KR100747533B1 - Circuit for controlling input device in the electronic appliance - Google Patents

Abstract

The present invention relates to an input means control circuit of an electronic product to prevent a malfunction of a touch switch and improve key sensitivity. An infrared sensor type touch composed of a light emitting element and a light receiving element outputs a key signal by a user's contact. switch; And outputting a write pulse signal for driving the touch switch and a read pulse signal in synchronization with 1/2 of the output write pulse signal to receive a key signal according to user contact from the touch switch. And the first and second input signals after receiving the first output signal of the touch switch for the write pulse signal before the read pulse signal output and the second output signal of the touch switch for the write pulse signal after the read pulse signal output. 2 is composed of a microcomputer to recognize the key signal of the touch switch in accordance with the output signal.

Therefore, the present invention can solve the key input interference by the external light to prevent product malfunction and improve product reliability.

Touch switch / infrared sensor / light / key error

Description

Circuit for controlling input device in the electronic appliance

1 is a view showing an input means control circuit of an electronic product according to the present invention

2 is a timing diagram illustrating an example of a write pulse signal and a read pulse signal of a touch switch.

3 illustrates a comparison waveform between a write pulse signal and a read pulse signal.

* Explanation of symbols for main parts of the drawings

10: infrared sensor 20: first transistor

30: second transistor 40: third transistor

50: micom

The present invention relates to a touch switch applied to an electronic product, and more particularly, to an input means control circuit of an electronic product to prevent a malfunction of the touch switch and to improve key sensitivity.

In general, a touch switch is a device in which a predetermined electrical signal is generated by only touching a part (finger, etc.) of the body to a corresponding part without undergoing a physical structure change, that is, pressing or turning.

In recent years, as many electronic products have become higher quality, many touch switches are used as input devices.

Such a touch switch has been widely applied as a user input means for inputting user demands such as on / off or operation change of a product even in a gas / electric oven or a microwave oven.

The touch switch type infrared sensor type input device forms an infrared sensor having a light emitting element and a light receiving element so as to be paired with each other on the top / bottom to the left / right side.

That is, when a user touches a finger on the infrared sensor type touch switch formed by the light emitting element and the light receiving element, the light generated from the light emitting element is reflected and transmitted to the light receiving element, and the signal of the switch is changed by changing the voltage generated at this time. You will receive an input.

In other words, a language or a symbol of a predetermined design may be printed on the outer case of the corresponding product using the touch switch as a user input means so that the user may know the position of the touch switch and the function of each switch.

Then, the light emitting device for emitting light on the bottom of the outer case, and the light emitted from the light emitting device is reflected by the user's contact, and the light receiving device for receiving the reflected light is provided at a predetermined interval.

When the user touches the touch switch configured as described above, the light of the light emitting device is reflected and transmitted to the light receiving device. At this time, the controller for controlling the entire system of the home appliance recognizes the signal level output from the light receiving device and inputs the user's desired request. Will receive.

However, the infrared sensor applied to the above-described conventional touch switch affects the input of the touch switch from sudden external light such as the light receiving element reacts by external light instead of the light reflected from the light emitting element.

That is, when the light receiving element of the touch switch reacts to external light, it causes a key error that is incorrectly recognized as a user's key input, thereby lowering the key sensitivity and causing a malfunction of the product.

In addition, in the related art, there is no method for compensating for key input interference caused by external light.

The present invention is to solve the above problems, an object of the present invention is to provide an input means control circuit for improving the key sensitivity of the touch switch applied to electronic products.

Another object of the present invention is to provide an input means control circuit for compensating key input interference by external light to minimize key error of a touch switch.

In order to achieve the above object, the present invention comprises a light emitting device and a light receiving device infrared sensor type touch switch for outputting a key signal by the user's contact; And outputting a write pulse signal for driving the touch switch and a read pulse signal in synchronization with 1/2 of the output write pulse signal to receive a key signal according to user contact from the touch switch. And the first and second input signals after receiving the first output signal of the touch switch for the write pulse signal before the read pulse signal output and the second output signal of the touch switch for the write pulse signal after the read pulse signal output. 2 provides an input means control circuit of an electronic product composed of a microcomputer that recognizes a key signal of the touch switch according to an output signal.

A first transistor turned on / off according to the write pulse signal output from the micom and outputting a driving voltage of the touch switch, a second transistor turned on / off according to the read pulse signal output from the micom; According to the switching operation of the second transistor provides an input means control circuit of the electronic product further comprises a third transistor for driving the light emitting device of the touch switch.

Accordingly, according to the present invention, malfunction of the product can be prevented by detecting key signal interference by external light and minimizing key error.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

Referring to the accompanying drawings, the input means control circuit of the electronic product according to the present invention will be described.

As shown in FIG. 1, an input means control circuit of an electronic product according to the present invention includes an infrared sensor type touch switch 10 including a light emitting element and a light receiving element and outputting a key signal by a user's contact; In addition, a read pulse signal is output in synchronization with 1/2 of the write pulse signal to receive a key signal of the touch switch 10 together with a write pulse signal for driving the touch switch 10, and the read The microcomputer 50 recognizes a key signal of the touch switch 10 according to a signal input before and after the pulse signal.

At this time, the infrared sensor type touch switch 10 is composed of a light emitting element that is a photodiode and a light receiving element that is a phototransistor, and outputs a key signal by a user's contact.

A plurality of such touch switches 10 are configured to be used as a user input means for inputting a user's request such as on / off of a product or various operation changes.

In addition, a plurality of touch switches 10 may be combined according to a user input means required for a corresponding product.

