This Nonprovisional application claims priority under 35 U.S.C. ยง119 on Patent Application No. 2017-186850 filed in Japan on Sep. 27, 2017, the entire contents of which are hereby incorporated by reference.
The present invention relates to an electronic device, particularly to an electronic device including a touch panel.
Conventionally known is a touch-operable electronic device including a touch panel. For example, Patent Literature 1 discloses a so-called wearable device which is of a watch type and includes a capacitive touch panel.
[Patent Literature 1]
U.S. Patent Application Publication No. 2014/0139637 (Publication Date: May 22, 2014)
Note, however, that according to such a conventional technique as described earlier, a capacitive touch panel is provided on a display screen. This unfortunately causes a wiring pattern of the touch panel to be visually recognized in a display region, and consequently impairs a display quality of the display screen.
An aspect of the present invention has an object to achieve an electronic device with a high display quality while preventing a wiring pattern of a touch panel from being visually recognized in a display region.
In order to attain the object, an electronic device in accordance with an aspect of the present invention is an electronic device including: a display device including a display region and a frame region; a touch panel electrode provided so as to surround the display region; and a control section connected to the touch panel electrode and configured to sense, in accordance with a change in capacitance of the touch panel electrode, a touch operation carried out by an object coming into contact with or coming closer to at least one of the display region and the frame region.
An aspect of the present invention brings about an effect of achieving an electronic device with a high display quality while preventing a wiring pattern of a touch panel from being visually recognized in a display region.
Embodiment 1.
(a) through (d) of
(a) and (b) of
(a) through (d) of
(a) and (b) of
(a) of
(a) through (c) of
(a) and (b) of
(a) through (d) of
The following description specifically discusses an electronic device 101 in accordance with an embodiment of the present invention.
[Configuration of Electronic Device 101]
As illustrated in
The touch panel electrode 20 is used as a sensor configured to sense, by a capacitive method, a touch operation carried out by a user. In a case where an object comes closer to the touch panel electrode 20, the touch panel electrode 20 changes in capacitance due to a weak electric current which flows between the touch panel electrode 20 and the object. The touch panel electrode 20 is connected to the control section 10 by an electrode wire 30. The touch panel electrode 20 supplies, to the control section 10 via the electrode wire 30, the change in capacitance in a form of a signal.
The display device 40 is a display device which is controlled by the control section 10. The display device 40 can be, for example, a liquid crystal display device or an organic Electro Luminescence (EL) display device.
The control section 10 is an arithmetic unit which has a function of controlling sections of the electronic device 101 as a whole. The control section 10 controls each component of the electronic device 101 by, for example, execution, by one or more processors (e.g., a CPU), of a program stored in one or more memories (e.g., a RAM and a ROM).
Furthermore, the control section 10 senses a change in capacitance of the touch panel electrode 20 by monitoring a signal which is obtained from the touch panel electrode 20 via the electrode wire 30 and indicates the change in capacitance, so that the control section 10 senses the object coming closer to the touch panel electrode 20. Moreover, the control section 10 can also control the sections of the electronic device 101 in accordance with the change in capacitance of the touch panel electrode 20.
For example, the control section 10 calculates, in accordance with the change in capacitance of the touch panel electrode 20, (i) details and the number of times of the touch operation carried out by the user with respect to the touch panel electrode 20 or (ii) a touch position, at which the touch operation is carried out, so as to specify a function which should be carried out in accordance with the touch operation carried out by the user. The control section 10 which has specified the function controls the sections of the electronic device 101 so that the specified function is carried out. Furthermore, the control section 10 can also control a display of the display device 40 by generating a display signal 5 for controlling a graphical interface which is displayed in the display device 40 in accordance with the touch operation carried out by the user with respect to the touch panel electrode 20.
