A 1-v 4.6-mw/channel fully differential neural recording front-end ic with current-controlled pseudoresistor in 0.18-mm cmos

Taeju Lee, Soonyoung Hong, Chongsoo Jung, Junghyup Lee, Minkyu Je

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

This paper presents a fully differential implantable neural recording front-end IC for monitoring neural activities. Each analog front-end (AFE) consists of a low-noise amplifier (LNA), a variable gain amplifier (VGA), and a buffer. The output signal of the AFE is digitized through a successive approximation register analog-to-digital converter (SAR ADC). The LNA adopts the current-reuse technique to improve the current efficiency, achieving the power consumption as low as 0.95 mW. The implemented LNA has the gain of 40 dB, the low-pass cutoff frequency of 10 kHz, and the high-pass cutoff frequency of sub-1 Hz which is realized using the current-controlled pseudoresistor. The VGA controls the gain from 21.9 dB to 33.9 dB for efficient digitization while consuming the power of 0.35 mW. The buffer drives the capacitive DAC of the ADC and consumes the power of 3.28 mW. The fabricated AFE occupies the area of 0.11 mm 2 /Channel and consumes 4.6 mW/Channel under 1-V supply voltage. Each channel achieves the input-referred noise of 2.88 mV rms , the NEF of 2.38, and the NEF 2 V DD of 5.67. The front-end IC is implemented in a standard 1P6M 0.18-mm CMOS process.

Original languageEnglish
Pages (from-to)30-41
Number of pages12
JournalJournal of Semiconductor Technology and Science
Volume19
Issue number1
DOIs
StatePublished - Feb 2019

Bibliographical note

Publisher Copyright:
© 2019, Institute of Electronics Engineers of Korea. All rights reserved.

Keywords

  • Biomedical device
  • Current-controlled pseudoresistor
  • Current-reuse
  • Fully differential front-end
  • Low-noise amplifier
  • Low-power
  • Neural recording
  • Noise efficiency factor

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