Intan Technologies integrated circuits can produce analog-to-digital conversion artifacts that affect neural signal acquisition

Intan Technologies' integrated circuits (ICs) are valuable tools for neurophysiological data acquisition, providing signal amplification, filtering, and digitization from many channels (up to 64 channels / chip) at high sampling rates (up to 30 kSPS) within a compact package (≤ 9x7 mm). However...

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Bibliographic Details
Published in:Journal of neural engineering 2024-08, Vol.21 (4), p.44001
Main Authors: Barth, Katrina, Schmitz, Cecilia, Jochum, Thomas, Viventi, Jonathan
Format: Article
Language:English
Subjects:
ADC artifacts
amplifier chips
electrophysiology
headstage
high resolution
Intan Technologies
neural interfaces
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Summary:Intan Technologies' integrated circuits (ICs) are valuable tools for neurophysiological data acquisition, providing signal amplification, filtering, and digitization from many channels (up to 64 channels / chip) at high sampling rates (up to 30 kSPS) within a compact package (≤ 9x7 mm). However, we found that the analog-to-digital converters (ADCs) in the Intan RHD2000 series ICs can produce artifacts in recorded signals. Here, we examine the effects of these ADC artifacts on neural signal quality and describe a method to detect them in recorded data. Approach: We identified two types of ADC artifacts produced by Intan ICs: 1) jumps, resulting from missing output codes, and 2) flatlines, resulting from overrepresented output codes. We identified ADC artifacts in neural recordings acquired with Intan RHD2000 ICs and tested the repeated performance of 17 ICs in vitro. With the on-chip digital-signal-processing disabled, we detected the ADC artifacts in each test recording by examining the distribution of unfiltered ADC output codes. Main Results: We found larger ADC artifacts in recordings using the Intan RHX data acquisition software versions 3.0-3.2, which did not run the necessary ADC calibration command when the inputs to the Intan recording controller were rescanned. This has been corrected in the Intan RHX software version 3.3. We found that the ADC calibration routine significantly reduced, but did not fully eliminate, the occurrence and size of ADC artifacts as compared with recordings acquired when the calibration routine was not run (p < 0.0001). When the ADC calibration routine was run, we found that the artifacts produced by each ADC were consistent over time, enabling us to sort ICs by performance. Significance: Our findings call attention to the importance of evaluating signal quality when acquiring electrophysiological data using Intan Technologies ICs and offer a method for detecting ADC artifacts in recorded data.&#xD.
ISSN:1741-2560
1741-2552
1741-2552
DOI:10.1088/1741-2552/ad5762