Documents

  • 08486740

    Accepted author manuscript, 5 MB, PDF-document

DOI

In this paper, we propose a method to suppress supply pushing of an LC oscillator such that it may directly operate from a switched-mode dc-dc converter generating fairly large ripples. A ripple replication block (RRB) generates an amplified ripple replica at the gate terminal of the tail current source to stabilize the oscillator's tail current and thus its oscillating amplitude. The parasitic capacitance of the active devices and correspondingly the oscillation frequency are stabilized in turn. A calibration loop is also integrated on-chip to automatically set the optimum replication gain that minimizes the variation of the oscillation amplitude. A 4.9-5.6-GHz oscillator is realized in 40-nm CMOS and occupies 0.23 mm² while consuming 0.8-1.3 mW across the tuning range (TR). The supply pushing is improved to <1 MHz/V resulting in a low <-49-dBc spur due to 0.5-12-MHz sinusoidal supply ripples as large as 50 mVpp. We experimentally verify the effectiveness of the proposed technique also in face of saw-tooth, multi-tone, and modulated supply ripples.

Original languageEnglish
Article number8486740
Pages (from-to)240-252
Number of pages13
JournalIEEE Journal of Solid-State Circuits
Volume54
Issue number1
DOIs
Publication statusPublished - 2019

    Research areas

  • Common-mode resonance, current-biased oscillator, dc-dc converter, digitally controlled oscillator (DCO), foreground calibration, Frequency conversion, LC oscillator, LC oscillators, power supply rejection (PSR), ripple replication and cancellation, supply pushing, voltage-controlled oscillator (VCO)., ommon-mode resonance, voltage-controlled oscillator (VCO)

ID: 47248848