KR100825475B1 - Insulated gate bipolar transistor rectifier using inverter - Google Patents

Abstract

An IGBT(Insulated Gate Bipolar Transistor) rectifier using an inverter is provided to have high efficiency and reduce a weight without an overlapped portion of coils by laminating the coils of a barrel shape. An IGBT rectifier using an inverter includes a primary rectification unit(110), an inverter unit(120), a transformation unit(130), a secondary rectification unit(140), a control unit(150), and a driving unit(160). The primary rectification unit receives 3-phase AC power and converts the 3-phase AC power into DC power. The inverter unit converts the DC power converted through the primary rectification unit into AC power. The transformation unit converts AC voltage or current from the inverter unit. The secondary rectification unit rectifies the AC power from the inverter unit and the transformation unit into DC power through rectification diodes. The control unit controls a rectifier by detecting output voltage and current outputted through the secondary rectification unit. The driving unit outputs a driving signal according to a control order transmitted from the control unit.

Description

ITV Rectifier using Inverter {INSULATED GATE BIPOLAR TRANSISTOR RECTIFIER USING INVERTER}

1 is a circuit diagram showing a rectifier using a conventional thyristor.

2 is a circuit diagram illustrating an IGBT rectifier using an inverter according to the present invention.

3 is a design diagram of the transformer unit applied to the present invention.

4 is a view showing a configuration of a transformer unit applied to the present invention.

5 is a view showing the configuration of a secondary rectifying unit applied to the present invention.

6 is a circuit diagram showing the overall configuration of an IGBT rectifier using an inverter according to the present invention.

7 shows an example of the overall configuration of the present invention;

* Description of the symbols for the main parts of the drawings *

110: primary rectifier 120: inverter

130: transformer 140: secondary rectifier

150 control unit 160 drive unit

The present invention relates to an insulated gate bipolar transistor (IGBT) rectifier, and more particularly, to an IGBT rectifier using an inverter having excellent efficiency and reduced volume and weight by replacing a conventional SCR thyristor type rectifier.

Recently, the demand for high-voltage high-capacity electric system is increasing according to the trend of high-capacity and high-pressure industrial electrical equipment, and research on large-capacity rectifiers that can overcome the limited rating of power semiconductor devices has been continuously conducted. .

In addition, the manufacturing technology of such a large-capacity rectifier starts with only converting and converting alternating current into direct current, and rectifiers for converting and outputting output current waveforms in various forms have been developed and used.

On the other hand, in the plating factory, the rectifier using the contactless semiconductor control element (SCR) thyristor is most used.

That is, the conventional rectifier as described above includes six converters 13 and six other converters 14, as shown in FIG. In FIG. 1, the six converters 13 connected forward are rectified to receive AC power and convert the power into DC power, and the six converters 14 connected backward connect the energy regenerated from the load to the AC power. Provide regenerative action. At this time, the converters 13 and 14 both constitute a thyristor switching element.

At this time, looking at the operation according to the rectifying action of the conventional rectifier as described above, first control the phase angle of the forward converter 13 to obtain the output DC power as much as the command value, when the regeneration is started at the load (M) Voltage rises. When the regenerative voltage rises above a certain value, all of the forward converters 13 are turned off and the reverse converters 14 are operated. At this time, the amount of power regenerated by the input AC power source may be adjusted by adjusting the phase angles of the reverse converters 14, and the output voltage may be maintained at the command value voltage. Then, when the regenerative stops, the operation of the reverse converters 14 is stopped and the forward converters 13 are operated again.

In addition, in the conventional rectifier as described above, a transformer wound in a spiral core such that one end and the other end of the coil do not meet the core core.

Therefore, since the conventional rectifier uses as many as 12 thyristors constituting the converters, there is a problem that the price of the rectifier itself is very expensive and the total volume of the rectifier is very large.

In addition, since the transformer is configured in such a manner that the coil is spirally wound on the core, the coil overlaps a lot, and thus the weight of the entire rectifier becomes very heavy.

The present invention has been made to solve the above problems, an object of the present invention is to provide an IGBT rectifier using an inverter that replaces the function performed by a number of thyristors with an inverter, while reducing the volume of the entire rectifier with excellent efficiency. .

In addition, another object of the present invention is to pile up a plurality of coils consisting of a cylindrical shape that is connected to the one end and the terminal is connected to the one end in the core of the transformer by applying a transformer with high efficiency without the coil overlapping part It is to provide the used IGBT rectifier.

