I know this is a 2yr old post, but I want to thank you for taking the time to explain this. It has helped get me one step closer to a product I’m working on which may save lives in the future.
He does a great job of explaining things in a way that really make sense. This video was the one that made me check out subscribe to the channel. There are a lot more great videos on this channel.
If one understands voltage levels, and how they represent amplitude levels in a sine wave, and step voltages and how they can be represented numerically in binary, then this video makes sense. If you don't have a background with analog and digital electronics (with binary math, of course) this video might be hard to understand. The video is well done, but I wouldn't necessarily call it a video for beginners.
I have a couple questions I hope you can answer. So when analog signals come over a coaxial network how do we change the binary sequence... by changing the amplitude of the frequency? I know there are typically four downstream and four upstream carriers does each carrier get a certain amount of wiggle room for variance of binary signal? And some more questions I just thought of after digital conversion can we combine different packets for one cause? How does a device differentiate between what information is meant for it versus another? I know the data is encrypted is it looking for a specific sequence in order to modulate the information?
what an amazing explanation! but, in quantization, what is the difference between every two levels in terms of volts? I don't know if my question is valid but I have been watching other vedios and they talked about it.
Greetings, thanks for a great video, it helped me incredibly a LOT. I am a little bit confused with image digitalization. Does it work the same way as PCM? (we would not have only time on x axis but something different?)
Why are the vertical lines (sample rate) spaced apart in varying time intervals? If the horizontal axis is time, then a varying distance between samples means that the frequency of sampling occurs in unequally distributed intervals right?
I'm looking to connect my iPod classic to my digital audio preamp using an ADC. Will I be encountering any loss in audio quality by converting my iPod's line-out audio to digital using an ADC then connecting the ADC to my DAC preamp connected to my studio monitors? The ADC has a sampling rate of 32, 44.1, 48 and 96 KHz/48 KHz while the DAC has a decoding range of 16-24bit/ 32-192KHz.
Excellent video. One question. What if a sample value does not match a specific bit value but corresponds to an intermediate value? Where is that sample matched to the higher or lower bit value and is there any metric relationship to allocate the value to a bit?
I know this is a 2yr old post, but I want to thank you for taking the time to explain this.
It has helped get me one step closer to a product I’m working on which may save lives in the future.
How goes the product?
How goes the product? (2)
I have worked in major Digital Signal Processing, your video is the great explaination in PCM.
Thank you. You are a good teacher. I watched a few videos prior to yours and understood NOTHING. You made it very simple to understand. God bless you.
the most clear Explanation on the internet for this topic
Amazing video, I learned in 8 minutes what I could not get in weeks of useless classes. Thank you sir
Glad to hear that!
One of the best explanation of ADC
Video was clear and concise. Thanks so much for the illustrations and straightforward explanation.
You're very welcome!
The most crystal clear explanation including visualization hats off to u man ! ❤
Such a clear explanation! You make it really easy to understand. Keep it up!
Many thanks.
Best ever class I heard lifetime....simply deeply cleared🔥❤️
No words to explain ,thank you sir!
Very very helpful video. I appreciate you take the time and energy to upload this video. Your explanation is very easy to follow.
Simple, slow, patient,. ... LOVELY
7:02 thats how my cat sounds like
haha. Your cat must be very cute.
I cannot thank you enough for your perfect videos
You are quite welcome!
Sir, Thank you very much for explaining all the concept so beautifully .
Approaches can be different to different people, but your approach is understood. Love from Pakistan ♥️
Thank you !
Very simple explanation. Great work explaining it visually!
Excellent clear explanation especially significance of bit depth! Keep it up!
Great info and straight to the point thank you!
Your videos are the best! I'm your fan Sunny, keep going making videos like this 😎🤙
Thank you very much, Gibran. I will try my best to upload more.
very short and clear with easy explanations. thank you and keep it up!!!👍👍👍🤙
Great job Sunny! Been a while since we worked that summer together. You have come a long way!
Yeah thanks
a simplified easy to understand method of teaching a complex stuff. more power!!
Thank you for watching! Check out my other videos please!
Mind-blowing explanation
Nicely explained, great animation and presentation. Please keep up the good work!
Very nicely explained. Thank you.
Your explanation is very clear sir. Please put video for QPSK, QAM
What a legend mr Sunny!
Great and super explaination in a simple way
Thanks a lot
Such a clear explanation sir, i really appreciate it 🙏 better explanation than my professor
Awsome Sunny...!!!
🥇🌻🎖!
7:02
7:12
Yes
Awesome Video I understood everything!
Great explanation, and very helpful
Thank you for watching!
Thanks for the video, it's great!
