Analysis and design of a new low‐phase noise and Gm‐enhanced class‐C quadrature VCO

Abstract

This study presents a new low-power and low-phase noise Colpitts quadrature voltage-controlled oscillator (QVCO). The proposed QVCO contains two differential Colpitts voltage-controlled oscillators (VCOs) that use gain-boosting technique to enhance the negative transconductance and relax start-up condition. Both switching and tail transistors are configured in class-C to improve impulse sensitivity function and phase noise performance of the circuit via better noise modulation function. In addition, flicker noise would be reduced because of the switched-biasing mechanism of tail transistors. Phase noise analysis shows that changing the bias voltage of switching as well as tail transistors can improve the phase noise performance of the core VCO with overlap reduction of the transistors active time. Consequently, due to no extra noisy elements for coupling and class-C biasing of all transistors, low-phase noise quadrature signals are generated. To verify the performance of the proposed technique, post-layout simulation is performed in Taiwan Semiconductor Manufacturing Company (TSMC) of 0.18 μm Radio Frequency-Complementary Metal-Oxide- Semiconductor (RF-CMOS) process at a supply voltage of 1.2 V. Post-layout simulation results show that the phase noise of the proposed QVCO is −120.6 dBc/Hz at 1 MHz offset from 5.73 GHz operation frequency. The total power consumption of the QVCO is 3.1 mW and the tuning range is from 5 to 5.73 GHz.