A fully-adaptive wideband 0.5-32.75Gb/s FPGA transceiver in 16nm FinFET CMOS technology.
Symposium on VLSI Circuits-Digest of Papers(2016)
摘要
This paper describes the design of a low power fully-adaptive wideband, flexible reach transceiver in 16nm FinFET CMOS embedded within FPGA. The receiver utilizes a 3-stage CTLE with a segmented AGC to minimize parasitic peaking and 15-tap DFE to operate over both short and long channels. The transmitter uses a swing boosted CML driver architecture. Low noise wideband fractional N LC PLLs combined with linear active inductor based phase interpolators and high speed clocking are utilized for low jitter clock generation. The transceiver achieves >1200mV(dpp) TX swing with <190 fs RJ and 5.39 ps TJ to achieve BER < 10(-15) over a 30 dB loss backplane at 32.75 Gb/s, while consuming 577 mW.
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关键词
fully-adaptive wideband FPGA transceiver,FinFET CMOS technology,low power fully-adaptive wideband flexible reach transceiver,3-stage CTLE,AGC,parasitic peaking minimization,15-tap DFE,swing boosted CML driver architecture,transmitter,low noise wideband fractional N LC PLL,linear active inductor,phase interpolators,high speed clocking,low jitter clock generation,automatic gain control,bit rate 0.5 Gbit/s to 32.75 Gbit/s
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