This paper presents a ring-type, digitally controlled oscillator (DCO)-based integer-N digital phase-locked loop (DPLL) that can achieve low jitter and low reference spur concurrently. In order to minimize the quantization error, while consuming a small amount of power, this work presents an optimal-threshold (OT) time-to-digital converter (TDC). The thresholds of the OT TPC and the phase-correction gain of the loop are corrected continuously in the background. The PLL was fabricated in a 65-nm CMOS process and its measured rms jitter integrated from 1 kHz to 100 MHz and the reference spur of a 2.4-GHz frequency were 320 fs and -75 dBc, respectively. Through measurement, they were verified to be maintained robustly over temperature and supp...
An all-digital phase-locked loop (ADPLL) with all components working with time interval or period si...
Graduation date: 2013Complex digital circuits such as microprocessors typically require support circ...
This paper presents the design of a digital PLL which uses a high resolution Gated-Ring-Oscillator-B...
To improve efficiency in the use of silicon, there have been many efforts to develop ring-oscillator...
This work presents a low-jitter and low out-of-band noise two-core fractional- $N$ digital bang-bang...
This work presents a low-jitter and low-spur, fractional-N ring-oscillator-based digital phase-locke...
We present a digital phase-locked loop (DPLL) operating from 2.8 to 3.8 GHz with an on-chip 40-MHz r...
This article presents a low jitter, low power, low reference spur LC oscillator-based reference over...
[[abstract]]This paper describes a design of digital phase-locked loop (DPLL), which has low-power c...
Digital PLLs (DPLLs) have emerged as reliable alternatives to analog PLLs since they are more robust...
Graduation date: 2011Access restricted to the OSU community at author's request from Dec. 1, 2010 - ...
Generation of a low-jitter, high-frequency clock from a low-frequency reference clock using classica...
A PLL has been designed for high frequency clock generation with only 280 fs RMS jitter. The integer...
This paper analyzes the absolute jitter performance of digital phase-locked loops and compares the c...
International audienceA top-down methodology is proposed to design Phase-Locked-Loops (PLL) using b...
An all-digital phase-locked loop (ADPLL) with all components working with time interval or period si...
Graduation date: 2013Complex digital circuits such as microprocessors typically require support circ...
This paper presents the design of a digital PLL which uses a high resolution Gated-Ring-Oscillator-B...
To improve efficiency in the use of silicon, there have been many efforts to develop ring-oscillator...
This work presents a low-jitter and low out-of-band noise two-core fractional- $N$ digital bang-bang...
This work presents a low-jitter and low-spur, fractional-N ring-oscillator-based digital phase-locke...
We present a digital phase-locked loop (DPLL) operating from 2.8 to 3.8 GHz with an on-chip 40-MHz r...
This article presents a low jitter, low power, low reference spur LC oscillator-based reference over...
[[abstract]]This paper describes a design of digital phase-locked loop (DPLL), which has low-power c...
Digital PLLs (DPLLs) have emerged as reliable alternatives to analog PLLs since they are more robust...
Graduation date: 2011Access restricted to the OSU community at author's request from Dec. 1, 2010 - ...
Generation of a low-jitter, high-frequency clock from a low-frequency reference clock using classica...
A PLL has been designed for high frequency clock generation with only 280 fs RMS jitter. The integer...
This paper analyzes the absolute jitter performance of digital phase-locked loops and compares the c...
International audienceA top-down methodology is proposed to design Phase-Locked-Loops (PLL) using b...
An all-digital phase-locked loop (ADPLL) with all components working with time interval or period si...
Graduation date: 2013Complex digital circuits such as microprocessors typically require support circ...
This paper presents the design of a digital PLL which uses a high resolution Gated-Ring-Oscillator-B...