Digitally Controlled 10-Gb/s Adjustable Delay Line for Adaptive Filter Design in standard CMOS Technology

Author

Bien, F. ; Chandramouli, S. ; Kim, H. ; Gebara, E. ; Laskar, J.

Author_Institution

Georgia Electron. Design Center, Georgia Inst. of Technol., Atlanta, GA

fYear

2007

fDate

27-30 May 2007

Firstpage

197

Lastpage

200

Abstract

In order for adaptive filter design to achieve optimum performance, the latency around the loop needs to be exactly designed for each targeted data rates. Due to unforeseen parasitic effects, latency has been major design issues for adaptive filters design with decision feedback topologies. In this paper, a digitally controlled adjustable delay line IC is presented that can be tuned with 3-ps resolution with a modular-based digital-to-analog converter (DAC) design. The proposed adjustable delay line achieved wide bandwidth for 10-Gb/sec data throughput while demonstrating bit-error rate (BER) improvement for the given equalizer design over various band-limited channels. The proposed IC is implemented in a 0.18-mum standard CMOS technology.

Keywords

CMOS integrated circuits; adaptive filters; bandlimited communication; decision feedback equalisers; delay lines; digital control; digital-analogue conversion; error statistics; 0.18 micron; 10 Gbit/s; CMOS technology; adaptive filter design; adjustable delay line; bandlimited channels; bit-error rate improvement; decision feedback topologies; digital control; digital-to-analog converter; Adaptive filters; Bandwidth; Bit error rate; CMOS technology; Delay lines; Digital control; Digital integrated circuits; Digital-analog conversion; Feedback; Topology;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems, 2007. ISCAS 2007. IEEE International Symposium on

Conference_Location

New Orleans, LA

Print_ISBN

1-4244-0920-9

Electronic_ISBN

1-4244-0921-7

Type

conf

DOI

10.1109/ISCAS.2007.378310

Filename

4252605