KR100719257B1 - The touch sensor which automatic movement is adapted to a external environment - Google Patents

Abstract

The present invention relates to a touch sensor that automatically adapts to an external environment, and an object thereof relates to a touch sensor that automatically adjusts sensitivity according to changes in an external environment such as a temperature and humidity of a place and a device to which it is mounted.

In order to achieve the above object, the present invention provides a touch sensor operated by a touch of a person, comprising: a sensing unit for transmitting a touch signal, a sensor register for storing a sensor signal from the sensing unit, and a basic setting sensitivity; It consists of a reference register, a comparator for comparing the signals of the reference register and a sensor register, and an output part for outputting by the comparison value of the comparator, and automatically adjusts the touch sensitivity according to the change of the external environment to the external environment. In order to prevent malfunction due to error or change in sensitivity, if the change time is long and changes slowly, the basic setting sensitivity is continuously stored, and the change of the rapid sensor is judged as a response by the touch of a person. Sleep in an external environment to keep you always the same It relates to touch sensors and to adapt to the technical aspect.

Touch sensor, sensitivity, temperature, humidity, auto storage

Description

The touch sensor which automatic movement is adapted to a external environment}

1 is a block diagram showing a touch sensor that automatically adapts to the external environment of the present invention;

2 is a timing diagram of an operation of a touch sensor that automatically adapts to the external environment of the present invention;

<Description of the symbols for the main parts of the drawings>

(10): sensor register (11): detector

(20): reference register (30): default input method

31: control unit 32: storage unit

40: comparison unit 50: output unit

The present invention relates to a touch sensor that automatically adapts to an external environment, and more particularly, to a touch sensor that automatically adjusts sensitivity according to a change in an external environment such as a temperature and humidity of a place and a device to which it is mounted. .

In general, in the case of touch sensors and switches, if the external environment changes after being installed, the first sensor is maintained regardless of the external environment.

Therefore, when the temperature rises or the humidity rises, there is a problem that the sensitivity of the touch sensor becomes sensitive or a touch is sensed.

On the other hand, in contrast, when the temperature or humidity is lowered, there is a problem that the sensitivity of the touch sensor becomes insensitive or the touch is not detected.

In addition, the touch operation may cause an error due to temperature and humidity, and there is a problem of malfunction.

The present invention was created in order to solve the above-mentioned problems, and the change time in order to prevent the malfunction caused by the error or change of sensitivity caused by the external environment by automatically adjusting the touch sensitivity according to the change of the external environment. This long and gentle change is to provide a touch sensor that can continuously store the basic setting sensitivity and determine that the sudden change is a response by a human touch so that the response of the touch sensor can always be the same.

In order to achieve the above object, the present invention provides a touch sensor operated by a touch of a person, comprising: a sensing unit for transmitting a touch signal, a sensor register for storing a sensor signal from the sensing unit, and a basic setting sensitivity; The reference register compares the signal between the reference register and the sensor register, the output unit outputs by the comparison value of the comparison unit, and the comparison value of the comparison unit. The value of the sensor register is converted into the reference register. The present invention relates to a touch sensor that automatically adapts to an external environment, characterized in that it consists of a default input device that allows storage.

On the other hand, the default value input unit is composed of a control unit for operating the default value input unit according to the value of the comparator, and a storage unit for storing the sensor value from the default value or sensor register from the outside.

When described in detail with reference to the accompanying drawings, the configuration and the operation of the embodiment of the present invention to achieve the object as described above and to perform the task for eliminating the conventional drawbacks.

1 is a block diagram illustrating a touch sensor that automatically adapts to the external environment of the present invention, and FIG. 2 is a timing diagram of an operation of the touch sensor that automatically adapts to the external environment of the present invention.

As shown in FIG. 1, the present invention includes a sensing unit 11 for transmitting a touch signal, a sensor register 10 for storing a sensor signal coming from the sensing unit, a reference register 20 for storing basic setting sensitivity, and And a comparator 40 for comparing signals of the reference register and a sensor register, an output unit 50 for outputting by the comparison value of the comparator, and a comparison value of the comparator. It consists of a default input unit 30 to be stored as a reference register, the default input unit is a control unit 31 for receiving and controlling the operation signal, and a storage unit 32 for storing a signal input from an external input value or sensor register When the touch signal is input through the sensing unit 11, the sensor register 10 counts for a predetermined cycle and the result value is compared. 40, the comparison unit 40 compares the difference between the reference register 20 and the sensor register 10 and checks the result three times to generate an output signal as a sense detection signal and reset the default value. Done.

