KR101442013B1 - Tester for power supply converter - Google Patents

Abstract

The present invention relates to a tester device for a converter for a power supply. The tester device operates one among an AC main power unit and a DC main power unit by identifying the kind of input power of various kinds of converters such as an AC input-DC output converter, a DC input-DC output converter, and an AC or DC input-DC output/DC input-DC output bidirectional converter. The power outputted by a test-target converter is provided as a feedback to an auxiliary power unit and re-supplied and used as input power to the test-target converter. Since the present invention identifies the kind of input power of a test-target converter and operates one among the AC main power unit and the DC power unit, it is possible to test various kinds of converters having different kinds of input power.

Description

[0001] Tester for power supply converter [0002]

The present invention relates to a converter tester for power supply, and more particularly to a power converter tester capable of testing various types of converters that supply power to the load side.

The power supply converter is well known as a power conversion device for boosting or down converting an input power (for example, an AC power or a DC power) to an output power (for example, DC power) required on the load side.

The power supply converter may be a power supply device for a general vehicle or an electric vehicle, a booster for a power supply device using a solar battery, a primary battery or a secondary battery, a household appliance such as a computer or a television, a refrigerator, a washing machine, It is used in various kinds of power supply such as power supply of product, power supply of various industrial machines, power supply of communication equipment, and so on.

On the other hand, an electronic device described in Patent Document 1 has been developed as a testing device for the above-mentioned power supply converter, and the reliability of the DC power supply is tested.

In the conventional electronic part disclosed in Patent Document 1, since only a DC-DC converter can be tested as a DC power supply, an AC-DC converter that receives AC power and supplies necessary output power to the load side is tested And there is a disadvantage in that it can not test an AC-DC / DC-DC bidirectional converter that receives AC power or DC power and supplies the necessary output power to the load side.

KR 10-1211815 B1

SUMMARY OF THE INVENTION It is an object of the present invention to provide an AC-DC converter and a DC-DC converter, DC bidirectional converter, etc.) is selected and operated by selecting either the AC main power unit or the DC main power unit by distinguishing the input power, and the power outputted from the converter under test is fed back to the negative power unit to be supplied again to the input power of the test converter And to provide a power converter converter test apparatus which uses the power converter.

In order to achieve the object of the present invention, an apparatus for testing a converter for power supply according to the present invention includes an AC-DC converter for converting an AC power source to a DC power source, a DC power source for converting the DC power source of the AC- And an AC-DC to-be-tested converter connected to the output of the first inverter or a DC-DC to-be-tested converter, which is connected to the output of the first inverter, A main power supply unit; A DC main power supply unit including an AC-DC converter for converting an AC power source to a DC power source, and supplying DC power to the DC-DC test converter connected to an output terminal of the AC-DC converter; And an AC main power supply unit connected in parallel to the output terminal of the AC main power unit and performing a power conversion operation to convert DC power to AC power, A DC-DC bidirectional converter that is connected between the second inverter and the output terminal of the DC main power unit and converts the DC power to another DC power by performing a power conversion operation, A converter for converting the DC power fed from the TEST converter connected to the output terminal of the AC main power supply unit into an AC power source and supplying the converted AC power to the test AC power source supplied to the test converter, DC power that is output and fed back from the to-be-tested converter connected to the output terminal of the AC main power source is converted into another DC power The test DC power is supplied to the test DC power source supplied to the test converter, or the DC power supplied from the test converter connected to the output terminal of the DC main power unit is fed back to another DC power source, To the test DC power supply supplied to the test converter; And an AC main power supply unit for selectively operating either the AC main power unit or the DC main power unit by discriminating whether the input power source of the to-be-tested converter is an AC power source or a DC power source, and when the AC main power unit is used, -DC converter and the first inverter and the power conversion operation of the second inverter and the DC-DC bidirectional converter of the sub-power supply unit to control the test converter connected to the output terminal of the AC main power unit, And when the DC main power source unit is used, a power conversion operation of the AC-DC converter of the DC main power unit and the second inverter of the sub-power unit and the DC-DC bidirectional converter is controlled to be connected to the output terminal of the DC main power unit And a control unit for supplying the test DC power to the test converter.

Since the present invention can select and operate either the AC main power unit or the DC main power unit by distinguishing the input power of the test converter from the input power of the EUT, it is possible to test a variety of various tested converters having different input power sources.

