JP3928366B2 - Circuit board inspection apparatus and circuit board manufacturing method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a circuit board inspection apparatus and circuit board inspection method for inspecting an electronic circuit mounted on a substrate, and a circuit board manufacturing method for forming an electronic circuit on a substrate.
[0002]
[Prior art]
In recent years, personal computers, workstations, and the like have been frequently used, and a large number of CPU (central processing unit) boards (also referred to as motherboards) on which microprocessors, memories, and the like used for these are mounted are manufactured. It has become.
At this time, it is necessary to perform a function test for confirming the operation of the basic function of the CPU board as the board to be tested.
[0003]
In addition, unlike a normal electronic circuit, a CPU board operates by a program stored in a memory or a hard disk. Therefore, the CPU is operated for each processing item while giving a processing instruction from the outside via a keyboard. Therefore, a function test must be performed for each item.
Here, the processing items include start-up processing, image display function for CRT (cathode ray tube), HDD (hard disk) and FDD (floppy). (Registered trademark) Discrete functions such as I / O processing with a disk), I / O processing at each communication port (serial port, printer port), data input processing from a keyboard, and voice processing.
[0004]
Therefore, in the prior art, as shown in FIG. 3, an operator sequentially gives a test command from the keyboard 21 to the test apparatus, and causes the test apparatus 17 to perform a test according to the command.
That is, in response to the above command, the external controller gives a predetermined signal to the CPU board 10 by a CPU 19 (not shown) according to the inspection program, or when the CPU 19 is not mounted, by a test sequence of the sequencer. A response signal from the CPU board 10 to the signal is input, and the inspection unit 18 determines whether or not the CPU board 10 is operating normally based on the response signal.
In the following description, it is assumed that the test apparatus 17 is controlled by the CPU 19 and the CPU board 10 is performing a test operation.
[0005]
For example, before the test of the CPU board 10, the worker activates the CPU board and performs initial setting (default setting at the time of factory shipment) of the BIOS (basic I / O system) from the keyboard 13.
At this time, the operator needs to confirm the BIOS setting while viewing the CRT initial setting screen until the setting of the CPU board 10 is completed.
Then, after confirming that the BIOS setting has been completed, the worker restarts the CPU board 10 using the OS stored in the HDD 16.
[0006]
Next, the operator confirms the operation of the CPU board 10 until the CPU board 10 is restarted by the OS, and confirms the image display function of the graphic LSI on the display screen of the restarted CRT 14.
Then, the worker activates the test program stored in the HDD 16 from the keyboard 13.
This test program controls the operation of the CPU board 10, that is, the CPU 11, based on the control signal transmitted from the inspection unit 18 via the interface unit 20 and the communication port of the CPU board 10.
[0007]
Then, in order to confirm the communication port of the CPU board 10, the worker inputs a control signal for testing the communication port from the keyboard 21 to the inspection unit 18, and transmits this control signal to the CPU board 10.
Thereby, the CPU 11 transmits a response signal to the inspection unit 18 via the interface unit 20 in response to the input control signal.
As a result, the inspection unit 18 determines whether or not the communication port of the CPU board 10 is operating normally depending on whether or not a response signal corresponding to the output control signal has returned.
Then, the worker performs the above-described communication port test for each communication port (serial port, parallel port).
[0008]
In addition, the operator tests whether or not the key input on the keyboard 13 is normally performed by checking the characters displayed on the CRT 14 by actually pressing the keys on the keyboard 13.
Further, the operator confirms the output of the actual sound for each terminal that outputs sound, such as a speaker and an earphone jack connected via the interface unit 20 according to a command from the keyboard 13, thereby performing sound processing. Checking the operation.
In addition, in response to an instruction from the operator's keyboard 13, the inspection unit 18 detects the voltage level of the communication port, light emitting LED, etc. detected by the test probe brought into contact with the test pad arranged corresponding to the output of each circuit. Is compared with a preset voltage level to perform an electrical test.
[0009]
[Problems to be solved by the invention]
However, the above-described conventional inspection apparatus needs to sequentially input control signals or commands from the keyboard 13 and the keyboard 21 every time the operator performs the test of the above processing items, and the inspection processing is complicated. There's a problem.
Further, in the conventional inspection apparatus, it is necessary for an operator to work on the CPU board 10 during the processing, the inspection efficiency is very poor, and the productivity of manufacturing the CPU board 10 is hindered from being improved. It is a factor.
The present invention has been made under such a background, and it is possible to improve the efficiency of inspection of a circuit board (CPU board) and improve the productivity of the circuit board and the circuit board inspection apparatus. It is to provide an inspection method and a circuit board manufacturing method.
[0010]
[Means for Solving the Problems]
The circuit board inspection apparatus of the present invention is connected to the circuit board at the time of use in a circuit board inspection apparatus (for example, the circuit board inspection apparatus 30) for inspecting a circuit board (for example, the CPU board 10) on which an electronic circuit is mounted. A simulated signal output unit (for example, a simulated signal circuit or CPU 11) that outputs an external signal output from the external input / output device as a simulated signal by simulation, and a communication port provided on the circuit board A signal input / output unit (for example, a signal input / output circuit 35) that generates / supplys a control signal for inspecting the electronic circuit and inputs an output signal output from the electronic circuit based on the control signal and the simulation signal. ) And an inspection unit (for example, the inspection unit 36) that determines the quality of the circuit board based on the output signal. The pseudo signal output unit, the signal input / output unit, and the inspection unit are controlled by a CPU mounted on the circuit board. It is characterized by that.
