KR20090076125A - Method for calculating a touch coordinates of touchscreen and apparatus using the same - Google Patents

Abstract

A method for calculating touch coordinates of a touch screen and an apparatus using the same are provided to calculate accurate coordinates of two points touched by a user. A sensor unit(10) senses an object approaching a touch screen or a touched object. If the approach of the object or a touch is sensed by the sensor unit, a capacitance measuring unit(20) measures the capacitance in the sensor unit. A switch unit(30) controls the opening/closing operations of a switch connected to the sensor unit in order to calculate the coordinates of a dual touch point. If the dual touch is generated, a controller(40) controls the switch unit so as to reconstruct the sensor unit, and calculates coordinates of the dual touch point based on the measured capacitance value.

Description

Method for calculating a touch coordinates of touchscreen and apparatus using the same}

The present invention relates to a method for calculating coordinates for two points touched simultaneously and a device using the same in a dual layer capacitive touch screen including two ITO panels.

Modern mobile phone terminal devices such as PDAs (Personal Digital Assistants), Portable Multimedia Players (PMPs), MP3 players, cellular phones, and the like are becoming smaller and smaller in size for easy portability and portability.

Therefore, a touch screen method is adopted to replace a conventional key button input method so that a user can select and input information more conveniently. The touch screen method may directly input or output information by interfacing with a computer through a screen. If a touch of a person's hand or an object is displayed on a character or a specific location on the screen, the touch screen detects coordinates of the contacted location. do.

Then, specific processing corresponding to a menu of coordinates selected by the software is executed using the coordinates. Accordingly, the touch screen provides a function as an information display unit and a function as an input unit.

The touch screen may be classified in various ways, and according to its operating principle, capacitive overlay, resistive overlay, surface acoustic wave, infrared beam, etc. There is this.

The resistive touch screen is formed by coating a resistive material on a glass or transparent plastic plate and covering a polyester film thereon, and insulating bars are installed at regular intervals so that the two surfaces do not touch each other. It changes and the voltage changes, which recognizes the position of the touched hand as much as the change in voltage.

The surface ultrasonic touch screen has a transmitter attached to one corner of the glass to emit sound waves, a reflector to reflect sound waves at regular intervals, and a receiver attached to the other side thereof. When an object that disturbs sound waves, such as a finger, interferes with the path of sound waves, the point of time is calculated to recognize the touch point.

The infrared touch screen is a method that uses the straightness of infrared light which is invisible to the human eye. The infrared LED and the phototransistor, which are light emitting elements, are arranged to face each other to form a matrix. It detects the light blocking sensor to recognize the touch point.

The capacitive touch screen is coated with a special conductive metal on both sides of the glass to apply a voltage to the four corners of the screen to generate a high frequency on the surface of the touch screen. Recognize.

The capacitive touch screen can be broadly divided into two types, a single layer method using a single sheet of Indume Tin Oxide (ITO) panel and a dual layer method using two ITO panels. There is this.

The single layer capacitive touch screen is a single layer ITO panel, which forms a single sensor, thereby increasing the accessibility when implementing a 3D touch screen. There is a disadvantage that the resolution is inferior and is affected by parts other than the finger approaching to touch the touch screen, such as the back of the hand or the wrist.

1A and 1B illustrate a dual layer method among capacitive touch screens.

As shown in FIG. 1A, a plurality of touch sensors are arranged as each row / column to measure x-axis and y-axis coordinates in each layer. Each touch sensor increases the capacitance value when a target object such as a finger approaches or touches the touch screen, and calculates touch coordinates by using a touch sensor having an increased capacitance value.

The dual layer capacitive touch screen may be configured by arranging diamond type touch sensors in rows / columns as shown in FIG. 1A, or as a thin and long bar type as shown in FIG. 1B. It may be composed of touch sensors.

The dual layer capacitive touch screen can improve the accuracy of the touched point, but when two points are touched at the same time (hereinafter, 'dual touch'), the exact coordinate values of the two points There is a limit that cannot be measured.

Although research on the dual touch has been actively conducted, current technology is only able to grasp the relative movement of two points rather than measuring the exact coordinates of two points.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to propose a method for calculating the exact coordinates of two touched points and a device using the same when two touches are simultaneously touched on a touch screen. .

In order to solve the above object, a new touch sensor group is formed using the touch sensors included in each row / column, and an accurate touch point is calculated using the capacitance value of the formed touch sensor group.

According to the present invention, even when a dual touch occurs, accurate coordinates of the touch point can be calculated, thereby increasing the user's reliability of the touch screen.

In addition, the present invention can be usefully used in a terminal and the like with a small screen size.

In addition, various user interfaces can be constructed in games, web browsing, and the like, and the panel of the conventional capacitive touch screen can be used as it is, so there is no cost increase factor and it is economical in terms of price.

The present invention relates to a method for calculating coordinates for two points touched simultaneously and a device using the same in a dual layer capacitive touch screen including two ITO panels.

