JP2004248479A - Three-level converter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a three-level converter capable of isolating DC smoothing capacitors from a short-circuit portion when a short-circuit failure occurs, and even capable of isolating an abnormal charging loop from an AC power source. <P>SOLUTION: When a short-circuit failure occurs, protective fuses 28, arranged in the paths connecting AC input points to the middle point of the DC smoothing capacitors 25, 26, are fused by a short-circuit current that flows from the DC smoothing capacitors 25, 26. This structure prevents a subsequent abnormal charging of the DC smoothing capacitors 25, 26 by the AC power source 11 and thereby prevents the expansion of failure damage. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a three-level converter that has three potential outputs of a positive potential, a neutral potential, and a negative potential, and converts an alternating current into a direct current and then into an alternating current having a predetermined frequency.
[0002]
[Prior art]
For example, in a converter / inverter device which once converts AC power into DC power and converts it into AC power of a predetermined frequency, a three-level inverter or a three-level converter of a three-level converter is used in order to reduce the withstand voltage and the harmonics of the main circuit element. A conversion device is used. These three-level converters are converters having three potential outputs of a positive potential, a neutral potential, and a negative potential. In such a three-level converter, a disconnecting circuit or fuse for protection is inserted between the positive DC bus and the first switching element and between the negative DC bus and the fourth switching element. (See Patent Document 1)
FIG. 3 is a circuit diagram of a conventional three-level converter. AC power supply 11 is input to three-level converter 13 via reactor 12. The three-level converter 13 has a positive DC bus 14, a neutral wire 15, and a negative DC bus 16, and each of the U-phase, V-phase, and W-phase has four switching elements 17, 18, 19, 20. Is provided.
[0003]
For example, in the U phase, four switching elements 17U, 18U, 19U, and 20U are connected in series, and a U-phase positive arm fuse 21U is inserted between the positive DC bus 14 and the first switching element 17U. A U-phase negative arm fuse 22U is inserted between the negative DC bus 16 and the fourth switching element 20U. A U-phase positive side clamp diode 23U and a U-phase negative side clamp diode 24U are connected to the second switching element 18U and the third switching element 19U, respectively, so that the neutral wire and the positive DC bus 14 are connected to each other. The positive DC smoothing capacitor 25 is connected between the neutral line and the negative DC bus 16, and the negative DC smoothing capacitor 26 is connected between the neutral line and the negative DC bus 16. .
[0004]
Such a short-circuit fault in the three-level converter 13 mainly has two patterns. The first pattern is, as shown by the solid bold line in FIG. 4, the U-phase first switching element 17U, second switching element 18U, third switching element 19U, and U-phase negative from the positive-side DC smoothing capacitor 25. A short-circuit loop of the positive DC smoothing capacitor 25 is formed through the side clamp diode 24U. At this time, the short-circuit current flowing from the positive DC smoothing capacitor 25 blows the U-phase positive-side arm fuse 21U to disconnect the short-circuit portion. Protect.
[0005]
The second pattern is referred to as a positive-side DC smoothing capacitor 25 from the positive-side DC smoothing capacitor 25 through the W-phase first switching element 17W and the W-phase positive-side clamp diode 23W, as indicated by the thick line in FIG. A short-circuit loop is formed. At this time, the short-circuit current flowing from the positive-side DC smoothing capacitor 25 causes the W-phase positive-side arm fuse 21W to blow and cut off the short-circuited portion for protection.
[0006]
[Patent Document 1]
JP 2001-57782 A (FIG. 8)
[0007]
[Problems to be solved by the invention]
However, even after the U-phase positive-side arm fuse 21U has blown, the U-phase third switching element 19U and the U-phase negative-side clamp diode 24U are short-circuited, so that the U-phase third side switching element 19U has a short-circuit failure as shown by a two-dot chain line in FIG. From the AC power supply 1, the U-phase third switching element 19U, the U-phase negative clamp diode 24U, the negative DC smoothing capacitor 26, the anti-parallel diode of the V-phase fourth switching element 20V, and the V-phase third switching A charging loop is formed that returns to the AC power supply 11 through the anti-parallel diode of the element 19V. As a result, the negative DC smoothing capacitor 26 is charged up to √2 times the AC power supply voltage.
[0008]
In a normal state in which no short-circuit fault has occurred, the positive-side DC smoothing capacitor 25 and the negative-side DC smoothing capacitor 26 connected in series are charged up to √2 times the AC power supply voltage. The voltage that is twice the time will be charged. Since this voltage is also applied to the healthy fourth U-phase switching element 20U, when the AC power supply voltage is high, the fourth U-phase switching element 20U may be damaged by overvoltage.
