JPH0530756A - Converter circuit - Google Patents

Abstract

PURPOSE:To prevent damage of an electronic component due to a rush current by preventing occurrence of a mode to become a low impedance at the time of line-to-ground. CONSTITUTION:A rectifier D is connected between DC output terminals, and a circuit of series connection of a parallel connection circuit of a resistor 4a and a relay 5a and a smoothing capacitor 3 is connected between the terminals. Since a resistor for limiting a rush current to the capacitor is connected in series with the capacitor, a large current due to a ground-fault can be suppressed. Accordingly, damage of a component due to the line-to-ground fault can be prevented, and a converter circuit having high reliability is obtained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a converter circuit, and more particularly to a converter circuit which prevents an overcurrent from flowing when a ground fault occurs.

[0002]

2. Description of the Related Art FIG. 3 is a block diagram of a motor drive device using a conventional converter circuit. The switch (1) supplies / shuts off AC power to the converter circuit (52).

The converter circuit (52) is a rectifier (D).
And a limiting resistor (4b), a relay (5b) and a smoothing capacitor (3). The rectifier (D) rectifies AC power. The limiting resistor (4b) suppresses an inrush current to the smoothing capacitor (3) during the closing operation of the switch (1). The relay (5b) short-circuits the limiting resistance (4b) at times other than the closing operation of the switch (1). This eliminates the power consumption of the limiting resistor (4b) when the switch (1) is not closed.
The smoothing capacitor (3) smoothes the output of the rectifier (D).

The inverter circuit (6) converts the electric power converted into direct current by the converter circuit (52) into alternating current power, and drives and controls the electric motor (7).

FIG. 4 is an explanatory view showing a state in which the switch (1) is closed when a ground fault occurs on the load side. The AC power supply (8) is a three-phase AC power supply connected to the switch (1), and S
Assume that the phase is grounded. Further, it is assumed that the W phase is ground-faulted at the connecting portion from the inverter circuit (6) to the electric motor (7).

First, the case where the R-phase potential is high and the S-phase potential is low in the AC power supply (8) will be described. When the switch (1) is turned on, the inrush current (iRS2) passes through the switch (1) from the R phase of the AC power supply (8), and the diode (D
1), the limiting resistor (4b), the smoothing capacitor (3), the diode (D12) of the inverter circuit (6), the W phase ground fault of the electric motor (7), and the S phase of the AC power supply (8). It flows in the path of the ground wire. At this time, since the rush current (iRS2) to the smoothing capacitor (3) is flowing through the limiting resistor (4b), it can be suppressed below a certain current value.

Next, the case where the R-phase potential is low and the S-phase potential is high in the AC power supply (8) will be described. The inrush current (iSR2) passes through the S-phase ground wire of the AC power supply (8), the W-phase ground fault of the electric motor (7), the diode (D11) of the inverter circuit (6), the smoothing capacitor (3), It flows to the R phase of the AC power supply (8) via the diode (D2) and the switch (1). At this time, the inrush current (iSR2) to the smoothing capacitor (3) does not pass through the limiting resistor (4b), and thus becomes an excessive current.

[0008]

As described above, the conventional converter circuit (52) has a mode in which the impedance becomes low when the power is turned on in the ground fault state.
Therefore, there is a problem that an excessive current flows and the switch (1), the rectifier (D), and the inverter circuit (6) are damaged.

The present invention has been made in order to solve the above problems, and prevents the occurrence of a mode in which the impedance becomes low at the time of a ground fault and prevents damage to electronic components due to an inrush current. The purpose is to obtain a converter circuit that can.

[0010]

SUMMARY OF THE INVENTION The converter circuit of the present invention connects a rectifier between DC output terminals and its D
A characteristic of the configuration is that a circuit in which a parallel connection circuit of a resistor and a relay and a smoothing capacitor are connected in series is connected between the C output terminals.

[0011]

In the converter circuit of the present invention, since the circuit in which the parallel connection circuit of the resistor and the relay and the smoothing capacitor are connected in series is connected between the DC output terminals, the inrush current to the smoothing capacitor always passes through the resistor. Does not become low impedance. Therefore, it is possible to prevent the damage of the electronic component due to the inrush current to the smoothing capacitor.

