Title :
The effect of interleaver depth and QAM channel frequency offset on the performance of multichannel AM-VSB/256-QAM video lightwave transmission systems
Author_Institution :
Gen. Instrum. Corp., Horsham, PA, USA
Abstract :
The effect of a convolutional interleaver with variable depth in a quadrature amplitude modulator (QAM) modem to combat burst-errors generated by bursty composite second-order (CSO) distortions in multichannel AM-VSB/256-QAM video lightwave transmission systems has been analyzed. It is shown that by offsetting the QAM channel frequency relative to the dominant CSO distortions with I=204, J=1 interleaver, the 256-QAM coded bit-error rate was reduced by more than 500 times even in the presence of large CSO distortion levels (>-60 dBc) compared with the no interleaver and QAM frequency offset case. These results should help in the selection of the proper interleaver depth as well as the QAM channel frequency plan, depending on the magnitude of the CSO/CTB distortions in the CATV network.
Keywords :
amplitude modulation; cable television; laser noise; optical fibre subscriber loops; optical modulation; performance evaluation; quadrature amplitude modulation; CATV network; QAM channel frequency; QAM channel frequency offset; QAM channel frequency plan; QAM coded bit-error rate; QAM frequency offset; burst-errors; bursty composite second-order distortions; convolutional interleaver; dominant CSO distortions; interleaver depth; large CSO distortion levels; multichannel AM-VSB/256-QAM video lightwave transmission system; multichannel AM-VSB/256-QAM video lightwave transmission system performance; quadrature amplitude modulator modem; variable depth; Bit error rate; Convolutional codes; Digital video broadcasting; Forward error correction; Frequency; Hybrid fiber coaxial cables; Modems; Nonlinear distortion; Optical transmitters; Quadrature amplitude modulation;
Journal_Title :
Photonics Technology Letters, IEEE
