KR20190069651A - Display Apparatus And Having The Same Vehicle - Google Patents

Abstract

According to one embodiment of the present invention, a display apparatus capable of more efficiently sensing touch of a user may comprise: a touch screen panel; a sensing unit sensing touch of a user and measuring dielectric constant of a touch medium when the touch of the user is sensed; and a control unit controlling at least one of touch sensitivity of the touch screen panel and a screen displayed on the touch screen panel based on the measured dielectric constant.

Description

Display Apparatus and Vehicles Containing the Same [

The present invention relates to a display device and a vehicle including the same. More particularly, the present invention relates to a technique for adjusting a touch sensitivity of a touch screen panel to a touch sensitivity corresponding to a sensed permittivity of a touch medium, .

In modern society, automobiles are the most common means of transportation and the number of people using them is increasing. Due to the development of automobile technology, there are many changes in life such as easy movement of long distance and ease of life.

Many electronic devices such as a hands-free device, a GPS receiver, a Bluetooth device, and a high-pass device have been developed for the convenience of the driver for the convenience of the driver. In the automotive technology field, have.

In addition, in recent years, many display devices including various functions have been mounted on a vehicle to visually provide a large amount of information to a user, and a touch screen display that is easy to operate among display devices is mounted on the display device.

A touch screen device such as a touch screen and a touch pad is an input device attached to a display device and capable of providing an intuitive input method to a user and is widely applied to various electronic devices such as a mobile phone, a PDA (Personal Digital Assistant) . In recent years, touch screen devices have been increasingly employed as touch screen devices capable of providing various input methods in a limited form factor.

The touch screen applied to a portable device can be divided into a resistance film type and a capacitance type according to a method of detecting the touch input. Among them, the capacitance type has a relatively long life and can easily implement various input methods and gestures Due to its merits, its application rate is increasing. In particular, the electrostatic capacity type can be widely applied to many devices because it is easy to implement the multi-touch interface as compared with the resistive type.

In general, when the user touches the touch panel, the user touches the touch panel with the glove and the stylus fan operates the touch panel. have.

 However, when the type of the applied touch is different, the size of the capacitance is different. However, in the case of the related art, it is difficult to recognize the accurate touch.

Accordingly, a display device and a vehicle including the same according to an embodiment of the present invention are designed to solve the above-mentioned problems. In the display device, when the touch of a user is sensed, the dielectric constant of the touch medium is measured. The present invention provides a vehicle including a display device and a display device capable of detecting a user's touch more efficiently by adjusting the sensitivity.

A display device according to an exemplary embodiment includes a touch screen panel, a sensing unit that senses a touch of a user and measures a dielectric constant of the touch medium when the touch of the user is sensed, and a sensing unit that senses a touch of the touch screen panel Sensitivity and a screen displayed on the touch screen panel.

Wherein the controller adjusts the touch sensitivity of the touch screen panel to the touch sensitivity corresponding to the measured dielectric constant when the measured dielectric constant is different from a predetermined permittivity of the touch screen panel.

Wherein the control unit controls the touch sensitivity of the touch screen panel to a value corresponding to the measured permittivity when the difference between the measured permittivity and a preset permittivity of the touch screen panel exceeds a preset predetermined value Display device that adjusts with touch sensitivity.

The controller may not change the touch sensitivity of the touch screen panel when the difference between the measured dielectric constant and the predetermined permittivity of the touch screen panel does not exceed a preset predetermined value.

Wherein the control unit adjusts the touch sensitivity of the touch screen panel to the touch sensitivity corresponding to the measured dielectric constant when the touch of the user is detected while the screen is off, ) Can heal.

The control unit may turn off the screen when another touch of the user is not detected until a first time elapses after the touch of the user is detected.

The controller may set the touch sensitivity of the touch screen panel to a default value when another touch of the user is not detected until a second time elapses after the touch of the user is sensed.

The sensing unit may include at least one sensor, and the sensor may repeatedly sense the touch of the user every predetermined period.

The sensor can measure the capacitance formed between the touch medium and the sensor and measure the dielectric constant of the touch medium based on the measured capacitance.

The sensor may be provided on at least one side of the display device.

