JP2012234288A - Input unit for electronic device and input method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reliably prevent wrong input at low cost in an input unit for an electronic device for detecting input operation with capacitive touch sensors.SOLUTION: An input unit 10 includes: an operation part 1 having a first capacitive touch sensor 7 for detecting input operation on an input operation face; and a control circuit part 2 for receiving detection information on the first touch sensor 7 from the operation part 1 and outputting output information corresponding to the detection information to an electronic device 6. The operation part 1 further has a second capacitive touch sensor 8 for detecting the touch or adjacency of a human body to a specific area on the input unit 10. The control circuit part 2 determines whether or not the human body touches or is adjacent to the specific area on the basis of detection information on the second touch sensor 8. Only when determining that the touch or adjacency occurs, the control circuit part enables input operation on the input operation face.

Description

  The present invention relates to an input device and an input method for an electronic device, and more particularly, to a technology for preventing erroneous input in an input device including a capacitive touch sensor and an input method using the same.

  2. Description of the Related Art Conventionally, there is an input device for an electronic device in which an input operation by an operator is detected using a capacitive touch sensor. Capacitive touch sensors are excellent in that they can detect highly sensitive inputs, but their high sensitivity also contributes to the following unique problems. That is, in such an input device, in addition to the case where the operator intentionally performs the input operation, as long as the operator's finger or the like approaches or touches the touch sensor, it is mistaken for the input operation. There is a problem of fear.

  Conventionally, in order to prevent such an erroneous input, a portable device using a combination of a touch sensor and an acceleration sensor has been proposed (see, for example, Patent Document 1). In the portable device described in Patent Document 1, when an input operation to any of the touch sensors is detected, it is determined whether or not vibration is detected by the acceleration sensor at the same time as the detection, and from off to on at the same time as the vibration. By enabling only the input operation that has transitioned to, the detection signal generated by the input operation intentionally performed by the operator and, for example, the touch sensor generated when the operator simply holds the mobile device. The detection signal is identified to prevent erroneous input.

JP 2010-262463 A

  However, the method described in Patent Document 1 uses, for example, two different types of sensors, that is, a capacitive touch sensor and an acceleration sensor, and processes the configuration and detection signals from each sensor. There is a problem that the control system becomes complicated and expensive.

The present invention has been made in view of the above problems, and an object of the present invention is to provide an input device for an electronic device that detects an input operation using a capacitance type touch sensor, at a low cost and reliably. Is to prevent.

(Aspect of the Invention)
The following aspects of the present invention exemplify the configuration of the present invention, and will be described separately for easy understanding of various configurations of the present invention. Each section does not limit the technical scope of the present invention, and some of the components of each section are replaced, deleted, or further while referring to the best mode for carrying out the invention. Those to which the above components are added can also be included in the technical scope of the present invention.

(1) An input device for an electronic apparatus, comprising: an operation unit including an input operation surface and a first capacitive touch sensor that detects an input operation on the input operation surface; A control circuit unit that receives detection information of the touch sensor and outputs output information corresponding to the detection information to the electronic device, and the operation unit outputs the information to a specific area on the input device. A capacitance type second touch sensor for detecting contact or proximity of a human body is further provided, and the control circuit unit detects contact or proximity of the human body with respect to the specific region based on detection information of the second touch sensor. Only when there is contact or proximity, the input operation on the input operation surface is validated, and output information corresponding to the detection information of the first touch sensor is output to the electronic device. Input device, which comprises (Claim 1).

According to the input device described in this section, the control circuit unit determines the presence or absence of human contact or proximity to the specific area based on the detection information of the second touch sensor, and only when there is such contact or proximity By enabling the input operation on the input operation surface, it is possible to reliably detect only the actual input operation by the operator and prevent erroneous input.
In addition, since such a human body is detected by using a second touch sensor of the same capacitance type as the first touch sensor for detecting an input operation, it is easy and inexpensive to prevent erroneous input. Can be implemented.

Here, in the input device described in this section, the specific region on the input device is a region different from the region where the input operation is detected, and the operator performs a normal input operation on the input operation surface. This is provided at a place where there is a high probability that any part of the operator's body (typically, the operator's palm, wrist, etc.) will come into contact with or be close to Further, it is desirable that the part is a part having a high probability that no part of the operator's body is in contact with or close to the part when the operator is not in the input posture. As a result, the presence / absence of the operator's intention to input and the setting of validity / invalidity of the input operation executed by the control circuit unit based on the detection information of the second touch sensor correspond naturally. The operability of the input device can be improved.

