KR20090072350A - Apparatus and operating method for touch screen - Google Patents

Abstract

A touch screen device and an operation method using a light receiving sensor which is reflected through a reflector and senses the light which is income to a touch panel are provided to implement the touch screen at low cost by using the light receiving sensor. Light generated in a display unit(102) is reflected through a reflector. A light receiving sensor(104) senses incidence to a touch panel. An OSD(On Screen Display) controller(108) controls a display unit in order that the light is generated through the display unit. An OSD controller controls the menu input according to the input position through the input signal sensed through the light receiving sensor.

Description

Touch screen device and its operation method {Apparatus and operating method for touch screen}

1 is a view illustrating a light generated by an image display device according to an exemplary embodiment of the present invention to be reflected by a reflector and sensed by a light receiving sensor.

2 is a block diagram illustrating a configuration of the touch screen device according to an exemplary embodiment of the present invention.

3 is a view showing a configuration for determining the position of the input light according to a preferred embodiment of the present invention.

4 is a flowchart illustrating a process of sensing light reflected through a reflector and determining a selected position according to an exemplary embodiment of the present invention to perform an operation.

`` Explanation of symbols for main parts of drawings ''

100 ... touch screen unit 102 ... display unit

104 ... Receive Sensor 106 ... Signal Processing Unit

108 ... OSD Control

The present invention relates to a touch screen device and an operation method using a light receiving sensor.

In general, a touch screen refers to a device that provides an interface between a screen screen such as a PDP, an LCD, or another type of flat panel display (FPD), which is an image information output device, and a user. Specific application examples of such touch screens include automatic cash advance and withdrawal devices of banks.

Basically, the touch screen is composed of a signal generator and a controller (for example, a computer). When the user's finger or indicator bar touches the screen, the signal generator on the screen screen reads the position in the horizontal and vertical coordinates, that is, the coordinates (x, y) and transmits it to the computer that is the controller.

The computer provides an interface between the user and the image by matching that position with the image at that position on the screen.

Nowadays, attention is shifting to more sophisticated technologies such as high reliability, the provision of new features, durability, and manufacturing techniques related to design and processing involving materials or materials, beyond meeting the general needs of these input devices.

In particular, the touch panel is known as an input device that is simple, has little misoperation, can be input by anyone while carrying it, and can input characters without any other input device. The touch panel is also known in detail for its detection method, structure and performance. have.

In brief, according to the detection method, a resistive type for detecting a change in a current or a voltage value of a position pressed by pressure in a state in which a DC voltage is applied, and a capacitance coupling in a state where an AC voltage is applied and a capacitive method using a coupling) and an electromagnetic induction method that detects a selected position as a change in voltage while a magnetic field is applied.

Each method has different characteristics such as signal amplification problem, resolution difference, and difficulty in design and processing technology.

Selection criteria include optical, electrical, mechanical, environmental and input characteristics, as well as durability and economy.

However, an infrared method is used in a large screen of 1 meter or more, and a plurality of light emitting / receiving sensors are used to determine the coordinates at which two light receiving units cross each other where no infrared light is detected as the touch screen is pressed.

As such, in order to realize a touch screen, a press detection film is attached to the entire screen or multiple light emitting sensors and light receiving sensors are used, which increases the product price.

An object of the present invention is to provide a touch screen device and a method of operating the touch screen device to implement a touch screen using only a light receiving sensor.

Another object of the present invention is to provide a touch screen device and a method of operating the same, to detect a light reflected by a reflector and determine a position to be touched.

A touch screen device according to the present invention for achieving the above object, the display unit for generating light; A light receiving sensor for detecting that light generated from the touch panel is reflected through a reflector and incident on the touch panel; A signal processor for amplifying a signal according to light detected by the light receiving sensor; And an OSD control unit for controlling light to be generated by time division through the display unit and controlling menu input according to an input position by using an input signal sensed by the light receiving sensor.

As an example, the light generated by the display unit may be light generated through a backlight.

As an example, the display unit may include at least one of an LCD panel, a PDP panel, and a CRT capable of displaying a screen.

As an example, the OSD controller may be configured to determine the input position by determining which region the light is reflected by varying the scanning time for each region.

Touch screen operating method according to the present invention for achieving the above object, the step of generating light in the display unit; The light reflected by the generated light on a reflector is incident to the display unit; Sensing the incident light in a light receiving sensor; Processing the sensed light signal; Determining a position at which the light is incident and performing a command according to an input to the corresponding position.

As an example, the light generated by the display unit may be used as a light source, and the light source may be detected by the reflector to detect light incident again and determine an input position.

As an example, the position where the light is incident may be determined by determining which region the light is reflected by varying the scanning time for each region.

Hereinafter, a touch screen device and an operation method thereof according to an exemplary embodiment will be described with reference to the accompanying drawings.

FIG. 1 is a diagram illustrating an example in which light generated in an image display device according to an exemplary embodiment of the present invention is reflected by a reflector and sensed by a light receiving sensor.

Referring to FIG. 1, light is generated through the display unit 102 of the touch screen device 100, and the generated light is reflected by the reflector 120 so that the light receiving sensor 104 detects the light again. Shall.

The light receiving sensor 104 shown in FIG. 1 is shown in a protruding form to aid understanding, but is included in the display unit 102.

