KR100261143B1 - A generating circuit for switching clock of induction heating cooker - Google Patents

Abstract

PURPOSE: A switching clock generating circuit for an induction heating cooker is provided to generate a switching clock for controlling a switching frequency using only a control signal of a micom as an input condition. CONSTITUTION: A control voltage generating part(110) outputs a control voltage which shields a reset signal as well as generates the switching clock of a switching drive IC(140) by dividing Vcc in accordance with the comparison result between a source voltage and a reference voltage of a (-) terminal. A triangular wave generating part(120) generates a triangular wave by the charge/discharge of a capacitor(C2) connected to the (-) terminal if the control voltage is connected to a comparator(OP3). A trigger generating part(130) compares two input signals of the (-) terminal of a comparator(OP5) and a (+) terminal to generate a switching clock and control the switching frequency of a switching element through the switching drive IC(140).

Description

Switching clock generation circuit of induction cooker

The present invention relates to a switching frequency control of an induction heating cooker, and more particularly to a switching clock for controlling a switching frequency using only a control signal of a microcomputer as an input condition in a rice cooker induction heating by a switching control by a switching driving IC (Integrated Circuit). And a switching clock generation circuit of the induction heating cooker.

As shown in FIG. 1, a switching clock generation circuit of a conventional induction heating cooker includes a control voltage generator 1 for outputting a control voltage for generating a switching clock when a control signal of a microcomputer is input, and an AC input. The operation voltage comparator 2 which receives and divides the divided voltage of the voltage and the divided voltage of the resonant voltage of the switching element, the reference voltage charged and discharged according to the driving of the switching element, and the control voltage generator 1. The switching drive IC 5 compares an output signal and an output signal of the operation voltage comparing unit 2 to generate a triangular wave, and compares the output signal of the triangular wave generating unit 3 with a reference voltage. And a trigger generator 4 for generating the switching clock for switching control.

Referring to Figure 1 attached to the operation of the conventional induction heating cooker switching clock generation circuit configured as described as follows.

First, when the microcomputer applies a control signal to the + terminal of the comparator 1 (OP1) in the control voltage generator 1, the output of the comparator 1 (OP1) is charged to the capacitor 1 (C1) through the resistor 1 (R1). The charged voltage is divided with the resistor 2 (R2) and gradually rises through the diode 1 (D1) and is input to the + terminal of the comparator 2 (OP2), and the output of the comparator 2 (OP2) is passed through the resistor 3 (R3). The control voltage for generating the switching clock is input to the + terminal of the comparator 4 (OP4) in the triangular wave generator 3.

At this time, the divided voltage of the AC input voltage is input to the + terminal of the comparator 3 (OP3) in the operating voltage comparator 2, and the divided voltage of the resonant voltage of the switching element is input to the-terminal, and initially, the comparator 3 (OP3). Since a low voltage is input to the-terminal of, when the control voltage is input to the + terminal of the comparator 4 (OP4) in the triangular wave generator 3, the power supply voltage Vcc is charged to the capacitor 2 (C2) through the resistor 5 (R5). The voltage rises to the Vcc voltage, so a triangular wave is generated.

The output of the comparator 4 (OP4) has a resistance of Vcc in the trigger generator 4 until the voltage input to the negative terminal becomes greater than the positive terminal voltage due to the charging of the capacitor C2 according to the driving of the switching element. Like the divided signals of 7 (R7) and 8 (R8), capacitor 3 (C3) is charged, and this charged voltage is input to the + terminal of comparator 5 (OP5), and-of this comparator 5 (OP5). A signal obtained by dividing the Vcc voltage into resistors 9 (R9) and 10 (R10) is input to the terminal.

Then, when the signal of the + terminal is greater than the-terminal of the comparator 5 (OP5), a trigger signal (high signal) having a voltage equal to the signal divided by the resistors 11 (R11) and 12 (R12) is generated.

Next, when the switching element is controlled and driven according to the trigger signal, that is, the operation of the switching driving IC 5 by the switching clock, the resonance voltage of the switching element is increased, and the operating voltage comparison unit inputs the divided voltage of the resonance voltage ( 2) When the negative terminal signal of the comparator 3 (OP3) is higher than the positive terminal, the voltage charged to the capacitor 2 (C2) of the triangular wave generator 3 passes through the diode 2 (D2) and through the resistor 4 (R4). Sink to 3 (OP3).

Further, when the negative terminal signal becomes larger than the + terminal signal of the comparator 4 (OP4) in the triangular wave generator 3, the trigger generator 4 divides the resistor 7 (R7) and the resistor 8 (R8) into a capacitor 3 (C3). The voltage charged to the low sink is low sinked to the comparator 4 (OP4) through the resistor 6 (R6).

