KR20180086984A - Touch screen and control method thereof - Google Patents

Abstract

The present invention relates to a touch screen and a control method thereof. According to an embodiment of the present invention, the touch screen includes touch sensors arranged in a plurality of rows and columns; sensor signal lines independently connected to the touch sensors; and a touch drive IC for receiving touch capacitance generated by the touch sensor through the sensor signal line. If a touch idle mode is set, the touch drive IC enables the touch sensors simultaneously, to detect whether or not it is touched in a screen unit. In addition, the present invention includes embodiments other than the above-described embodiments. Accordingly, the present invention can improve a power saving effect and quickly and accurately perform a switching operation from the touch idle mode to a touch active mode.

Description

[0001] Touch screen and control method [

The present invention relates to various types of touch screens that support, for example, a touch active mode and a touch idle mode.

Generally, the touch screen is a mobile device such as a navigation device, a netbook, a notebook, a DID (Digital Information Device), and an IPTV (Internet Protocol TV) as well as a mobile device such as a smart phone, a PDA (Personal Digital Assistants) And the like.

The touch screen may be added to various types of displays such as an LCD (Liquid Crystal Display), a PDP (Plasma Display Panel), and an OLED (Organic Light Emitting Diode), or integrated into the display.

The display to which the touch screen is applied may be variously classified into an add-on type display, a touch screen on-cell type display, and a touch screen built-in type display .

The touch screen may be applied to various types of touch methods such as a resistance film type, a capacitive type, an electromagnetic induction type, an infrared type, or an ultrasonic type.

For example, in the touch screen to which the capacitance type is applied, when a touch input tool such as a finger or an electronic pen touches or approaches a touch sensor arranged on the touch screen, The touch position and the touch position can be detected based on the voltage change due to the touch capacitance (Ct: touch capacitance).

The touch screen may support, for example, a touch active mode and a touch idle mode. The touch active mode may be defined as a normal mode in which all of the touch sensors are driven in order to detect the presence or absence of a touch and the touch position, regardless of power consumption.

The touch idle mode may be defined as a power save mode in which only a part of the touch sensors is driven or a touch detection time is shortened in order to detect whether the touch is being performed while reducing power consumption .

The present invention relates to a touch screen capable of quickly and accurately detecting whether or not a user touches a touch screen while reducing power consumption during the touch idle mode in various types of touch screens that support a touch active mode and a touch idle mode, And to provide a control method thereof.

A touch screen according to an embodiment of the present invention includes touch sensors arranged in a plurality of rows and columns; Sensor signal lines independently connected to the touch sensors; And a touch drive IC for receiving a touch capacitance generated by the touch sensor through the sensor signal line. When the touch idle mode is set, the touch drive IC simultaneously enables the touch sensors, It is possible to detect whether or not it is touched.

When the touch active mode is set, the touch drive IC can sequentially enable some of the touch sensors to detect the touch position.

When the touch idle mode is set, the touch driver IC can enable all of the touch sensors or a part of the touch sensors at the same time to detect whether or not the touch sensors are touched on a screen basis.

When the touch idle mode of the power saving mode is set, the touch driver IC enables all of the touch sensors at the same time to detect whether or not the touch is performed on a screen basis. When the touch idle mode of the power saving mode is set, It is possible to detect whether or not the touch is performed on a screen basis.

The touch driver IC may interlock with a display drive IC included in the display or interlock with a CPU included in the electronic device to set the touch idle mode.

The touch drive IC may be fabricated as a single IC integrated with the display drive IC integrated with the display drive IC included in the display.

Wherein the touch driver IC includes switching elements independently connected to the sensor signal lines and a controller for individually controlling the switching elements, wherein the controller, when the touch idle mode is set, So that the touch sensors can be simultaneously enabled.

The switching elements are muxes, and the muxes are independently connected to the sensor signal lines, and a selection signal is input to one side of the mux, and the other side of the mux includes an alternating voltage, a ground, and a driving voltage More than one can be input.

Wherein the touch driver IC includes a controller for independently controlling the switching elements, wherein the controller is provided with switching elements independently connected to the sensor signal lines, between the sensor signal lines and the touch drive IC, When the touch idle mode is set, the switching elements can be individually controlled to simultaneously enable the touch sensors.