The present invention can reduce the power loss occurring during operation of the test apparatus because the output power of the test converter is fed back to the negative power supply unit and supplied again to the input power supply of the test converter.

1 is a block diagram showing a configuration of a power supply converter test apparatus according to the present invention;
2 is a circuit diagram showing the configuration of a power supply converter test apparatus according to the present invention.
3 is a circuit diagram showing a configuration of a power supply converter test apparatus according to the present invention.
4 shows an embodiment in which the AC main power supply is operated to test the AC-DC test converter.
5 is an embodiment in which an AC main power supply is operated to test a DC-DC to-be-tested converter.
6 is an embodiment in which a DC main power supply is operated to test a DC-DC to-be-tested converter.
7 is an embodiment in which an AC main power supply is operated to test an AC-DC / DC-DC bidirectional test converter.

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

1 to 3, a power supply converter test apparatus 100 according to the present invention includes an AC main power supply unit 110, a DC main power supply unit 120, a sub power supply unit 130, and a control unit 140 .

The AC main power supply unit 110 includes an AC-DC converter 111 for converting an AC power source to a DC power source, a first inverter 112 for converting DC power of the AC-DC converter 111 to AC power, (112).

2 or 3, the AC-DC converter 111 includes a first diode bridge rectifier for rectifying the AC power source, a first smoothing capacitor for smoothing the output power of the first diode bridge rectifier, A first full-bridge switching circuit in which a switch-on / off operation is controlled by a control signal of a first full-bridge switching circuit (140); a first full bridge switching circuit A second diode bridge rectifier for rectifying the output power of the power conversion transformer, and a second smoothing capacitor for smoothing the output power of the second diode bridge rectifier and outputting a DC power, .

The above-described construction and operation of the AC-DC converter 111 are extremely easily understood by those skilled in the art, even if not specifically described.

As shown in FIG. 2 or 3, the first inverter 112 includes a full bridge switching circuit in which a switch on / off operation is controlled by a control signal of the controller 140 and a full bridge switching circuit A second power conversion transformer for converting a DC power input via the second smoothing capacitor to an AC power source, and a noise removing capacitor for removing a noise component of an AC output power source of the second power conversion transformer .

The above-described configuration and operation of the first inverter 112 are extremely easily understood by those of ordinary skill in the art, even if not specifically described.

The AC main power supply unit 110 supplies the test AC power or the test DC power to the DC converter 200 connected to the output terminal of the first inverter 112.

The DC main power supply unit 120 includes an AC-DC converter 121 for converting AC power to DC power.

The configuration of the AC-DC converter 121 of the DC main power source unit 120 is the same as that of the AC-DC converter 111 of the AC main power source unit 110, as shown in FIG. 2 or FIG.

The DC main power supply unit 120 supplies the test DC power to the T converter 200 connected to the output terminal of the AC-DC converter 121.

The sub power supply unit 130 is connected in parallel with the test converter 200 between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120.

The sub power supply unit 130 includes a second inverter 131 and a DC-DC bidirectional converter 132 connected in series between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120 .

The second inverter 131 is connected to the output terminal of the AC main power supply unit 110 and converts the DC power to AC power or stops the power conversion operation by performing a power conversion operation to transfer the DC power to the outside.

The DC-DC bidirectional converter 132 is connected between the second inverter 131 and the output terminal of the DC main power supply unit 120 and performs a power conversion operation to convert the DC power supply to another DC power supply.

The configuration of the second inverter 131 is the same as that shown in FIG. 2 or 3, and is the same as that of the first inverter 112 of the AC main power supply unit 110.

The DC-DC bidirectional converter 132 is an isolated DC-DC bidirectional converter 132a in which the power input side and the power output side are insulated by a power conversion transformer as shown in FIG. 2, DC-DC bidirectional converter 132b in which the input side and the power side are not insulated without a power conversion transformer.

When the non-coupled DC-DC bidirectional converter 132b is used as the DC-DC bidirectional converter 132, when the insulated DC-DC bidirectional converter 132a is used, It is possible to test a test converter that consumes a relatively higher power compared to the to-be-tested converter when using an isolated DC-DC bidirectional converter 132a.

The insulated DC-DC bidirectional converter 132a includes a full bridge switching circuit and a half bridge switching circuit which are disposed with a power conversion transformer interposed therebetween so that the switch on / off operation is controlled by the control signal of the controller 140 .

