KR101206888B1 - Inverter Test Apparatus And Inverter Testing Method - Google Patents

Abstract

The present invention relates to an inverter test apparatus for a KTX vehicle air conditioner, and generates a PWM (Pulse Width Modulation) adjustment signal and a test start / stop signal for a failure test of the KTX vehicle air conditioner inverter, and transmits them to the interface according to the test conditions. A control computer that receives an operation signal of the air conditioning inverter according to the PWM adjustment signal from the interface and determines whether the air conditioning inverter is broken; An interface for transmitting a PWM adjustment signal and a test start / stop signal transmitted from the control computer to the air conditioning inverter and transmitting an operation signal according to the PWM adjustment signal measured from the air conditioning inverter to the control computer; A power supply unit supplying power to the interface and the air conditioning inverter according to the control of the control computer; It includes a load test part that consumes the power supplied to the air conditioning inverter.
According to the present invention as described above, the air conditioning inverter, a core part of the KTX vehicle can be tested by using a control computer, and the part tests can be performed by applying an interface technology that links software and hardware to test similar parts. It can be extended to the device.

Description

Inverter Test Apparatus And Inverter Testing Method

The present invention relates to an inverter test apparatus and a method for failure testing an inverter for a KTX (high speed rail) vehicle carriage air conditioner.

In general, an inverter for a KTX vehicle air conditioner is a device for converting DC power into AC power, and means a power converter for controlling voltage and frequency of AC power. As such, the inverter performs a function of controlling the rotational speed of the induction motor (load), for example.

FIG. 5 relates to an inverter motor control circuit of an inverter air conditioner according to the prior art, and includes a power element (IGBT) or a power module element (P1 to P6) that is provided in the inverter motor control circuit to operate when an air conditioner is driven. As a result of the abnormal operation, a fault signal is output to the microcomputer, and the microcomputer which has received the fault signal controls the driving of the inverter air conditioner to be stopped. (See Patent No. 10-0452993)

However, such a conventional inverter motor control circuit is provided in the inverter air conditioner and is intended to stop driving during abnormal operation. There is no test apparatus and method for performance test for maintenance of the inverter.

Accordingly, the inverter test apparatus and test method were required to allow regular maintenance through the failure test of the inverter for the KTX vehicle air conditioner.

SUMMARY OF THE INVENTION The present invention has been made to solve the above requirements, and provides an inverter test apparatus and test method for a KTX vehicle air conditioner which can maintain the inverter by failure testing an inverter for a KTX vehicle air conditioner using a control computer and an interface. Its purpose is to.

In order to achieve the above object, an inverter test apparatus for a KTX vehicle air conditioner according to the present invention generates a PWM (Pulse Width Modulation) adjustment signal and a test start / stop signal for a failure test of a KTX vehicle air conditioner according to a test condition. A control computer which transmits to the interface and receives an operation signal of the air conditioning inverter according to the PWM adjustment signal from the interface to determine whether the air conditioning inverter is broken; An interface for transmitting a PWM adjustment signal and a test start / stop signal transmitted from the control computer to the air conditioning inverter and transmitting an operation signal according to the PWM adjustment signal measured from the air conditioning inverter to the control computer; A power supply unit supplying power to the interface and the air conditioning inverter according to the control of the control computer; It includes a load test part that consumes the power supplied to the air conditioning inverter.

At this time, the PWM adjustment signal is characterized in that it is set by adjusting the PWM period, PWM ratio.

In particular, a test start signal is input while the control computer transmits a PWM adjustment signal to the air conditioning inverter as the test condition, and a fault signal and an output of an operation signal of the air conditioning inverter interlocked according to the supply voltage and the PWM adjustment signal from the air conditioning inverter. Inverter operation test is performed by checking the waveform.