IGBT rectifier using an inverter according to the present invention for achieving the above object, the primary rectifier 110 for receiving a three-phase AC power to convert to DC power; An inverter unit 120 converting the DC power converted through the primary rectifier 110 into AC power; A transformer unit 130 for converting an AC voltage or a current value from the inverter unit 120; A secondary rectifier 140 for rectifying the AC power from the inverter unit 120 and the transformer unit 130 into a rectifying diode and converting the AC power into a DC power source; A controller 150 for controlling the rectifier by detecting an output voltage and a current output through the secondary rectifier 140; And a driving unit 160 for outputting a driving signal according to a control command received from the control unit 150, wherein the transformer unit 130 is wound around once in a state surrounding the core and is circumscribed. The primary coils are stacked and stacked side by side, and the secondary coil wrapped around the primary coil and wound one turn.

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In addition, the primary rectifier 110 is a three-phase bridge diode connected to the three forward diodes and three reverse diodes around each input terminal of the three-phase AC power source.

In addition, the primary rectifier 110 may further include a resistor and two capacitors connected to the three forward diodes and the three reverse diodes in parallel to convert an irregular pulse current to a DC state and remove noise at the same time. It is preferable.

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In addition, the secondary rectifier 140 is configured to connect the pair connected in parallel with the two forward diodes and the other pair connected in parallel with the two forward diodes to configure the output terminal through the bus bus (Cu busbar). desirable.

In addition, the primary rectifier is connected to the output of the three-phase AC power, respectively, the primary rectifier 110, the inverter 120, the transformer 130, the secondary rectifier 140 is connected in parallel in six sets It is desirable to be.

Hereinafter, an IGBT rectifier using an inverter according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a circuit diagram illustrating an IGBT rectifier using an inverter according to the present invention. FIG. 3 is a design diagram of a transformer unit applied to the present invention, and FIG. 4 is a diagram showing a configuration of the transformer unit applied to the present invention.

5 is a view showing the configuration of the secondary rectifier applied to the present invention, Figure 6 is a circuit diagram showing the overall configuration of the IGBT rectifier using the inverter according to the present invention, Figure 7 is a general configuration of the present invention It is a figure which shows an example of the.

As shown in FIG. 2, an Insulated Gate Bipolar Transistor (IGBT) rectifier using an inverter according to the present invention includes a primary rectifying unit 110, an inverter unit 120, a transformer unit 130, and two. The car rectifier 140, the controller 150, and the driver 160 are included.

That is, the primary rectifier 110 is a device that receives a three-phase (R, S, T) AC power input and converts it into DC power.

Specifically, the primary rectifier 110 includes three diodes connected to three forward diodes and three reverse diodes, that is, six diodes that onion-rectify three-phase AC power around each input terminal of the three-phase AC power. And a resistor and two capacitors connected in parallel with the three forward diodes and the three reverse diodes to convert an irregular pulse current to a DC state and remove noise at the same time.

In this case, the two capacitors use at least one of an electrolytic capacitor used for smoothing, and a ceramic capacitor and a film capacitor used for noise filter, oscillation prevention, bypass, and the like.

The inverter unit 120 is a known device for converting a DC power source into an AC power source. The inverter unit 120 includes a first transistor Q1 to a fourth transistor Q4, and converts the DC power source converted through the primary rectifier 110 again. Convert to AC power of desired frequency.

Specifically, the inverter unit 120 obtains an AC power source by alternating switching of the DC power source converted through the primary rectifying unit 110 to the IGBT element of the inverter unit. That is, the inverter unit is a switching circuit in which the first transistor Q1 and the fourth transistor Q4 of the IGBT element are simultaneously driven, and the second transistor Q2 and the third transistor Q3 are simultaneously driven. The flow direction of the DC current from the primary rectifier 110 is changed by the time when the transistors Q1 to Q4 are turned on, so that an AC output voltage in which the primary side of the transformer 130 is alternated is obtained. The magnitude of the output voltage of the inverter unit 120 is changed by adjusting the turn-on time of each of the first to fourth transistors Q1, Q2, Q3 and Q4 of the IGBT.

The transformer 130 is a device for converting the value of the AC voltage or current from the inverter unit 120 by using an electromagnetic induction action, and adjusts the transformer ratio between the primary and secondary to obtain a desired voltage and current.

