KR101353509B1 - Apparatus for measuring capacity of touch screen panel - Google Patents

Abstract

The present invention relates to apparatus for measuring capacity of a touch screen panel according to the specification of the touch screen panel, which includes: a logic part which generates an excitation signal of a reference frequency and then applies the excitation signal to a loaded touch screen panel; a signal conversion part converting a discharge signal per channel outputted from the touch screen panel into a digital signal; and a control part sensing the amount of capacity change of a pixel unit at each channel by using the digital signal. [Reference numerals] (20) Logic part; (30) Signal conversion part; (40) Control part

Description

Apparatus for measuring capacity of touch screen panel}

The present invention relates to an apparatus for measuring the capacitance of a touch screen panel in pixels.

Recently, a touch screen panel (TSP), which is widely applied to a mobile communication terminal, a personal digital device, a computer, and the like, inputs a user's command by selecting instructions displayed on a screen of a display device as a human hand or an object. Recently, various input devices have been used.

The touch screen panel includes a resistive film type, a capacitive type, a surface ultrasonic type, and an infrared type according to a method of sensing a contacted part.

The capacitive type uses a transparent substrate coated with a thin conductive material. When a certain amount of current flows on the surface of the transparent substrate and the user touches the surface of the coated transparent substrate, a certain amount of current is absorbed into the user's body and the touched portion is recognized by recognizing a portion where the current amount of the contact surface is changed. . The capacitive touch screen panel has two types of sensing electrodes for recognizing the X-axis coordinates and the Y-axis coordinates to accurately determine the contact position on the contact surface.

Mass-produced touch screen panels are finally inspected. The inspection process is a process for screening out defective products. All products produced are inspected for the touch sensing function.

However, the above-described test is to test the sensing function according to whether or not the touch, and to check whether the capacitance value required at the time of touch is sufficiently measured. This is done under the assumption that no errors such as open or short between pixels occur in the touch screen panel's own structure.

As a result, in the touch screen panel in which an error such as an open or a short between pixels is present, the above inspection has no meaning. Therefore, it is necessary to measure whether or not the capacitance value of the touch screen panel itself is at the level defined in the specification.

DISCLOSURE OF THE INVENTION An object of the present invention is to provide a capacitance measuring apparatus of a touch screen panel that allows measurement of the capacitance of a touch screen panel in pixel units, in particular, in accordance with product specifications.

A feature of the capacitive measurement apparatus of the touch screen panel according to the present invention for achieving the above object is, the logic unit for generating an excitation signal of the reference frequency applied to the loaded touch screen panel for each channel, and output from the touch screen panel And a control unit for converting the discharge signal for each channel into a digital signal, and a control unit for sensing an amount of change of capacity in pixels in each channel using the digital signal.

Preferably, as the discharge signal for each channel is output in parallel may be further provided with a mux for converting the discharge signal for each channel into a serial signal to output to the signal conversion unit.

Preferably, the apparatus may further include a communication module configured to transmit the amount of change in capacity in units of pixels to the outside.

Preferably, the logic unit may generate a square wave having the reference frequency and apply the channel to the touch screen panel for each channel.

Preferably, the logic unit may be generated by changing a reference frequency of the excitation signal according to a product specification of the loaded touch screen panel.

Preferably, the logic unit may change the number of channels to which the excitation signal is applied according to a product specification of the loaded touch screen panel.

The display unit may further include a display unit configured to display the amount of change in capacitance in units of pixels detected by the controller for each channel. Herein, the display unit may display the amount of change in capacitance in units of pixels detected by the controller as a waveform.

Preferably, the discharge signal may be a capacitance value of a pixel unit for each channel.

According to the present invention, the capacitance change amount can be detected according to the specification of the touch screen panel.

In particular, it is possible to measure the data necessary for the detection of an open between pixels of a touch screen panel or a short between pixels. That is, the capacitance detected at the time of short-circuit between the pixel and the capacitance value detected at the time of opening between pixels according to the difference between the detected slope and the potential difference compared to the reference data (the reference slope and the reference potential difference). Allows you to detect a value.

1 is a block diagram showing the configuration of an apparatus for measuring capacitance of a touch screen panel according to the present invention;
2 is a block diagram illustrating a configuration of an apparatus for measuring capacitance of a touch screen panel according to an exemplary embodiment of the present invention;
3 is a block diagram illustrating a configuration of a capacitance measuring apparatus of a touch screen panel according to another exemplary embodiment.

Other objects, features and advantages of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a configuration and an operation of an embodiment of the present invention will be described with reference to the accompanying drawings, and the configuration and operation of the present invention shown in and described by the drawings will be described as at least one embodiment, The technical idea of the present invention and its essential structure and action are not limited.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the capacitance measuring device of the touch screen panel according to the present invention.

