Application of weighing matrices to simultaneous driving technique for capacitive touch sensors

Jong Kang Park; Chang Ju Lee; Do Yeon Kim; Jung Hoon Chun; Jong Tae Kim

doi:10.1109/TCE.2015.7150602

Application of weighing matrices to simultaneous driving technique for capacitive touch sensors

Jong Kang Park
, Chang Ju Lee
, Do Yeon Kim
, Jung Hoon Chun
, Jong Tae Kim

Department of Semiconductor Systems Engineering

Sungkyunkwan University

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

This paper generalizes the capacitive touch sensing problem in a form of weighing matrices which cover Walsh-Hadamard, 4k-order Hadamard, and other types of weighing matrices. The existing regular Hadamard matrix, conference matrix, and other matrices that have a small sum of column weights, increase the signal sensitivity as well as signal-to-noise ratio for the capacitive signals. Experiments show that the proposed design approach and the various types of weighing matrices can meet the different design requirements. The results of this research show that a sophisticated weighing matrix improves sensitivity three times higher than the time-multiplexed method.

Original language	English
Article number	7150602
Pages (from-to)	261-269
Number of pages	9
Journal	IEEE Transactions on Consumer Electronics
Volume	61
Issue number	2
DOIs	https://doi.org/10.1109/TCE.2015.7150602
State	Published - May 2015

Keywords

capacitive touch sensor
Hadamard matrix
simultaneous driving
touch controller
weighing matrix

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10.1109/TCE.2015.7150602

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title = "Application of weighing matrices to simultaneous driving technique for capacitive touch sensors",

abstract = "This paper generalizes the capacitive touch sensing problem in a form of weighing matrices which cover Walsh-Hadamard, 4k-order Hadamard, and other types of weighing matrices. The existing regular Hadamard matrix, conference matrix, and other matrices that have a small sum of column weights, increase the signal sensitivity as well as signal-to-noise ratio for the capacitive signals. Experiments show that the proposed design approach and the various types of weighing matrices can meet the different design requirements. The results of this research show that a sophisticated weighing matrix improves sensitivity three times higher than the time-multiplexed method.",

keywords = "capacitive touch sensor, Hadamard matrix, simultaneous driving, touch controller, weighing matrix",

author = "Park, \{Jong Kang\} and Lee, \{Chang Ju\} and Kim, \{Do Yeon\} and Chun, \{Jung Hoon\} and Kim, \{Jong Tae\}",

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doi = "10.1109/TCE.2015.7150602",

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AU - Park, Jong Kang

AU - Lee, Chang Ju

AU - Kim, Do Yeon

AU - Chun, Jung Hoon

AU - Kim, Jong Tae

PY - 2015/5

Y1 - 2015/5

N2 - This paper generalizes the capacitive touch sensing problem in a form of weighing matrices which cover Walsh-Hadamard, 4k-order Hadamard, and other types of weighing matrices. The existing regular Hadamard matrix, conference matrix, and other matrices that have a small sum of column weights, increase the signal sensitivity as well as signal-to-noise ratio for the capacitive signals. Experiments show that the proposed design approach and the various types of weighing matrices can meet the different design requirements. The results of this research show that a sophisticated weighing matrix improves sensitivity three times higher than the time-multiplexed method.

AB - This paper generalizes the capacitive touch sensing problem in a form of weighing matrices which cover Walsh-Hadamard, 4k-order Hadamard, and other types of weighing matrices. The existing regular Hadamard matrix, conference matrix, and other matrices that have a small sum of column weights, increase the signal sensitivity as well as signal-to-noise ratio for the capacitive signals. Experiments show that the proposed design approach and the various types of weighing matrices can meet the different design requirements. The results of this research show that a sophisticated weighing matrix improves sensitivity three times higher than the time-multiplexed method.

KW - capacitive touch sensor

KW - Hadamard matrix

KW - simultaneous driving

KW - touch controller

KW - weighing matrix

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JO - IEEE Transactions on Consumer Electronics

JF - IEEE Transactions on Consumer Electronics

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ER -

Application of weighing matrices to simultaneous driving technique for capacitive touch sensors

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Keywords

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