KR101145155B1 - Hybrid Capacitive Function Key - Google Patents

Abstract

The present invention relates to a function button mounted on a mobile device employing a touch screen as an input device and configured to input a specific function. The capacitive hybrid function button 1 according to the present invention is installed on the mobile device 2. As a function button, the capacitive touch sensor unit 10 for detecting the touch of the conductor 3 and the capacitive pressure sensor unit 20 for detecting the applied pressure are divided and installed together in the entire button area 4. It is done; A touch mode for generating a corresponding input signal when the touch sensor unit 10 detects the touch, and a corresponding input signal when the pressure sensor unit 20 detects a pressure corresponding to a reference pressure required for generating an input signal And a hybrid mode in which the touch sensor unit 10 detects the touch and simultaneously generates a corresponding input signal when the pressure sensor unit 20 detects a pressure corresponding to the reference pressure. It is characterized in that any one mode can be selected.

Description

Capacitive Hybrid Function Buttons {Hybrid Capacitive Function Key}

The present invention relates to a function button, and more particularly, to a function button mounted on a mobile device employing a touch screen as an input device and configured to input a specific function, the capacitive touch sensor unit for detecting a touch and pressure A capacitive pressure sensor unit detecting the touch is installed, the touch mode generating a corresponding input signal when the touch sensor detects a touch, the pressure mode generating a corresponding input signal when the pressure sensor detects a pressure, and a touch sensor. The present invention relates to a capacitive hybrid function button capable of selecting any one of hybrid modes in which a pressure sensor unit detects an additional touch and generates a corresponding input signal when the pressure sensor unit detects a pressure.

As mobile phones, which are representative portable communication terminals, have continued to evolve, the trend toward the so-called 'smartphones' that integrate various functions such as computer functions with traditional call functions has become one of the trends.

Since the smart phone is configured to execute various functions in addition to the intrinsic call function by loading various applications as well as the Internet, the dome switch that has been widely used in mobile phones as a input device for inputting such various operations and data. The keypad of the type has a limitation, and for this reason, touch input devices represented by touch screens are widely applied to smart phones, and mobile phones using touch screens as input devices are generally called 'touch phones'.

The touch screen is not only a variety of portable terminals such as MP3, PDA, PMP, PSP, portable game consoles, DMB receivers including mobile phones such as smartphones, but also various monitors such as navigation, industrial terminals, notebook computers, financial automation devices, game machines, etc. In addition, it is widely used as an input device of various electric and electronic devices, ranging from various home appliances such as refrigerators, microwave ovens and washing machines.

As is widely known, a touch screen is used together with a display device on which a predetermined content is displayed. In general, when a finger or the like is touched (pressurized) on a touch screen stacked on the display device, the content displayed on the display device below is input. As one of the input devices, there is a capacitive method, a resistive film method, an infrared method, an ultrasonic method, or the like according to its structure and operation principle.

The capacitive touch screen includes a capacitive touch sensor that detects only the contact (approach) position of a conductor (for example, a finger), and a capacitive pressure sensor that senses the magnitude and position of the pressure applied by the contact. There is.

The former capacitive touch sensor is a structure in which a pole plate (electrode, for example, transparent conductive film such as Indume Tin Oxide (ITO)) is stacked (coated) on a substrate (e.g., synthetic resin). For example, a touch for generating an input signal corresponding to a touch position by measuring a parasitic capacitance generated when a conductor (for example, a finger) approaches (or touches) a pole plate and detecting a corresponding touch position (coordinate). It is a screen, and it is possible to use only non-conducting conductors (for example, fingers) as a contacting object, and only detects contact and cannot detect the magnitude of the applied pressure.

The latter capacitive pressure sensor has a structure in which the upper and lower pole plates are separated by a predetermined distance on a substrate, for example, in a matrix arrangement. It is a touch screen that generates an input signal corresponding to the position and magnitude of pressure applied by measuring the change in capacitance generated and detecting the magnitude of pressure applied with the corresponding touch position (coordinate). The input may be performed by pressing a predetermined position of the touch screen, and different input signals may be generated according to the magnitude of pressure applied as well as the touch position.

The capacitive touch sensor and the capacitive pressure sensor are selectively applied to the touch screen employed in the aforementioned touch phone.

