KR100880522B1 - The sensor sensitivity adjusting device for the malfunction prevention from the multi-sensor switch - Google Patents

Abstract

A device for controlling sensitivity of a sensor to prevent wrong operation in a multi-sensor switch is provided to prevent the wrong operation of a neighboring sensor when the sensor is touched in a touch sensor switch including a plurality of sensors. A touch/touch level determiner(10) determines a touch and a touch level, and compares the touch levels of each sensor switch. A maximum level selector(20) selects a sensor having a maximum level. A maximum level sensor switch output unit(30) outputs the selected maximum level sensor switch. A sensitivity adjuster(40) adjusts sensitivity of the remaining sensor switches excluding the maximum level sensor to a predetermined level. A touch re-determiner(50) determines the touch again based on the adjusted sensitivity.

Description

 Sensor sensitivity adjusting device for the malfunction prevention from the multi-sensor switch}

 The present invention is a method for preventing the touch sensor switch that is not in contact with the touch sensor switch due to the human body is in contact with one sensor in the touch sensor switch having a plurality of sensors to cause malfunction.

 When a single sensor is touched by a touch sensor switch having a large number of sensors, the human body may affect another sensor near by and malfunction, as if pressed.

 The present invention aims to prevent a neighboring sensor from malfunctioning when a specific sensor is touched by a touch sensor switch having a plurality of sensors.

 According to the present invention, when a specific switch is touched in a touch sensor switch to which a plurality of sensors are connected, it is determined that the touch sensor switch having the largest contact degree is first touched based on the originally set sensitivity, and the remaining sensor switches except the switch have sensitivity. By adjusting, it is possible to prevent the neighboring sensor from malfunctioning and perform more faithful sensor switch function.

 According to the present invention, due to the distance between the sensors or other structural problems, neighboring sensors other than the sensor switch to be pressed can be prevented from malfunctioning.

 In order to achieve the above object, the present invention provides a functional block 10 for determining whether a contact is made and a degree of contact based on an initially set sensitivity, and a function block for selecting a sensor having a maximum value by comparing the contact degree of each sensor switch ( 20), a block 30 for outputting the sensor switch Sx having the selected maximum value, a function block 40 for adjusting the sensitivity of the remaining sensor switches except for this sensor, and determining whether to contact again based on the adjusted sensitivity And a functional block 50 for outputting all the sensor switches judged to be contact based on this result.

 1 is a block diagram of a conventional touch sensor.

1 illustrates a reference level according to a preset sensitivity and compares a change of a sensor input value to determine whether a touch occurs.

In this structure, when the human body contacts the sensor, for example, when the human body contacts the sensor 2 as illustrated in FIG. 1, the sensors 1 and 3 are affected according to the sensor position, so the sensor 1 or 3 also touches together. There was a risk of judging.

The closer the distance between the sensors is, the more likely there is a malfunction. Such a malfunction is shown in FIG. 2.

 3 is a block diagram of an embodiment according to the present invention.

Referring to the operation of the present invention based on the embodiment, only the touch sensor having the maximum value at the timing of outputting the output by first determining the contact degree in each sensor as well as the contact when the first touch sensor is touched. Output the switch. After determining whether or not the contact and the degree of contact based on the initially set sensitivity and the contact degree determining unit 10 determines whether or not the contact and the degree of contact, respectively comparing the contact degree of the sensor switch, selecting the sensor having the maximum value The maximum value selector 20 selects a sensor having a maximum degree of contact and outputs a sensor switch Sx having the maximum value selected. The sensor switch output unit 30 outputs only the sensor switch having the maximum value. do. (At this time, the degree of contact may vary depending on the detection method of the touch sensor switch, but in any case, since the magnitude of the sensor input is compared with the reference sensitivity, it may be determined by the difference of the comparison value.) FIG. Looked on. Since the sensor having the maximum contact degree up to the T1 section of FIG. 4 is the sensor 2, only the sensor 2 should be output. However, since the sensor 2 is pressed from the middle of the T1 section, the sensor 2 is not output until the T1 section. In the T1 ~ T3 section, the sensor judges the contact based on the sensitivity adjusted by adjusting the sensitivity of the sensors except the sensor 2, and thus, only the sensor 2 is output during the T1 ~ T3 section because there is no sensor with a larger contact level than the adjusted sensitivity.

