Hui Jiang
Delft University of Technology
38 Papers
95 Citations
Hui Jiang is an academic researcher from Delft University of Technology. The author has contributed to research in topics: Amplifier & Instrumentation amplifier. The author has an hindex of 9, co-authored 36 publications. Previous affiliations of Hui Jiang include Tsinghua University & IMEC.
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Papers
An Energy-Efficient 3.7-nV/ $\surd$ Hz Bridge Readout IC With a Stable Bridge Offset Compensation Scheme
TL;DR: This paper describes an energy-efficient bridge readout IC (ROIC), which consists of a capacitively coupled instrumentation amplifier that drives a continuous-time delta–sigma modulator (CT) and a digital to analog converter (DAC) to increase the CCIA’s useful dynamic range.
Wearable Multiple Modality Bio-Signal Recording and Processing on Chip: A Review
Qiuyang Lin,Shuang Song,Ivan D. Castro,Hui Jiang,Mario Konijnenburg,Roland van Wegberg,Dwaipayan Biswas,Stefano Stanzione,Wim Sijbers,Chris Van Hoof,Filip Tavernier,Nick Van Helleputte +11 more
TL;DR: Existing multiple-modality bio-signal recording and processing SoCs, circuit techniques for individual bio-Signal readout channels including electrocardiography, Electroencephalography, Bio-impedance, photoplethysmography, and non-contact sensing with high user comfort are reviewed.
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High-resolution MEMS inertial sensor combining large-displacement buckling behaviour with integrated capacitive readout.
Brahim El Mansouri,L.M. Middelburg,R. H. Poelma,Guoqi Zhang,Henk van Zeijl,Jia Wei,Hui Jiang,Johan G. Vogel,Willem van Driel +8 more
TL;DR: The design of a bulk micromachined MEMS device exploiting non-linear buckling behaviour is described, aiming for n∕Hz resolution by maximising mechanical and capacitive sensitivity.
A 4.5 nV/ $\surd$ Hz Capacitively Coupled Continuous-Time Sigma-Delta Modulator with an Energy-Efficient Chopping Scheme
Hui Jiang,Costantino Ligouras,Stoyan Nihtianov,Kofi A. A. Makinwa +3 more
- 07 Feb 2018
TL;DR: Measurements show that the proposed chopping scheme does not suffer from quantization noise fold-back and also allows a flexible choice of chopping frequency.
31.3 A 0.14mm 2 16MHz CMOS RC Frequency Reference with a 1-Point Trimmed Inaccuracy of ±400ppm from -45°C to 85°C
Hui Jiang,Sining Pan,Cagri Gurleyuk,Kofi A. A. Makinwa +3 more
- 13 Feb 2021
TL;DR: A 16MHz RC-based frequency reference is described that achieves $\pm 400ppm$ inaccuracy over the industrial temperature range with a single room-temperature (RT) trim.