Wherein the controller extracts the parameter of the touch medium based on the measured dielectric constant, and when the extracted parameter is different from the parameter set in the touch screen panel, the controller changes the touch sensitivity of the touch screen panel to the extracted parameter Can be adjusted to the corresponding sensitivity.

According to another embodiment of the present invention, a vehicle includes a display including a touch screen panel, a sensing unit for sensing a touch of a user and measuring a dielectric constant of the touch medium when the touch of the user is sensed, A touch sensitivity of the screen panel, and a screen displayed on the touch screen panel.

The controller may adjust the touch sensitivity of the touch screen panel to a touch sensitivity corresponding to the measured permittivity when the measured permittivity is different from a predetermined permittivity of the touch screen panel.

Wherein the control unit adjusts a touch sensitivity of the touch screen panel to a touch corresponding to the measured permittivity when a difference between the measured dielectric constant and a predetermined permittivity of the touch screen panel exceeds a preset predetermined value, The sensitivity can be adjusted.

The controller may not change the touch sensitivity of the touch screen panel when the difference between the measured dielectric constant and the predetermined permittivity of the touch screen panel does not exceed a preset predetermined value.

Wherein the control unit adjusts the touch sensitivity of the touch screen panel to a touch sensitivity corresponding to the measured dielectric constant when the touch of the user is detected while the screen is off, ON).

The control unit may turn off the screen when another touch of the user is not detected until a first time elapses after the touch of the user is detected.

The controller may set the touch sensitivity of the touch screen panel to a default value when another touch of the user is not detected until the second time passes after the touch of the user is detected.

The sensing unit may include at least one sensor, and the sensor may repeatedly sense the touch of the user every predetermined period.

The sensor can measure the capacitance formed between the touch medium and the sensor and measure the dielectric constant of the touch medium based on the measured capacitance.

The sensor may be provided on at least one side of the device of the display.

The sensor may be provided on at least one of the touch screen panel, the handle of the vehicle, the door, the dashboard, the switch, the start button, the center console and the center fascia.

Wherein the controller extracts the parameter of the touch medium based on the measured dielectric constant, and when the extracted parameter is different from the parameter set in the touch screen panel, the controller changes the touch sensitivity of the touch screen panel to the extracted parameter Can be adjusted to the corresponding sensitivity.

 Since the display device and the vehicle including the display device according to the embodiment adjust the touch sensitivity of the touch screen panel to the touch sensitivity corresponding to the dielectric constant of the measured touch medium when the touch of the user is detected, There is an effect of manipulating the panel.

1 is an external view showing an outer appearance of a vehicle according to an embodiment.
2 is an interior view showing an internal view of a vehicle according to an embodiment.
3 is a block diagram showing a part of the configuration of a vehicle according to an embodiment.
4 is a cross-sectional view of a touch screen panel according to an exemplary embodiment of the present invention.
5 is a diagram illustrating a sensing principle for sensing a user's touch according to an embodiment.
6 is a flowchart showing a control method of a vehicle according to an embodiment.
Figures 7-9 illustrate various locations in which sensors may be provided, according to one embodiment.
10 is a flowchart showing a part of components of a display apparatus according to another embodiment.

The embodiments described in the present specification and the configurations shown in the drawings are preferred examples of the disclosed invention, and various modifications may be made at the time of filing of the present application to replace the embodiments and drawings of the present specification.

Also, the terms used herein are used to illustrate the embodiments and are not intended to limit and / or limit the disclosed invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

In this specification, terms such as " comprise ", " comprise ", or "have ", when used in this specification, designate the presence of stated features, integers, Steps, operations, components, parts, or combinations thereof, whether or not explicitly described herein, whether in the art,

In addition, the terms including the ordinal numbers such as " first ", "second ", and the like used herein can be used to describe various components, but the components are not limited by the terms.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In order to clearly explain the present invention in the drawings, parts not related to the description will be omitted. A vehicle 100 provided with a display device 500 will be described with reference to FIGS. 1 and 2. FIG.

FIG. 1 is an external view of a vehicle 100 according to an embodiment, and FIG. 2 is a diagram illustrating an internal configuration of a vehicle 100 according to an embodiment.

Hereinafter, the description of the same contents will be described together to prevent duplication.

