KR101086202B1 - Touch sensing apparatus and mothod and record media recorded program realizing the same - Google Patents

Abstract

According to a preferred embodiment of the present invention, in the touch sensing method, it is determined whether to start the touch by comparing the information generated at a predetermined system frequency with the preset information, and as a result of the determination of whether or not the touch start, the start of the touch If it is possible to increase the preset system frequency, and compares the information generated from the increased system frequency with the preset information to determine whether or not the normal touch, and if it is determined that the normal touch as a result of the normal touch or not outputs a touch start signal And lowering the increased system frequency, comparing the information generated at the lower system frequency with preset information, and determining whether or not the touch is to be terminated. Lower system frequency It is determined that the normal touch is terminated by comparing the information generated at the higher system frequency, which is determined to be the end of the touch, with the preset information, and when it is determined that the normal touch ends as a result of determining whether the normal touch ends, the touch end signal Outputs and lowers the increased system frequency in response to the determination of the end of the touch.

Description

TOUCH SENSING APPARATUS AND MOTHOD AND RECORD MEDIA RECORDED PROGRAM REALIZING THE SAME}

The present invention relates to a touch sensing device, a method, and a recording medium having recorded thereon a program for implementing the same.

Recently, a touch input device using a touch sensing device such as a touch sensing device exists and has been developed as an input means for controlling the operation of many electric / electronic devices.

In principle, the touch sensing device is a device that recognizes the touch itself, and the touch input device performs a touch sensing and outputs a sensed touch as a signal, which is used as an input means, but is actually used without any significant distinction.

In order to recognize a touch in a touch sensing device, a resistive film, a pressure, an ultrasonic wave, and a capacitive type are used. Recently, a resistive film or a capacitive type is mainly used. Here, the resistive film method is a method of recognizing a touch using a change in voltage or current generated by a user's touch. In contrast, the capacitive method is a method of recognizing a touch using a change in capacitance generated by a user's touch.

Such a touch sensing device generates a touch value for determining the start and end of a touch by sampling at a system frequency of a system clock, and then touches the touch using the generated touch value. Detect the start and end of the. In this case, noise generated in the touch sensing device may affect the touch value. In this case, the touch sensing device has a problem that it can be recognized as the start or end of the touch by the touch value due to noise.

In addition, the conventional touch sensing device has a problem that the touch sensing device consumes a lot of power and is frequently exposed to noise as it always operates at a high system frequency.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a touch sensing device, a method capable of preventing malfunction due to noise, and a recording medium having a program for implementing the same.

At the same time, an object of the present invention is to provide a touch sensing device, a method capable of minimizing power consumed during touch sensing, and a recording medium having recorded thereon a program for implementing the same.

Other objects of the present invention will be readily understood through the following description of the embodiments.

According to an aspect of the present invention, a touch sensing method is provided.

According to an exemplary embodiment of the present invention, in a method of sensing a touch in a touch sensing device, determining whether to start a touch by comparing information generated at a predetermined system frequency with preset information step; Raising the preset system frequency when it is determined that the touch is to be started as a result of the determination of whether to start the touch; Comparing the information generated at the higher system frequency with preset information to determine whether or not the touch is normal; Outputting a touch start signal and lowering the increased system frequency when it is determined that the touch is normal; Determining whether to terminate the touch by comparing information generated at the lowered system frequency with preset information; Raising the lowered system frequency when it is determined that the touch is to be terminated as a result of determining whether the touch is to be terminated; Determining whether the normal touch is terminated by comparing information generated at a higher system frequency determined to be the end of the touch with preset information; And outputting a touch end signal and lowering the increased system frequency in response to the determination of the end of the touch when it is determined that the normal touch ends.

In this case, when it is determined that the touch is not started, the preset frequency may be maintained.

If it is determined that the normal touch is not a normal touch, the system frequency may be changed to the preset system frequency without outputting a touch start signal.

In addition, when it is determined that the touch is not terminated, the system frequency lowered in response to the determination of the normal touch may be maintained.