On the other hand, even if the main input device is a touch screen, it is common to configure the touch phone to realize a more convenient input function by installing some function buttons (for example, call button, end button, menu button, etc.). For these function buttons, traditional dome switches can be applied, or capacitive buttons can be used.

However, in the case of the dome switch type function button, since the structure is completely different from the touch screen as the main input device, it is difficult to design the design of the touch phone because the installation area of both is designed to be completely separated. Application of the expression function button is preferred.

In applying the capacitive function button to the touch phone, when the function button of the capacitive touch sensor described above is applied, because of its sensitive touch sensitivity, for example, only the face touches the function button during a call of the touch phone. In addition, the corresponding function button is input, there is a problem that may cause unintended operation, such as, for example, the end of the call unintentionally terminated the call to the end button.

In contrast, when the function button of the capacitive pressure sensor is applied, for example, even if the face touches the function button during a call of the touch phone, the function button is not applied if the pressure applied does not exceed the predetermined threshold pressure. Since it is not input, it is free from unintended input by unintended touch.

However, the function button of the capacitive pressure sensor, for example, when tempered glass (or hard plastic) is used as the window of the pressure sensor, pressure applied to a portion other than the function button is transmitted to the function button through the window. When the magnitude of the delivered pressure exceeds the critical pressure, the corresponding function button may be inadvertently inputted by being recognized as being pressed.

Therefore, when applying the function button of the capacitive pressure sensor, for example, if the main touch screen and its installation area are not separated (that is, if the windows of the main touch screen and the function button are not separated from each other), Since the applied pressure can be transmitted to the function button and the function button can be input, it cannot be completely free from unintentional operation, and thus the function button of the capacitive pressure sensor method in the tempered glass window design which is widely applied to the touch phone recently. It is not easy to apply.

The above-mentioned problem of the capacitive function button occurs not only in a touch phone but also in mobile devices such as PMP and MP3 employing a touch screen as an input device.

As described above, when the capacitive touch sensor or the capacitive pressure sensor is applied to the function buttons of various mobile devices employing the touch screen as the main input device, the function button may be inadvertently inputted. In order to solve the possible problems, the Korean Patent Application No. 10-2010-0012220 has proposed a 'capacitive hybrid function button', and this hybrid function button is a capacitive for detecting 'touch' in configuring a function button. The hybrid touch sensor unit and the capacitive pressure sensor unit detecting 'pressure' are installed, and the corresponding function button is input only when both touch and pressure are applied, thereby eliminating inconvenience caused by unintentional function button input. will be.

SUMMARY OF THE INVENTION An object of the present invention is a capacitive touch sensor unit for detecting a touch and a capacitive pressure detecting pressure in relation to a function button mounted on a mobile device having a touch screen as an input device and provided to input a specific function. The sensor unit is mixed, and the touch mode generates a corresponding input signal when the touch sensor detects a touch, the pressure mode generates a corresponding input signal when the pressure sensor detects a pressure, and the touch sensor detects a touch. At the same time, by allowing the pressure sensor unit to select one of the hybrid modes that generate a corresponding input signal when the pressure is detected, the operating state of the function button can be made closer to the user's input control habits. This is to minimize the input error of the function button.

It is another object of the present invention to provide an input signal from a capacitive pressure sensor unit in connection with a capacitive hybrid function button in which a capacitive touch sensor unit for detecting a touch and a capacitive pressure sensor unit for detecting pressure are installed. By allowing the user to adjust the pressure (reference pressure, critical pressure) required to generate the pressure according to the user's input operation habits, the input error caused by the user's habitually applied pressure and the reference pressure does not match. I would like to.

According to the invention, there is provided a capacitive hybrid function button 1 applied to various mobile devices 2.

According to the present invention, the capacitive hybrid function button 1 includes a capacitive touch sensor unit 10 for detecting the touch of the conductor 3 and a capacitive pressure sensor unit 20 for detecting the applied pressure. The whole button area 4 is divided and installed together.

The capacitive hybrid function button 1 according to the present invention is a touch mode in which the touch sensor unit 10 generates a corresponding input signal when detecting the touch, and the pressure sensor unit 20 generates an input signal. A pressure mode for generating a corresponding input signal when the pressure corresponding to the reference pressure required for the detection is detected, and the touch sensor unit 10 detects the touch and at the same time the pressure sensor unit 20 corresponds to the reference pressure. One of the hybrid modes in which the corresponding input signal is generated only when the pressure is detected can be selected.