Specifically, as shown in FIG. 3 and FIG. 4, the transformer 130 is wound around the ferrite core one time and wound around the primary coils 1 wound around the ferrite core. It is arranged by stacking each side by side in the longitudinal direction of the (), surrounding the primary coil (1) and winding the secondary coil (2) once (the number of turns). That is, each of the primary coils 1 is configured to surround the ferrite core F and wrap once in a rectangular shape, and the secondary coil 2 is composed of an eastern switch and 20 kW, preferably 24 kW. )

The secondary rectifier 140 is a device for rectifying the AC power from the inverter unit 120 and the transformer unit 130 into rectifier diodes connected in parallel in two forward directions, respectively, to convert the DC power into DC power.

In this case, the diode of the secondary rectifier 140 must be faster than the diode used in the primary rectifier 110, and uses an ultra fast recovery or Schottky Barrier diode.

In addition, as shown in FIG. 5, the secondary rectifying unit 140 interconnects a pair connected in parallel with two forward diodes and another pair connected in parallel with two forward diodes, and then connects a bus bus bar. Configure the output terminal through

The controller 150 controls the on / off power supply of the entire rectifier by detecting the output voltage and the current of the rectifier output stage according to the present invention.

The driver 160 drives the on / off control command received from the controller 150 by applying it to the rectifier according to the present invention.

Meanwhile, in the present specification, for convenience of description, the present invention will be described with reference to one primary rectifying unit 110, an inverter unit 120, a transformer unit 130, and a secondary rectifying unit 140. As shown in FIG. 6, the primary rectifying unit is configured by connecting the primary rectifying unit, the inverter unit, the transformer unit, and the secondary rectifying unit in parallel in six sets in a state where the primary rectifying unit is connected to the output of the three-phase AC power, respectively. Outputs more than 120kW through the control unit and the drive unit, and constitutes an IGBT rectifier corresponding to six sets connected in parallel as shown in FIG.

Although the present invention has been described above according to an embodiment of the present invention, a person skilled in the art to which the present invention belongs has changed and modified within the scope without departing from the technical spirit of the present invention. Of course.

As described above, according to the IGBT using the inverter in the present invention, it is possible to reduce the price of the rectifier itself by replacing the function performed by several thyristors with the inverter, and also to design a smaller overall size of the rectifier.

In addition, since there are no overlapping coils by stacking a plurality of coils having a cylindrical shape connected from one end to one end of the ferrite core of the transformer applied to the rectifier, the rectifier is high in efficiency and light in weight. Can be produced.

Claims (7)

A primary rectifier 110 for receiving a three-phase AC power and converting the same into DC power; An inverter unit 120 converting the DC power converted through the primary rectifier 110 into AC power; A transformer unit 130 for converting an AC voltage or a current value from the inverter unit 120; A secondary rectifier 140 for rectifying the AC power from the inverter unit 120 and the transformer unit 130 into a rectifying diode and converting the AC power into a DC power source; A controller 150 for controlling the rectifier by detecting an output voltage and a current output through the secondary rectifier 140; And Including a driving unit 160 for outputting a driving signal in accordance with the control command received from the control unit 150, The transformer unit 130 is wound once and wrapped around the core, and is surrounded by a primary coil arranged side by side in the longitudinal direction of the core, and a secondary wound around the primary coil and wound once a turn. ITV rectifier using an inverter comprising a coil. delete The method of claim 1, The primary rectifier 110 is an ITV rectifier using an inverter, characterized in that the three-phase bridge diode connected to the three forward diodes and three reverse diodes around each input terminal of the three-phase AC power source. The method of claim 3, wherein The primary rectifier 110 further includes a resistor and two capacitors connected to the three forward diodes and the three reverse diodes in parallel to convert an irregular pulse current to a DC state and remove noise at the same time. ITV rectifier using an inverter. delete The method of claim 1, The secondary rectifier 140 is configured to connect an output pair through a Cu busbar after interconnecting a pair connected in parallel with two forward diodes, and another pair connected in parallel with two forward diodes. ITV rectifier using an inverter. The method of claim 1, In the state where the primary rectifier is connected to the output of the three-phase AC power, respectively, the primary rectifier 110, the inverter 120, the transformer 130, the secondary rectifier 140 is connected in parallel to six sets ITV rectifier using an inverter characterized by.

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