Note that, in a case where the electronic device 101 is, for example, a so-called wearable device of a watch type and is a small-sized subdevice which functions in cooperation with other main devices such as a smartphone and a tablet device, the electronic device 101 can be configured such that the control section 10 is provided on the main device side. The electronic device 101 can be configured to (i) communicate, via wireless communications such as Wi-Fi (Registered Trademark) and Bluetooth (Registered Trademark), with the control section 10 which is provided on the main device side, (ii) transmit, to the control section 10 via the wireless communications, the change in capacitance of the touch panel electrode 20 in the form of a signal, and (iii) receive, from the control section 10, control signals including the display signal 5.
(Location of Formation of Touch Panel Electrode)
As illustrated in
The touch panel electrode 20 is provided so as to surround a display region 41 of the display device 40. The display device 40 includes the display region 41 and a frame region 50 which surrounds the display region 41 so as to frame the display region 41. The touch panel electrode 20 is provided in the frame region 50.
As illustrated in
Alternatively, as illustrated in
The touch panel electrode 20 which is configured as described above is provided in the frame region 50 which surrounds the display region 41. This prevents a wiring pattern of a touch panel from being visible in the display region 41, and consequently prevents impairment of a display quality of the display device 40. Furthermore, the wiring pattern of the touch panel, which wiring pattern is invisible in the display region 41, causes no reduction in transmittance of the display region 41. This allows the display region 41 to be brighter, or allows a reduction in electric power of the back bezel 44. Moreover, since the touch operation can be carried out by touching the frame region 50 which surrounds the display region 41, the display region 41 is touched with a finger fewer times so that the touch operation is carried out. This allows fewer opportunities for the display region 41 to be made dirty with, for example, a fingerprint.
(External Appearance of Electronic Device 101)
The electronic device 101 has an external appearance which is not limited in shape. For example, the electronic device 101 can have an external appearance such that the electronic device 101 includes the display region 41 which is circular (see (a) of
(a) through (d) of
(Variation of Electronic Device 101)
As described earlier, the electronic device 101 includes (i) a touch panel electrode which is provided in a frame region 50 which surrounds a display region 41 and (ii) a control section 10 which senses an object coming closer to the touch panel electrode. According to the electronic device 101 which is configured as described above, a user interface which is operated by a touch operation can be achieved also in a timepiece in which the needle hole 46 is provided in the display region 41 and in the electronic device 101 which has the air gap AS between the display device 40 and the cover glass 45A. Thus, it is possible to design an external appearance of the electronic device 101 with higher degree of freedom.
(Example of Touch Operation)
In a case where, in order to carry out the touch operation, a user makes a finger closer to the frame region 50 of the touch panel electrode 20 or touches, with the finger, the frame region 50 of the touch panel electrode 20, a weak electric current flows between the finger of the user and the touch panel electrode 20. The flow of a weak electric current between the finger of the user and the touch panel electrode causes a change in capacitance of the touch panel electrode 20. The control section 10 senses the change in capacitance of the touch panel electrode 20 and senses, in accordance with the sensed change, the touch operation carried out by the user with respect to the frame region 50. The control section 10 is configured to be capable of sensing the touch operation which is carried out by the user with respect to anywhere in the frame region 50 which surrounds the display region 41.
The control section 10 can be configured to be capable of sensing, in accordance with the change in capacitance of the touch panel electrode 20, a single touch operation in which the user touches the frame region 50 with one finger. The control section 10 can alternatively be configured to be capable of sensing (i) a tap operation in which the user taps the frame region 50 with one finger and (ii) a repeated tap operation in which the tap operation is repeatedly carried out. The control section 10 can alternatively be configured to be capable of sensing a touch and hold operation in which a state in which the user touches the frame region 50 with one finger is maintained for a time equal to or longer than a given time.
The control section 10 can alternatively be configured to specify details of the touch operation (the single touch operation, the tap operation, the repeated tap operation, or the like) in accordance with a sensing signal 3 which is generated by the control section 10 which has sensed an object coming closer to the touch panel electrode 20.
The following description discusses an Embodiment 2 of the present invention. Note that, for convenience, members having functions identical to those of the respective members described in Embodiment 1 are given respective identical reference signs, and a description of those members is omitted here.