1, an appearance of a vehicle 100 according to an embodiment includes wheels 12 and 13 for moving the vehicle 100, a door 15L for shielding the inside of the vehicle 100 from the outside, A rear glass 18 providing a view of the rear of the vehicle 100 and a rear view of the vehicle 100 to the user to provide visibility to the user inside the vehicle 100 And side mirrors 14L and 14R.

The wheels 12 and 13 include a front wheel 12 provided at the front of the vehicle and a rear wheel 13 provided at the rear of the vehicle. A driving device (not shown) provided inside the vehicle 100 includes a vehicle 100 To the front wheel 12 or the rear wheel 13 to move forward or backward. Such a drive system may employ an engine that generates a rotational force by burning fossil fuel, or a motor that generates power by receiving power from a capacitor.

The doors 15L and 15R are rotatably provided on the left and right sides of the vehicle 100 so that the user or the passenger can ride inside the vehicle 100 at the time of opening and the inside of the vehicle 100 at the time of closing It can be shielded from the outside.

A knob 17L and 17R for opening and closing the door 15L may be provided outside the vehicle 100. A Bluetooth antenna capable of transmitting a low frequency signal may be provided on the knob 17L, A touch sensing unit capable of recognizing a touch input may be provided.

When the touch sensing unit of the doors 15L and 15R senses the touch input of the user while the user is holding a remote control device (not shown), the vehicle 100 is controlled by a remote control device (not shown) And when the authentication is completed, the door lock of the vehicle 100 is released and the door 15L can be opened by pulling the user's knob 17L. Here, the user may include not only the user but also the passenger boarded in the vehicle 100. [

The front glass 16 is provided on the front upper side of the main body so that a user inside the vehicle 100 can obtain time information in front of the vehicle 100. The windshield glass is also called a windshield glass.

The side mirrors 14L and 14R include a left side mirror 14L provided on the left side of the vehicle 100 and a right side mirror 14R provided on the right side. 100 and the time information of the side and rear of the display unit 100 can be obtained.

In addition, the vehicle 100 may include a proximity sensor for detecting rear or side obstacles or other vehicles, and a rain sensor for detecting rainfall and rainfall.

The proximity sensor can send a detection signal to the side or rear of the vehicle and receive a reflection signal reflected from an obstacle such as another vehicle. The presence or absence of an obstacle on the side or rear surface of the vehicle 100 can be detected based on the waveform of the received reflection signal and the position of the obstacle can be detected. As an example of such a proximity sensor, a method of transmitting an ultrasonic wave or an infrared ray and detecting a distance to an obstacle by using ultrasonic waves or infrared rays reflected by the obstacle may be employed.

Referring to FIG. 2, an AVN (Audio Video Navigation) terminal including a navigation device may be provided in a central area of the dashboard 23. The AVN terminal may be provided with a display 200 for displaying an image or an image provided by the terminal. The display 200 can selectively display at least one of an audio screen, a video screen, and a navigation screen, as well as a screen related to various control screens or additional functions related to the vehicle 100.

The display 200 may be implemented with a liquid crystal display (LCD), a light emitting diode (LED), a plasma display panel (PDP), an organic light emitting diode (OLED), or a cathode ray tube (CRT).

A center input unit 35 of a jog shuttle type may be provided between the driver's seat 18L and the passenger's seat 18R. The user can input the control command in such a manner that the center input unit 33 is turned, pressed, or pushed in the up, down, left, or right direction. A gear 33 for changing the engine mode of the vehicle 100 may be provided next to the center input unit 35. [

The vehicle 100 may include a speaker 29 capable of outputting sound. The speakers 29L and 29R can output sounds necessary for performing the audio function, the video function, the navigation function, and other additional functions.

The dashboard 23 on the driver's seat 18L side may be provided with a key groove 25 into which a remote control device (not shown, for example, a FOB key) can be inserted. A remote control device capable of starting the vehicle 100 to the key groove 25 can be inserted.

The dashboard 23 may be provided with a start button 31 for controlling on / off of the start of the vehicle 100. The remote control device may be inserted into the key groove 25, If the authentication between the device and the vehicle 100 is successful, the start of the vehicle 100 can be turned on by pressing the start button 31 of the user.

On the other hand, the vehicle 100 is provided with an air conditioner to perform both heating and cooling, and the temperature inside the vehicle 100 can be controlled by discharging heated or cooled air through the vents 21L and 21R .