In addition, when it is determined that the normal touch is terminated as a result of determining whether the normal touch ends, the system frequency that is increased in response to the determination of the touch termination may be lowered without outputting the touch end signal.

In addition, the determination of whether or not the normal touch may be performed by determining the duration of the touch.

According to another aspect of the present invention, a touch sensing device is provided.

According to a preferred embodiment of the present invention, by comparing the information generated at the system frequency with the preset information, it is determined whether to start the touch, and if it is determined that the start of the touch as a result of the start of the touch whether the normal touch or not Determining whether or not the touch is terminated when it is determined that the normal touch, and if it is determined that the touch is terminated, the touch to determine whether or not the normal touch is terminated Determination unit; And if it is determined that the touch is started, the system frequency is increased, and if it is determined that the normal touch is a normal touch, the system frequency is lowered. If it is determined that the end of the touch is determined as a result of the determination is made to increase the lower system frequency, if it is determined that the end of normal touch as a result of the determination of whether or not the normal touch is terminated the system clock generation is determined to be the end of the touch to lower the increased system frequency The touch determination unit outputs a touch start signal when it is determined that the touch is normal as a result of the determination of the normal touch, and outputs a touch end signal when it is determined that the touch is terminated normally. Characteristic The touch sensitive device that is provided.

Here, when it is determined that the touch is started or not, the system clock generator may not change the system frequency.

If it is determined that the normal touch is not a normal touch, the touch determination unit does not output a touch start signal, and the system clock generator may change a system frequency to the preset system frequency.

In addition, when it is determined that the touch is not to end, the system clock generator may maintain a lower system frequency in response to the determination that the touch is normal.

In addition, when it is determined that the normal touch ends, the touch determiner does not output the touch end signal, and the system clock generator determines that the touch ends. Can be.

In addition, the determination of whether or not the normal touch may be performed by determining the duration of the touch.

According to another aspect of the invention, there is provided a recording medium recording a program for implementing a touch sensing method.

According to a preferred embodiment of the present invention, a program of instructions that can be executed by a digital processing device is tangibly implemented to be implemented by the digital processing device to implement a method of sensing a touch in the touch sensing device, and can be read by the digital processing device. A recording medium on which a program is recorded, comprising: determining whether to start a touch by comparing information generated at a preset system frequency with preset information; Raising the preset system frequency when it is determined that the touch is to be started as a result of the determination of whether to start the touch; Comparing the information generated at the higher system frequency with preset information to determine whether or not the touch is normal; Outputting a touch start signal and lowering the increased system frequency when it is determined that the touch is normal; Determining whether to terminate the touch by comparing information generated at the lowered system frequency with preset information; Raising the lowered system frequency when it is determined that the touch is to be terminated as a result of determining whether the touch is to be terminated; Determining whether the normal touch is terminated by comparing information generated at a higher system frequency determined to be the end of the touch with preset information; And outputting a touch end signal and lowering the increased system frequency in response to the determination of the end of the touch if it is determined that the normal touch ends. A recording medium for recording the program is provided.

In this case, when it is determined that the touch is not started, the preset frequency may be maintained.

If it is determined that the normal touch is not a normal touch, the system frequency may be changed to the preset system frequency without outputting a touch start signal.

In addition, when it is determined that the touch is not terminated, the system frequency lowered in response to the determination of the normal touch may be maintained.

In addition, when it is determined that the normal touch is terminated as a result of determining whether the normal touch ends, the system frequency that is increased in response to the determination of the touch termination may be lowered without outputting the touch end signal.

In addition, the determination of whether or not the normal touch may be performed by determining the duration of the touch.

As described above, according to the touch sensing apparatus and method according to the present invention, when the start of the touch is detected, it is determined whether the touch is a normal touch. Therefore, there is an advantage that a malfunction due to noise can be prevented.

At the same time, according to the touch sensing apparatus and method according to the present invention, the fast system frequency is maintained only in a section in which it is determined whether the touch is a normal touch and in a section in which it is determined whether the end of the touch is the end of the normal touch. An advantage is that the frequency of exposure to power and noise consumed by the sensing device can be minimized.

