Abstract
ABSTRACT This paper presents a newly proposed high-order cascaded phase-locked loop using a type-I phase-locked loop in the second stage. The type-I phase-locked loop includes a gate-diffusion-input-based phase detector and pulse width amplifier that leads to breaking the trade-off between reference spur and locking time. Moreover, a type-I phase-locked loop deploys a pulse width amplifier after a gate-diffusion-input-based phase detector with variable gain to amplify the phase error between the reference clock and the output of the voltage-controlled oscillator. The proposed architecture has been implemented in a 180-nm semiconductor laboratory CMOS technology. The proposed fifth-order cascaded phase-locked loop achieves the reference spur of −77 dBc, while the conventional first-stage charge-pump-based phase-locked loop achieves −59.7 dBc. It measures the 1.2 s settling time, whereas conventional first stage charge-pump-based phase-locked loop measures 2.4 s settling time. The cascaded phase-locked loop operates at 2.4 GHz output frequency, and the simulated phase noise at 1 MHz offset frequency is −105.4 dBc/Hz. It consumes 5.8 mW from a 1.8 V power supply.
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