1 and 2, the outer and inner configurations of the vehicle have been described. Hereinafter, a configuration and a control method of the present invention will be described with reference to the drawings.

3 is a block diagram showing a partial configuration of the vehicle 100 according to an embodiment.

3, a vehicle 100 according to an exemplary embodiment includes a display 200 including a display panel 210 and a touch screen panel 220 on which a user's touch is made, The sensing unit 300 for measuring the dielectric constant and the sensing sensitivity of the touch screen panel 220 and the screen displayed on the touch screen panel 220 based on the sensed permittivity and the permittivity value preset in the touch screen panel 220 And a control unit 400 for controlling at least one of the control unit 400 and the control unit 400.

The display 200 may include a display panel 210 for displaying an image and a touch screen panel 220 for receiving a touch input. ).

The display panel 210 and the touch screen panel 220 may be driven or controlled within the display 200. The present invention is not limited to this example, A touch screen control unit (not shown) may be included.

The display panel 210 may convert the image data received from the control unit 400 into an optical signal that can be viewed by the user.

The display panel 210 may be a cathode ray tube (CRT) display panel, a liquid crystal display (LCD) panel, a light emitting diode (LED) panel, an organic light emitting diode (OLED) ) Panel, a plasma display panel (PDP), and a field emission display (FED) panel.

 However, the display panel 210 is not limited thereto, and the display panel 210 may employ various displays capable of visually displaying an optical image corresponding to the image data.

The touch screen panel 220 may receive a user's touch input from the touch screen panel 220 and output an electrical signal corresponding to the received touch input to the control unit 400.

For example, the touch screen panel 220 senses a user's touch to the touch screen panel 220 from a change in electric resistance value or a change in capacitance, and transmits an electrical signal corresponding to the touch point coordinates of the user to the control unit 400). The controller 400 may determine the coordinates of the touch point of the user based on the electrical signal received from the touch screen panel 220. [

The touch screen panel 220 may be positioned on the front surface of the display panel 210. In other words, the touch screen panel 220 may be provided on a surface on which an image is displayed. As a result, the touch screen panel 220 may be formed of a transparent material so that the image displayed on the display panel 210 is not distorted.

The touch screen panel 220 may employ a resistive touch screen panel or a capacitive touch screen panel. However, the present invention is not limited to this, and the touch screen panel 220 may employ various touch screen panels capable of sensing the user's touch or approach, and outputting electrical signals corresponding to coordinates of the sensed touch point or coordinates of the approach point can do. 4 and 5, the structure and operation principle of the touch screen panel 220 will be described.

FIG. 4 illustrates a cross section of a touch screen panel 220 according to an exemplary embodiment. FIG. 5 illustrates a principle of sensing a touch when a user touches the touch screen panel 220. Referring to FIG.

4, the touch screen panel 220 may include a substrate 223, and a plurality of electrodes 221 and 222 provided on the substrate 223. Referring to FIG. Although not shown in the drawing, each of the plurality of electrodes 221 and 222 may be coupled to the substrate 210 through a wiring and a bonding pad, and may be electrically connected to a wiring pattern of an attached circuit board.

The plurality of electrodes 221 and 222 may be provided on one side or both sides of the substrate 223. In FIG. 4, the plurality of electrodes 221 and 222 have rhombic patterns. However, An electrode having various patterns can be provided. For example, it may be provided in a pattern of various polygonal shapes such as a rectangle and a triangle.

The plurality of electrodes 221 and 222 may include a first electrode 221 extending in the X axis direction and a second electrode 222 extending in the Y axis direction. Although the first electrode and the second electrode are shown as having four electrodes 221a, 221b, 221c, 221d, 222a, 222b, 222c, and 222d, respectively, the present invention is not limited thereto. can do.

 The first electrode 221 and the second electrode 222 may be provided on both sides of the substrate 223 or alternatively may be provided on different substrates 223 and may be provided on both sides of the substrate 223. In this case, A predetermined insulating layer may be partially formed at the intersection of the first electrode 221 and the second electrode 222. [

A device electrically connected to the plurality of electrodes 221 and 222 to sense a touch input detects a change in capacitance generated by the plurality of electrodes 221 and 222 by a touch input and senses a touch input therefrom.

