Title :
A 3.5 GHz Wideband ADPLL With Fractional Spur Suppression Through TDC Dithering and Feedforward Compensation
Author :
Temporiti, Enrico ; Weltin-Wu, Colin ; Baldi, Daniele ; Cusmai, Marco ; Svelto, Francesco
Author_Institution :
STMicroelectronics-Studio di Microelettronica, Pavia, Italy
Abstract :
Nonlinearities in the time-to-digital converter (TDC) are a significant source of fractional spurs in a divider-less fractional-N ADPLL. Using an abstract model for the TDC, this paper presents a dithering method which is mathematically shown to suppress fractional tones, in conjunction with a feedforward dither cancellation technique which suppresses dither-induced phase noise. A mostly-digital calibration algorithm is also presented which ensures consistent phase noise cancellation across PVT conditions. The aforementioned techniques are implemented in a 65 nm digital CMOS prototype running at 3.5 GHz from a 35 MHz reference. The ADPLL demonstrates - 101 dBc/Hz in-band phase noise at a bandwidth of 3.4 MHz, - 58 dBc worst fractional spurious performance across the entire fractional range, and consumes 8.7 mW from a 1.2 V supply.
Keywords :
CMOS digital integrated circuits; analogue-digital conversion; calibration; compensation; digital phase locked loops; feedforward; field effect MMIC; interference suppression; phase noise; TDC dithering; all-digital phase-locked-loop; calibration; digital CMOS prototype; dither-induced phase noise suppression; divider-less fractional-N ADPLL; feedforward compensation; feedforward dither cancellation technique; fractional spur suppression; fractional tone; frequency 3.5 GHz; size 65 nm; time-to-digital converter; wideband ADPLL; Calibration; Delay; Frequency synthesizers; Phase locked loops; Phase noise; Table lookup; ADPLL; Fractional- $N$; dither; frequency synthesizer; phase-locked-loop (PLL); spurious tones; time-to-digital converter (TDC);
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2010.2077370
