JP2010020674A - Touch sensor device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a touch sensor device for preventing erroneous decision even under the influence of a noise due to radio wave failure or the like. <P>SOLUTION: The touch sensor device 1 is configured of: a controller 2 for deciding presence/absence of a touch operation; a capacitive IC 3; a touch electrode group 5 configured of a plurality of touch electrodes 50; and a dummy electrode 6 arranged at a position where no touch operation is performed. When it is decided that the dummy electrode 6 is touch-operated, the controller 2 decides it as erroneous decision, and abandons all the decision results of this period. Thus, the presence/absence of a touch operation can be accurately decided even under the influence of a noise. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a touch sensor device.

  As a conventional technique, a liquid crystal display device with a touch panel including a liquid crystal display panel, a touch panel provided in the vicinity of the liquid crystal display panel, and a control circuit for the touch panel is known (for example, Patent Document 1). reference).

  The liquid crystal display device with a touch panel further includes a dummy electrode electrically independent from the switch electrode on the switch electrode forming surface of the touch panel, and a signal extracted from the switch electrode and a signal extracted from the dummy electrode to the control circuit of the touch panel. And a differential amplifier that inputs and outputs the difference signal as an output signal of the touch panel.

  According to this liquid crystal display device with a touch panel, since the liquid crystal display panel and the touch panel are arranged close to each other, noise generated based on the AC signal supplied to the liquid crystal display panel is evenly distributed between the switch electrode and the dummy electrode of the touch panel. Act on.

Therefore, in this liquid crystal display device with a touch panel, when the touch panel is pressed, the switch electrode has a superimposed signal of a switch-on signal and noise, and the dummy electrode has a noise having the same waveform as that superimposed on the switch electrode. Therefore, a switch-on signal on which no noise is superimposed can be detected by extracting these difference signals by a differential amplifier.
JP-A-5-6153

  However, the conventional liquid crystal display device with a touch panel is effective for noise that acts equally on the switch electrode and the dummy electrode of the touch panel with the supply of the alternating signal, but is effective for noise that does not act equally. I could not say.

  Accordingly, an object of the present invention is to provide a touch sensor device that can prevent erroneous determination even under the influence of noise caused by radio interference or the like.

(1) In order to achieve the above object, the present invention provides an electrode group having at least one electrode connected to a predetermined electronic circuit including the switch device via a switch device and capable of touch operation, and the switch device. A dummy electrode that is connected to the predetermined electronic circuit via a predetermined distance from the electrode group, and selects the electrode or the dummy electrode based on a predetermined period, and the selected electrode Alternatively, the dummy electrode is connected to the predetermined electronic circuit via the switch device, and the presence or absence of the touch operation is determined by comparing with a first threshold value based on a high frequency signal propagating through the predetermined electronic circuit. And when the dummy electrode is connected to the predetermined electronic circuit and the high-frequency signal exceeds a second threshold value, the determination unit discards all the determination results of the cycle. To provide a touch sensor device.

(2) In order to achieve the above object, the predetermined distance is in the vicinity of the electrode group, and the dummy electrode is determined not to be touched by the touch operation on the electrode group. The touch sensor device according to (1) is provided.

(3) In order to achieve the above object, the present invention provides the touch sensor device according to (2), wherein the electrode group and the dummy electrode are provided on the same substrate.

  According to such an invention, erroneous determination can be prevented even under the influence of noise caused by radio interference or the like.

  Hereinafter, embodiments of the touch sensor device of the present invention will be described in detail with reference to the drawings.

[Embodiment]
(Configuration of touch sensor device)
FIG. 1 is a block diagram of a touch sensor device according to an embodiment of the present invention. As shown in FIG. 1, the touch sensor device 1 includes a controller 2 as a determination unit, a capacitance IC (predetermined electronic circuit; integrated circuit) 3, and a touch electrode group (electrode group) including a plurality of touch electrodes 50. ) 5 and a dummy electrode 6. The touch operation described below indicates an operation in which the operator's fingers touch the touch electrode group 5.

  The controller 2 determines whether or not there is a touch operation on the touch electrode 50 based on an output signal output from the capacitance IC 3.

  The capacitance IC 3 sequentially switches the connection between the electrode control unit 30 that controls the multiplexer (switch device) 31 based on a predetermined cycle, and the plurality of touch electrodes 50 and the dummy electrodes 6 based on the predetermined cycle. The multiplexer 31 to be performed, as an example, an oscillation unit 32 that outputs a high-frequency signal (voltage V) of 100 kHz, an operational amplifier 33 that amplifies the high-frequency signal output from the oscillation unit 32, and the high-frequency signal amplified by the operational amplifier 33 are adjusted When a touch operation is not performed, the high frequency signal output from the load resistor 34 is amplified. When the touch operation is performed, the touch electrode 50 and the finger of the operator perform the touch operation. An operational amplifier 35 that amplifies the high-frequency signal attenuated based on the capacitance, and allows only a predetermined frequency to pass. A BPF (Band-pass filter) 36 for removing noise, a rectifying unit 37 made of a diode for rectifying a high-frequency signal, an LPF (Low-pass filter) 38 for converting the rectified rectified signal into a DC signal, and a predetermined signal. Comparator 39 which has a threshold value, compares the input DC signal with a threshold value, and outputs a signal indicating presence or absence of touch operation to controller 2 as an output signal.