Preferably, the size of the reference pressure is adjustable according to the user's input operation habits.

According to the capacitive hybrid function button according to the present invention, the capacitive touch sensor unit for detecting a touch and the capacitive pressure sensor unit for detecting pressure are installed in a function button, and the input operation habits of the individual users In addition, the operating mode can be selected and used among the touch mode, the pressure mode, and the hybrid mode, and the reference pressure for generating the input signal in the case of the activated mode (pressure mode and hybrid mode). Since the size of the self-adjustable to fit the user's input operation habits, the operation state of the function button can be closer to the user's input operation habits, and as a result there is an effect that can minimize the input error of the function button.

In the function button according to the present invention, when the operation mode is selected as the hybrid mode, the corresponding function button is input only when a pressure corresponding to the reference pressure is applied together with the touch, so that the skin does not intentionally touch the function button. There is an effect that can solve the problem that the function button is inadvertently input by the touch, and the problem that the function button is inadvertently input because the pressure applied to the other part of the mobile device other than the function button is transmitted to the function button.

In addition, when the function button according to the present invention is applied to various mobile devices, the touch screen, the main input device, and the function button of the present invention can be integrated into one without dividing the area. It can be applied more flexibly.

1 is a schematic diagram of an exemplary mobile device (touch phone) to which a capacitive hybrid function button is applied according to the present invention;
2 is an exemplary hybrid arrangement diagram of a capacitive touch sensor unit and a capacitive pressure sensor unit of a capacitive hybrid function button according to the present invention;
3 is a schematic diagram of an exemplary capacitive hybrid function button in accordance with the present invention;
4 is a schematic diagram of another exemplary capacitive hybrid function button in accordance with the present invention;
5 is an operation of the capacitive hybrid function button according to the present invention,
6 is a flow chart of mode setting of the capacitive hybrid function button according to the present invention;
7 is a flow chart of operation of the capacitive hybrid function button according to the present invention.

Hereinafter, a capacitive hybrid function button according to the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are merely illustrative of the capacitive hybrid function button according to the present invention, and are not intended to limit the scope of the present invention.

As shown in Fig. 1, the capacitive hybrid function button 1 of the present invention is preferably an input device in addition to the mobile device 2 (e.g., touch phone) to which the touch screen 5 is applied as the main input device. It is a function button adopted. The touch phone 2 of the illustrated embodiment is an example in which three function buttons 1 having basic functions of call, end and menu are installed as an additional input device other than the touch screen 5 in front of the present invention. This is applied to the function button 1 of the mobile device (2).

According to a feature of the present invention, the function button 1 of the present invention, as illustrated in Fig. 2, in the entire button zone 4 given to the installation of the entire function button 1, capacitive touch sensor unit (10) and the capacitive pressure sensor unit 20 are mixed by being appropriately divided.

The method of dividing the touch sensor unit 10 and the pressure sensor unit 20 with respect to the entire button zone 4 is, for example, the function button 1 with a conductor 3 (for example, a finger). Pressure or a range of pressure), the touch sensor unit 10 is not particularly limited as long as the touch sensor unit 10 detects the touch of the conductor 3 and the pressure sensor unit 20 can detect the applied pressure.

For example, in the touch sensor unit 10 and the pressure sensor unit 20, the touch sensor unit 10 is disposed on the left side in the same area as the pressure sensor unit 20 on the right side or vice versa (A of FIG. 2). ), The method of arranging the touch sensor unit 10 on the same side of the pressure sensor unit 20 on the lower side or vice versa (B of FIG. 2), and the pressure sensor unit 10 on the lower left side of the touch sensor unit 10 ( Horizontal division can be arranged in various ways, such as a method of arranging 20) in the same area as the right angle diagonally or vice versa (Fig. 2C).

In this horizontal divisional arrangement, the user observes the input operation pattern of the thumb which is most often used by the user to input the function button 1, so that either one of the touch sensor unit 10 and the pressure sensor unit 20 can be observed. If the input area is better recognized when the occupancy area is larger, the entire button zone 4 can be appropriately allocated to the capacitive touch sensor unit 10 and the capacitive pressure sensor unit 20 accordingly. .

