KR101179128B1 - Short current detecting circuit - Google Patents

Abstract

The present invention discloses a short circuit current detection circuit. In one embodiment, in a short circuit current detection circuit of an inverter consisting of six semiconductor power switching elements, a positive potential wiring and a negative potential wiring, the short circuit current detection device is present in the positive potential wiring or the negative potential wiring of the inverter. Detecting the voltage by the inductance component to detect the short-circuit current of the high-capacity inverter to detect the presence or absence of the short-circuit current by detecting the voltage caused by the inductance component of the positive or negative potential wiring of the three-phase inverter composed of the switching element for semiconductor power It can be detected.

Description

Short current detecting circuit

The present invention relates to a short circuit current detection circuit, and more particularly, to a short circuit current detection circuit for detecting a short circuit current in the event of a short circuit caused by a failure of a switching element for semiconductor power of a three-phase inverter and a short circuit on a motor.

In general, an inverter refers to a power conversion device that converts a DC power source into an AC power source using a switching element for semiconductor power and a filter such as an inductor and a capacitor.

These inverters can be divided into household and industrial according to their use.

Dual industrial three-phase inverters are composed of six semiconductor power switching elements such as bipolar transistors, field effect transistors (FETs), insulated gate bipolar transistors (IGBTs), and gate turn-off (GTO) thyristors. Implemented in the form of a module

The three-phase inverter applies the voltage of the sine wave modulated by the square wave to the motor 17 by adjusting the on-off time for the six semiconductor power switching elements SW by the switching element driving circuit. The sine wave current is supplied to the motor 17 by this.

Since the short-circuit current may occur due to the failure of the switching element for semiconductor power, the short-circuit of the motor, etc., the three-phase inverter may be provided with a detection circuit for detecting the short-circuit current.

The conventional short-circuit current detection circuit detects an abnormal current exceeding the allowable current value of the semiconductor power switching element due to a short circuit caused by a failure of the semiconductor switching element of the three-phase inverter or an inter-phase short circuit on the motor side.

When the short-circuit current is detected by such a short-circuit current detection circuit, the switching element driving circuit interrupts the output of the switching element for semiconductor power of the inverter to stop the three-phase inverter.

1 is a short circuit current detection circuit diagram of a conventional three-phase inverter.

As shown in FIG. 1, in the conventional three-phase inverter, three semiconductor power switching elements 15-1, 15-3, and 15-5 are connected to a positive potential wiring to which a positive potential is applied, and negative ( -) Three semiconductor power switching elements 15-2, 15-4, and 15-6 are connected to the negative potential wiring to which the potential is applied.

And three semiconductor power switching elements 15-1, 15-3 and 15-5 connected to the positive potential wiring and three semiconductor power switching elements 15-2, 15-4 and 15 connected to the negative potential wiring. -6 is paired and connected to the motor 17.

In addition, the semiconductor power switching elements 15-1 to 15-6 of the three-phase inverter are switched by a drive signal provided from the switching element driving circuit 19 to apply a sine wave current to the motor 15.

In addition, the three-phase inverter is composed of a rectifying unit for rectifying the AC power input from the AC input power 11 and a capacitor (C) for smoothing the rectified power to be connected to the DC power supply unit 13 for converting the AC power into DC power. Can be.

The short-circuit current detection circuit connected to the three-phase inverter has a plurality of watt resistors 21 connected in parallel between the DC power supply unit 13 and the inverter 15 and between the both ends of the plurality of watt resistors 21 connected in parallel. The amplification unit 22 for detecting and amplifying the voltage and the voltage amplified by the amplifying unit 22 are compared with a reference voltage, and when the amplified voltage exceeds the reference voltage, a signal for stopping the inverter 15 is sent to the CPU 30. Comparing unit 23 provided to).

In this case, medium-capacity three-phase inverter usually consumes more than 50A of current, but when short-circuit current occurs, current flows more than 5 ~ 10 times of rated current.

Since the value of such short-circuit current is quite large, a single watt resistor cannot afford it, and a plurality of parallel currents are used in parallel.

Therefore, in the short-circuit current detection circuit of the conventional three-phase inverter, the number of wattage resistors must be plural, which causes a problem of reducing the size of the three-phase inverter.

In addition, since the short-circuit current detection circuit of the conventional three-phase inverter uses a watt resistor to detect the short-circuit current, heat generation occurs in the watt resistance due to the short-circuit current. There is a problem of this deterioration.

