KR100649434B1 - Apparatus for holding power switching off time of induction heating device - Google Patents

Abstract

An apparatus for fixing a time for switching-off of an induction heating device is provided to output a constant output voltage regardless of the variation of an input voltage by allowing resonance between an inductor and a capacitor only for a predetermined period. An apparatus for fixing a switching off time of an induction heating device includes an oscillation portion(600) and an off-time controller(700). The oscillation portion receives a control signal and outputs a high-level or low-level oscillation signal, such that a commercial voltage, which is applied on a working coil of the induction heating device, is switched on and off. When the oscillation portion outputs the low-level signal, the off time controller fixes a level of the control signal for a predetermined time interval from an output timing of the low-level signal.

Description

Apparatus for holding power switching off time of induction heating device

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing the configuration of a switching off time fixing device of an induction heating device according to the present invention.

FIG. 2 is an electrical circuit diagram showing an embodiment of the switching off time fixing device of FIG.

3 is a waveform diagram illustrating a switching off time fixed waveform of FIG. 1;

4 is an electrical circuit diagram showing another embodiment of the switching off time fixing device of FIG.

(Explanation of symbols for the main parts of the drawing)

100: commercial power supply 200: voltage compensation unit

300: current compensator 400: voltage current comparator

500: microprocessor 600: oscillation unit

610: first comparator 620: on time controller

630: first diode 700: off time controller

710: transistor 720: second comparator

730: waveform fixing portion 800: IGBT circuit portion

810: power device 900: working coil

910: resonant capacitor

The switching of the induction heating device to fix the switching off time of the induction heating device, and more particularly, the switching on-time of the one-stage voltage resonance type induction heating device is variable, the switching off-time is fixed fixedly. It is about fixing the off time.

In general, an induction heating apparatus switches a commercial DC voltage applied to a working coil, and a counter electromotive force generated when the commercial DC voltage is turned off forms a strong magnetic field in the working coil, whereby a magnetic body seated on the working coil. An apparatus for cooking food and the like by heating a container.

A device using such an induction heating method typically uses a one-stage resonant type and a two-seat half-bridge method, and a single-stage resonant type induction heating device includes one oscillation output unit. The oscillation output part is composed of an upper side and a lower side, and the upper output part and the lower output part are output alternately.

In recent years, a method using a half-bridge dedicated device (IC) used in a two-stage half-bridge type induction heating apparatus has been proposed.

The reason for using a dedicated element in the induction heating device is the most important element in the oscillation part of the resonance type induction heating device. The oscillation phase should be automatically made according to the resonance time constant determined by the parallel combination of the work coil and the resonance capacitor. Although the L value of the work coil and the C value of the resonance capacitor are constant, the resonance Q value and the resonance time constant change from time to time depending on the state of the load (cooking vessel) (material, height, bottom area, temperature, etc.).

On the other hand, the method of controlling the output of the induction heating apparatus is a method of controlling the output by using a phase detecting means for detecting a phase difference signal from both ends of the resonant circuit of the induction heating apparatus. By using the phase difference signal detected by the phase detection means to supply a trigger (TRIGGER) signal so that the oscillation means is continuously oscillated.

However, the oscillation using the phase difference signal starts oscillation only when the trigger signal is received from the outside (that is, the start signal generating means), and if the trigger signal is not supplied every oscillation period, the resonance time constant and the oscillation timing of the oscillating means are not synchronized. There is a problem that the oscillation is stopped.

In addition, when a high voltage is generated due to noise in the process of supplying a trigger signal, there is a problem in that the switching element is damaged due to deformation of the gate waveform.

In addition, another method of controlling the output of the induction heating apparatus is a control using a duty cycle, and the control using the duty cycle causes the power of the rated maximum output to be turned on and off. By controlling the ratio of the time, the short time for switching on the power and the long off time gives low output. On the contrary, if the long on time and the short off time gives high power.

However, the control using the duty cycle has a problem in that the oscillation output is variable according to the change of the input voltage, and thus the cooking vessel that is to be heated cannot be heated to a constant temperature.

In order to solve the above problems, in order to provide a constant output according to the change of the input voltage, the switching on time of the induction heating apparatus is changed, and the switching off time is fixed to be equal to the resonance time of the resonant frequency so that the oscillation output It is an object of the present invention to provide an apparatus and method for fixing a switching-off time of an induction heating apparatus such that this is kept constant.