The switching elements are muxes, a selection signal is input to one side of the mux, and at least one of an alternating voltage, a ground, and a driving voltage may be input to the other side of the mux. The mugs may be installed in a non-display area of a display to which the touch screen is applied.

A method of controlling a touch screen according to an exemplary embodiment of the present invention includes: touch sensors arranged in a plurality of rows and columns; Sensor signal lines independently connected to the touch sensors; And a touch drive IC for receiving a touch capacitance generated by the touch sensor through the sensor signal line, the touch screen IC comprising: an operation of setting a touch idle mode by the touch drive IC; And when the touch idle mode is set, the touch driver IC may simultaneously enable the touch sensors and detect whether the touch sensors are touched on a screen basis.

When the touch active mode is set by the touch drive IC, it may further include sequentially activating a part of the touch sensors to detect the touch position.

When the touch idle mode is set, the touch drive IC may enable all of the touch sensors or a part of the touch sensors at the same time, have.

When the touch idle mode of the power saving mode is set, the touch driver IC enables all of the touch sensors at the same time to detect whether or not the touch is performed on a screen basis. When the touch idle mode of the power saving mode is set, It is possible to detect whether or not the touch is performed on a screen basis.

Wherein the touch driver IC includes switching elements independently connected to the sensor signal lines and a controller for individually controlling the switching elements, wherein the controller, when the touch idle mode is set, So that the touch sensors can be simultaneously enabled.

The switching elements are muxes, and the muxes are independently connected to the sensor signal lines. A selection signal is input to one side of the mux, and an alternating voltage, a ground, and a driving voltage More than one can be input.

Wherein the touch driver IC includes a controller for independently controlling the switching elements, wherein the controller is provided with switching elements independently connected to the sensor signal lines, between the sensor signal lines and the touch drive IC, When the touch idle mode is set, the switching elements can be individually controlled to simultaneously enable the touch sensors.

The switching elements are muxes, a selection signal is input to one side of the mux, and at least one of an alternating voltage, a ground, and a driving voltage may be input to the other side of the mux. The mugs may be installed in a non-display area of a display to which the touch screen is applied.

According to various embodiments of the present invention, in various types of touch screens supporting a touch active mode and a touch idle mode, it is possible to quickly and accurately detect whether a touch is being performed while reducing power consumption during the touch idle mode, It is possible to quickly and accurately perform the switching operation from the touch idle mode to the touch active mode.

1 is a diagram illustrating a configuration of a touch screen according to an embodiment of the present invention.
2 is a diagram illustrating a touch active mode according to an embodiment of the present invention.
3 is a diagram illustrating a touch idle mode according to an embodiment of the present invention.
4A and 4B are diagrams illustrating a scan operation in a touch active mode according to an embodiment of the present invention.
5 is a diagram illustrating a scan operation in a touch idle mode according to an embodiment of the present invention.
6 is a view illustrating a part of a configuration of a touch screen according to an embodiment of the present invention.
FIGS. 7 and 8 illustrate a touch idle mode according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings and embodiments.

The present invention relates to a touch screen and a control method thereof. For example, in various types of touch screens supporting a touch active mode and a touch idle mode, have.

The touch screen to which the embodiment of the present invention is applied may be added on various types of displays such as an LCD, a PDP, and an OLED, or integrated into the display. The touch screen may include various touch detection methods such as comparing a voltage detected when a touch is not generated and a voltage detected when a touch capacitance is added due to a touch to detect a touch with a difference in size of two voltages Can be applied.

The display to which the embodiment of the present invention is applied may be a touch screen type display, a touch screen type flat display, and a touch screen type display. The display may display images of various contents such as any type of still picture (JPG, TIF) or moving picture (MPEG-2, MPEG-4, etc.).

In the embodiment of the present invention, the touch active mode may be defined as a general mode for detecting whether a touch is made or a touch position, and the touch idle mode is defined as a power saving mode for detecting whether or not touch is performed while reducing power consumption .

1 is a diagram illustrating a configuration of a touch screen according to an embodiment of the present invention.

