KR101585929B1 - Touch key module of preventing proximity touch and method of preventing proximity touch - Google Patents

Abstract

A proximity touch prevention touch key module and a proximity touch prevention method are disclosed. According to an embodiment of the present invention, a proximity-touching touch key module includes a ground electrode formed on a lower surface of a substrate, a ground electrode formed on an upper surface of the substrate and disposed in a first area of the upper surface, A first electrode for sensing a touch by the touch pen; And a second region formed on the upper surface of the substrate and spaced apart from the first electrode in a second region surrounding at least a portion of the first region, wherein the proximity touch of the user's body or the capacitive touch pen a second electrode for detecting whether the electrode is hovering; And performing a function corresponding to the touch event using a first digital counter value received through the first electrode and a second digital counter value received through the second electrode when a touch event occurs through the electrode unit And a signal processing unit for ignoring the touch event.

Description

TECHNICAL FIELD [0001] The present invention relates to a touch key module for proximity touch prevention and a method for preventing proximity touch,

The present invention relates to prevention of proximity touch of a touch key, and more particularly, to a touch sensing method for sensing touch of a part of a body or a capacitance touch pen (C-Pen) To a touch key module capable of preventing hovering touch and a method for preventing proximity touch.

2. Description of the Related Art Recently, various information devices equipped with a touch key circuit board, particularly a mobile phone, have been required to have functions not only in the body but also through contact with a capacitive touch pen (C-Pen).

At this time, when the touch key circuit board is in a state in which a part of the body is spaced apart at a certain interval, a hovering touch is recognized which is recognized as being touched to cause a malfunction due to proximity touch.

Therefore, it is important to eliminate the malfunction phenomenon that may be caused by the proximity touch in the touch key circuit.

Although there is no technology to prevent or utilize proximity touch in such a touch key circuit, there is a technique of using proximity touch in a touch panel to use as a non-contact touch.

Korean Patent Laid-Open Publication No. 10-2013-0141209 discloses a proximity touch sensing apparatus and method as a prior art in which proximity touch is detected and used as a noncontact touch. In the prior art, a voltage is applied to a capacitive touch panel and a shield layer disposed at a predetermined distance above a shield layer to form a first capacitance, a non-contact touch is sensed, a shield layer is operated as a noise shielding ground, Capacitance Apply voltage to the touch panel to form a second capacitance and sense contact touch to switch between contact touch detection and non-contact touch detection, or provide various proximity gesture functions using non-contact touch through proximity touch detection You may.

However, the prior art is a technology using proximity sensing on a touch panel, that is, a touch screen, and there is a problem that a malfunction due to proximity touch in the touch key circuit can not be prevented.

Therefore, there is a need for a method capable of preventing a malfunction phenomenon caused by proximity touch in the touch key circuit.

Korean Patent Laid-Open Publication No. 10-2013-0141209 entitled " Proximity Touch Detection Apparatus and Method "(Publication date December 26, 2013)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a touch key module for preventing proximity touch which can prevent a malfunction caused by proximity touch by preventing proximity touch on a touch key, And to provide a method for preventing such a problem.

In the conventional capacitive touch key circuit, it is difficult to prevent the proximity touch operation because it can not distinguish an unwanted proximity touch phenomenon in realizing the touch operation of the body part or the capacitive touch pen (C-Pen) It is difficult to prevent malfunction.

The present invention distinguishes the contact touch from the proximity touch operation in the touch key circuit, thereby preventing the operation for the proximity touch and preventing the malfunction of the proximity touch.

According to an aspect of the present invention, there is provided a touch key module for use in proximity touch prevention for preventing proximity touch, comprising: a ground electrode formed on a lower surface of a substrate; A first electrode formed on an upper surface of the substrate and disposed in a first region of the upper surface for sensing a touch by a user's body or a capacitive touch pen; And a second region formed on the upper surface of the substrate and spaced apart from the first electrode in a second region surrounding at least a portion of the first region, wherein the proximity touch of the user's body or the capacitive touch pen a second electrode for detecting whether the electrode is hovering; And performing a function corresponding to the touch event using a first digital counter value received through the first electrode and a second digital counter value received through the second electrode when a touch event occurs through the electrode unit And a signal processing unit for ignoring the touch event.

