
Lower recovery time means, in less time it can go from ON to OFF condition. In reverse bias condition, it will still behave like a normal diode and will remain off. The only thing is, since its reverse recovery time is lower, it can work at higher frequencies for switching applications. I hope it will clear your doubt.
@@ALLABOUTELECTRONICS thnks sir for your reply, it's very helpful.
Thank u sir
absolute legend
. Which of the following can not be treated as an amplifier in control system?
A. DC generator
B. DC motor
C. Amplidyne
D. Metadyn
@Manasvi I think b
Thanks for this nice video.
Great explanation! Keep it up.
The video explains the Schottky diode, highlighting its low forward voltage drop and fast reverse recovery time compared to normal diodes. It discusses the construction, operation, and applications of Schottky diodes, emphasizing their usefulness in high-power and fast-switching applications due to their unique characteristics.
Key moments:
00:20 Schottky diodes have a lower forward voltage drop and faster reverse recovery time than normal diodes, making them ideal for high-power and fast switching applications.
-Schottky diodes dissipate less power and generate less heat due to their lower forward voltage drop, making them efficient in high-power applications.
-The fast reverse recovery time of Schottky diodes allows them to rectify high-frequency signals, making them suitable for fast switching applications like SMPS and communication circuits.
05:21 Schottky diodes have majority carriers, leading to a fast reverse recovery time without minority carriers, enabling high-frequency operation for fast switching applications.
-Schottky diodes use n-type semiconductor and host metals like chrome, platinum, tungsten, with majority carriers being electrons.
-The flow of electrons into the metal creates a depletion region near the junction, forming a surface barrier that restricts further electron flow.
very useful....😊
Please upload tunnel diode video
Tq sir
what do you mean by reverse leakage current as already defined reverse current?
Both are same.
electronic circuit design basics of conventional CURRENT OR NON CONVENTIONAL CURRENT PLZ ANSWER SIR
Thanks sir
If I can't find this one (43CTQ100 Schottky Rectifier )which replacement can I use ??? Thanks
What is the different between shottkey & Shockley diode
Sir mur diode 460 and sr560 what is the good diode
what is the formula for forward current in schottkey diode ?
I believe this happens in only half rectifier. What about full wave rectifier, if you compare full wave with Schhottky rectifier?
can I use this type of diode on dual battery on ebike?
Thanks
Rrb je 2019 ece syllabus karwa do sir plz as per exam point of view.....thanx
is Schottky bidirecctional?
Sir, at 4:20 you said Schottky diode has high reverse saturation current but later you explained it has no minority carrier. I am not getting that point. Please help.
Even I have the same doubt.
Under reverse bias in schottky diode, the free electrons of the metals are attracted towards the applied positive voltage on n side which constitute for higher reverse saturation current.
Whereas in normal diode there is p type semiconductor instead of metal, whose minority carrier electron concentration is much less than metal which in turn result in lower reverse saturation current.
6.34 in metal ,electron concentration is high as compared to n type semiconductor then why electron flow in metal .
Can you please add subtitles?
Please explain the energy band diagram also
ThankYou So Much!
Power electronics subject?
How charges can combine with metal and n type semiconductor as both have electrons in each side??
Wich diode use in solar panel
You mean bypass diode in parallel with solar cell? If so, then many times schottky diode is used.
Not bad
😘😘😘😘
8:15 kon sa biasing voltage?
The voltage V, which is applied across the diode.
Tsym❤️
Great Tutorial.
But when shotkky is reverse biased aren`t these electrons in metal side now acting as minority careers?
no never, cause in metal electrons itself one and only charge carriers....
friends to hain hi nai
Explain in Telugu
Not P= V x I only P=U x I
Englished medium is disliked by me
😴
thank you very much