JP2007147555A - Testing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a testing device capable of conducting low-load testing operating only the control circuits and subsequent high-load testing, with no temporary blackout, and without the use of no high-capacity program power supply. <P>SOLUTION: The testing device 20 includes a first and a second power supply units 22 and 23, as well as a changeover switching unit 24. The first power supply unit 22 is connected to a control circuit 12 so as to supply a predetermined voltage waveform to the control circuit 12 during the period of operation test. The second power supply unit 23 has a larger rated power than the rated power of the first power supply unit 22. The changeover switching unit 24 consists of a bypass passage 24a and a changeover switch 24b. The bypass passage 24a bypasses the changeover switch 24b so as to connect a control circuit 12 and the first power supply unit 22 during the period of operation test. The changeover switch 24b can convert into connection conditions of the control circuit 12 and of the second power supply unit 23 during the period of operation test. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a test apparatus.

  Conventionally, electrical components such as a power window control unit are known. The electrical component includes a motor and a control circuit that controls the motor. This control circuit operates with low power.

  An electrical component may sometimes malfunction as a whole when a control circuit causes a malfunction (failure) due to a noise waveform or a power supply fluctuation waveform. In order to prevent the malfunction of the entire electrical component, an operation test of the electrical component is performed. Specifically, first, the control circuit is operated to check whether the control circuit malfunctions. If the control circuit malfunctions, the motor is further operated to check whether the entire electrical component malfunctions.

For example, Patent Document 1 discloses a test apparatus for performing such an operation test. This test apparatus includes a program power supply that is connected to a control circuit and supplies a noise waveform, a power supply fluctuation waveform, and the like to the control circuit during an operation test.
JP-A-6-58847

  By the way, it is conceivable that the program power supply has a large capacity so that the motor can be operated together with the control circuit by the program power supply. This large capacity program power supply is large and expensive. This is not preferable from the viewpoint of space and cost.

  The present invention has been made in view of the above points, and an object thereof is a test apparatus for performing an operation test of a control unit including a load element and a control circuit for controlling the load element. It is an object of the present invention to provide a technique for performing a low load test in which only a control circuit is operated without using a large-capacity program power supply and a subsequent high load test without interruption.

  A first invention is a test apparatus for performing an operation test of a control unit including a load element and a control circuit for controlling the load element, and is connected to the control circuit during the operation test of the control unit. And a first power supply unit for supplying a predetermined voltage waveform to the control circuit, a second power supply unit having a rated output larger than the rated output of the first power supply unit, and the control circuit during an operation test of the control unit; Switch means positioned between the second power supply unit and the second power supply unit.

  As a result, the control circuit and the first power supply unit having a relatively small rated output are always connected during the operation test of the control unit. On the other hand, when relatively large power is required during the operation test of the control unit, the switch means The control circuit and the second power supply unit having a relatively large rated output can be further connected. Therefore, a low load test for operating only the control circuit and a subsequent high load test can be performed without interruption without using a large-capacity program power supply.

  According to a second invention, in the first invention, the switch means is connected when the load element is activated during an operation test of the control unit.

  Thus, the switch means is brought into a connected state when the load element is activated during the operation test of the control unit. Therefore, the control circuit and the second power supply unit are further connected when the load element is activated during the operation test of the control unit. . That is, at the time of operation of a load element that requires relatively large power during the operation test of the control unit, the control circuit and the second power supply unit having a relatively large rated output are further connected. Therefore, a low load test for operating only the control circuit and a high load test for operating the load element can be performed without interruption in the operation test of the control unit without using a large-capacity program power supply.

  According to a third invention, in the first or second invention, the control unit is a power window control unit of the vehicle, and the load element is a motor for opening and closing the window glass of the vehicle. It is a feature.

  Thereby, the test apparatus for performing the operation test of the power window control unit of the vehicle can be provided.