The present invention is to solve the above-mentioned problems, in detecting the short-circuit current of the three-phase inverter, the presence or absence of a short-circuit current by detecting the voltage by the inductance component of the inverter positive potential wiring or negative potential wiring composed of a switching element for semiconductor power It is an object of the present invention to provide a short-circuit current detection circuit that detects.

In addition, the present invention is to detect the short-circuit current of the three-phase inverter by detecting the short-circuit current of the inverter without connecting a watt resistor for detecting the short-circuit current separately to reduce the components for the short-circuit current to implement a small three-phase inverter It is another object to provide a possible short circuit current detection circuit.

Another object of the present invention is to provide a short circuit current detection circuit in which heat generation in the inverter is reduced since the watt resistance is not used as the short circuit current detection means.

In one aspect of the short-circuit current detection circuit of the present invention is a short-circuit current detection circuit of the inverter consisting of six semiconductor power switching elements, a positive potential wiring and a negative potential wiring, the short circuit current detection device, the positive potential wiring of the inverter Or the voltage by the inductance component which exists in the said negative potential wiring is detected.

At this time, the short-circuit current detection device, an amplifier for detecting and amplifying the voltage caused by the inductance component present in the positive potential wiring or negative potential wiring of the inverter; And a comparison unit configured to compare the voltage amplified by the amplifier with a reference voltage and output a signal so that the inverter does not operate when the amplified voltage is greater than the reference voltage.

On the other hand, the inverter is modularized, the positive potential input pin connected to the positive potential wiring, the negative potential input pin connected to the negative potential wiring and the draw used as the ground of the gate signal for turning on / off the switching element for semiconductor power of the inverter A pin may be provided, and the amplifier may be connected to the negative potential input pin and the draw pin of the inverter.

With the above-described configuration, the short circuit current detection circuit according to the present invention detects the voltage caused by the inductance component of the positive potential or the negative potential wiring of the inverter constituted by the switching element for semiconductor power in detecting the short circuit current of the high capacity inverter. Has an excellent effect of detecting.

The present invention can detect short circuit current of a high capacity inverter by detecting the short circuit current of the inverter without connecting a watt resistor for short circuit current detection. There is.

Since the present invention does not use the watt resistance as the short-circuit current detecting means, there is another excellent effect of reducing the heat generation in the inverter.

1 is a circuit diagram showing the configuration of a short circuit current detection circuit of a conventional three-phase inverter.
2 is a circuit diagram showing the configuration of a short-circuit current detection circuit according to the present invention.
3 is a diagram illustrating a configuration of a short circuit current detection circuit according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the present invention.

2 is a circuit diagram showing the configuration of a short circuit current detection circuit according to the present invention.

As illustrated in FIG. 2, the short-circuit current detection circuit 100 according to an embodiment of the present invention detects a voltage due to an inductance component present in the positive potential wiring or the negative potential wiring of the three-phase inverter 15, and amplifies the voltage. The unit 110 and the comparison unit 120 is included.

The amplifier 110 detects a voltage caused by an inductance component present in the positive potential wiring or the negative potential wiring of the three-phase inverter 15, and then amplifies and applies the voltage to the comparator 120.

In addition, the comparator 120 compares the voltage amplified by the amplifier 110 with a reference voltage and outputs a signal for turning off the semiconductor power switching element of the three-phase inverter when the amplified voltage exceeds the reference voltage. 30).

This operation of the short circuit current detection circuit according to the present invention will be described.

First, the AC power applied from the AC input power 11 is converted into a DC power by the DC power supply unit 13, and is a three-phase inverter including six semiconductor power switching elements 15-1 to 15-6. Is applied to (15). At this time, the six semiconductor power switching elements 15-1 to 15-6 in the three-phase inverter 15 are switched under the control of the switching element drive circuit 19.

Thereafter, the three-phase inverter 15 to which the DC power is applied by the DC power supply unit 13 converts the DC power into AC power using six semiconductor power switching elements 15-1 to 15-6. 17). Here, the insulating power bipolar transistor IGBT may be used as the switching elements 15-1 to 15-6 for the semiconductor power. A free wheeling diode is connected between the emitter and the collector of the all-pole bipolar transistor.

On the other hand, the amplifier 110 detects a voltage due to an inductance component present in the positive potential wiring or the negative potential wiring of the three-phase inverter 15 and applies it to the comparator 120.

