This explanation was very helpful. My application is a classic automobile (1962 corvette) that has a DC generator and vibrating contact regulator. Armed with this knowledge and my test equipment I'll be able to troubleshoot and determine why it's not charging properly. Thank you so much. My only constructive criticism would be to include the voltage cut out circuit (it's very simple).
Wow! This is so nice to hear about your experience. Also, thank you so much for the valuable compliment. We will cover cut out circuit in our upcoming video and share with you. Cheers! Keep learning keep growing.
Yes, Tirril VR can also be known as Vibrating contact type Regulator. To be specific: In Tirril Voltage Regulator, a fixed resistance is cut in and cut out of the exciter field circuit of the alternator.This is achieved by rapidly opening and closing a shunt circuit across the exciter rheostat. For this reason, it is also known as vibrating type voltage regulator.
@@aviatorupdates sir, the ckt diagram of tirril Voltage regular in the book( principle of power system by V.K metha and Rohit Metha) is not match to your lecture. Sir i ask this because the ckt diagram in book is quite difficult,i can't understand
A class I am currently taking was covering this topic. The textbook was very hard to understand. Your video was just what I needed and I thank you for putting it out there!
Informative video sir
Very professional my friend you are a good teacher
I’m American and you have done a very good job sir
Many many thanks for the beautiful compliment for our session. Keep learning and keep growing your knowledge. Best wishes 🤗
Amazing video, thank you
This explanation was very helpful. My application is a classic automobile (1962 corvette) that has a DC generator and vibrating contact regulator. Armed with this knowledge and my test equipment I'll be able to troubleshoot and determine why it's not charging properly. Thank you so much. My only constructive criticism would be to include the voltage cut out circuit (it's very simple).
Wow! This is so nice to hear about your experience. Also, thank you so much for the valuable compliment.
We will cover cut out circuit in our upcoming video and share with you. Cheers! Keep learning keep growing.
This is way better lecture than other V.C.Regulator courses, your explanation is loud and very clear, wish to give you 1k likes :)))
Many thanks for such a valuable response for the session. Stay tuned for more updates 😊
I SERIOUSLY LOVE U BRO U EXPLAIN VERY DETAILED U NEED MORE SUBSCRIBERS OMG
Thank you so much dear. 😊🤗
Very informative in the most basic way❤❤
Glad it was helpful!
Hi .. must say very accurately explained .. I have some doubts in EHJ PALLET book … how can I contact you ??
Thank you. Kindly drop in your doubts in our email I’d: aviatorupdates@gmail.com
@@aviatorupdates Hello … could you see my mail please?
@@hiteshahuja4623 Will check and revert in mail. Happy landings 😊
Sir, is it tirril regulator?
Yes, Tirril VR can also be known as Vibrating contact type Regulator.
To be specific:
In Tirril Voltage Regulator, a fixed resistance is cut in and cut out of the exciter field circuit of the alternator.This is achieved by rapidly opening and closing a shunt circuit across the exciter rheostat. For this reason, it is also known as vibrating type voltage regulator.
@@aviatorupdates sir, the ckt diagram of tirril Voltage regular in the book( principle of power system by V.K metha and Rohit Metha) is not match to your lecture.
Sir i ask this because the ckt diagram in book is quite difficult,i can't understand
Sir, is it tirril regulator?
You're a saver ! Subscribed ! :)
Hi …
Thank you so much 😊. Happy New Year.
@@aviatorupdates happy new year to you too sir !
A class I am currently taking was covering this topic. The textbook was very hard to understand. Your video was just what I needed and I thank you for putting it out there!
Wow! That is so amazing. Thank you so much for the valuable compliment for the session. Keep learning keep growing. 🤗
very much helpful video sir !!
So many thanks to explain this in a very easy way to understand. ❤️❤️
Thank you so much. Keep learning keep growing 😊✌🏻