In addition, the control computer controls to exceed the rated range of the supply voltage supplied to the air conditioning inverter, and checks the fault signal and the output waveform of the operation signal of the air conditioning inverter when the rated range of the supply voltage is exceeded from the air conditioning inverter. It is characterized by performing a voltage fluctuation test of the inverter.

On the other hand, in order to achieve the above object, the KTX vehicle air conditioner inverter test method according to the present invention, the control computer for the failure test of the KTX vehicle air conditioning inverter, PWM (Pulse Width Modulation) adjustment signal, test start / stop signal Generating and transmitting to the air conditioning inverter through the interface according to the test conditions; Receiving, by the control computer, an operation signal of the air conditioning inverter according to the PWM adjustment signal from the air conditioning inverter through the interface; And analyzing the operation signal of the air conditioning inverter received by the control computer to determine whether the air conditioning inverter is broken. At this time, the PWM adjustment signal is characterized in that it is set by adjusting the PWM period and the PWM ratio.

In particular, the step of transmitting to the air conditioning inverter is a test condition, and a test start signal is input while the control computer transmits a PWM adjustment signal to the air conditioning inverter, and the step of determining whether or not the failure occurs is a supply voltage and PWM from the air conditioning inverter. Inverter operation test is performed by checking the fault signal and the output waveform among the operation signals of the air conditioning inverter interlocked according to the adjustment signal.

In addition, the step of transmitting to the air conditioning inverter is controlled so that the control computer exceeds the rated range of the supply voltage supplied to the air conditioning inverter, and the step of determining whether or not the failure occurs when the rated range of the supply voltage from the air conditioning inverter exceeds the The voltage fluctuation test of the air conditioning inverter is performed by checking a fault signal and an output waveform among the operation signals of the air conditioning inverter.

According to the present invention as described above, the air conditioning inverter, a core part of the KTX vehicle can be tested by using a control computer, and the part tests can be performed by applying an interface technology that links software and hardware to test similar parts. It can be extended to the device.

1 is a schematic diagram of an inverter test apparatus for a KTX vehicle air conditioner according to an embodiment of the present invention,
2 shows a circuit diagram of an interface according to an embodiment of the invention,
Figure 3 shows a flow chart of an inverter test method for a KTX vehicle air conditioning apparatus according to an embodiment of the present invention,
Figure 4 shows a performance test logic diagram for the maintenance of the inverter for KTX vehicle air conditioning apparatus according to an embodiment of the present invention,
5 shows an inverter motor control circuit of the inverter air conditioner according to the prior art.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, when it is determined that the detailed description of related known functions or known configurations or obvious matters to those skilled in the art may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

As shown in FIG. 1, the inverter test apparatus for a KTX vehicle air conditioner according to the present invention includes a control computer 100, an interface 200, a power supply unit 300, and a load test unit 400.

The control computer 100 generates a pulse width modulation (PWM) adjustment signal and a test start / stop signal for a failure test of the KTX vehicle air conditioner inverter 500, and transmits the generated control signal to the interface 200 according to test conditions. The operation signal of the air conditioning inverter 500 according to the PWM adjustment signal is received from the 200 to determine whether the air conditioning inverter 500 is broken. Here, the control computer 100 is installed with a software program for monitoring the operation and status of the air conditioning inverter 500 by adjusting the PWM signal and activating the interface 200.

The interface 200 transmits a PWM adjustment signal and a test start / stop signal transmitted from the control computer 100 to the air conditioning inverter 500, and inputs an operation signal according to the PWM adjustment signal measured from the air conditioning inverter 500. It receives and transmits to the control computer (100).

The power supply unit 300 may supply power to the control computer 100, the interface 200, and the air conditioning inverter 500, receive a control signal such as a voltage adjustment signal from the control computer 100, and output a variable voltage. have.

In addition, the load test unit 400 refers to a load that consumes the power supplied by being connected to the air conditioning inverter 500. For example, a transformer, an electric motor, or the like is used.

