Instead of requiring a second track to determine direction, it can be done by placing a second sensor on the track located so it provides a 90 degree phase shift from the output of the first sensor.
Very good animation. I think it would be nice to make a video but with quadrature Hall effect encoders which are quite common in motors. The operation is equivalent to that shown in this video but uses magnetism instead of IR sensors
hello! Great video! I am just a little bit confused with the animation, shouldn't track B be the one leading during the clockwise rotation and Track A leading during counterclockwise?
@@learnchannel-TV Great video and I appreciate the effort. But I feel there is a mistake on the video.Although I am commenting on a video which was posted 2 years ago, I would like to point something about the video. Actually, his doubt seems to be correct. Although, the square wave patterns for track A and B you showed on the video depicts that track A leads during clock wise rotation, but the animation of the rotating encoder disc is quite opposite to that. If you closely observe the animation, for clock wise rotation, transparent slots of the outer track (Track B) have the leading edge when compared to the transparent slots of inner track(Track A). So, during clock wise rotation, the leading signal detection would be always from track B first. I am sorry if the term "slot" is not the appropriate terminology for this context. But I hope I made it clear. The reason I am pointing this out is because, I struggled a bit when following this video initially, as I was confused when I compared the wave pattern and the animation. Then I realised it should be a mistake. Please correct me if I am wrong. But I guess I am correct here, so I believe this explanation can clarify any confused people. Thanks.
Depends on the rotation of the disc. If it rotates clockwise it will have Track A as leading and Track B as Trailing. If it rotates counter-clockwise it will have Track B as leading and Track A as Trailing. Both being sensed in the same direction.
Very nice, but I can point out that the rotation graphs clockwise and counterclockwise refer to the opposite, thanks
Watch the rising signal edges coming from track A or Track B. Which of them is coming first.
@@learnchannel-TV He is right. The graphs should refer to the opposite
Instead of requiring a second track to determine direction, it can be done by placing a second sensor on the track located so it provides a 90 degree phase shift from the output of the first sensor.
Wow absolutely amazing video! Simplified and terse. Nice work!
thanks
Chkoun hnaya men 3nd ostad dl si idir j'aime
Good job guys.. really educational and straight forward keep up the good job
thank you!
Me and my girlfriend immediately started dancing when watching this
:-)
Very good animation. I think it would be nice to make a video but with quadrature Hall effect encoders which are quite common in motors. The operation is equivalent to that shown in this video but uses magnetism instead of IR sensors
Great Video , clearly explains the concept in minimum time , thank you.
Thank you
May be English is the problem but i think i need a good simple step by step explanation to understand this 😂.. and i have an exam tomorrow 😢
thanks for the video, it helped me in my work :)))) BRAZIL
Obrigado a vc.
hello! Great video!
I am just a little bit confused with the animation, shouldn't track B be the one leading during the clockwise rotation and Track A leading during counterclockwise?
Track A leading during clockwise rotation; track B leading for counterclockwise rotation.
@@learnchannel-TV Great video and I appreciate the effort.
But I feel there is a mistake on the video.Although I am commenting on a video which was posted 2 years ago, I would like to point something about the video. Actually, his doubt seems to be correct. Although, the square wave patterns for track A and B you showed on the video depicts that track A leads during clock wise rotation, but the animation of the rotating encoder disc is quite opposite to that. If you closely observe the animation, for clock wise rotation, transparent slots of the outer track (Track B) have the leading edge when compared to the transparent slots of inner track(Track A). So, during clock wise rotation, the leading signal detection would be always from track B first. I am sorry if the term "slot" is not the appropriate terminology for this context. But I hope I made it clear. The reason I am pointing this out is because, I struggled a bit when following this video initially, as I was confused when I compared the wave pattern and the animation. Then I realised it should be a mistake. Please correct me if I am wrong. But I guess I am correct here, so I believe this explanation can clarify any confused people. Thanks.
Music is in my opinion not needed. But a great explanation !
It is a positive critique. Thanks
Nice video but somehow distract the person, many things move and illustrated at the same time.
It's B track is using by anticlock wise rotation pls tell me am I truth and and A track is using by clock wise rotation
Depends on the rotation of the disc. If it rotates clockwise it will have Track A as leading and Track B as Trailing. If it rotates counter-clockwise it will have Track B as leading and Track A as Trailing. Both being sensed in the same direction.
@@0Suicide0Prevention0واذا أردت عكس القراءة كيف من فضلك
@@0Suicide0Prevention0If I want to reverse the reading, what should I do please?
Thanks very good video.
Good information.
Thanks
What application do you carry out the animations with?
Blender
How i identify incremental rotary encoder in proteus...please help asap
Good job
⁷8b8
@@mamoetnardi 🔥
Thank you
Wonderful :))
thank you
Can you tell the software name and where to get this animation software plz plz plz???
This video is also made with Blender. But there exists also other Software to make this 3D software like 3DMax, Maya, ....
i heard this during a class and i could only concentrate on the music. what's the song??
Hi - It was one of the free lizense songs of UA-cam
Same
would you plz send me that great animation !
??? Sorry - UA-cam videos are to watch on UA-cam
is Encoder output B/ signal is negative?
No, it is phase-shifted. I tried to explain it in this vid. You need two tracks to get the sense of rotation.
Thanks, my doubt cleared.
cool
thanks