1 is a functional block diagram of a touch sensing apparatus according to an embodiment of the present invention.
2 is a flowchart illustrating an operation flow during touch detection and a system frequency in the touch sensing device according to the flow of an operation in the touch sensing device according to an embodiment of the present invention.
3 illustrates a change in a touch value, a system frequency, and a touch signal according to start, hold, and end of a touch in a touch sensing device according to an embodiment of the present invention.
4 illustrates a change in touch value, system frequency, and touch signal according to start, hold, and end of a touch in a touch sensing apparatus according to another exemplary embodiment of the present invention.
5 illustrates changes in touch values, system frequencies, and touch signals according to start, hold, and end of touches in the touch sensing apparatus according to another embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Like reference numerals are used for like elements in describing each drawing. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component.

And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is said to be "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that another component may exist in between. Should be.

On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that there is no other component in between.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention.

Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art.

Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and are not construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

Hereinafter, a structure of a touch sensing apparatus according to an embodiment of the present invention will be described with reference to FIG. 1.

1 is a functional block diagram of a touch sensing apparatus according to an embodiment of the present invention. The touch sensing device of the present invention may detect a touch by any one of a capacitive method, a resistive film method, a pressure method or an ultrasonic method. However, for convenience of description, the touch sensing device according to the present invention will be described below by focusing on detecting a touch according to a capacitive method, but the touch sensing device according to the present invention includes a resistive film method, Of course, it can be applied to a pressure method or an ultrasonic method.

First, referring to FIG. 1, the touch sensing apparatus 1 may include a touch unit 100, an oscillator 200, a touch value generator 300, a touch determiner 400, an output unit 500, and a system clock controller. 600, the storage 700, and the system clock generator 800 may be included.

The touch unit 100 is an area for receiving a user input. The user (not shown) may perform input by touching the touch unit 100 with an input means such as a finger or a touch pen. Here, when the touch sensing device 1 senses a touch in a capacitive manner, the touch unit 100 may include a single electrode plate or two electrode plates to provide a change in capacitance corresponding to the touch. . Unlike FIG. 1, a plurality of touch units 100 may be provided. The touch unit 100 may be formed as a separate device separate from the touch sensing device 1.

The oscillator 200 may include a sensing signal generating means (not shown), for example, an oscillator. The sensing signal generating unit may generate a sensing signal having a preset reference frequency, provide the sensing signal to the touch unit 100, and feed back this to generate a waveform in which the capacitance of the touch unit 100 is reflected.

The touch value generator 300 generates a touch value used to determine whether the touch is performed by sampling a waveform reflecting the capacitance of the touch unit 100 at a system frequency generated by the system clock generator 800. can do. Here, the touch value may be a count value or peak value of a waveform in which the capacitance of the touch unit 100 is reflected. Here, the count value or the peak value is merely an example, and the touch value is not limited as long as it is a value that changes according to the change in the capacitance in the touch unit 100. When the touch value is a count value, the touch value generator 300 may include a clock generator (not shown) for converting the sampled waveform into a clock signal, and a count unit (not shown) for counting the clock signal. . In addition, when the touch value is a peak value of the sampled waveform, the touch value detector may include a peak value detector for detecting the peak value.

The touch determiner 400 generates a system frequency generated by the system clock generator 800 using a touch value generated by the touch value generator 300 and a threshold value 701 stored in the storage 700. Can determine whether the touch starts and ends, whether the touch is a normal touch, and whether the end of the touch is the end of the normal touch. Here, the touch determination unit 400 may determine that the touch is started when a touch value that is greater than or equal to the threshold value is detected. In addition, if the touch is maintained for a preset time, the touch determination unit 400 may determine that the touch is a normal touch. In this case, when all of the touch values for the preset time from the start of the touch are greater than or equal to the threshold value, it may be determined that the touch is maintained for the preset time. The touch determination unit 400 may determine that the touch is terminated when a touch value less than the threshold value is detected. In addition, if the end of the touch is maintained for a predetermined time, the touch determination unit 400 may determine that the normal end of the touch. In this case, when all the touch values for the preset time from the end of the touch are less than the threshold value, it may be determined that the touch is maintained for the preset time. Here, the oscillator 200, the touch value generator 300, and the touch determiner 400 may be implemented in the form of one chip.

