Marco Guermandi scite author profile

The IC presented integrates the front-end for EEG and Electrical Impedance Tomography (EIT) acquisition on the electrode, together with electrode-skin contact impedance monitoring and EIT current generation, so as to improve signal quality and integration of the two techniques for brain imaging applications. The electrode size is less than 2 cm(2) and only 4 wires connect the electrode to the back-end. The readout circuit is based on a Differential Difference Amplifier and performs single-ended amplification and frequency division multiplexing of the three signals that are sent to the back-end on a single wire which also provides power supply. Since the system's CMRR is a function of each electrode's gain accuracy, an analysis is performed on how this is influenced by mismatches in passive and active components. The circuit is fabricated in 0.35 μm CMOS process and occupies 4 mm(2), the readout circuit consumes 360 μW, the input referred noise for bipolar EEG signal acquisition is 0.56 μVRMS between 0.5 and 100 Hz and almost halves if only EEG signal is acquired.

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Quadrature VCOs based on direct second harmonic locking: Theoretical analysis and experimental validation

Tortori

Guermandi

et al. 2010

Circuit Theory & Apps

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SUMMARYWe propose a theoretical analysis of the class of quadrature VCOs (QVCOs) based on two LC-oscillators directly coupled by means of the second harmonic. The analysis provides the conditions for the existence and stability of steady-state quadrature oscillations and a simplified model for the phase noise (PN) transfer function with respect to a noise source in parallel to the tank. We show that the figure of merit defined as the product between PN and current equals that of the single VCO, confirming that quadrature generation is achieved by this class of QVCO without degrading that figure of merit. An analytical model for the phase quadrature error due to tank mismatches is also proposed. The validity of all analytical models is discussed against numerical simulations. A practical implementation at 3.26 GHz with ±20% tuning range in a 0.13 m CMOS technology is also presented, confirming the main theoretical findings.

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Vega: A Ten-Core SoC for IoT Endnodes With DNN Acceleration and Cognitive Wake-Up From MRAM-Based State-Retentive Sleep Mode

Rossi

Conti

Eggimann

et al. 2022

IEEE J. Solid-State Circuits

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Influence of crop rotation, manure and fertilizers on bread making quality of wheat (Triticum aestivum L.)

Borghi

Giordani

Corbellini

et al. 1995

European Journal of Agronomy

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BioWolf: A Sub-10-mW 8-Channel Advanced Brain–Computer Interface Platform With a Nine-Core Processor and BLE Connectivity

Kartsch

Tagliavini

Guermandi

et al. 2019

IEEE Trans. Biomed. Circuits Syst.

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Marco Guermandi

Active Electrode IC for EEG and Electrical Impedance Tomography With Continuous Monitoring of Contact Impedance

Quadrature VCOs based on direct second harmonic locking: Theoretical analysis and experimental validation

Vega: A Ten-Core SoC for IoT Endnodes With DNN Acceleration and Cognitive Wake-Up From MRAM-Based State-Retentive Sleep Mode

Influence of crop rotation, manure and fertilizers on bread making quality of wheat (Triticum aestivum L.)

BioWolf: A Sub-10-mW 8-Channel Advanced Brain–Computer Interface Platform With a Nine-Core Processor and BLE Connectivity

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