[0011]
In the circuit board inspection apparatus of the present invention, the CPU performs an inspection by comparing the simulation signal with expected value data preset in a storage unit of an electronic circuit.
The circuit board inspection apparatus of the present invention is In the first switch group connected to the X matrix signal terminal and the second switch group connected to the Y matrix signal terminal, the simulated signal output unit includes the first switch group and the second switch group. By selecting one switch each and turning it on, An external signal output from a keyboard is simulated and output as a simulated signal.
[0012]
In the circuit board inspection apparatus according to the present invention, the simulation signal output unit includes the other terminal of the switch of the first switch group in which one terminal is connected to each signal line of the X matrix control signal, and one terminal is Y. A switch group configuration is connected to the other terminal of the switch of the second switch group connected to each of the signal lines of the matrix control signal, and a simulated keyboard signal is generated by the switch group configuration. To do.
[0013]
In the circuit board inspection apparatus according to the present invention, the signal input / output unit outputs a control signal for setting a BIOS in the circuit board based on a status signal output from the CPU.
In the circuit board inspection apparatus according to the present invention, the signal input / output unit uses a simulated keyboard signal output from the simulated signal output unit as a control signal for setting a BIOS.
[0014]
The circuit board manufacturing method of the present invention is a circuit board manufacturing method for manufacturing a circuit board on which an electronic circuit is mounted. In the circuit board manufacturing method, a wiring layer forming step for forming wiring layers on both sides of the circuit board, an electronic component on the circuit board, and An electronic component mounting process for mounting an output terminal, a wiring inspection process for detecting whether or not the electronic component and the output terminal are wired by the wiring, and whether or not there is a wiring defect in the wiring, and the circuit in use Control that outputs an external signal output by an external input / output device connected to the board as a simulation signal by simulating and inspects the electronic circuit via a communication port provided on the circuit board A signal is generated / supplied, and an output signal output from the electronic circuit is input based on the control signal and the simulation signal. Based on the output signal, the circuit board A function test step for determining pass / fail and performing a function test of the electronic circuit, wherein in the function test step, the simulation signal output, the control signal output, and the pass / fail determination of the circuit board are performed on the circuit board. It is characterized by being controlled by a mounted CPU.
[0015]
The circuit board manufacturing method of the present invention is characterized in that the CPU performs an inspection by comparing the simulation signal with expected value data preset in a storage unit of an electronic circuit.
In the circuit board manufacturing method of the present invention, in the function inspection step, In the first switch group connected to the X matrix signal terminal and the second switch group connected to the Y matrix signal terminal, one switch is selected from each of the first switch group and the second switch group. By turning it on, An external signal output from a keyboard is simulated and used as a simulated signal.
[0016]
In the circuit board manufacturing method according to the present invention, the generation of the simulated signal of the keyboard includes the other terminal of the switch of the first switch group in which one terminal is connected to each signal line of the X matrix control signal, and one terminal. Is performed by a switch group configuration in which the other terminal of the switch of the second switch group connected to each signal line of the Y matrix control signal is connected.
[0017]
The circuit board manufacturing method according to the present invention is characterized in that, in the function inspection step, BIOS setting processing is sequentially performed using the simulated signal of the keyboard based on the status signal output from the CPU.
In the circuit board manufacturing method of the present invention, in the function inspection step, an audio signal output from the audio processing unit of the electronic circuit is input by the audio processing unit, thereby outputting an audio signal and an input audio processing function. It is characterized by performing an inspection.
[0018]
A program for operating the circuit board inspection apparatus according to the present invention is provided on a circuit board on which an electronic circuit is mounted. Inspection Claims 1 to 6 The circuit board according to any one of Inspection A program for operating the apparatus, which is provided on the circuit board, and a simulated signal output process for outputting an external signal output from an external input / output device connected to the circuit board when used as a simulated signal by simulation. A signal input / output process for generating / supplying a control signal for inspecting the electronic circuit through the communication port, and inputting an output signal output from the electronic circuit based on the control signal and the simulation signal; A determination process for determining the quality of the circuit board based on the output signal, the simulation signal output process, Note I / O processing and judgment processing Is a program for operating a circuit board inspection apparatus having a process of performing a function inspection of the electronic circuit by being controlled by a CPU mounted on the circuit board .
[0019]
The program for operating the circuit board inspection apparatus of the present invention is characterized in that the CPU performs inspection by comparing the simulation signal with expected value data preset in a storage unit of an electronic circuit.
The program for operating the circuit board inspection apparatus of the present invention is the function inspection process, In the first switch group connected to the X matrix signal terminal and the second switch group connected to the Y matrix signal terminal, one switch is selected from each of the first switch group and the second switch group. By turning it on, An external signal output from a keyboard is simulated and used as a simulated signal.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of an inspection apparatus 30 according to an embodiment of the present invention.
In this figure, a CPU 11 and a memory 12 are mounted on a CPU board 10, and self-inspection, that is, self-check is performed by an OS and an inspection program stored in the HDD 16.
[0021]
One of the differences between the circuit board inspection apparatus of the present invention and the conventional circuit board inspection apparatus is that the inspection apparatus 30 is controlled by the CPU 11 that operates according to a test program stored in the HDD 16.
