Sir motor star delta winding resistance how to measure plz tel me sir
@konachaudhury55062 күн бұрын
Why showing 3 phase SPD. Do anybody use 4 pole SPD at home?
@ElectroAcademyEA7 сағат бұрын
Single phase SPDs are there.
@handicholah79062 күн бұрын
Very comprehensive explained.. Thanks
@ElectroAcademyEA2 күн бұрын
Thank you
@db1114 күн бұрын
That voice is awful
@trollmarketshop4 күн бұрын
1.5 meaning it allows 1500 volts for a devices that can handle 220 to 245 volt?
@ElectroAcademyEA4 күн бұрын
Please watch the full video on below link. You will get the answer. kzbin.info/www/bejne/havIkGOBedN2qpo
@mackstone29125 күн бұрын
Sir could you kindly forward me a copy of the schematic diagram for me. Thank you
@ElectroAcademyEA6 сағат бұрын
Sorry, I don't have them with me.
@davidshirindzi46535 күн бұрын
Very great explanation , thank very much.
@ElectroAcademyEA4 күн бұрын
Thank you
@kewal4448 күн бұрын
thanks for provide description . 🙏
@ElectroAcademyEA7 күн бұрын
Thank you
@unlimitedfun7028 күн бұрын
I bought 40ka Uc 385V for single phase 230volt AC line. Is it properly work my house??? Please reply me
@MD5BikerКүн бұрын
No, you should have bought the 275 V one, the 385 V is for three-phase line, even the 275V one is quite high, but I don't know if there are values closer to 250V
@ElectroAcademyEA7 сағат бұрын
@unlimitedfun702 Yes. For most residential and small commercial single-phase systems, a 40kA, UC 385V SPD provides adequate protection against common surges caused by lightning or grid disturbances. If you need enhanced protection (e.g., if you have highly sensitive electronics or you're in a high-risk area for surges), you could opt for a higher kA rating, but 40kA should suffice for general use. A UC rating of 385V is common for single-phase systems, especially in regions with a 230V nominal voltage (like Sri Lanka and many other countries). The 385V rating allows the SPD to tolerate short-term overvoltages (which can occur in real-world conditions) without triggering. Since the nominal voltage for single-phase lines is typically around 230V (line-to-neutral), a 385V UC is a reasonable margin, ensuring the SPD won’t degrade under normal operation but will activate if the voltage exceeds safe limits.
@davidshirindzi46539 күн бұрын
I have been looking for these , too long.
@ElectroAcademyEA8 күн бұрын
Thank you
@nazirahmadbhat85110 күн бұрын
Sir need complete lesson on procom amf pannel
@ElectroAcademyEA6 сағат бұрын
Will try to do one when time permits.
@nazirahmadbhat85110 күн бұрын
So many thanks 👍
@ElectroAcademyEA9 күн бұрын
Thank you
@EliyasAbdulaziz-ii7lh10 күн бұрын
which soft ware is he using to draw this diagram?
@ElectroAcademyEA6 сағат бұрын
Microsoft power point.
@josephhaywardjr850211 күн бұрын
Really enjoyed this video, brilliant explanation and done in a simple way. Keep up the good content.
@ElectroAcademyEA11 күн бұрын
Thank you
@НиколаЂорђевић-х3м17 күн бұрын
One of the best tutorials I have ever watched. Thank you a lot for this great work.
@ElectroAcademyEA16 күн бұрын
Thank you
@yusufronco21 күн бұрын
Why is it always the videos with the crazy AI voice that explains it the best?
@ElectroAcademyEA6 сағат бұрын
Concentrate on the content.
@neail546621 күн бұрын
Great work, loved it.
@ElectroAcademyEA21 күн бұрын
Thank you
@Aboomarzzzzz22 күн бұрын
Thank you sir But excuse me To calculate the current with ohms law in delta don't we have to calculate the total resistance for the coils which i think its in parallel and series? ❤
@ElectroAcademyEA6 сағат бұрын
Since this is a 3 phase line, we need to introduce conditions during calculations with Ohms law. So we can apply Ohms law for the conditioned part only. For an example, we apply Ohms law to one coil of 400 volts on the Delta connected coil set, when Yellow line is delivering zero current. At that point, other two coils are with zero current flow. Thank you.
@MdNosib-q7z23 күн бұрын
thank you so much sir ❤
@ElectroAcademyEA22 күн бұрын
Thank you
@FahrulAsmawiFaizalludin25 күн бұрын
thank you. your knowledge is very useful❤
@ElectroAcademyEA24 күн бұрын
Thank you
@06Machine29 күн бұрын
Can’t see. What you’re doing you’re blocking it
@ElectroAcademyEA28 күн бұрын
@@06Machine You can stop appearing of subtitles by clicking "CC" tab on the video screen.
@c5x6xserx11z1uxseАй бұрын
FINALLY I UNDERSTAND THE ROLE OF CAPACITOR IN THIS SCENARIO
@ElectroAcademyEAАй бұрын
Thank you
@gyagadu8402Ай бұрын
Hi Sir, what software do you use to draw your diagram?
@ElectroAcademyEA27 күн бұрын
Diagrams are drawn with Microsoft PowerPoint. Video editing is done using Filmora.
