Design of FinFET based All-Digital DLL for multiphase clock generation

The use of delay locked loops (DLLs) for clock recovery is currently receiving an increased interest. Among the DLL types, the All-digital DLL is superior due to its tolerance towards power supply noise and PVT variations besides providing lesser locking time and technology portability. In this paper, All-Digital DLL based on register controlled delay line (RCDL) is designed for multi-phase clock generation using 30nm FinFET Technology. The RCDL consists of series of delay blocks which are in turn made up of FinFET inverters in series. The phase-delayed signal from the delay blocks is tapped using an AND gate and given to phase detector. According to the detected phase difference, the DLL adjusts the tap using a bidirectional shift register and locks the output signal with the reference clock. The circuit simulations of this work, are carried out by integrating the BSIM-CMG Verilog-A Model in Cadence Virtuoso EDA tool. The type of the device used is tri-gate FinFET and all the gates are connected to the same bias. The implemented DLL circuit exhibits fast locking in 9 clock cycles while operating at a frequency of 5GHz. Four accurate phases of reference clock are generated at a power consumption of 985 nW.