[Configuration of Electronic Device 102]
In a case where, in order to carry out a touch operation, a user makes a finger closer to a frame region 50 of the touch panel electrode 20 or touches, with the finger, the frame region 50 of the touch panel electrode 20, a weak electric current flows between the finger of the user and the touch panel electrode 20. The control section 10 senses a change in capacitance of the touch panel electrode 20 and senses, in accordance with the sensed change, the touch operation carried out by the user.
By, for example, a surface capacitive method, the control section 10 specifies, in accordance with capacitances of the touch panel electrode 20 which capacitances are inputted via the respective terminals 3A and 3B, details of the touch operation carried out by the user. Furthermore, by measuring a ratio between the capacitances of the touch panel electrode which capacitances are inputted via the respective terminals 3A and 3B, the control section 10 calculates a touch position at which the touch operation is carried out. By, for example, determining the touch position by measuring a ratio between (a) an amount of an electric current flowing into the terminal 3A and (b) an amount of an electric current flowing into the terminal 3B, the control section 10 can calculate the touch position at which the touch operation is carried out by the user.
The control section 10 controls sections of the electronic device 102 in accordance with the specified details of the touch operation and the calculated touch position. Note that, in a case where details of the touch operation which details have been specified in accordance with a signal indicative of a capacitance of the touch panel electrode 20 which capacitance has been obtained via one of the plurality of electrode wires 30 differ from details of the touch operation which details have been specified in accordance with a signal indicative of a capacitance of the touch panel electrode 20 which capacitance has been obtained via another one of the plurality of electrode wires 30, the control section 10 can be configured to generate a display signal 5 for displaying an error message in the display device 40.
(Example of Touch Operation)
According to the electronic device 102 which is configured as described above, the touch panel electrode 20 is provided in the frame region 50 which is provided so as to surround the display region 41. This prevents a wiring pattern of a touch panel from being visible in the display region 41, and consequently prevents impairment of a display quality of the display device 40. Furthermore, since the touch panel electrode 20 includes the terminals 3A and 3B which are provided so as to be located at respective two or more different positions, by measuring a ratio between the capacitances of the touch panel electrode 20 which capacitances are inputted via the respective terminals 3A and 3B, the control section 10 can calculate a touch position at which the touch operation is carried out.
According to the electronic device 102 which is configured as described above, a simple configuration makes it possible to sense various touch operations each corresponding to (i) details of the touch operation and (ii) a position at which the touch operation is carried out. This allows fewer or no mechanical operators to be provided on, for example, an outer circumference of the electronic device 102, and consequently allows the electronic device 102 to be designed with a higher degree of freedom.
The following description discusses Embodiment 3 of the present invention. Note that, for convenience, members having functions identical to those of the respective members described in Embodiment 1 or 2 are given respective identical reference signs, and a description of those members is omitted here.
[Configuration of Electronic Device 103]
Each of the plurality of partial electrodes 21 is connected to a control section 10, though not illustrated.
(Example of Touch Operation)
(a) through (d) of
In a case where, in order to carry out a touch operation with respect to the frame region 50 in which the touch panel electrode 20 which is made up of the plurality of partial electrodes 21 is provided, a user makes a finger closer to the frame region 50 or touches the frame region 50 with the finger, a weak electric current flows between the finger of the user and at least one of the partial electrodes 21. The control section 10 senses a partial electrode 21 whose capacitance has changed.
The control section 10 detects, in accordance with the capacitance of the partial electrode 21, details of the touch operation carried out by the user. Furthermore, as illustrated in, for example, (a) of
The control section 10 which senses that a change in capacitance occurs in two or more partial electrodes 21 can detect, in accordance with respective positions of these partial electrodes 21, a pinch-out operation to gradually move fingers, with use of which the user is carrying out the touch operation, in a direction in which the fingers are away from each other. Meanwhile, the control section 10 which senses that a change in capacitance occurs in two partial electrodes 21 can detect, in accordance with respective positions of these partial electrodes 21, a pinch-in operation to gradually move fingers, with use of which the user is carrying out the touch operation, in a direction in which the fingers come closer to each other.
