Bang-bang phase-locked loops (BBPLLs) are hard nonlinear systems due to the nonlinearity introduced by the binary phase detector (BPD). In the presence of jitter, the nonlinear loop is typically analyzed by linearizing the ...
Recently, several digital phase-locked loops (DPLLs) have been demonstrated to achieve the jitter performance of traditional
charge-pump-based analog PLLs. This paper is concerned with a class of DPLLs employing a ...
Frequency granularity in a digital phase-locked loop arises from quantization in the number-controlled oscillator which prevents
the loop from locking exactly onto its reference signal and introduces unwanted phase jitter. ...
Bang-bang phase-locked loops (BBPLLs) are a class of PLLs with a binary-quantized phase detector (BPD). They are widely used in clock and data recovery circuits and have
recently been implemented as digital BBPLLs for ...
Bang-bang phase-locked loops (BBPLLs) are inherently nonlinear systems due to the binary phase detector (BPD). While they are typically used for clock and data recovery, the ongoing trend toward digital loop implementations ...
Inherent to digital phase-locked loops is frequency quantization in the number-controlled oscillator which prevents the loop from locking exactly onto its reference signal and introduces unwanted phase jitter. This paper ...
Bang-bang phase-locked loops (BBPLLs) are inherently nonlinear due to the hard nonlinearity introduced by the binary phase detector (BPD). This paper provides an exact
statistical analysis of the steady-state timing jitter ...
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