The construction and operation of the insulated DC-DC bidirectional converter 132a are extremely easily understood by those of ordinary skill in the art, even if not specifically described.

The non-isolated DC-DC bidirectional converter 132b includes a half bridge switching circuit in which a switch on / off operation is controlled by a control signal of the controller 140. [

The construction and operation of the insulated DC-DC bidirectional converter 132a are extremely easily understood by those of ordinary skill in the art, even if not specifically described.

The sub power supply unit 130 converts DC power outputted from the test converter 200 connected to the output terminal of the AC main power supply unit 110 into feedback AC power and supplies the converted AC power to the T converter 200 Re-supply to the supplied test AC power.

The sub power supply 130 converts the DC power outputted from the test converter 200 connected to the output terminal of the AC main power supply unit 110 into another DC power source and supplies the converted DC power to the DC converter 200, To the test DC power supply.

The sub power supply unit 130 converts DC power fed from the TEST converter 200 connected to the output terminal of the DC main power supply unit 120 into another DC power source and supplies the converted DC power to the DUT 200 ) To the test DC power supply.

The control unit 140 operates either the AC main power unit 110 or the DC main power unit 120 by discriminating whether the input power of the T converter 200 is AC power or DC power .

The control unit 140 controls the power conversion operation of the AC-DC converter 111 and the first inverter 112 of the AC main power unit 110 and the power conversion operation of the auxiliary power unit 130 of the AC main power unit 110, The power conversion operation of the second inverter 131 and the DC-DC bidirectional converter 132 is controlled to supply the test AC power or the test DC power to the test converter 200 connected to the output terminal of the AC main power supply unit 110 .

When the AC-DC test converter 200 is connected in parallel with the sub-power supply unit 130 between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120, The power conversion operation of the AC-DC converter 111 of the main power supply unit 110 is controlled to convert the AC power to the DC power, and then the power conversion operation of the first inverter 112 is controlled to supply the DC power to the AC power When the DC power output from the AC-DC tested converter 200 is fed back to the sub power supply unit 130, the converted AC power is supplied to the test AC power supply of the AC-DC tested converter 200 The power conversion operation of the DC-DC bidirectional converter 132 of the sub-power supply unit 130 is controlled to convert the fed DC power into another DC power, and then the power conversion operation of the second inverter 131 is controlled, The other DC power is converted into AC power, DC test converter 200 connected to the output terminal of the AC main power supply unit 110. The test AC power supplied to the AC-

When the DC-DC to-be-tested converter 200 is connected in parallel with the sub-power supply unit 130 between the output terminal of the AC main power source unit 110 and the output terminal of the DC main power source unit 120, The power conversion operation of the AC-DC converter 111 of the main power source unit 110 is controlled to convert AC power to DC power, then the power conversion operation of the first inverter 112 is stopped, DC converter 100 to the test DC power source of the DC-DC to-be-tested converter 200 via the first inverter 112 and the DC power outputted from the DC-DC to- When the power is fed back, the power conversion operation of the DC-DC bidirectional converter 132 of the sub-power supply unit 130 is controlled to convert the fed back DC power into another DC power, and then the power conversion operation of the second inverter 131 is stopped And the converted other DC power is supplied via the second inverter 131 to the AC main And it supplies the re-test DC power to the DC-DC converter under test 200 is connected to the output terminal of the moped 110.

The controller 140 controls the AC-DC converter 121 of the DC main power source unit 120 and the second inverter 131 of the sub power source unit 130 when the DC main power source unit 120 is used, Converter 132 to supply the test DC power to the test converter 200 connected to the output terminal of the DC main power supply unit 120.

When the DC-DC converter 200 is connected in parallel with the sub-power supply unit 130 between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120, The power conversion operation of the AC-DC converter 121 of the main power supply unit 120 is controlled to convert AC power to DC power and then the converted DC power is supplied to the DC power source of the DC-DC test converter 200 And DC power outputted from the DC-DC controlled converter 200 is fed back to the sub power supply unit 130, the power conversion operation of the second inverter 131 of the sub power supply unit 130 is stopped, DC converter 132 to the DC-DC bidirectional converter 132 via the second inverter 131 and then controls the power conversion operation of the DC-DC bidirectional converter 132 to supply the fed DC power to another DC power source And converts and outputs the converted DC power to the output terminal of the DC main power supply unit 120 And supplies it to the test DC power supply supplied to the connected DC-DC to-be-tested converter 200.