The capacitive touch sensor unit 10 applied to the function button 1 according to the present invention measures the parasitic capacitance generated by the touch (approach) of the conductor 3 (for example, a finger) and the conductor 3. As a sensor unit for detecting a touch of, an electrode 12 (eg, a transparent conductive film) is applied to the substrate 11 as shown in FIG. 3A, and an insulator 13 (eg, tempered glass or high hardness) is applied thereon. It can be illustrated by the structure which laminated cover panels, such as plastics.

In the capacitive pressure sensor unit 20 applied to the function button 1 of the present invention, when a pressure is applied to a predetermined reference pressure (for example, when a finger is pressed), the distance between the two electrodes spaced up and down is varied. As a sensor unit for detecting pressure from a change in capacitance generated, two upper and lower electrodes 22 are stacked on the substrate 21 at a predetermined distance, as shown in FIG. 3B, and an insulator 23 is placed thereon. : Tempered glass or hard plastic cover panel) can be exemplified by a laminated structure.

In FIG. 3, reference numeral 24 schematically shows an elastic member (for example, a silicon layer or a spring, etc.) for elastically returning the two electrodes 22 to their original positions after the pressure disappears from the two upper and lower electrodes 22 to which pressure is applied. It is shown as.

In the function button 1 of the present invention illustrated in FIG. 3, the touch sensor unit 10 and the pressure sensor unit 20 share the substrates 11 and 21 and the insulators 13 and 23, but are not limited thereto. It is not.

In the function button 1 of the present invention, the touch sensor unit 10 and the pressure sensor unit 20 are not arranged horizontally, as shown in FIG. 4, the touch sensor unit 10 is disposed on the upper layer. It is also possible to arrange the pressure sensor unit 20 in the lower layer of the touch sensor unit 10, that is, to arrange the upper and lower layers.

The function button 1 illustrated in FIG. 4 is formed by separating the upper and lower two electrodes 22 spaced apart at regular intervals on the substrate 21 by the elastic member 24 and then laying the insulator 23 thereon. While forming the pressure sensor unit 20, the electrode 12 is laminated on the pressure sensor unit 20, and then the insulator 23 (eg, tempered glass or high hardness plastic) is laminated thereon, thereby forming the touch sensor unit 10. ) Is an example. According to the upper and lower laminated structure, the pressure to the pressure sensor unit 20 is received through the touch sensor unit 10 when pressing the touch sensor unit 10 of the upper layer.

The basic configuration of the capacitive touch sensor unit 10 and the capacitive pressure sensor unit 20 applied to the present invention can be applied to the general technology in the relevant art in accordance with the present invention, the configuration itself is the present invention Since it is not directly related to the description, detailed description thereof will be omitted.

Since the function button 1 according to the present invention is provided with the capacitive touch sensor unit 10, when the conductor 3 is in contact with the function button 1, the touch sensor unit 10 touches the touch. As the capacitive pressure sensor unit 20 is provided, the pressure sensor unit 20 detects the pressure when the function button 1 is pressed to a predetermined reference pressure.

According to the feature of the present invention, the function button 1 of the present invention having such a structure can select and use one of the three modes.

The first mode is a touch mode (T mode) that generates a corresponding input signal regardless of the size of the pressed input when the touch sensor unit 10 detects a touch. In the touch mode, the touch sensor unit 10 is activated. And the pressure sensor unit 20 is inactivated.

The second mode is a pressure mode (P mode) in which the pressure sensor unit 20 generates a corresponding input signal regardless of whether or not the touch is detected when the pressure sensor unit 20 detects a pressure corresponding to the reference pressure required for generating the input signal. The sensor unit 10 is deactivated and the pressure sensor unit 20 is activated.

The third mode is a hybrid mode in which the touch sensor unit 10 detects a touch and simultaneously generates a corresponding input signal when the pressure sensor unit 20 detects a pressure corresponding to the reference pressure (H mode). . In the hybrid mode, both the touch sensor unit 10 and the pressure sensor unit 20 are activated.