FIG. 5 is a cross-sectional view of the touch screen panel 220 shown in FIG. 4 cut in a YZ plane. In addition to the substrate 223, the plurality of sensing electrodes 221 and 222 described in FIG. 4, (224). The cover lens 224 is provided on the second electrode 222 used for touch detection and can receive a touch input from the touch object 250 such as a finger.

When a driving signal is applied to the first electrode 221, coupling capacitance is generated between the first electrode 221 and the second electrode 222 to which the driving signal is applied. 5, when the touch medium 225 such as a finger of a user is brought into contact with the cover lens 240, the first electrode 220 and the second electrode 220, which are adjacent to the contact area of the touch medium 225, A change in capacitance occurs due to the influence of the touch medium 225.

The change in the capacitance may be proportional to the area of the overlapped region between the touch electrode 225 and the first electrode 221 and the second electrode 222 to which the driving signal is applied. Accordingly, the sensing unit 300 can determine whether a user's touch exists through this principle.

The touch medium may mean the type of touch, material, etc., and the touch sensitivity may be adjusted according to the type of the touch medium to be sensed.

 The touch sensitivity refers to the sensitivity when the touch screen panel 220 senses the user's touch, and can be variously changed according to the type of the touch medium to be sensed.

For example, when the user touches the display panel 220 with the finger, the finger may become the medium, and when the user touches the display panel 220 while wearing the glove, the glove may become the medium. In addition, when the user touches the touch screen panel 220 using a stylus pen capable of inputting data by touching lightly when dragging or clicking on the screen in the form of a pen, the stylus fan can be a medium.

If the medium is a glove or a stylus pen, the dielectric constant of the user's finger is not higher than that of the user's finger, so that the controller 400 can increase the touch sensitivity of the touch screen panel 220 to more sensitively detect the touch. A detailed description thereof will be described later.

The sensing unit 300 senses the user's touch and can measure the dielectric constant of the sensed touch medium when the touch is sensed.

 Accordingly, the sensing unit 300 may include various sensors 310 for sensing the user's touch. The sensor 310 may be provided at various positions of the vehicle to sense the user's touch.

 For example, at least one of the handle 27 of the vehicle, the handle 17 of the door, the dashboard 23, the inside handle 37, the start button 31, and the center fascia.

In FIG. 3, the sensing unit 300 is shown as a separate component from the display 200, but the present invention is not limited thereto. For example, the sensing unit 300 may be provided on at least one side of the display panel 210, or may be provided on the touch screen panel 220.

Accordingly, since the sensor 310 according to the embodiment can detect the user's touch at various positions, it is possible to more easily adjust the touch sensitivity of the touch screen panel 220 according to the user's environment. Will be described later.

When the touch of the user is sensed, the controller 400 controls the touch sensitivity of the touch screen panel 220 and the screen displayed on the touch screen panel 220 based on the dielectric constant of the touch medium measured by the sensing unit 300 You can control one.

Specifically, when the measured permittivity is different from the reference permittivity preset in the touch screen panel 220, the controller 400 can adjust the touch sensitivity of the touch screen panel 220 to a touch sensitivity corresponding to the measured permittivity have.

The preset reference permittivity means a touch sensitivity which is basically applied to the touch screen panel. Generally, a user touches the touch screen panel 220 using a finger, which may mean a corresponding touch sensitivity.

However, the reference permittivity is not limited to this, and the reference permittivity can be variously changed, and the user can set different values depending on the use environment. For example, when the user is wearing gloves and touching is a general environment, the dielectric constant having a high touch sensitivity can be set as the basic dielectric constant by increasing the reference dielectric constant.

The control unit 400 extracts the parameter of the touch medium based on the measured dielectric constant. If the extracted parameter is different from the parameter set in the touch screen panel 220, the controller 400 controls the touch sensitivity of the touch screen panel 220 Can be adjusted to the touch sensitivity corresponding to the extracted parameter. Where the parameter can be a dielectric constant and the dielectric constant can be a constant to modify the reference level of the touch IC.

The control unit 400 includes a memory for storing programs and data for controlling operations of the display panel 210 and the touch screen panel 220 and a display panel 210 and a touch screen panel 220 according to programs and data stored in the memory. And a microprocessor for performing operations to control the operation of the panel 220. [ The memory and the processor of the control unit 400 may be provided as separate chips or may be provided as a single chip.

