KR101644693B1 - Touch screen with cyclotron capacitive multi-touch positioning - Google Patents

Abstract

]의 변형을 이용하여 전류의 회선 보상을 실현하여, 이러한 구조를 통해 단층 전도성 회로는 터치포인트의 X축과 Y축 좌표위치를 계산하고, 자기 커패시턴스형 및 상호 커패시턴스형 터치 IC와 결부하여 터치포인트의 진실한 좌표위치를 반영한다. The present invention provides a method and structure for circuit-free multi-touch point positioning of a kind of capacitive touch screen, which provides a new type of conductive circuit to the touch panel, and the wiring of the conductive circuit is composed of a unit shape [

, The single layer conductive circuit calculates the coordinates of the X and Y axes of the touch point and forms a touch point by associating with the magnetic capacitance type and mutual capacitance type touch IC, Lt; RTI ID = 0.0 > coordinates.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-touch point positioning method and a capacitance touch screen,

The present invention relates to a method and structure for line conservative multi-touch point positioning of a kind of capacitive touch screen, and more particularly to a method and structure for positioning calculation of a capacitance touch screen and a touch panel positioning circuit of a touch panel.

The capacitance touchscreen operates using human body charge sensing. Conventional capacitive touchscreen substrates are equipped with X and Y upper and lower conductive circuits. The operation principle is based on the X-axis and Y-axis touch point capacitances of the upper and lower two layers And determines positions touched by hand in the X axis and Y axis directions through the processing of the touch IC, thereby determining the touch point coordinates of the finger on the touch screen. Since the two-layer conductive circuit on the upper and lower sides of the X-axis and the Y-axis must be installed, it is disadvantageous for the promotion application of the capacitance touch screen because of a lot of manufacturing procedures and high production cost.

Currently, there is a single-layer capacitive touch screen on the market. The triangular unit shape is used as a conductive circuit and the coordinate is calculated by the amount of area change in the axis direction of the figure. The axis of the material figure axis can be judged only by a single touch point, The demand of multi-touch point can not be satisfied.

]의 변형을 통해 전류의 회선보상기술을 실현하였으며, 그리하여 단층 터치스크린에서 진실한 멀티 포인트 응용을 실현하는 본 발명을 제안한다. Considering the above demand, the inventor of the present invention has proposed a capacitance touch screen multi-touch point positioning method with a new concept through a long time research and development in order to compensate for the shortcoming of existing technology,

], Thus realizing the circuit compensation technique of the current, and thus the present invention realizing a true multi-point application in a single-layer touch screen.

]를 선택하여 변형하여 사용한다. 동시에 자기 커패시턴스형 감지를 결부, 즉 자기 커패시턴스 단독 전도체의 전위 값이 변화시 수요하는 전하량에 따라 계산하는 감지 및 상호 커패시턴스형 감지를 결부, 즉 상호 커패시턴스 두개 인근 전도체사이 커패시턴스 값에 따라 계산하는 감지를 이용하여 고스크 이미지를 제거하고, 전반적이고 완벽한 멀티 터치 기능을 실현한다. The present invention provides a method and structure for circuit-based multitouch point positioning of a type of capacitive touch screen, wherein the method comprises providing a single layer conductive circuit on a substrate, wherein each conductive cable of the conductive circuit is an independent telecommunication channel, When touching the touch screen, the touch IC has several conductive cable capacitances that a finger touches? Based on the change, the touch point determines the coordinates in the X-axis and Y-axis directions, and the corresponding single-layer conductive circuit is extended to the end and the lateral direction by applying a special unit circuit diagram. The unit circuit diagram is composed of [

] Is selected and used. At the same time, the detection of magnetic capacitance type sensing, that is, the sensing which calculates according to the amount of electric charge required when the potential value of a single conductive element changes, and the mutual capacitance type sensing, that is, the calculation which calculates according to the capacitance value between two adjacent mutual capacitances To eliminate the goscy images and realize the overall and multi-touch function.

]를 선택하여 변형하여 사용하고, 해당 단원 회로도를 중복, 배선하여 본 발명의 터치 판넬 단층 전도성 케이블을 구성한다. 해당 자기 커패시턴스형 감지는,자기 커패시턴스 단독 전도체의 전위 값이 변화시 수요하는 전하량에 따라 계산하는 방식에 따라 감지하며, 해당 상호 커패시턴스형 감지는 상호 커패시턴스 두개 인근 전도체(예하면 평행판 콘덴서의 두개 박판)사이 커패시턴스 값에 따라 계산하는 방식에 따라 감지한다.The capacitive touchscreen line-by-line multi-touch point positioning structure consists of modules such as single layer conductive circuit, unit circuit diagram, magnetic capacitance type sensing, mutual capacitance type sensing. The single-layer conductive circuit is a single-layer conductive circuit provided on the substrate. Each conductive cable of the conductive circuit is an independent electric communication channel. The unit circuit diagram is a [

Is selected and modified, and the unit circuit diagram is overlapped and wired to constitute the touch panel single-layer conductive cable of the present invention. The magnetic capacitance type sensing is performed according to a method of calculating the electric potential value of the magnetic capacitance single conductor according to the amount of electric charge required when the change is made. The mutual capacitance type sensing is performed by using two adjacent mutual capacitors (for example, ) According to the method of calculating the capacitance value.

