I am a 63 year old American technologist. When I was a child the rising and falling audio tones FDM was used in many Science Fiction films made in Hollywood of the 1950s and 60s. Of course, it's a very old technology. I was hoping to hear an audio stream of the analog data from a set of perhaps a human being's life sensors. The audio sounds very weird. It's great for old Science Fiction. It seems to have been forgotten but it's a great sound.
I am SO happy to see you also made a video on this topic! It is an absolute delight to watch your videos. You really have a great feeling how to make a concept vivid and complete. You use certain words that make your explanations much more clear compared to the regular, academic way of teaching. it is soooooo useful
Oohh....That's so overwhelming response. Thank you so much for your kind words. Such beautiful comments makes me feel that someone somewhere is very happy with whatever I am doing. That's the best reward that people like us get get from our viewers. Thanks you so much again. Stay in touch and keep watching my channel for more videos. Your kind suggestions for improvement are also welcome. Thanks
Really appreciate this video owner I was finding it hard in application of data communication and networking But now it seems simple to me Thank you sir Thank
You are so smart my friend. It may be your purpose to learn the secrets of the universe and teach it to a dummy like me. If so u have done very well!! Thank you
This video needs to be redone.... TDM and FDM is only partially explained here... You make it sound like users have to wait and that's not the case.... All users can do everything at the same time.... FDM and TDM is determined by the MUX, and is behind the scenes. I think this video needs to be redone and add MUX and DEMUX into the explanation, for further ease of understanding... And there is also space division multiplexing... This should be added into this video since there are three types of multiplexing and not two.
This is fine, but it would be even better if you could show how the signals actually looks and how the receiving end is able to split up the signals from the 4 users.
great work...really simple explanation. way better than at our uni ( I won't name it but it's a "prestigous" uni in Aus), Thanks for helping me save my exam! Keep it up
I really admire your style of teaching. You explained the concept in a very beautiful and creative manner by using different color pens. Looking forward to more such great content on this channel.
Very good but ı don't understand that FDM PON system in optisystem. I see everywhere WDM. I must learn FDM PON. are FDM and WDM same? c=landa x frequency. I change frequency for FDM; wavelength ??
SIR,WHAT WILL BE MINIMUM BAND WIDTH OF CHANNEL FOR TRANSMISSION OF FOUR SIGNAL SAY EACH OF BAND WIDTH 2KHZ INCASE OF TDM AND FDM? SIR, WILL IT BE 2 KHZ IN CASE OF TDM AND 8 KHZ FOR FDM?
Let's say I have a data array of L=45Mbits that pass through a circuit of R=1,5Mbps, that is split on 6 different channels using the TDM method. (1 sec each channel) How can I calculate how much time it will take for all the data to pass through?
Yes good idea, Thanks. Have you ever visited my website. www.engineeringmadeeasypro.com You can get the detailed textual content on this website along with other contents and videos.
I am a 63 year old American technologist. When I was a child the rising and falling audio tones FDM was used in many Science Fiction films made in Hollywood of the 1950s and 60s. Of course, it's a very old technology. I was hoping to hear an audio stream of the analog data from a set of perhaps a human being's life sensors. The audio sounds very weird. It's great for old Science Fiction. It seems to have been forgotten but it's a great sound.
I am SO happy to see you also made a video on this topic! It is an absolute delight to watch your videos. You really have a great feeling how to make a concept vivid and complete. You use certain words that make your explanations much more clear compared to the regular, academic way of teaching.
it is soooooo useful
Oohh....That's so overwhelming response. Thank you so much for your kind words. Such beautiful comments makes me feel that someone somewhere is very happy with whatever I am doing. That's the best reward that people like us get get from our viewers. Thanks you so much again. Stay in touch and keep watching my channel for more videos. Your kind suggestions for improvement are also welcome. Thanks
😂😀😎❤️🔥👍🙏👍🎉🎉🔥❤️ he is very much experience in what he can learn 👍🙏🎉🔥😭😎😀😂
Thank You.
This was made so clear and easy to understand.
Textbook words were very confusing.
