A four-phase all-digital delay-locked loop (ADDLL) with a de-skew circuit for NAND Flash high-speed interfaces is proposed. The proposed de-skew circuit adopts a fall-edge-judgment phase adjuster and a three-stage digitally controlled delay line to align the system input clock and 0∘ output clock of the four-phase DLL over a wide frequency range, thus solving the four-phase offset caused by clock skew. A parallel-cascade configuration is proposed to solve the variable phase alignment problem caused by mode switching, thus effectively improving the phase-locked accuracy. The proposed circuit is fabricated in the 0.13 μm CMOS process with a 0.072 mm2 core area. The chip testing results show an operating frequency range from 26 MHz to 1.55 GHz and a typical alignment error of approximately 17 ps.
This paper proposes a small‐area and low‐power all‐digital duty cycle corrector with de‐skew circuit. By adopting the proposed delay unit containing a pre‐charge transistor, half cycle delay line can accurately generate half‐cycle delay, thus ensuring that the circuit can achieve duty cycle correction with small area and low power. To achieve high‐precision clock synchronization, the proposed de‐skew circuit utilizes a high‐resolution two‐stage digital control delay line to eliminate the additional clock skew between the input clock and output clock of the circuit. The test chip is fabricated in 130 nm CMOS process and the area only occupies 0.009 mm2. The chip testing results show that duty cycle correction error is within 3.2% and phase error is less than 16 ps when input duty cycle from 20% to 80% at the frequency range from 380 MHz to 1.25 GHz. And the proposed circuit only consumes 3 mW when supply voltage is 1.2 V and clock frequency is 1 GHz.
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