KR0149609B1 - Test point measuring signal control apparatus of printed circuit board - Google Patents

Abstract

The present invention relates to an automatic signal switching and control device for measuring a test point of a printed circuit board. In particular, in order to measure a test point of a printed circuit board, a microcomputer automatically sets and controls a setting state of a measuring device to measure a measurement time during measurement. An automatic signal switching and control device for shortening and improving productivity.

That is, when the item of the test point 4 of the printed circuit board 5 to be measured is input through the key panel unit 10, the jig fixture 16 for measuring the test point 4 of the printed circuit board 5 is measured. The measurement value is input through the input signal, and the input measurement value is converted into a video selector board 18 or a low frequency selector board 19 so that the measurement result is displayed on the measuring instrument 22. The key panel unit 10 By inputting the corresponding key (10a-10c) to perform the sequential measurement from the display unit 15 can easily recognize the progress state, each of the above components are controlled by the microcomputer (11) It is characterized by automatically switching and controlling signals by inputting or storing data from the ROM 12 and RAM 13 configured in 11).

Description

Automatic signal switching and control device for measuring test points of printed circuit boards

1 is a schematic diagram of a conventional measuring point at a test point of a printed circuit board.

2 is an overall block diagram of an automatic signal switching and control apparatus according to the present invention.

3 is a flow chart showing a control state of the microcomputer according to the present invention.

* Explanation of symbols for main parts of the drawings

5: printed circuit board 10: key panel

11: Micom 12: Rom

13 RAM 14 Peripheral I / O Part

15: display unit 16: jig fixture

17: analog / digital buffer unit 18: video selector board

19: low frequency selector board 20: multiplexer

21: universal interface bus control unit 22: measuring instrument

The present invention relates to an automatic signal switching and control device for measuring test points of a printed circuit board. In particular, in order to measure a test point of a printed circuit board, the setting state of the instrument is automatically set and controlled by the microcomputer to control the measurement time during measurement. An automatic signal switching and control device for shortening and improving productivity.

Generally, a printed circuit board is a board on which an electronic circuit component is mounted, and most of the wiring on the board is made by a printing method. There may be only one board | substrate, and a circuit may be provided in both sides or multiple layers. In addition, dozens or hundreds of electronic devices are inserted into the printed circuit board to be fixed by soldering.

Conventionally, after fixing an electronic component on a printed circuit board, various problems such as whether the electronic component is correctly installed, the circuit printing on the board is correctly printed, or the electronic component itself is defective are generated. It caused the loss of the reliability of the product when the product malfunctioned.

Therefore, in order to solve the above problems, a plurality of test points are defined on a printed circuit board on which electronic components are mounted, and the operator manually measures the test points by using a measuring probe of a measuring instrument or measuring equipment.

That is, each test point of the printed circuit board was measured by switching the setting state of the instrument each time. Since the items to be measured are different in voltage, current, or signal flow for each test point, the measuring range of the instrument had to be changed or switched according to the test point to be measured.

When the printed circuit board 5 to be measured is transferred to the operator through a predetermined line 1 as shown in the schematic diagram of the test point of the attached printed circuit board of FIG. 1, the operator may measure the measurement instrument 2. Measure the test point 4 of the printed circuit board 5 with the probe 3 and switch the environment of the meter 2 for each test point 4 to confirm the result value or measure with multiple instruments 2 There was a hassle.

Therefore, in order to measure the state of the printed circuit board 5 required a lot of time and manpower, the workability is not good, which acted as a factor of lowering productivity. In addition, when the measuring instrument 2 to be measured for each process is different, many measuring instruments 2 are required, and since the content measured at the time of measurement must be checked by a human eye, there is a possibility that a defect may occur.

The present invention has been made in view of the above-mentioned problems, and the test point of the printed circuit board is automatically brought into contact with the measuring jig fixture of the measuring instrument, and the environment of the measuring instrument is automatically switched, and the working time is semi-automated. It is an object of the present invention to provide an automatic signal switching and control device for measuring printed circuit boards in order to shorten and reduce the number of instruments.

