JPS6242072A - Tester for electronic equipment - Google Patents

Abstract

PURPOSE:To output fault data appended with tester code with a simple constitution by selecting tester through a changeover switch having a code data setting means for corresponding testers. CONSTITUTION:Desired one of testers 1-1-1-N is selected by operating a switch 3A in a changeover switch 3. At the same time, a code corresponding to the testers 1-1-1-N selected by switches 3B-3E in a code data setting means interlocking with the switch 3A is formed and fed to the tester. On operating an output switch 5, the fault data TD in the test result and the tester code CD which is previously supplied are fed from the selected tester 1-1-1-N to a printer 4 through the switch 3A. Thus, the fault data appended with the code corresponding to the tester can be obtained with a simple constitution.

Description

[Detailed Description of the Invention] [Summary] Fault data as a result of testing by a tester is outputted from a predetermined tester to a printer device by selecting a changeover switch, and the changeover switch is configured to have code data set. By providing the means, predetermined code data is added to the failure data when the printer outputs it.

[Industrial application field]

The present invention relates to a test device in which fault data from a tester corresponding to a plurality of test objects is output to a printer device by selecting a changeover switch, and in particular, when outputting the fault data, predetermined code data is output. Test of electronic equipment formed to be added? , regarding the device.

In automatic test equipment that simultaneously tests multiple electronic devices with electronic components mounted on printed circuit boards, a tester is connected to each electronic device under test to reduce testing man-hours as much as possible. A running test is performed using test data, and the results of the running test are output as failure data.

It is necessary to be able to determine which test object the fault data output in this way corresponds to, and in order to do this, generally when outputting the fault data, distinguishable code data is provided. consideration has been given to granting it.

However, the assignment of code data like this is error-free,
Moreover, it is desired that this can be done with a simple configuration and operation.

[Conventional technology]

Conventionally, the configuration was as shown in the block diagram of FIG.

The test device 1-1. connected to each of the test objects 2-1.2-2 to 2-N. ．． 1-2 to l-N are connected to the printer device 4 via a rotary switch RS, and each tester 1-1.1-2 to 1-N is provided with a setting unit IO for setting code data CD. Furthermore, tester 1-
1.1-2 to l-N are provided with an output switch 5 for instructing the output of the fault data TD stored in the memory.

Therefore, by pressing the output switch 5, the tester 1-1.1
-2 to l-N are commanded to output data, and the test object 2-
1.2-2 to 2-N tested test device 1-1. l-2~
The fault data TD of each of 1-N and the code data of the setting section 10 are output to the printer device 4.

Further, the output in this case is selected by the low-reswitch R5 so that failure data for each of the test objects 2-1, 2-2 to 2-N can be obtained.

Therefore, after the test according to the predetermined test program is completed, the test results are outputted as fault data from each tester 1-1.1-2 to ]-N, and the fault data is used to -2 to 2-N pass/fail determination is made.

[Problem that the invention seeks to solve]

In such tests, if an abnormality occurs in one of the testers 1-1.1-2 to 1-N, the tester with the abnormality should be replaced with another tester and the test performed. There is.

However, in such a configuration, when replacing the tester, it is necessary to reset the code data CI in the setting section 10 and change the code data CD to the same value as before the replacement.

If the code data CD is not changed, it will be impossible to determine which test object the output fault data belongs to.

Further, in most cases, the code data CD is set by being written in the test i program.

Therefore, each time a test device is replaced, the test program of the test device must be changed and the code data set in each test device must be checked.

[Means for solving problems]

FIG. 1 is a block diagram of the principle of the present invention.

As shown in Figure 1, multiple test objects (2-1°2-2
~2-N) corresponding testers (1-1, 1-
2 to 1-N) and the tester (1-1, L-2 to 1-N)
a selector switch (3) for selecting the tester (1-1,
1-2 to 1-N) of the test results stored in
The fault data (T D) is transmitted via the output switch (5) that commands the output of T D ) and the changeover switch (3).
and a printer device (4) for outputting the output switch (4), and the changeover switch (4) according to a command from the output switch (5).
3) The changeover switch (
A code data setting means is provided for setting predetermined code data (CD) by selecting item 3).