Then, the output (trigger signal, switching clock) of the comparator 5 (OP5), which is input from the trigger generator 4 to the switching driver IC 5, is also dropped to low to switch according to the control of the switching driver IC 5. The device is turned off.

That is, the operation characteristic of the conventional switching clock generation circuit is the output of the control voltage generator 1 from the triangular wave generator 3 in accordance with the output of the operating voltage comparison unit 2 for comparing the AC input power and the resonance voltage. When the control clock is turned on / off and the switching clock is output from the trigger generator 4, the switching driving IC 5 controls the switching device according to the switching clock.

However, in the conventional switching clock generation circuit, when the AC input voltage is changed by noise or noise is generated in the resonance voltage of the switching element, the input / output characteristics of the operating voltage comparing unit 2 become unstable, and thus the switching driving IC 5 Since the operating at an abnormal frequency had a high risk of damage to the switching element.

Therefore, the present invention has been proposed to solve the above problems of the prior art, to generate a switching clock for controlling the switching frequency by using only the control signal of the microcomputer as an input condition in the cooker induction heating by the switching control by the switching driver IC. It is an object of the present invention to provide a switching clock generation circuit of an induction heating cooker.

Technical means of the present invention for achieving this object, the output of the comparator outputs the reset signal to the switching driving IC in the initialization state, when the control signal is input to one input terminal in the microcomputer and compared with the reference voltage of the other input terminal output Control voltage generating means for blocking the reset signal according to the characteristics and at the same time dividing the power supply voltage to generate a control voltage for generating the switching clock of the switching driving IC, and when the control voltage is input to one input terminal, the other input terminal. A triangular wave generating means for generating a triangular wave according to the output characteristics of a comparator in which a capacitor connected to the terminal is charged and discharged with a supply voltage according to the level change of two input terminals, and the triangular wave is input to one input terminal, and the other input terminal According to the output characteristics of the comparator to which the divided voltage is input, a switching clock is generated and It characterized by constituted by any trigger generation means to cause the switching frequency of the generic control device.

1 is a switching clock generation circuit diagram of a conventional induction heating cooker.

2 is a switching clock generation circuit diagram of the induction heating cooker according to the present invention.

3 is an input / output waveform diagram of the triangular wave generator shown in FIG. 2;

4 is an input / output waveform diagram of a trigger generation unit shown in FIG. 2.

*** Explanation of symbols for the main parts of the drawing ***

110: control voltage generator 120: triangle wave generator

130: trigger generator 140: switching drive IC (IC)

Hereinafter, the present invention will be described with reference to the accompanying drawings.

Figure 2 shows a switching clock generation circuit diagram of the induction heating cooker according to the present invention, while outputting the reset signal to the switching drive IC 140 in the initialization state, the comparator 1 (OP1) and comparator 2 in the microcomputer (not shown) When the control signal is input to the + terminal of (OP2), the power supply voltage (Vcc) is divided into the resistor 1 (R1) and the resistor 2 (R2). Transistor 2 (Q2) is switched to cut off the reset signal and at the same time divides Vcc to generate a control voltage for generating the switching clock of the switching driver IC 140 to output through the diode 2 (D2) When the control voltage generator 110 and the control voltage are input to the + terminal of the comparator 3 (OP3), the capacitor 2 (C2) connected to the negative terminal of the control terminal generates a resistance 17 (R17). The voltage charged through or charged to capacitor 2 (C2) A triangular wave generator 120 that discharges through 4 (D4) and a resistor 16 (R16) to generate a triangular wave, and the triangular wave is input to the-terminal of the comparator 5 (OP5), and Vcc is a resistor 18 (R18). ) And a resistor 19 (R19) divided into two input signals to generate the switching clock to generate a switching clock to configure the trigger generator 130 to control the switching frequency of the switching element through the switching driver IC (140) It is done.

The operation and effect of the present invention configured as described above will be described with reference to FIGS. 2 to 4 as follows.

First, since the transistor 1 (Q1) of the control voltage generator 110 is blocked in the initialization state, the power supply voltage Vcc is divided by the resistor 7 (R7) and the resistor 8 (R8), and the diode 3 (D3) is used. The voltage is applied to the reset terminal of the switching driver IC 140 so that the switching driver IC 140 is reset and divided with the resistor 9 (R9) so that a bias voltage is applied to the base of the transistor 2 (Q2) to conduct the Vcc. The voltage is divided into 10 (R10) and resistor 11 (R11) and grounded through transistor 2 (Q2).

