KR20110077536A - Apparatus for measuring response time of electrostatic capacity type touch screen panel - Google Patents

Abstract

PURPOSE: A reaction time measurement system of an electrostatic capacitive type touch screen panel is provided to measure a response time even in an environment below zero 20°C using a plurality of probes in order to transmit a plurality of touch signals. CONSTITUTION: A probe(10) receives a touch signal and makes a touch screen panel recognizing a touch state. A controller(50) controls a touch signal delivered to the probe. A measuring sensor(20) recognizes an image displayed on an image display unit according to the touch signal. According to a signal outputted in the measuring sensor, a measuring unit(30) measures a response time. A PC(40) receives and processes the measured response time and outputs a reaction time.

Description

Apparatus for measuring response time of electrostatic capacity type touch screen panel}

The present invention relates to an apparatus for measuring a reaction time of a capacitive touch screen panel, and to an apparatus capable of measuring a reaction time of an image display unit with respect to a touch signal of a probe even in an environment of minus 20 ° C.

Recently, with the development of computer technology, a computer-based system for various uses has been developed. Also, key input is performed by a device by pressing or touching a certain number of keys within the operating range of a human hand. Do it.

However, the user needs a device that can be used conveniently for the purpose of accuracy, speed, and convenience, which is the original purpose of using a computer.This is more difficult to select by pressing the display screen directly with a finger than by pressing a key. And easy to understand.

In recent years, computers have been rapidly increasing in speed and low in price, and the user interface has shifted from a keyboard input to a pointing device centered on a mouse. Increasingly, users are demanding the ease of use of computers with high speed and low cost.

The touch panel is an input device that can be easily used by anyone of all ages by interactively and intuitively operating a computer by simply touching a button displayed on a display with a finger.

A touch panel is a device mounted on the surface of a display device to convert physical contact of a user's finger or touch pen into an electrical signal and output the electrical signal. A liquid crystal display and a plasma display panel are used. It is applied to panels, EL (electro-luminescence) devices, and the like.

The touch panel is classified into a capacitive type, a resistive film type, an ultrasonic type, an infrared type, and the like according to an operating principle, among which a capacitive type and a resistive film type are widely used.

The resistive method, which accounts for about 60% of the entire touchscreen market, has two ITO coatings that work by detecting the location of the voltage changes caused by the two layers when pressure is applied to the surface.

Relatively inexpensive manufacturing cost, high recognition resolution, no functional loss due to dust or moisture on the surface, but due to the use of two ITO coating layers, the transparency is lowered and the average lifetime is 1 million touch, which has the disadvantage of durability. have.

On the other hand, the recent increase in mobile phone adoption accounts for more than 18% of the total touch screen market, and the capacitive method, which is gradually increasing in demand, has ITO film under ITO coated glass, applies voltage to the touch screen panel, It works by locating the position using a voltage that changes when a conductive object touches it.

Since the surface is made of tempered glass, it is durable, hardly affected by foreign substances or contamination, and has an average lifetime of more than 50 million touches.

In the case of manufacturing such a touch panel, a device is needed to measure whether the response time actually falls within the specification. Conventional reaction time measuring equipment is mainly used at room temperature, there is a problem that is not suitable for use in extreme environments, such as minus 20 ℃.

The present invention is to solve the problems described above, an embodiment of the present invention, by using a plurality of probes to enable a plurality of touch signals to provide a device that can measure the reaction time in an environment of minus 20 ℃. It is related to doing.

According to an embodiment of the present invention, a probe for receiving a touch signal to the touch screen panel to recognize the touch state; A control unit controlling a touch signal transmitted to the probe; A measurement sensor for recognizing an image displayed on the image display unit according to the touch signal; A measuring instrument for measuring a response time according to a signal output from the measuring sensor; And a PC for receiving and processing the response time measured by the measuring instrument to output the reaction time. The reaction time measuring apparatus of the capacitive touch screen panel is provided.

According to an embodiment of the present invention as described above, first, a plurality of probes are provided to enable the transmission of a plurality of touch signals, so that response time for various user environments can be measured.

Second, since the touch signal is transmitted by shorting the relay, accurate time measurement is possible even in an environment of minus 20 ° C.

Hereinafter, a preferred embodiment of a reaction time measuring device of a capacitive touch screen panel according to an embodiment of the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

In addition, the following examples are not intended to limit the scope of the present invention, but merely illustrative of the components set forth in the claims of the present invention, which are included in the technical spirit throughout the specification of the present invention and constitute the claims Embodiments that include a substitutable component as an equivalent in the element may be included in the scope of the present invention.

1 is a cross-sectional view of a probe of the reaction time measuring device of the capacitive touch screen panel according to an embodiment of the present invention, Figure 2 is a reaction time measuring device of a capacitive touch screen panel according to an embodiment of the present invention Is a schematic diagram.

Reaction time measuring apparatus of the capacitive touch screen panel according to an embodiment of the present invention, the probe 10 to receive a touch signal to the touch screen panel to recognize the touch state; A controller 50 for controlling a touch signal transmitted to the probe 10; A measurement sensor 20 recognizing an image displayed on the image display unit according to the touch signal; A measuring device 30 measuring a response time according to the signal output from the measuring sensor 20; And a PC 40 that receives and processes the response time measured by the measuring device 30 and outputs the response time.

As shown in FIG. 2, the measuring apparatus of the present invention includes a probe 10, a controller 50, a measurement sensor 20, a measuring instrument 30, and a PC 40.

