Low-Phase-Noise High-Efficiency Power Oscillator with Digitally Controlled Output Power

Abstract

This letter proposes a low-phase-noise high-efficiency power oscillator with digitally controlled output power and frequency. The transformer-based matching network resonator is implemented to balance the quality factor and matching efficiency. The active core and the transformer are jointly optimized to achieve the required output power while achieving the low phase noise and high power efficiency. Besides, the digitally controlled cross-coupled pair array is utilized to tune the output power. To verify the mechanism mentioned above, the power oscillator is fabricated using conventional 40-nm CMOS technology with an active area of 0.19 mm2. The proposed power oscillator exhibits a 21.7% tuning range from 2.30 to 2.86 GHz. The maximum output power is 4.5 dBm with a peak system efficiency of 25.1%. Meanwhile, the measured phase noise at a 3-MHz offset is -140.36 dBc/Hz at 2.79 GHz. The corresponding figure of merit (FoM) is 189.2 dBc/Hz, and FoMT is 196 dBc/Hz.