Subsequently, when the control signal is applied to the + terminals of the comparator 1 (OP1) and the comparator 2 (OP2) of the control voltage generator 110 in the microcomputer (not shown), the output of the comparator 1 (OP1) is applied to the resistor 3 (R3). Capacitor 1 (C1) is charged through, and this charged voltage is divided with resistor 4 (R4) and gradually rises through diode 1 (D1), and outputs to the + terminal of comparator 3 (OP3) in triangle wave generator 120. do.

In addition, the output of comparator 2 (OP2), in which Vcc inputs the reference voltage divided by resistor 1 (R1) and resistor 2 (R2) with the negative terminal, divides the resistor 5 (R5) and resistor 6 (R6) into transistor 1 A bias voltage is applied to the base of (Q1).

Then, when the output of comparator 2 (OP2) is equal to or higher than the operating voltage of transistor 1 (Q1), transistor 1 (Q1) is turned on so that Vcc is grounded through resistor 7 (R7) and transistor 1 (Q1). Since transistor 2 (Q2) is cut off, Vcc is divided into resistor 10 (R10) and resistor 11 (R11), and then output to the + terminal of comparator 3 (OP3) in triangle wave generator 120 through diode 2 (D2). do.

Therefore, even though the output of the comparator 1 (OP1) in the control voltage generator 110 gradually rises, the resistance V12 is directly output through the diode 2 (D2) after dividing the voltage into the resistors 10 (R10) and 11 (R11). A control voltage for generating a switching clock by dividing with R12 is input to the + terminal of comparator 3 (OP3) in triangle wave generator 120.

As such, when the control voltage is input to the + terminal of the comparator 3 (OP3), the triangular wave generator 120 charges the capacitor 2 (C2) through the resistor 17 (R17) and the -terminal voltage rises to Vcc. When the negative terminal voltage of comparator 3 (OP3) becomes larger than the control voltage input to the positive terminal, the negative terminal voltage of comparator 4 (OP4) is larger than the positive terminal voltage, so that the voltage charged in capacitor 2 (C2) becomes diode 4 (D4). And the resistor 16 (R16) are discharged, and the voltage of the-terminal gradually rises until the control voltage of the + terminal becomes smaller than the voltage of the-terminal to generate a triangular wave as shown in FIG. At this time, the highest voltage of the triangular wave is equal to the control voltage.

Since the triangular wave is input to the negative terminal of the comparator 5 (OP5) in the trigger generator 130, and the Vcc is divided into the resistor 18 (R18) and the resistance 19 (R19) to the + terminal of the comparator 5 (OP5). As shown in FIG. 4, the output signal of the comparator 5 (OP5) maintains the output of a high signal until the divided voltage of the Vcc input to the + terminal is smaller than the triangular wave voltage input to the-terminal. As soon as the voltage is greater than the divided voltage, it is inverted into a low signal.

Therefore, the trigger signal output from the comparator 5 (OP5) in the trigger generator 130 is supplied as a switching clock to the clock terminal of the switching driver IC 140 to control the switching frequency of the switching element according to the switching clock.

In this operation, when the control voltage is continuously input to the + terminal of the comparator 3 (OP3) in the triangular wave generator 102, the Vcc voltage is continuously charged and discharged through the resistor 17 (R17), so that the trigger generator ( The clock is stably supplied from the comparator 5 (OP5) 130 to the switching driver IC 140 to determine the switching frequency of the switching element.

As described above, the present invention generates a switching clock for controlling the switching frequency by using only the control signal of the microcomputer as an input condition in a rice cooker inductively heated by the switching control by the switching driver IC, thereby resonating the AC input voltage or the switching element. Even if the voltage is affected by noise, the switching clock is stably generated, thereby improving system stability.

Claims (1)

The reset signal is output to the switching driving IC in the initialization state, but when the control signal is input to one input terminal at the microcomputer, the reset signal is blocked according to the output characteristics of the comparator comparing with the reference voltage of the other input terminal. Control voltage generating means for generating a control voltage for generating a switching clock of the switching driving IC by dividing a power supply voltage; A triangular wave generating means for generating a triangular wave according to an output characteristic of a comparator in which the capacitor connected to the other input terminal is charged and discharged with a power supply voltage according to the level change of two input terminals when the control voltage is input to one input terminal; The triangular wave is input to one input terminal, and the other input terminal is triggered to generate the switching clock according to the output characteristics of the comparator in which the divided voltage of the power supply voltage is input so that the switching frequency of the switching element is controlled through the switching driving IC. Switching clock generation circuit of the induction heating cooker comprising a generating means.