J.4.6.1 asymmetric data rate link – Comtech EF Data CDM-760 User Manual

Appendix J

Revision 2

CDM-760 Advanced High-Speed Trunking Modem

MN-CDM760

J–11

The link budget summary for the different ModCod combinations is:

S. No.

Modulation & FEC

Allocated

BW (MHz)

PEB (MHz) Leased BW

(MHz)

Savings Compared

to Original

PSD

Ratio

(dB)

1

S2 8PSK 5/6

18.2

26.9

26.9

25%

0.0

2

S2 8PSK 8/9

17.9

34.9

34.9

4%

0.0

3

S2 16APSK 2/3

17.35

25.1

25.1

31%

0.0

4

S2 16APSK 5/6

13.9

38.3

38.3

-9.7%

0.0

Based on this analysis, S2 16APSK 2/3 with CnC provides the maximum savings of 31%.

J.4.6.1 Asymmetric Data Rate Link

As occupied (or allocated) bandwidth of a CnC circuit is dictated by the larger of the two carriers,

it is strongly recommended that the smaller carrier be spread as much as possible using a lower

order modulation and/or FEC, while meeting the CnC ratio spec. Spreading the smaller carrier

using a lower order modulation has multiple benefits:

•

Lower order modulation is always more robust;

•

Lower order modulation uses less transponder power – this reduces total required transponder

power, and increases available link margin;

•

Lower order modulation uses less transmit power on the ground – this can significantly

reduce the BUC/SSPA size not only by reducing the transmit EIRP, but also by reducing the

BUC/SSPA backoff.

Consider this example:

Satellite & Transponder

IS-901 @ 342º W, 22/22 (EH/EH)

Earth Station 1

Africa – 4.5 m

Earth Station 2

Africa – 3.6 m

Data Rate

30 Mbps / 10 Mbps

While the traditional link was based on 8PSK, TPC 3/4 and required 27.8 MHz of leased bandwidth,

the CnC link was based on 8PSK 3/4 and 8PSK 3/5 and required 19.3 MHz of leased bandwidth.