KR101393443B1 - Terminal for adjusting touch sensitivity - Google Patents

Abstract

The present invention relates to a terminal for adjusting touch sensitivity and, more specifically, to a terminal for adjusting touch sensitivity to have ideal touch sensitivity by including a touch unit of an electronic/electrical device operating by touch. The touch unit extracts a capacity value of a condenser meeting environmental conditions of the touch unit and mounts the condenser corresponding to the extracted capacity value on the touch unit to have ideal touch sensitivity. Accordingly, the present invention significantly reduces manpower, time, and effort to replace the corresponding condenser after checking the environmental condition of each product when using the condenser with ideal touch sensitivity.

Description

[0001] The present invention relates to a terminal for adjusting a touch sensitivity,

[0001] The present invention relates to a terminal for adjusting touch sensitivity, and more particularly, to a terminal for touch sensitivity adjustment, which extracts a capacitor capacitance value that meets environmental conditions of a touch part so that a touch part of an electric / electronic device operated through a touch has an ideal touch sensitivity, And a capacitor corresponding to a value of the touch sensing unit is formed in the touch unit to have an ideal touch sensitivity.

The touch unit provided in the electric / electronic apparatus and allowing the electric / electronic apparatus to be driven through the touch determines whether to touch the touch unit by the amount of charge / discharge when the touch unit is touched or when the touch unit is not touched.

As shown in FIG. 1, a plurality of touch units are provided in the electric / electronic apparatus. However, in order to facilitate understanding, the touch unit 10 includes a touch key 11, The touch chip 11 is constituted by a touch chip 11, a touch chip 12, a capacitor 13 and a resistor 14. Among these configurations, the capacitance of the capacitor 13 makes the operation of the touch key 11 very sensitive or very dull .

This is because, although the capacitors corresponding to the ideal capacitors capacitances are constituted in a numerical sense, the operation of the touch keys is driven very sensitively or dullly according to environmental requirements. In order to constitute the capacitors satisfying such environmental requirements, capacitors having different capacitances There is a problem in that it takes a considerable amount of time and effort due to the process of confirming what is the ideal capacitor while being replaced.

In order to solve such a problem, there has been no special technique in the past, but recently, a technology using a touch sensing device such as a touch sensor has been developed as a means for driving many electric / electronic device operations. Patent Document No. 10-2001-0087003 entitled " Touch Sensing Method and Touch Sensor Device Thereby " is a method of sensing a touch using a touch sensor, comprising the steps of: measuring individual touch sensitivities, Adjusting a touch threshold value, which is a reference touch sensitivity for recognizing the touch, according to the measured individual touch sensitivity, and sensing the touch by applying the adjusted touch threshold value In addition, depending on whether the user touches the touch pad including the touch pad A capacitive touch sensor in which capacitors formed in the capacitive touch sensor are charged / discharged, a voltage signal generator for generating / outputting a voltage signal corresponding to a voltage charged in the capacitors, A touch sensing processor for measuring individual touch sensitivities of the touch senses, adjusting a touch threshold value as a reference touch sensitivity for recognizing the touch, and detecting the touch by applying the adjusted touch threshold value, .

The conventional technology described above is to provide a touch sensing method capable of accurately determining whether or not to touch by raising the touch sensitivity and to provide a touch sensor device according to the touch sensing method. And a touch sensor device according to the present invention. The capacitance of the capacitor is extracted so as to have an ideal touch sensitivity under the environmental conditions of the touch portion, and a capacitor corresponding to the extracted capacitance value is formed in the touch portion so as to have an ideal touch sensitivity. There was no technology.

As another conventional technique, Korean Patent Laid-Open Publication No. 10-2011-0066591, entitled " Touch Sensitivity Adjustment Method ", includes a step of defining a plurality of different touch sensitivity modes, a step of selecting one of a plurality of touch sensitivity modes The method comprising the steps of: providing a user interface (UI) that allows the user to select a touch sensitivity mode corresponding to the selected touch sensitivity mode through the user interface; A step of previously defining a touch sensitivity adjustment range having a touch sensitivity range and a step of providing a user interface for selecting any one of the touch sensitivity ranges for the range of the touch sensitivity defined by the previous step; The touch sensitivity corresponding to the selected touch sensitivity area is displayed on the touch panel To a technique consisting of the steps of for.

