JPS5816320A - Pseudo fault generator - Google Patents

Abstract

PURPOSE:To perform a test of a data transfer device to various types of faults in a simple way, by continuously suppressing or holding a signal which is transmitted the data transferring device from an input/output device or generating the signals other than the above-mentioned signal. CONSTITUTION:A pseudo fault generator 3 contains a means 36 which suppresses in the course of a signal transmitted to a data transferring device 1 from an input/output device 2, and also has a holding means 37 which transmits continuously the signal given from the device 2 although said signal is reset by the device 2. In addition, a signal switching means 38 is provided to produce the signals other than the signal given from the device 2. A connection switching means 39 switch the signal lines among the means 36-38, the device 2 and the device 1. Thus a test is performed in a simple way for the data transfer device to various types of faults.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a pseudo failure generating device for testing a data transfer device.

Conventionally, when a failure occurs on the input/output device side, a pseudo failure is caused on the input/output device side and the data transfer device operates normally in order to prevent the data transfer device from being affected by the failure. A test has been carried out to see if it can be done.

One way to generate a pseudo failure is to forcibly ground a certain signal sent to the data transfer device on the input/output device side. However, with this method, although it is possible to test the data transfer device for failures such as when the input/output device is no longer able to send signals to the data transfer device, Test the data transfer device for failures such as when the device is no longer reset, or when a signal that should be sent from an input/output device to the data transfer device and another signal are sent at the same time. was impossible.

On the other hand, pseudo input/output devices have also been used. This pseudo input/output device has the function of decoding and executing commands from the data transfer device, and is a device that can perform exactly the same operations as the original input/output device. Furthermore, it is also possible to suppress signals to be sent to the data transfer device or to continue sending signals to be reset based on commands from the data transfer device. However, this pseudo input/output device.

Since it is necessary to have the same functions as an original input/output device, the amount of hardware is so large that it is comparable to one original input/output device. moreover.

When developing and designing a data transfer device, a pseudo input/output device is used to test the data transfer device, and then the original input/output device is used to test it again, which results in wasted testing time. It had the disadvantage of causing

An object of the present invention is to eliminate the above-mentioned drawbacks by providing a means for suppressing or retaining a signal sent from an input/output device to a data transfer device, or for simultaneously generating a signal other than the signal. .

An object of the present invention is to provide a pseudo-failure generation system (t) that is constructed with a small amount of hardware and that makes it unnecessary to use a conventional pseudo-input/output device when developing and designing a data transfer device.

The pseudo failure generating device of the present invention is located between a data transfer device and an input/output device, and is located between a data transfer device and an input/output device.

a signal suppressing means for suppressing a signal sent to the data transfer device midway; and a signal suppressing unit configured to reset the signal when the input/output device sends a signal to the data transfer device. a signal holding means that continues to send the signal to the data transfer device even when the input/output device sends the signal to the data transfer device; and a signal generating means for sending out a signal to the data transfer device.

Next, the present invention will be explained in detail with reference to the drawings.

In FIG. 1 showing an embodiment of the present invention, the pseudo fault generating device 3 includes a signal suppressing means 36 composed of a simple switch that can be operated with one hand, an IJ, a flop 20, an OR gate 21, a signal holding means 37 composed of a switch 22;

It has a signal switching means 38 composed of a simple switch that can be manually operated, and a connection switching means 39 that switches the signal line between the means 36, 37, 38 and the input/output device 2 and the data transfer device 1. There is.

FIG. 2 shows an equivalent circuit when only the signal suppressing means 36 is connected, and shows four signals sent from the input/output device f12,
When the contact 10 is in contact with the contact 11, it passes through the pseudo fault generating device 3 as it is.

This becomes an input signal 5 to the data transfer device 1. On the other hand, contact 1
0 is in contact with the contact 12, the output signal 4 from the input/output device 2 is stopped within the pseudo fault generating device 3;

The signal 5, which is always logic 0, is sent to the data transfer device 1 bK. Therefore, from the input/output device 2 to the data transfer device 1
It is possible to test the function of the data transfer device 10 in which if a signal to the data transfer device 1 does not arrive at the data transfer device 1 even after a certain period of time has elapsed, it is treated as an error.

Fig. 3 shows an equivalent circuit when only the signal holding means 37 is connected, and when the contact 23 of the switch 22 is in contact with the contact 24, the signal 4 sent from the input/output device 2 is directly It passes through the faulty device 3t and becomes the input signal 5 to the data transfer device 1. Therefore, at this time, the input/output device 2.

When signal 4 is reset, signal 5 is also naturally reset.

However, when the contact 23 of the switch 22 is in contact with the contact 25, a first-order operation occurs.

That is, the signal 4 sent from the input/output device 2 sets the flip-flop 20 (here, the flip-flop 20 is of a type that is not reset until a reset signal is input once it is set). The input signal 5 to the data transfer device 1 is the logical OR of the output signal 4 of the input/output device 2 and the output signal 26 of the flip-flop 20 by the OR gate 21. In this case, even if the input/output device 2 resets the signal 4,
Signal 5 unless flip-flop 20 is reset.
Therefore, if the signal from the input/output device 2 to the data transfer device l is not reset even after a certain period of time has elapsed, it is possible to test the function of the data transfer device 10 in which it is treated as an error.

FIG. 4 shows an equivalent circuit when only the signal switching means is connected. Signals 4 and 4' output from the five-person output device 2 are obtained when the contact 30 of the signal generating means 8 is in contact with the contact 32. each independently passes through the pseudo failure generating device 3,
These become input signals 5 and 5' to the data transfer device 1.

On the other hand, if the contact 30 is in contact with the contact 31,
The signal 4 sent from the input/output device 2 is.

It not only serves as an input signal 5 to the data transfer device 1, but also serves as an input signal 5'. Therefore, the rate at which the signal 5' that should not have come along with the signal 5 from the input/output device 2 reaches the data transfer device 1, and whether or not the data transfer device 1 can correctly handle errors is determined. can be tested.

In this embodiment, the signal suppressing means 36, the signal holding means 37. Although the signal generating means 38 is shown as being composed of a simple switch that can be operated with one hand, it is also possible to send a control signal from the data transfer device 1 to the pseudo failure generating device 3 and perform the switching operation using an electronic circuit. It can be easily achieved.

This issue qm1 As explained above, a pseudo-failure generation device that has a means to suppress or hold a signal sent from an input/output device to a data transfer device, or to generate a signal other than the above signal is used. It can be realized easily and with a small amount of hardware, and furthermore, there is no need to use a pseudo input/output device, and the data transfer device can be developed in a short testing period.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing one embodiment of the present invention. FIG. 2, FIG. 3, and FIG. 4 are equivalent circuit diagrams showing examples of the operation. 1... Data transfer device, 2... Input/output device, 3... Pseudo failure generating device, 36-...
Signal suppression means, 37...Signal holding means, 38.
...Signal switching means, -111" 27

Claims (1)

[Claims] A signal suppressing means for suppressing a signal sent from the input/output device to the data transfer device midway, and a signal suppressing means for resetting the signal when the signal is sent from the input/output device to the data transfer device. signal holding means that continues to send the signal to the data transfer device even when the input/output device sends the signal to the data transfer device; 1. A pseudo-failure generation device comprising: signal switching means for sending a signal to a transfer device.