In particular, the control computer 100 inputs a test start signal in a state in which a PWM adjustment signal is transmitted to the air conditioning inverter 500 as a test condition, and the air conditioning inverter 500 interlocks with the supply voltage and the PWM adjustment signal according to the air conditioning inverter 500. The inverter operation test is performed by inspecting the fault signal and the output waveform among the operation signals of the inverter 500.

At this time, the PWM adjustment signal is set by adjusting the PWM period and the PWM ratio.

In addition, the control computer 100 is controlled so as to exceed the rated range of the supply voltage supplied to the air conditioning inverter 500, the control computer 100 of the air conditioning inverter 500 when exceeding the rated range of the supply voltage from the air conditioning inverter 500 The voltage fluctuation test of the air conditioning inverter 500 is performed by checking the failure signal and the output waveform among the operation signals.

Here, a failure signal among the operation signals of the air conditioning inverter 500 is a signal indicating that there is no PWM signal generated when the air conditioning inverter 500 does not operate, the output overvoltage signal of the air conditioning inverter 500 or the inverter itself fault signal Means one or more signals. In addition, the output waveform of the operation signal of the air conditioning inverter 500 is a waveform connected to the output terminal of the air conditioning inverter 500, and when the width of the output waveform is constant, it indicates that the air conditioning inverter 500 is in a normal state, the width of the output waveform If this is not constant, it indicates that the air conditioning inverter 500 is in a failure state. The output waveform of the air conditioning inverter 500 may obtain an output waveform through the output terminal of the air conditioning inverter using an oscilloscope during the test.

In addition, the control computer 100 is a configuration for controlling the overall operation of the inverter test apparatus, and generates a PWM adjustment signal, a test start / stop signal manually or automatically, and receives and processes the operation signal of the air conditioning inverter 500 The program for power control is installed. In addition, the control computer 100 may be configured to include a display unit (eg, a monitor) for displaying an input value or an output value, and an input unit (eg, a keyboard) for inputting an input value that is a set value. In addition, the input value includes a time setting value such as a test start / stop signal, a PWM period setting value for the PWM adjustment signal, and a PWM ratio setting value, and the output value includes an operation signal value of the air conditioning inverter 500. . Here, the test start / stop signal is a signal for controlling the start and stop of the air conditioning inverter 500.

In particular, the interface 200 is configured to connect the control computer 100 and the air conditioning inverter 500. The interface 200 converts the transmitted signal into a signal suitable for a reception condition and transmits the converted signal. To this end, as shown in FIG. 2, a PWM input terminal 210 for receiving a PWM adjustment signal from the control computer 100 and a start / stop input terminal 220 for receiving a test start / stop signal from the control computer 100. And a PWM output terminal 230 for outputting a PWM adjustment signal to the air conditioning inverter 500, a start / stop output terminal 240 for outputting a test start / stop signal to the air conditioning inverter 500, and an air conditioning inverter 500. ) The operation signal input terminal 250 for receiving the operation signal of the air conditioning inverter 500 according to the PWM adjustment signal, the operation signal output terminal 260 for outputting the operation signal to the control computer 100, and the power input. It is characterized in that it comprises a power input terminal (270a, 270b) and the ground terminal (280a, 280b) for.

Here, FIG. 2 illustrates an interface circuit applied to the air conditioning inverter 500 as an exemplary embodiment, in which the operation signal input terminal 250 and the operation signal output terminal 260 each have three terminals. Accordingly, the control computer 100 receives three operation signals from the air conditioning inverter 500.

On the other hand, as shown in Figure 3, the KTX vehicle air conditioner inverter test method according to the present invention, the control computer 100 for the failure test of the KTX vehicle air conditioning inverter 500, by setting in an automatic or manual manner Generating an output PWM (Pulse Width Modulation) adjustment signal and a test start / stop signal and transmitting the generated PWM (Pulse Width Modulation) adjustment signal to the air conditioning inverter 500 through the interface 200 according to the test condition (S100); Receiving, by the control computer 100, the operation signal of the air conditioning inverter 500 according to the PWM adjustment signal from the air conditioning inverter 500 through the interface 200 (S200); And analyzing the operation signal of the air conditioning inverter 500 transmitted by the control computer 100 to determine whether the air conditioning inverter 500 is broken (S300). At this time, the PWM adjustment signal is set by adjusting the PWM period and the PWM ratio.

