Title :
Full reach high-speed digital subscriber loops via power control
Author :
Shalash, Ahmed F.
Author_Institution :
Level One Commun., New Jersey Design Center, Morganville, NJ, USA
fDate :
6/21/1905 12:00:00 AM
Abstract :
The theoretical performance of the next generation high-speed digital subscriber loops (HDSL2) is calculated under the limited latency constraint in the presence of near end crosstalk (NEXT). The concept of having different up-stream and down-stream power spectral densities is highlighted. The noise margin at the central office HDSL terminal unit (HTU-C) can be enhanced by boosting the power output of the remote user HDSL terminal unit (HTU-R). Further improvement in performance can be achieved by reducing the HTU-C NEXT interference, similar to the power control used in wireless systems. The preemphasis/deemphasis can also be used to further reduce the interference levels, and in the mean time cut the power consumption. Combining the techniques leads to at least a 6 dB SNR margin improvement for the full reach carrier serving area (CSA) loops
Keywords :
channel capacity; crosstalk; digital subscriber lines; noise; power control; spectral analysis; telecommunication control; HDSL terminal unit; HDSL2; NEXT; NEXT interference reduction; SNR margin; capacity limit; carrier serving area; central office HDSL terminal unit; down-stream power spectral density; full reach CSA loops; full reach HDSL; high-speed digital subscriber loops; limited latency constraint; near end crosstalk; noise margin; performance; power consumption; power control; power output; preemphasis/deemphasis; simulation results; up-stream power spectral density; Bit rate; Cables; Central office; Channel capacity; Crosstalk; DSL; Delay; Interference; Power control; Signal to noise ratio;
Conference_Titel :
Global Telecommunications Conference, 1999. GLOBECOM '99
Conference_Location :
Rio de Janeireo
Print_ISBN :
0-7803-5796-5
DOI :
10.1109/GLOCOM.1999.829949