The method of calculating touch coordinates in a touch screen according to an embodiment of the present invention is a method of calculating coordinates of two points simultaneously touching a dual layer capacitive touch screen, wherein the capacitance value changes Extracting two x-axis sensors and two y-axis sensors corresponding to the coordinates of the touched two points; based on the extracted two x-axis sensors and the two y-axis sensors, two dual Forming a touch sensor; And calculating coordinates of two points simultaneously touching the touch screen based on capacitance values measured from the two dual touch sensors.

Preferably, forming two dual touch sensors by using the extracted two x-axis sensors and the two y-axis sensors may include: one of the two extracted x-axis sensors and the extracted two The method may further include forming a dual touch sensor by connecting one of the y-axis sensors.

Preferably, connecting the one of the two extracted x-axis sensor and any one of the two extracted y-axis sensor to form a dual touch sensor, the extracted two x-axis sensor A switch is installed between any one of the sensors and any one of the extracted two y-axis sensors to form the dual touch sensor by closing the switch.

In accordance with another aspect of the present invention, an apparatus for measuring touch coordinates in a touch screen includes: a touch screen of a dual layer capacitive type sensor, the sensor unit sensing a target object approaching or touching the touch screen; A capacitance measuring unit measuring a capacitance in the sensor unit when an approach or a touch of the target object is detected by the sensor unit; A switch unit for adjusting opening and closing of a switch connected to the sensor unit so as to calculate coordinates of a dual touch point; And a controller configured to control the switch unit to reconfigure the sensor unit when the dual touch occurs, and calculate coordinates of the dual touched point based on the capacitance value measured by the capacitance measuring unit.

Preferably, the sensor unit comprises a first sensor unit arranged in a predetermined axial direction of the touch screen; And a second sensor unit arranged perpendicular to the first sensor unit, wherein the first sensor unit and the second sensor unit include a plurality of touch sensors.

Preferably, the switch unit forms a dual touch sensor by connecting any one of the plurality of touch sensors included in the first sensor unit and any one of the plurality of touch sensors included in the second sensor unit. do.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement and understand the present invention.

2 is an exemplary view for explaining a method of calculating coordinates of two points simultaneously touched according to an embodiment of the present invention.

In a touch screen having rows / columns of touch sensors arranged in a diamond shape as illustrated in FIG. 2, it may be assumed that various cases in which two points are simultaneously touched.

First, it may be assumed that two points to be touched are located in parallel with each touch sensor arranged in rows / columns. For example, when A and B, A and C, B and D, C and D are touched simultaneously, the touch sensor for any one of the x / y axes has only one touch sensor with increasing capacitance value. Therefore, the coordinates for the two touched points can be easily calculated.

For example, if the A and B points are touched simultaneously, the y2 touch sensor will detect the highest capacitance among the y-axis touch sensors, and the x2 touch sensor and the x5 touch sensor will detect the highest capacitance among the x-axis touch sensors. . Therefore, the two touched points A and B can be easily calculated using the measured capacitance values.

As a second, it may be assumed that the two touched points are located so as not to be parallel to each touch sensor arranged in rows / columns. For example, when touching two points diagonally to each other, such as points A, D, B, and C, since each touch sensor included in the x / y axis has two touch sensors of increasing capacitance value, Unlike the first case, the touch point cannot be easily measured.

For example, if the A and D points are touched simultaneously, the x2 touch sensor and the x5 touch sensor will detect the highest capacitance among the x-axis touch sensors, and the y2 touch sensor and the y5 touch sensor will have the highest capacitance among the y-axis touch sensors. Will detect.

Accordingly, when two points are touched in the diagonal direction as in the second case, two candidate groups, that is, (A, D) and (B, C) are formed, and the coordinates of the actual touched points of these two candidate groups are calculated. Can be.

The touch coordinate measuring method according to an embodiment of the present invention measures two touch points simultaneously touching the touch screen by reconfiguring four touch sensors forming the two candidate groups to form a new dual touch sensor.

More specifically, in the above example, one dual touch sensor (first dual touch sensor) is formed by connecting the x2 touch sensor and the y2 touch sensor, and the other dual touch sensor (by connecting the x2 touch sensor and the y5 touch sensor). Second dual touch sensor).

More specifically, for example, a method of forming the first dual touch sensor may be formed between a x2 touch sensor and a y2 touch sensor and a new dual touch sensor may be formed by closing the switch. This will be described in detail with reference to FIG. 4.

Next, the dual touch point may be accurately measured by comparing the capacitance value measured by the first dual touch sensor with the capacitance value measured by the second dual touch sensor.

For example, when the capacitance value measured from the first dual touch sensor formed by connecting the x2 touch sensor and the y2 touch sensor is greater than the capacitance value measured from the second dual touch sensor formed by connecting the x2 touch sensor and the y5 touch sensor, Since more touches are generated in the area detected by the first dual touch sensor, it may be determined that B and C points are touched in FIG. 2.

On the contrary, when the capacitance value measured from the second dual touch sensor is larger, it may be determined that the points A and D are touched.