(2) In the input device according to item (1), the input operation surface is provided with a plurality of coordinates to be subjected to an input operation, and the control circuit unit determines whether or not an input operation is performed on the input operation surface. Based on detection information of the first touch sensor from the operation unit, the storage unit that stores for each coordinate, the presence or absence of an input operation on the input operation surface is stored for each coordinate in the storage unit, and the operation Whether or not the input operation on the input operation surface is valid is determined based on the detection information of the second touch sensor from the unit, and is stored in the storage unit only when the input operation on the input operation surface is valid And a data processing unit that outputs output information based on the presence / absence of the input operation to the electronic device (claim 2).

  Here, in the input device described in this section, the “coordinate” is any information used for designating a specific position (or range) that is a target of the input operation on the input operation surface of the input device. And includes the case of data corresponding to a value (or a range of values) actually read from any appropriate two-dimensional coordinates provided along the input operation surface, but is not limited thereto. For example, in the case where a plurality of individual sections that define the positions to be input operations are provided on the input operation surface of the input device (typically, individual switches corresponding to each section are installed. In this case, arbitrary information that corresponds to each section on a one-to-one basis and can identify each section is referred to as “coordinates” of the position. Such coordinates include, for example, an integer serial number given to each section, or a set of integers given to each section.

(3) In the input device according to item (2), the control circuit unit stops the operation of the first touch sensor when an input operation on the input operation surface is not valid. Device (claim 3).
According to the input device described in this section, power saving of the input device can be achieved.

(4) In the input device according to (2) or (3), the control circuit unit adjusts the detection sensitivity of the first touch sensor when an input operation on the input operation surface is not valid. An input device characterized by the above (claim 4).
According to the input device described in this section, it is possible to always maintain the detection sensitivity of the first touch sensor in the optimum state even when there is an environmental change or the like.

(5) An operation unit including an input operation surface and an electrostatic capacitance type first touch sensor that detects an input operation on the input operation surface, and detection information of the first touch sensor is input from the operation unit, A control circuit unit that outputs output information corresponding to detection information to the electronic device, and the operation unit is an electrostatic that detects contact or proximity of a human body to a specific area on the input device. An input method for an input device for an electronic apparatus, further comprising a capacitive second touch sensor, wherein the human body touches or approaches the specific area based on detection information of the second touch sensor The input information on the input operation surface is valid only when the human body is in contact with or close to the specific area, and the detection information of the first touch sensor is included in the detection information of the first touch sensor. Input method characterized by comprising the steps of outputting the output information to respond to the electronic apparatus, the (claim 5).

  Since the present invention is configured as described above, it is possible to prevent erroneous input reliably and inexpensively in an input device for an electronic device that detects an input operation using a capacitive touch sensor.

It is a functional block diagram which shows the principal part of the input device which concerns on one Embodiment of this invention. In the input device according to an embodiment of the present invention, it is a top view schematically showing an example of an arrangement mode of the second touch sensor. It is a flowchart which shows an example of the function of the input device which concerns on one Embodiment of this invention, and the input method for the input device. It is a flowchart which shows another example of the function of the input device which concerns on one Embodiment of this invention, and the input method for the input device. In the input device concerning one embodiment of the present invention, it is an upper surface figure showing typically another example of arrangement mode of the 2nd touch sensor.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. As shown in FIG. 1, an input device 10 according to the present embodiment is an input device for an electronic apparatus 6, and is an electrostatic capacitance method that detects an input operation surface (not shown) and an input operation on the input operation surface. The operation unit 1 including the first touch sensor 7 and the control circuit unit 2 to which input operation detection information from the operation unit 1 is input. The operation unit 1 is further provided on the input device 10. A capacitive second touch sensor 8 that detects contact or proximity of a human body to a specific area is provided.

  Here, in the input device 10 according to the present embodiment, as schematically shown in FIG. 2, a plurality of sections (SW00 to SW36, hereinafter simply referred to as key switches) respectively corresponding to key switches are provided on the input operation surface 14. The first touch sensor 7 is provided for each key switch SW00 to SW36. For example, each of the first touch sensors 7 may be provided on a substrate disposed below the input operation surface so as to be disposed immediately below each key switch SW00 to SW36.

