A Low-Power Opamp-Less Second-Order Delta-Sigma Modulator for Bioelectrical Signals in 0.18 µm CMOS

Cardes, Fernando; Baladari, Nikhita; Lee, Ji‐Hyun; Hierlemann, Andreas

doi:10.3390/s21196456

Cited by 3 publications

(2 citation statements)

References 26 publications

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“…The cut-off frequency of this filter is set at approximately 0.1 Hz in order to block low-frequency fluctuations and to minimize the noise contribution of the pseudoresistor in the band of interest. The high-pass filtered voltage drives the gate of a P-type transistor (M1) which, in combination with a cascode (M2), acts as a transconductor [32]. The resulting current (iCCO) modulates the frequency of a current-controlled oscillator (CCO).…”

Section: A Prototype Descriptionmentioning

confidence: 99%

A Time-Domain Readout Technique for Neural Interfaces Based on VCO-Timestamping

Cardes,

Azizi,

Hierlemann

2023

IEEE Trans. Biomed. Circuits Syst.

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Section: A Prototype Descriptionmentioning

confidence: 99%

A Time-Domain Readout Technique for Neural Interfaces Based on VCO-Timestamping

Cardes,

Azizi,

Hierlemann

2023

IEEE Trans. Biomed. Circuits Syst.

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“…Filtering is followed by converting an analog signal into a digital signal, which enables further digital signal processing (DSP). The delta-sigma analog-to-digital converter (ADC) is currently one the most popular types of ADC architecture in biomedical signal processing, owing to its power efficiency and high resolution [ 1 , 2 , 3 ]. It is also possible to implement only a delta-sigma modulator on a wearable sensor integrated circuit (IC) when a stream of single bits from the modulator´s output (PDM) is transmitted via wireless communication to a computer [ 4 , 5 ].…”

Section: Introductionmentioning

confidence: 99%

A Fully Differential Analog Front-End for Signal Processing from EMG Sensor in 28 nm FDSOI Technology

Kledrowetz

Prokop

Fujcik

et al. 2023

Sensors

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This paper presents a novel analog front-end for EMG sensor signal processing powered by 1 V. Such a low supply voltage requires specific design steps enabled using the 28 nm fully depleted silicon on insulator (FDSOI) technology from STMicroelectronics. An active ground circuit is implemented to keep the input common-mode voltage close to the analog ground and to minimize external interference. The amplifier circuit comprises an input instrumentation amplifier (INA) and a programmable-gain amplifier (PGA). Both are implemented in a fully differential topology. The actual performance of the circuit is analyzed using the corner and Monte Carlo analyses that comprise fifth-hundred samples for the global and local process variations. The proposed circuit achieves a high common-mode rejection ratio (CMRR) of 105.5 dB and a high input impedance of 11 GΩ with a chip area of 0.09 mm2.

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A Switched-Capacitor, Integrator-Multiplexing, Second-Order Delta-Sigma Modulator Featuring a Single Differential Difference Amplifier for Portable EEG Application

Duan

Kong

Lin

et al. 2022

J CIRCUIT SYST COMP

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We present a novel switched-capacitor, integrator-multiplexing, second-order delta-sigma modulator (DSM) featuring a single differential difference amplifier (DDA). Power consumption is low and resolution is high when this DSM is used for portable electroencephalographic applications. A single DDA (rather than a conventional operational transconductance amplifier) with appropriate switch and capacitor architectures is used to create the second-order switched-capacitor DSM. The configuration ensures that the resolution is high. The modulator was implemented using a standard 180[Formula: see text]nm complementary metal–oxide–silicon process. At a supply voltage of 1.8[Formula: see text]V, a signal bandwidth of 250[Formula: see text]Hz and a sampling frequency of 200[Formula: see text]kHz, simulations demonstrated that the modulator achieved an 82[Formula: see text]dB peak signal-to-noise–distortion ratio and an effective number of bits of 14.

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A Low-Power Opamp-Less Second-Order Delta-Sigma Modulator for Bioelectrical Signals in 0.18 µm CMOS

Cited by 3 publications

References 26 publications

A Time-Domain Readout Technique for Neural Interfaces Based on VCO-Timestamping

A Time-Domain Readout Technique for Neural Interfaces Based on VCO-Timestamping

A Fully Differential Analog Front-End for Signal Processing from EMG Sensor in 28 nm FDSOI Technology

A Switched-Capacitor, Integrator-Multiplexing, Second-Order Delta-Sigma Modulator Featuring a Single Differential Difference Amplifier for Portable EEG Application

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