  According to a fourth invention, in any one of the first to third inventions, the second power supply unit is a constant voltage power supply.

  Accordingly, it is possible to provide a test apparatus including a first power supply unit with a relatively small rated output and a constant voltage power source as a second power supply unit with a relatively large rated output and absorbing voltage fluctuation.

  According to the present invention, at the time of the operation test of the control unit, the control circuit and the first power supply unit having a relatively small rated output are always connected, while when relatively large power is required at the time of the operation test of the control unit, The control circuit and the second power supply unit having a relatively large rated output can be further connected. Therefore, a low load test for operating only the control circuit and a subsequent high load test can be performed without interruption without using a large-capacity program power supply. Therefore, it is possible to reduce the size and cost of the test apparatus.

  Further, since the test apparatus can be downsized, the test apparatus can be easily moved. This is convenient, for example, when performing an operation test of the control unit at a plurality of locations.

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

(Embodiment 1)
FIG. 1 is a diagram illustrating a state in which an operation test of a power window control unit 10 of a vehicle is performed. The power window control unit 10 is not mounted on a vehicle, and includes a motor 11 (corresponding to a load element) for opening and closing a window glass of the vehicle, and a control circuit 12 for controlling the motor 11. ing. The motor 11 is connected to the control circuit 12. The control circuit 12 operates with less power than the motor 11 and is connected to the changeover switch unit 24 of the test apparatus 20 during an operation test. The control circuit 12 includes an electronic circuit 12a and a drive circuit 12b.

  The test apparatus 20 includes a personal computer (hereinafter referred to as a PC) 21, a first power supply unit 22, a second power supply unit 23, and a changeover switch unit 24 (corresponding to switch means).

  The PC 21 is for performing various operations for performing an operation test and for storing the results of the operation test. The PC 21 is connected to the waveform generation circuit 22a of the first power supply unit 22 and has an input terminal and a storage device (not shown).

  The first power supply unit 22 is a small-capacity program power supply for operating and evaluating the control circuit 12 during an operation test. The first power supply unit 22 is connected to the control circuit 12 and supplies a predetermined program voltage waveform (noise waveform, power supply fluctuation waveform, etc.) to the control circuit 12 during an operation test, and the waveform generation circuit 22a and the amplifier 22b. And have. The waveform generation circuit 22a is for generating a predetermined program voltage waveform supplied to the control circuit 12, and is connected to the amplifier 22b. The amplifier 22b is connected to the changeover switch unit 24. The waveform generating circuit 22a, the amplifier 22b, and the changeover switch unit 24 are not integrated.

  The second power supply unit 23 is a large-capacity constant voltage power supply for operating the motor 11 during an operation test. As this constant voltage power source, a general-purpose one according to the capacity of the motor 11 is used. The second power supply unit 23 is detachably connected to the changeover switch unit 24 and has a rated output larger than the rated output of the first power supply unit 22.

  The changeover switch unit 24 includes a bypass passage 24a and a changeover switch 24b. The bypass passage 24 a is for connecting the control circuit 12 and the first power supply unit 22 by bypassing the changeover switch 24 b during the operation test. Thereby, at the time of an operation test, the control circuit 12 and the first power supply unit 22 are always connected via the bypass passage 24a. A diode 24c is provided in the bypass passage 24a. The changeover switch 24b is a manual switch that can be switched between a connection state between the control circuit 12 and the first power supply unit 22 and a connection state between the control circuit 12 and the second power supply unit 23 during an operation test. The changeover switch 24b is located between the control circuit 12, the first power supply unit 22, and the second power supply unit 23 during the operation test, and is normally connected to the first power supply unit 22 during the operation test. On the other hand, when the motor 11 is activated during the operation test, the motor 11 is connected to the second power supply unit 23. Here, as described above, since the control circuit 12 and the first power supply unit 22 are always connected during the operation test, the changeover switch 24b is switched from the first power supply unit 22 side to the second power supply unit 23 side. This can be done without interruption. For this reason, the evaluation result of the control circuit 12 does not disappear at the time of this switching.

