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A 6.25 Gbps SerDes core used in the high speed backplane communication receiver has been designedbased on the OIF-CEI-02.0 standard. To counteract the serious Inter-Symbol-Interference (ISI),the core employed a half-rate four-tap decision feedback equalizer (DFE). The equalizer used the Sign-signleast mean-squared (SS-LMS) algorithm to realize the coefficient adaptation. An automatic gain control(AGC) amplifier with the sign least mean-squared (S-LMS) algorithm has been used to compensatethe transmission media loss. To recover the clock signal from the input data serial and provide for theDFE and AGC, a bang-bang clock recovery (BB-CR) is adopted. A third order phase loop lock (PLL)model was proposed to predict characteristics of the BB-CR. The core has been verified by behavioralmodeling in MATLAB. The results indicate that the core can meet the specifications of the backplane receiver.The DFE recovered data over a 34“ FR-4 backplane has a peak-to-peak jitter of 17 ps, a horizontaleye opening of 0.87 UI, and a vertical eye opening of 500 mVpp.
A counteract the serious Inter-Symbol-Interference (ISI), the core employed a half-rate four-tap decision feedback equalizer (DFE). The equalizer used the Sign-sign least mean-squared (SS-LMS) algorithm to realize the coefficient adaptation. used to compensate the transmission media loss. A third order phase loop lock (PLL) model was proposed The predict has been verified by BB-CR. The core has been verified by behavioral modeling in MATLAB. The results indicate that the core can meet the specifications of the backplane receiver. DFE recovered data over a 34 ”FR-4 backplane has a peak -to-peak jitter of 17 ps, a horizontaley e opening of 0.87 UI, and a vertical eye opening of 500 mVpp.