An operator of the input device 10 performs an input operation by touching each key switch SW00 to SW36 on the input operation surface 14 with a finger or the like. The operation unit 1 detects a change in capacitance generated in the corresponding first touch sensor 7 by an input operation to each key switch SW00 to SW36, and detects detection information indicating the occurrence of the input operation as a control circuit. An input information detection circuit 3 for outputting to the unit 2 is provided.

Therefore, in the case of the input device 10, the position to be an input operation on the input operation surface 14 specifically means each key switch SW <b> 00 to SW <b> 36, and specifying the coordinates thereof This corresponds to specifying each key switch (for example, by an integer set 00 to 36).

  Further, in the input device 10, the second touch is placed on the left and right two positions (specific areas in the present embodiment) located closer to the operator side than the area where the key switches SW 00 to SW 36 are arranged on the input operation surface 14. Operator detection switches SW40 and SW45 corresponding to the sensor 8 are provided. At this time, like the first touch sensor 7, the second touch sensor 8 is placed on a substrate disposed below the input operation surface so as to be disposed immediately below the operator detection switches SW40 to SW45. It may be provided.

  Here, the positions where the operator detection switches SW40 and 45 (and the corresponding second touch sensor 8) are provided as shown in FIG. 2 are positions that are not the targets of the input operation, and in particular, personal computers. This is an example of a suitable position in an input device such as a keyboard device for use where it is assumed that an operator performs an input operation at a relatively high speed using a plurality of fingers of both hands. When the operator takes an input posture, for example, the palm or wrist of the operator's left hand contacts the operator detection switch SW40, and the palm or wrist of the operator's right hand contacts the operator detection switch SW45. When the probability of proximity is high and the operator is not in the input posture, this is a highly probable location where no part of the operator's body is in contact with or close to the body. In addition, the sizes of the operator detection switches SW40 and SW45 (in other words, the range in which the capacitance of the corresponding second touch sensor 8 is detected) are also appropriately set in consideration of the above probability. It is.

Then, the input information detection circuit 3 detects the change in capacitance generated in the corresponding second touch sensor 8 when the human body comes into contact with or approaches the operator detection switches SW40 and SW45, and such contact is detected. Alternatively, it also functions to output detection information indicating the occurrence of proximity to the control circuit unit 2.

Here, in the input device 10, first, information for designating each key switch SW <b> 00 to SW <b> 36 and operator detection switches SW <b> 40 and SW <b> 45 is output from the control circuit unit 2 to the input information detection circuit 3. The detection circuit 3 shall output the detection information of the key switch or operator detection switch designated by this information to the control circuit unit 2. Specifically, the input information detection circuit 3 includes amplification means (not shown) for amplifying detection signals from the first and second touch sensors 7 and 8, and the amplified detection signal as a predetermined threshold value. Comparing means (not shown) for comparison is provided, and detection information is output to the control circuit unit 2 when the amplified detection signal is equal to or greater than a predetermined threshold.

As a result, the control circuit unit 2 identifies, for the detection information input from the operation unit 1, a key switch in which an input operation corresponding to the detection information has occurred or an operator detection switch in which contact or proximity of a human body has occurred. To do. However, in the input device according to the present invention, for the detection information input from the operation unit 1 to the control circuit unit 2, the control circuit unit 2 has a position on the input operation surface corresponding to the detection information (for example, at that position). Any suitable configuration can be used as long as the corresponding key switch or operator detection switch) can be identified.

  In the input information detection circuit 3, the amplification factor when the detection signals from the first and second touch sensors 7 and 8 are amplified, and / or the predetermined threshold to be compared with the detection signal after amplification are: The first touch sensor 7 and the second touch sensor 7 may be common, or different values may be set for the first touch sensor 7 and the second touch sensor 8. Good. Alternatively, individual values may be set for each key switch or for each operator detection switch according to the arrangement positions of the respective key switches SW00 to SW36 and the operator detection switches SW40 and SW45.

  Further, the input information detection circuit 3 may be configured by two separate circuit units, a circuit unit for the first touch sensor 7 and a circuit unit for the second touch sensor 8. This configuration is preferable when, for example, different values are set for the first touch sensor 7 and the second touch sensor 8 for the amplification factor and / or the predetermined threshold.