[0009]
That is, when a short-circuit fault occurs, the DC smoothing capacitors 25 and 26 can be separated from the short-circuited portion, but the abnormal charging loop from the AC power supply 11 cannot be separated, so that the damage may be increased. Was.
[0010]
An object of the present invention is to provide a three-level converter capable of disconnecting a DC smoothing capacitor from a short-circuit point and disconnecting an abnormal charging loop from an AC power supply when a short-circuit fault occurs.
[0011]
[Means for Solving the Problems]
In the three-level converter according to the first aspect of the present invention, a first switching element and a second switching element are connected in series for each of three phases between a positive DC bus and a negative DC bus. Forming a positive side arm, connecting a third switching element and a fourth switching element in series to form a negative side arm, connecting a freewheeling diode to each switching element in anti-parallel, A positive clamp diode is connected between a connection point between the first switching element and the second switching element and a neutral point of the DC smoothing capacitor, and the fourth switching element and the third switching element are connected to each other. A negative clamp diode is connected between the connection point of the switching element and the neutral point of the DC smoothing capacitor, and the three-phase AC power supplied from the AC power supply is supplied to the DC power supply. In a three-level converter for converting into, for each phase, on the line connecting the neutral point of the AC input point of the AC power supply, the second switching element, the positive clamp diode, the DC smoothing capacitor, Further, a protection fuse is provided on a line connecting the neutral point of the AC input point of the AC power supply, the third switching element, the negative clamp diode, and the DC smoothing capacitor.
[0012]
In the three-level converter according to the first aspect of the present invention, when a short circuit occurs, the protection fuse installed in the path connecting the AC input point and the middle point of the DC smoothing capacitor is blown by the short-circuit current flowing from the DC smoothing capacitor. . For this reason, abnormal charging of the DC smoothing capacitor from the AC power supply thereafter is prevented, and failure damage is not increased.
[0013]
In a three-level converter according to a second aspect of the present invention, in the first aspect of the present invention, the protection fuse includes, for each phase, a connection point between the positive clamp diode and the negative clamp diode; Characterized by being provided on a line connecting the neutral point.
[0014]
In the three-level converter according to the second aspect of the invention, when a short circuit occurs, the protection fuse provided between the positive and negative clamp diodes and the midpoint of the DC smoothing capacitor is blown by the short-circuit current flowing from the DC smoothing capacitor. For this reason, abnormal charging from the AC power supply thereafter is prevented, and damage to failure is not increased.
[0015]
In the three-level converter according to the third aspect of the present invention, a first switching element and a second switching element are connected in series for each of three phases between a positive DC bus and a negative DC bus. To form a negative arm by connecting a third switching element and a fourth switching element in series to form a negative arm, and connect a freewheeling diode to each switching element in anti-parallel. An arm fuse is connected between the positive side DC bus and the first switching element for each phase, and an arm fuse is connected between a connection point between the arm fuse and the first switching element and the negative side DC bus. The DC smoothing capacitor is connected to the first switching element and the second switching element. A negative clamp diode between a connection point of the fourth switching element and the third switching element and a neutral point of the DC smoothing capacitor; Connecting a protection fuse on a line connecting a connection point of the negative side clamp diode and a neutral point of the DC smoothing capacitor, and converting three-phase AC power supplied from an AC power supply into DC power. I do.
[0016]
In the three-level converter according to the third aspect of the present invention, when a short circuit occurs, the protection fuse provided between the positive and negative clamp diodes and the midpoint of the DC smoothing capacitor is blown by the short-circuit current flowing from the DC smoothing capacitor. Thereafter, abnormal charging from the AC power supply 11 is prevented, and damage to failure is not increased. Furthermore, if the fourth switching element is also short-circuited and a short circuit between the positive side and the negative side (PN short circuit) occurs, a short circuit from the DC smoothing capacitor of another arm connected to the same DC bus. By blowing the arm fuse with the electric current, it is possible to prevent the damage from failure from spreading to other healthy phases.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described. FIG. 1 is a circuit diagram of a three-level converter according to the first embodiment of the present invention. As shown in FIG. 1, three-phase AC power is supplied from an AC power supply 11 to a three-level converter 13 via a reactor 12. The three-level converter 13 has a positive DC bus 14, a neutral wire 15, and a negative DC bus 16, and each of the U-phase, V-phase, and W-phase has four switching elements 17, 18, 19, 20. Is provided. The first switching element 17 and the second switching element 18 are connected in series to form a positive arm, and the third switching element 19 and the fourth switching element 20 are connected in series to form a negative arm. Forming a side arm. A freewheeling diode 27 is connected in anti-parallel to each switching element 17, 18, 19, 20 of each phase.