In general, the inductance of a three-phase inverter positive potential wiring or negative potential wiring is 1 to 5 nH. A current of about 100 A flows through the three-phase inverter 15. When a short circuit current occurs, a current of about 500 to 1000 A usually flows. At this time, the short-circuit current normally rises to a peak value at 1 to 2 mA and saturates within 10 mA.

Therefore, the amplifier 110 normally applies an inductance voltage (0.1V) to the comparator 120 as shown in [Equation 1].

On the other hand, when a short-circuit current occurs in the three-phase inverter 15 or the motor 17, the amplifier 110 detects the voltage (0.5 V or more) caused by the inductance component as shown in [Equation 2] and then amplifies it. To be applied to the comparator 120.

Then, the comparator 120 compares the voltage amplified by the amplifier 110 with the reference voltage (5V) and the six semiconductor power switching elements of the three-phase inverter (15) when the amplified voltage is higher than the reference voltage ( 15-1 to 15-6 are provided to the CPU 30 to turn off.

Then, the CPU 30 can protect the three-phase inverter 15 by not outputting a gate signal in the three-phase inverter 15.

The short circuit current detection circuit according to another embodiment of the present invention is connected to a modular three-phase inverter 15 as shown in FIG. In this case, three semiconductor power switching elements 15-1, 15-3, and 15-5 are connected to the positive potential wire to which the positive potential is applied in the modular three-phase inverter 15.

At one end of the positive potential wiring, a positive potential input pin 22_P1 connected to the positive potential portion of the DC power supply unit 13 is formed.

In addition, three semiconductor power switching elements 15-2, 15-4, and 15-6 are connected to the negative potential wiring to which the negative potential is applied.

At one end of the negative potential wiring, a negative potential input pin 24_N1 connected to the negative potential of the DC power supply unit 13 is formed.

And three semiconductor power switching elements 15-1, 15-3 and 15-5 connected to the positive potential wiring and three semiconductor power switching elements 15-2, 15-4 and 15 connected to the negative potential wiring. -6 is paired and connected to the motor 17.

In addition, a ground pin En_10 used as a ground of a gate signal for turning on / off the switching of each semiconductor power switching element 15-1 or 15-6 is provided in the negative potential wiring of the modular three-phase inverter 15. Connected.

The amplifier 110 connected to the three-phase inverter 15 is connected to the negative potential input pin N1_24 and the ground pin En_10 connected to the negative potential wiring of the modular three-phase inverter 15.

The amplifier 110 detects and amplifies the voltage caused by the inductance component of the negative-phase wiring of the three-phase inverter 15 and applies it to the comparator 120.

Then, the comparator 120 of the short-circuit current detection device 100 compares the voltage amplified by the amplifier 110 with a reference voltage (5V), and when the amplified voltage is greater than or equal to the reference voltage, the 6 of the three-phase inverter 15 A signal is provided to the CPU 30 for turning off the two semiconductor power switching elements 15-1 to 15-6.

Therefore, the CPU 30 may protect the three-phase inverter 15 by not outputting a gate signal in the three-phase inverter 15.

Although the foregoing detailed description has shown, described, and mentioned the basic novel features of the invention as applied to the various embodiments, various omissions, substitutions, and changes in the form and details of the illustrated system may be made without departing from the intention of the invention. It will be appreciated that changes may be made by those skilled in the art.

11: AC input power 13: DC power supply
15-1 to 15-6: switching element for semiconductor power
15: three-phase inverter 17: motor
19: switching element drive circuit
100: short circuit current detection device 110: amplifier
120: comparison unit

Claims (3)

In the inverter short circuit current detection circuit consisting of six semiconductor power switching elements, positive potential wiring and negative potential wiring,
The short circuit current detection circuit,
And a voltage detected by an inductance component present in the positive potential wiring or the negative potential wiring of the inverter.
The method of claim 1,
The short circuit current detection circuit,
An amplifier for detecting and amplifying a voltage caused by an inductance component present in the positive potential wiring or the negative potential wiring of the inverter; And
And a comparator for comparing a voltage amplified by the amplifier with a reference voltage and outputting a signal so that the inverter does not operate when the amplified voltage is greater than the reference voltage.
The method of claim 2,
The inverter is modularized and includes a positive potential input pin connected to a positive potential wire, a negative potential input pin connected to a negative potential wire, and a draw pin used as a ground of a gate signal for turning on / off a switching element for semiconductor power of the inverter. Have it,
The amplifying unit is a short circuit current detection circuit, characterized in that connected to the negative potential input pin and the drip pin of the inverter.

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