8.8 An 8.2-to-10.3Gb/s full-rate linear reference-less CDR without frequency detector in 0.18μm CMOS | IEEE Conference Publication | IEEE Xplore

8.8 An 8.2-to-10.3Gb/s full-rate linear reference-less CDR without frequency detector in 0.18μm CMOS


Abstract:

As an alternative to the conventional dual-loop architecture, reference-less CDR architectures have become more popular in industry because of their simplicity and flexib...Show More

Abstract:

As an alternative to the conventional dual-loop architecture, reference-less CDR architectures have become more popular in industry because of their simplicity and flexibility [1-5]. However, the robustness of the transition between frequency acquisition and phase locking is always a concern, particularly for the linear CDR, which has an extremely limited capture range. Many works, based mainly on the Pottbacker frequency detector (FD) [1], have been reported. In [3] the capture range of the FD is only ±2.4% at 20Gb/s with no capacitor bank in the VCO; in [4] the capture range of the FD is about ±6.4% at 2.75Gb/s, with an 8b resolution of the capacitor bank in the VCO; in [5] the capture range is ±15% at 10Gb/s, with an 11b resolution of the capacitor bank. Thus the Pottbacker FD inherently suffers from a limited capture range, requiring a dedicated FD and a stringent tradeoff between the CDR capture range and the number of VCO bands. In the presence of input jitter and phase-detector (PD) non-idealities, it is difficult to design an architecture where the resolution of the capacitor bank and the turnoff mechanism can guarantee that the VCO frequency will eventually fall within the pull-in range of the CDR.
Date of Conference: 09-13 February 2014
Date Added to IEEE Xplore: 06 March 2014
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Conference Location: San Francisco, CA, USA

References

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