The power supply converter test apparatus 100 according to the present invention configured as described above operates as follows.

FIG. 4 shows an embodiment in which the AC main power supply unit 110 is operated to test the AC-DC test converter 200. FIG.

The AC-DC test converter 200 is connected in parallel to the sub power supply unit 130 between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120, The AC input terminal of the converter 200 is connected to the output terminal of the AC main power supply unit 110.

The controller 140 controls the AC main power supply 110 and the AC main power supply 120 so that the AC-DC test converter 200 converts AC power into DC power, The AC-DC to-be-tested converter 200 is tested by selecting and operating the main power supply unit 110. [

In this case, the controller 140 controls the power conversion operation of the AC-DC converter 111 of the AC main power supply unit 110 to convert AC power to DC power, and then converts the power of the first inverter 112 Controls the operation to convert the DC power to AC power, and supplies the converted AC power to the test AC power of the AC-DC to-be-tested converter 200.

When the AC power outputted from the AC main power supply unit 110 is supplied to the test AC power supply of the AC-DC to-be-tested converter 200, the DC power supplied from the AC- Is fed back to the sub power supply unit 130.

At this time, the controller 140 controls the power conversion operation of the DC-DC bidirectional converter 132 of the sub power unit 130 to convert the fed DC power into another DC power, The power conversion operation is controlled so that the converted other DC power is converted into the AC power and the converted AC power is supplied to the AC power source for testing supplied to the AC-DC tested converter 200 connected to the output terminal of the AC main power unit 110 Re-supply.

5 is an embodiment in which the AC main power supply unit 110 is operated to test the DC-DC to-be-tested converter 200. FIG.

The DC-DC tested converter 200 is connected in parallel with the sub-power supply unit 130 between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120, The DC input terminal of the converter 200 is connected to the output terminal of the AC main power supply unit 110.

The DC-DC test converter 200 is a converter that converts DC power to other DC power using DC power as an input power. Therefore, the controller 140 controls the DC main power supply 110 and the DC main power supply 120, It is desirable to test the DC-DC to-be-tested converter 200 by selecting and operating the DC main power supply unit 120. [

However, in this case, since the DC input terminal of the DC-DC controlled converter 200 is connected to the output terminal of the AC main power supply unit 110, the controller 140 selects the AC main power supply unit 110, The AC main power supply unit 110 operates to output a DC power source capable of testing the DC-DC to-be-tested converter 200.

Accordingly, the tester can conveniently control the DC-DC to-be-tested converter 200 without having to perform an input terminal replacement operation for connecting the DC input terminal of the DC-DC to-DC converter 200 to the output terminal of the DC main power source 120, Can be tested.

In this case, the controller 140 controls the power conversion operation of the AC-DC converter 111 of the AC main power supply unit 110 to convert AC power to DC power, and then converts the power of the first inverter 112 Stops the operation and supplies the converted DC power to the test DC power source of the DC-DC to-be-tested converter 200 via the first inverter 112.

At this time, the first inverter 112 stops the switch on / off operation of the full bridge switching circuit in which the switch on / off operation is controlled by the control signal of the controller 140, and switches the full bridge switching circuit on So that the converted DC power is supplied to the test DC power source of the DC-DC to-be-tested converter 200 via the first inverter 112. [

When the DC power outputted from the AC main power supply unit 110 starts to be supplied to the test DC power supply of the DC-DC controlled converter 200, the DC power supplied from the DC-DC tested converter 200 Is fed back to the sub power supply unit 130.

At this time, the controller 140 controls the power conversion operation of the DC-DC bidirectional converter 132 of the sub power unit 130 to convert the fed DC power into another DC power, The power conversion operation is stopped and the converted other DC power is supplied to the test DC power source supplied to the DC-DC to-be-tested converter 200 connected to the output terminal of the AC main power source unit 110 via the second inverter 131 Re-supply.

At this time, the second inverter 131 stops the switch on / off operation of the full bridge switching circuit in which the switch on / off operation is controlled by the control signal of the controller 140, and switches the full bridge switching circuit on So that the converted other DC power is supplied to the test DC power source supplied to the DC-DC to-be-tested converter 200 connected to the output terminal of the AC main power source unit 110 via the second inverter 131 .