1 is a block diagram showing a configuration of a capacitance measuring apparatus of a touch screen panel according to the present invention.

Referring to FIG. 1, an apparatus for measuring capacitance of a touch screen panel according to the present invention includes a logic unit 20 for generating an excitation signal having a reference frequency and a signal converter for converting an output of the touch screen panel 10 into a digital signal. 30, and a control unit 40 for detecting the amount of change in capacitance using a digital signal.

The logic unit 20 generates excitation signals having different reference frequencies according to the specifications of the touch screen panel (TSP) 10. As an example, the touch screen panel 10 may have various specifications such as capacitance of 10 to 100 Hz, capacitance of 1 to 10 Hz, or capacitance of 0.1 to 1 Hz, depending on the purpose or purpose. In addition, the touch screen panel 10 may have a specification in which the number of channels provided in the vertical and horizontal directions is different.

Accordingly, the logic unit 20 sets the measurement range according to the capacitance of the loaded touch screen panel 10 when the touch screen panel 10 is loaded, and sets the reference frequency corresponding to the set measurement range. Generate an excitation signal. In addition, when the touch screen panel 10 is loaded, the logic unit 20 generates an excitation signal corresponding to the number of channels provided in the vertical and horizontal directions of the loaded touch screen panel 10.

The logic unit 20 applies the generated excitation signal to the loaded touch screen panel 10 for each channel. Here, the excitation signal is preferably a square wave signal.

The logic unit 20 may be implemented as a Field Programmable Gate Array (FPGA) or a Complex Programmable Logic Device (CPLD).

The signal converter 30 converts the discharge signal for each channel output from the touch screen panel 10 into a digital signal. The signal converter 30 converts an analog signal into a digital signal, and converts a discharge signal for each channel into a digital signal of a predetermined bit string.

The controller 40 detects the amount of change in capacitance in each channel in each channel by using the digital signal output from the signal converter 30. That is, the controller 40 calculates a capacitance value in units of pixels using the digital signal output from the signal converter 30, and detects the amount of capacitance variation in units of pixels therefrom. The capacitance value may include a self capacitance value and a parasitic capacitance value of the touch screen panel 10.

Meanwhile, the signal converter 30 and the controller 40 may be connected to a SPI (Serial Peripheral Interconnect) bus or an I2C (Inter-Integrated Circuit) bus.

2 is a block diagram illustrating a configuration of an apparatus for measuring capacitance of a touch screen panel according to an exemplary embodiment.

Referring to FIG. 2, the capacitance measuring apparatus according to an embodiment includes a logic unit 120 generating an excitation signal having a reference frequency and a mux 130 outputting an output of the touch screen panel 110 as a serial signal. ), A signal converter 140 for converting the output of the MUX 130 into a digital signal, a controller 150 for detecting a change in capacitance using a digital signal, and an amount of change in capacitance detected by the controller 150. It comprises a communication module 160 to transmit to.

The logic unit 120 generates excitation signals having different reference frequencies according to the specifications of the loaded touch screen panel 110. Here, the logic unit 120 may be an FPGA or CPLD that generates a square wave signal as an excitation signal. Accordingly, the logic unit 120 sets a measurement range according to the capacitance of the loaded touch screen panel 110, generates an excitation signal having a different reference frequency according to the set measurement range, and generates the generated excitation signal. Is applied to the touch screen panel 110 for each channel.

Preferably, the logic unit 120 is generated by changing the reference frequency of the excitation signal according to the product specifications of the touch screen panel 110, and also the number of channels for applying the excitation signal according to the product specifications of the touch screen panel 110. It is desirable to change.

The output of the touch screen panel 110 is output in parallel for each channel.

The mux 130 outputs the channel-specific discharge signal in parallel, and converts the channel-specific discharge signal into a serial signal and outputs the serial signal to the signal converter 140.

The signal converter 140 converts the discharge signal for each channel, which is output from the touch screen panel 110 and passed through the mux 130, into a digital signal. The signal converter 140 converts an analog signal into a digital signal, and converts a discharge signal for each channel into a digital signal of a predetermined bit string. As another example, a calibration engine may be further provided at a rear end of the signal converter 140.

The controller 150 calculates a capacitance value in units of pixels using a digital signal output from the signal converter 140, and detects a change amount of capacity in units of pixels for each channel from the calculation result. Here, the capacitance value may include a self capacitance value and a parasitic capacitance value of the touch screen panel 110.

The communication module 160 transmits the result detected by the controller 150 to the outside in cooperation with the controller 150.

3 is a block diagram illustrating a configuration of an apparatus for measuring capacitance of a touch screen panel according to another exemplary embodiment.

