Transmultiplexers block diagram TDM

AI Thread Summary
The discussion centers on constructing a transmultiplexer for converting two CEPT signals into one supergroup, which the poster successfully completed. However, they are struggling with a second task that involves converting two supergroups into a standard group in TDM systems. The poster acknowledges their initial attempt was flawed and seeks guidance or references to assist in designing the solution. They plan to provide a block diagram of their current work the following day. Assistance from others in the forum is requested to help clarify the complexities of the second problem.
Eng_Electro
Messages
4
Reaction score
0

Homework Statement



Hi

I had a simple task at school :

Construct a transmultiplexer for converting two CEPT into one super group

It was easy for me ,, the answer is :

http://img383.imageshack.us/img383/6150/transmultiplexerswl3.jpg

But there is another problem i couldn't solve ,, This is it :

Construct a transmultiplexer to convert 2 supergroups into any standard group in TDM systems


Thanks ALOT .

Homework Equations



There are no equations

The Attempt at a Solution




well, i have done it with a similar approach to the first problem ,, but ,, i know i am wrong ,,, I know it is not as easy as the system above .. Can anyone help me with this or can guide me to a reference or example which can help me with this design
 
Last edited by a moderator:
Physics news on Phys.org
Can I see your solution to the second problem. thanks
 
Ok ,, I will draw the block on paint program ,, it will be available tommorrow morning

Thanks
 
Thread 'Have I solved this structural engineering equation correctly?'

Thread 'Have I solved this structural engineering equation correctly?'

Hi all, I have a structural engineering book from 1979. I am trying to follow it as best as I can. I have come to a formula that calculates the rotations in radians at the rigid joint that requires an iterative procedure. This equation comes in the form of: $$ x_i = \frac {Q_ih_i + Q_{i+1}h_{i+1}}{4K} + \frac {C}{K}x_{i-1} + \frac {C}{K}x_{i+1} $$ Where: ## Q ## is the horizontal storey shear ## h ## is the storey height ## K = (6G_i + C_i + C_{i+1}) ## ## G = \frac {I_g}{h} ## ## C...
View full post »

Similar threads

Engineering Determine the transfer function of the block diagram
Replies
4
Views
1K
What is the Well-Known Feedback Expression for Block Diagram Manipulation?
Replies
3
Views
3K
Control systems: Simplifying block diagram
Replies
7
Views
2K
Beam boundary condition problem
Replies
12
Views
3K
Block Diagram Reduction - Control Systems Engineering
Replies
2
Views
7K
Engineering Use voltage nodal analysis to solve for the current flowing in this AC circuit
Replies
2
Views
2K
Analog Circuit for Mathematical Pendulum
Replies
6
Views
1K
Calculating acceleration of a prism and block connected to a wall through a rope and pulley
Replies
4
Views
448
Block Diagrams - Control Engineering. Basic Question
Replies
26
Views
8K
Semiconductors - Flat band Diagram vs Equilibrium Diagram
Replies
3
Views
4K

Hot Threads

Recent Insights

Back
Top