KR20200037681A - RF Noise detection and protect malfunction method of capacitive sensors - Google Patents

Abstract

The present invention relates to a method for preventing malfunction of a touch button due to RF noise. An objective of the present invention is to design a virtual touch circuit pattern at a position incapable of performing normal reaction, to react only to the noise of a radio without reacting in normal operation to recognize a signal as external RF noise if the signal is applied to the corresponding virtual pattern to adjust to allow normal operation. In a conventional capacitive touch key system, if energy is induced in a touch pattern on a PCB by operation of an external device such as an RF radio to cause malfunction, a key-pressed phenomenon can occur, and the corresponding malfunction is difficult to distinguish from normal operation depending on an energy induction degree to cause difficulty in restoration. However, the present invention designs a virtual touch pad at a position incapable of performing normal reaction, to recognize, if a signal is applied to the corresponding pattern, the signal as external RF noise so as to restore a touch operation to a normal state.

Description

RF noise detection and protect malfunction method of capacitive sensors

The present invention relates to a device for preventing a touch button malfunction due to RF noise, and in particular, a virtual touch circuit pattern (radio sensing pad) is installed at a position where it cannot respond normally, and does not react during normal operation, and only responds to external radio noise. By reacting only, when a signal is applied to the virtual pattern, it is recognized as external RF noise so that it can be adjusted to operate normally.

The conventional touch pattern structure detects a change in the electrostatic capacity when the number of touch patterns to be used as shown in FIG. 1 comes into contact with the injection material and is touched.

At this time, when radio noise is applied, the entire pattern for touch key recognition is affected, resulting in malfunction.

Normally, as shown in FIG. 2, a raw signal (a value obtained by quantifying a capacitance value) and a base signal (a virtual value serving as a reference) are maintained in the same state, and then, when a touch operation is performed, a threshold is performed. It is determined whether or not the touch key is operated based on the increase of the low-base value above the threshold value.

In the related art, even when the radio operates near the touch key, the low value is shaken as shown in FIG. 3 and affects the base value as a reference, so that the key operates as if the key was pressed.

This malfunction occurs simultaneously on all the keys in the PCB, and as a result, the influence of the radio on the location of the radio, the intensity of the radio wave, and the shape of the pattern is different, making it difficult to distinguish from the normal touch signal, so there is a limit to prevent it by software processing.

That is, in the related art, it is impossible to detect RF noise such as a walkie-talkie in the vicinity of the touch key, and thus a defect such as malfunction of the touch key or non-operation occurs in the corresponding situation, and when such a defect occurs, there is a problem that instant recovery is impossible.

The present invention is to solve such a conventional problem, the object of the present invention is to detect the noise by arranging a virtual pattern that responds only to noise instead of reacting during normal operation, and can be adjusted to enable normal operation thereafter. It is to provide a device for preventing a touch button malfunction due to RF noise.

The present invention for achieving the above object, in which the injection material is coupled to the PCB via a touch pad, a virtual touch pad other than the touch purpose is disposed on a portion where the touch pad of the PCB is not installed, and a radio signal is transmitted. It has an input circuit pattern that receives input and a control unit that controls to restore the chip to a normal state by resetting the touch function or re-adjusting the touch sensitivity to receive it, so that it does not react during normal operation but responds only by radio noise. Is done.

As described above, according to the present invention, a virtual touch pad other than the touch purpose is disposed only on a portion where the touch pad of the PCB is not installed, and an input circuit pattern for receiving a radio signal and a control unit to receive the radio signal to reset the touch function or re-adjust touch sensitivity. There is an effect that the chip can be restored to a normal state by reacting only with the noise of.

1 is a view showing a conventional touch pad
Figure 2 is a waveform diagram showing a low-base value for determining whether the operation of the conventional touch key
3 is a waveform diagram showing a state in which the low value is shaken when the radio operates near a conventional touch key.
4 is a waveform diagram showing a state that occurs simultaneously on all keys in the PCB during the conventional radio operation timing
5 is a view showing a touch pad of the present invention
FIG. 6 is a waveform diagram illustrating a process of restoring a chip to a normal state by resetting a chip or re-adjusting the touch sensitivity by detecting a signal on the walkie-talkie pad of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

5 shows the touch pad of the present invention, in which the injection material 3 is coupled to the PCB 1 via the touch pad 2, and the touch pad 2 of the PCB 1 is not installed. A control unit for arranging a plurality of virtual touch pads 4 for purposes other than the purpose of the touch and controlling to restore the chip to a normal state by resetting the touch function or re-adjusting the touch sensitivity to receive the radio signal and the input circuit pattern receiving the radio signal It is configured so that it does not react during normal operation and reacts only by the noise of the radio.

The operation of the present invention configured as described above is as follows.

The present invention may cause a phenomenon in which the touch pad 2 is pressed when energy is induced to the touch pad 2 on the PCB 1 by operation of an external device such as an RF radio in the existing capacitive touch key system. In order to prevent this, as shown in FIG. 5, a virtual touch pattern 4, which is a walkie-talkie detection pattern, is installed on a portion of the PCB 1 that cannot touch the corresponding system.

Since the virtual touch pattern 4 is installed on the PCB 1 on which the touch pad 2 is not installed, contact is impossible by the touch pad 2 and is not affected by the user's touch at all. It is only affected by external noise and can react.

If the walkie-talkie operates near the touchpad 2, the low value is shaken and affects the base value as a reference, so that the touchpad 2 operates as if it were pressed. ) Occurs simultaneously on all keys within it, which makes it difficult to distinguish them from normal touch signals due to different influences depending on the location of the radio, the intensity of the radio waves, and the shape of the pattern.

In the present invention, when the walkie-talkie operates near the touchpad 2, the virtual touchpad 4, which is a walkie-talkie detection pad, operates and sends it to the control unit.

That is, as a signal is detected on the virtual sensing pad 4 which is a walkie-talkie sensing pad, the chip may be reset to a trigger or readjusted by a touch sensitivity to restore the chip to a normal state upon application of the walkie-talkie.

1: PCB 2: Touch pad
3: Injection 4: Virtual touch pad

Claims (1)

In the injection molding (3) is coupled to the PCB (1) via the touch pad (2),
In the part where the touch pad 2 of the PCB 1 is not installed, a plurality of virtual touch pads 4 other than a touch purpose are arranged, and an input circuit pattern receiving a radio signal and an input circuit pattern to receive the radio signal are reset or touched. An apparatus for preventing touch button malfunction due to RF noise, characterized in that it is configured to react only by the noise of the radio without reacting during normal operation by having a control unit that controls the chip to recover to a normal state by readjusting the sensitivity.

Images