In addition, in the present invention, compared with the circuit board inspection apparatus of the conventional example, the inspection of the completed circuit board is greatly automated, and the command signal from the CPU 11 on the CPU board 10 to be tested is used for the CPU board 10. It was set as the structure which controls a test | inspection.
For this automation and the use of the CPU 11 on the CPU board 10 under test, the height of the yield when the CPU board 10 is manufactured (when the fully operating ratio is 95% or more, for example) is reflected. ing.
[0022]
Here, the manufacturing process of the CPU board 10 according to the present invention is roughly divided into the following processes: a wiring layer forming process, an electronic component mounting process, a wiring inspection process, and a function inspection process.
That is, in the wiring layer forming step, wiring for wiring the semiconductor elements such as the CPU 11, the memory 12, and the signal processing LSI mounted on the circuit board, the resistors, and the connectors on both sides of the circuit board of the CPU board 10. Form a layer.
Next, in the electronic component mounting step, electronic components (LSI such as CPU 11 and memory 12, resistors, capacitors, etc.) and connectors (for example, parallel port connector 40) serving as output terminals are mounted on the circuit board.
[0023]
In the wiring inspection process, whether or not the electronic component and the connector are wired by wiring (whether the necessary connection is open) and wiring defects such as a short circuit that is a defect in the wiring. Detects the presence of wiring defects due to electronic component defects.
Finally, in the function inspection process, external signals (for example, keys output by the keyboard) output from an external input / output device (for example, a keyboard, printer, scanner, etc.) connected to the CPU board 10 when the simulation signal circuit 37 is used. A communication port in which a signal input / output circuit 35 is provided on the CPU board 10, and a signal input / output circuit 35 is provided on the CPU board 10. The control signal for inspecting the electronic circuit (consisting of the CPU 11, the memory 12, the DSP, the image processing LSI (large scale integrated circuit), etc.) on the CPU board 10 is generated / supplied.
[0024]
Thereby, in the function inspection process, the circuit board inspection device 30 inputs the response signal output from the electronic circuit on the CPU board 10 based on the control signal and the simulation signal, and the inspection unit 36 sets the preset value. And the response signal is compared to determine whether the CPU board 10 is good or not, thereby performing a function test of the electronic circuit of the CPU board 10.
Hereinafter, in the operation of the circuit board inspection apparatus 30, the description that the CPU 11 controls the operation of each circuit in the circuit board inspection apparatus 30 according to the OS and the test program stored in the HDD 16 is omitted. Each circuit will be described.
[0025]
Here, in the manufacturing process of the circuit board (CPU board 10) described above, the non-defective product rate in the functional inspection process of the CPU board 10 that has been determined to be non-defective in the wiring inspection process is improved by improving the quality of each electronic component. For example, it is about 95% or more.
For this reason, it is sufficiently possible to control the circuit board inspection apparatus 30 using the CPU 11 on the CPU board 10 in the function inspection process.
Therefore, the inspection program is stored in the HDD 16, and the function inspection in the circuit board inspection apparatus 30 is controlled by the CPU 11.
The CRT 14, the FDD 15, and the HDD 16 are connected when a function inspection process is performed on the CPU board 10 by a signal input / output circuit 32 and a switching element such as an FET (field effect transistor) based on a command from the CPU 11. When the function inspection process is completed, it is disconnected.
The signal input / output unit 35 performs on / off control of the switch element based on a command (command) from the CPU 11, and electrically connects the CRT 14, FDD 15, HDD 16, and the like to the CPU board 10 as necessary. Disconnect.
For example, if the HDD 16 is composed of two HDDs 16 </ b> A and HDDB, it is possible to perform control of connection of only one of the CPU boards 10, connection of both, or disconnection of both.
[0026]
The interface unit 31 controls whether the power for driving the CPU board 10 is supplied from the commercial power supply AC 100 or the battery 22 to the CPU board 10.
The power supply to the CPU board 10 is also controlled by electrically connecting and disconnecting the above-described CRT 14, FDD 15, and HDD 16 to and from the CPU board 10 by a switching element such as an FET.
[0027]
At this time, the signal input / output unit 35 performs on / off control of the switch element in the interface unit 31 based on a command (command) from the CPU 11, and if necessary, the power supply AC 100 V to the CPU board 10 and the battery 22. Make electrical connections and disconnections.
For example, when charging the battery 22, the signal input / output unit 35 connects the power supply AC100V and the battery 22 to the CPU board 10 and charges the battery 22 with the power supply AC100V.
Then, when testing whether the battery 22 is charged and whether the power supply system of the battery 22 is normal, the power supply AC100V is disconnected while the battery 22 is connected to the CPU board 10.
Furthermore, this corresponds to the case where the battery 22 is composed of two batteries, a battery 22A and a battery 22B.
[0028]
That is, in the interface unit 31, two switch elements are prepared for the battery corresponding to the electrical connection and disconnection of the battery 22A and the battery 22B from the CPU board 10.
When charging the battery 22A, the signal input / output unit 35 disconnects the battery 22B from the CPU board 10, connects the power supply AC100V and the battery 22A, and charges the battery 22A with the power supply AC100V. .
Further, when testing whether the battery 22A is charged and whether the power system of the battery 22A is normal, the battery 22A is connected to the CPU board 10 with the battery 22B disconnected. The power supply AC100V is disconnected.
