KR100511983B1 - Control device of inverter microwave oven and its method for the same - Google Patents

Abstract

According to the present invention, in the inverter microwave oven for heating food by using high frequency energy of the magnetron, when the error of the pulse width modulation value of the microcomputer controlling the heating output voltage value of the magnetron is detected, the switching operation of the inverter circuit is interrupted. An apparatus for controlling an inverter microwave oven and a method thereof, comprising: an inverter circuit unit for generating a driving power of a magnetron by switching a plurality of switch elements using an input power source, and a driving pulse for driving a switching operation of the inverter circuit unit; And a drive controller for controlling the inverter driver by generating and outputting an inverter driver, a pulse width modulation (PWM) value for modulating the width of the drive pulse according to a cooking command of the user, and a pulse output from the drive controller. Detects the error of the width modulation value and detects the error If it is configured to include an error detection unit for blocking the switching operation of the inverter circuit unit, it is possible to prevent the damage of the switch element of the inverter circuit unit due to the malfunction of the microcomputer, improve the durability of the magnetron to improve the product reliability of the inverter microwave oven The height is effective.

Description

Control device of inverter microwave oven and its method {Control device of inverter microwave oven and its method for the same}

The present invention relates to an inverter microwave oven and a control method thereof, and particularly, when an error of a standard pulse generated due to a malfunction of a microcomputer that controls an output in an inverter microwave oven that heats food using high frequency energy of a magnetron is detected. In addition, the present invention relates to an inverter microwave oven and a method of controlling the same, which can prevent damage to an element and improve reliability of a product by blocking an operation of an inverter circuit.

1 is a view showing the appearance of a conventional microwave oven (M), Figure 2 is a view showing the configuration of a conventional inverter microwave oven, with reference to this structure and driving of the inverter microwave oven of the prior invention. The principle is as follows.

Microwave oven (M) is a cooking machine using a dielectric heating method is one of the devices using a high frequency. The dielectric heating method is a method of vibrating and heating water molecules of water contained in the food as the food is put into an oven and radiates microwaves. Generally, microwaves having a wavelength shorter than 1/10 of the wavelength of TV are used.

The heating source for generating the microwave is a special two-pole vacuum tube called magnetron (MGT), which heats the food by intensively radiating the microwave through an output antenna. In addition, the internal space in which the microwaves resonate is called the cavity 6.

In addition, the microwave oven M displays a cooking command input unit 1 formed on the exterior so that a user can input a cooking command, and a remaining time or a running time according to the cooking command input from the cooking command input unit 1. It further comprises a display unit 2 and a door 3 for opening and closing the front of the cavity (6).

 Here, the inverter circuit device 30 is a device for applying a driving power so that the magnetron (MGT) has a high output voltage as a heating source, the high output voltage of about 3500V or more generated by one or more switch elements performing a switching operation Supply to the magnetron (MGT).

Here, referring to FIG. 3, the configuration of the inverter microwave control device according to the related art is described. The AC power input through the commercial AC voltage unit 10 passes through the DC voltage unit 20 where rectification and filtering are performed. It is input to the burr circuit device 30.

The inverter circuit device 30 is a switching unit for generating a driving power for driving the magnetron (MGT) by turning on or off at least one switch in accordance with the drive pulse output by the inverter driver 40 for controlling the switching operation ( 31) and a magnetron driving unit 32 converting the magnetron driving power generated by the switching unit 31 into a high output DC voltage and transmitting the same to the magnetron MTG.

In addition, the inverter driver 40 is controlled by the microcomputer 50 that controls the general matters of the inverter microwave oven according to the cooking command (heating time, food type, etc.) of the user, the microcomputer 50 is built-in cooking The drive pulse width of the inverter driver 40 is modulated (PWM) by a program. The switching unit 31 is driven by the control of the microcomputer 50, so that the heating output value of the magnetron MTG is controlled.

Here, the magnetron (MGT) has the lowest output voltage value and the highest output voltage value allowed for the normal operation as the heating source, the normal activation is within that range. If it is out of this allowable voltage range, the life of the magnetron (MGT) is significantly shortened, which causes the durability of the product.