[0004] However, the above-described conventional technology has a problem in that a plurality of touch sensitivity modes having different touch sensitivities, which are deviated from one standardized touch sensitivity, are mounted on a device such as a mobile phone in advance, A touch sensitivity mode is selected and used. Further, the range of the touch sensitivity adjustment is previously provided in a mobile phone or the like, and the fine touch sensitivity adjustment is provided only for an environment in which the user can directly control the touch sensitivity. There has been no technique for achieving an ideal touch sensitivity under the environmental conditions of the touch portion.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in an effort to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for measuring the capacitance of a capacitor satisfying environmental conditions of a touch portion of an electric / electronic apparatus, So that it has a touch sensitivity.

According to an aspect of the present invention, there is provided a terminal for adjusting a touch sensitivity, the touch terminal including a touch portion material, a thickness of a touch portion material, a PCB rod, An input unit for inputting environmental condition data corresponding to environmental conditions such as an area, a height of a rod, a spring, and a gasket; a storage unit for storing a plurality of capacitance value data in which capacitor capacitance values corresponding to the environmental condition data are recorded; An extraction unit for receiving environmental condition data and extracting capacitance value data corresponding to the received environmental condition data from among the plurality of capacitance value data stored in the plurality of capacitance value data; And a communication unit for communicating with the touch unit after the second condenser is replaced with the second condenser, The solution is to solve the problem.

According to another embodiment of the present invention, a terminal for adjusting the touch sensitivity is provided with a touch part, a thickness of a touch part material, a PCB rod, a PCB area, a rod / A first communication unit for receiving the environmental condition data from a touch chip of a touch unit storing environmental condition data corresponding to environmental conditions such as a height of a spring / gasket, a first communication unit for storing a capacitance value corresponding to the environmental condition data, An extraction unit for receiving the environmental condition data and extracting the capacitance value data corresponding to the received environmental condition data from the plurality of stored capacitance value data; After the second capacitor is replaced with the second capacitor already installed in the touch unit, communication is performed with the touch unit, And that made of a second communication unit for receiving a time resolution method.

As described above, the present invention has the effect of greatly reducing manpower, time, and labor required for replacing a capacitor after confirming what environmental conditions each product has in replacing the capacitor with a capacitor having an ideal touch sensitivity.

FIG. 1 is a view showing a basic concept of a touch part provided in the electric /
2 is a block diagram of a terminal for adjusting touch sensitivity according to an embodiment of the present invention.
3 is a circuit diagram illustrating a capacitor replacement example having an ideal touch sensitivity according to another embodiment of the present invention.
4 is a diagram illustrating a terminal configuration for adjusting the touch sensitivity according to an embodiment of the present invention.

Best Mode for Carrying Out the Invention Hereinafter, a configuration and an operation of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

The terminal 100 includes an input unit 110, a storage unit 120, an extraction unit 130, and a communication unit 140. The input unit 110, the storage unit 120, the extraction unit 130, .

The input unit 110 of the terminal 100 may be configured to have a touch part such as a touch part material, a thickness of a touch part material, a PCB rod, a PCB area, a height of a rod / spring / Environmental condition data corresponding to the environmental condition is input.

That is, since the influence of the touch sensitivity on the touch sensitivity sensitive or dullly driven by the environmental conditions is determined by the capacitances of the capacitors C1, C2, C3, and Cn shown in FIG. 1, The environmental condition data corresponding to the environmental condition of the touch unit is input.

In this case, it is assumed that the environmental condition data input is, for example, three touch keys on the touch portion of the refrigerator. Referring to Table 1, K1, which is the first touch key, is glass D11 , The glass thickness is 2 mm (D12), the PCB rod is 800 mm (D13), the height of the rod is 20 mm (D1n), and the second touch key K2 is also D21, D22, D23, D24, D2n D3, D33, D34, and D3n are input to the third touch key K3 in the same manner.