4 and 5, when the AC main power supply unit 110 outputs the AC power or the DC power by the control unit 140, the tester inputs the used input power of the test converter 200 The test converter 200 can be conveniently tested with only the AC main power supply unit 110 without troublesomeness.

FIG. 6 shows an embodiment in which the DC main power supply unit 120 is operated to test the DC-DC to-be-tested converter 200. FIG.

The DC-DC tested converter 200 is connected in parallel with the sub-power supply unit 130 between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120, The DC input terminal of the converter 200 is connected to the output terminal of the DC main power supply unit 120.

The DC-DC test converter 200 is a converter that converts DC power to other DC power using DC power as an input power. Therefore, the controller 140 controls the DC main power supply 110 and the DC main power supply 120, The DC-DC to-be-tested converter 200 is tested by selecting and operating the DC main power supply unit 120.

In this case, the controller 140 controls the power conversion operation of the AC-DC converter 121 of the DC main power supply unit 120 to convert AC power to DC power, And supplies it to the test DC power supply of the test converter 200.

When the DC power outputted from the DC main power supply unit 120 is supplied to the test DC power source of the DC-DC to-be-tested converter 200, the DC power supplied from the DC- Is fed back to the sub power supply unit 130.

At this time, the controller 140 stops the power conversion operation of the second inverter 131 of the sub-power supply 130 and supplies the feedback DC power to the DC-DC bidirectional converter 130 via the second inverter 131 DC converter 132 to control the power conversion operation of the DC-DC bidirectional converter 132 to convert the fed DC power to another DC power source and to supply the converted DC power to the output terminal of the DC main power source unit 120 The test DC power is supplied to the DC-DC test converter 200 again.

At this time, the second inverter 131 stops the switch on / off operation of the full bridge switching circuit in which the switch on / off operation is controlled by the control signal of the controller 140, and switches the full bridge switching circuit on The DC power supplied to the DC-DC converter 200 connected to the output terminal of the DC main power source unit 110 via the second inverter 131 is supplied to the other DC power source .

FIG. 7 shows an embodiment in which the AC main power supply unit 110 is operated to test the AC-DC / DC-DC bidirectional test converter 200.

The AC-DC / DC-DC bidirectional test converter 200 is connected in parallel with the sub-power supply unit 130 between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120, The AC / DC input terminal of the AC-DC / DC-DC bidirectional to-be-tested converter 200 is connected to the output terminal of the AC main power supply unit 110 and the DC input / output terminal thereof is connected to the output terminal of the DC main power supply unit 120 .

As shown in FIG. 7A, the AC-DC / DC-DC bidirectional DUT converter 200 converts the AC power input through the AC / DC input terminal to DC power, ), DC power input through the AC / DC input terminal is converted into another DC power, or DC power input through the DC input / output terminal is converted to another DC power by the DC / To-power converter.

As described above, the AC / DC input terminal of the AC-DC / DC-DC bidirectional to-be-tested converter 200 is connected to the output terminal of the AC main power supply unit 110 and the AC- The controller 140 controls the AC main power supply unit 110 and the DC main power supply unit 120 so that the DC main power supply unit 120 is connected to the DC main power supply unit 120. [ DC / DC-DC bi-directional test converter 200 by supplying the test AC power or the test DC power to the AC-DC / DC-DC bidirectional to-be-tested converter 200 through the AC / DC input terminal The converter 200 can be tested.

The operation of the controller 140 for controlling the AC main power supply 110 and the sub power supply 130 will be described in detail with reference to the embodiments described with reference to FIGS. And can be easily understood by a person skilled in the art.

Alternatively, as described above, the AC / DC input terminal of the AC-DC / DC-DC bidirectional to-be-tested converter 200 is connected to the output terminal of the AC main power source unit 110 and the AC- The control unit 140 controls the DC main power supply unit 120 and the DC main power supply unit 120 so that the DC main power supply unit 120 is connected to the output terminal of the DC main power supply unit 120, DC / DC-DC bidirectional to-be-tested converter 200 by supplying the test DC power to the AC-DC / DC-DC bidirectional test converter 200 through the DC input / (200). ≪ / RTI >

The operation of the control unit 140 for controlling the DC main power supply unit 120 and the sub power supply unit 130 will be described in detail with reference to FIG. Can be easily understood.