The components of the vehicle 100 according to one embodiment have been described so far. Hereinafter, a method of operating the vehicle 100 according to an embodiment will be described.

Referring to FIG. 6, the sensor 310 installed in the vehicle 100 can sense a user's touch. (S100)

The sensor 310 may be provided on one side of the display 200 as well as the touch screen panel 220 of the display 200 as described above. For example, on the side or rear of the display 200 to sense a user's touch.

 Accordingly, even if the user first touches the other side of the display 200 without touching the touch screen panel 220, the dielectric constant of the touch medium is measured and the touch screen panel 220 of the touch screen panel 220, There is an effect that the user can operate the touch screen panel 220 more easily.

If the touch of the user is detected in step S100, the sensor 310 measures the dielectric constant of the sensed touch medium (S200)

As described above, the touch medium may refer to a type of touch, a material, or the like, which is sensed by the touch medium in order to perform a touch operation. The user's fingers may correspond to this, but the glove may be the touch medium when the user wears gloves. If the user touches the stylus pen, the stylus pen may become the touch medium.

If the dielectric constant of the touch medium is measured, it can be determined whether the difference between the measured dielectric constant and the preset reference dielectric constant of the touch screen panel 220 exceeds a preset predetermined value (S300).

The predetermined reference permittivity means a touch sensitivity which is basically applied to the touch screen panel. If the user touches the touch screen panel 220 using a finger, it means the corresponding touch sensitivity.

However, the touch medium is not limited to the user's fingers, and the user can set various parameters according to the usage environment.

The preset constant value refers to a reference difference value for adjusting the touch sensitivity when there is a difference between the measured permittivity and a preset permittivity.

 It is effective not to adjust the touch sensitivity if the difference between the measured permittivity and the preset reference permittivity is small enough that the difference does not need to be adjusted. Accordingly, when the measured dielectric constant and the predetermined reference dielectric constant and the difference do not exceed a preset predetermined value, the touch sensitivity is not adjusted.

However, since it is necessary to adjust the touch sensitivity when the measured dielectric constant and the predetermined reference dielectric constant and difference value exceed a preset predetermined value, in this case, the sensitivity of the touch screen panel 220 may be adjusted to the measured permittivity And then the screen of the touch screen panel 220 is turned on. (S400, S500)

As described above, the vehicle 100 according to the embodiment senses the touch of the user through the sensor 310 provided at various positions, and then controls the touch sensitivity corresponding to the dielectric constant of the measured touch medium There is an effect that the user can operate the touch screen panel 220 more easily.

6, when the touch of the user is detected while the screen of the touch screen panel 220 is turned off, the screen of the touch screen panel 220 is turned on after the touch sensitivity is adjusted However, the present invention is not limited thereto.

For example, when the screen of the touch screen panel 220 is turned on or a touch medium is continuously changed even in a process in which the user touches the touch screen panel 220, the touch screen panel 220 ) Can be adjusted.

In addition, although not shown in the figure, after the touch of the user is detected, if the user does not detect another touch until a predetermined first time elapses, the screen of the touch screen panel 220 is turned off .

This is for efficiently managing the generated power by continuously turning on the screen of the touch screen panel 220. When the preset first time has elapsed, it is determined that there is no touch by the user, The screen of the screen panel 220 can be turned off. Therefore, the first time may be set in various ways such as 10 seconds, 20 seconds, 30 seconds, 1 minute, 5 minutes, or the like depending on the usage environment, or may be set by the user.

In addition, the vehicle 100 according to the embodiment may detect the touch sensitivity of the touch screen panel 220 when another touch of the user is not detected until a second time elapses after the touch of the user is detected It can be set to default value.

Further, when the touch sensitivity of the touch screen panel 220 is changed and the second time passes, the touch sensitivity of the touch screen panel 220 can be changed to a default value. In this case, since the touch sensitivity of the touch screen panel 220 is set to a default value when another user operates the touch screen panel 220 later, the touch screen panel 220 can be operated more easily.

Therefore, the second time may be set in various ways such as 10 minutes, 20 minutes, 30 minutes, 1 hour or the like depending on the usage environment, or may be set by the user.

FIGS. 7-9 illustrate various locations where the sensor 310 may be provided, according to one embodiment.