Therefore, when there is an error in the pulse width modulation (PWM) value due to an abnormal operation of the microcomputer 50, the switching unit 31 may also perform an abnormal switching operation due to an abnormally modulated driving pulse, thereby causing the switch element to be damaged. . In addition, since the magnetron (MGT) that is activated by receiving the driving power generated by the switching unit 31 is also impossible to normally activate, there is a problem that the efficiency as a heating source is lowered and the reliability of the operation is reduced.

The present invention has been made to solve the above problems of the prior art, the purpose of which is to generate a microcomputer so that the magnetron used as a heating source in the inverter microwave oven has a heating output value within the allowable output voltage range that can be normally activated. The present invention provides a control device and method for an inverter microwave oven that detects an error of a pulse width control (PWM) value, protects the inverter circuit by forcibly interrupting the switching operation of the inverter circuit part in case of an error, and improves durability of the magnetron. It is.

In accordance with an aspect of the present invention, a control apparatus for an inverter microwave oven includes: an inverter circuit unit configured to generate driving power of a magnetron by switching and driving a plurality of switch elements using an input power source; A current detector for detecting a change in current of the input power source; An inverter driver for generating and outputting a driving pulse for driving a switching operation of the inverter circuit part; Generates and outputs a pulse width modulation (PWM) value that modulates the width of the driving pulse so that the magnetron maintains a constant output according to the control signal of the microcomputer according to the cooking command of the user and the current level variation detected by the current detector. A drive controller for controlling the inverter driver; And an error detection unit for detecting an error of the pulse width modulation value output from the driving control unit and for interrupting the switching operation of the inverter circuit unit when an error is detected.

In addition, the control method of the inverter microwave oven according to the present invention comprises the first step of generating a pulse width modulation (PWM) value so that the width of the drive pulse for driving the switching operation of the inverter circuit in response to the cooking command input by the user and ; Detecting a current level of an input power input to the inverter circuit; A third step of driving the magnetron by switching the inverter circuit according to the pulse width modulation value and the detected current level; And a fourth step of outputting an operation cutoff signal for interrupting the operation of the inverter circuit when the pulse width modulation value generated in the first step is less than the minimum allowable output value of the magnetron or exceeds the maximum allowable output value. It features.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Figure 4 is a block diagram of a control device of the inverter microwave oven of the present invention, Figure 5 is a flow chart illustrating a control method of the inverter microwave oven of the present invention.

First, referring to FIG. 4, the commercial AC voltage unit 100 supplies a general AC power source (220V-60Hz in Korea but varies by country). The AC power is rectified through a diode, and the rectified pulse wave waveform is converted into a DC voltage through a smoothing circuit, which is called a DC voltage unit 200, and the DC voltage is input to the inverter circuit unit 300 to perform a switching operation. Used as the voltage for

Since the AC power transmitted from the power plant to each home or building is applied into the inverter circuit unit 300 in a state in which the current level is changed according to the region or time zone, there is a risk of damage to the switch element. Accordingly, the current detection unit 600 of the present invention detects a change in the current level of the AC power source, and the change in the current level is calculated by the output voltage controller 520 to be described later. The value is reflected along with the control signal.

The inverter circuit unit 300 includes a switching unit 310 and a magnetron driving unit 320, wherein the switching unit 310 uses one or more switches by using an input power applied from the DC voltage unit 200. The device switches at a frequency of tens of kHz to produce a high output AC power source.

In addition, the magnetron driving unit 320 generates and applies a driving power for driving the magnetron (MGT) by converting a high output AC power output from the switching unit 310 into a DC power.

The inverter circuit unit 300 generates a driving power of the magnetron (MGT) by performing a switching operation according to the driving pulse generated by the inverter driver 400, the inverter driver 400 first, the user cooking command and the current change amount A signal generator 410 for generating a drive pulse according to an appropriate output voltage value of the magnetron calculated according to the on / off control signal, and a drive pulse generated by the signal generator 410. It is configured to include a drive unit 420 to transmit to. The inverter driver 400 is controlled by the drive controller 500 described later.