-Test equipment operation-
Hereinafter, the operation of the test apparatus 20 during the operation test of the power window control unit 10 will be described.

  First, the changeover switch unit 24 of the test apparatus 20 is connected to the control circuit 12 of the power window control unit 10. At this time, the changeover switch 24b is connected to the first power supply unit 22. Then, the voltage waveform from the waveform generation circuit 22a is supplied to the control circuit 12 mainly via the changeover switch 24b, and only the control circuit 12 is operated. Thereby, it is checked whether the control circuit 12 malfunctions.

  When the control circuit 12 malfunctions, the changeover switch 24b is switched from the first power supply unit 22 side to the second power supply unit 23 side to establish a connection state with the second power supply unit 23. At this time, the voltage waveform from the waveform generation circuit 22a is supplied to the control circuit 12 via the bypass passage 24a. And the voltage from the 2nd power supply unit 23 is supplied to the motor 11 via the changeover switch 24b, and the motor 11 is further operated. Thereby, it is investigated whether the whole power window control unit 10 malfunctions.

-Effect-
As described above, according to the present embodiment, during the operation test of the power window control unit 10, the control circuit 12 and the first power supply unit 22 having a relatively small rated output are always connected, while the operation of the power window control unit 10 is performed. When relatively large power is required during the test, the changeover switch unit 24 can further connect the control circuit 12 and the second power supply unit 23 having a relatively large rated output. Therefore, a low load test for operating only the control circuit 12 and a subsequent high load test can be performed without interruption without using a large-capacity program power supply. Therefore, the test apparatus 20 can be reduced in size and cost.

  Moreover, since the test apparatus 20 can be reduced in size, the test apparatus 20 can be easily moved. This is convenient when performing an operation test of the power window control unit 10 at a plurality of locations.

  In addition, since the changeover switch unit 24 is connected to the second power supply unit 23 when the motor 11 is activated during the operation test of the power window control unit 10, when the motor 11 is activated during the operation test of the power window control unit 10. The control circuit 12 and the second power supply unit 23 are further connected. That is, when the motor 11 that requires relatively large power during the operation test of the power window control unit 10 is operated, the control circuit 12 and the second power supply unit 23 having a relatively large rated output are further connected. Therefore, in the operation test of the power window control unit 10, a low load test for operating only the control circuit 12 and a high load test for operating the motor 11 are performed without interruption without using a large-capacity program power supply. Can do.

  Moreover, the test apparatus 20 for performing the operation test of the power window control unit 10 of the vehicle can be provided.

  In addition, it is possible to provide the test apparatus 20 including the first power supply unit 22 having a relatively small rated output and the constant voltage power source as the second power supply unit 23 having a relatively large rated output and absorbing voltage fluctuation.

(Embodiment 2)
FIG. 2 is a diagram illustrating a state in which an operation test of the power window control unit 10 of the vehicle 1 is performed. In the present embodiment, the operation test is performed in a state where the power window control unit 10 is mounted on the vehicle 1. The second power supply unit 23 is a constant voltage power supply for operating all the electrical components of the vehicle 1 during an operation test. As this constant voltage power source, a general-purpose power source corresponding to the capacity of all electrical components is used. In other respects, the configuration is almost the same as that of the first embodiment.

-Test equipment operation-
Hereinafter, the operation of the test apparatus 20 during the operation test of the power window control unit 10 will be described.

  First, the changeover switch unit 24 of the test apparatus 20 is connected to the control circuit 12 of the power window control unit 10 via the harness 2. Then, the voltage waveform from the waveform generation circuit 22a is supplied to the control circuit 12, and only the control circuit 12 is operated. Thereby, it is checked whether the control circuit 12 malfunctions.