Referring to FIG. 7, sensors 310a, 310b, and 310c may be provided on a handle 27 or touch screen panel 220 of the vehicle. The sensors 310a, 310b and 310c may be operated on the handle 27 or on the touch screen panel 220 because the user often operates the handle 27 or the touch screen panel 220 when the user is present in the vehicle 100. [ Lt; / RTI >

The sensors 310d, 310e and 310f are provided on the gear 33, the center input unit 35 of the jog shuttle type or the handle 37 of the vehicle 100 as shown in Figs. 8 and 9, Can be detected.

As shown in FIGS. 7 to 9, the vehicle 100 according to an embodiment senses the user's touch at various positions and then adjusts the touch sensitivity of the touch screen panel 220 based on the detected touch. When operating the screen panel 220, the touch sensitivity of the touch screen panel 220 is adjusted to the corresponding touch sensitivity of the touch medium, so that the user can more easily operate the touch screen panel 220.

7 to 9 show a position where the sensor 310 can be provided in a limited embodiment. However, the present invention is not limited thereto, and the sensor 310 may be provided at a position where the user can touch the touch panel.

10 is a block diagram showing some components of a display device 500 according to another embodiment.

Referring to FIG. 10, a display device 500 according to an exemplary embodiment includes a touch screen panel 700 on which a user's touch is performed, a sensing unit 600 for measuring a permittivity of a medium on which a touch is made, And a control unit 800 for controlling at least one of the touch sensitivity of the touch screen panel 700 and the screen displayed on the touch screen panel 700 based on the permittivity value preset in the panel 700. [

The sensing unit 600 and the touch screen panel 700 have the same configurations as those of the sensing unit 300 and the touch screen panel 220 described in FIG. 3, so that a description thereof will be omitted.

When the touch of the user is detected, the controller 800 controls the touch sensitivity of the touch screen panel 700 and the screen displayed on the touch screen panel 700 based on the dielectric constant of the touch medium measured by the sensing unit 600 You can control one.

Specifically, when the measured permittivity differs from the reference permittivity preset in the touch screen panel 700, the controller 800 can adjust the touch sensitivity of the touch screen panel 700 to the touch sensitivity corresponding to the measured permittivity have.

The preset reference permittivity means a touch sensitivity which is basically applied to the touch screen panel. In general, a user touches the touch screen panel 700 using a finger, which may mean a corresponding touch sensitivity.

However, the reference permittivity is not limited to this, and the reference permittivity can be variously changed, and the user can set different values depending on the use environment. For example, when the user is wearing gloves and touching is a general environment, the dielectric constant having a high touch sensitivity can be set as the basic dielectric constant by increasing the reference dielectric constant.

The control unit 700 extracts the parameter of the touch medium based on the measured dielectric constant. If the extracted parameter is different from the parameter set in the touch screen panel 220, the controller 700 controls the touch sensitivity of the touch screen panel 220 Can be adjusted to the touch sensitivity corresponding to the extracted parameter. Where the parameter can be a dielectric constant and the dielectric constant can be a constant to modify the reference level of the touch IC.

The display device 500 according to one embodiment and the vehicle 100 including the display device have been described so far.

 In the case of the related art, since the uniform touch sensitivity is applied even when the kind of the applied touch is different, it is difficult to recognize the accurate touch of the user.

However, since the display device 500 and the vehicle 100 according to the embodiment adjust the touch sensitivity of the touch screen panel to the touch sensitivity corresponding to the measured dielectric constant of the touch medium, it is possible to more effectively detect the touch of the user There is an effect.

Although the embodiments have been described with reference to specific embodiments and drawings, those skilled in the art will appreciate that various modifications and changes may be made by those skilled in the art without departing from the spirit and scope of the invention. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced. Therefore, other embodiments and equivalents to the claims are within the scope of the following claims.

