KR20240042720A - Electronic device with touch function and method for restoring touch sensitivity thereof - Google Patents

Abstract

The present invention relates to an electronic device with a touch function and a method for restoring touch sensitivity thereof. In the method for restoring touch sensitivity performed by an electronic device with a touch function, at the beginning of operation of the electronic device, the control unit controls the touch input. transmitting a touch sensitivity reference value that serves as a judgment standard to a touch input unit, and storing the touch sensitivity reference value in the touch input unit; Monitoring whether a touch sensitivity reference value stored in the touch input unit has changed every preset period; and, when the touch sensitivity reference value stored in the touch input unit changes, restoring the touch sensitivity reference value of the touch input unit during a first period without a user's touch input.

Description

Electronic device with touch function and method for restoring touch sensitivity thereof {ELECTRONIC DEVICE WITH TOUCH FUNCTION AND METHOD FOR RESTORING TOUCH SENSITIVITY THEREOF}

The present invention relates to an electronic device equipped with a touch function and a method for restoring its touch sensitivity.

In general, various electronic devices are being produced through the development of electronic communication technology, and these electronic devices are gradually emphasizing the beauty of design as well as the user's convenience of operation. What is emphasized in accordance with this trend is the diversification of input devices previously represented by keyboards or keypads.

Input devices are used in various types of electronic devices that provide information to users, such as information devices such as portable terminals, laptops, smartphones, smart pads, and smart TVs, as well as home appliances such as washing machines, refrigerators, and induction cookers. Recently, with the development of electronic devices, a method of inputting command signals using touch has been used in addition to the method of inputting command signals using operation keys, dials, etc.

A touch input device is one of the input devices that constitute the interface between an electronic device and a user. It is an interface between an information and communication device and a user when the user directly touches or approaches the touchpad or touchscreen using an input tool such as a finger or a touch pen. makes it possible.

The touch input device may include a touch sensor panel, which may be a transparent panel with a touch-sensitive surface. The touch sensor panel may be attached to the front of the touch screen so that the touch-sensitive surface covers the touch screen. The user can touch the touch screen with a finger, etc. to input user commands required to operate the electronic device. Accordingly, the electronic device can recognize whether there is a touch input on the touch screen and perform an operation according to the user's intention by executing a user command according to the recognized touch input.

These touch input devices include capacitance type, resistance type, pressure type, optical type, and ultrasonic type. Among these, the touch input device using the capacitance method detects the amount of change in voltage accumulated according to the change in capacitance and generates a clock signal according to the change in the oscillation frequency of the internal oscillator circuit. ) is generated to calculate the value counted by the counter, and then compared and sensed.

A touch input device senses touch in various ways. In any case, in order to recognize a touch as a touch, there must be a touch threshold for recognition as a touch. For example, a capacitive touch input device generates a clock signal according to the change in the oscillation frequency of the internal oscillator circuit and compares the value counted by the counter to obtain a touch threshold count value that is recognized as a touch. It comes into existence.

Even if a touch threshold exists, a difference in sensitivity of the touch input device occurs depending on whether the touch threshold is fixed or variable. In the case of a fixed-type touch input device, a specific value is initially set as the touch threshold, and when a change in the count occurs, it can be compared with the fixed touch threshold.

However, if the touch threshold is fixed, the overall measured value may decrease due to changes in the surrounding environment, so comparing with the fixed touch threshold may cause malfunction in touch input devices that are sensitive to the surrounding environment. There is a problem. In addition, if the initially set fixed touch threshold is reset to the initial value set at product launch due to external noise or software error, the reference value will change from the touch threshold to the initial value, and the initially intended value will be reset. Unlike the sensitivity setting, it operates with a sensitive or insensitive touch sensitivity, causing problems in normal use of the product.

Republic of Korea Patent Publication No. 10-2009-0024572 (Method and device for setting reference value for touch sensitivity adjustment and touch detection device using the same)

An electronic device equipped with a touch function and a method for restoring touch sensitivity thereof according to an disclosure of the present invention are provided when the touch sensitivity reference value stored in the register of the touch IC is initialized or the touch sensitivity reference value changes due to external noise or software error. By restoring the touch sensitivity reference value initially set by the control unit of the electronic device, the touch function is always implemented with a sensitivity based on a constant touch sensitivity reference value so that the electronic device can operate normally.