[0018]
For example, the U phase is configured as follows. A first switching element 17U, a second switching element 18U, a third switching element 19U, and a fourth switching element 20U are connected in series between the positive DC bus 14 and the negative DC bus 16. Connected. A series connection of a U-phase positive clamp diode 23U and a U-phase negative clamp diode 24U is connected in parallel with the series connection of the second switching element 18U and the third switching element 19U. Further, a connection point between the positive DC smoothing capacitor 25 and the negative DC smoothing capacitor 26 is connected to a connection point between the positive negative clamp diodes 23U and 24U via a protection fuse 28U. The V phase and the W phase have the same configuration as the U phase.
[0019]
In this configuration, when a short-circuit fault occurs in the switching elements 17, 18, 19, and 20, an accident generally occurs through one of the short-circuit paths according to the short-circuit fault pattern shown in FIG. 4 or FIG. . What should be noted in this case is that the common part of the short-circuit path is a line connecting the midpoint of the positive and negative clamp diodes 23 and 24 and the midpoint of the positive and negative smoothing capacitors 25 and 26. Therefore, the protection fuses 28U, 28V, 28W are connected to this position for each phase, so that the damage caused by overcharging after the failure of the switching elements 17, 18, 19, 20 can be prevented.
[0020]
Here, in the above description, the protection fuse 28 is provided for each phase on a line connecting the connection point between the positive clamp diode 23 and the negative clamp diode 24 and the neutral point of the DC smoothing capacitors 25 and 26. However, in each phase of the short-circuit path formed at the time of occurrence of the short-circuit accident, any position on the line connecting the AC input point to the middle point of the DC smoothing capacitors 25 and 26 may be used. , 28V, 28W. In this case, except for the protective fuses 28U, 28V, and 28W inserted between the midpoints of the positive and negative clamp diodes 23 and 24 and the midpoints of the positive and negative DC smoothing capacitors 25 and 26, a DC short circuit on the positive and negative sides. Therefore, it is necessary to connect one protection fuse effective for each of the positive short-circuit and the negative short-circuit with the neutral wire 15 interposed therebetween.
[0021]
Thus, for each phase, on the line connecting the AC input point of the AC power supply 11, the second switching element 18, the positive clamp diode 23, and the neutral point of the DC smoothing capacitors 25 and 26, and When the protection fuse 28 is provided on the line connecting the neutral point of the AC input point of the AC power supply 11, the third switching element 19, the negative clamp diode 24, and the DC smoothing capacitors 25 and 26, a DC short circuit occurs. The connection between the failed phase and the midpoint of the DC smoothing capacitors 25 and 26 can be immediately cut off, and the connection between the DC bus and the failed phase can also be cut off.
[0022]
According to the first embodiment, a protection fuse installed in an arbitrary path connecting an AC input point and a middle point of the DC smoothing capacitors 25 and 26 with a short-circuit current flowing from the DC smoothing capacitors 25 and 26 when a short-circuit accident occurs. Since the fuse 28 is blown, the subsequent abnormal charging from the AC power supply 11 can be prevented, and the damage due to the failure is not increased.
[0023]
Next, a second embodiment of the present invention will be described. FIG. 2 is a circuit diagram of a three-level converter according to a second embodiment of the present invention. This second embodiment is different from the first embodiment shown in FIG. 1 in that DC smoothing capacitors 25 and 26 are provided for each phase, and the positive DC bus 14 and the first switching are connected. The configuration is such that arm fuses 29U, 29V, and 29W are added between the device and the element 17.
[0024]
In this configuration, when a short-circuit fault occurs in the switching elements 17, 18, 19, 20 as in the first embodiment, the middle point of the positive and negative clamp diodes 23, 24 and the positive and negative DC smoothing capacitors 25, 26 When the protective fuses 28U, 28V, 28W installed on the line connecting the midpoint are blown, the connection between the failed phase and the midpoint of the DC smoothing capacitors 25, 26 can be immediately cut off. Further, the connection between the DC buses 14 and 16 and the failed phase can be cut off.
[0025]
Here, even if all four switching elements 17, 18, 19, and 20 arranged in series between the positive DC bus 14 and the negative DC bus 16 are short-circuited, the positive DC bus Since the arm fuse 29 provided between the first switching element 17 and the first switching element 17 is blown by the inflow current from the other two-phase DC smoothing capacitors 25 and 26, the connection between the DC buses 14 and 16 and the short-circuit phase is prevented. Connection can be interrupted.
