An 8b 1.0-to-1.25 GS/s Time-Based ADC With Bipolar VTC and Sense Amplifier Latch Interpolated Gated Ring Oscillator TDC

A. Serdar Yonar; Pier Andrea Francese; Matthias Brandli; Marcel Kossel; Mridula Prathapan; Thomas Morf; Andrea Ruffino; Gain Kim; Taekwang Jang

doi:10.1109/LSSC.2023.3293273

An 8b 1.0-to-1.25 GS/s Time-Based ADC With Bipolar VTC and Sense Amplifier Latch Interpolated Gated Ring Oscillator TDC

A. Serdar Yonar
, Pier Andrea Francese
, Matthias Brandli
, Marcel Kossel
, Mridula Prathapan
, Thomas Morf
, Andrea Ruffino
, Gain Kim
, Taekwang Jang

Department of Electrical Engineering and Computer Science

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

5 Scopus citations

Abstract

An 8-bit digital intensive time-based ADC implemented in 5-nm CMOS is presented in this letter. It proposes a bipolar ramp-based voltage-to-time converter (BVTC) to eliminate the reference voltage and to allow a wide input swing of 0.75 Vpp,diff. A redundancy scheme for the input polarity decision taken for 1-bit voltage domain folding is introduced against wrong decisions which eliminates comparator calibration in analog domain and allows a more efficient design. Sense amplifier latch (SAL) interpolation technique is presented which reduces the power and area consumption when phase interpolating the time-to-digital converter (TDC) signals. The ADC reaches 1 GS/s sampling rate with 0.7-V supply and 1.25 GS/s with 0.8-V supply and achieves 16.6 and 20.3 fJ/conv-step Walden FoM, respectively. The total active area is 313μ m2.

Original language	English
Pages (from-to)	193-196
Number of pages	4
Journal	IEEE Solid-State Circuits Letters
Volume	6
DOIs	https://doi.org/10.1109/LSSC.2023.3293273
State	Published - 2023

Bibliographical note

Publisher Copyright:
© 2018 IEEE.

Keywords

Phase interpolation
redundancy
ring oscillator
time-based ADC
time-to-digital converter (TDC)
voltage-to-time converter

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10.1109/LSSC.2023.3293273

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title = "An 8b 1.0-to-1.25 GS/s Time-Based ADC With Bipolar VTC and Sense Amplifier Latch Interpolated Gated Ring Oscillator TDC",

abstract = "An 8-bit digital intensive time-based ADC implemented in 5-nm CMOS is presented in this letter. It proposes a bipolar ramp-based voltage-to-time converter (BVTC) to eliminate the reference voltage and to allow a wide input swing of 0.75 Vpp,diff. A redundancy scheme for the input polarity decision taken for 1-bit voltage domain folding is introduced against wrong decisions which eliminates comparator calibration in analog domain and allows a more efficient design. Sense amplifier latch (SAL) interpolation technique is presented which reduces the power and area consumption when phase interpolating the time-to-digital converter (TDC) signals. The ADC reaches 1 GS/s sampling rate with 0.7-V supply and 1.25 GS/s with 0.8-V supply and achieves 16.6 and 20.3 fJ/conv-step Walden FoM, respectively. The total active area is 313μ m2.",

keywords = "Phase interpolation, redundancy, ring oscillator, time-based ADC, time-to-digital converter (TDC), voltage-to-time converter",

author = "Yonar, \{A. Serdar\} and Francese, \{Pier Andrea\} and Matthias Brandli and Marcel Kossel and Mridula Prathapan and Thomas Morf and Andrea Ruffino and Gain Kim and Taekwang Jang",

note = "Publisher Copyright: {\textcopyright} 2018 IEEE.",

year = "2023",

doi = "10.1109/LSSC.2023.3293273",

language = "English",

volume = "6",

pages = "193--196",

journal = "IEEE Solid-State Circuits Letters",

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T1 - An 8b 1.0-to-1.25 GS/s Time-Based ADC With Bipolar VTC and Sense Amplifier Latch Interpolated Gated Ring Oscillator TDC

AU - Yonar, A. Serdar

AU - Francese, Pier Andrea

AU - Brandli, Matthias

AU - Kossel, Marcel

AU - Prathapan, Mridula

AU - Morf, Thomas

AU - Ruffino, Andrea

AU - Kim, Gain

AU - Jang, Taekwang

PY - 2023

Y1 - 2023

N2 - An 8-bit digital intensive time-based ADC implemented in 5-nm CMOS is presented in this letter. It proposes a bipolar ramp-based voltage-to-time converter (BVTC) to eliminate the reference voltage and to allow a wide input swing of 0.75 Vpp,diff. A redundancy scheme for the input polarity decision taken for 1-bit voltage domain folding is introduced against wrong decisions which eliminates comparator calibration in analog domain and allows a more efficient design. Sense amplifier latch (SAL) interpolation technique is presented which reduces the power and area consumption when phase interpolating the time-to-digital converter (TDC) signals. The ADC reaches 1 GS/s sampling rate with 0.7-V supply and 1.25 GS/s with 0.8-V supply and achieves 16.6 and 20.3 fJ/conv-step Walden FoM, respectively. The total active area is 313μ m2.

AB - An 8-bit digital intensive time-based ADC implemented in 5-nm CMOS is presented in this letter. It proposes a bipolar ramp-based voltage-to-time converter (BVTC) to eliminate the reference voltage and to allow a wide input swing of 0.75 Vpp,diff. A redundancy scheme for the input polarity decision taken for 1-bit voltage domain folding is introduced against wrong decisions which eliminates comparator calibration in analog domain and allows a more efficient design. Sense amplifier latch (SAL) interpolation technique is presented which reduces the power and area consumption when phase interpolating the time-to-digital converter (TDC) signals. The ADC reaches 1 GS/s sampling rate with 0.7-V supply and 1.25 GS/s with 0.8-V supply and achieves 16.6 and 20.3 fJ/conv-step Walden FoM, respectively. The total active area is 313μ m2.

KW - Phase interpolation

KW - redundancy

KW - ring oscillator

KW - time-based ADC

KW - time-to-digital converter (TDC)

KW - voltage-to-time converter

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U2 - 10.1109/LSSC.2023.3293273

DO - 10.1109/LSSC.2023.3293273

M3 - Article

AN - SCOPUS:85164405567

SN - 2573-9603

VL - 6

SP - 193

EP - 196

JO - IEEE Solid-State Circuits Letters

JF - IEEE Solid-State Circuits Letters

ER -

An 8b 1.0-to-1.25 GS/s Time-Based ADC With Bipolar VTC and Sense Amplifier Latch Interpolated Gated Ring Oscillator TDC

Abstract

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Keywords

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