A low power self-capacitive touch sensing analog front end with sparse multi-touch detection

A low power self-capacitive touch sensing analog front end with sparse multi-touch detection

Capacitive sensing technology is ubiquitous in today's electronic devices. This paper proposes a novel architecture for the design of an ultra low power self-capacitive touch sensing analog front end (AFE) by exploiting the sparsity of simultaneous touches with respect to the number of sensor n...

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Bibliographic Details
Published in:2014 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP) pp. 3007 - 3011
Main Author: Chenchi Luo
Format: Conference Proceeding
Language:English
Published: IEEE 01-05-2014
Subjects:
1-bit compressive sensing
binary iterative hard thresholding
Capacitance
capacitive touch screen
Charge transfer
Compressed sensing
Conductors
Electrodes
Reconstruction algorithms
Sensors
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Summary:Capacitive sensing technology is ubiquitous in today's electronic devices. This paper proposes a novel architecture for the design of an ultra low power self-capacitive touch sensing analog front end (AFE) by exploiting the sparsity of simultaneous touches with respect to the number of sensor nodes. It is possible to significantly reduce the complexity and the power consumption of the AFE by migrating the computational burden to the digital processor which usually have surplus computational power. Based on the 1-bit compressive sensing theory, the ADC(s) in the AFE can be replaced by a single comparator. The number of measurements required in order to resolve the touch positions is related to the number of simultaneous touches rather than the number of sensor nodes. Detailed AFE architecture and the capacitance measurement process will be presented along with a corresponding digital reconstruction algorithm run by the digital processor.
ISSN:1520-6149
2379-190X
DOI:10.1109/ICASSP.2014.6854152