Unlike the above, the touch determination unit 400 may determine that the touch is started when a touch value less than or equal to the threshold value is detected. In addition, if the touch is maintained for a preset time, the touch determination unit 400 may determine that the touch is a normal touch. In this case, when all of the touch values for the preset time from the start of the touch are less than or equal to the threshold value, it may be determined that the touch is maintained for the preset time. The touch determination unit 400 may determine that the touch is terminated when a touch value exceeding the threshold is detected. In addition, if the end of the touch is maintained for a predetermined time, the touch determination unit 400 may determine that the normal end of the touch. In this case, when all the touch values for the preset time from the end of the touch exceed the threshold, it may be determined that the touch is maintained for the preset time.

The touch determination unit 400 determines whether the touch starts and ends at the predetermined system frequency, whether the touch is a normal touch, and whether the end of the touch is the end of the normal touch, and according to the determination result, By outputting a predetermined signal to the clock control unit 600 so that the system clock control unit 600 controls the system clock generator 800, whether the system clock generator 800 starts or stops the touch of the system frequency, Can be changed according to the determination result whether or not the normal touch and the end of the touch is the end of the normal touch.

In addition, when it is determined that the touch is a normal touch, the touch determination unit 400 may transmit a touch start signal to the output unit 500 so that the output unit 500 starts outputting the touch signal. If it is determined that the end of the touch is the end of the normal touch, the touch determination unit 400 may transmit the touch end signal to the output unit 500 so that the output unit 500 stops outputting the touch signal. .

The output unit 500 is connected to the touch determination unit 400 and may output a touch signal from when it is determined that the touch is a normal touch until it is determined that the touch is normally completed. That is, the output unit 500 receives the touch start signal corresponding to the determination of the normal touch and starts outputting the touch signal, and receives the touch termination signal corresponding to the determination of the normal touch to stop the output of the touch signal. can do. The touch signal may be provided to an electronic device (not shown) connected to the touch sensing device 1 to perform a specific function. Here, the output unit 500 may be formed as a separate device separate from the touch sensing device 1.

The system clock controller 600 outputs a predetermined signal according to a determination result of whether the touch determination unit 400 starts and ends the touch, whether the touch is a normal touch, and whether the end of the touch is the end of the normal touch. The system clock generator 800 may change the system frequency of the system clock. In detail, the system clock control unit 600 may be configured only in a section in which the system clock generator 800 determines whether the touch is a normal touch and in a section in which it is determined whether the end of the touch is the end of the normal touch. The system clock generator 800 may be controlled to output a system clock having a higher system frequency. Here, the system clock controller 600 may be formed together with the touch sensing device 1 or as a separate device from the touch sensing device 1.

The storage unit 700 may store the boundary value 701 used to determine whether the touch determination unit 400 starts or ends the touch as described above. Here, the storage 700 is not necessarily included in the touch sensing device 1, and the storage 700 may be provided separately from the touch sensing device 1.

The system clock generator 800 may include a clock generator (not shown), for example, an oscillator to generate a system clock having a predetermined system frequency. The system clock generator 800 may control operations of the touch value generator 300 and the touch determiner 400 using the system clock. The system clock generator 800 may generate a system clock having a system frequency changed according to whether the touch starts and ends, whether the touch is a normal touch, and whether the end of the touch is the end of the normal touch. In detail, the system clock generator 800 may generate a system clock having a higher system frequency before the determination of the touch determination unit 400 as the start of the touch. In addition, the system clock generator 800 may generate a lower system frequency than before the touch determination unit 400 determines that the touch is a normal touch. In addition, the system clock generator 800 may generate a system clock having a higher system frequency before the determination of the touch determination unit 400 as the end of the touch. In addition, the system clock generator 800 may generate a system clock having a lower system frequency before the determination in response to the touch determination unit 400 determining that the end of the touch is the end of the normal touch. Here, the system clock generator 800 is not necessarily included in the touch sensing apparatus 1, and the system clock generator 800 may be a separate device separate from the touch sensing apparatus 1.

