Title :
A Distributed Oscillator Based All-Digital PLL With a 32-Phase Embedded Phase-to-Digital Converter
Author :
Takinami, Koji ; Strandberg, Richard ; Liang, Paul C P ; Le Grand de Mercey, Grégoire ; Wong, Tony ; Hassibi, Mahnaz
Author_Institution :
Panasonic Wireless Res. Lab., Cupertino, CA, USA
Abstract :
This paper presents a wide-bandwidth, low-noise 4 GHz All-Digital PLL. It uses a rotary traveling wave oscillator (RTWO) as the oscillator core. By using multiphase signals available from the RTWO, the analog phase information is directly converted into the digital domain. Unlike the conventional time-to-digital converter (TDC) approach, it eliminates power hungry inverter delay chains as well as real time period normalization. The proposed approach significantly simplifies the ADPLL architecture while maintaining excellent phase noise. The PLL is implemented in a 65 nm CMOS process. The 32-phase embedded phase-to-digital converter (PDC) achieves 2π/64 phase resolution. The measured in-band phase noise is -108 dBc/Hz at 4 GHz with a 78 MHz reference and a 1 MHz loop bandwidth.
Keywords :
CMOS digital integrated circuits; VHF oscillators; delays; digital phase locked loops; invertors; microwave oscillators; 32-phase embedded PDC; 32-phase embedded phase-to-digital converter; CMOS process; RTWO; TDC approach; analog phase information; bandwidth 1 MHz; bandwidth 78 MHz; converter rotary traveling wave oscillator; distributed oscillator; frequency 4 GHz; in-band phase noise; multiphase signal; oscillator core; phase resolution; power hungry inverter delay chain; size 65 nm; time period normalization; time-to-digital converter approach; wide-bandwidth low-noise all-digital PLL; Clocks; Delay; Inverters; Phase locked loops; Phase noise; Distributed oscillator; all-digital phase-locked loop; digitally-controlled oscillator; low phase noise; phase-to-digital converter; rotary traveling wave; time-to-digital converter;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2011.2164011