[0029]
On the other hand, when charging the battery 22B, the signal input / output unit 35 disconnects the battery 22A from the CPU board 10, connects the power supply AC100V and the battery 22B, and charges the battery 22B with the power supply AC100V. .
Further, when testing whether the battery 22B is charged and whether the power supply system of the battery 22B is normal, the battery 22B is connected to the CPU board 10 with the battery 22A disconnected. The power supply AC100V is disconnected.
[0030]
The simulated signal circuit 37 simulates a key signal (external signal) when a key of an external input / output device, for example, a keyboard is pressed, generates this key signal in a simulated manner, and generates the generated key signal. And output to the CPU board 10 via a keyboard connector (not shown).
The simulation signal circuit 37 will be described in detail with reference to FIG. FIG. 2 is a conceptual diagram showing the configuration of the simulation signal circuit 37.
In the keyboard controller 50, one terminal of each switch S1 of the first switch group including a plurality of switches S1 is connected to an X matrix signal terminal (key scan input terminal), and one terminal of the switch S1 is connected. X matrix signals X1 to X16 are output to each of the signals.
In the keyboard controller 50, one terminal of each switch S2 of the second switch group including a plurality of switches S2 is connected to a Y matrix signal terminal (key scan output terminal). Y matrix signals Y1 to Y8 are output to each of the one terminals.
[0031]
Further, all the other terminals of each of the switches S1 are connected, and similarly, all the other terminals of each of the switches S2 are connected. In addition, the other terminal of the switch S1 and the other terminal of the switch S2 are connected. It is connected.
Then, the signal input / output circuit 35 (see FIG. 1) turns on one of the switches S1 in the first switch group, turns off the other switch S1, and any one of the switches S2 in the second switch group. By turning on the other switch S2 and turning off the other switch S2, an input of a key switch of the keyboard, that is, a key signal (an example of a simulation signal) is generated in a simulated manner (simulated).
[0032]
Usually, the keyboard is arranged by corresponding the key switch of the keyboard to the intersection of the X matrix signal and the Y matrix signal, and one of the X matrix signals X1 to X16 and the Y matrix signals Y1 to Y8. The key signal indicating which key switch is pressed is output depending on whether any one of them is touched by the key switch.
On the other hand, the simulated signal circuit 37 according to the embodiment requires 128 switches if the switches are placed at the intersections of the X matrix signal and the Y matrix signal, respectively, due to the connection described above. The number of switches can be reduced to 24.
[0033]
Returning to FIG. 1, the signal input / output unit 35 generates a control signal for inspecting the CPU board 10 in response to a command signal from the CPU 11, and supplies the control signal via a communication port provided on the CPU board 10. An output signal output from the CPU 11 of the CPU board 10 based on the signal and the key signal is input via the communication port. The LED level detection unit 38 detects the voltage level supplied to the LED indicating the operation status of each circuit by lighting / non-lighting output from the electronic circuit on the CPU board 10 according to the control signal, and outputs it to the inspection unit 36. To do.
[0034]
The inspection unit 36, in each inspection (test) in the function inspection process, a response signal output by each CPU board 10 corresponding to the control signal, a value set in advance corresponding to each type of control signal, By comparing, the quality of the CPU board 10 is determined.
The switching circuit 32 connects any of audio output terminals such as a speaker, a line (line output to an external device), an earphone or the like as an audio output to the audio input terminal under the control of the CPU 11 via the signal input circuit 35. Switch what to do.
[0035]
Next, an operation example of one embodiment will be described with reference to FIGS. 1 and 2.
Here, the manufacturing process of the CPU board 10 ends up to the wiring layer forming process, the electronic component mounting process, and the wiring inspection process, and the function inspection process of the CPU board 10 by the circuit board inspection apparatus 30 in the function inspection process is described. Do.
Hereinafter, in the operation of the circuit board inspection apparatus 30, the description that the CPU 11 controls the operation of each circuit in the circuit board inspection apparatus 30 in accordance with the OS and the test program stored in the HDD 16 will be omitted. The operation of each of the 30 circuits will be described.
[0036]
After the CPU board 10 is set on the jig of the circuit board inspection apparatus 30, the BIOS setting (setting of the default value at the time of factory shipment) for setting the operation of each LSI on the CPU board 10 is performed.
When the power is turned on, the CPU 11 starts an operation by a startup program stored in a nonvolatile memory on the board and outputs a status signal indicating an operation state from a predetermined terminal.
The signal input / output unit 35 detects the status signal from the substrate of the CPU board 10 by a test probe brought into contact with a test pad arranged corresponding to the output of each circuit, and based on the status signal sequentially input, By performing on / off control of the switches S1 and S2, the key signal corresponding to the character string data for setting the BIOS is sequentially output to the simulated signal circuit 37 to cause the CPU 11 to set the BIOS.
[0037]
When the signal input / output unit 35 detects from the status signal that the BIOS setting has been completed, the signal input / output unit 35 outputs a character string instructing the restart to the CPU board 10 and restarts the CPU board 10.
At this time, the check of the memory 12 is completed by a self-check when the CPU board 10 is activated.
Thereby, each I / O port (that is, communication port) of the CPU board 10 is set, and the communication port of the CPU board 10 can be used.
When the restart of the OS (operation system) is completed, a test program in the HDD 16 is started, and a test of each communication port 40 (serial port, parallel port, USB (Universal Serial Bus), mouse port) is started.