4 to 7, the power supply converter testing apparatus 100 according to the present invention distinguishes the input power source used for the converter under test 200 so that the AC main power supply unit 110 ) And the DC main power supply unit 120 can be selected and operated. Therefore, it is possible to use a variety of various input power sources such as an AC-DC converter, a DC-DC converter, and an AC-DC / DC- The test converter 200 can be tested and the output power of the to-be-tested converter 200 is fed back to the sub power supply unit 130 and supplied again to the input power supply of the to-be-tested converter 200, ) Can be reduced.

It is to be understood that the present invention is not limited to the above-described embodiment, and that various modifications and changes may be made thereto without departing from the spirit and scope of the present invention as defined in the following claims. There is a technical spirit to the extent that anyone can make various changes.

100: Converter test device for power supply 110: AC main power supply unit
111: AC-DC converter 112: first inverter
120: DC main power supply unit 121: AC-DC converter
130: Sub power supply unit 131: Second inverter
132: DC-DC bidirectional converter 140:

Claims (5)

delete delete An AC-DC converter 111 for converting an AC power source to a DC power source, and a first inverter 112 for converting DC power of the AC-DC converter 111 to AC power and outputting the AC power to the outside or transmitting the AC power to the outside An AC main power supply unit 110 for supplying a test AC power supply or a test DC power supply to the test converter 200 connected to the output terminal of the first inverter 112;
And a DC main power supply unit 120 comprising an AC-DC converter 121 for converting an AC power source to a DC power source and supplying a test DC power source to the Tester converter 200 connected to the output terminal of the AC- (120);
The AC main power supply unit 110 is connected in parallel with the test converter 200 between the output terminal of the AC main power unit 110 and the output terminal of the DC main power unit 120. One end of the AC main power unit 110 is connected to the output terminal of the AC main power unit 110, A second inverter 131 for converting the DC power to AC power or stopping the power conversion operation to transfer the DC power to the outside and a connection between the output terminal of the second inverter 131 and the DC main power unit 120 And a DC-DC bidirectional converter 132 for performing a power conversion operation to convert the DC power to another DC power source. The DC-DC bidirectional converter 132 outputs feedback from the test converter 200 connected to the output terminal of the AC main power source 110, DC power to an AC power source and supplies the converted AC power to the test AC power source supplied to the test converter 200 or the test converter 200 connected to the output terminal of the AC main power source unit 110 Output The DC power source to be fed back may be converted to another DC power source to supply the converted DC power to the test DC power source supplied to the test converter 200 or to be connected to the test converter 200 connected to the output terminal of the DC main power source unit 120 A sub power supply unit 130 for converting the DC power supplied from the DC power supply unit 120 into another DC power source and re-supplying the converted DC power to the DC power source for testing supplied to the test converter 200; And
When the AC-DC test converter 200 is connected in parallel with the sub-power supply unit 130 between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120, The power conversion operation of the AC-DC converter 111 is controlled to convert AC power to DC power, and then the power conversion operation of the first inverter 112 is controlled to convert the DC power to AC power, DC test converter 200 and supplies the DC power to the sub power supply 130 when the DC power outputted from the AC-DC to-be-tested converter 200 is fed back to the sub power supply unit 130, The DC-DC bidirectional converter 132 of the second inverter 131 to convert the fed DC power into another DC power, and then controls the power conversion operation of the second inverter 131 to supply the converted DC power to the AC power And supplies the converted AC power to the AC main power supply unit 110 A controller 140 for re-supplying the test AC power supplied to the AC-DC tested converter 200 connected to the output terminal;
And a power converter for converting an output voltage of the power converter into an output voltage. An AC-DC converter 111 for converting an AC power source to a DC power source, and a first inverter 112 for converting DC power of the AC-DC converter 111 to AC power and outputting the AC power to the outside or transmitting the AC power to the outside An AC main power supply unit 110 for supplying a test AC power supply or a test DC power supply to the test converter 200 connected to the output terminal of the first inverter 112;
And a DC main power supply unit 120 comprising an AC-DC converter 121 for converting an AC power source to a DC power source and supplying a test DC power source to the Tester converter 200 connected to the output terminal of the AC- (120);