In the touch sensitivity restoration method performed by an electronic device with a touch function according to an disclosure of the present invention, at the beginning of operation of the electronic device, the control unit transmits a touch sensitivity reference value that serves as a criterion for determining a touch input to the touch input unit. , storing the touch sensitivity reference value in the touch input unit; Monitoring whether a touch sensitivity reference value stored in the touch input unit has changed every preset period; and, when the touch sensitivity reference value stored in the touch input unit changes, restoring the touch sensitivity reference value of the touch input unit during a first period without a user's touch input.

Alternatively, when the touch input unit detects a touch sensing value due to user manipulation, the touch input unit calculates the difference between the initial touch value in a non-touch state and the touch sensing value and outputs a touch change value, and the touch change value The purpose of this study is to provide a touch sensitivity restoration method that determines the presence or absence of a touch based on a comparison value of a touch sensitivity reference value.

Alternatively, the step of restoring the touch sensitivity reference value of the touch input unit during the first period without the user's touch input may include the control unit retransmitting the pre-stored touch sensitivity reference value to the touch input unit, so that the retransmitted touch sensitivity reference value is The object is to provide a method for restoring touch sensitivity, including the step of storing the touch sensitivity in the touch input unit.

Alternatively, the step of restoring the touch sensitivity reference value of the touch input unit during the first period in which there is no touch input from the user may include maintaining the retransmitted touch sensitivity reference value and a new initial touch value in the absence of touch input. The present object is to provide a method for restoring touch sensitivity, including the step of measuring and storing.

An electronic device with a touch function according to one disclosure of the present invention, comprising: a touch input unit; and a control unit, wherein the control unit transmits a touch sensitivity reference value, which is a criterion for determining a touch input, to the touch input unit at the beginning of operation of the electronic device, and causes the touch sensitivity reference value to be stored in the touch input unit, Every preset period, the touch sensitivity reference value stored in the touch input unit is monitored to determine whether the touch sensitivity reference value stored in the touch input unit changes, and when the touch sensitivity reference value stored in the touch input unit changes, the touch sensitivity reference value of the touch input unit is restored during the first period without the user's touch input. The goal is to provide an electronic device with a touch function that enables

An electronic device equipped with a touch function and a method for restoring its touch sensitivity according to an embodiment of the present invention are provided in which the touch sensitivity reference value stored in the register of the touch IC is initialized or the touch sensitivity reference value changes due to external noise or software error. In this case, by restoring the touch sensitivity reference value initially set by the control unit of the electronic device, the touch function is always implemented with a sensitivity based on a constant touch sensitivity reference value, thereby preventing abnormal operation of the touch input unit in advance and allowing the electronic device to operate normally. You can.

1 is a diagram illustrating the configuration of an electronic device with a touch function according to an embodiment of the present invention.
Figure 2 is a diagram explaining the configuration of a touch input unit according to an embodiment of the present invention.
Figure 3 is a diagram explaining a signal output from a detection circuit according to an embodiment of the present invention.
Figure 4 is a flowchart explaining a method for restoring touch sensitivity according to an embodiment of the present invention.
Figure 5 is a flowchart explaining a soft reset process when restoring touch sensitivity according to an embodiment of the present invention.

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts that are not related to the description are omitted, and similar parts are given similar reference numerals throughout the specification.

Throughout the specification, when a part is said to be “connected” to another part, this is not only the case when it is “directly connected”, but also when there is another component in between, and when there is another component in between. This also includes cases where they are “electrically connected.” Additionally, when a part "includes" a certain component, this means that it may further include other components rather than excluding other components, unless specifically stated to the contrary.

FIG. 1 is a diagram explaining the configuration of an electronic device with a touch function according to an embodiment of the present invention, FIG. 2 is a diagram explaining the configuration of a touch input unit according to an embodiment of the present invention, and FIG. 3 is a diagram illustrating the configuration of an electronic device with a touch function according to an embodiment of the present invention. This is a diagram explaining a signal output from a detection circuit according to an embodiment of the present invention.