  Further, in the input device 10, the control circuit unit 2 includes a storage unit 5 and a data processing unit 4 as functional blocks. Next, an example of an input method for the input device 10 is described below. The input processing procedure in the control circuit unit 2 will be described.

First, the basic operation of the input device 10 will be described before the features of the present invention are described based on the flowchart of FIG.
In the input device 10, the data processing unit 4 of the control circuit unit 2 detects information for designating any one of the key switches SW 00 to SW 36 for the key switches SW 00 to SW 36 to be input. The signals are sequentially output to the circuit 3 (ie, so-called scanning is executed). Then, the input information detection circuit 3 detects a change in capacitance of the first touch sensor 7 corresponding to the designated key switch, and whether or not an input operation has occurred on the key switch (that is, the key switch is turned on). Detection information indicating (off state) is output to the control circuit unit 2 (detection). The data processing unit 4 stores the on / off states of the scanned key switches SW00 to SW36 in the storage unit 5 based on the detection information input to the control circuit unit 2 (determination), and each key. Output information corresponding to the on / off states of the switches SW00 to SW36 is output to the electronic device 6 (output).
In this way, the input device 10 detects and discriminates an input operation on the input operation surface 14 and outputs corresponding information as its basic operation.

The input device 10 includes operator detection switches SW40 and SW45 that are scanned by the data processing unit 4, and the main feature is that the processing procedure as shown in FIG. Is.

  First, in step S1, the data processing unit 4 determines whether an operator has been detected. Specifically, the data processing unit 4 is based on the detection information output from the input information detection circuit 3 based on the change in the capacitance of the second touch sensor 8 corresponding to the operator detection switches SW40 and SW45. Then, it is determined whether or not human contact or proximity to the operator detection switches SW40 and SW45 has occurred. In the input device 10, as described above, the operator detection switches SW 40 and SW 45 are arranged so that any part of the operator's body (typically, the operator's body) when the operator takes the input posture. It is highly probable that the left and right palms or wrists are in contact with or close to each other, and when the operator is not in the input posture, any part of the operator's body is not in contact with or close to it. Therefore, it is effectively determined whether or not the operator (taken the input posture) has been detected by determining whether the human body is touching or approaching the operator detection switches SW40 and SW45.

  Note that the data processing unit 4 turns on the operator detection switches SW40 and SW45 (eg, when there is contact or proximity of the human body and off when there is no human contact), as with the key switches SW00 to SW45. The off state is stored in the storage unit 5, and the determination procedure in step S1 is executed at any appropriate timing by referring to the on / off state stored in the storage unit 5. Also good.

  If it is determined in step S1 that an operator has been detected (the human body is in contact with or close to the operator detection switches SW40 and SW45) (Yes), the input operation on the input operation surface 14 is validated, and the input device Ten basic operations described above are executed (step S2).

If it is determined in step S1 that the operator is not detected (no contact or proximity of the human body to the operator detection switches SW40 and SW45) (No), the input operation on the input operation surface 14 is invalidated. Among the basic operations of the input device 10 described above, at least the detection operation of the input operation for the first touch sensor 7 is stopped (step S3).

  Here, in this embodiment, the stop of the basic operation of the input device 10 executed in step S3 is that output information corresponding to the on / off states of the key switches SW00 to SW36 is finally sent to the electronic device 6. As long as it is output, it can be performed in any suitable manner.

For example, the electric system including the control circuit unit 2 and the input information detection circuit 3 of the input device 10 is configured such that the power mode includes a normal operation mode and a power save mode, and the operator detection switch SW40. SW45 is also configured to function as a trigger switch for returning the power mode from the power save mode to the normal operation mode, and stopping the basic operation in step S3 is to shift the power mode to the power save mode. Thus, the operation of the entire electric system including the first touch sensor 7 may be stopped. Alternatively, only the input information detection circuit 3 is shifted to the power saving mode, or the input information detection circuit 3 includes a circuit unit for the key switches SW00 to SW36 and a circuit unit for the operator detection switches SW40 and SW45. In the case of being configured by an individual circuit unit, the operation of the first touch sensor 7 is performed by shifting only the circuit unit for the operator detection switches SW40 and SW45 of the input information detection circuit 3 to the power saving mode. It may stop.
In this case, the power mode returns to the normal operation mode triggered by the occurrence of contact or proximity of the human body to the operator detection switches SW40 and SW45.