Wherein the signal processor is configured to determine whether the first digital counter value is greater than a first touch determination reference value that is predefined or a second digital counter value that is smaller than a predefined second touch determination reference value, Determining that the first digital counter value is smaller than the first touch determination reference value and the second digital counter value is greater than the second touch determination reference value, have.

According to an embodiment of the present invention, there is provided an electrode structure of a proximity touch preventive touch key for preventing proximity touch, comprising: a ground electrode formed on a lower surface of a substrate; A first electrode formed on an upper surface of the substrate and disposed in a first region of the upper surface for sensing a touch by a user's body or a capacitive touch pen; And a second region formed on the upper surface of the substrate and spaced apart from the first electrode at a second region surrounding at least a portion of the first region, wherein the proximity touch of the user's body or the capacitive touch pen And a second electrode for sensing the second electrode.

The second electrode may be formed of one electrode that completely surrounds the first region, or may be formed of two electrodes, an electrode surrounding a portion of the first region and an electrode surrounding the remaining portion of the first region.

The touch-key proximity-touch prevention method according to an embodiment of the present invention receives a first digital counter value through a first electrode for sensing a touch by a user's body or a capacitive touch pen when a touch event occurs, Receiving a second digital counter value through a second electrode for sensing whether the user touches the user's body or the capacitive touch pen; Comparing the received first digital counter value with a predefined first touch determination reference value, and comparing the second digital counter value with a predefined second touch determination reference value; And performing a function corresponding to the touch event or ignoring the touch event using the two comparison results.

According to the present invention, by preventing the proximity touch in the capacitive touch key, it is possible to prevent a malfunction that may be caused by the proximity touch, thereby improving the touch reliability to the touch key circuit.

That is, the present invention distinguishes the contact touch from the capacitive touch key circuit and the undesired proximity touch operation, thereby preventing the operation for the proximity touch, thereby preventing the malfunction of the proximity touch, thereby improving the reliability of the touch key circuit .

Fig. 1 shows an example of a touch key circuit.
2 is a perspective view of an embodiment of a conventional touch key module.
FIG. 3 is a plan view of the touch key module of FIG. 2 and an electrode structure of the touch key.
FIG. 4 is a cross-sectional view illustrating the sensitivity effect of the touch key module of FIG. 1;
5 is a perspective view of an embodiment of the touch key module of the present invention.
FIG. 6 is a plan view of the touch key module of FIG. 5 and an electrode structure of the touch key.
7 is a cross-sectional view illustrating the sensitivity effect of the touch key module of FIG.
FIG. 8 shows another example of the structure of the touch key electrode of the present invention.
9 is a flowchart illustrating a method of preventing a proximity touch of a touch key according to an exemplary embodiment of the present invention.

Other objects and features of the present invention will become apparent from the following description of embodiments with reference to the accompanying drawings.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

Hereinafter, a touch key module for a proximity touch prevention and a proximity touch prevention method according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 9.

1 shows an example of a touch key circuit, which is an example of a front view of a mobile phone.

As shown in FIG. 1, the mobile phone includes a touch panel or a touch screen corresponding to the screen and touch switches 110 and 130 disposed on the left and right sides of the switch 120, for example, a dome switch.

Here, the touch keys 110 and 130 may be capacitive touch keys. In the present invention, a distinction between a proximity touch and a contact touch is intended to prevent a malfunction that may be caused by a proximity touch. Or a touch phenomenon depending on a small capacitance value generated when the conductor is not directly touched to the electrode but approaches the maximum.

That is, the present invention provides an electrode structure of a touch key that can clearly distinguish proximity touch from contact touch in capacitive touch keys disposed on both sides of a switch, It is possible to clearly distinguish the malfunction of the proximity touch and prevent the proximity touch.

FIG. 2 is a perspective view of a conventional touch key module, and FIG. 3 is a plan view of the touch key module of FIG. 2 and an electrode structure of a touch key.

2 and 3, the conventional touch key module includes a signal processing unit 240 having touch keys on both sides of the switch 230 and processing signals received through the electrodes of the touch keys.

Further, a cover (tempered glass or reinforced plastic PMMA) 260 for external protection is additionally provided on the upper surface on which the electrodes are formed in the touch key circuit, and a gap An optical clear adhesive (OCA) 250 is additionally constituted.

