KR100917194B1 - A power supply circuit of touch sensor in microwave oven device - Google Patents

Abstract

The present invention relates to a touch sensor power supply circuit of a microwave oven, the microcomputer outputting a display control signal, a grid scan pulse and a key scan pulse; A display unit connected to a display dedicated port of the microcomputer and operating according to a display control signal and a grid scan pulse output from the microcomputer; A touch sensor connected to some of the display-only ports of the microcomputer and outputting an external key input to the microcomputer according to a key scan pulse output from the microcomputer; A reverse voltage prevention unit connected to each of the microcomputer ports connected to the touch sensor to prevent reverse voltage from the touch sensor; A power supply unit connected to an output terminal of the reverse voltage preventing unit and configured to apply a predetermined voltage to the touch sensor according to a key scan pulse output from the microcomputer, wherein the power supply unit includes a base to prevent the reverse voltage. A plurality of first transistors each connected to a negative output terminal and an emitter connected to a ground terminal, a base connected to a collector of the first transistor, and an emitter connected to an external power supply terminal Since it is composed of a plurality of second transistors, the high-performance key input means to the microwave oven by supplying the appropriate voltage (4.5V ~ 5V) required by the touch sensor to use the touch sensor as the key input means of the microwave oven There is an effect that can be applied.

Microwave / Key Input Means / Touch Sensors

Description

A power supply circuit of touch sensor in microwave oven device

1 is a circuit diagram showing a power supply circuit of a touch sensor according to the prior art

FIG. 2 is an enlarged circuit diagram of part “A” of FIG. 1.

3 is a circuit diagram showing a touch sensor power supply circuit of the microwave oven according to the present invention.

Explanation of symbols for main parts of the drawings

10: microcomputer 20: display unit

30: touch sensor 31: power supply

40: reverse voltage protection unit

The present invention relates to a microwave oven, and more particularly, to a touch sensor power supply circuit of a microwave oven.

Recently, as a device for cooking at home, a gas range, a gas oven, a microwave oven, an electric oven and the like have been widely used.

Here, the microwave oven is a device that performs cooking by heating a cooking object in a cavity using a microwave (Micro Wave) generated from a built-in magnetron as a main heating source.

The microprocessor applied to the microwave oven is usually composed of 44 to 64 input / output ports.

However, the touch sensor panel is connected to some of the display dedicated output ports of the microcomputer connected to the display elements LED and VFD due to the shortage of the microcomputer port.

Referring to FIG. 1, the common circuit between the display unit and the touch sensor includes a display unit 2 and a touch sensor 3 in a microwave oven using a microwave generated from a magnetron (not shown) as a main heating source. ) And the touch sensor 3 by connecting the touch sensor 3 to some ports P50 to P56 of the dedicated ports P50 to P57, P70 to P77, P80 to P87, and P30 to P31 of the display unit 2. It consists of the microcomputer 1 which outputs the key scan pulse of 3).

Looking at the common circuit operation of the display unit and the touch sensor panel configured as described above, the output port (P50 ~ P57, P70 ~ P77, P80 ~ P87, P30 ~ P31) dedicated to the display unit 2 of the microcomputer (1) Input ports G1 to G10 and P1 to P16 of the display unit 2 are connected.

As shown in FIG. 2 in which "A" of FIG. 1 is enlarged, reverse voltage protection is prevented at some ports P50 to P56 of output ports dedicated to the display unit of the microcomputer 1 to which the display unit 2 is connected. The touch sensor 3 is connected via the unit 4.

At this time, the reverse voltage prevention unit 4 is composed of a plurality of diodes (Anode) are respectively connected to the output ports P50 ~ P56 of the microcomputer (1).

That is, the reverse voltage prevention unit 4 is for preventing the reverse voltage from the touch sensor 3 to the microcomputer 1.

In addition, in the case where a portion P50 to P56 of the display unit dedicated output ports P50 to P57, P70 to P77, P80 to P87, and P30 to P31 of the microcomputer 1 are connected to the touch sensor 3, and used. In order to increase the key input sensitivity of the touch sensor 3, the microcomputer 1 outputs two or more key scan pulses during one period (oscillation section and non-oscillation section) of the magnetron.

