This video is absolute platinum mate !! Big up to Barry Van Veen. I had been struggling with Pole/Zero plots for so long, it's absolutely solid to me now.
Great video, as many others in the channel. It was exactly the insight on Z-plane pzmap analysis for digital filter design I was looking for. Thank you very much!
Thanks again for the videos. At [2:30] The expression for poles and zeros has the products running from k=0 to k=M (or N). Probably this should be from k=1 ? e.g., system has M (N) zeros (poles).
Is the frequency response beyond w=pi of any interest to us? Would we expect to see copies of the same frequency response every multiple of 2pi radians? Thanks!
Can we manually sketch a Bode Plot of the frequency response from the Z-Transform. Like we do with the Laplace Transform. -20 dB/Decade for where Poles lie and 20 dB/Decade for Zeroes, type of a thing
Someone knows how the sample rate affects the transfer z function H(z)? For example: if I want a filter with two poles, central frequency of 500Hz, deltaf of 32Hz and sample frequency of 10kHz, how to determine the transfer function H(z)?
I will like to know, is there any kind of way to determine from a H(z) function, the capacitors-inductances of a filter? I mean can i transfer this model to the real wolrd?
![Noob To Max With DRAGON REWORK In Blox Fruits [FULL MOVIE]](http://i.ytimg.com/vi/LnBMOinoOvA/mqdefault.jpg)
How could you even consider giving this a thumbs down? People are just assholes. This video is gold.
Incredibly excellent instructional content.
I've never understood so well this topic before.
This video is absolute platinum mate !! Big up to Barry Van Veen. I had been struggling with Pole/Zero plots for so long, it's absolutely solid to me now.
The explanations are crystal clear... Especially the part explaining tracing the magnitude response based on the PZ-plot. Thank you, prof. Barry!
This is incredibly helpful. I don't understand why I was not showed this when i took signals and systems 1. Thanks you for sharing.
I cannot express how thankful i am for these videos
Probably the best instructor I have come across on youtube
Incredible. This is the type of shit we need for genuine comprehension
You are genius............I admired your knowledge... ...You're a reincarnation of Fourier..............Thanks...
What is this magic that I never learned
Your videos are one of my all time favorites .
Best explanation I've heard (and my prof wrote a book about this stuff lol)
Very clear, you helped me for my signal exam. Thank you
Really good video. You are a excellent teacher. I don`t understand why you have just a few views.
Thank you very much.
Excellent. Somethings I never understood in school are explained well.
Great video, as many others in the channel.
It was exactly the insight on Z-plane pzmap analysis for digital filter design I was looking for.
Thank you very much!
Sir u r awesome....after so many searches i finely found the explanation. Thanks
Excellent video, thank you.
Something tells me I'll be on your channel quite a bit over the xmas holidays.
Thanks for the complement. In case you haven't found my channel, there are about 100 and growing at present.
Barry Van Veen poles occur only at z=0?
one of the best videos I came across in DSP.Thanks a Lot!
I really enjoyed your video! It helped me out alot, as I was trying to find this information in a very confusing textbook - THANK YOU! :-)
Incredibly excellent content .
Thank you for the detail explanation and examples. This helped me so much
Thanks a lot Prof.Barry for your great videos. I hope to see more videos in the future.
Your videos are perfect, beautiful, a excellent resource. Thanks a lot.
This video was fantastic! I really appreciate your clear explanations :)
It's easy to understand through this video,thank you
great plot and wonderful explanation!!!
@ 1:11 the product in pole-zero form should start from k=1.
Thanks. Glad to see an american doing these videos.
Thanks again for the videos. At [2:30] The expression for poles and zeros has the products running from k=0 to k=M (or N). Probably this should be from k=1 ? e.g., system has M (N) zeros (poles).
I had the same thought. In Oppenheim and Schafer the indices of the products in this expression are from k = 1.
Thanks a lot this is a great intuitive video
Amazing video! Thank you!
Fantastic video.
Thanks Mike F.
Great video
How come your example at 6:39 has a zero ?
I would think it is an all-pole filter ?
@ 3:50 the direction of the vector is wrong... it should be in the opposite direction
very explanatory.. thanks a lot for the effort
this is an amazing video tbh
thank you for the video!!! help me a lot!
Amazing explanation thanks.
Thank you for the video. What tool are you using to do the pole zero plots and then graph the frequency response?
very clear description
Thank you!
Is the frequency response beyond w=pi of any interest to us? Would we expect to see copies of the same frequency response every multiple of 2pi radians? Thanks!
Fantastic video, great job
Can we manually sketch a Bode Plot of the frequency response from the Z-Transform. Like we do with the Laplace Transform. -20 dB/Decade for where Poles lie and 20 dB/Decade for Zeroes, type of a thing
brilliant video. Thank you
Excellent explanation sir
very nice video sir ,i would like more such videos for s-plane phasor for poles and zeroes
In the equation of 3rd order filter pll something called pole and zero pop up what are they? Thank you
This helps me a lot, thank you :-)
Excellent explanation
Thank for your Videos
Love u prof.😊
Someone knows how the sample rate affects the transfer z function H(z)? For example: if I want a filter with two poles, central frequency of 500Hz, deltaf of 32Hz and sample frequency of 10kHz, how to determine the transfer function H(z)?
Amazing! Thank you very much!
I will like to know, is there any kind of way to determine from a H(z) function, the capacitors-inductances of a filter? I mean can i transfer this model to the real wolrd?
Yes you van
Landed a jackpot!
Well explained... thank you
Is poles only at z:0 occurs?
Mindblown.
Great video ! Thanks
Song name please
Very fantastic
thank you
So cool!!!!!!!!
thanks very much
I do not get how z-series is related to frequency.
Thanks !
How the hell did I end up here, I was just watching turtles in heat ;-;
I GET IT FINALLY!!!!!
thank you
Thank you!!!!!
my lord - analog circuit ==poles and zeros are given-- how to plot frequency response ? thank u my lord =amarjit - india
Guys do you know that how can I help him, financially?
wish my professor were at least one tenth as clear
Very nice one! Thanks.