DocumentCode :
72547
Title :
A 780 mW 4 
28 Gb/s Transceiver for 100 GbE Gearbox PHY in 40 nm CMOS
Author :
Singh, Ullas ; Garg, Adesh ; Raghavan, Bharath ; Huang, Nick ; Heng Zhang ; Zhi Huang ; Momtaz, Afshin ; Jun Cao
Author_Institution :
Broadcom Corp., Irvine, CA, USA
Volume :
49
Issue :
12
fYear :
2014
fDate :
Dec. 2014
Firstpage :
3116
Lastpage :
3129
Abstract :
This paper describes a reconfigurable 4 × 28 Gb/s transceiver supporting 100 GbE/40 GbE standards. In each lane, the transmitter incorporates a 3-tap FIR with independent output phase adjustment, and the receiver has a half-rate CDR with a dedicated eye-monitor channel. There is a global resonant clock distribution network implemented using programmable distributed on-chip inductors. Implemented in a 40 nm CMOS process, the TX output measures 1.87 pspp DJ and 202 fsrms RJ. The RX jitter tolerance is 0.46 UIpp at 80 MHz with an input sensitivity of 27 mVpp-diff. The transceiver achieves BER on a channel with 20 dB loss at Nyquist, dissipating only 780 mW from a 0.9 V supply for all four lanes at 28 Gb/s operation.
Keywords :
CMOS integrated circuits; clock distribution networks; error statistics; inductors; radio transceivers; timing jitter; 100 GbE Gearbox PHY; 100 GbE standards; 3-tap FIR; 40 GbE standards; BER; CMOS process; Nyquist; RX jitter tolerance; bit rate 112 Gbit/s; dedicated eye-monitor channel; frequency 80 MHz; global resonant clock distribution network; half-rate CDR; independent output phase adjustment; power 780 mW; programmable distributed on-chip inductors; radio transmitter; reconfigurable transceiver; size 40 nm; voltage 0.9 V; Bandwidth; Clocks; Inductors; Power demand; Receivers; Standards; Transceivers; 100-Gigabit Ethernet; CFP2; Calibrated resistor; VSR; dual VCO; folded active inductor; gearbox; half-rate CDR; intersymbol interference (ISI); jitter tolerance; low power; multiplexer; programmable clock driver; transceiver;
fLanguage :
English
Journal_Title :
Solid-State Circuits, IEEE Journal of
Publisher :
ieee
ISSN :
0018-9200
Type :
jour
DOI :
10.1109/JSSC.2014.2352299
Filename :
6899715
Link To Document :