The electrode structure of the conventional touch key includes a touch electrode 210 formed on the upper surface of the substrate 270 for sensing touch and a ground electrode 220 formed on the lower surface of the substrate 270. The ground electrode 220 Is further formed on the upper surface of the substrate so as to surround the touch electrode 210 at a predetermined distance from the touch electrode 210. [

Here, the substrate 270 may be a flexible circuit board.

The signal processing unit 240 is a touch sensor chip, and determines whether or not the touch is performed by using the digital counter value received through the touch electrode 210 to determine touch input through the touch key.

4A, when a body part 410 is touched by a touch key, a certain capacitance value C _F , for example, about 1.2 pF (about 2 pF) is applied between the user's body 410 and the touch electrode 210 And the signal processing unit 240 recognizes that the touch key is touched by the user's body using the digital counter value corresponding to 1.2 pF.

4B, when the capacitive touch pen 420 is touched by the touch key, a certain capacitance value C _F , for example, 0.4 to 0.4 V is applied between the touch pen 420 and the touch electrode 210. [ A capacitance value of about 0.7 pF is generated and the signal processor 240 recognizes that the touch key is touched by the touch pen 420 using the digital counter value corresponding to the generated capacitance value.

On the other hand, as shown in FIG. 4C, when the conductive bar 430 having a certain size, for example, about 11 [mm] in diameter approaches the touch key module at a predetermined distance d, for example, about 1 [mm] A constant capacitance value C _F of about 0.5 pF is generated between the conductive bar 430 and the touch electrode 210 due to the proximity of the conductive bar 430 so that the signal processing unit 240 generates The proximity touch can be recognized as a touch by the touch pen by the digital counter value corresponding to the capacitance value.

Therefore, since the conventional touch key module can not distinguish the touch input by the touch pen from the input by the proximity touch, a malfunction due to the proximity touch may occur.

Although a conductive bar having a predetermined size is used in FIG. 4C, the present invention is not limited thereto, and may include a proximity touch of the user's body or a touch pen.

The present invention divides the touch input for the proximity touch using the electrode structure of the touch key in the capacitive touch key, thereby preventing a malfunction of the proximity touch.

FIG. 5 is a perspective view of an embodiment of the touch key module of the present invention, and FIG. 6 is a plan view of the touch key module of FIG. 5 and an electrode structure of a touch key.

5 and 6, a touch key module according to an embodiment of the present invention includes a signal processing unit having touch keys on both sides of a switch 230 and processing a signal received through at least two electrodes of the touch key 570).

Further, a cover (tempered glass or reinforced plastic PMMA) 260 for external protection is additionally provided on the upper surface on which the electrodes are formed in the touch key circuit, and a gap An optical clear adhesive (OCA) 250 is additionally constituted.

The electrode structure of the touch key for preventing proximity touch according to the present invention includes a ground electrode 580 formed on a lower surface of a substrate 270 and a ground electrode 580 formed on an upper surface of the substrate 270, The first electrodes 510 and 540 for sensing a touch by the pen and the second electrodes 520, 530, 550, and 560 for sensing whether the user touches the user's body or the capacitive touch pen .

Here, the second electrodes 520, 530, 550, and 560 may be spaced apart from each other by a predetermined distance in a second region surrounding the first region where the first electrodes 510 and 540 are formed, . For example, as shown in FIG. 8A, two electrodes, which are one electrode 520, 550 surrounding a part of the first area and another electrode 530, 560 surrounding the remaining part of the first area, And may be formed of one electrode 820 and 840 completely surrounding the first area of the first electrodes 810 and 830, as shown in FIG. 8B.

The first electrode 510 of the touch key formed on the left side of the switch 230 and the first electrode 540 of the touch key formed on the right side of the switch 230 may be connected together via the single channel with the signal processing unit 570, Lt; / RTI > channel. Similarly, the second electrodes 520 and 530 of the touch key formed on the left side of the switch 230 and the second electrodes 550 and 560 of the touch key formed on the right side are also connected to the signal processing unit 570 through one channel Or may be connected via a separate channel.