That is, a positive signal in which the value of the sensor register 10 is smaller than the value of the reference register 20 is generated by comparing the difference between the reference register 20 and the sensor register 10.

On the other hand, when the sensing unit 11 detects a touch, the sensing signal is momentarily increased. At this time, when the value of the sensor register 10 is larger than the default value stored in the reference register 20, the touch sensor is operated.

However. Since the difference in the value may cause an instantaneous error due to the noise problem according to the surrounding conditions, in the present invention, the above condition is accepted only when three or more times occur continuously, and the output unit 50 receives the standby signal. If it is high, 0, 1, 2, or 3 state transitions are made, and if it is 3, an output signal is generated high. When low, there are 3, 2, 1, and 0 state transitions.

On the other hand, in the case of negative in which the value of the sensor register 10 is larger than the value of the reference register 20 according to the surrounding situation, the value of the reference register 20 is kept constant after the reset. The condition of the sensor is changed by an external factor so that the value of the sensor register 10 increases, and this value exceeds the value of the reference register 20 so that the value of the sensor register 10 becomes the reference register 20. Can always be greater than.

In this case, it is possible to recognize the detection of the touch sensor only by resetting the reference register 20. To this end, negative information is checked three times in succession in the same manner as a function of an output unit to generate a negative enable signal.

The signal is transmitted to the control unit 31 of the default input unit 30, and the control unit 31 receiving the input adds the value of the sensor register 10 stored in the storage unit 32 to the reference register 20. By saving the default value is set again, it prevents the malfunction caused by the negative case.

In addition, when a positive case occurs in the process of checking the value of the sensor register 10, the touch is recognized as being compared with the reference register 20, but a long time longer than a predetermined time by external temperature or humidity If the sensor value increases while exceeding the value of the reference resist 20 can be recognized as a touch.

In order to prevent such a malfunction, it is necessary to distinguish a difference between a touch operation and an operation caused by an external condition. That is, the general touch input condition is within 1 second of operation, and discriminates the difference between the values of the sensor register 10 and the reference register 20 to determine whether the touch is performed. Since the difference between the reference register is caused by the increase in the value of the sensor register due to the change over a long time, the output signal is generated high by considering it as a touch only when it is changed in a short time. If there is no change in the output signal, the value of the reference register is updated to change the initial value of the reference register, which is compared with the sensor register value, according to the state of the external condition at that moment.

That is, when the value of the sensor register that changes slowly for a long time of 1 second or more is detected, the value of the detected sensor register 10 is stored in the reference register 20 to have a default value changed by an external factor.

As a result of this operation, even if the external conditions change, new comparison conditions are created to obtain the correct touch operation.

As shown in Fig. 2, the height of the signal operated by the signal of the first sensor register is gradually raised by an external factor, but the output signal is changed because the default value is continuously changed and stored at the point A while it is gradually changed. Because it does not respond, it is not recognized as a touch signal so that a malfunction does not occur.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

The effects of the present invention that can be expected by the configuration and action as described above are as follows.

Since the default value is changed according to the change of external temperature or humidity, it can have a sensitivity irrespective of the change of external factors, so that a stable touch system can be realized, and even if contamination by foreign matters on the touch part occurs for a long time, it malfunctions. This has the effect of implementing a stable touch system does not occur.

Claims (4)

In the touch sensor operated by the touch of a person, Detecting unit for transmitting a touch signal, A sensor register for storing a sensor signal from the detector; A reference register that stores the default setting sensitivity, A comparator for comparing signals of the reference register and the sensor register; An output unit for outputting by the comparison value of the comparison unit, It is composed of a default input that operates by the comparison value of the comparator and adds the value of the sensor register and stores it as a reference register. Touch sensor that automatically adapts to the external environment, characterized in that by detecting a change in the signal from the detection unit to change the default value. The method of claim 1, The sensor register is a touch sensor that automatically adapts to the external environment, characterized in that it stores only when the signal from the detector occurs three or more times in a row. The method of claim 1, The default input unit is a touch sensor for automatically adapting to the external environment, characterized in that the control unit receives a signal and determines whether to store the sensor register value, and a storage unit for storing the value of the sensor register or an externally input value. The method of claim 1, Using a multiplexer, install multiple input signals into one sensor register, And a plurality of output and default storage structures according to each input signal by connecting the reference registers in parallel as input signals.

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