Title :
Joint AGC-Equalization Algorithm and VLSI Architecture for Wirelined Transceiver Designs
Author :
Jyh-Ting Lai ; An-Yeu Wu ; Chien-Hsiung Lee
Author_Institution :
Graduate Inst. of Electron. Eng., Nat. Taiwan Univ., Taipei
fDate :
2/1/2007 12:00:00 AM
Abstract :
Traditional approaches of automatic gain control (AGC) involve estimating the average power or the peak amplitude over an extended time period, which results in high hardware complexity and a long processing time. Moreover, the accuracy of traditional approaches is seriously degraded by noise and intersymbol interference. In this paper, we propose a joint AGC and equalization (Joint AGC-EQ) scheme, in which the AGC circuitry comprises only one-tenth of the area of a traditional AGC. In addition, the total convergence time of the proposed Joint AGC-EQ is only half that of traditional blind equalization. The scheme is already silicon proven for the application of a Fast Ethernet transceiver using Faraday/UMC 0.18-mum cell libraries
Keywords :
VLSI; automatic gain control; transceivers; 0.18 micron; Faraday/UMC cell libraries; VLSI architecture; automatic gain control-equalization algorithm; blind equalization; fast Ethernet transceiver; intersymbol interference; noise; wirelined transceiver designs; Algorithm design and analysis; Amplitude estimation; Circuit noise; Convergence; Degradation; Gain control; Hardware; Intersymbol interference; Transceivers; Very large scale integration; Automatic gain control (AGC); blind equalization; equalizer;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2007.893593