Referring to FIG. 3, a capacitance measuring apparatus according to another embodiment includes a logic unit 220 generating an excitation signal having a reference frequency and a mux 230 outputting an output of the touch screen panel 210 as a serial signal. ), A signal converter 240 for converting the output of the MUX 230 into a digital signal, a controller 250 for detecting a capacitance change using a digital signal, and a capacitance change detected by the controller 250 externally. Communication module 260 for transmitting to the display unit, and the display unit 270 for displaying the amount of change of the capacity sensed by the control unit 250.

The logic unit 220 generates excitation signals having different reference frequencies according to the specifications of the touch screen panel 210. Here, the logic unit 220 may be an FPGA or CPLD that generates a square wave signal as an excitation signal. Accordingly, the logic unit 220 sets a measurement range according to the capacitance of the touch screen panel 210, generates an excitation signal having a different reference frequency according to the set measurement range, and touches the generated excitation signal. The screen panel 210 is applied to each channel. In addition, when the touch screen panel 210 is loaded, the logic unit 220 generates an excitation signal corresponding to the number of channels provided in the vertical and horizontal directions of the touch screen panel 210 and applies it for each channel. To this end, the logic unit 220 changes and sets the reference frequency of the excitation signal according to the product specification of the touch screen panel 210 and changes and sets the number of channels to which the excitation signal is applied. Accordingly, the logic unit 220 is generated by changing the reference frequency of the excitation signal according to the product specification of the loaded touch screen panel 210, and applies the generated excitation signal by changing the number of channels.

The reason why the reference frequency of the excitation signal is changed or the number of channels to which the excitation signal is applied is because the manufacturer of the touch screen panel 21 manufactures the reference frequency and the vertical and horizontal channel number applied among the characteristics of the product. . Therefore, in the present invention, it is preferable to set the reference frequency of the excitation signal differently or set the number of channels to which the excitation signal is applied differently according to the specification of the touch screen panel 210 loaded as the measurement target.

The mux 230 converts the discharge signal for each channel output in parallel for each channel from the touch screen panel 210 into a serial signal and outputs the serial signal to the signal converter 240.

The signal conversion unit 240 converts the serial channel-specific discharge signal output from the mux 230 into a digital signal. The signal converter 240 converts a series of channel-specific discharge signals corresponding to analog signals into digital signals of a predetermined bit string.

The controller 250 calculates a capacitance value in pixels including a self capacitance value and a parasitic capacitance value in pixels by using the digital signal output from the signal converter 240, and calculates a channel value from the calculation result. Detect the amount of change in pixels.

The communication module 260 cooperates with the controller 250 and transmits the result detected by the controller 250 to the outside.

The display unit 270 cooperates with the controller 250 to display the result detected by the controller 250 for each channel. That is, the controller 250 displays the amount of change in capacitance detected on a pixel-by-channel basis. In particular, the display unit 270 displays the amount of change in capacitance in units of pixels detected by the controller 250 as a waveform.

As a result, a short circuit between the pixel and the capacitance value detected at the time of opening between pixels according to the difference between the slope and the potential difference of the waveform displayed through the display unit 270 compared with the reference data (reference slope and reference potential difference). The capacitance value detected at the time can be detected.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore to be understood that the embodiments of the invention described herein are to be considered in all respects as illustrative and not restrictive, and the scope of the invention is indicated by the appended claims rather than by the foregoing description, Should be interpreted as being included in.

10, 110, 210: touch screen panel 20, 120, 220: logic unit
30, 140, 240: signal conversion unit 130, 230: mux
40, 150, 250: control unit 160, 260: communication module
270:

Claims (9)

A logic unit generating an excitation signal having a reference frequency and applying the channel to the loaded touch screen panel for each channel;
A signal converter converting the discharge signal for each channel output from the touch screen panel into a digital signal;
A control unit for sensing an amount of change in capacity in pixels on each channel using the digital signal; And
And a communication module configured to transmit the amount of change in capacitance in units of pixels to the outside. The method of claim 1,
And a mux for converting the channel-specific discharge signal into a serial signal and outputting the serial signal to the signal converter as the channel-specific discharge signals are output in parallel. delete The method of claim 1, wherein the logic unit,
Capacitance measuring device of the touch screen panel, characterized in that for generating a square wave having the reference frequency applied to the touch screen panel for each channel. The method of claim 1, wherein the logic unit,
And generating a reference frequency of the excitation signal according to a product specification of the loaded touch screen panel. The method of claim 1, wherein the logic unit,
And changing the number of channels to which the excitation signal is applied according to a product specification of the loaded touch screen panel. The method of claim 1,
And a display unit for displaying the capacitance change amount in units of pixels detected by the controller for each channel. The method of claim 7, wherein the display unit
And a capacitance change amount detected in units of pixels detected by the controller as a waveform. The capacitance measuring apparatus of claim 1, wherein the discharge signal is a capacitance value in units of pixels for each channel.

Images