KR20150131618A - Resonant inverter driver circuit with abnormal power detector for detecting fluctuation of power rehabilitation - Google Patents

Abstract

The present invention relates to a resonant inverter driving circuit with an abnormal power detecting unit for detecting a fluctuation of system power, specifically, to a resonant inverter driving circuit with an abnormal power detecting unit for detecting a fluctuation of system power which quickly and accurately detects a fluctuation or distortion of power inputted from a system. The resonant inverter driving circuit comprises: a rectifying unit for rectifying and outputting system power; a filter unit for filtering and outputting the rectified power; a resonant unit for forming magnetic flux; a switching unit for controlling a voltage of the resonant unit; and the abnormal power detecting unit for performing a predetermined protecting operation by detecting abnormal power generated in the system power.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a resonant inverter drive circuit having an abnormal power detection unit for detecting a change in a system power supply,

The present invention relates to a resonance type inverter drive circuit provided with an abnormal power detection part for detecting a variation of a system power supply and more particularly to a resonance type inverter drive circuit for detecting fluctuations of a grid power supply capable of detecting, The present invention relates to a resonance type inverter drive circuit provided with an abnormal power detection unit.

Generally, the grid power is supplied at a voltage of 220 Vrms, and has a structure in which the wave form changes in the form of a sinusoidal wave. That is, since the voltage of the system power source itself fluctuates or is distorted, the electronic device may be damaged when the system power source is supplied to the load.

For example, as an example of the load, the resonance inverter includes a resonance unit for generating a magnetic field and a switching unit for switching a current flowing in the resonance unit. In the system power supply, A high voltage may be generated in the operation of the switching unit and the switching unit itself may be damaged.

Therefore, conventionally, the system power is detected by a micro control unit (MCU) every predetermined period, and the generation of the abnormal power is detected by detecting a change in the slope of the voltage.

However, since the system power source itself is supplied in the form of a sinusoidal wave having a predetermined slope, a basic fluctuation value is always present, which causes a problem that the recognition rate is lowered when the abnormal power source is detected.

In addition, if the detection period of the micro control unit is shortened, the fluctuation or distortion of the system power supply can be detected in a state where the inclination of the system power supply itself is excluded, but the cost is greatly increased.

In addition, when the abnormal power source is generated, a protection operation for reducing the number of switching times of the switching unit and suppressing the generation of a high voltage should be performed. Because a basic signal variation time of the system power source itself consumes a separate signal processing time, There has been a problem that execution is delayed.

The inventors of the present invention have made efforts to provide a resonance type inverter drive circuit having an abnormal power detection unit for detecting a variation of a system power source as a result of efforts to quickly and accurately detect the occurrence of variations or distortions of voltage supplied from the system power supply to the resonance type inverter The present invention has been completed.

It is therefore an object of the present invention to provide a resonance inverter drive circuit provided with an abnormal power detection unit for detecting fluctuation or distortion of a voltage generated in a system power supply to detect a variation of a system power supply capable of performing a protection operation of the switching element .

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a rectifier for rectifying and outputting a system power source. A filter unit for filtering and outputting the rectified power; A resonator forming a magnetic field using the filtered power source; A switching unit for switching a current of the resonance unit to control a voltage of the resonance unit; And an abnormal power detection unit detecting an abnormal power generated in the system power source and performing a predetermined protection operation without separately correcting the waveform of the system power source itself.

In a preferred embodiment, the abnormal power detection unit detects a generation of the abnormal power by calculating a difference value between a voltage variation of the filter unit output terminal and a voltage variation of the filter unit input terminal.

In a preferred embodiment, the abnormal power detection unit detects the occurrence of the abnormal power by comparing the voltage variation of the output or input of the filter with an arbitrary sinusoidal wave.

In a preferred embodiment, the abnormal power detection unit controls a switching duty of the switching unit when the abnormal power is generated.

The present invention has the following excellent effects.

First, according to the resonant inverter drive circuit provided with the abnormal power detection unit for detecting the variation of the system power source according to the embodiment of the present invention, the voltage change amount is measured at the input and output terminals of the filter unit, By comparing with the arbitrary sinusoidal wave, the effect of instantaneous abnormal power supply generation can be detected quickly and accurately, except for the basic fluctuation value of the grid power supply.

Therefore, it is possible to perform the protection operation before the abnormal power supply is supplied to the switching element when the abnormal power supply is generated in the system power supply, and stable control of the switching element is prevented to prevent instantaneous high voltage generation and breakage The effect can be obtained.

1 is a block diagram schematically showing a resonant inverter drive circuit according to an embodiment of the present invention.
2 is a view showing a resonance inverter drive circuit according to an embodiment of the present invention;

Although the terms used in the present invention have been selected as general terms that are widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, the meaning described or used in the detailed description part of the invention The meaning must be grasped.

Hereinafter, the technical structure of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Like reference numerals designate like elements throughout the specification.

FIG. 1 is a block diagram schematically showing a resonant inverter drive circuit according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating a resonant inverter drive circuit according to an embodiment of the present invention.

