A fractional-N PLL phase quantization cancellation architecture using adaptive digital delay word scaling is presented and demonstrated. A digital sign-error adaptive filter utilizing the 1-bit quantized PLL phase error and the feedback divider delta-sigma modulator accumulated error generates the optimal control word scaling for a phase cancelling digital delay. A comprehensive analytic phase noise model is derived and compared to time-domain simulation and measurement. The proposed fractional-N synthesizer, with a 2.4 GHz center frequency VCO is fabricated on a PCB with commercially available integrated circuits as a proof of concept. The synthesizer output frequency range is 144-156 MHz with 2 ppm resolution for a 20 MHz crystal oscillat...
This paper explores a new topology of charge-pump PLL intended for ΔΣ-fractional-N frequency synthes...
[[abstract]]This work presents a quantization error minimization technique for a fractional-N freque...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
This dissertation contains three parts. In the first part, the analysis and circuits of a jitterclea...
A novel phase-locked loop topology is presented. Compared to conventional designs, this architectur...
ΔΣ fractional-N frequency synthesis achieves low phase noise performance while relaxing the Phase-Lo...
Delta-sigma fractional-N phase-locked loops are used to generate high quality radio-frequency signal...
DoctorThis thesis presents several low-noise techniques for the design of fractional-N PLL, includin...
Circuit and system techniques for reducing phase noise in frequency synthesizers, and cancelling pha...
[[abstract]]This paper presents a technique to reduce the quantization error in fractional division ...
A 120MHz fractional-N frequency synthesizer was implemented in a standard 0.18μm CMOS process with a...
Phase-Locked Loop based frequency synthesis is an essential technique employed in wireless communica...
Abstract − This paper presents a 18-mW, 2.5-GHz fractional-N frequency synthesizer with 1-bit 4th-o...
This paper introduces a Delta-Sigma fractional-N digital PLL based on a single-bit TDC. A digital-to...
This work introduces a bang-bang fractional-N phase-locked loop with quantization noise shaping that...
This paper explores a new topology of charge-pump PLL intended for ΔΣ-fractional-N frequency synthes...
[[abstract]]This work presents a quantization error minimization technique for a fractional-N freque...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
This dissertation contains three parts. In the first part, the analysis and circuits of a jitterclea...
A novel phase-locked loop topology is presented. Compared to conventional designs, this architectur...
ΔΣ fractional-N frequency synthesis achieves low phase noise performance while relaxing the Phase-Lo...
Delta-sigma fractional-N phase-locked loops are used to generate high quality radio-frequency signal...
DoctorThis thesis presents several low-noise techniques for the design of fractional-N PLL, includin...
Circuit and system techniques for reducing phase noise in frequency synthesizers, and cancelling pha...
[[abstract]]This paper presents a technique to reduce the quantization error in fractional division ...
A 120MHz fractional-N frequency synthesizer was implemented in a standard 0.18μm CMOS process with a...
Phase-Locked Loop based frequency synthesis is an essential technique employed in wireless communica...
Abstract − This paper presents a 18-mW, 2.5-GHz fractional-N frequency synthesizer with 1-bit 4th-o...
This paper introduces a Delta-Sigma fractional-N digital PLL based on a single-bit TDC. A digital-to...
This work introduces a bang-bang fractional-N phase-locked loop with quantization noise shaping that...
This paper explores a new topology of charge-pump PLL intended for ΔΣ-fractional-N frequency synthes...
[[abstract]]This work presents a quantization error minimization technique for a fractional-N freque...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...