Referring to FIG. 1, an electronic device 100 with a touch function according to an embodiment of the present invention includes, but is not limited to, a touch input unit 110, a control unit 120, and a driver 130.

The touch input unit 110 includes a touch sensor 111 and a touch IC 112 for controlling the same, so that a touch function can be implemented. The touch sensor 111 may use a capacitance method and operates by detecting a change in capacitance that occurs when the user's hand or a capacitive touch pen touches it.

The touch IC 112 may detect a touch input or hovering input by measuring a signal change detected by the touch sensor 111, and may provide information about the detected touch input or hovering input (e.g., location, pressure, or time). ) can be provided to the control unit 120 as a touch input signal.

As shown in FIG. 2, the touch input unit 110 is a capacitive type, but is not limited to this, and touch input devices of various types (e.g., resistance, pressure, optical, ultrasonic, etc.) may be applied. You can.

This touch input unit 110 detects the difference between a small change in capacitance that occurs when the user's hand or a capacitive touch pen touches the set value and provides a high or low signal as the final output.

The touch sensor 111 receives an analog signal, that is, a touch sensing signal, by contact with the user's hand or a capacitive touch pen, and the touch IC 112 receives a touch sensing signal based on the touch sensing signal transmitted from the touch sensor 111. A digital signal of judgment, that is, a touch input signal, is transmitted to the control unit 120. At this time, the touch input signal is input to the control unit 120, which controls various operations of the electronic device 100, so that an operation according to the user's intention is performed.

The touch sensor 111 is a contact part that a person's hand or touch pen comes into contact with, and may be composed of a plurality of channels 111a so that different user commands can be input, and operation execution commands for each channel may be set. there is. The touch sensor 111 is designed to increase the capacitance of the capacitors (C ₁ , C ₂ , ..., C _N ), and the uppermost part has a thickness commonly used in the electronic device 100, about 3 mm. Acrylic resin, plastic, or glass can be used.

The comparison circuit 1122 amplifies the difference between the initial touch value stored in the register 1121 and the touch sensing signal provided from the touch sensor 111 and outputs the amplified difference. At this time, the front end of the comparison circuit 1122 may further include a filter for noise removal, and the output end of the comparison circuit 1121 may further include an analog/digital converter for converting the output signal of the comparison circuit 1122 into analog/digital. It can be included.

The register 1121 can store a touch sensitivity reference value and an initial touch value, and for this purpose, it can be largely composed of two registers. The register 1121 always maintains the stored touch sensitivity reference value, but the initial touch value changes each time a new measurement is made. Additionally, touch sensitivity reference values can be stored independently for each channel in the register 1121.

The detection circuit 1123 determines the presence or absence of a touch based on the output signal of the comparison circuit 1122 and provides a touch input signal. The detection circuit 1123 compares _the touch change value ( _V

The touch change value is a value representing the difference between the initial touch value and the touch sensing value (or touch sensing signal), the initial touch value is the value when the user does not touch, and the touch sensing value is the value when the user touches the input state. means each value.

As shown in FIG. 3, the touch input signal (Vo) finally output from the detection circuit 1123 is a high signal when there is no touch in the touch sensor 111, and a low signal is output when there is a touch. You can.

The control unit 120 recognizes the user command required to drive the electronic device 100 based on the touch input signal provided from the touch input unit 110, and provides the recognized user command to the driving unit 130 to match the user's intention. Ensure that the following actions are performed.

Meanwhile, the control unit 120 may include a communication module (not shown), a memory (not shown), and a processor (not shown).

The communication module provides a communication interface to the electronic device 100 in conjunction with a communication network. The electronic device 100 can use the communication module to transmit and receive data with an external device, such as a user terminal and/or a remote controller, which will be described later. Here, the communication module may be a device that includes hardware and software necessary to transmit and receive signals such as control signals or data signals through wired or wireless connections with other network devices.