In order to achieve the above object, the input of the test point to be measured through the key panel part is inputted through the jig fixture measuring the test point of the printed circuit board. After converting to a selector board to be displayed as a measuring instrument and inputting the corresponding key to perform sequential measurement from the key panel unit, the display unit can easily recognize the progress and each component is controlled by Micom. It automatically converts and controls signals by inputting or storing data from ROMs and RAMs configured in the microcomputer.

Hereinafter, an automatic signal switching and control apparatus for measuring a test point of a printed circuit board according to the present invention will be described with reference to the accompanying drawings.

2 is a block diagram illustrating an automatic signal switching and control device according to the present invention, wherein a key panel unit 10 and a key panel unit for setting and inputting a test point 4 of a printed circuit board 5 to be measured The microcomputer 11 outputs a control signal by a built-in program according to a plurality of key inputs configured in (10) and the microcomputer 11 connected to the microcomputer 11 and a predetermined program embedded therein. RAM 13 for storing information input and output under control and peripheral I / O 14 and peripheral I / O 14 for outputting control signals of the microcomputer 11 to or from a plurality of devices. In order to output the information of the microcomputer 11 to the outside, the measurement is performed on the display unit 15 equipped with the plurality of light emitting elements 15a-15c and the test point 4 of the printed circuit board 5 as the measurement target. Zig Pick with multiple probes for 16, an analog / digital buffer unit 17 for converting analog measurements measured from multiple probes of the jig fixture 16 into digital values, and measurement values output from the analog / digital buffer unit 17 are inputted. Receiving the video selector board 18 for outputting a video signal as a control signal of the microcomputer 11 from the peripheral I / O unit 14 and the peripheral I / O unit receiving the measured values output from the analog / digital buffer unit 17. The low frequency selector board 18 and the video selector board 18 and the low frequency selector board 19 outputting the audio signal as the control signal of the microcomputer 11 are output from the peripheral input / output unit 14. General purpose interface bus (GPI) for inputting and outputting the multiplexer 20 outputting to the measuring instrument 22 as a sequential signal by the control signal of the microcomputer 11 and the information of the microcomputer 11 and the measuring instrument 22; It was configured to include a general-purpose interface bug control unit 21 for controlling B 21a).

When described in detail with respect to the programmable automatic signal switching and control device for measuring printed circuit board according to the present invention configured as described above.

When the operator inputs the corresponding key 10a-10c set through the key panel unit 10 to measure the state in which the electronic component is mounted on the printed circuit board 5, the microcomputer 11 executes the program stored in the ROM 12. And initializes or converts the environment of the measuring instrument 22 by the set value, wherein the jig fixture 16 is loaded on the printed circuit board 5 and the test point 4 is measured. The digital signal is converted through the digital buffer unit 17 and input to the video selector board 18 and the low frequency selector board 19, respectively, and the control signal of the microcomputer 11 is alternatively supplied through the peripheral input / output unit 14. It is sequentially input to the meter 22 through the multiplex 20.

The measuring instrument 22 outputs the result of the test point 4 of the printed circuit board 5 as a video signal or an audio signal under the control of the microcomputer 11 through the universal interface bus controller 21 and the multiplexer 20. You can do it.

When the measurement is completed as described above, the display unit 15 visually displays the current measurement state by the plurality of light emitting devices 15a, the video light emitting device 15b, and the voice light emitting device 15c, thereby allowing the operator to easily recognize the next. Test point (4) can be measured. The light emitting devices 15a-15c may use a light emitting diode, a 7-segment combination, or a liquid crystal display (LCD).

The microcomputer 11 which outputs the control signal and automatically switches and controls the signal will be described in more detail.

3 shows the test point 4 of the printed circuit board 5 according to the present invention with the jig fixture 16 and the input of the input key 10a input from the key panel unit 10 of the microcomputer 11. It is a flowchart which shows the control state for automatically switching and controlling a signal.

That is, inputting and turning on a power source for operating the automatic signal switching and control device according to the present invention loads the execution program stored in the microcomputer 11 and initializes the peripheral device 100. In this way, if the peripheral device controlled by the microcomputer 11 is not initialized, an error occurs when the execution program is executed.