1, the touch screen 100 may be, for example, a touch screen to which a capacitance type is applied, and may include a plurality of touch sensors 110, a plurality of sensor signal lines 120, A touch drive IC (TDI: Touch Drive IC) 130, and the like.

The touch sensors 110 may be arranged in a matrix of, for example, a plurality of rows and columns, and may be rectangular or rhombic, or may be a unique shape with a plurality of rhombs connected thereto.

The touch sensors 110 may be formed of, for example, a conductive transparent material such as indium tin oxide (ITO), a conductive opaque material (e.g., metal), a touch pad And can be variously referred to as any other name.

The sensor signal lines 120 may be independently connected to the touch sensors and may be connected to the touch driver IC 130 in order to transmit the touch capacitance Ct generated by the touch sensors to the touch driver IC 130 As shown, may be arranged side by side on one side (e.g., the right side) of the touch sensors belonging to each column.

The sensor signal lines 120 may have different widths depending on a distance between the touch driver IC and the touch sensor. For example, the width of the first sensor signal line connected to the first touch sensor TS (R1, C1) in the first column col1 arranged at the farthest distance from the touch drive IC is the width of the touch driver IC Can be formed wider than the width of the sixth sensor signal line connected to the sixth touch sensor TS (R6, C1) in the first column arranged at the closest distance.

The sensor signal lines 120 may be formed of, for example, a conductive transparent material (e.g., ITO) or a conductive opaque material (e.g., metal) The conductive opaque material may be formed of the conductive opaque material in the remaining portions (e.g., the outer portion), or may be formed of any of various other known names such as a touch pad link line, Can be.

The touch driver IC 130 drives the touch sensors and receives touch capacitances generated from the touch sensors through the sensor signal lines to detect whether or not to touch and touch positions, It can be called variously in different names.

The touch driver IC 130 may be integrated with a display drive IC (DDI) included in various types of displays such as an LCD or an AMOLED, integrated with the DDI, (TDDI), and can be interfaced with a CPU or a main processor included in an electronic device such as a smart phone or the like.

1, the touch driver IC 130 includes a driving unit 131 for touch driving, a touch detection unit 132 for touch detection, a signal processing unit 133 for touch signal processing, A memory 134 for storing touch data, a power supply 135 for supplying power, a controller 136 for touch driving and detection control, a timing controller 137 for touch timing control, A voltage generation unit 138, and a communication unit 139 for external communication.

The controller 136 may control one or more of the components and may interface with external components through the communication unit 139. [ For example, the controller 136 can operate in conjunction with the DDI of the above-described display through the communication unit 136 or with a CPU of an electronic device such as a smart phone or the like.

The controller 136 may include at least one or more of the touch detection unit 132, the signal processing unit 133 and the timing control unit 137. For example, It can support a touch active mode and a touch idle mode for detecting only a touch.

The controller can set the touch idle mode when there is no touch input, for example, for a predetermined period of time set in advance. The touch active mode may be referred to as a normal mode independent of the power consumption, and the touch idle mode may be variously referred to as a power save mode for reducing the power consumption .

2 is a diagram illustrating a touch active mode according to an embodiment of the present invention.

Referring to FIG. 2, the controller 136 may perform a horizontal scan (e.g., horizontal scan) in which, when the touch active mode is set, the touch sensors arranged in a matrix of a plurality of rows and columns are horizontally enabled And the touch position and the touch position can be detected.

For example, as shown in FIG. 2, the controller 136 may control the first touch sensors TS (R1, R1, ...) of the first to sixth columns Col 1-6 belonging to the first row row1, C1) to TS (R1, C6) of the first row to the sixth column Col1 to C6 belonging to the second row (row2) It is possible to apply the horizontal scanning method in which only the touch sensors TS (R2, C1) to TS (R2, C6) are enabled and the touch is detected and the touch position is detected.

The horizontal direction scanning method may be variously referred to as any other name such as a row unit scan method, for example. The present invention is not limited to the lateral scanning method in the touch active mode.

3 is a diagram illustrating a touch idle mode according to an embodiment of the present invention.