For example, communication modules include LAN, WCDMA (Wideband Code Division Multiple Access), LTE (Long Term Evolution), WiBro (Wireless Broadband Internet), 5th generation mobile communication (5G), and ultra-wideband wireless communication (Ultra). -Wide-Band, ZigBee, RF (Radio Frequency) communication, Wireless LAN, Wi-Fi (Wireless Fidelity), NFC (Near Field Communication), Bluetooth, infrared communication, etc. can be used to communicate. However, this is an example, and various wired and wireless communication technologies applicable in the technical field may be used depending on the embodiment to which the present invention is applied.

Memory may be a storage medium in which programs executed in the electronic device 100 are recorded. Additionally, memory can perform the function of temporarily or permanently storing data processed by the processor. Here, the memory may include volatile storage media or non-volatile storage media, but the scope of the present invention is not limited thereto.

This memory may store predetermined data or data received in real time, such as information on touch input, such as touch position detection, area calculation, and touch presence/absence calculation required to implement the touch function.

The processor can control the entire process of the program executed in the electronic device 100. Here, the processor may include all types of devices that can process data, such as a processor. Here, 'processor' may mean, for example, a data processing device built into hardware that has a physically structured circuit to perform a function expressed by code or instructions included in a program. Examples of data processing devices built into hardware include microprocessors, central processing units (CPUs), processor cores, multiprocessors, and application-specific integrated devices (ASICs). circuit), FPGA (field programmable gate array), and graphics processing unit (GPU), etc., but the scope of the present invention is not limited thereto.

The electronic device 100 with a touch function of the present invention includes various home appliances such as washing machines, dryers, refrigerators, water purifiers, dishwashers, microwave ovens, induction cookers, clothes dryers, and massage chairs, as well as computing systems, tablet PCs, and wearable devices. It can be applied to all electronic devices including a micro controller unit (MCU) that controls various devices using signals output from the touch input unit 110, such as user terminals. Wearable devices may include electronic appcessories, smartwatches, etc.

FIG. 4 is a flowchart explaining a method for restoring touch sensitivity according to an embodiment of the present invention, and FIG. 5 is a flowchart explaining a soft reset process when restoring touch sensitivity according to an embodiment of the present invention.

As shown in FIG. 4, at the beginning of the operation of the electronic device 100, the control unit 120 transmits a touch sensitivity reference value that serves as a criterion for determining a touch input to the touch input unit 110 (S11). The touch input unit 110 stores the touch sensitivity reference value transmitted from the control unit 120 in the register 1121 (S12).

Thereafter, in order to operate the electronic device 100, when the user touches the touch input unit 110 with a finger or a touch pen, the touch input unit 110 determines whether or not there is a touch by comparing the touch change value with the touch sensitivity reference value.

At this time, the touch change value is the value obtained by subtracting the touch sensing value from the initial touch value and means the amount of change in the touch value (or capacitance) caused by the user's manipulation. The initial touch value is the value when the user does not touch the touch. , the touch sensing value refers to the value in the user's touch input state.

The control unit 120 monitors whether the touch sensitivity reference value stored in the register 1121 of the touch input unit 110 has changed every preset period (S13).

If the touch sensitivity reference value stored in the touch input unit is different from the touch sensitivity reference value transmitted from the control unit 120 (S13), the control unit 120 retransmits the touch sensitivity reference value to the touch input unit during the first period in which there is no touch input from the user. (S14), the touch input unit 110 stores the touch sensitivity reference value retransmitted from the control unit 120 again in the register 1121 to restore the touch sensitivity reference value (S15).

At this time, when restoring the touch sensitivity, the touch input unit 110 deletes the changed touch sensitivity reference value and stores the touch sensitivity reference value retransmitted from the control unit 120 again in the register 1121. Accordingly, the control unit 120 ensures that the touch sensitivity reference value stored in the touch input unit 110 is always maintained as the value transmitted to the touch input unit 110 at the beginning of operation of the electronic device.

As shown in FIG. 5, during the touch sensitivity restoration process, when the touch input unit 110 stores the touch sensitivity reference value again in the register 1121, a soft reset process must be performed to operate the touch IC 112 normally. .