The driving control unit 500 outputs an appropriate control signal according to a built-in program to control the heating and cooking of the food in general, and the magnetron according to the change of the current level of the control signal and the current detection unit 700 of the microcomputer. And an output voltage controller 520 for calculating an appropriate output voltage value of the MTG and an on / off unit 530 for controlling the on / off of the driving pulse output from the inverter driver 400.

First, the microcomputer 510 receives a cooking command of a user, generates a control signal, and modulates a width of the driving pulse to change a switching operation of the inverter circuit unit 300 according to the cooking command ( PWM) value.

The output voltage controller 520 adjusts the output voltage value of the magnetron MTG according to the current level variation detected by the current detector 700 and the control signal of the microcomputer 510. That is, when the current level of the AC power supply exceeds the average level, the output voltage value of the magnetron (MGT) is lowered. If the current level is less than the average level, the heating output value of the magnetron is increased by increasing the output voltage value of the magnetron (MGT). Make it stable.

The on / off unit 530 generates an on / off signal of a driving pulse so that the switching operation of the inverter circuit unit 300 is driven or cut off according to the control signal of the microcomputer 510.

In this case, the microcomputer 510 is connected to a D / A converter 511 which converts the digital signal output to the output voltage controller 520, the on / off unit 530, and the error detector 600 into an analog signal. do.

The error detection unit 600 connected to the microcomputer 510 receives the pulse width modulation value generated by the microcomputer 510 and compares it with a minimum allowable output value and a maximum allowable output value of a preset magnetron (MGT). That is, the pulse width modulation value is compared with the minimum / maximum value of the allowable range in which the magnetron is normally activated, and generates an operation cutoff signal that causes the switching operation of the inverter driver 400 to be cut off when the magnetron is out of the allowable range. .

The minimum output detector 610 detects an error of the microcomputer by comparing whether the pulse width modulation value is less than the minimum allowable output value of the magnetron (MGT), and outputs an operation cutoff signal to the signal generator 410 when the error is detected. .

Similarly, the highest output detector 620 detects an error of the microcomputer 510 by comparing whether the pulse width modulation value exceeds the maximum allowable output value of the magnetron (MGT), and operates as the signal generator 410 when the error is detected. By outputting a blocking signal, when an error of the microcomputer is found, the operation of the switching unit 310 and the operation of the magnetron MTG can be prevented, thereby preventing damage to various devices and preventing excessive operation. Can be.

Looking at the control method of the inverter microwave oven of the present invention configured as described above with reference to FIG.

First, a pulse width modulation (PWM) value is generated so that a width of a driving pulse for driving a switching operation of an inverter circuit is changed in response to a cooking command input by a user.

The user can input cooking commands such as heating time, thawing / cooking / heating, etc. by manipulating buttons formed on the exterior, and the microcomputer modulates the pulse width of the driving pulse that drives the inverter circuit unit to activate the magnetron according to the cooking command. Generate and output a (PWM) value.

The current detector detects a change in the current level of the input power applied to the inverter circuit. (S2)

By detecting the current level of the input power applied to the inverter circuit for generating a drive power for the activation of the magnetron, the inverter circuit can respond to the variation of the supply power, in particular to detect an overcurrent or low current state to be.

The heating output voltage value of the magnetron is calculated according to the pulse width modulation value and the current level variation output from the microcomputer, and a driving pulse for driving the switching operation according to the control signal of the microcomputer is generated to reach the corresponding output value.

The switching element drives the switching element of the inverter circuit portion by the driving pulse.

The switching element operates with a switching frequency of several tens of kHz, thereby generating a high output driving power source.

The magnetron is activated by receiving the magnetron driving power generated by the switching operation, whereby the food is heated and cooked (S4).

At this time, the error detection unit detects the error of the microcomputer by comparing whether the pulse width modulation value of the microcomputer is less than the minimum output voltage value for the normal driving of the magnetron (S5), if the error is detected so that the switching operation of the inverter circuit is blocked. Outputs an operation cutoff signal (S7).

