Title :
A CMOS line equalizer for a digital subscriber loop
Author :
Takatori, Hiroshi ; Suzuki, Toshiro ; Fujii, Fumiaki ; Ogawa, Makoto
Abstract :
An adaptive line equalizer for a 200-kb/s digital subscriber loop is developed in the form of a monolithic LSI and implemented using 2.5-/spl mu/m CMOS technology. Most analog portions consist of switched-capacitor circuits successfully designed to minimize power consumption, the amount of hardware, and off-chip components. The main features of the LSI equalizer are an /spl radic/f step equalizer, a five-tap decision-feedback equalizer using /spl Delta/M D/A conversion, a newly developed wave difference method (WDM), tankless timing extraction PLL, and a line driver. Consequently, the LSI can equalize a 52-dB line loss with four bridge taps; it dissipates only 67 mW, and the chip area is 5.7/spl times/5.9 mm/SUP 2/.
Keywords :
CMOS integrated circuits; Equalisers; Large scale integration; Line concentrators; Subscriber loops; equalisers; large scale integration; line concentrators; subscriber loops; CMOS technology; DSL; Decision feedback equalizers; Energy consumption; Hardware; Large scale integration; Phase locked loops; Switched capacitor circuits; Timing; Wavelength division multiplexing;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.1984.1052244