Hereinafter, a method of detecting a touch in a touch sensing device according to an embodiment of the present invention and a system frequency in the touch sensing device will be described with reference to FIGS. 1 and 2. The following examples do not limit the scope of the invention.

2 is a flowchart illustrating an operation flow during touch detection and a system frequency in the touch sensing device according to the flow of an operation in the touch sensing device according to an embodiment of the present invention.

First, the touch determination unit 400 may determine whether a touch has occurred using the touch value received from the touch value generation unit 300 (S21). As described above, the touch determination unit 400 may determine whether a touch occurs by comparing the touch value and the boundary value. S21 may be performed at a relatively low first system frequency. That is, a touch value for a waveform sampled according to the first system frequency may be generated, and whether or not a touch occurs may be determined based on the touch value. Hereinafter, for convenience of explanation, it is assumed that the touch determination unit 400 determines that a touch has occurred when a touch value less than or equal to a threshold value is received. If it is determined in S21 that no touch has occurred, the touch determination unit 400 may determine whether a touch has occurred using the touch value received subsequently. In contrast, when it is determined that a touch has occurred, the touch determination unit 400 may determine whether the touch is a normal touch by using the received touch value (S22). S22 may be performed at a second system frequency that is relatively higher than the first system frequency. That is, a touch value for a waveform sampled according to the second system frequency may be generated, and it may be determined whether the touch is a normal touch.

In operation S22, the touch determination unit 400 may determine whether the touch is a normal touch by determining whether the touch lasts for a preset time. In detail, the touch determination unit 400 may determine that the touch has occurred, and when the preset number of touch values received after the touch value used is less than or equal to the threshold value, the touch determination unit 400 may determine that the touch is continued. If it is determined in S22 that the touch is not a normal touch, the touch determination unit 400 determines again from whether a touch has occurred using the received touch value. On the contrary, when it is determined in S22 that the touch is a normal touch, the touch determination unit 400 uses the touch value subsequently received at a third system frequency relatively lower than the second system frequency using the touch value subsequently received. It may be determined whether the touch is terminated (S23). That is, a touch value for a waveform sampled according to the third system frequency may be generated, and whether or not the touch is terminated may be determined based on the touch value. Here, the third system frequency may be the same as the first system frequency. However, the third system frequency may be higher than the first system frequency in order to reduce delay in detecting the end of the touch.

In S23, the touch determination unit 400 may determine that the touch is terminated when a touch value exceeding a threshold is received. If it is determined in S23 that the touch is not finished, the touch determination unit 400 continuously determines whether the touch is terminated by using the received touch value. In contrast, when it is determined in S23 that the end of the touch, the touch determination unit 400 determines whether the end of the touch is the end of the normal touch (S24). S24 may be performed at a fourth system frequency that is relatively higher than the third system frequency. That is, a touch value for the waveform sampled according to the fourth system frequency may be generated and it may be determined whether the normal touch is terminated by the touch value. Here, the fourth system frequency and the second system frequency may be different from each other, but both may be the same in order to simplify the structure of the system clock generator 800.

In operation S24, the touch determination unit 400 may determine whether the touch is the end of the normal touch by determining whether the end of the touch continues for a preset time. In detail, the touch determination unit 400 determines that the touch is ended, and when the preset number of touch values received after the touch value used exceeds the threshold value, the touch determination unit 400 may determine that the end of the touch is continued. have. If it is determined that the end of the touch in S24 is not the end of the normal touch, the touch determination unit 400 determines again from the end of the touch using the received touch value. On the contrary, when it is determined in S24 that the end of the touch is the end of the normal touch, the touch determination unit 400 subsequently uses the touch value received after the touch at the first system frequency relatively lower than the fourth system frequency. It may be determined whether a generated touch occurs. In this case, after the touch is judged to be normally terminated, the delay generated when the touch is detected during the preset time is maintained by maintaining the system frequency higher than the first system frequency and lower than the fourth system frequency for a preset time. Can be reduced. And, if there is no additional touch for a predetermined time, it is preferable to change the system frequency to the first system frequency.

