Yung-Chung Lo scite author profile

A phase shift technique using capacitive source degeneration (CSD) is presented for LC quadrature voltage-controlled oscillators (QVCO), where capacitively degenerated differential pairs are used to couple the LC tanks to implement a phase-shifted transconductance and negative input resistance to compensate resonator losses, and to minimize the flicker noise contributions. The CSD technique not only introduces excess phase shift to eliminate undesired bi-modal oscillation, but inherently provides a large coupling ratio to improve quadrature phase accuracy. Compared to existing phase-shift LC-QVCOs, the proposed CSD-QVCO presents excellent phase accuracy and power efficiency. A prototype of the QVCO was fabricated in TSMC 0.18-m CMOS technology. The measured phase noise is 120 dBc/Hz at 3-MHz offset from 5-GHz carrier, with a power consumption of 6.4 mW from a 1.2-V supply.Index Terms-Bi-modal oscillation, phase noise, phase shift, quadrature VCO, voltage-controlled oscillator (VCO).

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A 25 MHz Bandwidth 5th-Order Continuous-Time Low-Pass Sigma-Delta Modulator With 67.7 dB SNDR Using Time-Domain Quantization and Feedback

Onabajo

Gadde

et al. 2010

IEEE J. Solid-State Circuits

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Yung-Chung Lo

A Self-Sustained CMOS Microwave Chemical Sensor Using a Frequency Synthesizer

A 5-GHz CMOS LC Quadrature VCO With Dynamic Current-Clipping Coupling to Improve Phase Noise and Phase Accuracy

An LC Quadrature VCO Using Capacitive Source Degeneration Coupling to Eliminate Bi-Modal Oscillation

A 25 MHz Bandwidth 5th-Order Continuous-Time Low-Pass Sigma-Delta Modulator With 67.7 dB SNDR Using Time-Domain Quantization and Feedback

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