Referring to FIG. 3, when the touch idle mode is set, the controller 136 enables all of the touch sensors arranged in a matrix of rows and columns at a time, for example, It is possible to detect quickly and accurately. Here, the scan method may be variously called a full screen scan method or a screen unit scan method.

In order to reduce the power consumption, the controller 136 may shorten the time required for the touch detection in the touch idle mode to be shorter than the time required for the touch detection in the touch active mode.

For example, when the touch active mode is set, the controller 136 scans the entire area of the touch screen by a period of 0.5 sec by applying the horizontal scan method, and when the touch idle mode is set, By applying the screen scan method, the whole area of the touch screen can be scanned every 1.0 second. Accordingly, the power consumption in the touch idle mode can be reduced.

For example, in order to further improve the power saving effect, the controller 136, when the touch idle mode is set, determines whether the touch screen mode belongs to each column Only some of the touch sensors, for example, about 50% of the touch sensors may be enabled at the same time. This will be described in detail later.

4A and 4B are diagrams illustrating a scan operation in a touch active mode according to an embodiment of the present invention.

4A and 4B, a plurality of switching elements SW may be included in the driving part 131 included in the touch-driving IC 130, and the plurality of switching elements may be connected to the sensor signal lines 120) and can be divided into each column unit.

The plurality of switching elements may be individually turned on / off by the controller 136 to enable a plurality of touch sensors belonging to each column individually.

For example, as shown in FIG. 4A, the controller 136 may control the switching elements individually via a bus line or the like, and in a touch active mode, a first row scan (row 1 scan) Only the first switching elements SW1 among the first to sixth switching elements SW1 to SW6 belonging to the respective columns among the plurality of switching elements included in the driving unit 131 And can be selectively turned on.

Accordingly, only the first touch sensors TS (R1, C1) to TS (R1, C6) of the first to sixth columns Col 1-6 belonging to the first row row1 are enabled, And the touch position can be detected.

4B, when performing the second row scan operation in the touch active mode, the controller 136 selects one of the plurality of switching elements included in the driving unit 131 , It is possible to selectively turn on only the second switching elements SW2 among the first to sixth switching elements SW1 to SW6 belonging to each column.

Accordingly, only the second touch sensors TS (R2, C1) to TS (R2, C6) of the first to sixth columns Col 1-6 belonging to the second row row 2 are enabled, And sequentially performs the third to sixth row scan (row 3 to 6) operations to detect whether or not the touch is active and to perform the touch position detection operation corresponding to the touch active mode normally have.

5 is a diagram illustrating a scan operation in a touch idle mode according to an embodiment of the present invention.

As described above with reference to FIGS. 4A and 4B, the driving unit 131 included in the touch-driving IC 130 may include a plurality of switching elements SW, May be independently connected to the sensor signal lines 120, and may be divided into the respective column units.

The plurality of switching elements may be individually turned on / off by the controller 136 to enable a plurality of touch sensors belonging to each column individually.

5, when the controller 136 performs a full screen scan operation in the touch idle mode, the controller 136 controls the plurality of switching elements (not shown) included in the driving unit 131, for example, Can be turned on at the same time.

Accordingly, all the touch sensors arranged in a plurality of rows and columns can be simultaneously enabled on the touch screen so that only the touch can be detected quickly and accurately. Here, the full screen scanning method may be variously referred to as a screen unit scanning method or the like.

As described above, the controller 136 can shorten the time required for the touch detection in the touch idle mode to be shorter than the time required for the touch detection in the touch active mode, in order to reduce the power consumption.

Furthermore, the controller 136 may simultaneously enable only some of the touch sensors belonging to each column, for example, about 50% of the touch sensors at the same time, in order to further improve the power saving effect.

6 is a view illustrating a part of a configuration of a touch screen according to an embodiment of the present invention.

As described above with reference to FIG. 5, the plurality of switching elements SW included in the driving unit 131 of the touch-sensitive IC may be muxes connected to the respective sensor signal lines and turned on / off individually have.

Referring to FIG. 6, the plurality of muxes may be independently connected to the sensor signal lines 120, and may be divided into each column. The plurality of muxes may be individually turned on / off by the controller 136 to enable multiple touch sensors belonging to each column individually.

