A Resolution Control Loop for TDC-Based Phase Detectors in ADPLLs

Abstract

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This paper proposes a resolution control loop that runs in background to control the time resolution of a mid-rise Time to Digital Converter (TDC) used as a phase detector in All-Digital Phase Locked Loops (ADPLLs). The proposed resolution control loop minimizes the TDC resolution until the TDC linear dynamic range equals the range of the input time error. Consequently, PLL in-band phase noise is reduced due to reduction of the Power Spectral Density (PSD) of the TDC quantization noise. Moreover, the linearity of the TDC transfer function across the range of the input time error is guaranteed. On contrary, the counterpart resolution control loop based on Lloyd-Max algorithm does not guarantee the linearity of the TDC transfer function across the range of the input time error. Furthermore, the proposed resolution control loop achieves TDC quantization noise with a lower variance compared to that achieved by the counterpart resolution control loop when applied with a TDC with more than 3 bits. Finally, the hardware implementation of the proposed resolution control loop is more area and power efficient compared to the implementation of the counterpart resolution control loop.

Keywords

• All-digital phase locked loops (ADPLLs)
• time to digital converter (TDC)
• bang-bang phase detector (BBPD)
• bang-bang phase locked loop (BBPLL)
• digital loop filter (DLF)
• digital controlled oscillator (DCO)