Touch part
material
Touch part
Material
thickness
PCB
road
PCB
area
... Height of rod / spring / gasket K1 D11 D12 D13 D14
·
·
·
·
D1n K2 D21 D22 D23 D24 D2n K3 D31 D32 D33 D34 D3n ·
·
· ·
·
· ·
·
· ·
·
· ·
·
· ·
·
· Kn Dn1 Dn2 Dn3 Dn4 ... Dnn

(K1 to Kn are touch keys, D11 to Dnn are numerical values suited to the environment)

As a result, the environmental condition data is input to the input unit 110 of the terminal 100 of the present invention for extracting an ideal condenser capacity value corresponding to the touch portion of the refrigerator, and software for inputting the environmental condition data .

The storage unit 120 of the terminal 100 stores a plurality of capacitance value data in which capacitor capacitance values corresponding to environmental condition data are recorded.

That is, when D11, D12, D13, D14, and D1n are input to the touch key K1 as shown in Table 1, the first capacitance value data is stored so that the corresponding capacitance value can be extracted. D22, D23, D24, and D2n are input, the second capacitance value data is stored so that the corresponding capacitor capacitance value can be extracted. If D31, D32, D33, D34, and D3n are input to K3, A plurality of capacitance value data is stored such that the third capacitance value data is stored so that the capacitance value can be extracted.

For example, when the material is glass, the thickness of the glass is 2 mm, the PCB rod is 800 mm, the PCB area is 100 cm 2, and the height of the rod is 10 mm, the corresponding capacitance value 2.7 것이다 is stored so that it can be extracted .

As a result, the capacitance value data for the environmental condition data corresponding to the environmental condition of the touch key is stored.

The extraction unit 130 of the terminal 100 receives the environmental condition data and extracts the capacitance value data corresponding to the received environmental condition data from the plurality of stored capacitance value data.

For example, when D11, D12, D13, D14, and D1n are input in order to replace a capacitor having an ideal capacitor capacitance value with respect to the touch key K1 in Table 1, the storage unit 120 receives the input environmental condition data, D12, D13, D14, and D1n satisfying the input conditions of D11, D12, D13, D14, and D1n.

D12, D13, D14, and D1n may be obtained by searching D11, D11, D12, D13, D14, and D1n. In this case, If it is not searched, only the capacitor capacitance value corresponding to D11 is extracted. If D13, D14, and D1n are not searched after searching D11, only the capacitor capacitance values corresponding to D11 and D12 are extracted And may be extracted in various ways.

The communication unit 140 of the terminal 100 exchanges the first capacitor corresponding to the capacitance value data with the second capacitor already installed in the touch unit and communicates with the touch unit, In real time.

3, the communication unit 140 extracts the capacitance value data from the input unit 110, the storage unit 120, and the extraction unit 130. At this time, If the first capacitor is referred to as C1 shown in Fig. 3 and the second capacitor already installed is referred to as C2, since the C1 capacitor is a capacitor having ideal touch sensitivity, the C2 capacitor already installed in the touch portion is removed and replaced with a C1 capacitor .

Thus, the touch unit replaced with the C1 capacitor will have an ideal touch sensitivity, and accordingly, the communication unit 140 receives numeric data obtained by digitizing the ideal touch sensitivity.

For example, assuming that the numerical value of the ideal touch sensitivity is 100, the numerical data received in real time is received within an ideal error range based on the above 100. When the electric / electronic device is operated through the touch, When a compressor, a condenser, a capillary, and an evaporator, which are components of a refrigerator, operate, the touch operation is affected by a mechanical operation, or the touch sensitivity is affected by an electronic operation.

Accordingly, if the numerical data is received beyond the ideal error range, the user can judge that a defect due to a mechanical operation or a defect due to an electronic operation has occurred.

4 is a block diagram of a terminal for adjusting touch sensitivity according to an embodiment of the present invention. The terminal 200 includes a first communication unit 210, a storage unit 220, an extraction unit 230, 240).

More specifically, the first communication unit 210 of the terminal 200 measures a touch part material, a thickness of a touch part material, a PCB rod, a PCB area, And the environmental condition data corresponding to the environmental conditions such as the height of the window, the spring, and the gasket.

2, the terminal 200 configured in FIG. 4 includes a touch chip (see FIG. 1), which is one of the components of the touch unit, The environmental condition data is stored in the touch chip of the touch unit and the first communication unit 210 receives the stored environmental condition data.

The storage unit 220 of the terminal 200 stores a plurality of capacitance value data in which a capacitance value corresponding to the environmental condition data is recorded. The capacitance value data is stored in the storage unit 220 of the terminal 100 for touch sensitivity adjustment And the description thereof will be omitted.