The basic operation stop process described above is an advantageous aspect for power saving of the input device 10. However, the stop of the basic operation is performed, for example, by stopping the scanning of the key switches SW00 to SW36 by the data processing unit 4 in the processing procedure of the detection, determination, and output of corresponding output information of the basic operation described above. The operation of the detection circuit 3 (and hence the first touch sensor 7) may be stopped, or the key switches SW00 to SW00 stored in the storage unit 5 while the operation of the input information detection circuit 3 is maintained. It may be implemented by means such as stopping the update of the on / off state of the SW 36 (all are turned off) or stopping the output of output information to the electronic device 6.

  The input device 10 may execute the processing procedure shown in the flowchart of FIG. Here, since the processing procedure shown in FIG. 4 is common to the processing procedure shown in FIG. 3 in steps S2 to S3, description thereof is omitted.

  In the processing procedure shown in FIG. 4, after stopping the detection operation of the input operation for the first touch sensor 7 in step S3, the data processing unit 4 determines whether or not a predetermined time has elapsed (step S4). If it has not elapsed (No), the initial recovery is performed. If it has elapsed (Yes), input detection is corrected (step S5). Here, the correction of such input detection is performed by the first touch sensor in accordance with the change in the capacitance detected without any input operation on the first touch sensor 7 during a predetermined time. This is implemented by adjusting the detection sensitivity. For example, in the input information detection circuit 3, the amplified value of the capacitance detection signal detected when the first touch sensor 7 is not input determines whether the key switches SW <b> 00 to SW <b> 36 are on or off. The amplification factor in the amplifying means and / or the threshold value in the comparing means are adjusted so that good on / off discrimination is performed while maintaining a suitable threshold and a proper interval.

  Such detection sensitivity adjustment may be executed by the input information detection circuit 3 itself based on a command from the data processing unit 4, or the input information detection circuit 3 may be controlled by the control circuit unit 2. The data corresponding to the detection signal of the first touch sensor 7 is included in the detection information output to, and the data processing unit 4 uses the data to determine the amplification factor and / or threshold included in the input information detection circuit 3. It may be executed by updating. In addition, a change in capacitance detected when there is no input operation on the first touch sensor 7 occurs due to an environmental change, for example. In this case, the predetermined time in step S4 is about 1 to 2 hours. Is set.

  The processing procedure shown in FIG. 4 is advantageous in that the detection sensitivity of the first touch sensor 7 can always be maintained in an optimum state even when the environment changes. In addition, in order to correct such input detection, as described above, it is necessary to obtain a change in capacitance detected in the absence of an input operation on the first touch sensor 7. 10, since it is possible to determine with high probability that there is no input operation by the operator in step S <b> 1, it is possible to effectively perform such input detection correction.

Further, although not shown, the change in capacitance at a specific coordinate is different from the tendency of change in capacitance at all other coordinates, and is unique (for example, close to the change in capacitance due to an input operation). If a change is obtained, it is not determined that the capacitance has changed due to an environmental change, and the first touch sensor 7 in all coordinates or the first touch sensor 7 in coordinates having a specific change is included. It is also possible not to perform correction for input detection of the first touch sensor 7.

Note that the input device 10 can correct the input detection of the first touch sensor 7 while the input operation detection operation for the first touch sensor 7 is stopped (not shown). is there.

  As described above, the input device 10 reliably detects only the actual input operation by the operator based on the detection information of the operator detection switches SW40 and SW45, without impairing the operational feeling of the input device 10. Input can be prevented. In addition, the operator detection switches SW40 and 45 use the second capacitive touch sensor 8 similar to the first touch sensor 7 used for the key switches SW00 to SW36. As for the processing procedure, it is only necessary to make a slight change to the processing procedure for executing the basic operation of the input device 10, so that such erroneous input can be prevented easily and inexpensively.

  In the input device 10, the control circuit unit 2 may be configured as a known microcomputer system including a central processing unit, a memory, an input / output circuit, and the like. At that time, the storage unit 5 and the data processing unit 4 provided as the constituent elements of the control circuit unit 2 can be implemented by any hardware or software, or a combination thereof, as long as the functions described above are achieved. In the input device 10, the input information detection circuit 3 has been described as being included in the operation unit 1. However, the input information detection circuit 3 may be configured outside the operation unit 1, or the control circuit unit 2. It may be configured as a part of the functional block.

