Comtech EF Data CDM-760 User Manual

Appendix G

Revision 2

CDM-760 Advanced High-Speed Trunking Modem

MN-CDM760

G–6

G.3 ACM System Description

A generic example of ACM-over-Satellite is shown in Figure G-3. There are a number of essential

requirements to enable this scheme:

• A near side modulator and FEC encoder that can instantaneously, when commanded,

change either modulation type, FEC encoder rate or both. This needs to be accomplished

without the corruption of data anywhere in the path. The ModCod must remain fixed

throughout an entire frame and may change to any other ModCod on the next frame.

• The near side modulator is required to send the value of ModCod at the start of each frame

to inform the far side demodulator/decoder how to configure for the correct ModCod.

• A far side demodulator/decoder must be capable of demodulating and decoding the signal

transmitted by the near side modulator without any prior knowledge of when a change has

taken place, based purely on the value of ModCod seen at the start of each Frame. Again,

this needs to be accomplished without the corruption of data anywhere in the path.

• The far side receiver needs to derive an estimate of the link quality, the received Es/No, and

then communicate this estimate, via a return channel, back to the near side modulator.

• The near side modulator needs to process the link quality metric from the far side

demodulator and, based upon a pre-determined algorithm, adapt the data rate and change

the ModCod sent to the far side receiver. This closes the loop and maximizes the data rate

for the current link conditions.