Title :
A Sub-2 W 39.8–44.6 Gb/s Transmitter and Receiver Chipset With SFI-5.2 Interface in 40 nm CMOS
Author :
Raghavan, Bharath ; Delong Cui ; Singh, Upendra ; Maarefi, H. ; Deyi Pi ; Vasani, A. ; Zhi Chao Huang ; Catli, Burak ; Momtaz, Afshin ; Jun Cao
Author_Institution :
Broadcom Corp., Irvine, CA, USA
Abstract :
A 39.8-44.6 Gb/s transmitter and receiver chipset designed in 40 nm CMOS is presented. The line-side TX implements a 2-tap FIR filter with delay-based pre-emphasis. The line-side RX uses a quarter-rate CDR architecture. The TX output shows 0.9 pspp ISI and 0.2 psrms RJ at 0.87 W. The RX achieves a jitter tolerance of 0.6 UIpp at 100 MHz and an input sensitivity of 20 mV ppmathchar"702D diff at 1.05 W. The combined transmitter/receiver equalization enables 44.6 Gb/s data transmission using 231-1 PRBS at BER 10-12 over a channel with >21 dB loss at Nyquist frequency.
Keywords :
CMOS integrated circuits; FIR filters; jitter; radio receivers; radio transmitters; 2-tap FIR filter; CMOS; Nyquist frequency; bit rate 39.8 Gbit/s to 44.6 Gbit/s; delay-based pre-emphasis; frequency 100 MHz; jitter tolerance; line-side RX; line-side TX; power 0.87 W; power 1.05 W; power 2 W; quarter-rate CDR architecture; receiver chipset; size 40 nm; transmitter chipset; transmitter/receiver equalization; Bandwidth; Clocks; Delays; Jitter; Optical receivers; Optical transmitters; 40 Gbps; 40 Gigabit Ethernet (GbE); CDR latency; OC-768; T-coil inductor; bang-bang digital CDR; bridged shunt peaking; differential phase shift keying (DPSK); half-rate multiplexing; optical communication CMOS transceiver; quarter-rate CDR;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2013.2279054
