Jitter Amplification is a real concern in the design of PCB clock channels if the frequency of the clock is high and the PCB trace is relatively long. In this paper, we confirm the earlier finding of clock channel jitter amplification [1], using a multiple edge response (MER) simulation method instead of jitter impulse response for the channel. However, we show that both white Random Jitter (wRJ) and Sinusoidal Jitter (SJ) amplification are a function of the signal loss in the channel, and as such, are reduced significantly with equalization. Furthermore, simulated CMOS Tx RJ, which is dominated by its low frequency components, is amplified less than is wRJ, even for channels with ≫20dB signal loss. Measurement results are correlated with simulations for 2-6 GHz clocks on a channel containing 24-inches of PCB trace.
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