That is, according to the present invention, the ground electrode formed on the upper surface of the conventional substrate is constituted by at least one electrode for sensing the proximity touch, thereby providing an electrode structure capable of distinguishing the touch from the proximity touch.

When a touch event occurs through the first electrode and the second electrode, the signal processor 570 uses the first digital counter value received through the first electrode and the second digital counter value received via the at least one second electrode The touch event is ignored when it is judged as proximity touch and the function corresponding to the touch event when it is judged as contact touch.

At this time, the signal processing unit 570 outputs the first digital count value CV1 received through the first electrode to the second digital count value CV1, which is greater than the predefined first touch determination reference value ref1, If the counter value CV2 is smaller than the predefined second touch determination reference value ref2, it is determined that the touch event is a touch event by the user's body or the capacitive touch pen, so that the function corresponding to the touch event can be performed. If the digital counter value is smaller than the first touch determination reference value and the second digital counter value is larger than the second touch determination reference value, it is determined that the generated touch event is due to the proximity touch, and the touch event can be ignored.

Here, the first touch determination reference value is larger than the second touch determination reference value, and the touch determination reference values include the structure of the touch key, the physical parameters constituting the touch key, for example, the thickness of the substrate, . ≪ / RTI >

7A, when a body part 710 is touched by a touch key, a touch is generated between the user's body 710 and the first electrode 510 and between the user's body and the second electrodes 520 and 530 constant capacitance value (C _F), for example, the capacitance value of 1.2pF and the generation of the degree, the signal processor 570 is first the first digital counter value received from the first electrode 510, the touch determination reference value It is determined that the touch event is caused by the contact touch by the user's body, and the function corresponding to the touch event is performed.

7B, when the capacitive touch pen 720 is touched by the touch key, a constant capacitance value C _F (for example, 0.4) is generated between the touch pen 720 and the first electrode 510, A capacitance value of about 0.7 pF is generated, but a capacitance value hardly occurs between the touch pen 720 and the second electrodes 520 and 530. Accordingly, the signal processor 570 may determine that the first digital counter value received through the first electrode 510 is less than the first touch determination reference value and that the second digital counter value received via the second electrodes 520 and 530 Is smaller than the second touch determination reference value, it is determined that the touch key is touched by the touch pen, and a function corresponding to the touch event is performed.

7C, when the conductive bar 730 having a certain size, for example, about 11 [mm] in diameter is brought close to the touch key module at a predetermined interval d, for example, about 1 [mm] Contact between the conductive bar 730 and the second electrodes 520 and 530 as well as the conductive bar 730 and the first electrode 510 due to the proximity of the conductive bar 730, A capacitance value C _F is generated. Accordingly, the signal processing unit 5700 outputs the second digital counter value, which is smaller than the first touch determination reference value received through the first electrode 510 and received through the second electrodes 520 and 530, It is determined that the touch event has occurred by the proximity touch because it is larger than the second touch determination reference value, and the generated touch event is ignored.

As described above, the touch key module according to the present invention can distinguish a touch event by proximity touch and a touch event by touch by forming at least one second electrode separate from the first electrode so as to surround the first electrode Therefore, it is possible to prevent a malfunction due to the proximity touch, thereby improving the reliability of the touch key module.

FIG. 9 is a flowchart illustrating an operation of a method for preventing proximity touch of a touch key according to an embodiment of the present invention. FIG. 9 is a flowchart illustrating an operation of the signal processing unit shown in FIG. 5 and FIG.

Referring to FIG. 9, a method for preventing proximity touch of a touch key according to the present invention includes a first electrode for sensing a touch of a user or a capacitive touch pen when a touch event occurs on the touch key, A first digital counter value CV1 corresponding to a capacitance value generated between the user's body or the touch pen and the first electrode is received (S910, S920).

Likewise, at least one second electrode for sensing the proximity touch of the body of the user or the capacitive touch pen may correspond to a capacitance value generated in a contact touch or proximity touch between the user's body or the touch pen and the second electrode The second digital counter value CV2 is received (S930).

The signal processing unit compares the first digital counter value received through the first electrode with a predefined first touch determination reference value ref1, and if the first digital counter value is greater than the first touch determination reference value, It is judged as a touch input, and a function corresponding to the generated touch event is performed (S940 to S960).

