A neurochemical pattern generator SoC with switched-electrode management for single-chip electrical stimulation and 9.3µW, 78pArms, 400V/s FSCV sensing

A neurochemical pattern generator SoC with switched-electrode management for single-chip electrical stimulation and 9.3µW, 78pArms, 400V/s FSCV sensing

This paper describes a system-on-chip (SoC) fabricated in 0.35μm 2P/4M CMOS for high-fidelity neurochemical pattern generation in vivo. The SoC uniquely integrates electrical stimulation with embedded timing management and 400V/s fast-scan cyclic voltammetry (FSCV) sensing, and manages a novel switc...

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Hauptverfasser: Bozorgzadeh, Bardia, Covey, Daniel P., Howard, Christopher D., Garris, Paul A., Mohseni, Pedram
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Computer architecture
Current measurement
Electrical stimulation
fast-scan cyclic voltammetry
neurochemical sensing
neuromodulation
pattern generation
Power capacitors
Sensors
System-on-chip
Timing
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Zusammenfassung:This paper describes a system-on-chip (SoC) fabricated in 0.35μm 2P/4M CMOS for high-fidelity neurochemical pattern generation in vivo. The SoC uniquely integrates electrical stimulation with embedded timing management and 400V/s fast-scan cyclic voltammetry (FSCV) sensing, and manages a novel switched-electrode scheme that eliminates the possibility of large stimulus artifacts adversely affecting electrochemistry. The SoC also leverages the discontinuous sampling inherent in FSCV to reduce the power consumption per sensing channel by ~88% vs. state-of-the-art. The correlation coefficient between the predicted and measured temporal profiles of electrically evoked dopamine in the brain of an anesthetized rat is 0.95.
ISSN:2158-5601
2158-5636