Similarly, by comparing the pulse width modulation value with the maximum output voltage value of the magnetron (S6), if an error of the microcomputer is detected, an operation blocking signal is output so that the switching operation of the inverter circuit is blocked, and the microcomputer error is not detected. If detected, the switching operation of the inverter circuit is performed.

As described above with reference to the drawings illustrated with respect to the inverter microwave oven and the control method according to the present invention, the present invention is not limited by the embodiments and drawings disclosed herein, it is usually in the field of the present invention It is possible to apply within the scope of protection of the technical idea of the present invention by those skilled in the art.

The control apparatus and method of the inverter microwave oven according to the present invention configured as described above are an inverter microwave oven that is generated when the error detection unit outputs an abnormal pulse width modulation value and a control signal due to an error of the microcomputer by detecting an operation error of the microcomputer. It is possible to prevent the phenomenon of damage to the entire circuits and elements of the product, it is possible to improve the durability and reliability of the product, there is an advantage that the user can more quickly determine the presence or absence of abnormality of the product is easy to manage.

1 is a perspective view showing the appearance of a typical microwave oven,

2 is a schematic configuration diagram of an inverter microwave oven according to the related art;

3 is a block diagram of a conventional microwave oven control apparatus;

4 is a configuration diagram of an inverter microwave control device of the present invention;

5 is a flow chart illustrating a control method of the inverter microwave oven of the present invention.

<Explanation of symbols on main parts of the drawings>

100: power supply unit 200: DC voltage unit

300: inverter circuit portion 400: inverter drive portion

500: drive control unit 600: error detection unit

700: current detector MGT: magnetron

Claims (7)

An inverter circuit unit which generates driving power of the magnetron by switching and driving a plurality of switch elements using an input power source; A current detector for detecting a change in current of the input power source; An inverter driver for generating and outputting a driving pulse for driving a switching operation of the inverter circuit part; Generates and outputs a pulse width modulation (PWM) value that modulates the width of the driving pulse so that the magnetron maintains a constant output according to the control signal of the microcomputer according to the cooking command of the user and the current level variation detected by the current detector. A drive controller for controlling the inverter driver; And an error detection unit for detecting an error of the pulse width modulation value output from the driving control unit and for interrupting the switching operation of the inverter circuit unit when an error is detected. delete The method of claim 1, The driving control unit may include a microcomputer that generates a pulse width modulation (PWM) value of the driving pulse so as to generate a control signal for controlling signal flow according to a cooking command of the user and to change the switching operation of the inverter circuit unit; An on / off unit configured to generate an on / off signal to drive or cut off the switching operation of the inverter circuit unit according to the control signal of the microcomputer; And an output voltage controller configured to calculate an output voltage value of the magnetron according to the current level detected by the current detector. The method of claim 3, wherein The inverter driver may include a signal generator configured to generate a driving pulse for driving the inverter circuit unit according to an output voltage value calculated by the magnetron and an on / off signal generated by the on / off unit; And a driving unit which transfers the driving pulse generated by the signal generator to the inverter circuit unit. The method of claim 3, wherein The error detector may include a minimum output detector for outputting an operation cutoff signal to the signal generator so that the operation of the inverter driver is blocked when the pulse width modulation value generated by the microcomputer is less than a minimum allowable output value of a preset magnetron; And a maximum output detector for outputting an operation cutoff signal to the signal generator so that the operation of the inverter driving unit is cut off when the pulse width modulation value exceeds a preset allowable output value of the magnetron. Range control device. Generating a pulse width modulation (PWM) value such that a width of a driving pulse for driving a switching operation of the inverter circuit is varied in response to a cooking command input by a user; Detecting a current level of an input power input to the inverter circuit; A third step of driving the magnetron by switching the inverter circuit according to the pulse width modulation value and the detected current level; And a fourth step of outputting an operation cutoff signal for interrupting the operation of the inverter circuit when the pulse width modulation value generated in the first step is less than the minimum allowable output value of the magnetron or exceeds the maximum allowable output value. The control method of the inverter microwave oven characterized by the above-mentioned. delete