On the other hand, if the first digital counter value is smaller than the first touch determination reference value as a result of the comparison in step S940, the signal processor determines that the second digital counter value received via the second electrode and the predefined second touch determination reference value ref2 If the second digital counter value is greater than the second touch determination reference value, it is determined that a touch event has occurred due to proximity touch of the user's body or touch pen or the like, and the generated touch event is ignored (S970, S990, S1000 ).

If it is determined in step S970 that the second digital counter value is smaller than the second touch determination reference value, the signal processing unit determines that the touch input is performed by the touch pen, and performs a function corresponding to the generated touch event (S980, S960) .

At this time, in order to detect that a touch event has occurred in step S910, CV1 having a value equal to or larger than a reference value of a predetermined touch event generation event may be received through the first electrode. That is, it is possible to apply the generated reference value of the touch event, which has been determined in the conventional art to the occurrence of the touch event, to the CV1 to determine whether a touch event has occurred, and then perform steps S920 to S1000. In this case, step S920 may be executed prior to step S910 in a strict sense.

Also, it is possible to use the magnitude of the CV1 value to detect that the touch event has occurred in step S910, or to determine whether the touch event has occurred by analyzing the degree of change of the CV1 value with time. At this time, the criterion for determining whether or not the touch event is generated may be a pattern of change of the CV1 value with time instead of the absolute value of the CV1 value.

It is possible to set the reference value higher than the normal reference value of the touch event to ref1 (S940, S950), and execute steps S960 to S1000 according to the result.

Since the touch electrode structure of the present invention is different from the touch electrode structure of the prior art, the touch event occurrence criterion or the touch event reference value, which has been used in the prior art due to the change of the touch electrode structure, It can be tuned to change.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

Claims (6)

A touch key module for preventing proximity touch, comprising:
A ground electrode formed on a lower surface of the substrate, a first electrode formed on an upper surface of the substrate and disposed in a first region of the upper surface for sensing a touch by a user's body or a capacitive touch pen; And a second region formed on the upper surface of the substrate and spaced apart from the first electrode in a second region surrounding at least a portion of the first region, wherein the proximity touch of the user's body or the capacitive touch pen a second electrode for detecting whether the electrode is hovering; And
Performing a function corresponding to the touch event using a first digital counter value received through the first electrode and a second digital counter value received through the second electrode when a touch event occurs through the electrode unit, A signal processor for ignoring the touch event
The touch key module comprising: The method according to claim 1,
The signal processing unit
When the first digital counter value is greater than a predefined first touch determination reference value or the second digital counter value is smaller than a predefined second touch determination reference value, When the first digital counter value is smaller than the first touch determination reference value and the second digital counter value is greater than the second touch determination reference value, Touch key module for touch prevention. An electrode structure for a proximity touch prevention key for preventing proximity touch,
A ground electrode formed on a lower surface of the substrate;
A first electrode formed on an upper surface of the substrate and disposed in a first region of the upper surface for sensing a touch by a user's body or a capacitive touch pen; And
And a second region formed on the upper surface of the substrate and spaced apart from the first electrode at a second region surrounding at least a part of the first region so as to make contact with the user's body or the capacitive touch pen A second electrode for sensing
The electrode structure of the touch key for preventing proximity of touch. The method of claim 3,
The second electrode
Wherein the first electrode is formed of one electrode that completely surrounds the first region or an electrode that surrounds a portion of the first region and an electrode that surrounds the remaining portion of the first region. The electrode structure of the key. A first digital counter for receiving a first digital counter value through a first electrode for sensing a touch by a user's body or a capacitive touch pen when a touch event occurs, Receiving a second digital counter value via a second electrode for sensing;
Comparing the received first digital counter value with a predefined first touch determination reference value, and comparing the second digital counter value with a predefined second touch determination reference value; And
Performing a function corresponding to the touch event or ignoring the touch event using the two comparison results
Wherein the touch key is a touch key. 6. The method of claim 5,
The step of performing a function corresponding to the touch event or ignoring the touch event
Performs a function corresponding to the touch event when the first digital counter value is larger than the first touch determination reference value or the second digital counter value is smaller than the second touch determination reference value, When the value of the touch counter is smaller than the first touch determination reference value and the second digital counter value is greater than the second touch determination reference value, Proximity touch prevention method.

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