Process variation tolerant all-digital multiphase DLL for DDR3 interface

H. C. Kang; K. H. Ryu; D. H. Lee; W. Lee; S. H. Kim; J. R. Choi; S. O. Jung

doi:10.1109/CICC.2010.5617474

Process variation tolerant all-digital multiphase DLL for DDR3 interface

H. C. Kang, K. H. Ryu, D. H. Lee, W. Lee, S. H. Kim, J. R. Choi, S. O. Jung

Department of Electrical and Electronic Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

10 Citations (Scopus)

Abstract

An all-digital multiphase DLL is presented that is robust to delay mismatch due to process variation. Each of four 90° phase shift blocks accurately align each phase to 90° delay using its own ring oscillator and locking delay code. Harmonic locking is protected by a ring oscillator and a counter. An area efficient binary to thermometer converter is proposed to diminish the area overhead due to four delay line controllers. An edge combiner is used for duty cycle correction and clock 2x multiplications. The measured large locking delay code difference between four 90° phase shift delay lines in the proposed DLL implemented in 45nm CMOS process, which corresponds to ±31ps at 800MHz, proves that the DLL corrects significant phase error caused by delay mismatch. Phase shift accuracy errors at 90° and 270° phases are 0.43° and 1.01°, respectively, and output frequency is 1.6GHz with 50% duty cycle at 800MHz. Power consumption is 3.3mW at 800MHz.

Original language	English
Title of host publication	IEEE Custom Integrated Circuits Conference 2010, CICC 2010
DOIs	https://doi.org/10.1109/CICC.2010.5617474
Publication status	Published - 2010
Event	32nd Annual Custom Integrated Circuits Conference - The Showcase for Circuit Design in the Heart of Silicon Valley, CICC 2010 - San Jose, CA, United States Duration: 2010 Sept 19 → 2010 Sept 22

Publication series

Name	Proceedings of the Custom Integrated Circuits Conference
ISSN (Print)	0886-5930

Other

Other	32nd Annual Custom Integrated Circuits Conference - The Showcase for Circuit Design in the Heart of Silicon Valley, CICC 2010
Country/Territory	United States
City	San Jose, CA
Period	10/9/19 → 10/9/22

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

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10.1109/CICC.2010.5617474

Cite this

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title = "Process variation tolerant all-digital multiphase DLL for DDR3 interface",

abstract = "An all-digital multiphase DLL is presented that is robust to delay mismatch due to process variation. Each of four 90° phase shift blocks accurately align each phase to 90° delay using its own ring oscillator and locking delay code. Harmonic locking is protected by a ring oscillator and a counter. An area efficient binary to thermometer converter is proposed to diminish the area overhead due to four delay line controllers. An edge combiner is used for duty cycle correction and clock 2x multiplications. The measured large locking delay code difference between four 90° phase shift delay lines in the proposed DLL implemented in 45nm CMOS process, which corresponds to ±31ps at 800MHz, proves that the DLL corrects significant phase error caused by delay mismatch. Phase shift accuracy errors at 90° and 270° phases are 0.43° and 1.01°, respectively, and output frequency is 1.6GHz with 50% duty cycle at 800MHz. Power consumption is 3.3mW at 800MHz.",

author = "Kang, {H. C.} and Ryu, {K. H.} and Lee, {D. H.} and W. Lee and Kim, {S. H.} and Choi, {J. R.} and Jung, {S. O.}",

year = "2010",

doi = "10.1109/CICC.2010.5617474",

language = "English",

isbn = "9781424457588",

series = "Proceedings of the Custom Integrated Circuits Conference",

booktitle = "IEEE Custom Integrated Circuits Conference 2010, CICC 2010",

note = "32nd Annual Custom Integrated Circuits Conference - The Showcase for Circuit Design in the Heart of Silicon Valley, CICC 2010 ; Conference date: 19-09-2010 Through 22-09-2010",

}

Kang, HC, Ryu, KH, Lee, DH, Lee, W, Kim, SH, Choi, JR & Jung, SO 2010, Process variation tolerant all-digital multiphase DLL for DDR3 interface. in IEEE Custom Integrated Circuits Conference 2010, CICC 2010., 5617474, Proceedings of the Custom Integrated Circuits Conference, 32nd Annual Custom Integrated Circuits Conference - The Showcase for Circuit Design in the Heart of Silicon Valley, CICC 2010, San Jose, CA, United States, 10/9/19. https://doi.org/10.1109/CICC.2010.5617474

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T1 - Process variation tolerant all-digital multiphase DLL for DDR3 interface

AU - Kang, H. C.

AU - Ryu, K. H.

AU - Lee, D. H.

AU - Lee, W.

AU - Kim, S. H.

AU - Choi, J. R.

AU - Jung, S. O.

PY - 2010

Y1 - 2010

N2 - An all-digital multiphase DLL is presented that is robust to delay mismatch due to process variation. Each of four 90° phase shift blocks accurately align each phase to 90° delay using its own ring oscillator and locking delay code. Harmonic locking is protected by a ring oscillator and a counter. An area efficient binary to thermometer converter is proposed to diminish the area overhead due to four delay line controllers. An edge combiner is used for duty cycle correction and clock 2x multiplications. The measured large locking delay code difference between four 90° phase shift delay lines in the proposed DLL implemented in 45nm CMOS process, which corresponds to ±31ps at 800MHz, proves that the DLL corrects significant phase error caused by delay mismatch. Phase shift accuracy errors at 90° and 270° phases are 0.43° and 1.01°, respectively, and output frequency is 1.6GHz with 50% duty cycle at 800MHz. Power consumption is 3.3mW at 800MHz.

AB - An all-digital multiphase DLL is presented that is robust to delay mismatch due to process variation. Each of four 90° phase shift blocks accurately align each phase to 90° delay using its own ring oscillator and locking delay code. Harmonic locking is protected by a ring oscillator and a counter. An area efficient binary to thermometer converter is proposed to diminish the area overhead due to four delay line controllers. An edge combiner is used for duty cycle correction and clock 2x multiplications. The measured large locking delay code difference between four 90° phase shift delay lines in the proposed DLL implemented in 45nm CMOS process, which corresponds to ±31ps at 800MHz, proves that the DLL corrects significant phase error caused by delay mismatch. Phase shift accuracy errors at 90° and 270° phases are 0.43° and 1.01°, respectively, and output frequency is 1.6GHz with 50% duty cycle at 800MHz. Power consumption is 3.3mW at 800MHz.

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Y2 - 19 September 2010 through 22 September 2010

ER -

Process variation tolerant all-digital multiphase DLL for DDR3 interface

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