Title :
Analog-DFE-based 16Gb/s SerDes in 40nm CMOS that operates across 34dB loss channels at Nyquist with a baud rate CDR and 1.2Vpp voltage-mode driver
Author :
Joy, Andrew K. ; Mair, Hugh ; Lee, Hae-Chang ; Feldman, Arnold ; Portmann, Clemenz ; Bulman, Neil ; Crespo, Eugenia Cordero ; Hearne, Peter ; Huang, Patty ; Kerr, Barbara ; Khandelwal, Pulkit ; Kuhlmann, Franz ; Lytollis, Shaun ; Machado, Joaquim ; Morris
Author_Institution :
Texas Instrum., Northampton, UK
Abstract :
In networking systems today data rates are increasing beyond 15Gb/s and yet the installed backplanes are made of low cost materials with losses in excess of 30dB at 7.5GHz. Standards, such as IEEE802.3ap-10GBASE-KR and OIF CEI25G, are specifying SerDes requirements for channels with 25dB loss at Nyquist and this has driven the development of SerDes with 4 or 5 tap DFEs. Until now, solutions for 34dB or more channel loss have been limited to 10.3Gb/s or below, whereas this paper describes an adaptive 14-tap DFE that achieves a 1017 BER across a 34dB loss channel at 16Gb/s for a power of 235mW/lane. A baud-rate CDR technique is specifically developed that gives excellent locking characteristics and alignment for use with a speculative DFE together with an enhanced swing TX voltage mode driver.
Keywords :
CMOS integrated circuits; decision feedback equalisers; transceivers; CMOS; Nyquist; SerDes requirements; adaptive 14-tap DFE; analog-DFE-based SerDes; baud rate CDR; bit rate 16 Gbit/s; loss 34 dB; size 40 nm; swing TX voltage mode driver; voltage-mode driver; Backplanes; CMOS integrated circuits; Decision feedback equalizers; Driver circuits; Finite impulse response filter; Transceivers; Transmitters;
Conference_Titel :
Solid-State Circuits Conference Digest of Technical Papers (ISSCC), 2011 IEEE International
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-61284-303-2
DOI :
10.1109/ISSCC.2011.5746349