[0038]
That is, the CPU 11 instructs the signal input / output unit 35 to start the test of each communication port, and the combination of all of the signal lines changing to “0” and “1” for these communication ports. Data, that is, simulated simulation signals are sequentially output.
Then, the signal input / output unit 35 returns the same data (or inverted data) as the simulation signal sequentially input to the CPU board 10 as a response signal at the communication port from which the command is output (external input). Simulate the external signal output by the output device).
As a result, the CPU 11 determines whether the simulated signal data output to the communication port matches the response signal data input from the communication port (or whether the inverted value matches). The determination is made for each transmission / reception of each data, and the determination result is output to the inspection unit 36 via the signal input / output unit 35.
[0039]
The inspection unit 36 determines the quality of all signal lines of the communication port based on the determination result.
Then, the above-described communication port test is sequentially performed on all serial ports and parallel ports.
Also, because the communication port system is defective, transmission / reception at the communication port is not performed, the command itself from the CPU board 10 cannot be transmitted to the signal input / output unit 35, and there is no response to the data transmitted by the CPU 11. The CPU 11 operates the timer from the data transmission, and outputs a beep sound that notifies the communication port from the speaker 33 when there is no response from the signal input / output unit 35 within a predetermined time (for example, within 10 msec).
[0040]
Here, when the communication port test is performed, the switching circuit 32 is initially set to output a sound output to the speaker 33 (set at the start of inspection by the circuit of the circuit board inspection apparatus 30). .
Then, when the test of each communication port is completed, the CPU 11 starts control of the circuit board inspection apparatus 30 using one of the communication ports, for example, using a parallel port.
[0041]
Next, the inspection unit 36 confirms the simulated key signal. The signal input / output circuit 35 controls the switches S1 and S2 in the simulation signal circuit 37 under the control of the CPU 11, and outputs a predetermined key signal to the CPU board 10.
Then, according to the test program, the CPU 11 of the CPU board 10 outputs data similar to the input key signal as a response signal to the inspection unit 36 via the communication port.
Further, the inspection unit 36 controls the input response signal (an output signal to which the CPU board 10 responds), the switch S1 of the first switch group, and the switch S2 of the second switch group, and the simulated signal circuit 37. It is determined whether or not the data of the key signal stored in the memory 12 or the HDD 16 that is output in step S1 matches the key signal data.
[0042]
Next, when the image processing function test is performed, the CPU 11 outputs a beep sound that notifies the start of the image processing function test from the speaker 33.
Since the CPU board 10 is set on the jig of the circuit board inspection apparatus 30, the test involving the operator is the first test of this image processing function.
Due to the beep sound that notifies the start of the test of the image processing function, the operator comes in front of the circuit board inspection apparatus 30 that tests the image processing function in the plurality of path board inspection apparatuses 30, and this circuit board inspection apparatus Press the confirmation switch on the panel 30 (not shown).
[0043]
The signal input / output unit 35 detects that the confirmation switch has been pressed, and outputs a control signal for causing the CPU 11 to start a test of the image processing function via the parallel port.
When this control signal is input, the CPU 11 starts a test of the image processing function.
That is, the CPU 11 transmits data for obtaining a key signal necessary for the screen operation to the signal input / output unit 35.
As a result, the signal input / output unit 35 outputs a signal for on / off control of the switch S1 and the switch S2 to output a key signal necessary for the screen operation to the simulation signal circuit 37.
[0044]
Then, the simulation signal circuit 37 sequentially outputs key signals for inspecting the image processing function to the CPU board 10.
The image processing function referred to here includes a test of each resolution of an image in the CRT 14, a setting of a screen color, and a setting of horizontal synchronization and vertical synchronization.
This test of the image processing function is a very complicated and troublesome test when automating because it inspects subtle hues and screen conditions, and the test equipment is also very expensive and accurate. It is impossible to do this, so it must be done by human eye inspection.
[0045]
When the test of the above-described image processing function is completed, the operator presses a path switch (not shown) of the path according to the result of the test, and the image processing function is not satisfied Press the fail switch (not shown).
As a result, when the pass switch is pressed, the signal input / output unit 35 outputs a control signal for shifting to the next test to the CPU board 10, and when the fail switch is pressed, the control signal for ending the test is output to the CPU. Output to the board 10.
Then, the CPU 11 determines whether or not to continue the test based on the control signal.
That is, the CPU 11 continues the test of the CPU board 10 when a control signal for shifting to the next test is input, and ends the test of the CPU board 10 when a control signal for ending the test is input.
[0046]
Next, the CPU 11 tests the voice processing function. This sound processing function outputs sound data (sound data as a simulated simulation signal) stored in the memory 12 or the like from a speaker 33 or a sound output terminal (not shown) (D / A conversion), and this is converted into a microphone. The voice processing function that is input from the terminal 34 and stored in the memory 12 (A / D conversion) is tested.
At this time, in the test of the voice processing function, it is necessary for the worker to actually listen to the voice through one of the passes.
That is, even if D / A and A / D conversion in a DSP (digital signal processor) mounted on the CPU board 10 is operating, sound is recorded / reproduced correctly unless it is judged by hearing with human ears. Cannot determine whether or not
[0047]
For this reason, in recording / reproduction, the CPU 11 stores audio data in the HDD 16 that can easily detect the failure state of the audio processing function, and reproduces the audio data by D / A conversion using the DSP. The reproduced sound is input from the microphone 34 and A / D converted, and then stored in the memory 12.
