Journal ArticleDOI
A Low-Noise Wide-BW 3.6-GHz Digital $\Delta\Sigma$ Fractional-N Frequency Synthesizer With a Noise-Shaping Time-to-Digital Converter and Quantization Noise Cancellation
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TLDR
A 3.6-GHz digital fractional-N frequency synthesizer achieving low noise and 500-kHz bandwidth is presented, which uses a gated-ring-oscillator time-to-digital converter to achieve integrated phase noise of less than 300 fs.Abstract:
A 3.6-GHz digital fractional-N frequency synthesizer achieving low noise and 500-kHz bandwidth is presented. This architecture uses a gated-ring-oscillator time-to-digital converter (TDC) with 6-ps raw resolution and first-order shaping of its quantization noise along with digital quantization noise cancellation to achieve integrated phase noise of less than 300 fs (1 kHz to 40 MHz). The synthesizer includes two 10-bit 50-MHz passive digital-to-analog converters for digital control of the oscillator and an asynchronous frequency divider that avoids divide-value delay variation at its output. Implemented in a 0.13-mum CMOS process, the prototype occupies 0.95-mm2 active area and dissipates 39 mW for the core parts with another 8 mW for the oscillator output buffer. Measured phase noise at 3.67 GHz carrier frequency is -108 and -150 dBc/Hz at 400 kHz and 20 MHz offset, respectively.read more
Citations
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Journal ArticleDOI
A Multi-Path Gated Ring Oscillator TDC With First-Order Noise Shaping
M.Z. Straayer,Michael H. Perrott +1 more
TL;DR: An 11-bit, 50-MS/s time-to-digital converter (TDC) using a multipath gated ring oscillator with 6 ps of effective delay per stage demonstrates 1st-order noise shaping.
Journal ArticleDOI
A Low Noise Sub-Sampling PLL in Which Divider Noise is Eliminated and PD/CP Noise is Not Multiplied by $N ^{2}$
TL;DR: This paper presents a 2.2-GHz low jitter sub-sampling based PLL that uses a phase-detector/charge-pump (PD/CP) that sub-samples the VCO output with the reference clock that guarantees correct frequency locking without degenerating jitter performance when in lock.
Proceedings ArticleDOI
A Low-Noise, Wide-BW 3.6GHz Digital ΔΣ Fractional-N Frequency Synthesizer with a Noise-Shaping Time-to-Digital Converter and Quantization Noise Cancellation
TL;DR: A digital fractional-N frequency synthesizer is presented that leverages a noise-shaping time-to-digital converter (TDC) and a simple quantization noise cancellation technique to achieve low phase noise with a wide PLL bandwidth of 500kHz.
Journal ArticleDOI
A 2.9–4.0-GHz Fractional-N Digital PLL With Bang-Bang Phase Detector and 560- ${\rm fs}_{\rm rms}$ Integrated Jitter at 4.5-mW Power
Davide Tasca,Marco Zanuso,Giovanni Marzin,Salvatore Levantino,Carlo Samori,Andrea L. Lacaita +5 more
TL;DR: This paper introduces a fractional-N PLL based on a 1b TDC, achieving jitter of 560fsrms (from 3kHz to 30MHz) at 4.5mW power consumption, even in the worst-case of fractional spur falling within the PLL bandwidth.
Journal ArticleDOI
A 12-Bit Vernier Ring Time-to-Digital Converter in 0.13 $\mu{\hbox {m}}$ CMOS Technology
TL;DR: A 12-bit Vernier ring time-to-digital converter (TDC) with time resolution of 8 ps for digital-phase-locked-loops (DPLL) is presented, which achieves large detectable range, fine time resolution, small die size and low power consumption simultaneously.
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Journal ArticleDOI
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A family of low-power truly modular programmable dividers in standard 0.35-/spl mu/m CMOS technology
TL;DR: In this article, a modular and power-scalable architecture for low-power programmable frequency dividers is presented, which consists of a 17-bit UHF divider, an 18-bit L-band divider and a 12-bit reference divider.
Journal ArticleDOI
1.3 V 20 ps time-to-digital converter for frequency synthesis in 90-nm CMOS
TL;DR: A 20-ps time-to-digital converter (TDC) realized in 90-nm digital CMOS is used as a phase/frequency detector and charge pump replacement in an all-digital phase-locked loop for a fully-compliant Global System for Mobile Communications (GSM) transceiver.
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A wideband 2.4-GHz delta-sigma fractional-NPLL with 1-Mb/s in-loop modulation
TL;DR: In this paper, a phase noise cancellation technique and a charge pump linearization technique are presented and demonstrated as enabling components in a wideband CMOS delta-sigma fractional-N phase-locked loop (PLL).
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