In the hybrid mode, the capacitive touch sensor unit 10 detects a touch and simultaneously inputs a function assigned to the function button 1 only when the capacitive pressure sensor unit 20 detects a pressure. When the signal is generated and the touch sensor unit 10 detects only the touch or the capacitive pressure sensor unit 20 detects only the pressure, the function button 1 does not execute the corresponding function.

That is, in the hybrid mode, when the conductor 3 (for example, a face) is lightly touched by the touch sensor unit 10 during a call without applying a pressure corresponding to the reference pressure to the pressure sensor unit 20, or a touch sensor When a user corresponding to the reference pressure is applied to the pressure sensor unit 20 by the user operating the main touch screen 5 of the touch phone 2 without touching the unit 10 or by other factors, the function button 1 ) Does not enter the corresponding function.

Accordingly, when the function button 1 according to the present invention is set to the hybrid mode, as shown in Fig. 5, the user intentionally touches the function button 1 with a conductor 3 such as a finger, and at the same time, The function is entered only when the pressure corresponding to the pressure is pressed.

The mode selection for the function button 1 according to the present invention can be set through a usage environment setting menu of a device (for example, a touch phone) equipped with the function button 1. For example, by including the function button mode setting item in the user preference menu of the mobile phone, the user can select one of the touch mode, the pressure mode and the hybrid mode according to the user's function button input operation habit. have.

For example, a user who has a habit of soft touch may use a touch mode, a user who has a habit of pressing a button strongly, a pressure mode, and a user who lacks prudence in using a function button may select a hybrid mode.

The setting of the reference pressure, which is the pressure required to generate the input signal in the capacitive pressure sensor unit 20, is such that the input signal is generated when the applied pressure is equal to or greater than a predetermined pressure (threshold pressure). For example, in a manner in which an input signal is generated only when the pressure is applied at a pressure of 100 gf or more and less than 200 gf per unit area, a corresponding input signal is generated.

However, the reference pressure is set to two or more sections, such as a first reference pressure (for example, 100 gf or more and less than 200 gf per unit area) and a second reference pressure (for example, 200 gf or more), and thus belongs to the first reference pressure. The first input signal may be generated when the pressure is applied, and the second input signal may be generated when the pressure belonging to the second reference pressure is applied.

As described above, setting the reference pressure of the multi-level in the capacitive pressure sensor unit 20 is, for example, when a relatively low pressure is applied to the touch phone 2 equipped with the function button 1 of the present invention, 'schedule management. Mode 'and a relatively high pressure can be utilized to execute various inputs with one function button, such as the touch phone 2 to switch to the' MP3 mode '.

In general, an input manipulation habit for a function button may have individual characteristics, such as some users habitually pressing relatively hard and some users habitually pressing weakly.

Therefore, the function button 1 of the present invention, it is preferable to enable the user to adjust the reference pressure of the capacitive pressure sensor unit 20 according to the user's input operation habits.

The adjustment of the reference pressure by the user can be set through the use environment setting menu of the touch phone 2 equipped with the function button 1 of the present invention. For example, by including the touch sensitivity setting item in the setting menu of the touch phone, the reference pressure for the function button 1 is set to 'strong-weak', 'up-mid-low', or 'steps 1 to 5'. By allowing selection and setting, the reference pressure can be lowered or increased according to the user's own input operation habits.

Hereinafter, exemplary mode setting and operation of the function button 1 according to the present invention will be described with reference to FIGS. 6 and 7 by way of example in which the function button 1 of the present invention is installed in a touch phone.

As shown in Fig. 6, when the user operates the function button setting mode in the use environment setting menu of the touch phone 2 (step S61), the control unit of the touch phone 2 enters the function button setting mode selected by the user. It is determined whether it is the touch mode (T-mode), the pressure mode (P-mode), or the hybrid mode (H-mode) (step S62).

If it is determined in step S62 that the touch mode, the touch sensor unit 10 is activated and the pressure sensor unit 20 is deactivated so that only the touch sensor unit 10 is operated in the function button 1 (step S63A).

In step S62, it is determined that the pressure mode, the pressure sensor unit 20 is activated and the touch sensor unit 10 is inactivated so that only the pressure sensor unit 20 is operated in the function button 1 (step S63B).