In order to achieve the above object, the present invention is a device for fixing the switching off time for controlling the output of the induction heating apparatus, the control signal to the on-off switching of the commercial current voltage applied to the wicking coil of the induction heating apparatus An oscillator which receives an input and outputs high and low level oscillation signals; And an off time controller for fixing the control signal input to the oscillator to maintain a constant level for a predetermined time from the time when the oscillator outputs the low level signal.

The off time controller may be configured to maintain the control signal while the oscillator outputs a low level signal.

The off time controller may include a transistor configured to detect an output state of the oscillator by connecting an output terminal of the oscillator to a base terminal; The collector terminal of the transistor and the + input terminal are connected, the input terminal is connected in parallel with the reference voltage and the collector terminal of the transistor, and the output terminal is connected with the control signal input terminal of the oscillator, so that the oscillator according to the detection result of the transistor A comparator configured to input a high or low signal to a control signal input terminal of the control unit; When one side is connected to the collector terminal of the transistor and the other side is connected to the + input terminal of the comparator and the collector terminal of the transistor is switched from the high state to the low state, the + input terminal of the comparator is the-input terminal of the comparator. Resistance to maintain a higher voltage; And a fixing part installed between the resistor and the + input terminal of the comparator so that the output of the comparator maintains a low signal for a predetermined time.

In addition, the fixing unit includes a pull-up resistor and a capacitor for maintaining the low signal for the control signal during the off time, wherein the capacitor is open when the collector terminal of the transistor is open so that a high signal is input to the negative input terminal of the comparator. The charge is charged until the reference voltage of the comparator is reached.

In addition, the present invention is a device for fixing the switching off time for controlling the output of the induction heating apparatus, a high level or by receiving a control signal to switch the commercial current voltage applied to the wicking coil of the induction heating device on / off An oscillator for outputting a low level oscillation signal; An IGBT circuit unit configured to output a high level or low level driving signal so that a power device for controlling the operation of the working coil is switched according to the oscillation signal output from the oscillation unit; And an off time controller for fixing the control signal input to the oscillator to maintain a constant level for a predetermined time from when the IGBT circuit unit outputs the low level signal when the IGBT circuit unit outputs the low level signal.

The off-time control unit may control the control signal to maintain the low level signal while the IGBT circuit unit outputs the low level signal.

The off time controller may include a transistor configured to detect an output state of the IGBT circuit part by connecting an output terminal of the IGBT circuit part to a base terminal; The collector terminal of the transistor and the + input terminal are connected, the-input terminal is connected in parallel with the reference voltage and the collector terminal of the transistor, and the output terminal is connected with the control signal input terminal of the IGBT circuit portion, and according to the detection result of the transistor, A comparator configured to input a high or low signal to the control signal input terminal of the oscillator; When one side is connected to the collector terminal of the transistor and the other side is connected to the + input terminal of the comparator and the collector terminal of the transistor is switched from the high state to the low state, the + input terminal of the comparator is the-input terminal of the comparator. Resistance to maintain a higher voltage; And a fixing part installed between the resistor and the + input terminal of the comparator so that the output of the comparator maintains a low signal for a predetermined time.

In addition, the fixing unit includes a pull-up resistor and a capacitor for maintaining the low signal for the control signal during the off time, wherein the capacitor is open when the collector terminal of the transistor is open so that a high signal is input to the negative input terminal of the comparator. The charge is charged until the reference voltage of the comparator is reached.

In addition, the switching-off time fixing device of the induction heating apparatus according to the present invention is such that the time that the control signal maintains a constant level is the same as the resonance time of the resonance frequency, it is determined according to the R, C time constant of the resonance frequency It is characterized by.

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

(First embodiment)

1 is a block diagram showing the configuration of a switching off time fixing device of an induction heating device according to the present invention. First, a current detection transformer for receiving a drive current and a driving diode for detecting a driving current, a bridge diode, a smoothing capacitor, a choke coil, a noise filtering capacitor for converting the commercial power supply 100 to a commercial DC voltage, and a power supply. The voltage compensator 200 for generating a voltage control signal for compensating the voltage according to the input voltage magnitude or the magnitude of the current, and the current compensator 300 and the voltage compensator for generating the current control signal for compensating the current. A voltage current comparator 400 for comparing a signal generated from the 200 and the current compensator 300 to output a variable control signal according to an input power source, an IGBT circuit part 800 for generating a magnetic field, and a power device ( The configuration of the 810, the working coil 900, the resonant capacitor 910, and the like are well known in the art, and a detailed description thereof will be omitted.