Hereinafter, a method of sensing a touch in a touch sensing apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 and 3 attached to changes in touch values, system frequencies, and touch signals according to generation, maintenance, and termination of touch. It demonstrates concretely accordingly.

3 illustrates a change in a touch value, a system frequency, and a touch signal according to start, hold, and end of a touch in a touch sensing device according to an embodiment of the present invention. Hereinafter, description will be made based on the passage of time for convenience of explanation and understanding. In addition, it is assumed that the touch determination unit 400 is set to determine that the touch is generated when the touch value generated by the touch value generation unit 300 is less than or equal to the threshold value. The touch value represented by a dotted line in FIG. 3 is a virtual touch value, and means a touch value generated by sampling at an infinite system frequency. The touch value generated by sampling according to the actual system frequency is indicated by the bold point (c) on the touch value represented by the dotted line.

Iii) first interval (t <t1)

The system clock generated by the system clock generator 800 before the touch occurs has a relatively low system frequency. At this time, the touch value generator 300 generates a touch value by sampling at a low system frequency, and the touch determiner 400 uses the touch value generated by the touch value generator 300 to determine whether a touch occurs. You will continue to judge. In the first section, since the touch determination unit 400 did not receive a touch value that is less than or equal to the threshold value, the touch determination unit 400 determines that no touch has occurred. Since the touch is generated before the output unit 500 does not output a touch signal, a low system frequency is maintained.

Ii) second interval t1 < t &lt; t2

At t1, the touch determiner 400 determines that the touch has been initiated in response to receiving the touch value that is equal to or less than the threshold value from the touch value generator 300. At this time, the touch determination unit 400 transmits a predetermined signal to the system clock control unit 600, and the received system clock control unit 600 receives the predetermined signal to allow the system clock generation unit 800 to increase the system frequency. Send the. At this time, the system clock generator 800 generates a system clock having a higher system frequency than t1 and transmits the generated system clock to the touch value generator 300 and the touch determiner 400. Then, at a high system frequency, the touch value generator 300 generates a touch value by sampling, and the touch determination unit 400 determines the duration of the touch by using the touch value. It is determined whether it is a normal touch. In FIG. 3, the touch determination unit 400 determines that the touch is maintained for a preset time (t2-t1) when the two touch values received after the touch value used to determine that the touch has started are less than or equal to the threshold value. Assume that you do.

Iii) third section (t2 ≤ t <t3)

Since it is determined that the touch has been continued for a preset time t2-t1 at t2, the touch determination unit 400 may output the touch start signal to the output unit 500 so that the output unit 500 outputs the touch signal. have. In addition, the touch determination unit 400 outputs a predetermined signal to the system clock control unit 600, and the received system clock control unit 600 receives the predetermined signal to cause the system clock generator 800 to lower the system frequency. Can be sent. In this case, the system clock generator 800 may output a system clock having a lower system frequency at t1 ≤ t <t2. Here, the system frequency at t2 ≦ t <t3 may be the same as the system frequency at t <t1. Accordingly, the touch value generator 300 generates a touch value by sampling at a low system frequency, and the touch determination unit 400 determines whether the touch is to be terminated using the touch value. In this case, since the output unit 500 is before the end of the touch, the output unit 500 continuously outputs the touch signal. Unlike in FIG. 2, when it is determined that the touch is not a normal touch at t2, the system clock generator 800 may be controlled to generate a system clock having a system frequency at t <t1.

Iii) Fourth section (t3 ≤ t <t4)

At t3, the touch determination unit 400 may determine that the touch is terminated in response to receiving the touch value exceeding the threshold. In this case, the touch determination unit 400 outputs a predetermined signal to the system clock control unit 600, and the received system clock control unit 600 increases the system frequency to the system clock generation unit 800. You can output In this case, the system clock generator 800 may generate a system clock having a higher system frequency at t2 ≦ t <t3. Then, at a high system frequency, the touch value generator 300 generates a touch value by sampling and the touch determination unit 400 may determine whether the end of the touch is the end of the normal touch using the touch value. have. In FIG. 3, it is assumed that the end of the touch is maintained for a preset time (t4-t3) when the two touch values received after the touch value used to determine that the touch is over exceed the threshold value. . Here, in order to simplify the structure of the system clock generator 800, the system frequency at t3 ≦ t <t4 may be the same as the system frequency at t1 ≦ t <t2.