Then, after the above process is completed, the CPU 11 outputs a beep sound from the speaker 33 that starts a test of the voice processing function that the worker hears and determines.
[0048]
With the beep sound that notifies the start of the voice processing function test, the operator comes to the plurality of route board inspection apparatuses 30 before the circuit board inspection apparatus 30 that performs the voice processing function test, and this circuit board inspection apparatus. Press the confirmation switch on the panel 30 (not shown).
The signal input / output unit 35 detects that the confirmation switch has been pressed, and outputs a control signal for causing the CPU 11 to start a test of the voice processing function via the parallel port.
[0049]
Next, the CPU 11 starts a test of the voice processing function when this control signal is input.
That is, the CPU 11 performs D / A conversion again on the audio data input from the microphone 34 stored in the memory 12 or the HDD 16 and subjected to A / D conversion, and outputs the audio data from the speaker 33.
Then, the worker listens to the sound output from the speaker 33, and determines whether or not the sound processing is correctly performed by the A / D conversion and D / A conversion by the DSP.
[0050]
When the operator finishes the above voice processing function test, if the voice processing function is satisfied according to the test result, the operator presses a path switch (not shown), and the voice processing function is not satisfied Press the fail switch (not shown).
As a result, when the pass switch is pressed, the signal input / output unit 35 outputs a control signal for shifting to the next test to the CPU board 10, and when the fail switch is pressed, the control signal for ending the test is output to the CPU. Output to the board 10.
Then, the CPU 11 determines whether or not to continue the test based on the control signal.
That is, the CPU 11 continues the test of the CPU board 10 when a control signal for shifting to the next test is input, and ends the test of the CPU board 10 when a control signal for ending the test is input.
[0051]
Next, after the test of the voice processing function by directly listening with the human ear is completed, the CPU 11 sends a command to the signal input / output unit 35 to switch the test path of the voice processing function of the switching circuit 32. .
In other words, the CPU 11 switches the path between the audio output terminal and the audio input terminal, D / A converts the audio data in the memory 12 and outputs the audio signal as an audio signal from the audio output terminal in all combinations of paths. It is determined whether or not the audio signal input from the terminal is again A / D converted into audio data, for example, whether or not the input audio data is stored in the memory.
Then, the CPU 11 continues the test of the CPU board 10 when the voice processing function passes in all the above-described combinations in the test of the voice processing function, and when any of the above-mentioned combinations fails, the CPU board 10 Finish the test.
[0052]
Next, the CPU 11 performs a test of the voltage level output from each circuit in the CPU board 10 as an inspection of the function of each circuit.
For example, the test probe is brought into contact with a test pad formed on the wiring and the HDD 16 is driven to drive the LEDs indicating the driving state of each circuit, the voltage level of the RS232C, etc. Do the test.
At this time, the CPU 11 outputs information indicating which circuit is driven to the inspection unit 36 via the signal input / output unit 35.
[0053]
Then, the CPU 11 operates a circuit corresponding to the information output to the inspection unit 6 on the CPU board 10.
Here, the LED level detection unit 38 samples a voltage output from the circuit, for example, an application voltage to be applied to the LED indicating the driving state of the HDD 16, and performs A / D conversion on the sampled application voltage, and then an inspection unit. To 36.
At this time, the inspection unit 36 compares the output voltage of the circuit to be tested, which is stored in advance, with the sampled applied voltage, and is within a voltage range (spec) set for each circuit. Determine whether or not.
Then, in the above-described voltage level test, when all the voltage levels output from all the circuits described above pass, the CPU 11 continues the test of the CPU board 10 and any one of the voltage levels output from the above-described circuits is detected. If it is a failure, the test of the CPU board 10 is terminated.
[0054]
Next, the CPU 11 confirms the operation of the CPU board 10 by supplying power from the battery 22 in the CPU board 10.
At this time, the CPU 11 outputs a command to disconnect the AC power supply path to the signal input / output unit 35, assuming that the battery 22 is sufficiently charged.
As a result, the signal input / output circuit 35 outputs a control signal for cutting the AC power supply path to the interface unit 31.
Then, the interface unit 31 cuts off the AC power supply path to the CPU board 10.
[0055]
Here, the LED level detection unit 38 detects the voltage of the internal power generated by the power supply circuit on the CPU board 10 from the test probe in contact with the test pad by the power supplied from the battery 22, and performs A / D conversion. After that, it is output to the inspection unit 36 as voltage data.
Then, the inspection unit 36 determines whether or not the voltage data is within the voltage level range set inside, and outputs the determination result to the CPU 11 via the signal input / output unit 35. .
Next, the CPU 11 performs data writing and reading tests on the FDD 15.
[0056]
In each of the tests described above, when the CPU board 10 passes in all tests, the CPU 11 outputs a beep sound indicating that the test passes in all the tests described above from the speaker 33 and also passes to the CRT 14 with a pass. Display that there is.
On the other hand, when the CPU board 10 fails in any of the above-mentioned tests, the CPU 11 outputs a beep sound indicating that the test has failed from the speaker 33 and also fails in any test to the CRT 14. A display indicating whether or not
[0057]
As described above, according to the circuit board inspection device 30 according to the embodiment of the present invention, the CPU uses the character string by the key signal generated by the simulation of the keyboard in the signal input / output unit 35 and the simulation signal circuit 37. Since each command (command) input process to the board 10 is performed, the initial setting of the BIOS is not performed by the operator as in the conventional inspection of the CPU board 10, and the man-hours in the function inspection process are reduced. Since the number of workers required for testing one CPU board 10 can be reduced, a single worker can inspect a plurality of CPU boards 10 in parallel, thereby improving the efficiency of the function inspection process. It becomes possible.