At this time, the key scan pulse output from the microcomputer 1 has a 5V level, and the touch sensor 3 has a suitable power supply of 4.5 to 5.5V for key input sensitivity.

However, in the conventional display unit and the touch sensor common circuit, since the key scan pulse output from the microcomputer 1 has a 5V level, a reverse voltage preventing diode is used, resulting in a 0.7V voltage drop generated inside the diode. As a result, the touch sensor 3 is not supplied with the 5V voltage.

That is, in the case of the display unit and the touch sensor common circuit described above, there is a problem in that the touch sensor cannot be used as a key input means of the microwave oven because the 5V voltage cannot be supplied to the touch sensor.

Accordingly, the present invention has been made to solve the above-described problems of the prior art, an object of the present invention is to provide an electronic device capable of supplying the appropriate voltage required for the touch sensor to use the touch sensor as a key input means of the microwave oven. To provide a range of touch sensor power supply circuit.

According to an aspect of the present invention, there is provided a touch sensor power supply circuit for a microwave oven including: a microcomputer for outputting a display control signal, a grid scan pulse, and a key scan pulse; A display unit connected to a display dedicated port of the microcomputer and operating according to a display control signal and a grid scan pulse output from the microcomputer; A touch sensor connected to some of the display-only ports of the microcomputer and outputting an external key input to the microcomputer according to a key scan pulse output from the microcomputer; A reverse voltage prevention unit connected to each of the microcomputer ports connected to the touch sensor to prevent reverse voltage from the touch sensor; A power supply unit connected to an output terminal of the reverse voltage preventing unit and configured to apply a predetermined voltage to the touch sensor according to a key scan pulse output from the microcomputer, wherein the power supply unit includes a base to prevent the reverse voltage. A plurality of first transistors each connected to a negative output terminal and an emitter connected to a ground terminal, a base connected to a collector of the first transistor, and an emitter connected to an external power supply terminal It is characterized by including a plurality of second transistors.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

First, the present invention relates to a common circuit of a display unit and a touch sensor using a touch sensor connected to some ports of a dedicated display unit port of a microcomputer applied to a microwave oven, and more particularly, a common circuit of such a display unit and a touch sensor. The present invention relates to a power supply circuit of a touch sensor.                     

Hereinafter, a microwave touch sensor power supply circuit according to the present invention will be described with reference to the accompanying drawings.

3 is a circuit diagram illustrating a touch sensor power supply circuit of a microwave oven according to the present invention.

As shown, the power supply circuit of the touch sensor according to the present invention in the touch sensor power supply circuit of the display unit and the touch sensor common circuit, a display control signal, a grid scan pulse and a key scan pulse A microcomputer 10 for outputting Scan Pulse); A display unit connected to the display dedicated ports P50 to P57, P70 to P77, P80 to P87, and P30 to P31 of the microcomputer 10 to operate according to a display control signal and a grid scan pulse output from the microcomputer 10. 20; Connected to some of the ports P50 to P56 of the display-only ports P50 to P57, P70 to P77, P80 to P87, and P30 to P31 of the microcomputer 10 according to the key scan pulse output from the microcomputer 10. A touch sensor 30 outputting an external key input to the microcomputer 10; A reverse voltage prevention unit 40 connected to the microcomputer ports P50 to P56 connected to the touch sensor 30 to prevent reverse voltage from the touch sensor 30; And a power supply unit 31 connected to an output terminal of the reverse voltage preventing unit 40 to apply a predetermined voltage to the touch sensor 30 according to a key scan pulse output from the microcomputer 10. do.

At this time, the reverse voltage prevention unit 40 is composed of a plurality of diodes (D90 ~ D96) that is connected to the anode (Anode) to each of the microcomputer ports (P50 ~ P56) connected to the touch sensor 30.