Iii) fifth section (t4 ≤ t)

When it is determined that the normal touch is terminated at t4, the touch determination unit 400 outputs a predetermined signal to the system clock controller 600, and the system clock controller 600 receives the system clock generator 800. Can output a signal to lower the system frequency. In this case, the system clock generator 800 may generate a system clock having a lower system frequency at t3 ≤ t <t4. In addition, the touch determination unit 400 may output the touch end signal to the output unit 500 so that the output of the touch signal from the output unit 500 is terminated. At this time, in order to simplify the structure of the system clock generator 800, the system frequency at t4 ≦ t may be the same as the system frequency at t <t1. Unlike in FIG. 3, when it is determined that the normal touch is not terminated at t4, since the touch is maintained, the system clock generator 800 generates a system clock having a system frequency at t2 ≤ t <t3. The touch determination unit 400 does not output the touch end signal to the output unit 500, and thus the output of the touch signal may be maintained.

Hereinafter, a method of detecting a touch in a touch sensing apparatus according to another embodiment of the present invention will be described with reference to FIG. 1 and FIG. It demonstrates concretely accordingly.

4 illustrates a change in touch value, system frequency, and touch signal according to start, hold, and end of a touch in a touch sensing apparatus according to another exemplary embodiment of the present invention. 4 is substantially the same as the embodiment of FIG. However, as shown in FIG. 4, the system frequency at t2 ≤ t <t3 is somewhat less than the system frequency at t <t1 in order to reduce the delay in detecting the end of the touch when it is determined that the touch is a normal touch at t2. Can be high.

Hereinafter, referring to FIGS. 1 and 5, changes in touch values, system frequencies, and touch signals according to starting, maintaining, and ending of a touch in a touch sensing method according to another exemplary embodiment of the present invention. It will be described in detail according to.

5 illustrates changes in touch values, system frequencies, and touch signals according to start, hold, and end of touches in the touch sensing apparatus according to another embodiment of the present invention. 5 is substantially the same as the embodiment of FIG. 4. However, as shown in FIG. 5, when it is determined that the normal touch is terminated at t4, in order to reduce the delay in detecting the continuous touch, the system frequency is maintained slightly higher than at t <t1 for a preset time, and The system clock generator 800 may be controlled to maintain the system frequency at t <t1 when there is no additional touch for a predetermined time.

As described above, when the occurrence of the touch is detected, it is determined whether the touch is a normal touch, and when the end of the touch is detected, it is determined whether the touch is the end of normal touch, thereby preventing malfunction due to noise.

In addition, when it is determined whether the touch is a normal touch and when the end of the touch is determined to be the end of the normal touch, it is determined at a fast system frequency. And whether the end of the touch is continued. Therefore, it is possible to accurately determine whether the touch is caused by noise or whether the touch is terminated by the noise.

In addition, as described above, since the fast system frequency is maintained only when it is determined whether the touch is a normal touch and when it is determined whether the end of the touch is the end of the normal touch, power consumed in other areas is maintained. Can be minimized.

Meanwhile, the touch sensing method according to the present invention may be implemented as a program and stored in a computer-readable recording medium (CD, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.).

Preferred embodiments of the present invention described above are disclosed for purposes of illustration, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit and scope of the present invention. Additions should be considered to be within the scope of the following claims.

