Yeongjin Mun scite author profile

This paper proposes a reconfigurable sensor analog front-end using low-noise chopper-stabilized delta-sigma capacitance-to-digital converter (CDC) for capacitive microsensors. The proposed reconfigurable sensor analog front-end can drive both capacitive microsensors and voltage signals by direct conversion without a front-end amplifier. The reconfigurable scheme of the front-end can be implemented in various multi-mode applications, where it is equipped with a fully integrated temperature sensor. A chopper stabilization technique is implemented here to achieve a low-noise characteristic by reducing unexpected low-frequency noises such as offsets and flicker noise. The prototype chip of the proposed sensor analog front-end is fabricated by a standard 0.18-μm 1-poly-6-metal (1P6M) complementary metal-oxide-semiconductor (CMOS) process. It occupies a total active area of 5.37 mm2 and achieves an effective resolution of 16.3-bit. The total power consumption is 0.843 mW with a 1.8 V power supply.

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Low-phase-noise self-sustaining amplifier IC with parallel capacitance cancellation for low-Q piezoelectric resonator

Kim

Lee

et al. 2018

Microsyst Technol

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Low-Power and Low-Noise Capacitive Sensing IC Using Opamp Sharing Technique

et al. 2016

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Biosignal integrated circuit with simultaneous acquisition of ECG and PPG for wearable healthcare applications

Kim

Park

et al. 2018

THC

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Yeongjin Mun

Capacitive analog front-end circuit with dual-mode automatic parasitic cancellation loop

Reconfigurable Sensor Analog Front-End Using Low-Noise Chopper-Stabilized Delta-Sigma Capacitance-to-Digital Converter

Low-phase-noise self-sustaining amplifier IC with parallel capacitance cancellation for low-Q piezoelectric resonator

Low-Power and Low-Noise Capacitive Sensing IC Using Opamp Sharing Technique

Biosignal integrated circuit with simultaneous acquisition of ECG and PPG for wearable healthcare applications

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