With this configuration, the above-mentioned problems are solved.

[For production]

That is, by selecting a predetermined tester using a changeover switch in order to output the fault data tested by the tester, predetermined code data is set by the selection of the changeover switch, and the fault data to be outputted has the predetermined code data. It is formed so that the code data of .

Therefore, there is no need to set code data for each tester as in the past, and it also prevents incorrect code data from being added to the output fault data.
can do.

〔Example〕

The present invention will be explained in detail below with reference to FIGS. 2 and 3. FIG. 2 is a circuit configuration diagram of an embodiment of the present invention, and FIG. 3 is an explanatory diagram of code data according to the present invention. The same reference numerals refer to the same objects throughout the design.

As shown in FIG. 2, a multi-stage low-return switch is used as the changeover switch 3, and the first stage switch 3A is connected to the test device 1 to which the test objects 2-1, 2-2 to 2-N are connected. -1
．． 1-2 to 1-N are connected so that predetermined data D is output to the printer device 4, and the second stage switch 3B is connected.
~ Code 01 formed by the fifth stage switch 3E
.about.C2 are sent to the respective testers 1-1.1-2 to 1-N.

Therefore, when a predetermined tester is selected by the changeover switch 3 and the output switch 5 is pressed, the fault data stored in the selected tester by the predetermined test and the codes C1 to C2 received earlier are displayed. The generated code data is output to the printer device 4.

Further, such code data CD is formed as shown in FIG.

As shown in the switch switching diagram of (a), the switches 3A, 3B, 3G, and 3D in each stage.

When 3E selects step Sl, switch 3A
The tester 1-1 is connected to the printer device 4, and the codes CI, C2, and C3 of switches 3B, 3C, and 3D are set to 0.
', and the code C4 of the switch 3E becomes 1.

Next, when step S2 is selected as shown by the dotted line, the tester 1-2 is connected to the printer device 4 by the switch 3A, and the codes CI, C2, and
C4 becomes 0', and code C3 of switch 3D becomes ']'
becomes.

Therefore, as shown in the table (b), when tester 1-1 is selected, the code data CD is '0001'.
However, when the tester 1-2 is selected, the code data CD can be 0010', and similarly when the tester 1-N is selected, the code data CD can be 1110'.

With this configuration, a predetermined code data CD is set and sent by selecting a predetermined tester with the changeover switch 3, so even if the tester is replaced, the code data cannot be set as in the conventional method. There is no need to soak it.

In addition, in the embodiment of the present invention, the number of stages of the switch is explained as five stages, but it is possible to increase or decrease the number of stages depending on the number of testers to be connected, and the same effect can be obtained regardless of the number of stages. can get.

[Effects of the Invention] As explained above, according to the present invention, by selecting a predetermined tester using the changeover switch and pressing the output switch, predetermined code data is added to the fault data of the test result. Since the output data is generated, there is no need to set or confirm the code data to be determined by the tester each time as in the conventional case.

Therefore, with a simple configuration, output of entertainment code data can be prevented, cost reduction and reliability can be improved, and the practical effects are great.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of the principle of the present invention. FIG. 2 is a circuit configuration diagram of an embodiment according to the present invention. FIG. 3 is an explanatory diagram of the code deck according to the present invention, (a)
is a Swissotino switching diagram, and (b) is a table. FIG. 4 shows a conventional block diagram. In the figure, 1-1.1-2 to 1-N are test devices. 2-1.2-2 to 2-N are test objects. 3 is a changeover switch. 4 is a printer device. 5 indicates the output inch. (b)

Claims (1)

[Claims] A tester (1-1, 1-2 to 2-N) corresponding to each of a plurality of test objects (2-1, 2-2 to 1-N), and the tester ( 1-1, 1-2 to 1-N), and fault data (TD) of the test results stored in the tester (1-1, 1-2 to 1-N). an output switch (5) that commands the output of the output switch (5); and a printer device (4) that outputs the fault data (TD) via the changeover switch (3); The changeover switch (3
) so that the predetermined code data (CD) is added to the fault data (TD) output from the switch (
3) A testing device for electronic equipment, comprising code data setting means for setting predetermined code data (CD) according to the selection of item 3).