A CT 2-2 MASH ΔΣ ADC With Multi-Rate LMS-Based Background Calibration and Input-Insensitive Quantization-Error Extraction

This article presents a continuous-time (CT) multistage noise-shaping (MASH) delta-sigma (<inline-formula> <tex-math notation="LaTeX">\Delta \Sigma </tex-math></inline-formula>) analog-to-digital converter (ADC) with enhanced tolerance to temperature and operating-f...

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Published in	IEEE journal of solid-state circuits Vol. 56; no. 10; pp. 2943 - 2955
Main Authors	Fukazawa, Mitsuya, Oshima, Takashi, Fujiwara, Masaki, Tateyama, Katsuki, Ochi, Atsushi, Alsubaie, Raed, Matsui, Tetsuo
Format	Journal Article
Language	English
Published	New York IEEE 01.10.2021 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Algorithms Analog to digital conversion Analog to digital converters Analog-to-digital converter (ADC) background calibration Calibration cascades CMOS continuous time (CT) Delays delta–sigma (ΔΣ) Distortion Errors Figure of merit Finite impulse response filters Frequency variation Inspection least mean square (LMS) Measurement Modulation multi-rate (MR) Multi-stage noise shaping multistage noise-shaping (MASH) Noise Noise levels Pseudorandom quantizer delay Transfer functions
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ISSN	0018-9200 1558-173X
DOI	10.1109/JSSC.2021.3082943

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Abstract	This article presents a continuous-time (CT) multistage noise-shaping (MASH) delta-sigma (<inline-formula> <tex-math notation="LaTeX">\Delta \Sigma </tex-math></inline-formula>) analog-to-digital converter (ADC) with enhanced tolerance to temperature and operating-frequency variations through on-chip multi-rate (MR) background calibration based on the least-mean-square (LMS) algorithm. The proposed digital calibration, which combines MR operation, post-conditioners, and pseudorandom-noise injection at the quantizer input, efficiently and accurately matches digital transfer functions to the corresponding analog ones for cancellation of quantization error. The first modulator in the proposed MASH ADC considers sufficient quantizer delay and reduces input-signal leakage into the second modulator to enable successful quantization-error transmission while minimizing distortion in the second stage, which cannot be tolerated in the case of calibrated digital noise-cancellation filter. A CT 2-2 MASH <inline-formula> <tex-math notation="LaTeX">\Delta \Sigma </tex-math></inline-formula> ADC prototype fabricated in 40-nm CMOS achieves the dynamic range (DR) of 79 dB and the signal-to-noise and distortion ratio (SNDR) of 78.5 dB over an 8-MHz bandwidth with 7.3-mW analog power and 16-mW digital power, reaching Schreier figure of merit (FoMs) of 168.9 dB, and demonstrates conversion-accuracy robustness within 1-dB SNDR fluctuation for temperature variations from −40° to 125° and within 2-dB SNDR degradation for frequency variations of 20% range.
AbstractList	This article presents a continuous-time (CT) multistage noise-shaping (MASH) delta–sigma ([Formula Omitted]) analog-to-digital converter (ADC) with enhanced tolerance to temperature and operating-frequency variations through on-chip multi-rate (MR) background calibration based on the least-mean-square (LMS) algorithm. The proposed digital calibration, which combines MR operation, post-conditioners, and pseudorandom-noise injection at the quantizer input, efficiently and accurately matches digital transfer functions to the corresponding analog ones for cancellation of quantization error. The first modulator in the proposed MASH ADC considers sufficient quantizer delay and reduces input-signal leakage into the second modulator to enable successful quantization-error transmission while minimizing distortion in the second stage, which cannot be tolerated in the case of calibrated digital noise-cancellation filter. A CT 2–2 MASH [Formula Omitted] ADC prototype fabricated in 40-nm CMOS achieves the dynamic range (DR) of 79 dB and the signal-to-noise and distortion ratio (SNDR) of 78.5 dB over an 8-MHz bandwidth with 7.3-mW analog power and 16-mW digital power, reaching Schreier figure of merit (FoMs) of 168.9 dB, and demonstrates conversion-accuracy robustness within 1-dB SNDR fluctuation for temperature variations from −40° to 125° and within 2-dB SNDR degradation for frequency variations of 20% range. This article presents a continuous-time (CT) multistage noise-shaping (MASH) delta-sigma (<inline-formula> <tex-math notation="LaTeX">\Delta \Sigma </tex-math></inline-formula>) analog-to-digital converter (ADC) with enhanced tolerance to temperature and operating-frequency variations through on-chip multi-rate (MR) background calibration based on the least-mean-square (LMS) algorithm. The proposed digital calibration, which combines MR operation, post-conditioners, and pseudorandom-noise injection at the quantizer input, efficiently and accurately matches digital transfer functions to the corresponding analog ones for cancellation of quantization error. The first modulator in the proposed MASH ADC considers sufficient quantizer delay and reduces input-signal leakage into the second modulator to enable successful quantization-error transmission while minimizing distortion in the second stage, which cannot be tolerated in the case of calibrated digital noise-cancellation filter. A CT 2-2 MASH <inline-formula> <tex-math notation="LaTeX">\Delta \Sigma </tex-math></inline-formula> ADC prototype fabricated in 40-nm CMOS achieves the dynamic range (DR) of 79 dB and the signal-to-noise and distortion ratio (SNDR) of 78.5 dB over an 8-MHz bandwidth with 7.3-mW analog power and 16-mW digital power, reaching Schreier figure of merit (FoMs) of 168.9 dB, and demonstrates conversion-accuracy robustness within 1-dB SNDR fluctuation for temperature variations from −40° to 125° and within 2-dB SNDR degradation for frequency variations of 20% range.
Author	Fujiwara, Masaki Ochi, Atsushi Fukazawa, Mitsuya Matsui, Tetsuo Oshima, Takashi Tateyama, Katsuki Alsubaie, Raed
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SubjectTerms	Algorithms Analog to digital conversion Analog to digital converters Analog-to-digital converter (ADC) background calibration Calibration cascades CMOS continuous time (CT) Delays delta–sigma (ΔΣ) Distortion Errors Figure of merit Finite impulse response filters Frequency variation Inspection least mean square (LMS) Measurement Modulation multi-rate (MR) Multi-stage noise shaping multistage noise-shaping (MASH) Noise Noise levels Pseudorandom quantizer delay Transfer functions
Title	A CT 2-2 MASH ΔΣ ADC With Multi-Rate LMS-Based Background Calibration and Input-Insensitive Quantization-Error Extraction
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