Thank you very much for this wonderful video! Im subscribed now. One thing to ask, is that could you show how you set up and use the oscilloscope to show those signals (adding them up, etc)
If I was trying to send differential signals across a multi slot backplane, would would be the optimal connector? I was thinking of a 96 way DIN connector where it has three horizontal pins x 32, and putting the ground in the middle of the two + & - signals
Had to look up divot : divot (plural divots) (especially golf) A torn-up piece of turf, especially by a golf club in making a stroke or by a horse's hoof. A disruption in an otherwise smooth contour.
Hi, I am using one chip DS90C401 which is a LVDS driver. I don't know when I input a sine wave to its Din, why its output(out+ out-)are not the same sine wave. I really hope you can reply my question. Thank you!
Thanks for the vid. Next time please use Xilinx device. Question though... your waveform showed ringing which I understand is caused by reflections. Do you know of any good resources to understand termination, and the transmission line theory of differential signaling standards?
@@animatrix1851 If you are still interested in the subject, you can watch this video of Rick Hartley talking about differential pairs and some termination stuff: ruclips.net/video/QG0Apol-oj0/видео.html I'd also suggest watching/reading more from Rick as well as Eric Bogatin! ruclips.net/video/boYj6I6GHyw/видео.html Hope that gives you a start!
Big like. You do a excellent job of getting the technology across without out all the techo-babble. Thank you.
Awesome stuff!
I'm so happy that other people use the drill twist.
Thank you very much for this wonderful video! Im subscribed now.
One thing to ask, is that could you show how you set up and use the oscilloscope to show those signals (adding them up, etc)
If I was trying to send differential signals across a multi slot backplane, would would be the optimal connector? I was thinking of a 96 way DIN connector where it has three horizontal pins x 32, and putting the ground in the middle of the two + & - signals
Thanks for the video, very informative and incredibly explained!
Thank you, that was a great explanation!
High quality info here thanks for the time you took the demonstrate this
Had to look up divot : divot (plural divots)
(especially golf) A torn-up piece of turf, especially by a golf club in making a stroke or by a horse's hoof.
A disruption in an otherwise smooth contour.
you mention the short ( i.e low impedance ground) my understanding is thay when measuring with the scope grounds are not connected ??
Bil Herd for president!!! :D
I’ll take a ham sandwich at this point
Thank you , I have a question regarding the 4-20 mA signals how can it be connected to a differential input module that has +/- 5v ?
Hi, when you subtract the two signals you dont have 0 volts, instead you have -3V, why that is not a problem?
Hi, I am using one chip DS90C401 which is a LVDS driver. I don't know when I input a sine wave to its Din, why its output(out+ out-)are not the same sine wave. I really hope you can reply my question. Thank you!
So how do I go about build it?
Awesome video, thank you so much!!
USB 2.0 and up, also lvds. Mucho sensitive to wrong board layout. Mismatch of impedance. Nice video
very helpful thanks alot
Thank you!
Thanks for the vid. Next time please use Xilinx device. Question though... your waveform showed ringing which I understand is caused by reflections. Do you know of any good resources to understand termination, and the transmission line theory of differential signaling standards?
found any resources you could share ?
@@animatrix1851 If you are still interested in the subject, you can watch this video of Rick Hartley talking about differential pairs and some termination stuff: ruclips.net/video/QG0Apol-oj0/видео.html
I'd also suggest watching/reading more from Rick as well as Eric Bogatin!
ruclips.net/video/boYj6I6GHyw/видео.html
Hope that gives you a start!
@@deskpro256 oh my this is some neat stuff! Thank you man!
Ma Bell knew.....
#MGTOW