Here, the step (S100) of transmitting to the air conditioning inverter 500 is a test condition, and a test start signal is input while the control computer 100 transmits a PWM adjustment signal to the air conditioning inverter 500, and whether the failure occurs. In step S300, the fault signal and the output waveform of the operation signals of the air conditioning inverter 500 interlocked according to the supply voltage and the PWM adjustment signal from the air conditioning inverter 500 are performed to perform the inverter operation test.

In addition, the step (S100) of transmitting to the air conditioning inverter 500 controls the control computer 100 to exceed the rated range of the supply voltage supplied to the air conditioning inverter 500, and determines whether the failure (S300) ) Performs a voltage fluctuation test of the air conditioning inverter 500 by inspecting a failure signal and an output waveform among operating signals of the air conditioning inverter 500 when the rated voltage range is exceeded from the air conditioning inverter 500.

Figure 4 shows the performance test logic diagram for the maintenance of the inverter for the KTX vehicle air conditioner according to an embodiment of the present invention, the program drive setting step (S10) is to register the basic information of the test product and the power supply voltage normal, PWM signal Set the stop. Progress method determination step (S20) is an automatic and manual method, in the case of the automatic method is to proceed to the inverter operation test step (S40) by proceeding the cycle and ratio, the stop, the adjustment voltage generation of the PWM signal programmatically, In the manual method, the shift to the PWM adjustment step (S30) to apply the change by the user. PWM adjustment step (S30) is a case of the manual method, the PWM generation period can be set within the range of 30 seconds, PWM ratio can be set within 100ms. Subsequently, the inverter operation test step (S40) inputs an inverter start signal while transmitting a PWM adjustment signal. The state good determination step (S50) checks the fault signal and the output waveform of the operation signal of the air conditioning inverter interlocked according to the state of the voltage and the PWM signal to determine whether there is a fault, and when the fault goes to the fault repair step (S90). If normal, go to the voltage fluctuation test step (S60) for the voltage fluctuation test. The voltage fluctuation test step (S70) attempts a voltage drop outside the rated range to the lower limit and a voltage rise beyond the rated range to the upper limit. In the state good determination step (S70), when the rated voltage exceeds the range, it analyzes the fault signal and the output waveform among the operation signals received from the air conditioning inverter, and determines whether there is a fault, and when the fault occurs, it moves to the fault repair step (S90). If normal, go to the inspection end step (S80) and finish the work after recording in the inspection history DB. Troubleshooting step (S90) proceeds to re-inspection after troubleshooting measures.

According to the present invention as described above, the air conditioning inverter 500, which is a core part of the KTX vehicle, can be tested by using the control computer 100, and the component test can be performed by applying an interface technology that works with software and hardware. It can be extended to test equipment of similar parts.

In the above, the present invention has been described with reference to the drawings and embodiments, but the present invention is not limited to the specific embodiments, and those skilled in the art can make many modifications and variations without departing from the scope of the present invention. I will understand what is possible. In addition, the drawings are shown for the purpose of understanding the invention and should not be understood to limit the scope of the claims.