1 and 2, a resonant inverter drive circuit according to an embodiment of the present invention detects an abnormal power source such as a voltage fluctuation or distortion generated in a system power source in advance to perform a predetermined protection operation And includes a rectifier 110, a filter 120, a resonator 130, a switching unit 140, and an abnormal power detector 150.

The rectifying unit 110 is connected to the system power supply to rectify the system power supply, and is configured to convert the system power supplied from the AC power supply to DC power and output the power. The rectifying unit 110 may be a bridge diode, for example.

In addition, a fuse for preventing an overcurrent and a filter for removing noise from the system power supply may be further provided at the front end of the input end of the rectifying unit 110.

The filter unit 120 is connected to an output terminal of the rectifying unit 110 and filters the rectified power from the rectifying unit 110 and outputs the filtered power. The filter unit 120 may be an LC filter including an inductor and a capacitor. The filter unit 120 may pass or block a signal of a specific frequency band.

The resonance unit 130 forms a magnetic field using the filtered power source, and is connected to the output terminal of the filter unit 120 to constitute an induction heating coil and a capacitor.

The resonance unit 130 applies a voltage generated by switching the filtered power source to the induction heating coil so that the magnetic field is generated in the induction heating coil and the magnetic field heats the metal to be heated .

Also, the resonance unit 130 is configured to increase or decrease the voltage by switching control of the switching unit 140, which will be described later.

The switching unit 140 is a semiconductor device for controlling the voltage by switching the current of the resonator unit 130. The switching unit 140 may be an insulated gate bipolar transistor (IGBT) capable of switching at a high speed .

In addition, the switching unit 140 may be provided to control a switching duty according to a gate signal input from a separate control device or an abnormal power detection unit 150 to be described later. In addition, the switching unit 140 switches the current of the resonator 130 to increase or decrease the voltage.

The abnormal power detection unit 150 detects a switching duty of the switching unit 140 when an abnormal power source including voltage fluctuation or distortion is generated in the power source input to the resonator unit 130 and the switching unit 140 So as to perform a protection operation to prevent the occurrence of a high voltage in advance.

Here, the abnormal power detection unit 150 may be a micro control unit (MCU) that detects the occurrence of an abnormal power supply in the system power supply and performs the protection operation, for example.

The abnormal power detection unit 150 may detect the generation of the abnormal power by measuring a voltage change amount across the filter unit 120. The first voltage change amount, which is the voltage change amount at the input terminal of the filter unit 120, The second voltage change amount, which is the voltage change amount at the output terminal of the filter unit 120, and then calculates the difference value between the first voltage change amount and the second voltage change amount to detect the abnormal power source.

In addition, as another embodiment for detecting the abnormal power supply, the abnormal power detection unit 150 may measure a voltage change amount at at least one of the output terminal and the input terminal of the filter unit 120, compare the voltage change amount with an arbitrary sinusoidal wave, It is possible to detect occurrence of abnormal power supply. At this time, the second voltage change amount output from the filter unit 120 is measured, and the increase or decrease of the voltage change amount of the system power supply is calculated by comparing the second voltage change amount with the arbitrary sinusoidal wave.

Here, the arbitrary sinusoidal wave has a pure sinusoidal waveform, and may be a pre-stored predetermined waveform or a change amount of a voltage measured at a position where the abnormal power source such as the switching unit 140 is not input, The amount of change means the rate of change of the voltage per hour.

Since the abnormal power detecting unit 150 measures the amount of voltage change at both ends of the filter unit 120 or calculates the generation of the abnormal power by comparing with the arbitrary sinusoidal wave, the basic fluctuation of the waveform of the system power itself Only the voltage change amount can be recognized.

That is, the abnormal power detecting unit 150 can detect abnormal power generated in the system power source without separately correcting the waveform of the system power itself.

Further, the abnormal power detection unit 150 can recognize only the voltage change amount except the variation value of the system power source itself, so that there is no need for additional signal processing for correcting the system power of the sinusoidal wave form, Can be detected more quickly and accurately, and the protection operation can be performed quickly.

Meanwhile, the abnormal power detection unit 150 may measure the first voltage change amount and the second voltage change amount, calculate the difference value, and compare the arbitrary sinusoidal wave.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the present invention. Various changes and modifications will be possible.

110: rectification part
120:
130: Resonance part
140:
150: Abnormal power detection unit

Claims (4)

A rectifying unit for rectifying and outputting the system power supply;
A filter unit for filtering and outputting the rectified power;
A resonator forming a magnetic field using the filtered power source;
A switching unit for switching a current of the resonance unit to control a voltage of the resonance unit; And
And an abnormal power detection unit detecting an abnormal power generated in the system power source and performing a predetermined protection operation without separately correcting the waveform of the system power source itself.
The method according to claim 1,
Wherein the abnormal power detection unit is configured to detect a generation of the abnormal power by calculating a difference value between a voltage change amount of the filter unit output terminal and a voltage change amount of the filter unit input terminal.
The method according to claim 1,
Wherein the abnormal power detection unit is configured to detect generation of the abnormal power by comparing a voltage change amount of an output terminal or an input terminal of the filter unit with an arbitrary sinusoidal wave.
4. The method according to any one of claims 1 to 3,
Wherein the abnormal power detecting unit controls the switching duty of the switching unit when the abnormal power is generated.

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