Title :
A 4-GHz All Digital PLL With Low-Power TDC and Phase-Error Compensation
Author :
Lee, Ja-Yol ; Park, Mi-Jeong ; Min, Byung-Hun ; Kim, Seongdo ; Park, Mun-Yang ; Yu, Hyun-Kyu
Author_Institution :
Electron. & Telecommun. Res. Inst., Daejeon, South Korea
Abstract :
This paper presents a 4-GHz all-digital fractional-N PLL with a low-power TDC operating at low-rate retimed reference clocks, a compensator preventing big phase-error downfalls, and a loop settling monitor. Two retimed reference clocks, nCKR and pCKR, are employed in the TDC to estimate the fractional phase error between the low-rate reference and high-rate oscillator clocks. Applying the retimed reference clocks does not only reduce a dynamic power in its delay chain, but simplify a fractional phase-error correction. The phase-error compensator is introduced to avoid big phase-error downfalls caused by large output glitches originating from a high-speed accumulator. In addition, a loop-settling monitor is invented to allow the DCO operation mode to be shifted seamlessly and fast. By consuming 9.6 mW, the ADPLL achieves -97 dBc in-band phase noise, - 38 dBc/Hz integrated noise, and 740 ns settling time.
Keywords :
clocks; digital phase locked loops; low-power electronics; microwave circuits; oscillators; time-digital conversion; ADPLL; all digital PLL; big phase-error downfalls; frequency 4 GHz; high-rate oscillator clocks; high-speed accumulator; in-band phase noise; integrated noise; loop settling monitor; loop-settling monitor; low-power time-to-digital converter; low-rate retimed reference clocks; nCKR; pCKR; phase-error compensation; power 9.6 mW; time 740 ns; Clocks; Delay; Inverters; Monitoring; Oscillators; Phase locked loops; Time frequency analysis; ADPLL; DCO; TDC; loop-settling monitor; metastability; phase noise; phase-error compensator; settling time;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2012.2206500
