Fully Digital Feedforward Background Calibration of Clock Skews for Sub-Sampling TIADCs Using the Polyphase Decomposition

Han Le Duc; Duc Minh Nguyen; Chadi Jabbour; Patricia Desgreys; Olivier Jamin; Van Tam Nguyen

doi:10.1109/TCSI.2016.2645978

Fully Digital Feedforward Background Calibration of Clock Skews for Sub-Sampling TIADCs Using the Polyphase Decomposition

Han Le Duc, Duc Minh Nguyen, Chadi Jabbour, Patricia Desgreys, Olivier Jamin, Van Tam Nguyen

Research output: Contribution to journal › Article › peer-review

Abstract

This paper presents a low-power fully digital clock skew feedforward background calibration technique in sub-sampling Time-Interleaved Analog-to-Digital Converters (TIADCs). Both estimation and correction algorithms share the common derivative filter, which makes them possible to reduce the chip area. Furthermore, these algorithms use the polyphase filtering technique and do not use adaptive digital synthesis filters. Thus, the proposed calibration can be implemented on a moderate hardware cost with low power dissipation. The adopted feedforward technology eliminates the stability issues encountered with the adaptive technique. The Hardware Description Language (HDL) design of the proposed calibration is synthesized using a 28nm FD-SOI process for a 60dB SNR TIADC clocked at 2.7GHz. The calibration is designed for both baseband and sub-sampling TIADC applications. For sub-sampling TIADCs with the input at the first four Nyquist bands, the synthesized calibration system occupies 0.04mm² of area and dissipates a total power of 33.2mW. For the baseband TIADC applications, it occupies 0.02mm² and consumes 15.5mW.

Original language	English
Article number	7815378
Pages (from-to)	1515-1528
Number of pages	14
Journal	IEEE Transactions on Circuits and Systems I: Regular Papers
Volume	64
Issue number	6
DOIs	https://doi.org/10.1109/TCSI.2016.2645978
Publication status	Published - 1 Jun 2017
Externally published	Yes

Keywords

All-digital feedforward calibration
FPGA/ASIC implementation
polyphase filtering
subsampling and undersampling TIADCs

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10.1109/TCSI.2016.2645978

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title = "Fully Digital Feedforward Background Calibration of Clock Skews for Sub-Sampling TIADCs Using the Polyphase Decomposition",

abstract = "This paper presents a low-power fully digital clock skew feedforward background calibration technique in sub-sampling Time-Interleaved Analog-to-Digital Converters (TIADCs). Both estimation and correction algorithms share the common derivative filter, which makes them possible to reduce the chip area. Furthermore, these algorithms use the polyphase filtering technique and do not use adaptive digital synthesis filters. Thus, the proposed calibration can be implemented on a moderate hardware cost with low power dissipation. The adopted feedforward technology eliminates the stability issues encountered with the adaptive technique. The Hardware Description Language (HDL) design of the proposed calibration is synthesized using a 28nm FD-SOI process for a 60dB SNR TIADC clocked at 2.7GHz. The calibration is designed for both baseband and sub-sampling TIADC applications. For sub-sampling TIADCs with the input at the first four Nyquist bands, the synthesized calibration system occupies 0.04mm2 of area and dissipates a total power of 33.2mW. For the baseband TIADC applications, it occupies 0.02mm2 and consumes 15.5mW.",

keywords = "All-digital feedforward calibration, FPGA/ASIC implementation, polyphase filtering, subsampling and undersampling TIADCs",

author = "\{Le Duc\}, Han and Nguyen, \{Duc Minh\} and Chadi Jabbour and Patricia Desgreys and Olivier Jamin and Nguyen, \{Van Tam\}",

note = "Publisher Copyright: {\textcopyright} 2017 IEEE.",

year = "2017",

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doi = "10.1109/TCSI.2016.2645978",

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AU - Le Duc, Han

AU - Nguyen, Duc Minh

AU - Jabbour, Chadi

AU - Desgreys, Patricia

AU - Jamin, Olivier

AU - Nguyen, Van Tam

PY - 2017/6/1

Y1 - 2017/6/1

N2 - This paper presents a low-power fully digital clock skew feedforward background calibration technique in sub-sampling Time-Interleaved Analog-to-Digital Converters (TIADCs). Both estimation and correction algorithms share the common derivative filter, which makes them possible to reduce the chip area. Furthermore, these algorithms use the polyphase filtering technique and do not use adaptive digital synthesis filters. Thus, the proposed calibration can be implemented on a moderate hardware cost with low power dissipation. The adopted feedforward technology eliminates the stability issues encountered with the adaptive technique. The Hardware Description Language (HDL) design of the proposed calibration is synthesized using a 28nm FD-SOI process for a 60dB SNR TIADC clocked at 2.7GHz. The calibration is designed for both baseband and sub-sampling TIADC applications. For sub-sampling TIADCs with the input at the first four Nyquist bands, the synthesized calibration system occupies 0.04mm2 of area and dissipates a total power of 33.2mW. For the baseband TIADC applications, it occupies 0.02mm2 and consumes 15.5mW.

AB - This paper presents a low-power fully digital clock skew feedforward background calibration technique in sub-sampling Time-Interleaved Analog-to-Digital Converters (TIADCs). Both estimation and correction algorithms share the common derivative filter, which makes them possible to reduce the chip area. Furthermore, these algorithms use the polyphase filtering technique and do not use adaptive digital synthesis filters. Thus, the proposed calibration can be implemented on a moderate hardware cost with low power dissipation. The adopted feedforward technology eliminates the stability issues encountered with the adaptive technique. The Hardware Description Language (HDL) design of the proposed calibration is synthesized using a 28nm FD-SOI process for a 60dB SNR TIADC clocked at 2.7GHz. The calibration is designed for both baseband and sub-sampling TIADC applications. For sub-sampling TIADCs with the input at the first four Nyquist bands, the synthesized calibration system occupies 0.04mm2 of area and dissipates a total power of 33.2mW. For the baseband TIADC applications, it occupies 0.02mm2 and consumes 15.5mW.

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KW - subsampling and undersampling TIADCs

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JO - IEEE Transactions on Circuits and Systems I: Regular Papers

JF - IEEE Transactions on Circuits and Systems I: Regular Papers

IS - 6

M1 - 7815378

ER -

Fully Digital Feedforward Background Calibration of Clock Skews for Sub-Sampling TIADCs Using the Polyphase Decomposition

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Keywords

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