[0012]

The present invention will be described in more detail with reference to the embodiments shown in the drawings. However, this does not limit the present invention. FIG. 1 is a block diagram of an electric motor drive control device using a converter circuit (2) according to an embodiment of the present invention. The switch (1) supplies / shuts off AC power to the converter circuit (2).

The converter circuit (2) comprises a rectifier (D), a limiting resistor (4a), a relay (5a) and a smoothing capacitor (3). The rectifier (D) rectifies AC power. The limiting resistor (4a) suppresses an inrush current to the smoothing capacitor (3) during the closing operation of the switch (1). The relay (5a) short-circuits the limiting resistance (4a) at times other than the closing operation of the switch (1). This eliminates the power consumption of the limiting resistor (4a) when the switch (1) is not closed.
The smoothing capacitor (3) smoothes the output of the rectifier (D).

The inverter circuit (6) converts the electric power converted into DC by the converter circuit (2) into AC power,
It controls the drive of the electric motor (7).

FIG. 2 is an explanatory view showing a state in which the switch (1) is closed when a ground fault occurs on the load side. The AC power supply (8) is a three-phase AC power supply connected to the switch (1), and S
Assume that the phase is grounded. Further, it is assumed that the W phase is ground-faulted at the connecting portion from the inverter circuit (6) to the electric motor (7).

First, the case where the R-phase potential is high and the S-phase potential is low in the AC power supply (8) will be described. When the switch (1) is turned on, the inrush current (iRS1) passes from the R phase of the AC power supply (8) through the switch (1) and the diode (D
1), the limiting resistor (4a), the smoothing capacitor (3), the diode (D12) of the inverter circuit (6), the W phase ground fault of the electric motor (7), and the S phase of the AC power supply (8). It flows in the path of the ground wire. At this time, the rush current (iRS1) to the smoothing capacitor (3) is flowing through the limiting resistor (4a), so that it can be suppressed below a certain current value.

Next, the case where the R-phase potential is low and the S-phase potential is high in the AC power supply (8) will be described. The inrush current (iSR1) passes through the S-phase ground wire of the AC power supply (8), the W-phase ground fault of the electric motor (7), the diode (D11) of the inverter circuit (6), the limiting resistor (4a), It flows through the smoothing capacitor (3), diode (D2) and switch (1) to the R phase of the AC power supply (8). At this time as well, the inrush current (iSR1) to the smoothing capacitor (3) passes through the limiting resistance (4a), so that it does not become an excessive current.

According to the converter circuit (2) described above, it is possible to prevent the damage of the electronic component due to the inrush current to the smoothing capacitor (3).

In the above embodiment, the input is a three-phase alternating current, but it may be a single phase. Moreover, although the transistor is used in the inverter circuit (6), the thyristor, the FET,
Other drive elements such as IGBT may be used. The electric motor (7) is also a three-phase AC electric motor, but a single-phase electric motor has the same effect.

[0020]

According to the converter circuit of the present invention, since the resistor for limiting the inrush current to the smoothing capacitor is connected in series with the smoothing capacitor, it is possible to suppress the generation of a large current due to a ground fault. Therefore, it is possible to prevent damage to the components due to a ground fault, and to obtain a highly reliable converter circuit.

[Brief description of drawings]

FIG. 1 is a block diagram showing an apparatus using a converter circuit according to an embodiment of the present invention.

FIG. 2 is an equivalent circuit diagram showing a current path when a ground fault occurs in the converter circuit of FIG.

FIG. 3 is a block diagram showing an example of an apparatus using a conventional converter circuit.

FIG. 4 is an equivalent circuit diagram showing a current path of the converter circuit of FIG. 3 when a ground fault occurs.

[Explanation of symbols]

 1 switch 2 converter circuit D rectifier 3 smoothing capacitor 4 limiting resistance 5 relay 6 inverter circuit 7 electric motor 8 AC power supply

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[Procedure amendment]

[Submission date] November 1, 1991

[Procedure Amendment 1]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 3

[Correction method] Change

[Correction content]

[Figure 3]

Claims (1)

Claim: What is claimed is: 1. A rectifier is connected between DC output terminals, and a circuit in which a parallel connection circuit of a resistor and a relay and a smoothing capacitor are connected in series is connected between the DC output terminals. Characteristic converter circuit.