In Fig. 1, the switching-off time fixing device of the induction heating apparatus according to the present invention is an oscillator 600 which outputs an oscillation signal to operate the microprocessor 500 and the working coil 900 together with the above-described configuration of the induction heating apparatus. And an off time controller 700 for controlling the oscillation signal output of the oscillator 600.

The microprocessor 500 controls the overall operation of the induction heating apparatus, and outputs an oscillation signal when the commercial power supply 100 is applied to the induction heating apparatus to generate a control signal Vcon for generating energy in the working coil 900. Occurs.

In addition, the control signal includes a compensation signal output from the voltage current comparator 400 together with control information for the oscillator 600 to output the oscillation signal, and the magnitude of the compensation signal when the oscillator 600 is switched on. As a result, the switching on time is varied and the amplitude can be changed. That is, when the compensation signal is large, the switching on time is lengthened to increase the amplitude. In this case, the resonance period is kept constant by the R and C time constants of the oscillator 600.

FIG. 2 is an electrical circuit diagram illustrating a detailed configuration of the switching off time fixing device of FIG. 1, and the switching off time fixing device according to the present invention will be described in more detail with reference to FIGS. 1 and 2.

The oscillator 600 is configured to output an oscillation signal such that a commercial current voltage applied to a working coil for heating an object is switched on / off, and includes a first comparator 610, an on time controller 620, and a first diode. 630.

A control signal Vcon output from the voltage current comparator 400 or the microprocessor 500 is input to the + input terminal of the first comparator 610, and the switching on time of the oscillator 600 is determined to the-input terminal. An on-time control unit 620 composed of a resistor R1 and a capacitor C1 is connected, and an output terminal of the first comparator 610 is connected to an IGBT circuit unit 800, and the oscillator unit is controlled by the control signal Vcon. The oscillation signal is output during the switching on time of 600).

In addition, the first diode 630 is installed between the + input terminal and the-input terminal of the first comparator 610 to maintain the voltage difference between the two terminals.

The off time controller 700 may control the control signal Vcon applied to the oscillator 600 according to the oscillation signal output from the oscillator 600 to be fixed to a signal of a predetermined level, for example, a low level signal for a predetermined time. By controlling the oscillation signal output of the oscillator 600, the transistor 710, the second comparator 720 and the waveform fixing unit 730.

The pull-up resistor R2 is connected to the collector terminal of the transistor 710, and the oscillation signal output from the output terminal of the first comparator 610 is input to the base terminal of the transistor 710 via the resistor R3 to increase or decrease the base current. Be sure to

In this case, the collector terminal of the transistor 710 has a high / low state of the oscillation signal output through the output terminal of the oscillator 600 by flowing or cutting current to the emitter terminal of the transistor 710 according to the current of the base terminal. The state of the oscillation signal is detected and provided to the second comparator 720.

That is, when the oscillation signal output of the oscillator 600 is a high signal, the transistor 710 has a base current flowing through the base terminal of the transistor 710 and a collector current flows from the collector terminal to the emitter terminal, thereby making the collector terminal low. The low state signal is input to the two comparator 720.

In addition, when the oscillation signal output of the oscillator 600 is a low state signal, the base current applied to the base terminal of the transistor 710 is cut off, so that the collector terminal is kept high and the state of the collector terminal is changed to the second comparator 720. To be entered.

In addition, the high signal is output from the collector terminal of the transistor 710 to the second comparator 720 and the high signal is output from the output terminal of the second comparator 720 which will be described later. The comparator 720 is defined as an 'open state', and the output of the transistor 710 and the second comparator 720 does not affect the operation of other components connected to each output terminal.

The resistor R8 maintains the low signal output from the output terminal of the first comparator 610. When the high signal is input from the output terminal of the first comparator 610, the high signal is applied to the base terminal in the same manner as in the first case. To be entered.

The + input terminal of the second comparator 720 is connected to the collector terminal of the transistor 710-the input terminal is connected to the resistors R6 and R7 so that a reference voltage according to the divided voltage of the resistors R6 and R7 is input, and the transistor 710 is connected. It is connected in parallel with the collector terminal of.

In addition, a detection resistor R5 is provided between the collector terminal of the transistor 710 and the + input terminal of the second comparator 720.

When the collector terminal of the transistor 710 is switched from the high state to the low state, the detection resistor R5 is configured such that the + input terminal of the second comparator 720 has a higher voltage than the input terminal of the second comparator 720. 2 A high signal is output from the output terminal of the comparator 720.