The soft reset process is performed when the touch sensitivity reference value is retransmitted from the control unit 120 (S21). If the soft reset process is performed in an environment where the user is operating the touch input unit 110 or the electronic device 100, the initial touch value is incorrect. Since the value can be input, a soft reset operation is performed during the first period in which there is no touch input from the user (S22).

During the first period, the touch input unit 110 maintains the touch sensitivity reference value stored in the register 1121, initializes the initial touch value, measures it again, and stores it in the register 1121 in order to obtain an accurate touch change value (S23, S24).

Meanwhile, the electronic device 100 may have different manufacturers for each major component, and the electronic device 100 may be configured by assembling each major component according to an assembly process. The touch input unit 110 is a major component of the electronic device 100, and the manufacturer of the touch input unit 110 can store an initial reference value in a register of the touch input unit 110.

In this case, when power is applied to the electronic device 100 and the control unit 120 operates, the touch sensitivity reference value customized for the corresponding electronic device 100 is transmitted from the control unit 120 to the touch input unit 110 and the touch IC ( The touch sensitivity reference value can be stored in the register 1121 of 112). If the data stored in the register 1121 of the touch IC 112 is contaminated due to noise introduced during the operation of the electronic device 100, or the touch IC 112 is reset and returns to the initial reference value set by the manufacturer, the control unit 120 can periodically monitor whether the touch sensitivity reference value has changed and then restore it to the customized touch sensitivity reference value.

The description of the present invention described above is for illustrative purposes, and those skilled in the art will understand that the present invention can be easily modified into other specific forms without changing the technical idea or essential features of the present invention. will be. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive. For example, each component described as unitary may be implemented in a distributed manner, and similarly, components described as distributed may also be implemented in a combined form.

The scope of the present invention is indicated by the claims described below rather than the detailed description above, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention.

100: electronic device
110: Touch input unit
111: touch sensor
112: Touch IC
1121: register
1122: comparison circuit
1123: detection circuit
120: control unit
130: driving unit

Claims (5)

In a method of restoring touch sensitivity performed by an electronic device having a touch function,
At the beginning of the operation of the electronic device, the control unit transmits a touch sensitivity reference value that serves as a criterion for determining a touch input to the touch input unit, so that the touch sensitivity reference value is stored in the touch input unit;
Monitoring whether a touch sensitivity reference value stored in the touch input unit has changed every preset period; and
When the touch sensitivity reference value stored in the touch input unit changes, a touch sensitivity restoration method comprising restoring the touch sensitivity reference value of the touch input unit during a first period without a user's touch input. According to paragraph 1,
The touch input unit,
When a touch sensing value due to user manipulation is detected, the difference between the initial touch value in a non-touch state and the touch sensing value is calculated to output a touch change value, and the touch change value is compared with a touch sensitivity reference value. A method of restoring touch sensitivity, which determines the presence or absence of a touch based on a value. According to paragraph 1,
The step of restoring the touch sensitivity reference value of the touch input unit during the first period without the user's touch input includes:
A touch sensitivity restoration method comprising the step of allowing the control unit to retransmit the previously stored touch sensitivity reference value to the touch input unit, so that the retransmitted touch sensitivity reference value is stored in the touch input unit. According to paragraph 3,
The step of restoring the touch sensitivity reference value of the touch input unit during the first period without the user's touch input includes:
A touch sensitivity restoration method comprising measuring and storing a new initial touch value in a state without touch input while maintaining the retransmitted touch sensitivity reference value. In an electronic device with a touch function,
touch input unit; and
Including the control unit,
The control unit,
At the beginning of the operation of the electronic device, a touch sensitivity reference value that serves as a criterion for determining a touch input is transmitted to the touch input unit, and the touch sensitivity reference value is stored in the touch input unit. Then, the touch stored in the touch input unit is stored at a preset period. Monitoring whether the sensitivity reference value has changed, so that when the touch sensitivity reference value stored in the touch input unit changes, the touch sensitivity reference value of the touch input unit is restored during the first period without the user's touch input. Electronic devices.

Images