100: touch unit 200: oscillation unit
300: touch value generation unit 400: touch determination unit
500: output unit 600: system clock control unit
700: storage unit 800: system clock generation unit

Claims (13)

In the method of detecting a touch in a touch sensing device,
Determining whether to start the touch by comparing information generated at a preset system frequency with preset information;
Raising the preset system frequency when it is determined that the touch is to be started as a result of the determination of whether to start the touch;
Comparing the information generated at the higher system frequency with preset information to determine whether or not the touch is normal;
Outputting a touch start signal and lowering the increased system frequency when it is determined that the touch is normal;
Determining whether to terminate the touch by comparing information generated at the lowered system frequency with preset information;
Raising the lowered system frequency when it is determined that the touch is to be terminated as a result of determining whether the touch is to be terminated;
Determining whether the normal touch is terminated by comparing information generated at a higher system frequency determined to be the end of the touch with preset information; And
And if it is determined that the normal touch ends, outputting a touch end signal and lowering the increased system frequency in response to the determination that the touch ends.
The method of claim 1,
And if it is determined that the touch is not started, maintaining the preset frequency.
The method of claim 1,
And when it is determined that the normal touch is not a normal touch, the system frequency is changed to the preset system frequency without outputting a touch start signal.
The method of claim 1,
If it is determined that the end of the touch is not determined as the end of the touch, the touch sensing method characterized in that to maintain a lower system frequency in response to the determination of the normal touch.
The method of claim 1,
If it is determined that the end of the normal touch does not determine that the end of the normal touch, the touch sensing method, characterized in that to lower the increased system frequency in response to the determination of the end of the touch without outputting the touch end signal.
The method of claim 1,
The determination of whether or not the normal touch is performed by determining the duration of the touch.
By comparing the information generated at the system frequency with the preset information, it is determined whether or not to start the touch, and if it is determined that the touch is started as a result of the start of the touch determines whether or not the normal touch, and whether or not the normal touch As a result, if it is determined that the touch is normal, the touch determination unit determines whether or not the end of the touch, and if it is determined that the end of the touch is determined as the end of the touch; And
If it is determined that the touch is started, the system frequency is increased, and if it is determined that the normal touch is a normal touch, the system frequency is lowered. As a result, when it is determined that the touch is terminated, the system clock generator is configured to increase the lowered system frequency, and when it is determined that the normal touch is terminated, when it is determined that the normal touch is terminated, the system clock generator lowers the increased system frequency. Include,
The touch determining unit outputs a touch start signal when it is determined that the touch is normal as a result of the determination of whether or not the touch is normal, and outputs a touch end signal when it is determined that the touch is terminated normally. Sensing device.
The method of claim 7, wherein
And when it is determined that the touch is not started, the system clock generator does not change the system frequency.
The method of claim 7, wherein
If it is determined that the normal touch is not a normal touch, the touch determination unit does not output a touch start signal, and the system clock generation unit changes the system frequency to the preset system frequency.
The method of claim 7, wherein
And if it is determined that the touch is not to end, the system clock generation unit maintains a lower system frequency in response to the determination that the touch is normal.
The method of claim 7, wherein
If it is determined that the normal touch is not terminated, the touch determination unit does not output the touch termination signal, and the system clock generator determines that the touch is terminated to lower the increased system frequency. Touch sensing device.
The method of claim 7, wherein
The determination of whether or not the normal touch is performed by determining the duration of the touch.
In the recording medium in which a program of instructions that can be executed by the digital processing apparatus is tangibly implemented to implement a method of sensing a touch in the touch sensing apparatus, and in which a program that can be read by the digital processing apparatus is recorded,
Determining whether to start a touch by comparing information generated at a preset system frequency with preset information;
Raising the preset system frequency when it is determined that the touch is to be started as a result of the determination of whether to start the touch;
Comparing the information generated at the higher system frequency with preset information to determine whether or not the touch is normal;
Outputting a touch start signal and lowering the increased system frequency when it is determined that the touch is normal;
Determining whether to terminate the touch by comparing information generated at the lowered system frequency with preset information;
Raising the lowered system frequency when it is determined that the touch is to be terminated as a result of determining whether the touch is to be terminated;
Determining whether the normal touch is terminated by comparing information generated at a higher system frequency determined to be the end of the touch with preset information; And
And if it is determined that the normal touch ends, outputting a touch end signal and lowering the increased system frequency in response to the determination of the end of the touch. Recording medium.

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