F.4.1 overview, F.4.2 aupc and carrier-in-carrier in the cdm-625a, F.4.3 the cnc automatic power control algorithm – Comtech EF Data CDM-625A User Manual

CDM-625A Advanced Satellite Modem

MN-CDM625A

Appendix F

Revision 3

F–20

F.4 Carrier-in-Carrier Automatic Power Control (Cn

C-

APC)

F.4.1 Overview

A number of Comtech EF Data modems, including the CDM-625A, offer Automatic Uplink Power

Control (AUPC) to mitigate the effects of rain fading and other link impairments.

It is important to note that the simple system employed in AUPC (whereby distant-end Eb/No is

monitored, and local power is increased when a degraded link is detected) has an undesirable

characteristic, which leads to some operators not permitting its use on their transponders: The

inability of ‘classic’ AUPC to determine at which side of link the fade (or other impairment) has

occurred. More specifically:

• If the fade is at the local side, all is well – the drop in Eb/No at the distant site corresponds

exactly to the drop in power (due to excess attenuation) on the local uplink; when uplink

power is increased, the power at the transponder does not exceed its clear-sky value.

• Conversely, if the fade occurs at the distant side, the AUPC system increases power in

exactly the same way – but now, there is no excess uplink attenuation and, as a result, the

clear-sky power at the satellite will be exceeded.

In a transponder with many carriers using AUPC, a fade event at the ‘wrong’ side can cause

many carriers to simultaneously increase power beyond their authorized maximums, leading to

intermod problems, adjacent channel interference (ACI) issues, and in some extreme cases,

saturation of the transponder.

When considering power control in the Carrier-in-Carrier case, not only must the issue of

exceeding allocated power limits be respected, but the problem of driving CnC ratios outside

working limits during fading must also be taken into account.

F.4.2 AUPC and Carrier-in-Carrier in the CDM-625A

The CDM-625A currently permits ‘classic’ AUPC when Carrier-in-Carrier mode is in operation,

but this does nothing to stop the problem of exceeding power limits when the fade is on the

‘wrong’ side. To limit the impact of this, you are constrained to 3 dB of permitted power

increase. Depending on the satellite band, and the depth and rapidity of the fade, this constraint

may curtail the effectiveness of the system.

F.4.3 The CnC Automatic Power Control Algorithm

In addressing the shortcomings of ‘classic’ AUPC, Comtech EF Data has determined from its

studies of the unique problems of power control in CnC systems that there is sufficient

information available (CnC ratio, power level, Eb/No, RSL, etc.) on the local and distant sides to

control power at each end without exceeding the total composite power allocated to each

carrier in the CnC pair. Furthermore, the power control algorithm developed by Comtech EF

Data ensures that the CnC ratio remains within the correct working range.