  When the control circuit 12 malfunctions, the changeover switch 24b is switched from the first power supply unit 22 side to the second power supply unit 23 side to establish a connection state with the second power supply unit 23. And the voltage from the 2nd power supply unit 23 is supplied to all the electrical components containing the motor 11 via the changeover switch 24b, and also all the electrical components are operated. Thereby, it is investigated whether the whole power window control unit 10 malfunctions.

  According to the present embodiment, substantially the same operational effects as in the first embodiment can be obtained.

  In addition, it is possible to provide a test apparatus 20 that can perform an operation test of the power window control unit 10 mounted on the vehicle 1.

  Moreover, since the test apparatus 20 can be reduced in size, the test apparatus 20 can be easily moved to the vehicle 1. This is convenient when performing an operation test of the power window control unit 10 mounted on the vehicle 1.

(Other embodiments)
In each of the above embodiments, the power window control unit 10 is a control unit. However, the present invention is not limited to this. For example, the wiper control unit may be a control unit.

  Moreover, in each said embodiment, although the motor 11 is made into the load element, you may make load elements other than the motor 11 into a load element.

  In each of the above embodiments, the changeover switch 24b is positioned between the control circuit 12, the first power supply unit 22, and the second power supply unit 23 during an operation test. 12 may be located between the second power supply unit 23 and the second power supply unit 23. In this case, the changeover switch 24b can be switched between a connected state and a disconnected state.

  In each of the above embodiments, the changeover switch 24b is a manual switch. However, the present invention is not limited to this. For example, when the motor 11 is operated during an operation test, the changeover switch 24b is automatically switched to the connection state with the second power supply unit 23. An automatic type may be used instead.

  Moreover, in each said embodiment, although the 2nd power supply unit 23 is made into a constant voltage power supply, as long as it has a rated output larger than the rated output of the 1st power supply unit 22, what kind of thing may be sufficient.

  In each of the above embodiments, the waveform generation circuit 22a, the amplifier 22b, and the changeover switch unit 24 are not integrated, but they may be integrated.

  The present invention is not limited to the embodiments, and can be implemented in various other forms without departing from the spirit or main features thereof.

  As described above, the above-described embodiment is merely an example in all respects and should not be interpreted in a limited manner. The scope of the present invention is indicated by the claims, and is not restricted by the text of the specification. Further, all modifications and changes belonging to the equivalent scope of the claims are within the scope of the present invention.

  As described above, the test apparatus according to the present invention needs to perform a low load test for operating only the control circuit and a subsequent high load test without interruption without using a large-capacity program power supply. It can be applied to applications.

It is a figure which shows a mode that the operation test of the power window control unit of the vehicle which concerns on Embodiment 1 of this invention is performed. It is a figure which shows a mode that the operation test of the power window control unit of the vehicle which concerns on Embodiment 2 is performed.

Explanation of symbols

1 Vehicle 10 Power Window Control Unit 11 Motor (Load Element)
12 control circuit 20 test apparatus 22 first power supply unit 23 second power supply unit 24 changeover switch unit (switch means)

Claims (4)

A test apparatus for performing an operation test of a control unit comprising a load element and a control circuit for controlling the load element,
A first power supply unit connected to the control circuit and supplying a predetermined voltage waveform to the control circuit during an operation test of the control unit;
A second power supply unit having a rated output greater than the rated output of the first power supply unit;
A test apparatus comprising switch means positioned between the control circuit and the second power supply unit during an operation test of the control unit. The test apparatus according to claim 1,
The test apparatus according to claim 1, wherein the switch means is connected when the load element is activated during an operation test of the control unit. The test apparatus according to claim 1 or 2,
The control unit is a vehicle power window control unit,
The test apparatus according to claim 1, wherein the load element is a motor for opening and closing the window glass of the vehicle. In the test device according to any one of claims 1 to 3,
The test apparatus according to claim 2, wherein the second power supply unit is a constant voltage power supply.

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