  The positive terminal side of the comparator 39 is connected to a reference voltage 40 whose negative electrode is connected to the ground 41, and forms a threshold value as a comparison reference. The comparator 39 may be an operational amplifier. When an operational amplifier is used, the input DC signal is amplified and output to the controller 2 as an output signal. The controller 2 compares the output signal that has been output with a threshold value (predetermined threshold value), and determines the presence or absence of a touch operation.

  Further, the comparator 39 performs positive output when the touch operation is performed, because the amplitude of the high-frequency signal is reduced based on the generation of capacitance between the operator's finger and the corresponding electrode. When the amplitude of the high frequency signal does not change from the reference amplitude, a negative output is performed. When this plus output is input, the controller 2 determines that there is a touch operation on the touch electrode 50 or the dummy electrode 6 connected by the multiplexer 31, and when the minus output is input, the controller 2 connects by the multiplexer 31. It is determined that there is no touch operation on the touch electrode 50 or the dummy electrode 6.

  FIG. 2 is a schematic diagram regarding the arrangement of touch electrode groups and dummy electrodes according to an embodiment of the present invention. As shown in FIG. 2, the touch electrode group 5 includes a plurality of touch electrodes 50. The touch electrode 50 has, for example, a square shape, and is formed on the substrate 100 with a conductive metal such as copper. The surface is protected by a protective film.

  The substrate 100 is formed of an insulating member. For example, the capacitance IC 3, the touch electrode group 5, and the dummy electrode 6 are provided, and each is electrically connected to a wiring pattern (not shown) formed on the substrate 100. The output signal of the capacitance IC3 is output to the controller 2 connected to the outside.

  For example, the dummy electrode 6 has a square shape having the same size as the touch electrode 50, is formed on the substrate 100 with the same conductive metal as the touch electrode 50, and the surface thereof is protected by a protective film.

  The dummy electrode 6 is in the vicinity of the touch electrode group 5 and is not affected by the touch operation, in other words, a predetermined distance that does not perform capacitive coupling with the operator's finger by the touch operation on the touch electrode group 5. It is arranged at a distance apart.

  The reason why the dummy electrode 6 is disposed in the vicinity of the touch electrode 50, that is, in the vicinity of the touch electrode group 5 is that the dummy electrode 6 is disposed in the vicinity of the touch electrode group 5 so This is because noise caused by EMI (Electro Magnetic Interference) or the like acts on the dummy electrode 6 under substantially the same conditions.

  Since the dummy electrode 6 is disposed in the vicinity of the touch electrode group 5, noise such as radio interference acting on the touch electrode group 5 also acts on the dummy electrode 6. If the controller 2 determines that there is a touch operation on the dummy electrode 6 due to noise such as radio interference during a period when the touch operation is not performed, the controller 2 determines that the determination result is an erroneous determination, and determines that there is a touch operation in this period. Since there is a possibility that the determination result of the touch electrode 50 is also incorrect, all the determination results are discarded.

(Operation)
Hereinafter, operations related to the touch sensor device according to the present embodiment will be described in detail with reference to the drawings.

  The controller 2 controls the multiplexer 31 via the electrode control unit 30 to switch the connection between the touch electrode 50 and the dummy electrode 6 in order.

  When no touch operation is performed on any of the touch electrodes 50 of the touch electrode group 5 by the operator, the high frequency signal (V) output from the oscillating unit 32 is an operational amplifier 33, a load resistor 34, an operational amplifier 35, and a BPF 36. The DC signal is input to the comparator 39 via the rectifier 37 and the LPF 38.

  The comparator 39 compares the DC signal with the threshold value, and outputs a negative output to the controller 2 because there is no touch operation.

  When the controller 2 receives a negative output from the comparator 39, the controller 2 determines that there is no touch operation, and proceeds to the next operation.

  Subsequently, the controller 2 controls the multiplexer 31 via the electrode control unit 30 and switches the connection to the next touch electrode 50 or the dummy electrode 6.

  For example, when the connection is switched to the touch electrode 50 that has been touched, the high-frequency signal (V) output from the oscillating unit 32 is the high-frequency signal output from the load resistor 34 via the operational amplifier 33. And a touch-operated touch electrode 50 are attenuated by a capacitance generated and a high-frequency signal whose amplitude has been changed to be small is input as a DC signal to the comparator 39 via the operational amplifier 35, the BPF 36, the rectifier 37 and the LPF 38. To do.

  The comparator 39 compares the DC signal with the threshold value, and outputs a plus output to the controller 2 because there is a touch operation.