After the execution program of the microcomputer 11 is loaded, it is determined whether a plurality of input keys 10a have been input from the key panel unit 10. When the input keys 10a are input from the key panel unit 10, the input is performed. Recognize 102 how many times the given key 10a is.

According to the number of the input key 10a, the microcomputer 11 reads (103) the environmental setting value of the measuring instrument 22 stored from the ROM 12. That is, when the corresponding input key 10a is input by the microcomputer 11, the environment setting is performed by the universal interface bug 21a by setting the mode setting of the measuring instrument 22 stored in the ROM 12 in advance through the universal database bus controller 21. Set 104. The mode to be changed is that the measurement mode of each test point 4 is different according to the input key 10a. The mode is different from voltage (Voltage / Division), time (Division) coupling state, and trigger state.

When the setting of the environmental mode of the measuring instrument 22 is completed as described above, the microcomputer 11 switches the video selector board 18 through the peripheral input / output unit 14 or the signal to the low frequency selector board 19 (105). )do.

At this time, when the printed circuit board 5 is loaded from the line 1, the jig fixture 16 connected to the measuring instrument 22 contacts each test point 4 to read the measured value. Since the measured value of the test point 4 read from the jig fixture 16 is an analog signal, the analog / digital buffer unit 17 converts the analog signal into a digital signal.

The measured signal converted into the digital signal from the analog / digital buffer unit 17 is output to the video selector board 18 and the low frequency selector board 19, and the microcomputer 11 is high from the chi-panel unit 10. It is determined 106 whether the key 10b is input, and when the high key 10b is input, a control signal is output 107 to the video selector board 18. In addition, if the LOW key 10c of the key panel unit 10 is input, the microcomputer 11 outputs a control signal 108 to the low frequency selector board 19 through the peripheral input / output unit 14.

As such, when the high key 10b or the low key 10c of the key panel unit 10 is input to the microcomputer 11, the video selector board 18 or the low frequency selector board 19 is selected under the control of the microcomputer 11. The output of the selected board sequentially outputs 109 the measurements of the plurality of test points 4 through the multiplexer 20 to the instrument 22.

The measurement signal input to the measuring instrument 22 is displayed by the monitor or display means of the measuring instrument 22 according to the environment mode set by the universal interface control unit 21 by the control signal output from the microcomputer 11 (110). . Therefore, the operator recognizes information 111 about the test point 4 of the printed circuit board 5 through the measuring instrument 22 and determines the quantity and the defect of the printed circuit board 5.

In addition, when the measurement of the test point 4 of the printed circuit board 5 is terminated by the input of the input key 10a input to the microcomputer 11 through the key panel unit 10, the microcomputer 11 receives the next input key ( Wait for 10a) to be entered.

At this time, if there is an input 101 of the corresponding key from the key panel unit 10 to measure another test point 4 of the printed circuit board 5, the microcomputer 11 recognizes the corresponding key number 102. Then, the environment setting value of the measuring instrument 22 is read from the ROM 12 (103).

When the measurement through the measuring instrument 22 is completed after the input of the key panel unit 10, the corresponding light emitting device 15a of the display unit 15 connected to the peripheral input / output unit 14 is turned on and the key panel unit is turned on. When the high key 10a is input at 10, the video board selection light emitting device 15b is turned on to inform the display unit 15 that the video selector board is selected. In addition, when the low key 10c is input from the key panel unit 10, the low frequency board selection light emitting device 15c is turned on to inform the display unit 15 that the low frequency selector board is selected. That is, when the video board selection light emitting device 15b and the low frequency board selection light emitting device 15c of the display unit 15 are turned on, the result of the test point 4 of the printed circuit board 5 currently being measured is determined. This is to allow the operator to recognize whether the video is output in the video state or the audio signal.

In addition, the information input and output to the microcomputer 11 is temporarily stored or erased in the RAM 13 and after the work is completed, the information stored in the RAM 13 is initialized.