100: control computer 200: interface
210: PWM input terminal 220: start / stop input terminal
230: PWM output terminal 240: Start / stop output terminal
250: operation signal input terminal 260: operation signal output terminal
270a, 270b: Power input terminal 280a, 280b: Ground terminal
300: power supply unit 400: load test unit
500: air conditioning inverter

Claims (8)

Generate PWM (Pulse Width Modulation) adjustment signal and test start / stop signal to interface according to test condition for fault test of KTX vehicle air conditioning inverter, and receive operation signal of air conditioning inverter according to PWM adjustment signal from interface. A control computer for determining whether the air conditioning inverter is broken;
An interface for transmitting a PWM adjustment signal and a test start / stop signal transmitted from the control computer to the air conditioning inverter and transmitting an operation signal according to the PWM adjustment signal measured from the air conditioning inverter to the control computer;
A power supply unit supplying power to the interface and the air conditioning inverter according to the control of the control computer;
It includes a load test unit that consumes the power supplied to the air conditioning inverter,
The PWM adjustment signal is set by adjusting the PWM period, PWM ratio,
As the test condition, the test start signal is input while the control computer transmits the PWM adjustment signal to the air conditioning inverter, and the fault signal and the output waveform of the operation signals of the air conditioning inverter interlocked with the supply voltage and the PWM adjustment signal from the air conditioning inverter. Inspection to perform inverter operation test,
The control computer controls to exceed the rated range of the supply voltage supplied to the air conditioning inverter, and checks the fault signal and the output waveform of the operation signals of the air conditioning inverter when the rated range of the supply voltage is exceeded from the air conditioning inverter. Perform voltage fluctuation test,
The failure signal among the operation signals of the air conditioning inverter 500 is a signal indicating that there is no PWM signal generated when the air conditioning inverter 500 does not operate, the output overvoltage signal of the air conditioning inverter 500 or at least one of the inverter itself failure signal Signal,
The output waveform of the operation signal of the air conditioning inverter 500 is a waveform connected to the output terminal of the air conditioning inverter 500. When the width of the output waveform is constant, it indicates that the air conditioning inverter 500 is in a normal state, and the width of the output waveform is If it is not constant, indicating that the air conditioning inverter 500 is a failure state
Inverter test apparatus for KTX vehicle air conditioning apparatus. delete delete delete Generating, by the control computer, a PWM (Pulse Width Modulation) adjustment signal and a test start / stop signal for a failure test of the KTX vehicle air conditioner inverter and transmitting the test start / stop signal to the air conditioner inverter according to the test condition;
Receiving, by the control computer, an operation signal of the air conditioning inverter according to the PWM adjustment signal from the air conditioning inverter through the interface;
And analyzing the operation signal of the air conditioning inverter received by the control computer to determine whether the air conditioning inverter is broken.
The PWM adjustment signal is set by adjusting the PWM cycle and PWM ratio,
The step of transmitting to the air conditioning inverter is a test condition, in which the test start signal is input while the control computer transmits the PWM adjustment signal to the air conditioning inverter.
The step of determining whether or not the failure is performed by checking the fault signal and the output waveform of the operation signal of the air conditioning inverter in accordance with the supply voltage and the PWM control signal from the air conditioning inverter to perform an inverter operation test,
The step of transmitting to the air conditioning inverter is controlled so that the control computer exceeds the rated range of the supply voltage supplied to the air conditioning inverter,
The step of determining whether the failure is performed by performing a voltage fluctuation test of the air conditioning inverter by inspecting the failure signal and the output waveform of the operating signal of the air conditioning inverter when the rated range of the supply voltage from the air conditioning inverter,
The failure signal among the operation signals of the air conditioning inverter 500 is a signal indicating that there is no PWM signal generated when the air conditioning inverter 500 does not operate, the output overvoltage signal of the air conditioning inverter 500 or at least one of the inverter itself failure signal Signal,
The output waveform of the operation signal of the air conditioning inverter 500 is a waveform connected to the output terminal of the air conditioning inverter 500. When the width of the output waveform is constant, it indicates that the air conditioning inverter 500 is in a normal state, and the width of the output waveform is If it is not constant, indicating that the air conditioning inverter 500 is a failure state
Inverter test method for a KTX vehicle air conditioning apparatus. delete delete delete

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