100: vehicle
200: Display
210: display panel
220: Touch screen panel
300:
400:
500: display device

Claims (23)

Touch screen panel;
A sensing unit for sensing the touch of the user and measuring the dielectric constant of the touch medium when the touch of the user is sensed; And
And a controller for controlling at least one of a touch sensitivity of the touch screen panel and a screen displayed on the touch screen panel based on the measured dielectric constant. The method according to claim 1,
Wherein,
And adjusts the touch sensitivity of the touch screen panel to a touch sensitivity corresponding to the measured dielectric constant when the measured dielectric constant is different from a predetermined permittivity of the touch screen panel. The method according to claim 1,
Wherein,
And controlling the touch sensitivity of the touch screen panel to a touch sensitivity corresponding to the measured dielectric constant when a difference between the measured dielectric constant and a predetermined dielectric constant of the touch screen panel exceeds a preset predetermined value / RTI > The method according to claim 1,
Wherein,
Wherein the touch sensitivity of the touch screen panel is not changed when the difference between the measured dielectric constant and a preset dielectric constant of the touch screen panel does not exceed a preset predetermined value. The method according to claim 1,
Wherein,
And a controller for controlling the touch sensitivity of the touch screen panel to the touch sensitivity corresponding to the measured permittivity and then turning on the screen when the touch of the user is detected while the screen is off, Device. The method according to claim 1,
Wherein,
Wherein the display is turned off when another touch of the user is not detected until a first time elapses after the touch of the user is detected. The method according to claim 6,
Wherein,
And sets the touch sensitivity of the touch screen panel to a default value when another touch of the user is not detected until a second time elapses after the touch of the user is sensed. The method according to claim 1,
Wherein the sensing unit includes at least one sensor,
Wherein the sensor repeatedly senses the touch of the user at every preset cycle. 9. The method of claim 8,
The sensor includes:
And measuring a capacitance formed between the touch medium and the sensor, and measuring a dielectric constant of the touch medium based on the measured capacitance. 9. The method of claim 8,
The sensor includes:
And at least one side of the display device. The method according to claim 1,
Wherein,
Extracting a parameter of the touch medium based on the measured dielectric constant, and, when the parameter extracted is different from a parameter set in the touch screen panel, the touch sensitivity of the touch screen panel is adjusted to a value corresponding to the extracted parameter A display device controlled with sensitivity. A display including a touch screen panel;
A sensing unit for sensing the touch of the user and measuring the dielectric constant of the touch medium when the touch of the user is sensed; And
And a controller for controlling at least one of a touch sensitivity of the touch screen panel and a screen displayed on the touch screen panel based on the measured dielectric constant. 13. The method of claim 12,
Wherein,
And adjusts the touch sensitivity of the touch screen panel to the touch sensitivity corresponding to the measured dielectric constant when the measured dielectric constant is different from the predetermined permittivity of the touch screen panel. 13. The method of claim 12,
Wherein,
And controlling the touch sensitivity of the touch screen panel to a touch sensitivity corresponding to the measured dielectric constant when a difference between the measured dielectric constant and a predetermined dielectric constant of the touch screen panel exceeds a preset predetermined value Vehicle. 13. The method of claim 12,
Wherein,
Wherein the touch sensitivity of the touch screen panel is not changed when the difference between the measured dielectric constant and a preset dielectric constant of the touch screen panel does not exceed a preset predetermined value. 13. The method of claim 12,
Wherein,
And a controller for controlling the touch sensitivity of the touch screen panel to a touch sensitivity corresponding to the measured permittivity and turning on the screen when the touch of the user is detected in a state that the screen is off, . 13. The method of claim 12,
Wherein,
And turning off the screen when another touch of the user is not detected until a first time elapses after the touch of the user is detected. 18. The method of claim 17,
Wherein,
And sets the touch sensitivity of the touch screen panel to a default value when no further touch of the user is detected until a second time elapses after the touch of the user is detected. 13. The method of claim 12,
Wherein the sensing unit includes at least one sensor,
Wherein the sensor senses the touch of the user repeatedly every predetermined period. 20. The method of claim 19,
The sensor includes:
And measuring a capacitance formed between the touch medium and the sensor, and measuring a dielectric constant of the touch medium based on the measured capacitance. 20. The method of claim 19,
The sensor includes:
And at least one side of the display. 20. The method of claim 19,
The sensor includes:
Wherein the at least one of the touch screen panel, the handle of the vehicle, the door, the dashboard, the switch, the start button, the center console and the center fascia is provided. 13. The method of claim 12,
Wherein,
Extracting a parameter of the touch medium based on the measured dielectric constant, and, when the parameter extracted is different from a parameter set in the touch screen panel, the touch sensitivity of the touch screen panel is adjusted to a value corresponding to the extracted parameter Vehicle that adjusts with sensitivity.

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