CAPACITANCE TYPE TOUCH PANEL AND METHOD OF DETECTING INPUT OPERATION POSITION THEREIN
First Claim
1. A capacitance type touch panel comprising:
- a plurality of detection electrodes S(n) arranged at a regular pitch in a first direction of an insulation panel along a second direction orthogonal to the first direction;
a plurality of drive areas DV(m) formed at a regular pitch in the second direction of the insulation panel along the first direction, each of the plurality of drive areas DV(m) crossing the plurality of detection electrodes S(n) at an insulation distance away;
a detection signal generating circuit for generating an alternating current detection signal at a constant voltage;
scan means that, while an alternating current detection signal is outputted to any of the plurality of drive areas DV(m), sequentially detects detection voltages appearing in the plurality of detection electrodes S(n) crossing the drive area DV(m) to which the alternating current detection signal is outputted, to detect a voltage change level R(m,n) of each of intersection points (m,n) between the plurality of drive areas DV(m) and the plurality of detection electrodes S(n) from a detection voltage in a state that an input operation body does not approach; and
position detection means for detecting an input operation position in the first direction and the second direction from a position of the intersection point (m,n) on the insulation panel at which the voltage change level R(m,n) is equal to or more than a predetermined input judgment threshold value, whereinthe position detection means includes;
extreme value detection means for detecting the intersection point (m0,n0) at which the voltage change level R(m,n) is at a maximum value Rmax, which is equal to or more than the input judgment threshold value, in both of the first direction and the second direction by comparing the voltage change levels R(m,n) of the adjoining intersection points (m,n) in the first direction and the second direction; and
data selection means for comparing the voltage change level R(m,n) of each of eight intersection points (m1, n1) of a first intersection point group that at least adjoin and surround the intersection point (m0,n0) with a cutoff threshold value set at a ratio less than 1 relative to the maximum value Rmax, and whereinwhen the intersection point (m0,n0) having the voltage change level R(m,n) of the maximum value Rmax and the intersection point (m1,n1) of the first intersection point group at which the voltage change level R(m,n) is equal to or more than the cutoff threshold value are designated as effective intersection points, the input operation position in the first direction and the second direction is detected from the position of the effective intersection points on the insulation panel and the voltage change levels R(m,n) of the effective intersection points.
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Accused Products
Abstract
A capacitance type touch panel is provided which detects an input operation position with high accuracy without being affected by noise irrespective of the input operation position and the size of an input operation body. A method of detecting an input operation position in the capacitance type touch panel is also provided. When an input operation position is in between adjoining intersection points (m,n), voltage change levels R(m,n), which are less than a cutoff threshold value, of intersection points (m1,n1) on a side opposite to the input operation position are removed from calculation data for the input operation position. Thus, even if either of the adjoining intersection points (m,n) is designated as an intersection point (m0,n0) having a maximum value, the calculated input operation position does not largely change.
6 Citations
7 Claims
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1. A capacitance type touch panel comprising:
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a plurality of detection electrodes S(n) arranged at a regular pitch in a first direction of an insulation panel along a second direction orthogonal to the first direction; a plurality of drive areas DV(m) formed at a regular pitch in the second direction of the insulation panel along the first direction, each of the plurality of drive areas DV(m) crossing the plurality of detection electrodes S(n) at an insulation distance away; a detection signal generating circuit for generating an alternating current detection signal at a constant voltage; scan means that, while an alternating current detection signal is outputted to any of the plurality of drive areas DV(m), sequentially detects detection voltages appearing in the plurality of detection electrodes S(n) crossing the drive area DV(m) to which the alternating current detection signal is outputted, to detect a voltage change level R(m,n) of each of intersection points (m,n) between the plurality of drive areas DV(m) and the plurality of detection electrodes S(n) from a detection voltage in a state that an input operation body does not approach; and position detection means for detecting an input operation position in the first direction and the second direction from a position of the intersection point (m,n) on the insulation panel at which the voltage change level R(m,n) is equal to or more than a predetermined input judgment threshold value, wherein the position detection means includes; extreme value detection means for detecting the intersection point (m0,n0) at which the voltage change level R(m,n) is at a maximum value Rmax, which is equal to or more than the input judgment threshold value, in both of the first direction and the second direction by comparing the voltage change levels R(m,n) of the adjoining intersection points (m,n) in the first direction and the second direction; and data selection means for comparing the voltage change level R(m,n) of each of eight intersection points (m1, n1) of a first intersection point group that at least adjoin and surround the intersection point (m0,n0) with a cutoff threshold value set at a ratio less than 1 relative to the maximum value Rmax, and wherein when the intersection point (m0,n0) having the voltage change level R(m,n) of the maximum value Rmax and the intersection point (m1,n1) of the first intersection point group at which the voltage change level R(m,n) is equal to or more than the cutoff threshold value are designated as effective intersection points, the input operation position in the first direction and the second direction is detected from the position of the effective intersection points on the insulation panel and the voltage change levels R(m,n) of the effective intersection points. - View Dependent Claims (2, 3, 4, 5)
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6. A method of detecting an input operation position of a capacitance type touch panel, including:
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causing a plurality of detection electrodes S(n) arranged at a regular pitch in a first direction of an insulation panel along a second direction orthogonal to the first direction and a plurality of drive areas DV(m) arranged at a regular pitch in the second direction of the insulation panel along the first direction to cross each other at an insulation distance away at each intersection point (m,n); while an alternating current detection signal at a constant voltage is outputted to any of the plurality of drive areas DV(m), sequentially detecting detection voltages appearing in the plurality of detection electrodes S(n) crossing the drive area DV(m) to which the alternating current detection signal is outputted, to detect a voltage change level R(m,n) of each of the intersection points (m,n) between the plurality of drive areas DV(m) and the plurality of detection electrodes S(n) from a detection voltage in a state that an input operation body does not approach; and detecting an input operation position in the first direction and the second direction from the position of the intersection point (m,n) on the insulation panel at which the voltage change level R(m,n) is equal to or more than a predetermined input judgment threshold value, the method comprising; a first step of detecting the intersection point (m0,n0) at which the voltage change level R(m,n) is at a maximum value Rmax, which is equal to or more than the input judgment threshold value, in both of the first direction and the second direction by comparing the voltage change levels R(m,n) of the adjoining intersection points (m,n) in the first direction and the second direction, out of the voltage change levels R(m,n) of all of the intersection points (m,n); a second step of comparing the voltage change level R(m,n) of each of eight intersection points (m1, n1) of a first intersection point group that at least adjoin and surround the intersection point (m0,n0) with a cutoff threshold value set at a ratio less than 1 relative to the maximum value Rmax; and a third step of designating the intersection point (m0,n0) having the voltage change level R(m,n) of the maximum value Rmax and the intersection point (m1,n1) of the first intersection point group at which the voltage change level R(m,n) is equal to or more than the cutoff threshold value as effective intersection points, and detecting the input operation position in the first direction and the second direction from the positions of the effective intersection points on the insulation panel and the voltage change levels R(m,n) of the effective intersection points. - View Dependent Claims (7)
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Specification