[0026]
In the above description, the case where the arm fuse 29 is connected between the positive side DC bus 14 and the first switching element 17 has been described, but the case where the arm fuse 29 is connected between the negative side DC bus 16 and the fourth switching element 20 is described. May be connected to the arm fuse 29.
[0027]
According to the second embodiment, a short-circuit current flowing from the DC smoothing capacitors 25 and 26 at the time of occurrence of a short-circuit accident is provided between the positive and negative clamp diodes 23 and 24 and the center point of the positive and negative DC smoothing capacitors 25 and 26. Since the protective fuse 28 is blown, abnormal charging from the AC power supply 11 can be prevented. Also, even if the fourth switching element 20 is short-circuited and a short-circuit on the positive and negative sides (PN short-circuit) occurs, the DC smoothing capacitors 25 and 26 of the other phases connected to the same DC bus do not. Since the arm fuse 29 is blown by the short-circuit current, it is possible to prevent the damage from damage to other healthy phases.
[0028]
【The invention's effect】
As described above, according to the present invention, even if a short-circuit fault occurs in any one of the switching elements of the three-level converter, the DC smoothing capacitor on one of the positive and negative sides is charged with the full AC rectified voltage. This can prevent the spread of accidents such as voltage destruction of sound switching elements.
[Brief description of the drawings]
FIG. 1 is a circuit diagram of a three-level converter according to a first embodiment of the present invention.
FIG. 2 is a circuit diagram of a three-level converter according to a second embodiment of the present invention.
FIG. 3 is a circuit diagram of a conventional three-level converter.
FIG. 4 is an explanatory diagram of an example of a fault short-circuit pattern in a conventional three-level converter.
FIG. 5 is an explanatory diagram of another example of a fault short-circuit pattern in a conventional three-level converter.
FIG. 6 is an explanatory diagram of a malfunction operation when a fault short circuit occurs in a conventional three-level converter.
[Explanation of symbols]
11 AC power supply, 12 reactor, 13 level converter, 14 positive DC bus, 15 neutral wire, 16 negative DC bus, 17 first switching element, 18 second power Switching element, 19: Third switching element, 20: Fourth switching element, 21: Positive arm fuse, 22: Negative arm fuse, 23: Positive clamp diode, 24: Negative clamp diode, 25 … Positive DC smoothing capacitor, 26… Negative DC smoothing capacitor, 27… Freewheeling diode, 28… Protective fuse, 29… Arm fuse

Claims (3)

The first switching element and the second switching element are connected in series between the positive DC bus and the negative DC bus for each of the three phases to form a positive arm, A switching element and a fourth switching element are connected in series to form a negative arm, and a freewheeling diode is connected in anti-parallel to each switching element, and the first switching element and the second switching element are connected to each other. A positive clamp diode is connected between a connection point with the switching element and a neutral point of the DC smoothing capacitor, and a connection point between the fourth switching element and the third switching element and a DC smoothing capacitor. In a three-level converter that connects a negative clamp diode between a neutral point and converts three-phase AC power supplied from an AC power source into DC power, For each, on the line connecting the neutral point of the AC input point of the AC power supply, the second switching element, the positive clamp diode, and the DC smoothing capacitor, and the AC input point of the AC power supply, 3. A three-level converter, wherein a protection fuse is provided on a line connecting a neutral point of the third switching element, the negative clamp diode, and the DC smoothing capacitor. The protection fuse is provided on a line connecting a connection point between the positive side clamp diode and the negative side clamp diode and a neutral point of the DC smoothing capacitor for each phase. 3. The three-level converter according to 1. The first switching element and the second switching element are connected in series between the positive DC bus and the negative DC bus for each of the three phases to form a positive arm, A switching element and a fourth switching element are connected in series to form a negative arm, a freewheeling diode is connected to each switching element in anti-parallel, and the positive DC bus and the first switching element are connected for each phase. An arm fuse connected between the first switching element and the connection point between the arm fuse and the first switching element, and the DC smoothing capacitor connected between the negative DC bus; A positive clamp diode is connected between a connection point of the second switching element and the second switching element and a neutral point of the DC smoothing capacitor, and the fourth switch is connected to the fourth switching element. A negative clamp diode is connected between a connection point between the switching element and the third switching element and a neutral point of the DC smoothing capacitor, and a connection point between the positive clamp diode and the negative clamp diode is provided. A three-level converter comprising a protection fuse connected to a line connecting a neutral point of the DC smoothing capacitor and converting three-phase AC power supplied from an AC power supply into DC power.

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