The extraction unit 230 of the terminal 200 receives the environmental condition data and extracts capacitance value data corresponding to the received environmental condition data from among the plurality of stored capacitance value data. The same operation as that of the extraction unit 130 of the terminal 100 for adjustment will be omitted.

The second communication unit 240 of the terminal 200 exchanges a first capacitor corresponding to the capacitance value data with a second capacitor already installed in the touch unit and then communicates with the touch unit, In real time.

More specifically, when the second communication unit 240 extracts the capacitance value data from the input unit 110, the storage unit 120, and the extraction unit 130, the second communication unit 240 outputs a first capacitor corresponding to the capacitance value data When the second condenser is replaced with the already installed second condenser, the numerical data in which ideal touch sensitivity is numerically expressed by the capacity of the second condenser is received.

Assuming that the value of the ideal touch sensitivity is 100, as described in the terminal 100 for adjusting the touch sensitivity of FIG. 2, numerical data received in real time is received within an ideal error range based on the 100 When the electric / electronic device is operated through a touch, numerical data in a range out of an ideal error range is received based on the 100 due to mechanical errors and electronic errors caused by driving the electric / electronic device.

Accordingly, when the numerical data is received outside the ideal error range, the user can determine that the defect is caused by a mechanical operation or a defect caused by an electronic operation, and that the ideal touch sensitivity is not achieved.

The extraction units 130 and 230 of the terminals 100 and 200 according to the embodiments of FIGS. 2 and 3 described above preferably record the range of the capacitor capacity in the extracted capacitance value data.

For example, an ideal condenser capacity value is 3.12 picoseconds, which is extracted through the extraction units 130 and 230. However, the actual product to be produced is a condenser product that exactly matches the 3.12 pic when the product is 3.0 picosecond, 3.1 picosecond, So that the range of the capacitor capacity that can be operated in an ideal range of the touch sensitivity is recorded.

In addition, the first communication unit 210 and the second communication unit 240 are not separately configured, but are integrated in hardware, but are operated separately from each other in software.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to cover further limitations anddisclamping the scope of the present invention as defined by the appended claims. It is not.

Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

10: touch part 11: touch key
12: Touch chip 13: Capacitor
14: Resistance 100, 200: Terminal
110: input unit 120, 220:
130, 230: extraction unit 140: communication unit
210: first communication unit 240: second communication unit

Claims (4)

Environmental condition data corresponding to environmental conditions such as the touch portion material, the thickness of the touch portion material, the PCB rod, the PCB area, and the height of the rod / spring / gasket are inputted to the touch portion provided in the electric / An input unit;
A storage unit for storing a plurality of capacitance value data in which capacitor capacitance values corresponding to the environmental condition data are recorded;
An extraction unit for receiving the environmental condition data and extracting capacitance value data corresponding to environmental condition data received from the plurality of stored capacitance value data;
And a communication unit for communicating with the touch unit after the first condenser corresponding to the capacitance value data is replaced with a second condenser already installed in the touch unit and receiving numerical data in which the touch sensitivity is digitized in real time in real time Terminal for adjusting touch sensitivity.
Environmental condition data corresponding to environmental conditions such as the touch portion material, the thickness of the touch portion material, the PCB rod, the PCB area, and the height of the rod / spring / gasket is applied to the touch portion provided in the electric / A first communication unit that is stored in a negative touch chip and receives the stored environmental condition data;
A storage unit for storing a plurality of capacitance value data in which capacitor capacitance values corresponding to the environmental condition data are recorded;
An extraction unit for receiving the environmental condition data and extracting capacitance value data corresponding to environmental condition data received from the plurality of stored capacitance value data;
And a second communication unit for communicating with the touch unit after the first condenser corresponding to the capacitance value data is replaced with a second condenser already installed in the touch unit and receiving numerical data in which the touch sensitivity is digitized in real time Terminal for adjusting touch sensitivity.
The image processing apparatus according to claim 1 or 2, wherein the extracting unit
Wherein a range of the capacitance of the capacitor is recorded in the capacitance value data to be extracted.
3. The apparatus of claim 2, wherein the first communication unit and the second communication unit
Wherein the terminal is configured to be integrated in hardware but separately operated in software.

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