The touch screen device 100 includes all devices for displaying a screen.

The display unit 102 represents a panel including a general LCD panel, a PDP panel, and a CRT.

Light may be incident through the reflector 120 using light generated through the display unit 102 as a light source.

The light receiving sensor 104 is configured with at least one minimum number, and the number varies depending on the size of the display unit 102.

The reflector 120 may include a finger, a ballpoint pen, a stylus pen, etc., capable of reflecting light generated by the display unit 102.

2 is a block diagram illustrating a configuration of the touch screen device according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the touch screen device 100 receives a light that detects that the light generated by the display unit 102 and the light generated by the display unit 102 are reflected through a reflector and incident on the touch panel. Through the signal processing unit 106 and the display unit 102 which amplify a signal according to the light detected by the sensor 104 and the light receiving sensor 104, the light is controlled by time division and the light receiving sensor 104 is generated. OSD control unit 108 to control the menu input according to the input position by using the input signal sensed through.

The OSD controller 108 controls to generate time-division light through the display 102.

The display unit 102 generates light through a backlight provided in the LCD panel or outputs an electron beam generated from an electron gun provided in the CRT panel.

When the light generated by the display unit 102 comes into contact with the reflector 120, the light is incident to the display unit 102 again.

The light receiving sensor 104 detects the incident light.

When the light receiving sensor 104 detects light and determines that it is a touch input by the reflector, the input signal is amplified by the signal processor 106.

The signal processing unit 106 is composed of a filter circuit to process the output to the correct signal by filtering according to the input signal of the light.

The OSD controller 108 determines an input signal transmitted from the signal processor 106 to perform an operation according to the touch input.

The OSD controller 108 controls to divide the light input area according to a menu configuring a screen through an application.

In addition, the OSD control unit 108 divides the region so that the scanning time is different according to the region, and if the reflected light by the reflector 120 is input to any one region, the OSD controller 108 determines a touch input to a corresponding position. Control to perform the operation according to the selection.

3 is a diagram illustrating a configuration for determining a position of input light according to a preferred embodiment of the present invention.

Referring to FIG. 3, an embodiment of the present disclosure provides a method of varying scanning time by dividing regions to determine positions of reflected light.

When it is assumed that the display unit 102 is divided into any one region 1, region 2, or region 3, the region division method may be classified by different scanning time on the screen for each region.

The scanning time according to the region is scanned by, for example, region 1 in 1 second, region 2 in 1.1 seconds, and region 3 in 1.2 seconds, so that the reflector 120 is located only when the reflector 120 is positioned on the region to be scanned. Since the light through the incident light is detected by the light receiving sensor 104 it is possible to determine the position to touch.

4 is a flowchart illustrating a process of sensing light reflected through a reflector according to an exemplary embodiment of the present invention and determining a selected position to perform an operation.

When the power is applied, light is generated through the display unit 102 (S400).

When the reflector 120 is close to the display unit 102, the generated light is reflected by the reflector 120 and is again incident on the display unit 102 (S404).

When the reflected light through the reflector 120 is incident, the incident light is detected by the light receiving sensor 104 (S404).

The input signal of the light detected by the light receiving sensor 104 is processed by the signal processing unit 106 through filtering according to the position (S406).

The operation is performed according to a position to be touched using the input signal data of the processed light (S408).

As described above, using the light generated through the panel as a light source, the generated light source is reincident to the panel by an arbitrary reflector, and the incident light is sensed by the light receiving sensor, and the position of the incident light is determined. By performing the operation according to the input position, there is an effect that can implement a low-cost touch screen using only the light receiving sensor.

So far, the present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. It can be implemented. Here, the essential technical scope of the present invention is shown in the claims, and all differences within the equivalent range will be construed as being included in the present invention.

According to the present invention, using the light generated through the panel as a light source, the generated light source is reincident to the panel by an arbitrary reflector and the incident light is sensed by the light receiving sensor to determine the position of the incident light. By performing the operation according to the input position, there is an effect that can implement a low-cost touch screen using only the light receiving sensor.

Claims (7)

A display unit for generating light; A light receiving sensor that detects light generated from the display unit to be reflected through a reflector and incident on the touch panel; A signal processor for amplifying a signal according to light detected by the light receiving sensor; And And an OSD controller for controlling light to be generated by time division through the display unit and controlling a menu input according to an input position by using an input signal sensed by the light receiving sensor. The method of claim 1, The light generated by the display unit is a touch screen device, characterized in that light generated through the backlight. The method of claim 1, The display unit may include at least one of an LCD panel, a PDP panel, and a CRT capable of displaying a screen. The method of claim 1, The OSD controller may be configured to determine an input position by determining which area reflects light by varying scanning time for each area. Generating light from the display unit; The light reflected by the generated light on a reflector is incident to the display unit; Sensing the incident light in a light receiving sensor; Processing the sensed light signal; Determining a position at which the light is incident and performing a command according to an input to a corresponding position. The method of claim 5, And a light source generated by the display unit as a light source, and determining an input position by detecting light that is reflected by the reflector and then incident again. The method of claim 5, Where the light is incident to the touch screen operation method characterized in that by determining the area in which the light is reflected by varying the scanning time for each region.

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