In systems where there are multiple touch sensors and only one of them is considered to be touched, there is no problem, but in certain cases, i.e., in a system that allows two or more touch sensors to be pressed, the pressed sensor (in the example of FIG. 5) In addition to sensor 2), sensor 1 or sensor 3 may not be affected by pressing sensor 2 but may be pressed simultaneously with actual sensor 2.

To this end, the present invention changes the sensitivity of the remaining sensors to a certain level other than the first pressed by the sensitivity adjusting unit 40 for adjusting the sensitivity of the remaining sensor switch except for the sensor having the maximum value to determine whether or not to touch again based on the adjusted sensitivity. The judging unit 50 to determine whether to judge the contact of the remaining sensors.

According to the present invention, the sensitivity of the first pressed sensor is changed by (10)-> (20)-> (30) by changing the sensitivity according to the degree of the sensor's reaction when it is actually pressed and the effect of the neighboring sensor being pressed. The block determines whether or not the touch is based on the originally set sensitivity, and neighboring sensors other than the pressed sensor are malfunctioned by judging the contact by adjusting the sensitivity through the block (40)-> (50)-> (60). In addition, the touch sensor switch capable of normal output can be implemented when the two or more touch sensors are pressed simultaneously. A timing diagram when two touch sensors are pressed is shown in FIG. 5. Since the sensor having the maximum contact degree up to the T1 section of FIG. 5 is the sensor 2, only the sensor 2 should be output. However, since the sensor 2 is pressed from the middle of the T1 section, the sensor 2 is not output during the T1 section. In the T1 ~ T3 section, the sensitivity of the sensors except for the sensor 2 is adjusted and the contact is judged based on the adjusted sensitivity. As a result, the sensor 2 which is pressed maximum during the T1 ~ T3 section is output, and the maximum pressed during the T2 ~ T3 section. In addition to the sensor 2 determined to be in contact with the sensor, the sensitivity is adjusted to judge whether or not the contact is made, and the sensor 3 determined to be pressed higher than the adjusted sensitivity is simultaneously output.

According to the present invention, when two or more touch sensors are pressed, at first, only one contact judged to have the greatest degree of contact is recognized, and the second judges whether or not the other touches are judged, and at the same time, some time is pressed. It outputs with delay, but there is no concept of concurrent, so there is no effect on normal operation.

1 is a conventional touch sensor block diagram.

2 is a signal diagram of a conventional touch sensor switch.

Figure 3 is an embodiment of a sensor sensitivity adjustment device for preventing malfunction in the multi-sensor switch proposed in the present invention.

4 is an operation timing diagram according to an embodiment of the present invention. (When one sensor is touched)

5 is an operation timing diagram according to an embodiment of the present invention. (When two sensors are touched)

Claims (4)

 A sensor input unit in a touch sensor switch having a plurality of touch sensors; A contact status and a contact degree determination unit 10 for determining whether or not the contact is made and the degree of contact based on the sensitivity initially set by the touch sensor values input from the sensor input unit; A maximum value selecting unit 20 for selecting a sensor having a maximum value by comparing the degree of contact of the sensor switch with each other after determining whether or not the contact is made in the block for determining whether the contact is made and the degree of contact; A maximum sensor switch output unit 30 for outputting a sensor switch Sx having a maximum value selected in a function block for selecting a sensor having the maximum value; A sensitivity adjusting unit 40 for adjusting the sensitivity of touch sensor switches other than the sensor switch Sx having the selected maximum value; A contact status judging unit (50) for re-determining whether or not there is a contact after adjusting the sensitivity of a sensor switch other than the touch sensor pressed maximum in the function block for adjusting the sensitivity; And an output unit (60) for outputting all sensor switches that are determined to be contacts based on a result of the function block for re-determining whether or not the contact is made.   The method of claim 1, Initially, only one touch is output by judging whether or not the touch is determined based on the initially set sensitivity and whether the touch is determined by the touch degree determining unit 10, and the sensitivity of the remaining sensor switches is set to an arbitrary value by the sensitivity adjusting unit 40. A touch sensor switch for allowing a plurality of sensor touches, characterized in that it is determined again in the contact judging unit (50) whether or not the touched remaining sensor switches.  The method of claim 1, The touch sensor switch for allowing a plurality of sensor touch, characterized in that the sensor is determined based on the reference level sensitivity that is set first when it is determined that all the switches are not touched by the contact or contact degree determining unit (10). delete

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