[0058]
Further, according to the circuit board inspection apparatus 30 according to the embodiment, even in the case of the image processing function test, the simulated signal circuit 37 generates a key signal for the screen operation without a human being inputting a character string with the keyboard. Since the data is output, a test can be performed by checking the image of the CRT 14 by the worker, and there is no mistake in inputting the key signal by the worker, and the efficiency of the function inspection process can be improved.
[0059]
Further, according to the circuit board inspection apparatus 30 according to the embodiment, in the test of the voice processing function, only one system of the combination of connection between the voice input terminal and the voice output terminal is stored in the memory 12 by the human ear. After the CPU 11 determines whether or not the reproduction of the audio data stored (stored) in the memory 12 is normal, the CPU 11 changes the combination of the other audio input terminals and the audio output terminals by the switching circuit 32, In order to test data reproduction and voice data storage, compared to the conventional case where all humans are listening to the output voice, the man-hours in the function inspection process can be reduced. Since it is possible to reduce the number of workers in the test of the CPU board 10, a single worker can inspect a plurality of CPU boards 10 in parallel. , It is possible to improve the efficiency of the function test process.
[0060]
As described above, according to the circuit board inspection apparatus 30 according to the embodiment, the efficiency of the function inspection process can be greatly improved, and the wiring layer forming process, the electronic component mounting process, the wiring inspection process, and the function inspection process can be performed. Since the production of the CPU board 10 (circuit board) comprising these steps can be made much more efficient and the number of workers can be greatly reduced, the production cost of the CPU board 10 can be reduced.
[0061]
Next, a program executed by the computer according to the embodiment of the present invention will be described.
The program executed by the CPU of the computer system in the circuit board inspection apparatus in FIG. 1 constitutes a program according to the present invention.
As a recording medium for storing this program, a magneto-optical disk, an optical disk, a semiconductor memory, a magnetic recording medium or the like can be used, and these are configured as a ROM, a RAM, a CD-ROM, a floppy disk, a memory card, or the like. May be used.
[0062]
In addition, the recording medium can store a program for a certain period of time, such as a volatile memory such as a RAM in a computer system serving as a server or a client when the program is transmitted via a network such as the Internet or a communication line such as a telephone line. The thing to hold is also included.
[0063]
The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. The transmission medium refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
[0064]
The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, what is called a difference file (difference program) may be sufficient.
[0065]
Therefore, even if this program is used in a system or apparatus different from the system or apparatus of FIG. 1 and the computer of the system or apparatus executes this program, the functions equivalent to the functions and effects described in the above embodiments are also provided. And the effect of the present invention can be achieved.
[0066]
As mentioned above, although one embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and there are design changes and the like without departing from the gist of the present invention. Are also included in the present invention.
[0067]
【The invention's effect】
According to the circuit board inspection apparatus (for example, the circuit board inspection apparatus 30) according to the embodiment of the present invention, the signal input / output unit (for example, the signal input / output unit 35) and the simulation signal output unit (for example, the simulation signal circuit 37). This is performed by using a character string by a key signal generated by a keyboard simulation in the system, so that the initial setting of the BIOS is not performed by an operator as in the conventional circuit board (for example, CPU board 10) inspection. Since the number of man-hours in the inspection process can be reduced, and the number of man-hours required for testing one circuit board can be reduced, a single worker can inspect multiple circuit boards in parallel. The efficiency of manufacturing the circuit board can be improved.
[0068]
According to the circuit board inspection apparatus according to the embodiment, the simulated signal output unit generates and outputs the key signal for the screen operation without human input of the character string even in the case of the image processing function test. Therefore, the circuit board test can be performed without the operator checking the CRT image one by one, and the operator does not perform key input from the keyboard. By preventing this, it becomes possible to improve the manufacturing efficiency of the circuit board.
[0069]
Furthermore, according to the circuit board inspection apparatus according to the embodiment, in the test of the voice processing function, only one system of the combination of the connection between the voice input terminal and the voice output terminal is used by the human ear, and the voice data for the memory in the electronic circuit is recorded. After determining whether or not the audio data stored and stored in the memory is normal, the CPU (for example, the CPU 11) uses the switching circuit 32 to select a combination of the other audio input terminal and the audio output terminal. In order to test the playback of voice data and the storage of voice data while changing, compared to the conventional case where all human beings are listening to the output voice, reducing the man-hours in the function inspection process It is possible to reduce the number of man-hours required for testing one circuit board, and one worker can inspect multiple circuit boards in parallel. Next, it is possible to improve the efficiency of production of the circuit board.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a circuit board inspection apparatus according to an embodiment of the present invention.
2 is a block diagram showing a configuration of a keyboard simulator of a simulation signal circuit 37 in FIG. 1. FIG.
FIG. 3 is a block diagram showing a configuration of a circuit board inspection apparatus according to a conventional example.