In addition, the power supply unit 31 may include a plurality of first transistors Q80 ˜, in which a base is connected to the cathodes of the diodes D90 to D96, and an emitter is connected to a ground terminal. Q86) and a plurality of second transistors Q90 to Q96 having a base connected to a collector of the first transistors Q80 to Q86 and an emitter connected to an external power supply 5V terminal, respectively.

The plurality of first transistors Q80 to Q86 are npn type transistors, and the plurality of second transistors Q90 to Q96 are pnp type transistors.

Referring to the power supply circuit operation of the touch sensor configured as described above are as follows.

First, the display unit 20 is connected through the display unit dedicated output port (P50 ~ P57, P70 ~ P77, P80 ~ P87, P30 ~ P31) of the microcomputer 10.

In this case, the input ports P1 to P16 of the display unit 20 connected to the microcomputer 10 receive a display control signal from the microcomputer 10 to display a corresponding text or character under the control of the microcomputer 10, The input ports G1 to G10 receive a grid scan pulse (predetermined voltage) from the microcomputer 10 while the microcomputer 10 is turned on.

In addition, the touch sensor 30 is connected to some ports P50 to P56 among the output ports P50 to P57, P70 to P77, P80 to P87, and P30 to P31 dedicated to the display unit 20. The key scan pulse outputted at 10 is received.

In the present invention, the key scan pulse output from the microcomputer 10 is input to the driving source of the voltage supply unit 31 via the reverse voltage prevention unit 40.                     

That is, the key scan pulse is input to the bases of the first transistors Q80 to Q86 of the voltage supply unit 31 through the diodes D90 to D96 of the reverse voltage preventing unit 40.

The first transistors Q80 to Q86 and the second transistors Q90 to Q96 are sequentially turned on according to the input of the key scan pulse.

At this time, the emitter terminals of the first transistors Q80 to Q86 are grounded, and a voltage of + 5V level is connected to the emitter terminals of the second transistors Q90 to Q96.

Here, both the first transistors Q80 to Q86 and the second transistors Q90 to Q96 are turned on in response to the key scan pulse, and a high signal having a 5 V level is output to the touch sensor 30.

That is, the voltage supply unit 31 outputs a low signal of 0 V level when there is no input of the key scan pulse from the microcomputer 10, and when there is an input of the key scan pulse, the first transistors Q80 to Q86. ) And a high signal of 5V level through the turn-on operation of the second transistors Q90 to Q96.

Accordingly, the present invention can supply a voltage of an appropriate level required by the touch sensor 30.

The touch sensor power supply circuit of the microwave oven according to the present invention described above provides a higher performance key by supplying an appropriate voltage (4.5V to 5V) required by the touch sensor to use the touch sensor as a key input means of the microwave oven. There is an effect that the input means can be applied to the microwave oven.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (4)

A microcomputer that outputs a display control signal, a grid scan pulse, and a key scan pulse; A display unit connected to a display dedicated port of the microcomputer and operating according to a display control signal and a grid scan pulse output from the microcomputer; A touch sensor connected to some of the display-only ports of the microcomputer and outputting an external key input to the microcomputer according to a key scan pulse output from the microcomputer; A reverse voltage prevention unit connected to each of the microcomputer ports connected to the touch sensor to prevent reverse voltage from the touch sensor; And And a power supply unit connected to an output terminal of the reverse voltage preventing unit to apply a predetermined voltage to the touch sensor according to a key scan pulse output from the microcomputer. The power supply unit, A plurality of first transistors each having a base connected to an output terminal of the reverse voltage preventing unit, an emitter connected to a ground terminal, and a base connected to a collector of the first transistor, respectively; A touch sensor power supply circuit for a microwave oven including a plurality of second transistors having a plurality of second transistors connected to an external power supply terminal. The method of claim 1, The reverse voltage prevention unit may include a plurality of diodes each having an anode connected to each microcomputer port connected to the touch sensor, and a cathode connected to the bases of the first transistors. Touch sensor power supply circuit. delete The method of claim 1, The first transistors are npn type transistors, And the second transistors are pnp type transistors.

Images