If it is determined in step S62 that the hybrid mode, both the touch sensor unit 10 and the pressure sensor unit 20 is activated to operate both the touch sensor unit 10 and the pressure sensor unit 20 in the function button (1). (Step S63C).

Next, when the mode of step S63 is the pressure mode or the hybrid mode, the selection window of the reference pressure opens to select the reference pressure to be applied in a manner such as 'strong-weak' or 'up-mid-low' ( S64), so that the selected reference pressure is applied to the pressure sensor unit 20 of the function button 1 of the present invention, the mode setting of the function button 1 according to the present invention is finished.

As shown in Fig. 7, when an input operation for the function button 1 of the touch phone 2 is executed by the user (step S71), the control unit of the touch phone 2 changes the mode of the set function button. It is determined in which mode (step S72).

Then, the control unit executes the touch mode (T-mode), the pressure mode (P-mode), or the hybrid mode (H-mode), respectively, according to the determination result of step S72 (steps S73, S73A, S73B, and S73C).

In step S73, in the touch mode (T-mode) (step S73A), it is detected whether there is a touch capable of generating an input signal (step S74A), and if a touch is detected (YES), a corresponding input signal is generated (step S73A). S75) If no touch is detected (NO), the process returns to the previous step S71 without generating an input signal (step S76).

In the case of the pressure mode (P-mode) in step S73 (step S73B), it is detected whether there is a pressure corresponding to the reference pressure capable of generating an input signal (step S74B), and if the pressure is detected (YES), the corresponding input signal (Step S75), if no pressure is detected (NO), and without generating an input signal (step S76), the process returns to the previous step S71.

In the case of the mixed mode (H-mode) in step S73 (step S73C), it is detected whether there is a touch capable of generating an input signal (step S74C), and when the touch is detected (YES), the reference can be generated again. If there is a pressure corresponding to the pressure (step S74D), if a pressure is detected (YES), a corresponding input signal is generated (step S75).

If no touch is detected in step S74C (NO) or no pressure is detected in step S74D (NO), the flow returns to the previous step S71 without generating an input signal (step S76).

The function button 1 according to the present invention described above can be used to select the operation mode among the touch mode, the pressure mode and the hybrid mode according to the input operation habits of the user, as well as the capacitive pressure sensor unit ( 20) is activated mode (pressure mode and mixed mode), the size of the reference pressure to generate the input signal can be adjusted by the user according to the user's input operation habits, so the operation state of the function button to the user's input operation habits It is expected to be closer, and as a result, to minimize the input error of the function button.

In operation of the function button 1 according to the present invention the capacitive touch sensor unit 10 detects the touch, the capacitive pressure sensor unit 20 detects the pressure, capacitive touch Activating only one of the sensor unit 10 and the capacitive pressure sensor unit 20 or activating both to switch the mode to touch mode, pressure mode or hybrid mode, capacitive pressure Adjusting the reference pressure of the sensor unit 20, etc., can be easily carried out by configuring in accordance with the present invention using control techniques in the related art, and the present invention is not directly related to such control technique itself. , Description thereof will be omitted.

In the above description, a touch phone in which a touch screen is used as a main input device as a device to which the function button of the present invention is applied has been mainly described. Naturally, the function button 1 of the present invention can be applied.

1: Function button of the present invention 2: Mobile device (touch phone)
3: conductor 4: entire button area
5: touch screen 10: touch sensor unit
11, 21: substrate 12, 22: electrode
13, 23: insulator 20: pressure sensor
24: elastic member

Claims (2)

In the function button installed in the mobile device 2,
A capacitive touch sensor portion 10 for detecting the touch of the conductor 3 and a capacitive pressure sensor portion 20 for detecting the applied pressure are intermingled with the entire button zone 4 by dividing;
A touch mode for generating a corresponding input signal when the touch sensor unit 10 detects the touch, and a corresponding input signal when the pressure sensor unit 20 detects a pressure corresponding to a reference pressure required for generating an input signal And a hybrid mode in which the touch sensor unit 10 detects the touch and simultaneously generates a corresponding input signal when the pressure sensor unit 20 detects a pressure corresponding to the reference pressure. Capacitive hybrid function button, characterized in that any one mode can be selected. The capacitive hybrid function button according to claim 1, wherein the reference pressure is adjustable in accordance with a user's input operation habit.

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