@MuhammadArshad-hl9hhАй бұрын
great explanation
@ElectroAcademyEAАй бұрын
Thank you
@doityourself3468Ай бұрын
Great Explanation 😍
@ElectroAcademyEAАй бұрын
Thank you
@SrDelbioLimaАй бұрын
Was the voice PWM generated as well?
@ElectroAcademyEA6 сағат бұрын
Concentrate on the content
@danielteyehuago1633Ай бұрын
4:55 This video is far useful...
@ElectroAcademyEAАй бұрын
Thank you
@danielteyehuago1633Ай бұрын
4:29 well explained
@ElectroAcademyEAАй бұрын
Thank you
@danielteyehuago1633Ай бұрын
0:07 I'm here again
@ElectroAcademyEAАй бұрын
Thank you
@danielteyehuago1633Ай бұрын
7:00 Thanks for sharing this with us
@ElectroAcademyEAАй бұрын
Thank you
@laxmanrao29Ай бұрын
complicated topic-->easy understandable with your explination
@ElectroAcademyEAАй бұрын
Thank you
@bejayobispo380Ай бұрын
Have a question: can anyone respond ?? what happens to a 3phase circuit if 1 phase has more transformers than the other two?? will this also cause an unbalanced load ??
@ElectroAcademyEA5 сағат бұрын
Yes, if one phase in a three-phase circuit has more transformers (or a larger load) than the other two phases, it will cause an unbalanced load. Balancing the load across all three phases is crucial for maintaining a stable and efficient system. Regular monitoring and proper planning when adding new equipment can help prevent these issues.
@geimfarinnАй бұрын
Couldn't listen to this. The voice is awful 😔
@MrAnmhАй бұрын
could you share the link to the module you show at the beginning?
@ElectroAcademyEAАй бұрын
Please check video on below link. kzbin.info/www/bejne/hWGzZJeOiJ5jmbMsi=g7ldP3HpPggQCKJi Thank you.
@bright317Ай бұрын
thank you for brief explanation. is the motor have the same energy running by three phase power supply and single phase power supply
@ElectroAcademyEAАй бұрын
It may not when running for prolonged periods. That is why I have mentioned that, this method is good to test a 3 phase motor or run for short periods only. Thank you.
@Ai_electricalАй бұрын
Thank you sir 🎉🎉
@ElectroAcademyEAАй бұрын
Thank you
@Ai_electricalАй бұрын
Sir do connection of timer also plz
@ElectroAcademyEAАй бұрын
For timer connection, please watch video on below link. kzbin.info/www/bejne/mqSvZ5eHhdx5oLM Thank you
@doracook8330Ай бұрын
Well done ..the best ATS explanation on you tube
@ElectroAcademyEAАй бұрын
Thank you
@AyansolaAfolabiАй бұрын
Good explanations
@ElectroAcademyEAАй бұрын
Thank you
@abdulmajidadil7030Ай бұрын
just supreb. very nicely explained.
@ElectroAcademyEAАй бұрын
Thank you
@WorkWithoutHumanАй бұрын
Is it the explanation rules for amperes for DC motors or AC motors? I think there is difference. (It is not my video to talk).
@ElectroAcademyEA5 сағат бұрын
Your question is not specific. I guess it is about ohms law. Ohm's Law applies in three-phase systems as well, but you must account for the relationships between line and phase voltages and currents, depending on whether the system is configured in star or delta.
@SanjayPatil-wu2id2 ай бұрын
Why the subtitles is shown this way .. not able to see the video peoperly
@ElectroAcademyEAАй бұрын
You can easily stop subtitle appearing, by clicking "CC" tab on the video screen. Thank you.
@valerius392 ай бұрын
those pilz relay are the worst, always defected and expensive to replace, after a shutdown of equipment they get faulty you need to keep taking out bottom connector and insert to restart it
@JoshuaAdilu2 ай бұрын
What ifusing one timer in the side of the grid
@ElectroAcademyEA5 сағат бұрын
This the general system of an ATS and you are free to add or change anything according to your requirement.
@Higgle-cu9bu2 ай бұрын
This is very educational and one of the best videos that really explained this topic
@ElectroAcademyEA2 ай бұрын
Thank you
@TG-ok4ty2 ай бұрын
Cap should be on the RUN winding, not the start winding.
@ElectroAcademyEA5 сағат бұрын
In single-phase induction motors, the capacitor can be connected to either the start winding or the run winding, depending on the type of motor and its design. Capacitor on the Start Winding is the Most Common type. This configuration is typical in capacitor-start induction motors and capacitor-start capacitor-run motors. In these motors, the capacitor is connected to the start winding, which is only engaged during the start-up phase of the motor's operation. If you are focusing on starting torque and the capacitor is meant to help the motor start, it should be connected to the start winding. However If you are focusing on running efficiency and the capacitor is meant to improve the motor's performance during operation, it should be connected to the run winding.
@murugavelsen2 ай бұрын
Hi sir good evening very nice your circuit and explanation 👍 Thanks 🙏 Please upload single phase supply to three phase vrd circuit how to make
@ElectroAcademyEA2 ай бұрын
Thank you
@ramesh.s7482 ай бұрын
Subtitles hide the animation.
@ElectroAcademyEA2 ай бұрын
You can stop appearing of subtitles by clicking the "CC" tab on the screen.