]의 변형을 이용하는 회선보상형식이므로, 손가락으로 터치 시, 최소 3~5개 전도성 채널에 커패시턴스 신호 감지량이 있도록 확보할 수 있으며, 자기 커패시턴스형 및 상호 커패시턴스형 감지 방식의 터치 IC와 결부하여, 터치포인트의 진실한 좌표위치를 반영할 수 있다. The capacitance touch screen multi-touch point positioning pattern in the present invention includes a conductive channel in which the unit circuit diagram is distributed in both the X axis direction and the Y axis direction during the design, so there is no limitation in determining only a single touch point in the axial direction at the time of coordinate calculation , [Swastika] or [

], It is ensured that the capacitive signal detection amount can be ensured in at least three to five conductive channels when touching with a finger. In connection with the touch IC of the magnetic capacitance type and mutual capacitance type sensing method, It is possible to reflect the true coordinate position of the point.

The effects of the present invention are as follows. Capacitance touch screen has been changed to existing single layer conductive circuit positioning method to single layer conductive material (or other transparent conductive material) circuit positioning method, satisfying the demand of multi-touch point positioning, material consumption is greatly reduced, Thereby reducing the production cost of the capacitance touch screen, thereby benefiting the large-scale promotion application of the capacitance touch screen.

1 is a single-layer conductive circuit diagram of the present invention.
FIG. 2 is an explanatory diagram of a magnetic capacitance type sensing coordinate positioning in the present invention.
FIG. 3 is a cross-capacitance type sense coordinate positioning explanatory diagram of the present invention.
Fig. 4 is an exploded explanatory diagram 1 of an embodiment of a touch screen structure according to the present invention.
Fig. 5 is an exploded explanatory diagram of an embodiment of a touch screen structure according to the present invention.

The present invention will now be described more fully with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

]의 변형 도형을 적용하였고, 해당 단원 회로도(11)는 종향 및 횡향으로 연장되어 대면적의 터치 판넬을 형성한다. 1, in the single-layer conductive circuit 1 of the present invention, the circuit wiring pattern of the corresponding single-layer conductive circuit 1 is composed of a new concept unit circuit diagram 11, Swastika] or [

], And the corresponding unit circuit diagram 11 extends in the longitudinal direction and the lateral direction to form a large-sized touch panel.

]의 변형 도형을 적용한 단원 회로도(11)를 적용하여, 여러개 해당 단원 회로도(1)를 연결, 배선하여 터치 판넬의 단층 전도성 회로(1)의 주요 구조를 구성했으며, 해당 단층 전도성 회로도(1) 구조 방식으로 커패시턴스 신호의 회선보상을 실현했다. 해당 포지셔닝 방식에서 이용한 단층 전도성 회로(1)의 각 전도성 케이블은 확정된 커패시턴스 값을 가지며, 손가락으로 터치스크린을 터치하면, 터치 IC가 손가락이 터치한 여러개 전도성 케이블 커패시턴스 값의 변화여부에 따라, 터치포인트가 X축 및 Y축에서의 위치를 확정한다. The present invention relates to a method for producing [

And the main circuit structure of the single-layer conductive circuit 1 of the touch panel is constructed by connecting and wiring a plurality of the corresponding unit circuit diagrams 1 by applying the unit circuit diagram 11 to which the deformed figure of the touch panel is applied. The line compensation of the capacitance signal is realized by the structure method. Each conductive cable of the single layer conductive circuit 1 used in the positioning method has a definite capacitance value. When the touch IC touches the touch screen with a finger, depending on whether or not the conductive IC capacitance values of the touches The point determines the position in the X and Y axes.

]의 단원 회로도(11)를 연결하고, 중앙에 감지 중심점을 설정한다. 해당 감지 중심점은 터치 손가락을 중심으로 한 8~10mm 원형 범위내에 위치한다. 터치할 때, 감지 중심점과 주변의 상하 좌우 4개 인접한 센서는 모두 커패시턴스 값을 생성하며, 감지 중심점의 커패시턴스 값 및 상하 좌우 4개 인근의 커패시턴스 값을 상호 계산하여, 확실한 터치포인트 위치 및 이동 위치량을 확정할 수 있다. Four [swastika] or [

] To connect the unit circuit diagram (11) and set the sensing center point in the center. The sensing center point is located within a circular range of 8 to 10 mm around the touch finger. When touching, the sensing center point and the adjacent four sensors in the upper, lower, left, and right sides generate a capacitance value, and the capacitance value of the sensing center point and the capacitance values near the four upper, lower, right and left sides are mutually calculated, . ≪ / RTI >