Thank You
Happy to help. Welcome, keep watching
Very clear to understand. Thanks
You are welcome 😊
Thanks for easy explained,I only say you r best than other
Thank you so much for such kind words. You can watch more videos on my channel "engineering made easy". Thanks again
You saved my life within 9 minutes. 🤓
Great !!!
Thank you.You have best concept knowledge and deliver in very simple and effective way.
Thank you so much. Keep watching 😊
Really appreciate this video owner
I was finding it hard in application of data communication and networking
But now it seems simple to me
Thank you sir
Thank
You are welcome 😊
Nice explaination Sir
Wow very easy explanation
Thank you
thankyou sir.iam computer science student but they included this topic in academic curriculam so iam here very thankyou
You are welcome 😊
Excellent explanation
Thank you😊
Superbly explanation sir ❤
Wow, very nicely explained 👍
Thank you ☺
Well explained...thank you
You are so smart my friend. It may be your purpose to learn the secrets of the universe and teach it to a dummy like me. If so u have done very well!! Thank you
Thank you ☺️
Very simple explanation
Thanks
very simply explained....
Thank You. Wonderful explaination and examples
You are welcome dear. Keep watching and stay connected
Thank for explaining very simply.
You are welcome. Keep watching for more...
Wow u made it Soo easy
Thank you so much
This video needs to be redone.... TDM and FDM is only partially explained here... You make it sound like users have to wait and that's not the case.... All users can do everything at the same time.... FDM and TDM is determined by the MUX, and is behind the scenes. I think this video needs to be redone and add MUX and DEMUX into the explanation, for further ease of understanding... And there is also space division multiplexing... This should be added into this video since there are three types of multiplexing and not two.
Thank you so much for the correction, I will try to correct the video
Thanks sir , you make TDM and FDM easy ......
You are welcome. Keep watching
Thanks for making it easy.
You are welcome
Thank you, It is very easy to understand.
Welcome 😊
thank you for the diagrams !! helped a lot
Samaj gaya bantai 🤟
Good, thanks
Well explained sir 👍👌
Very good explanation, helping during my Business Data Communication course!
You are welcome friend. You can watch more such videos on communication by visiting my channel. Thanks
Haven't seen more easy explanation of this topic in the past five years. More easy than a good book can explain
Thanks
Thank you so much bro....since it is engineering made easy....haha
One of the best explanation......
Thank you so much
You are welcome
Thanks, one can understand easily :-)
You are welcome. Stay Connected
thanks man, easier to understand
You are welcome
Sir thank you n I love the way u teach us 👌
You are welcome. Keep watching 😊
@@EngineeringMadeEasy sir please do upload more videos
@@nuclearpariwar1890 ok
excellent session sir
This is fine, but it would be even better if you could show how the signals actually looks and how the receiving end is able to split up the signals from the 4 users.
this is a lot clearer ... thanks it was really helpful
Thanks
I think there is one more multiplexing. WDM (Wavelength Division Multiplexing)
Yes ryt
Yes
2 More are:
SDM and WDM
That one is same as FDM , only frequency is higer there and we will use optical fibre to multiplex and to demultiplex
great work...really simple explanation. way better than at our uni ( I won't name it but it's a "prestigous" uni in Aus), Thanks for helping me save my exam! Keep it up
Thank you so much...
Tnq so much for the video nd the easy explanation
You are welcome
deep respect 🙏
thank you sir i got a good deal of knowledge on the video.
You are welcome. Keep watching
Thanku for making helpful video 😃😃😃😘😘😘😘😘
You are welcome friend. Keep watching for more videos and stay connected.
@@EngineeringMadeEasy 😎why not
Can u make videos on telephone system
Yes...I will try making videos on this topic.
great explanation
Thank you so much....keep watching and be in touch
Very helpful video
Great job, very helpful video!
great explaination !!
Thanks dear
Ohh realy easy explaction
Thanks😊
Nice explanation sir keep uploading more videos
Sure....thank you so much. Keep watching
Dude!! Excellent video.
Thank you brother
Great explanation ..thank you sir🖐🖐
You are welcome...keep watching for more
Thank you
Thank you so much...
Thanks... was really helpful...thanks again
+Harshit Singhai Thank you
+Harshit Singhai welcome
Superb explination sir..
