An 8.5–11.5-Gbps SONET Transceiver With Referenceless Frequency Acquisition
Solid-State Circuits, IEEE Journal of(2013)
摘要
An 8.5-11.5-Gbps SONET transceiver with referenceless clock and data recovery (CDR) employing an algorithmic frequency acquisition scheme is presented. Without any training sequence, the frequency acquisition algorithm utilizes a modified digital quadricorrelator frequency detector (M-DQFD) incorporated into an LC-based VCO coarse tuning adjustment. M-DQFD eliminates the dead-zone problem associated with high dispersion and low SNR links. Fabricated in 65-nm CMOS process, the transceiver complies with stringent OC-192 jitter requirements. With a 400- μs acquisition time, the receiver achieves a high-frequency jitter tolerance of 0.58UIpp at 10-mVppd input sensitivity. The transmitter output exhibits a random jitter of 205fsrms. The transceiver occupies 0.97 mm2 and consumes 125 mA at 1.0-V supply voltage.
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关键词
CMOS analogue integrated circuits,SONET,optical transceivers,voltage-controlled oscillators,CMOS process,LC-based VCO coarse tuning adjustment,M-DQFD,SONET transceiver,bit rate 8.5 Gbit/s to 11.5 Gbit/s,current 125 mA,dead-zone problem,high dispersion SNR links,high-frequency jitter tolerance,low SNR links,modified digital quadricorrelator frequency detector,referenceless CDR,referenceless clock and data recovery,referenceless frequency acquisition scheme,size 65 nm,stringent OC-192 jitter requirements,voltage 1.0 V,Clock and data recovery (CDR),OC-192,SONET,digital quadricorrelator frequency detector (DQFD),referenceless,repeater,transceiver
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