For example, when the touch active mode is set, the controller 136 selects only the first muxes M1 among the first to sixth muxes M1 to 6 belonging to each column among the plurality of muxes Only the first touch sensors TS (R1, C1) to TS (R1, C6) of the first to sixth columns Col 1-6 belonging to the first row row1 can be selectively turned on A first row scan operation may be performed to enable or disable the touch operation.

The controller 136 then selectively turns on only the second muxes M2 among the first to sixth muxes M1 to M6 belonging to each column among the plurality of muxes, A second row scan operation for enabling only the second touch sensors TS (R2, C1) to TS (R2, C6) of the first to sixth columns Col 1-6 belonging to the second row row2, And sequentially performs the third to sixth row scans (row 3 to 6) operations to detect touch and touch positions corresponding to the touch active mode, Can normally be performed.

On the other hand, when the touch idle mode is set, the controller 136 simultaneously turns on all of the plurality of muxes to simultaneously enable all the touch sensors arranged in a plurality of rows and columns on the touch screen, It is possible to perform a screen scan operation so that only the touch can be detected quickly and accurately.

6, the mux is separately connected to the sensor signal line, for example, the selection signal SEL is input to one side of the mux, and the alternate voltage (VDRV), ground (GND), and driving voltage (CO).

The selection signal SEL is, for example, a control signal that the controller 136 selectively outputs to enable or disable the mux, and the alternate voltage VDRV is a control signal , A periodic alternating voltage with a predetermined potential difference (for example, 1 V) is applied to a non-sensing touch sensor adjacent to the touch sensor being sensed, for example, in a touch active mode .

The ground GND may be a zero voltage or a ground voltage having a predetermined DC value. The driving voltage CO may be detected based on a voltage change of the touch capacitance Ct generated in the touch sensor And may be applied with a pre-charge voltage to the touch sensor.

Here, the plurality of muxes may be included in the driving unit of the touch drive IC or may be installed outside the touch drive IC. For example, when the touch screen is integrally mounted on various types of displays such as an LCD or an AMOLED, the touch screen may be interlocked with the touch drive IC in a state where the touch screen is installed in a non-display area of the display.

FIGS. 7 and 8 illustrate a touch idle mode according to another embodiment of the present invention.

As described above, when the touch idle mode is set, the controller 136 can quickly detect whether or not the touch operation is performed while reducing the power consumption by applying, for example, a full screen scan method or a screen unit scan method have. Furthermore, the controller 136 may enable only a part of the touch sensors belonging to each column at the same time in order to further improve the power saving effect.

 For example, as shown in FIG. 7, only 50% of the touch sensors belonging to each column are intermittently enabled at the same time, or the touch sensors belonging to each column Only the touch sensors belonging to the central portion of the touch screen may be selected and enabled at the same time.

As described above, the touch idle mode for enabling or disabling touch of only a part of the touch sensors at the same time may be variously referred to as any other designation, for example, an ultra-power save mode .

The super power saving mode may be arbitrarily set by the controller 136. [ For example, the controller 136 may operate in conjunction with a DDI included in a display such as an LCD or AMOLED, or in conjunction with a CPU of an electronic device such as a smart phone, In the sleep mode, the touch idle mode or the super power saving mode can be set.

Accordingly, according to various embodiments of the present invention, it is possible to quickly and accurately detect whether or not a touch is made while reducing the power consumption during the touch idle mode, thereby improving the power saving effect. In addition to the switching from the touch idle mode to the touch active mode The operation can be performed quickly and accurately.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. Will be clear to those who have knowledge of.

100: touch screen 110: touch sensor
120: sensor signal line 130: touch drive IC
131: driving unit 132: touch detection unit
133: signal processing unit 134: memory unit
135: power supply unit 136: controller
137: timing controller 138: voltage generator
139:

Claims (20)