The microcomputer 50 includes output ports P1 to P5 for outputting a write pulse signal and a read pulse signal for driving each touch switch 10 with respect to the plurality of touch switches 10; An input port P0 for receiving a key signal of the touch switch 10 according to the write pulse signal and the read pulse signal is provided.

Here, the output port and the input port of the microcomputer 50 can be adjusted according to the combination type of the touch switch 10.

As a driving means of the touch switch 10, the first transistor 20 is switched according to a write pulse signal output from the microcomputer 50 to provide a driving voltage of each touch switch 10. A second transistor 30 which is switched according to the read pulse signal output from the microcomputer 50 and a third which is switched according to the switching signal of the second transistor 30 to drive the light emitting device of the touch switch 10. The transistor 40 is configured.

In this case, the first and second transistors 20 and 30 are pnp type transistors, and the third transistor 40 uses npn type transistors.

Here, the first transistor 20 has a base connected to the output ports P1 to P4 of the microcomputer 50 to which the write pulse signal is output, and an emitter to a predetermined constant voltage 5V supply terminal. Is connected and a collector is commonly connected to the light emitting element (anode terminal) and the light receiving element (collector terminal) of the touch switch 10.

The third transistor 40 is connected in series with the light emitting device of the touch switch 10. An emitter is connected to the ground terminal and a collector is connected to the cathode terminal of the light emitting device.

In addition, the second transistor 30 has a base connected to the output port P5 of the microcomputer 50 to which the read pulse signal is output, and an emitter connected to a predetermined constant voltage (5V) supply terminal. The collector is commonly connected to the base of 40).

With this configuration, the first to third transistors 20, 30, and 40 are turned on at the same time according to the write pulse signal and the read pulse signal so that the light emitting element of the touch switch 10 generates light and the user touches the light. When the switch 10 is in contact with the light generated from the light emitting element is reflected and incident to the light receiving element.

At this time, as light enters the light receiving element, a predetermined signal level is output and input to the microcomputer 50, which recognizes the microcomputer 50 as a key signal.

In detail, FIG. 2 illustrates a timing diagram of a write pulse signal and a read pulse signal, wherein write pulse signals P1 to P4 for switching the first transistors 20 (Q1 to Q4) are displayed in respective touch switches ( Are output sequentially.

In addition, a read pulse signal P5 for switching the second transistor 30 (Q5) commonly connected to the touch switch 10 is output in synchronization with 1/2 of the write pulse signal.

That is, the read pulse signal output from the microcomputer 50 has a size 1/2 of the write pulse signal.

At this time, the microcomputer 50 reads the signal level input through the input port P0 as a key signal of the touch switch 10, and reads two signals with respect to one write pulse signal.

As shown in FIG. 3, the read pulse signal is read in a section T1 after the write pulse signal is output and before the read pulse signal is output, and the read pulse signal is output in synchronization with 1/2 of the write pulse signal. Read within (T2).

Here, (T1) is a section for the touch switch 10 to recognize a key signal that is incorrectly output in response to the external light, (T2) is a key signal output by the touch switch 10 by the actual user's contact. This section is for recognizing.

When the key signal read during T1 is high, the microcomputer 50 recognizes the key error signal by external light and ignores the key signal read during T2.

On the other hand, when the key signal read during T1 is low, a key error due to external light does not occur, and thus, the signal read during T2 is recognized as a key signal of the touch switch 10.

That is, when the key signal read in the section (T1) is low and the key signal read in the section (T2) is high, this is a key value of the touch switch 10 by the user's contact with a true value. If the key signal read in the section (T1) is high, the key signal input from the touch switch 10 is ignored because it is false regardless of the key signal read in the section (T2).

Therefore, the present invention can compensate for the key error of the touch switch due to sudden external light by outputting the read pulse signal of the touch switch 10 in synchronization with 1/2 of the write pulse signal.

The present invention is not limited to the above-described embodiments, and can be modified by those skilled in the art as can be seen from the appended claims, and such modifications are within the scope of the present invention.

The effects of the input means control circuit of the electronic product according to the present invention described above are as follows.

First, the key sensitivity of the touch switching can be improved by eliminating key input interference by external light.

Second, the key error phenomenon of the touch switch can be solved to prevent product malfunction and improve product reliability.

Claims (4)

An infrared sensor type touch switch composed of a light emitting element and a light receiving element and outputting a key signal by a user's contact; And, Outputting a write pulse signal for driving the touch switch and outputting a read pulse signal in synchronization with 1/2 of the output write pulse signal so as to receive a key signal according to user contact from the touch switch; The first and second outputs after receiving the first output signal of the touch switch for the write pulse signal before the read pulse signal output and the second output signal of the touch switch for the write pulse signal after the read pulse signal output. And a microcomputer for recognizing a key signal of the touch switch according to the signal. The method of claim 1, A first transistor turned on / off according to a write pulse signal output from the microcomputer to output a driving voltage of the touch switch; A second transistor turned on / off according to a read pulse signal output from the microcomputer; And a third transistor configured to be turned on / off in accordance with the switching operation of the second transistor to drive the light emitting device of the touch switch. The method of claim 1, And the first output signal is for determining a key error due to external light, and the second output signal is for determining a key signal due to an actual user's contact. The method of claim 3, wherein When the first output signal outputs a high signal, it is recognized as an error due to external light and ignores the second output signal. When the first output signal outputs a low signal, the second An input means control circuit for an electronic product, characterized in that the output signal is recognized as a key signal of a touch switch.

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