A low jitter programmable clock multiplier based on a pulse injection-locked oscillator with a highly-digital tuning loop
Author(s)
Perrott, Michael H.; Johnson, Kerwin; Hsu, Chun-Ming; Helal, Belal M.
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This paper introduces a pulse injection-locked oscillator (PILO) that provides low jitter clock multiplication of a clean input reference clock. A mostly-digital feedback circuit provides continuous tuning of the oscillator such that its natural frequency is locked to the injected frequency. The proposed system is demonstrated with a prototype consisting of a custom 0.13 mum integrated circuit with active area of 0.4 mm[superscript 2] and core power of 28.6 mW, along with an FPGA, a discrete DAC and a simple RC filter. Using a low jitter 50 MHz reference input, the PILO prototype generates a 3.2 GHz output with integrated phase noise, reference spur, and estimated deterministic jitter of 130 fs (rms), -63.9 dBc, and 200 fs (peak-to-peak), respectively.
Date issued
2009-05Department
Massachusetts Institute of Technology. Department of Electrical Engineering and Computer ScienceJournal
IEEE Journal of Solid-State Circuits
Publisher
Institute of Electrical and Electronics Engineers
Citation
Helal, B.M. et al. “A Low Jitter Programmable Clock Multiplier Based on a Pulse Injection-Locked Oscillator With a Highly-Digital Tuning Loop.” Solid-State Circuits, IEEE Journal of 44.5 (2009): 1391-1400. © 2009 IEEE
Version: Final published version
ISSN
0018-9200
Keywords
time to digital converter, reference spur, pulse, phase locked loop, integer-N, injection locked oscillator, gated ring oscillator, deterministic jitter, correlation, correlated double sampling, TDC, Subharmonic, PLL, PILO, GRO