In addition, the waveform fixing part 730 is installed between the detection resistor R5 and the + input terminal of the second comparator 720 so that the output of the second comparator 720 can be kept low during the switching off time. In this configuration, a pull-up resistor R4 and a capacitor C2 are provided.

In this case, the time constant is determined by the pull-up resistor R4 and the capacitor C2 of the waveform fixing unit 730, and the off time is always kept constant by the determined RC time constant. That is, the off time is determined by the RC time constant and the operation at a time other than the switching off time (for example, the initial state or the switching on time) has no influence on the control signal Vcon.

In addition, when the collector terminal of the transistor 710 is open and the output terminal of the second comparator 720 outputs a low signal, the waveform fixing unit 730 generates a low generated at the output terminal of the second comparator 720. A signal is input to the oscillator 600 to maintain the control signal Vcon to be a low signal during the time that the C2 capacitor is charged, that is, the switching off time.

That is, the C2 capacitor of the waveform fixing unit 730 charges up to the time when the reference voltage level of the second comparator 720 is reached, so that the output of the second comparator 720 receives a low signal during the time when the reference voltage level is reached. Keep it.

3 is a waveform diagram illustrating a switching off time fixed waveform of FIG. 1. In FIG. 3, the reference voltage waveform of the second comparator 720 remains high during the time that switching off occurs, wherein the charging waveform of the C2 capacitor charges to the level of the reference voltage waveform during the off time.

In addition, when a change in the voltage input to drive the induction heating device occurs, the level of the reference voltage of the second comparator 720 is also changed, so that the C2 capacitor keeps charge until the level of the changed reference voltage is reached. By charging, it is possible to stably oscillate with respect to a variable power input. Since R, L, and C, which affect the resonance frequency, are fixed, they can be resonated only for a predetermined period.

Next, the state of the off time controller 700 according to the oscillation signal output of the oscillator 600 will be described.

(Switching on)

When oscillation starts from the oscillator 600 and the oscillation signal output from the output terminal of the first comparator 610 is changed from a low signal to a high signal, the high signal of the oscillator 600 is a high signal at the base terminal of the transistor 710. In this case, the transistor 710 is turned on, and the collector terminal is turned low.

However, the resistor terminal of the transistor 710 maintains a low signal and the + input terminal of the second comparator 720 maintains a high signal by the R5 resistor.

In addition, the collector terminal of the transistor 710 is low and the + input terminal of the second comparator 720 is kept high, and the collector terminal of the transistor 710 is kept low. − The input terminal is kept low, and the output terminal of the second comparator 720 is open by outputting a high signal.

Therefore, the transistor 710 remains low and the second comparator 720 remains open so that the second comparator 720 does not affect the control signal input to the oscillator 600.

(Switching off)

When the oscillation signal from the oscillator 600 is changed from the high state to the low state, the low state oscillation signal cuts off the base current applied to the base terminal of the transistor 710 so that the collector terminal is in a high state. It is open.

At this time, the C2 capacitor of the waveform fixing unit 730 is charged until the time to reach the reference voltage level of the second comparator 720, the + input terminal of the second comparator 720 during the time that the C2 capacitor is charged The low signal is inputted so as to be lower than the reference voltage of the − input terminal of the second comparator 720 so that the output terminal of the second comparator 720 outputs the low signal during the charging time of the C2 capacitor.

In this case, the low signal generated at the output terminal of the second comparator 720 maintains the low signal as the control signal Vcon input to the oscillator 600 maintains the low signal, so that the oscillator 600 is charged during the switching time. ) To prevent rash from occurring.

Therefore, the second comparator 720 affects the control signal input to the oscillator 600 so that the control signal input to the oscillator 600 maintains a low level.

(Second embodiment)

4 is an electrical circuit diagram showing another embodiment of the switching off time fixing device of FIG.

In FIG. 4, the switching-off time fixing device of the induction heating apparatus according to the present invention includes an oscillator 600 which outputs an oscillation signal to operate the microprocessor 500 and the working coil 900 together with the above-described configuration of the induction heating apparatus. ), An off time controller 700 for controlling the oscillation signal output of the oscillator 600, and an IGBT circuit unit 800 for driving the power device 810.

The difference between the first embodiment and the second embodiment differs in the connection of the signal input to the base terminal of the transistor 710.

In the second embodiment, the signal input to the base terminal of the transistor 710 is a drive signal output from the IGBT circuit part 800 to drive the power device 810.