The touch panel electrode 20 thus configured to have the plurality of partial electrodes 21 can respond to, for example, the multi-touch operation, which is a touch operation carried out with use of a plurality of fingers, and any of the flick operation, the swipe operation, the pinch-in operation, and the pinch-out operation, each of which is carried out by slidably moving a finger(s). Thus, a plurality of types of functions can be carried out by the touch operation carried out with respect to the frame region 50 which surrounds the display region 41. This makes it possible to achieve, without impairing a display quality of the display region 41, a wider variety of user interfaces each of which is operated by a touch operation.
Furthermore, as illustrated in (b) of
Moreover, as illustrated in (c) of
Further, as illustrated in (d) of
(a) and (b) of
The following description discusses Embodiment 4 of the present invention. Note that, for convenience, members having functions identical to those of the respective members described in Embodiments 1 through 3 are given respective identical reference signs, and a description of those members is omitted here.
[Configuration of Electronic Device 104]
(a) through (c) of
As illustrated in
As illustrated in (b) of
Furthermore, as illustrated in (c) of
According to the electronic device 104, the display region 41 has a size small enough to be within an electric field of the touch panel electrode 20 which is provided in the frame region 50 which surrounds the display region 41. In a case where the display region 41 of the display device 40 thus has a size small enough to be within the electric field of the touch panel electrode 20, it is possible to detect the touch operation carried out with respect to not only the frame region 50 but also the display region 41.
[Principle of Detection of Touch Position]
(a) through (c) of
In a case where the user carries out the touch operation with respect to a point in the display region 41, the control section 10 senses a change in capacitance which change occurs due to a flow of a weak electric current between (a) the respective partial electrodes 21A, 21B, and 21C and (b) a finger of the user. The control section 10 can be configured such that data that shows a relative relationship between (a) a capacitance value shown in (c) of
As illustrated in (a) of
(a) and (b) of
As illustrated in (b) of
Furthermore, the control section 10 can calculate, in accordance with a difference in the respective capacitance values of the partial electrodes 21A, 21B, and 21C which difference is caused by a difference in position between two fingers with use of which to carry out the double touch operation, touch positions at which the double touch operation is carried out with use of the respective two fingers. (a) through (d) of
(b) and (d) of
[Recap]
An electronic device 101 in accordance with a first aspect of the present invention includes: a display device 40 including a display region 41 and a frame region 50; a touch panel electrode 20 provided so as to surround the display region 41; and a control section 10 connected to the touch panel electrode 20 and configured to sense, in accordance with a change in capacitance of the touch panel electrode 20, a touch operation carried out by an object coming into contact with or coming closer to at least one of the display region 41 and the frame region 50.
The configuration makes it possible to achieve an electronic device with a high display quality while preventing a wiring pattern of a touch panel from being visually recognized in the display region 41. Furthermore, the wiring pattern of the touch panel, which wiring pattern is invisible in the display region 41, causes no reduction in transmittance of the display region 41. This allows the display region 41 to be brighter, or allows a reduction in electric power of the back bezel 44.
An electronic device 102 in accordance with a second aspect of the present invention can be configured, in the first aspect, to further include: a plurality of electrode wires 30 which connects the touch panel electrode 20 and the control section 10, the plurality of electrode wires 30 being led from respective two or more different positions in the touch panel electrode 20.
The configuration makes it possible to sense the touch operation in accordance with respective capacitances of the plurality of electrode wires 30.
An electronic device 102 in accordance with a third aspect of the present invention can be configured such that, in the second aspect, the control section 10 calculates, in accordance with a change in capacitances which are inputted via the respective plurality of electrode wires 30 which is led from the respective two or more different positions in the touch panel electrode 20, a touch position at which the touch operation is carried out.
