Journal ArticleDOI
Analysis and Design of a 20-MHz Bandwidth Continuous-Time Delta-Sigma Modulator With Time-Interleaved Virtual-Ground-Switched FIR Feedback
Alok Baluni,Shanthi Pavan +1 more
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TLDR
The design principles and circuit details of a single-bit continuous-time delta-sigma ADC that achieves 13.3-bit resolution over a 20-MHz signal bandwidth are presented and mixed-signal calibration is enabled by the DAC architecture.Abstract:
We present the design principles and circuit details of a single-bit continuous-time delta-sigma ADC that achieves 13.3-bit resolution over a 20-MHz signal bandwidth. The modulator, which operates at a sampling rate of 2.56 GHz in a 65-nm CMOS process, uses a 2 $\times $ time-interleaved ADC to address the problem of comparator metastability. A 4 $\times $ time-interleaved virtual-ground-switched resistive FIR feedback DAC is used for low distortion and power-efficient operation. Interleaving artifacts caused by DAC-element mismatch are addressed by mixed-signal calibration, which is enabled by the DAC architecture. The decimator is implemented using poly-phase techniques. A prototype modulator, which operates with a 1.1-V supply, achieves 82.1-dB peak SNDR and THD of 98.6 dBc while consuming 11.3 mW. The resulting Schreier FoM is 174.1 dB. The decimator dissipates 13.5 mW.read more
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Journal ArticleDOI
A 0.9-V DAC-Calibration-Free Continuous-Time Incremental Delta–Sigma Modulator Achieving 97-dB SFDR at 2 MS/s in 28-nm CMOS
Mohamed A. Mokhtar,Ahmed Abdelaal,Markus Sporer,Joachim Becker,John Gabriel Kauffman,Maurits Ortmanns +5 more
TL;DR: In this article , a 3-0 sturdy-multi-stage noise-shaping (SMASH) continuous-time (CT) incremental delta-sigma analog-to-digital converter (ADC) is presented.
Journal ArticleDOI
A 3.7-mW 12.5-MHz 81-dB SNDR 4th-Order Continuous-Time DSM With Single-OTA and 2nd-Order Noise-Shaping SAR
TL;DR: In this paper , a hybrid 4th-order delta-sigma modulator (DSM) was proposed, which combines a continuous-time (CT) loop filter and a DT passive 2nd-order noise-shaping SAR (NSSAR).
Journal ArticleDOI
Design of High-Resolution Continuous-Time Delta–Sigma Data Converters With Dual Return-to-Open DACs
TL;DR: The zapped, virtual-ground-switched dual return-to-open DAC which is immune to ISI and other transition-dependent errors is introduced and FIR feedback facilitates chopping, improves clock-jitter sensitivity and the loop filter’s linearity.
Proceedings ArticleDOI
Complexity Reduced LUT-Based DAC Correction in Continuous-Time Delta-Sigma Modulators
TL;DR: In this article , a modified Look-Up-Table (LUT) based DAC foreground calibration for multi-bit continuous-time Delta-Sigma modulators is presented, which reduces the correction complexity while maintaining the same performance as current state-of-the-art solutions towards static and dynamic errors.
Journal ArticleDOI
A 10-MHz 85.1-dB SFDR 1.1-mW continuous-time Delta-sigma modulator employing calibration-free SC DAC and passive front-end low-pass filter
Wei Jin,Kong-Pang Pun +1 more
TL;DR: In this paper , the authors demonstrate the circuit technique of a highly power-efficient continuous-time (CT) Delta-sigma modulator (DSM) based on a switched-capacitor (SC) feedback digital-to-analog converter (DAC) and a passive front-end low-pass filter (LPF).
References
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Proceedings ArticleDOI
A 5.35 mW 10 MHz bandwidth CT third-order ΔΣ modulator with single Opamp achieving 79.6/84.5 dB SNDR/DR in 65 nm CMOS
TL;DR: A power-efficient single-loop continuous-time third-order sigma delta (ΔΣ) modulator that achieves a SNDR of 79.6 dB over a 10 MHz signal bandwidth and an adaptive latch in the DAC driver to alleviate the switch driver mismatch and jitter is presented.
Journal ArticleDOI
Characterization Techniques for High Speed Oversampled Data Converters
Ankesh Jain,Shanthi Pavan +1 more
TL;DR: It is shown that using a duobinary test interface to extend the frequency range over which reliable laboratory measurements become possible effectively randomizes the modulator output data and reduces high frequency content, thereby reducing the bandwidth demands made on the test equipment.
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