  When the controller 2 receives a positive output from the comparator 39, the controller 2 determines that there is a touch operation and proceeds to the next operation.

  Here, for example, when the connection is switched to the dummy electrode 6 and a capacitance is generated in the dummy electrode 6 due to noise such as radio interference, the high-frequency signal (V) output from the oscillating unit 32 is supplied to the operational amplifier 33. The high frequency signal output from the load resistor 34 is attenuated by the capacitance generated in the dummy electrode 6, and the high frequency signal whose amplitude is changed small is supplied to the comparator 39 via the operational amplifier 35, the BPF 36, the rectifier 37 and the LPF 38. Input as a DC signal.

  The comparator 39 compares the DC signal with the threshold value, and outputs a plus output to the controller 2 because there is a touch operation.

  When the controller 2 receives a plus output from the comparator 39, the controller 2 determines that there is a touch operation. However, since the electrode that is determined to have a touch operation is the dummy electrode 6, the controller 2 determines that this determination result is an erroneous determination, discards all determination results for this period, and scans the next electrode. To start.

  This is because the determination result of the cycle including the dummy electrode 6 determined to have a touch operation is likely to include an erroneous determination and is not reliable.

(effect)
(1) According to the touch sensor device 1 in the above-described embodiment, even if an erroneous determination occurs in the determination of the presence or absence of a touch operation due to noise such as radio wave interference, the determination of the touch operation on the dummy electrode 6 is monitored. The presence or absence of a touch operation can be accurately determined.

(2) According to the touch sensor device 1 in the above-described embodiment, since the dummy electrode 6 is arranged in the vicinity of the touch electrode group 5, the touch electrode group 5 is equivalent to noise such as radio interference that is affected. Although it is not determined that there is a touch operation on the dummy electrode 6 due to the influence of noise, when it is determined that there is a touch operation, all the determinations in the cycle including the determination are discarded, so an erroneous determination Can be prevented, and the reliability can be improved.

(3) According to the touch sensor device 1 in the above-described embodiment, the dummy electrode 6 may have the same configuration as that of the touch electrode 50. Therefore, the determination accuracy of the touch operation can be improved with a simple structure. Cost can be suppressed.

(About other embodiments)
(1) Although the touch electrode group 5 in the above-described embodiment is provided on the same substrate 100 as the dummy electrode 6, the touch electrode group 5 is not limited to this, and the touch electrode group 5 is used as a touch pad and the position away from the substrate 100. May be arranged. At that time, the substrate 100 is preferably provided in the vicinity of the touch pad.

(2) The touch electrode 50 and the dummy electrode 6 in the above-described embodiment are configured to have the same size and shape, but are not limited thereto, and may be rectangular or triangular. The sizes of the touch electrode 50 and the dummy electrode 6 may be different.

(3) The number of touch electrodes 50 in the above-described embodiment is not limited to 4 rows and 4 columns shown in FIG. 2, and can be freely changed according to the application, and the number of dummy electrodes 6 is also one. It is not limited to.

(4) The capacitance IC3 in the above-described embodiment has the configuration described above. However, the configuration is not limited to this. For example, the controller 2 amplifies a DC signal input using the comparator 39 as an operational amplifier. It is good also as a structure which determines the presence or absence of touch operation based on the DC signal input into the controller 2, and is comprised so that it may output.

  The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from or changing the technical idea of the present invention.

It is a block diagram of a touch sensor device concerning an embodiment of the invention. It is the schematic regarding arrangement | positioning of the touch electrode group and dummy electrode which concern on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Touch sensor apparatus 2 ... Controller 3 ... Electrostatic capacity IC
5 ... Touch electrode group 6 ... Dummy electrode 30 ... Electrode controller 31 ... Multiplexer 32 ... Oscillator 33 ... Operational amplifier 34 ... Load resistor 35 ... Operational amplifier 36 ... BPF
37 ... Rectifying unit 38 ... LPF
39 ... Comparator 40 ... Reference voltage 41 ... Ground 50 ... Touch electrode 100 ... Substrate

Claims (3)

An electrode group having at least one electrode connected to a predetermined electronic circuit including the switch device via a switch device and capable of touch operation;
A dummy electrode connected to the predetermined electronic circuit via the switch device and disposed at a predetermined distance from the electrode group;
A high frequency signal that selects the electrode or the dummy electrode based on a predetermined period, connects the selected electrode or the dummy electrode to the predetermined electronic circuit via the switch device, and propagates the predetermined electronic circuit When the presence or absence of the touch operation is determined by comparing with a predetermined threshold based on the signal, the dummy electrode is connected to the predetermined electronic circuit, and the high-frequency signal exceeds the predetermined threshold A determination unit that discards all determination results of the cycle;
A touch sensor device.   2. The touch sensor device according to claim 1, wherein the predetermined distance is a distance in the vicinity of the electrode group, and the dummy electrode is determined not to be touched by the touch operation on the electrode group.   The touch sensor device according to claim 1, wherein the electrode group and the dummy electrode are provided on the same substrate.

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