In addition, when the printed circuit board 5 has a different form, the ROM 12 may control the microcomputer 11 by storing an execution program corresponding thereto. The jig fixture 16 may be flexibly applied according to the shape of the printed circuit board 5 or the test point 4.

As described above, the manual operation of the test point 4 of the printed circuit board 5 with the measuring probe 3 of the measuring instrument 2 is performed automatically. By using the device, the environment of the measuring instrument 22 can be set automatically by the control of the microcomputer 11, and the input measurement can be selectively controlled by a video signal or a voice signal, and the display can be easily recognized by the operator. The part 15 was connected.

Therefore, it is possible to easily process the information for a plurality of test points (4) to improve the workability, the configuration of the instrument 22 is faster, the productivity is improved and the reliability of the printed circuit board 5 also has the effect have.

Claims (5)

In the apparatus for measuring the test point of the printed circuit board to set the environment of each measuring instrument for measuring the test point of the printed circuit board and measuring the test point with the measuring probe of the instrument, the printed circuit board ( Key panel unit 10 for setting and inputting test point 4 of 5), and microcomputer 11 for outputting control signals by a built-in program according to a plurality of key inputs configured in the key panel unit 10. And a ROM (12) connected to the microcomputer (11) having a predetermined program embedded therein, a RAM (13) for storing information input and output under control of the microcomputer (11), and a control signal of the microcomputer (11). Peripheral input and output unit 14 for outputting to or inputting information from a plurality of devices, and a plurality of light emitting devices for outputting the information of the microcomputer 11 from the peripheral input and output unit 14 to the outside A display unit 15, a jig fixture 16 having a plurality of probes for measurement at a test point 4 of a printed circuit board 5 as a measurement object, and a plurality of probes for measuring the jig fixture 16. The analog / digital buffer unit 17 converts the analog measurement value measured from the digital value into the digital value, and the measured value output from the analog / digital buffer unit 17 is input to the microcomputer 11 from the peripheral input / output unit 14. A video selector board 18 for outputting a video signal as a control signal and a measurement signal output from the analog / digital buffer unit 17 are input to the audio signal as a control signal of the microcomputer 11 from the peripheral input / output unit 14. The output signals of the low frequency selector board 18 and the video selector board 18 and the low frequency selector board 19 from the peripheral input / output unit 14 to the sequential signals by the control signals of the microcomputer 11. Instrument ( 22, and a universal interface bus controller 21 for controlling the universal interface bus 21a for inputting and outputting information of the microcomputer 11 and the measuring instrument 22. Automatic signal switching and control device for measuring test points of printed circuit boards. According to claim 1, A plurality of input keys (10a) input to measure the test point (4) of the printed circuit board 5 corresponding to the key panel unit 10, and the output of the measuring instrument 22 The high key 10b is set to select the video selector board as a control signal of the microcomputer 11 and outputs the video in a video form, and the low frequency selector board outputs the output of the measuring instrument 22 as a control signal of the microcomputer 11. Automatic signal switching and control device for measuring the test point of the printed circuit board, characterized in that it comprises a low key (10b) to set to output in the form of voice. The process of claim 1, wherein a corresponding input key (10a) of the key panel unit (10) is input to the microcomputer (11) and the measurement operation is controlled by the control of the microcomputer (11). And a video board selection light emitting device 15b for displaying the progress of a measurement operation by the selection of the video selector board 18 under the control of the microcomputer 11, and the microcomputer. And a low frequency board selection light emitting element 15c for displaying the progress of the measurement operation by the selection of the low frequency selector board 18 under the control of (11). Signal switching and control system. 4. The automatic signal switching and control device for measuring test points of a printed circuit board according to claim 3, wherein the light emitting elements (15a-15c) comprise a light emitting diode, a 7-segment combination, or a liquid crystal display (LCD). The printed circuit according to claim 1, wherein the jig fixture (16) comprises a plurality of probes in a jig form according to the test point (4) of the printed circuit board (5) under the control of the microcomputer (11). Automatic signal switching and control device for measuring test points of boards.