The configuration makes it possible to calculate, in accordance with a ratio between electric currents flowing through the respective plurality of electrode wires 30, the touch position at which the touch operation is carried out.
An electronic device 103 in accordance with a fourth aspect of the present invention can be configured such that: in the second or third aspect, the touch panel electrode 20 has a plurality of partial electrodes 21; and the plurality of partial electrodes 21 is provided side by side in the frame region 50.
The configuration makes it possible to sense the touch operation in accordance with a change in respective capacitances of the plurality of partial electrodes 21. This allows various touch operations to be detected in accordance with, for example, the number of fingers with use of which to carry out the touch operation, the touch position at which the touch operation is carried out, and/or details of the touch operation.
An electronic device 104 in accordance with a fifth aspect of the present invention can be configured such that: in the fourth aspect, the plurality of partial electrodes 21 is connected to the control section 10 by the respective plurality of electrode wires 30; and the control section 10 calculates, in accordance with a change in respective capacitances of the plurality of partial electrodes, at least one touch position at which the touch operation is carried out.
According to the configuration, without the need to form a wiring pattern of a touch panel in the display region 41, it is possible to detect, with high accuracy, the touch position at which the touch operation is carried out with respect to at least one of the display region 41 and the frame region 50 which surrounds the display region 41.
An electronic device 104 in accordance with a sixth aspect of the present invention can be configured such that: in the fourth aspect, the plurality of partial electrodes 21 is connected to the control section 10 by the respective plurality of electrode wires 30; and the control section 10 calculates, in accordance with a change in respective capacitances of the plurality of partial electrodes 21, the number of at least one touch position at which the touch operation is carried out.
According to the configuration, without the need to form a wiring pattern of a touch panel in the display region 41, it is possible to detect, with high accuracy, the number of fingers with use of which to carry out the touch operation with respect to at least one of the display region 41 and the frame region 50 which surrounds the display region 41.
An electronic device 104 in accordance with a seventh aspect of the present invention can be configured such that, in the fifth or sixth aspect, the control section 10 calculates, in accordance with the change in the respective capacitances of the plurality of partial electrodes 21, a plurality of touch positions which the at least one touch position at which the touch operation is carried out comprises.
According to the configuration, without the need to form a wiring pattern of a touch panel in the display region 41, it is possible to detect, with high accuracy, (i) the number of fingers with use of which the touch operation is being carried out with respect to at least one of the display region 41 and the frame region 50 which surrounds the display region 41 and (ii) the touch positions at which the touch operation is carried out with use of the respective fingers.
An electronic device 101,102, or 103 in accordance with an eighth aspect of the present invention can be configured such that, in any one of the first through seventh aspects, the display device 40 is a flat panel display including a CF substrate 42 and a TFT substrate 43; and the touch panel electrode 20 is provided so as to be located between the CF substrate 42 and a cover glass 45 which covers a surface of the CF substrate 42.
The configuration makes it possible to form the touch panel electrode 20 in the frame region 50 in a form of an out-cell touch panel.
An electronic device in accordance with a ninth aspect of the present invention can be configured such that, in any one of the first through seventh aspects, the display device is a flat panel display including a CF substrate and a TFT substrate; and the touch panel electrode is provided so as to be located between the CF substrate and the TFT substrate.
The configuration makes it possible to form the touch panel electrode 20, in a form of an in-cell touch panel, in the frame region 50 which surrounds the display region 41.
The present invention is not limited to the embodiments, but can be altered by a skilled person in the art within the scope of the claims. The present invention also encompasses, in its technical scope, any embodiment derived by combining technical means disclosed in differing embodiments. Further, it is possible to form a new technical feature by combining the technical means disclosed in the respective embodiments.
10 Control section
20 Touch panel electrode
21 Partial electrode
40 Display device
41 Display region
50 Frame region
101, 102, 103, 104 Electronic device
Number | Date | Country | Kind |
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2017-186850 | Sep 2017 | JP | national |