Comtech EF Data CDM-760 User Manual

Appendix J

Revision 2

CDM-760 Advanced High-Speed Trunking Modem

MN-CDM760

J–8

Figure J-6. Carrier-in-Carrier Signal Processing Block Diagram

The resulting estimate of the unwanted interfering signal is then subtracted from the composite

signal. In practical applications, the estimate of the unwanted signal can be extremely accurate.

Unwanted interfering signal suppression of 30 dB or more has been achieved in commercial

products with minimal degradation of the demodulator performance.

J.4.2

Margin Requirements

Depending on the product, typical interfering signal cancellation is 28 to 35 dB. The residual

interfering signal appears as noise, causing a slight degradation in received Es/No. To

compensate for the residual noise, a small amount of additional link margin is required to

improve the Es/No and maintain the QEF performance. Margin requirements depend on the

product, modulation and power ratios; for the CDM-760, these additional margin requirements

are:

Modulation

Nominal Margin*

QPSK

0.3 dB

8PSK

0.3 dB

16APSK

0.6 dB

32APSK

1.0 dB

* Equal power and equal symbol rate for the interfering carrier and the desired carrier, i.e., 0 dB

CnC ratio. Measured at IF with AWGN, +7 dBc Adjacent Carriers, 1.3 spacing.

J.4.3

Carrier-in-Carrier Latency

DoubleTalk Carrier-in-Carrier has no measurable impact on circuit latency.

J.4.4

Carrier-in-Carrier and Adaptive Coding and Modulation (ACM)

DoubleTalk Carrier-in-Carrier is fully compatible with the Adaptive Coding and Modulation

(ACM) mode of operation in the CDM-760. CnC combined with ACM can provide 100 – 200%

increase in average throughput.