[Explanation of symbols]
10 CPU board
11 CPU
13 Keyboard
14 CRT
15 FDD
16 HDD
22 battery
30 Circuit board inspection equipment
31 Interface section
32 switching circuit
33 Speaker
34 Earphone jack
35 Signal input / output circuit
36 Inspection Department
37 Simulated signal circuit
38 LED level detector

Claims (15)

In a circuit board inspection apparatus for inspecting a circuit board on which an electronic circuit is mounted,
An external signal output from an external input / output device connected to the circuit board at the time of use, a simulated signal output unit that outputs as a simulated signal by simulating;
A control signal for inspecting the electronic circuit is generated / supplied via a communication port provided on the circuit board, and an output signal output from the electronic circuit based on the control signal and the simulation signal is input. A signal input / output unit
An inspection unit that determines the quality of the circuit board based on the output signal, and
The circuit board inspection apparatus, wherein the pseudo signal output unit, the signal input / output unit, and the inspection unit are controlled by a CPU mounted on the circuit board.   The circuit board inspection apparatus according to claim 1, wherein the CPU performs inspection by comparing the simulation signal with expected value data preset in a storage unit of an electronic circuit. In the first switch group connected to the X matrix signal terminal and the second switch group connected to the Y matrix signal terminal, the simulated signal output unit includes the first switch group and the second switch group. 3. The circuit board according to claim 1 , wherein a switch is selected and turned on one by one to generate an external signal output from the keyboard in a simulated manner and output it as a simulated signal. Inspection device.   The simulated signal output unit has one terminal connected to each of the X matrix control signal signal lines and the other terminal of the switch of the first switch group, and one terminal connected to each of the Y matrix control signal signal lines. 4. The circuit board according to claim 3, wherein the circuit board has a switch group configuration connected to the other terminal of the switch of the second switch group, and generates a simulated signal of a keyboard by the switch group configuration. Inspection device.   5. The circuit according to claim 1, wherein the signal input / output unit outputs a control signal for setting a BIOS in the circuit board based on a status signal output from the CPU. Board inspection equipment.   6. The circuit board inspection apparatus according to claim 5, wherein the signal input / output unit uses a simulated keyboard signal output from the simulated signal output unit as a control signal for setting a BIOS. In a circuit board manufacturing method for manufacturing a circuit board on which an electronic circuit is mounted,
A wiring layer forming step of forming wiring layers on both sides of the circuit board;
An electronic component mounting process for mounting electronic components and output terminals on a circuit board;
A wiring inspection step of detecting whether or not the electronic component and the output terminal are wired by the wiring, and whether or not there is a wiring defect in the wiring;
An external signal output from an external input / output device connected to the circuit board at the time of use is output as a simulation signal by simulation, and the electronic circuit is connected via a communication port provided on the circuit board. A control signal for performing inspection is generated / supplied, an output signal output from the electronic circuit is input based on the control signal and the simulation signal, the quality of the circuit board is determined based on the output signal, and the electronic circuit Functional inspection process for performing functional inspection of
In the function inspection step, a CPU mounted on the circuit board controls the simulation signal output, the control signal output, and the quality determination of the circuit board.   8. The circuit board manufacturing method according to claim 7, wherein the CPU performs inspection by comparing the simulation signal with expected value data preset in a storage unit of an electronic circuit. In the function inspection step, in the first switch group connected to the X matrix signal terminal and the second switch group connected to the Y matrix signal terminal, the first switch group and the second switch group respectively by the child and on one by one by selecting the switch, according to claim 7 or claim 8, characterized in that it used an external signal as a simulated generates and simulation signal output from the keyboard Circuit board manufacturing method.   The generation of the simulation signal of the keyboard includes the other terminal of the switch of the first switch group in which one terminal is connected to each signal line of the X matrix control signal, and one signal terminal of each signal line of the Y matrix control signal. The circuit board manufacturing method according to claim 9, wherein the circuit board manufacturing method is performed by a switch group configuration in which the other terminal of the switch of the second switch group connected to is connected.   11. The BIOS setting process according to claim 7, wherein the BIOS setting process is sequentially performed using the simulated signal of the keyboard based on the status signal output by the CPU in the function inspection step. The circuit board manufacturing method as described.   In the function inspection step, an audio signal output from the audio processing unit of the electronic circuit is input by the audio processing unit, so that an output of the audio signal and an input audio processing function are inspected. The circuit board manufacturing method according to claim 7. A program for operating the circuit board inspection apparatus according to any one of claims 1 to 6 , wherein an inspection of a circuit board on which an electronic circuit is mounted is performed.
A simulated signal output process for outputting an external signal output from an external input / output device connected to the circuit board during use as a simulated signal by simulating;
A signal for generating / supplying a control signal for inspecting the electronic circuit through a communication port provided on the circuit board and inputting an output signal output from the electronic circuit based on the control signal and the simulation signal Input / output processing;
Determination processing for determining the quality of the circuit board based on the output signal,
The simulation signal output processing, pre lymphotoxin Nos output processing, and by the determination process be controlled by a CPU mounted on the circuit board, the circuit characterized by having a process of performing function tests the electronic circuit A program that operates a board inspection device.   14. The program for operating a circuit board manufacturing apparatus according to claim 13, wherein the CPU checks the simulation signal against expected value data preset in a storage unit of an electronic circuit. In the function inspection process, in the first switch group connected to the X matrix signal terminal and the second switch group connected to the Y matrix signal terminal, the first switch group and the second switch group respectively 15. The circuit according to claim 13, wherein an external signal output from a keyboard is simulated and used as a simulation signal by selecting and turning on a switch one by one. A program that operates a board manufacturing system.

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