That is, the IGBT circuit unit 800 outputs driving signals in the high state and the low state to the power device 810 according to the oscillation signal output from the oscillator 600 to drive the power device 810. The switching signal of the oscillator 600 is fixed by detecting the driving signal output from the 800.

As described above, the present invention has the advantage of providing a constant output irrespective of the change in the input voltage by resonating only a predetermined period by L and C.

In addition, there is an advantage that can effectively provide induction heating by controlling the switching on time and the switching off time to control the output of the induction heating apparatus.

In the above, the present invention has been illustrated and described with respect to certain preferred embodiments. However, the present invention is not limited to the above-described embodiments, and those skilled in the art to which the present invention pertains can vary as many as possible without departing from the spirit of the present invention as set forth in the claims below. Changes may be made.

Claims (9)

A device for fixing a switching off time for controlling the output of an induction heating device, An oscillator for receiving a control signal so as to switch on / off a commercial current voltage applied to the wicking coil of the induction heating apparatus and output a high level and a low level oscillation signal; And And an off time controller for fixing the control signal input to the oscillator to maintain a constant level for a predetermined time from when the oscillator outputs the low level signal. Switching off time fixture. The apparatus of claim 1, wherein the off time control unit is configured to maintain the control signal while the oscillator outputs a low level signal. The oscillator of claim 1, wherein the off time controller comprises: a transistor configured to detect an output state of the oscillator by connecting an output terminal of the oscillator to a base terminal; The collector terminal of the transistor and the + input terminal are connected, the input terminal is connected in parallel with the reference voltage and the collector terminal of the transistor, and the output terminal is connected with the control signal input terminal of the oscillator, so that the oscillator according to the detection result of the transistor A comparator configured to input a high or low signal to a control signal input terminal of the control unit; When one side is connected to the collector terminal of the transistor and the other side is connected to the + input terminal of the comparator and the collector terminal of the transistor is switched from the high state to the low state, the + input terminal of the comparator is the-input terminal of the comparator. Resistance to maintain a higher voltage; And And a fixing part installed between the resistor and the + input terminal of the comparator to maintain the output of the comparator with a low signal for a predetermined time. The method of claim 3, wherein the fixing unit comprises a pull-up resistor and a capacitor for holding the control signal low signal during the off time, Wherein the capacitor charges the charge until the collector terminal of the transistor is open to reach the reference voltage of the comparator when a high signal is input to the-input terminal of the comparator. Device. A device for fixing a switching off time for controlling the output of an induction heating device, An oscillator for receiving a control signal and outputting a high level or low level oscillation signal such that a commercial current voltage applied to the wicking coil of the induction heating device is switched on / off; An IGBT circuit unit configured to output a high level or low level driving signal so that a power device for controlling the operation of the working coil is switched according to the oscillation signal output from the oscillation unit; and An induction heating part including an off time controller to fix the control signal input to the oscillator to maintain a constant level for a predetermined time from when the IGBT circuit part outputs a low level signal when the IGBT circuit part outputs a low level signal; Device for switching off time of the device. 6. The apparatus of claim 5, wherein the off time control unit causes the control signal to maintain the low level signal while the IGBT circuit unit outputs the low level signal. 6. The apparatus of claim 5, wherein the off time controller comprises: a transistor configured to detect an output state of the IGBT circuit part by connecting an output terminal of the IGBT circuit part to a base terminal; The collector terminal of the transistor and the + input terminal are connected, the-input terminal is connected in parallel with the reference voltage and the collector terminal of the transistor, and the output terminal is connected with the control signal input terminal of the IGBT circuit portion, and according to the detection result of the transistor, A comparator configured to input a high or low signal to the control signal input terminal of the oscillator; When one side is connected to the collector terminal of the transistor and the other side is connected to the + input terminal of the comparator and the collector terminal of the transistor is switched from the high state to the low state, the + input terminal of the comparator is the-input terminal of the comparator. Resistance to maintain a higher voltage; And And a fixing part installed between the resistor and the + input terminal of the comparator to maintain the output of the comparator with a low signal for a predetermined time. 8. The apparatus of claim 7, wherein the fixing part comprises a pull-up resistor and a capacitor for maintaining the low signal during the off time of the control signal, Wherein the capacitor charges the charge until the collector terminal of the transistor is open to reach the reference voltage of the comparator when a high signal is input to the-input terminal of the comparator. Device. 6. The method according to any one of claims 1 to 5, wherein the time at which the control signal maintains a constant level is equal to the resonance time of the resonance frequency and is determined according to the R and C time constants of the resonance frequency. Switching off time fixed device of induction heating apparatus.

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