2 is an explanatory diagram of coordinate positioning using magnetic capacitance type sensing 2; When touching the vicinity of the center point 111 channel of the swastika type unit circuit diagram 11 with the finger, the center point 111, the right point 112, the upper point 113, the left point 114, The center point 111 has the largest magnetic capacitance value among the corresponding touch point angle sensing channels, and the center point 111 has the largest magnetic capacitance value of the right touch point 112, The sum of the upper end point 113, the left end point 114, and the lower end point 115 capacitance values. The center point 111 is the origin of the coordinate axis, the right point 112 is the positive direction of the X axis, the top point 113 is the positive direction of the Y axis, the left point 114 is the negative direction of the X axis, 115) is the -direction of the Y axis.

Therefore, the coordinate position of the corresponding touch point is the sum of the center point 111, the right point 112, the upper point 113, the left point 114, and the lower point 115 according to the magnetic capacitance detection.

3 is a coordinate positioning explanatory view of the mutual capacitance detection 3; When the finger is clicked near the channel of the touch screen center point 111, the center channel 111 is used as a driving signal channel and four channels such as a right point 112, an upper point 113, a left point 114 and a lower point 115 It is possible to detect a mutual capacitance change value between the center point 111 and the right point 112, the upper point 113, the left point 114 and the lower point 115,

Therefore, the coordinates of the touch point correspond to the capacitance value of the center point 111 and the mutual capacitance value change Y between the center point and the right point 112 and the mutual capacitance value change Y between the center point and the upper end point 113 A mutual capacitance value change between the center point and the left point 114; an X-axis direction increase amount 123; a mutual capacitance value change between the center point and the lower end point 115; ).

Fig. 4 is an exploded explanatory diagram 1 of an embodiment of a touch screen structure according to the present invention. The structure of the touch screen includes a glass surface 4, a shading printing ink layer 5, an optical adhesive layer 0, a flexible printed circuit board 6, a metal conductive layer 7, a single layer conductive circuit 1, The transparent base layer 9 and the sensing IC 8 are provided on the flexible printed circuit board 6 and the metal conductive layer 7. [

Fig. 5 is an exploded explanatory diagram of an embodiment of a touch screen structure according to the present invention. The structure of the touch screen includes a glass surface 4, a shading printing ink layer 5, a transparent conductive layer of the single-layer conductive circuit 1, a metal conductive layer 7, and a flexible printed circuit board 6, The sensing IC 8 is mounted on the flexible printed circuit board 6 and the metal conductive layer 7.

The effects of the present invention are summarized as follows. The circuit compensation method is realized by using the [swastika] type circuit wiring structure, and the relative capacitance difference near the touch point is detected and calculated in the single layer touch screen, thereby realizing relatively accurate coordinates at the time of touch and maintaining the demand of multi touch point Thereby greatly reducing material consumption and simplifying the production process, thereby reducing the production cost of the capacitance touch screen, thereby benefiting the large-scale promotion and application of the capacitance touch screen.

The above description is a comparatively preferred embodiment of the present invention. Therefore, any method or structure change of the present invention and other equivalent effects applying the content of the patent application scope are possible, and all should be included within the scope of the patent application of the present invention .

1: Single layer conductive circuit 11: Unit circuit diagram
111: center point 112: right point
113: Top point 114: Left point
115: lower end point 121: X axis + increment
122: Y axis + increment 123: X axis - increment
2: magnetic capacitance detection 3: mutual capacitance detection
4: glass surface 5: shading printing ink layer
6: flexible printed circuit board 7: metal conductive layer
8: sensing IC 9: transparent base layer
0: Optical adhesive layer

Claims (4)

A single-layer conductive circuit is provided on a substrate, and the single-layer conductive circuit is constituted by a plurality of unit circuit diagrams. Capacitance relating to magnetic capacitance sensing and mutual capacitance sensing is installed between the multiple unit circuit diagrams,
Wherein the unit circuit diagram is a deformed unit diagram of a swastika type and constitutes a single layer conductive circuit, and when the touch screen is touched, the unit circuit diagram realizes circuit compensation and multi-touch point positioning according to a swastika shape. How to position multi-touch points on a screen. The method of claim 1, wherein the conductive cable sensing method of the single layer conductive circuit includes magnetic capacitance sensing and mutual capacitance sensing. 3. The method of claim 2, wherein the magnetic capacitance sensing is determined by a capacitance value of a center point, a right point, an upper point, a left point, and a lower point with respect to a coordinate position of the corresponding touch point, Way. 3. The method of claim 2, wherein the mutual capacitance sensing is performed such that a coordinate position of the corresponding touch point is a center point capacitance value, a mutual capacitance change amount between a center point and an upper point, a Y axis + Mutual capacitance change between center point and left point X axis - Increment amount, Mutual capacitance change between center point and bottom point Capacitance determined by sum of Y axis - Increment amount Line conservative multi-touch point positioning method of touch screen.

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