A fast lock frequency synthesizer using an improved adaptive frequency calibration

Abstract

An improved adaptive frequency calibration (AFC) has been employed to implement a fast lock phase-locked loop based frequency synthesizer in a 0.18 μm CMOS process. The AFC can work in two modes: the frequency calibration mode and the store/load mode. In the frequency calibration mode, a novel frequency-detector is used to reduce the frequency calibration time to 16 μs typically. In the store/load mode, the AFC makes the voltage-controlled oscillator (VCO) return to the calibrated frequency in about 1 μs by loading the calibration result stored after the frequency calibration. The experimental results show that the VCO tuning frequency range is about 620–920 MHz and the in-band phase noise within the loop bandwidth of 10 kHz is −82 dBc/Hz. The lock time is about 20 μs in frequency calibration mode and about 5 μs in store/load mode. The synthesizer consumes 12 mA from a single 1.8 V supply voltage when steady.