Note that "conversation" on the title should be "conversion" ;)
Thanks a lot. I have corrected it and I appreciate it very much, Miguel.
Although, I enjoyed the Conversation about Conversion :)
Thank you Sir.It's very helpful & effective to us.
You are very welcome!
one of the best in youtube
very helpful, thank you Sunny 💛
Thanks for a clear explanation.
You are welcome!
Very straight forward. Great video.
Thanks a lot for your comment.
Very Informative. Thank you
very well explained thank you sir Sunny
you are welcome and thank you for your nice comment.
very clear explanation
Thank you very much!
Excellent!
Many thanks!
So much informative!
Glad it was helpful!
You explained it perfectly!
very helpful indeed, sir!
Awesome video! Thanks.
Thank you... clear explanation
Pretty good instruction.
Thank you for this very nice explanation
You are welcome!
Thank you sir, you saved life❤
very good video! super explicative!
Glad it helped!
Wow this is informative video...thank u
thank you very much...this is amazing
Great teaching . Thank you sir :)
Great Explanation
Thanks and thank you very much
very very helpful. Thanks a lot.
thank you very much for your help
Amazing! Your videos helped me a lot
Glad to hear that!
I have exam nxt tomorrow.
Thanks for this
He does a great job of explaining things in a way that really make sense. This video was the one that made me check out subscribe to the channel. There are a lot more great videos on this channel.
Thank you so much!
thank you really
Great explanation. Thanks!
awesome... ! tanks .
I like it very easy to understand
thanks.
Very good explanation. Why Sir you was not making video when I was studying 😂😂😂
Thanks for This Video ,vry Helpfull
You are welcome!
This strangely was very understandable to me
1:44 the video says amplitudes with a regular interval, yet the image shows different intervals between the lines
Excellent video!
Thank you very much, Edward.
That's really helpful!
This is very helpful thank youuuu
Help alot !
Thanks you for watching!
Superb sir wow!
Thanks a lot.
super helpful
Glad it helped
Thank you, nicely explained
"Great question! It depends", at 2:42 somehow sounded sarcastic to me lol.
Anyways, it was a nice video. Not kidding.
If one understands voltage levels, and how they represent amplitude levels in a sine wave, and step voltages and how they can be represented numerically in binary, then this video makes sense. If you don't have a background with analog and digital electronics (with binary math, of course) this video might be hard to understand. The video is well done, but I wouldn't necessarily call it a video for beginners.
I have a couple questions I hope you can answer. So when analog signals come over a coaxial network how do we change the binary sequence... by changing the amplitude of the frequency? I know there are typically four downstream and four upstream carriers does each carrier get a certain amount of wiggle room for variance of binary signal? And some more questions I just thought of after digital conversion can we combine different packets for one cause? How does a device differentiate between what information is meant for it versus another? I know the data is encrypted is it looking for a specific sequence in order to modulate the information?
THANK YOU
You are welcome!
what an amazing explanation!
but, in quantization, what is the difference between every two levels in terms of volts?
I don't know if my question is valid but I have been watching other vedios and they talked about it.
you have to catch up these voltage diff w some device, that will know which lvl has specific value representation, in theory)))
thank you sir
thanks a lot sir u means me a lot
Thank you sir can you make video for DCE and DTE devices
He taught me the unexplainable.
Thank you for watching!
very helpful, thank you!
Thank you so much! Keep it up
You are welcome, and I will do.
Good Job !
Thanks!
Thank you sir 🤗
You are welcome, Puneeth!
Tq ..,I like your explaining way ,, sir
@@puneethkumar4094 thanks a lot!
Awesome
Thank you for watching! Check out my other videos please!
Greetings, thanks for a great video, it helped me incredibly a LOT. I am a little bit confused with image digitalization. Does it work the same way as PCM? (we would not have only time on x axis but something different?)
super
Good class
Thank you for your time!
Why are the vertical lines (sample rate) spaced apart in varying time intervals? If the horizontal axis is time, then a varying distance between samples means that the frequency of sampling occurs in unequally distributed intervals right?
I'm looking to connect my iPod classic to my digital audio preamp using an ADC. Will I be encountering any loss in audio quality by converting my iPod's line-out audio to digital using an ADC then connecting the ADC to my DAC preamp connected to my studio monitors? The ADC has a sampling rate of 32, 44.1, 48 and 96 KHz/48 KHz while the DAC has a decoding range of 16-24bit/ 32-192KHz.
Excellent video.
One question.
What if a sample value does not match a specific bit value but corresponds to an intermediate value?
Where is that sample matched to the higher or lower bit value and is there any metric relationship to allocate the value to a bit?
I cannot see the difference between quantizing and encoding. Both associate binary values to samples