Since the probe 10 of the present invention is applied to a capacitive touch screen panel, when a touch signal is transmitted to the probe 10 so that a capacitive coupling occurs and a change in an electric field occurs, the user presses the touch screen panel. Similarly, the touch screen panel recognizes it. That is, the probe 10 does not necessarily have to be in physical contact with the touch screen panel.

As shown in FIG. 1, even when there is a predetermined distance between the probe 10 and the touch screen panel, when a touch signal is transmitted to the probe 10, the touch screen panel senses a touch so that the user presses the touch screen panel. Can be recognized.

An image is formed on the image display unit by the touch signal. As shown in FIG. 2, since the test is performed in a dark chamber, when an image is formed, the pattern of the image display unit is changed to cause a change in the values of illuminance and luminance. The measurement sensor 20 recognizes such a change in illuminance and luminance. Therefore, a photo sensor or the like capable of detecting such changes in illuminance and luminance is used as the measurement sensor 20.

The measuring sensor 20 transmits the output signal according to the pattern change to the measuring instrument 30 through the measuring cable. The meter 30 transmits the received response time to the PC 40. The measuring device 30 uses an oscilloscope or the like capable of receiving a value output from the measuring sensor 20.

The PC 40 finally outputs the response time T2 of the touch screen panel. The time T0 that the PC 40 is finally delivered is the time T3 that the meter 30 responds to, and the time that the meter 30 transmits, in addition to the reaction time T2 that the measurement sensor 20 responds to. 40 includes the time T4 received. Accordingly, the response time T2 of the touch screen panel is the time T3 at which the measuring device 30 responds to the value T0 received by the PC 40 and the time transmitted by the measuring device 30. ) Is obtained by subtracting the time T4.

The typical time T3 responds to the measurement instrument 30 by 1 ms, which may vary depending on the measurement cable and the usage environment, and thus calibration according to the test environment is required.

The controller 50 is a part for transmitting a touch signal to the probe 10. It is also possible to implement the present invention using only the PC 40 when the control unit 50 functions in the PC 40 without being formed separately from the PC 40. In this case, the PC 40 serves as the controller 50.

In the apparatus for measuring a reaction time of a capacitive touch screen panel according to an exemplary embodiment of the present invention, the probe 10 may be provided in plural to transmit a plurality of touch signals to the touch screen panel at the same time.

As shown in FIG. 1, a plurality of probes 10 are required for measuring a reaction rate when a plurality of touch screen panels are pressed. For example, in order to transmit a touch signal for a state in which several numbers are pressed, a probe 10 capable of receiving a touch signal to recognize each touch signal must be provided.

In the apparatus for measuring a reaction time of a capacitive touch screen panel according to an exemplary embodiment of the present invention, the control unit 50 includes a relay and a touch signal to the probe 10 in a manner of shorting the relay. To pass.

As shown in FIG. 1, since the relay and the probe 10 are connected, when the relay is shorted, an electrical short circuit of the probe, which is the end of the probe 10, is made. In this case, a change in electric field occurs, and the touch screen panel recognizes a touch state.

The probe, which is the end of the probe 10, is made conductive so as to transmit an electrical signal, and the shape of the probe may be formed in various ways to resemble a user's finger or other various usage environments.

Since the touch signal is transmitted by shorting the relay, accurate time measurement can be performed even in an environment of minus 20 ° C.

As shown in FIG. 2, the probe 10 and the measurement sensor 20 are located in the chamber at minus 20 ° C., and the meter 30, the PC 40, and the controller 50 are located outside the chamber. Therefore, the measuring instrument 30, the control part 50, etc. can be operated outside a chamber.

Since the touch screen panel should be sufficiently soaked in the chamber at minus 20 ° C, it is possible to install a plurality of separate temperature sensors in the chamber to measure the temperature in the chamber.

The reaction time can be measured by comparing the values through several experiments to increase the accuracy of the experiments. In order to obtain an experimental value corresponding to various environments used by an actual user, not only the number of input touch signals but also the degree of short circuit of each touch signal may be changed.

It is possible to reduce the measurement error by applying a thin film to the cable used for the measurement equipment because it is used at sub-zero temperatures outdoors.

1 is a cross-sectional view of a probe of the reaction time measuring apparatus of the capacitive touch screen panel according to an embodiment of the present invention;

2 is a schematic diagram of an apparatus for measuring a reaction time of a capacitive touch screen panel according to an exemplary embodiment.

※ Explanation of code about main part of drawing

10: probe

20: measurement sensor

30: measuring instrument

40: PC

50: control unit

Claims (3)

A probe for receiving a touch signal to allow the touch screen panel to recognize a touch state; A control unit controlling a touch signal transmitted to the probe; A measurement sensor recognizing an image displayed on an image display unit according to the touch signal; A measuring instrument measuring a response time according to the signal output from the measuring sensor; And Reaction time measurement device of a capacitive touch screen panel comprising a; PC for receiving the response time measured by the measuring instrument and processing the output response time. The method of claim 1, The probe is a reaction time measuring device of the capacitive touch screen panel, characterized in that a plurality of the plurality of touch signals to the touch screen panel is provided at the same time. The method according to claim 1 or 2, The control unit includes a relay, Reaction time measuring device of the capacitive touch screen panel, characterized in that for transmitting the touch signal to the probe in a manner that short-circuit the relay.

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