Title :
Mixed digital/analog signal processing for a single-chip 2B1Q U -interface transceiver
Author :
Batruni, Roy ; Lemaitre, Pierre ; Fensch, Thierry
Author_Institution :
Nat. Semicond. Corp., Santa Clara, CA, USA
fDate :
12/1/1990 12:00:00 AM
Abstract :
Mixed analog-digital signal processing aspects of a 5-V single-chip U-interface 2B1Q transceiver are discussed. Analog signal processing preconditions the signal by reducing jitter-induced echo and nonlinear echo components, and by maximizing the dynamic range utilization of the 13-b analog-to-digital (A/D) converter. The digital signal processor performs the high-pass filtering, precursor equalization, linear echo cancellation, far-end signal equalization, and timing recovery functions. The analog signal preconditioning technique allows the entire digital signal processing (DSP) section to be designed without a single dedicated multiplier. The U-interface transceiver has been realized in a 1.5-μm double-metal CMOS process, resulting in a circuit area of 77 mm2. Total power consumption is 300 mW. To comply with the ANSI-specified performance test procedures, a crosstalk noise generator and injection circuit were custom built along with a jitter generation system, all of which match the ANSI noise and jitter templates. Testing was performed over the 15 ANSI loops and countless other random configurations. Full compliance with the standard protocol and timing limits was achieved on all the loops
Keywords :
CMOS integrated circuits; analogue-digital conversion; application specific integrated circuits; echo suppression; equalisers; transceivers; 1.5 micron; 300 mW; A/D convertor; ANSI noise; crosstalk noise generator; digital/analog signal processing; double-metal CMOS process; dynamic range; far-end signal equalization; high-pass filtering; jitter generation system; jitter-induced echo; linear echo cancellation; nonlinear echo; power consumption; precursor equalization; random configurations; single-chip 2B1Q U-interface transceiver; standard protocol; timing limits; timing recovery functions; Analog-digital conversion; Circuit testing; Crosstalk; Digital signal processing; Digital signal processors; Dynamic range; Jitter; Signal processing; Timing; Transceivers;
Journal_Title :
Solid-State Circuits, IEEE Journal of