Thank you, stay in touch and and keep watching for more videos!!!
I clearly understand this
Very nice, thank you Sir g
You are welcome
Thank you so much sir
Solid explanation
Thank you so much dear
thank you 🙋♂️
You are welcome
great video, thanks
You are welcome, keep watching and stay connected
Thank you so much
Finally I have understood this concept. Thanks a lot sir. Sir, could you please tell me the application of tdm and fdm
You are welcome, I will try to cover it. Thanks
Thank you sir.
Welcome
I really admire your style of teaching. You explained the concept in a very beautiful and creative manner by using different color pens. Looking forward to more such great content on this channel.
Thanks for the appreciation and inspiration. I will keep uploading more such videos. Stay connected. Thanks again
hnnn bhai mujhe bhi samjha de ghar aake
@@akshat1264 apna whatsapp number comment karde. Tuje video call pe smjha dunga.
Thankkkk you so much sir
SO HELPFULL
Thank you so much
I have a mid tomorrow and ur video helped me a lot!! Thanks
Happy to help you dear
Sir y do u have to repeat a single concept so many times....Apart from this this video is very informative thank you sir
Thank u
You are welcome
Nice video.
Greattttt explanation
Thank you so much sir, you are really made my engineering easy with your explanation
Happy to help you. You are welcome. Keep watching for more
greet lecture i got it 10q any way
You are welcome
Thx bro.
You are welcome
👍👍👍
Very good but ı don't understand that FDM PON system in optisystem. I see everywhere WDM. I must learn FDM PON. are FDM and WDM same? c=landa x frequency. I change frequency for FDM; wavelength ??
Amazing
Very nice sir. You have make more and more videos about analog communication
Thanks...Sure I will make more videos on analog communication. Keep watching and stay connected
Thanks
You are welcome
It was really so helpful thank u so much do u have videos on wave division multiplexing and CDMA?☺
Not yet, but soon I will try to make video on CDMA
Thank you so much for the appreciation
I think channel and link are mis-interpreted here
Thank you sir
You are welcome
What is meant by cross talk?
Its good but very short, how do I write a full page on this for 7-8 marks?
Thank you...you can describe it as I did
pls explain about OFDM
I have not done fdm and tdm for a long time.
language is good it will become more effective if you use animations to explain
Thanks bro...ok I will try to use animations if possible
SIR,WHAT WILL BE MINIMUM BAND WIDTH OF CHANNEL FOR TRANSMISSION OF FOUR SIGNAL SAY EACH OF BAND WIDTH 2KHZ INCASE OF TDM AND FDM? SIR, WILL IT BE 2 KHZ IN CASE OF TDM AND 8 KHZ FOR FDM?
thanks brother ...why dont you reshoot with the aid of chatgpt , most of the time being wasted in writing...
Dear sir please explain about CDMA also sir. Thanking you.
Yes, I will make a video on cdma soon. Thank you
I love this vidio
ty
Welcome
Sir please provide microwave engineering.
Total lectures please sir
Ok brother, I will try
Let's say I have a data array of L=45Mbits that pass through a circuit of R=1,5Mbps, that is split on 6 different channels using the TDM method. (1 sec each channel)
How can I calculate how much time it will take for all the data to pass through?
tq
You are welcome
Idupes?
can you plz tell where Multiplexing,FDM and TDM are used? I mean which devices aur circuits??
In digital broadcasting, video processing, telegraphy, telephony etc.
@@EngineeringMadeEasy oo thank u...for replaying..
sir can you please give notes as a pdf
you can scan your notes in cam scanner and please upload in discription
Nice video😹
sir, can you give us these papers? it will be very helpful
I wish I could do so, but how? Do you need xerox copy?
yeah , or pdf thanks
Yes good idea, Thanks. Have you ever visited my website.
www.engineeringmadeeasypro.com
You can get the detailed textual content on this website along with other contents and videos.
Engineering Made Easy yeah I know but the textual details isn’t good like this one in the video, it’s colored and more clear than
Ok then enjoy the videos...haha
Sir plz explain Gaussian Frequency shift keying(GFSK)
Ok