학술논문

Wandering Spur Suppression in a 4.9-GHz Fractional-N Frequency Synthesizer

Document Type

Periodical

Author

Mai, D.; Donnelly, Y.; Kennedy, M.P.; Tulisi, S.; Breslin, J.; Griffin, P.; Connor, M.; Brookes, S.; Shelly, B.; Keaveney, M.

Source

IEEE Journal of Solid-State Circuits IEEE J. Solid-State Circuits Solid-State Circuits, IEEE Journal of. 57(7):2011-2023 Jul, 2022

Subject

Components, Circuits, Devices and Systems
Engineered Materials, Dielectrics and Plasmas
Computing and Processing
Multi-stage noise shaping
Delta-sigma modulation
Frequency synthesizers
Spectrogram
Quantization (signal)
Synthesizers
Phase noise
Divider controller
N<%2Fitalic>+frequency+synthesizers%22">fractional-N frequency synthesizers
MASH digital Δ–Σ modulator (DDSM)
phase noise
phase-locked loops (PLLs)
quantization noise
spurious tones

Language

ISSN

0018-9200
1558-173X

Abstract

Fractional- $N$ frequency synthesizers that use a digital $\Delta $ – $\Sigma $ modulator (DDSM) to control the feedback divider can exhibit spurious tones that move about in the frequency domain; these are known colloquially as “walking” or wandering spurs. Building upon a theoretical explanation of the origin of wandering spurs, this article presents two methods to suppress them. It describes a 4.9-GHz 180-nm SiGe BiCMOS charge-pump phase-locked loop (CP-PLL) fractional- $N$ frequency synthesizer platform with a divider controller that can function as: 1) a standard MASH 1-1-1; 2) a MASH 1-1-1 with high-amplitude dither; and 3) a MASH 1-1-1 with a modified third stage. Measurements confirm the effectiveness of the wandering spur suppression strategies.

Online Access

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