The AC main power supply unit 110 is connected in parallel with the test converter 200 between the output terminal of the AC main power unit 110 and the output terminal of the DC main power unit 120. One end of the AC main power unit 110 is connected to the output terminal of the AC main power unit 110, A second inverter 131 for converting the DC power to AC power or stopping the power conversion operation to transfer the DC power to the outside and a connection between the output terminal of the second inverter 131 and the DC main power unit 120 And a DC-DC bidirectional converter 132 for performing a power conversion operation to convert the DC power to another DC power source. The DC-DC bidirectional converter 132 outputs feedback from the test converter 200 connected to the output terminal of the AC main power source 110, DC power to an AC power source and supplies the converted AC power to the test AC power source supplied to the test converter 200 or the test converter 200 connected to the output terminal of the AC main power source unit 110 Output The DC power source to be fed back may be converted to another DC power source to supply the converted DC power to the test DC power source supplied to the test converter 200 or to be connected to the test converter 200 connected to the output terminal of the DC main power source unit 120 A sub power supply unit 130 for converting the DC power supplied from the DC power supply unit 120 into another DC power source and re-supplying the converted DC power to the DC power source for testing supplied to the test converter 200; And
When the DC-DC converter 200 is connected in parallel with the sub-power supply unit 130 between the output terminal of the AC main power supply unit 110 and the output terminal of the DC main power supply unit 120, The power conversion operation of the AC-DC converter 111 is controlled to convert AC power to DC power, then the power conversion operation of the first inverter 112 is stopped, and the converted DC power is supplied to the first inverter 112. [ DC converter 200 to the test DC power source of the DC-DC controlled converter 200. When the DC power outputted from the DC-DC tested converter 200 is fed back to the sub power supply unit 130, DC converter 132 to convert the fed DC power into another DC power, stop the power conversion operation of the second inverter 131, and supply the converted DC power to the other DC power source And the output of the AC main power supply unit 110 via the second inverter 131 The DC-DC blood controller 140 to re-supply the test DC power supplied to the test converter 200 are connected to;
And a power converter for converting an output voltage of the power converter into an output voltage. An AC-DC converter 111 for converting an AC power source to a DC power source, and a first inverter 112 for converting DC power of the AC-DC converter 111 to AC power and outputting the AC power to the outside or transmitting the AC power to the outside An AC main power supply unit 110 for supplying a test AC power supply or a test DC power supply to the test converter 200 connected to the output terminal of the first inverter 112;
And a DC main power supply unit 120 comprising an AC-DC converter 121 for converting an AC power source to a DC power source and supplying a test DC power source to the Tester converter 200 connected to the output terminal of the AC- (120);
The AC main power supply unit 110 is connected in parallel with the test converter 200 between the output terminal of the AC main power unit 110 and the output terminal of the DC main power unit 120. One end of the AC main power unit 110 is connected to the output terminal of the AC main power unit 110, A second inverter 131 for converting the DC power to AC power or stopping the power conversion operation to transfer the DC power to the outside and a connection between the output terminal of the second inverter 131 and the DC main power unit 120 And a DC-DC bidirectional converter 132 for performing a power conversion operation to convert the DC power to another DC power source. The DC-DC bidirectional converter 132 outputs feedback from the test converter 200 connected to the output terminal of the AC main power source 110, DC power to an AC power source and supplies the converted AC power to the test AC power source supplied to the test converter 200 or the test converter 200 connected to the output terminal of the AC main power source unit 110 Output The DC power source to be fed back may be converted to another DC power source to supply the converted DC power to the test DC power source supplied to the test converter 200 or to be connected to the test converter 200 connected to the output terminal of the DC main power source unit 120 A sub power supply unit 130 for converting the DC power supplied from the DC power supply unit 120 into another DC power source and re-supplying the converted DC power to the DC power source for testing supplied to the test converter 200; And
When the DC-DC converter 200 is connected in parallel with the sub-power-supply unit 130 between the output terminal of the AC main power unit 110 and the output terminal of the DC main power unit 120, Controls the AC-DC converter 121 to convert the AC power to DC power, supplies the converted DC power to the DC power source for testing of the DC-DC to-be-tested converter 200, When the DC power output from the to-be-tested converter 200 is fed back to the sub power supply unit 130, the power conversion operation of the second inverter 131 of the sub power supply unit 130 is stopped and the feedback DC power is supplied to the second DC bidirectional converter 132 via the inverter 131 and then controls the power conversion operation of the DC-DC bidirectional converter 132 to convert the fed back DC power into another DC power, DC power supply unit 120, The control unit 140 to re-supply the test DC power supplied to the test converter 200;
And a power converter for converting an output voltage of the power converter into an output voltage.

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