As described above, when two points are simultaneously touched on the touch screen, two touch sensors and a total of four touch sensors are calculated on each axis, and new touch sensors are formed using the calculated four touch sensors. As a result, accurate touch coordinates can be measured.

3 is a block diagram showing the configuration of a coordinate measuring apparatus according to an embodiment of the present invention.

Touch coordinate measuring apparatus according to an embodiment of the present invention, in the dual layer (dual layer) capacitive touch screen, the sensor unit 10 for detecting the object approaching or touch the touch screen; A capacitance measuring unit 20 for measuring the capacitance in the sensor unit 10 when the approach or touch of the target object is detected by the sensor unit 10; Switch unit 30 for adjusting the opening and closing of the switch connected to the sensor unit 10 to calculate the coordinates of the dual touch point; And control the switch unit 30 to reconfigure the sensor unit 10 when the dual touch occurs, and adjust the coordinates of the dual touched point based on the capacitance value measured by the capacitance measuring unit 20. It includes a control unit 40 for calculating.

The sensor unit 10 may include a first sensor unit (for example, an x-axis touch sensor unit) arranged in a predetermined axial direction of the touch screen and a second sensor unit (for example, y arranged vertically with the first sensor unit). Shaft touch sensor unit).

In addition, the sensor unit of each axis includes a plurality of touch sensors. In FIG. 3, six rows of diamond-type touch sensors are provided in each row / column, but this is merely an example for easy description of the present disclosure, and the present disclosure is not limited thereto.

In addition, each of the touch sensors included in each axis is connected to the switch unit 30 to form a dual touch sensor through proper reconfiguration when a dual touch occurs.

A switch is installed between all pairs (Xi, Yi) of the x-axis touch sensor and the y-axis touch sensor, and the capacitances of the sensors or the dual sensors on each axis can be measured by opening and closing the switches.

4 is an exemplary view illustrating a switch connection state according to an embodiment of the present invention. 4 exemplarily illustrates a dual touch sensor formed by connecting an y2 touch sensor among an x2 touch sensor and an y-axis touch sensor among x-axis touch sensors.

The switch unit 30 forms one dual touch sensor by closing a switch connecting the x2 touch sensor and the y2 touch sensor, and the capacitance measuring unit 20 measures the capacitance value by the formed dual touch sensor. By comparing the value with the capacitance value measured from another dual touch sensor, an accurate dual touch point can be calculated.

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. Could 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.

1A and 1B are views illustrating a configuration of a general dual layer capacitive touch screen.

2 is an exemplary view for explaining a method for measuring two points touched simultaneously in accordance with an embodiment of the present invention.

3 is a block diagram showing a configuration of a coordinate measuring apparatus according to an embodiment of the present invention.

4 is an exemplary view showing a switch connection state according to an embodiment of the present invention.

   ※ Description of the main parts of the drawings ※

10: sensor unit 20: capacitance measurement unit

30: switch unit 40: control unit

Claims (7)

In the method for calculating the coordinates of two points that are simultaneously touched on a dual layer capacitive touch screen, Extracting two x-axis sensors and two y-axis sensors corresponding to the coordinates of the two touched points based on the changing capacitance value; Forming two dual touch sensors using the extracted two x-axis sensors and the two y-axis sensors; And And calculating coordinates of two points simultaneously touching the touch screen based on capacitance values measured from the two dual touch sensors. The method of claim 1, Forming two dual touch sensors by using the extracted two x-axis sensors and the two y-axis sensors, Touching the touch screen, characterized in that to form a dual touch sensor by connecting any one of the extracted two x-axis sensor and any one of the two extracted y-axis sensor How to measure coordinates. The method of claim 2, Forming a dual touch sensor by connecting any one of the two extracted x-axis sensor and any one of the two extracted y-axis sensor, A touch is installed between any one of the two extracted x-axis sensors and one of the two extracted y-axis sensors, and the touch is formed by closing the switch to form the dual touch sensor. How to measure touch coordinates on the screen. In the dual layer capacitive touch screen, A sensor unit detecting an object approaching or touching the touch screen; A capacitance measuring unit measuring a capacitance in the sensor unit when an approach or a touch of the target object is detected by the sensor unit; A switch unit for adjusting opening and closing of a switch connected to the sensor unit so as to calculate coordinates of a dual touch point; And And a controller configured to control the switch unit to reconfigure the sensor unit when the dual touch occurs, and calculate a coordinate of the dual touched point based on the capacitance value measured by the capacitance measuring unit. Touch coordinate measuring device in. The method of claim 4, wherein The sensor unit, A first sensor unit arranged in a predetermined axial direction of the touch screen; And And a second sensor unit arranged perpendicularly to the first sensor unit. The method of claim 5, The touch sensor of claim 1, wherein the first sensor unit and the second sensor unit include a plurality of touch sensors. The method according to claim 4 or 6, The switch unit may form a dual touch sensor by connecting any one of the plurality of touch sensors included in the first sensor unit and one of the plurality of touch sensors included in the second sensor unit with a switch. Touch coordinate measuring device of the touch screen.

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