Applied Sciences (Nov 2022)

A Single-Bit Incremental Second-Order Delta-Sigma Modulator with Coarse-Fine Input Buffer

  • Mookyoung Yoo,
  • Kyeongsik Nam,
  • Gyuri Choi,
  • Sanggyun Kang,
  • Byeongkwan Jin,
  • Hyeoktae Son,
  • Kyounghwan Kim,
  • Hyoungho Ko

DOI
https://doi.org/10.3390/app122211651
Journal volume & issue
Vol. 12, no. 22
p. 11651

Abstract

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This paper presents an incremental second-order delta-sigma modulator with a coarse-fine input buffer in 180-nm CMOS. The modulator’s architecture was implemented as a second-order cascade of integrators with a feedback structure. The switched-capacitor integrator was operated in discrete time, with high-gain amplifiers required to achieve improved performance during the integration phase. The amplifier comprised rail-to-rail input and gain-boosted cascode intermediate stages, thus achieving a high gain and wide input voltage range. The circuit adopts a coarse-fine buffer for higher performance. The coarse buffer is operated first to enable fast settling through a high slew rate, followed by the fine buffer to satisfy the low-noise and high-accuracy characteristics. The fine buffer has a smaller current consumption with higher power efficiency. The experiment results show that the proposed input buffer achieved a 13.14 effective number of bits and an 80.87 dB signal-to-noise and distortion ratio. The modulator operates a single bit and sampling clock at 125 kHz. The proposed delta-sigma modulator was operated at 1.8 V. The proposed circuit was designed using a standard 0.18-μm CMOS process with an active area of 1.06 mm2. The total current consumption with the coarse-fine buffer was 1.374 mA.

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