  As mentioned above, although this invention has been demonstrated based on preferable embodiment, this invention is not limited to the structure mentioned above. For example, in the example shown in FIG. 2, one input is provided at each of two left and right positions (specific areas in the present embodiment) located on the operator side of the area where the key switches SW00 to SW36 are arranged on the input operation surface 14. Although the operator detection switches SW40 and SW45 are provided, as shown in FIG. 5, a plurality of (two in the illustrated example) operator detection switches SW40, SW41, and SW45 are respectively provided at the same left and right positions. , SW 46 (and the corresponding second touch sensor 8) may be provided.

Further, the operator detection switch does not need to be provided at the position shown in FIGS. 2 and 5, and is provided at any appropriate position depending on the input posture taken by the operator who uses the input device to which the present invention is applied. be able to. For example, the operator detection switch may be provided at an arbitrary position on the input operation surface 14 where the key switch is not disposed, or at a position different from the input operation surface 14 on the input device. It may be provided. For example, when the input device includes a portion (so-called palm rest or hand rest) protruding from the input operation surface 14 toward the operator, the input device may be provided on that portion. Depending on the specifications of the input device, an operator detection switch for detecting that the input device is placed on the operator's lap instead of on the desk may be provided on the back side of the input device. .

  Further, in the above-described embodiment, it is assumed that the input device according to the present invention is such that the operator performs an input operation on each key switch at high speed mainly using a plurality of fingers such as a keyboard device for a personal computer. The input device according to the present invention has been described by way of example. However, the input device according to the present invention includes an input operation unit of a game device, an input operation unit of a mobile communication terminal, an operation panel of various electronic devices, and an The present invention can be applied to any input device for electronic equipment including a remote control device.

  1: operation unit, 2: control circuit unit, 3: input information detection circuit, 4: data processing unit, 5: storage unit, 6: electronic device, 7: first touch sensor, 8: second touch sensor, 10: Input device

Claims (5)

An input device for an electronic apparatus, comprising: an operation unit including an input operation surface and a first capacitive touch sensor that detects an input operation on the input operation surface; A control circuit unit that receives detection information and outputs output information corresponding to the detection information to the electronic device, and
The operation unit further includes a capacitive second touch sensor that detects contact or proximity of a human body to a specific area on the input device,
The control circuit unit determines the presence or absence of a human body contact or proximity to the specific area based on detection information of the second touch sensor, and performs an input operation on the input operation surface only when the contact or proximity exists. An input device characterized in that, as valid, output information corresponding to detection information of the first touch sensor is output to the electronic device. The input operation surface is provided with a plurality of coordinates to be subjected to an input operation, and the control circuit unit stores a presence / absence of an input operation on the input operation surface for each coordinate, and the operation unit Based on the detection information of the first touch sensor, the presence or absence of an input operation on the input operation surface is stored in the storage unit for each of the coordinates, and based on the detection information of the second touch sensor from the operation unit Whether or not the input operation on the input operation surface is valid, and only when the input operation on the input operation surface is valid, output information based on the presence or absence of the input operation stored in the storage unit is stored in the electronic device. The input device according to claim 1, further comprising: a data processing unit that outputs the data. The input device according to claim 2, wherein the control circuit unit stops the operation of the first touch sensor when an input operation on the input operation surface is not valid. The input device according to claim 2, wherein the control circuit unit adjusts the detection sensitivity of the first touch sensor when an input operation on the input operation surface is not valid. An operation unit including an input operation surface and a capacitive touch sensor that detects an input operation on the input operation surface, and detection information of the first touch sensor is input from the operation unit, and the detection information is input to the detection information. A control circuit unit that outputs corresponding output information to the electronic device, and the operation unit is a capacitive type that detects contact or proximity of a human body to a specific area on the input device. An input method for an input device for electronic equipment, further comprising a second touch sensor,
Determining whether or not a human body is in contact with or close to the specific area based on detection information of the second touch sensor; and an input operation on the input operation surface only when the human body is in contact with or close to the specific area And outputting the output information corresponding to the detection information of the first touch sensor to the electronic device.

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