Your manchester encoding is in correct ; in machester "1" you go high from low and "0" you go low from high - where transition is in the middle of the interval always no matter which way( low or high) you go as per (e.g., William Stallings)[3] & IEEE 802.4- The one you mention is the other convention- so there are two conventions.
The representation of High Low and Low High is different in DCN by Behrouz Forouzan. for 1 bit , the representation in reverse z and for 0 bit representation is in a z shape.
There are two methods for representing bits in Manchester and Differential Manchester Encoding: 1. IEEE 802.3 2. G.E Thomas This method (2nd) is also used in following references, please check: www.cse.iitk.ac.in/users/dheeraj/cs425/lec03.html www.erg.abdn.ac.uk/users/gorry/course/phy-pages/man.html www.tutorialspoint.com/digital_communication/digital_communication_data_encoding_techniques.htm Computer Network by Andrew S. Tanenbaum, Chapter-2 (The Physical Layer) Thanks !!
In my textbook, for manchester encoding, a negative-to-positive transition represent 1 and a positive-to-negative transition represent 0.Is it different with your tutorial?
Thanks very much sir.. i was getting confused for the different sources.... but because of you i got it
..
Your manchester encoding is in correct ; in machester "1" you go high from low and "0" you go low from high - where transition is in the middle of the interval always no matter which way( low or high) you go as per (e.g., William Stallings)[3] & IEEE 802.4- The one you mention is the other convention- so there are two conventions.
The representation of High Low and Low High is different in DCN by Behrouz Forouzan. for 1 bit , the representation in reverse z and for 0 bit representation is in a z shape.
There are two methods for representing bits in Manchester and Differential Manchester Encoding:
1. IEEE 802.3
2. G.E Thomas
This method (2nd) is also used in following references, please check:
www.cse.iitk.ac.in/users/dheeraj/cs425/lec03.html
www.erg.abdn.ac.uk/users/gorry/course/phy-pages/man.html
www.tutorialspoint.com/digital_communication/digital_communication_data_encoding_techniques.htm
Computer Network by Andrew S. Tanenbaum, Chapter-2 (The Physical Layer)
Thanks !!
In my textbook, for manchester encoding, a negative-to-positive transition represent 1 and a positive-to-negative transition represent 0.Is it different with your tutorial?
Sir , How Manchester and Differential Manchester will be efficient than normal binary encoding.
Good explanation 👍. Thank uu sir
Good Explain.Great ....
awsm sir
Hi !! Thanks for appreciation.
Thank you sir 🙏🙏
sir please explain Integral Manchester encoding... And what is the difference between differential and integral Manchester encoding..
Thanks 4 making my concept so simple... : )
really appreciated, thank yu sir !
Pirzada Salman Hi, Thank you so much for appreciation !!!
nicely explained!
Clearly explained sir
only you are able to understand me
Thank you so much sir🙏🙏
Very well explained.
Digvijay Deshmukh Hi, Thank you so much for appreciation !!!
explained well thank u sir
MK design Hi, Thank you so much for appreciation !!!
Thanks you helped me
Helped me alot thanks