A mixed-mode delay-locked loop for widerange operation and multiphase outputs

Kuo Hsing Cheng; Yu Lung Lo; Wen Fang Yu

A mixed-mode delay-locked loop for widerange operation and multiphase outputs

Kuo Hsing Cheng, Yu Lung Lo, Wen Fang Yu

Department of Electrical Engineering

Research output: Contribution to journal › Conference article › peer-review

10 Scopus citations

Abstract

This paper describes a mixed-mode delay-locked loop (DLL) for wide-range operation and multiphase outputs with just one clock cycle, The architecture of the proposed DLL uses the time-todigital converter (TDC) scheme for phase range selector to offer the faster locking time, and the multi-controlled delay cell for voltage-controlled delay line (VCDL) to provide the wide locked range and the low-jitter performance. The proposed DLL can solve the problem of false locking associated with conventional DLLs. The HSPICE simulation results are based upon TSMC 0.35nm 1P4M N-well CMOS process with a 3.3V power supply voltage. The simulation results show that the proposed DLL can operate from 62.5 to 312.5 MHz. Moreover, the total time delay from all delay stages is precisely one period of the input reference signal, and that can generate equally spaced ten-phase clocks.

Original language	English
Pages (from-to)	II196-II199
Journal	Proceedings - IEEE International Symposium on Circuits and Systems
Volume	2
State	Published - 2003
Event	Proceedings of the 2003 IEEE International Symposium on Circuits and Systems - Bangkok, Thailand Duration: 25 May 2003 → 28 May 2003

Cite this

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abstract = "This paper describes a mixed-mode delay-locked loop (DLL) for wide-range operation and multiphase outputs with just one clock cycle, The architecture of the proposed DLL uses the time-todigital converter (TDC) scheme for phase range selector to offer the faster locking time, and the multi-controlled delay cell for voltage-controlled delay line (VCDL) to provide the wide locked range and the low-jitter performance. The proposed DLL can solve the problem of false locking associated with conventional DLLs. The HSPICE simulation results are based upon TSMC 0.35nm 1P4M N-well CMOS process with a 3.3V power supply voltage. The simulation results show that the proposed DLL can operate from 62.5 to 312.5 MHz. Moreover, the total time delay from all delay stages is precisely one period of the input reference signal, and that can generate equally spaced ten-phase clocks.",

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AU - Lo, Yu Lung

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AB - This paper describes a mixed-mode delay-locked loop (DLL) for wide-range operation and multiphase outputs with just one clock cycle, The architecture of the proposed DLL uses the time-todigital converter (TDC) scheme for phase range selector to offer the faster locking time, and the multi-controlled delay cell for voltage-controlled delay line (VCDL) to provide the wide locked range and the low-jitter performance. The proposed DLL can solve the problem of false locking associated with conventional DLLs. The HSPICE simulation results are based upon TSMC 0.35nm 1P4M N-well CMOS process with a 3.3V power supply voltage. The simulation results show that the proposed DLL can operate from 62.5 to 312.5 MHz. Moreover, the total time delay from all delay stages is precisely one period of the input reference signal, and that can generate equally spaced ten-phase clocks.

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A mixed-mode delay-locked loop for widerange operation and multiphase outputs

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