Touch sensors arranged in a plurality of rows and columns;
Sensor signal lines independently connected to the touch sensors; And
And a touch drive IC for receiving a touch capacitance generated by the touch sensor through the sensor signal line,
Wherein the touch driver IC is configured to enable the touch sensors simultaneously when the touch idle mode is set, and to detect whether or not the touch sensors are touched on a screen basis.
The method according to claim 1,
Wherein the touch driver IC sequentially activates a part of the touch sensors to detect a touch position when the touch active mode is set.
The method according to claim 1,
Wherein the touch driver IC enables all of the touch sensors or a part of the touch sensors simultaneously when the touch idle mode is set, and detects whether or not the touch is activated on a screen basis.
The method according to claim 1,
The touch drive IC includes:
When the power saving mode is set to the touch idle mode, all of the touch sensors are simultaneously enabled,
Wherein when the touch idle mode of the super power saving mode is set, a part of the touch sensors are enabled at the same time, and the touch screen is detected on a screen basis.
The method according to claim 1,
Wherein the touch driver IC is interlocked with a display drive IC included in the display, or interlocks with a CPU included in the electronic device to set the touch idle mode.
The method according to claim 1,
Wherein the touch drive IC is fabricated as a single IC integrated with the display drive IC integrated with the display drive IC included in the display.
The method according to claim 1,
The touch driver IC includes switching elements independently connected to the sensor signal lines and a controller for individually controlling the switching elements,
Wherein the controller is configured to control the switching elements individually when the touch idle mode is set to enable the touch sensors simultaneously.
8. The method of claim 7,
The switching elements are mux,
The mips are independently connected to the sensor signal lines,
A selection signal is input to one side of the mux,
Wherein at least one of an alternating voltage, a ground, and a driving voltage is input to the other side of the mux.
The method according to claim 1,
Switching elements independently connected to the sensor signal lines are disposed between the sensor signal lines and the touch drive IC,
The touch driver IC includes a controller for individually controlling the switching elements,
Wherein the controller is configured to control the switching elements individually when the touch idle mode is set to enable the touch sensors simultaneously.
10. The method of claim 9,
The switching elements are mux,
A selection signal is input to one side of the mux,
Wherein at least one of an alternating voltage, a ground, and a driving voltage is input to the other side of the mux.
11. The method of claim 10,
Wherein the mugs are installed in a non-display area of a display to which the touch screen is applied.
Touch sensors arranged in a plurality of rows and columns;
Sensor signal lines independently connected to the touch sensors; And
And a touch drive IC for receiving a touch capacitance generated by the touch sensor through the sensor signal line,
Setting a touch idle mode by the touch driver IC; And
Wherein the touch driver IC is configured to enable the touch sensors simultaneously when the touch idle mode is set, and to detect whether the touch driver IC is touching on a screen basis.
13. The method of claim 12,
Further comprising, when the touch active mode is set by the touch driver IC, sequentially activating a part of the touch sensors to detect a touch position.
13. The method of claim 12,
When the touch idle mode is set, the touch drive IC detects whether or not touch is performed in units of a screen by simultaneously enabling all of the touch sensors or a part of the touch sensors A method of controlling a touch screen.
13. The method of claim 12,
The touch drive IC includes:
When the power saving mode is set to the touch idle mode, all of the touch sensors are simultaneously enabled,
Wherein when the touch idle mode of the super power saving mode is set, a part of the touch sensors are enabled at the same time, and the touch screen mode is detected on a screen basis.
13. The method of claim 12,
The touch driver IC includes switching elements independently connected to the sensor signal lines and a controller for individually controlling the switching elements,
Wherein the controller controls the switching elements individually when the touch idle mode is set to simultaneously enable the touch sensors.
17. The method of claim 16,
The switching elements are mux,
The mips are independently connected to the sensor signal lines,
A selection signal is input to one side of the mux,
Wherein at least one of an alternating voltage, a ground, and a driving voltage is input to the other side of the mux.
13. The method of claim 12,
Switching elements independently connected to the sensor signal lines are disposed between the sensor signal lines and the touch drive IC,
The touch driver IC includes a controller for individually controlling the switching elements,
Wherein the controller controls the switching elements individually when the touch idle mode is set to simultaneously enable the touch sensors.
19. The method of claim 18,
The switching elements are mux,
A selection signal is input to one side of the mux,
Wherein at least one of an alternating voltage, a ground, and a driving voltage is input to the other side of the mux.
20. The method of claim 19,
Wherein the mugs are installed in a non-display area of a display to which the touch screen is applied.

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