KR940002269B1 - D.c. voltage margin and a.c. power on/off checking apparatus and method - Google Patents

Abstract

The checking system employs a micro controller to reduce labor charge and increase test reliability. The apparatus comprises the following: a micro controller which includes the program controlling the test apparatus; a control buffer; an address decoder; a bidirectional data buffer; an I/O control whose input connecting to the output of the register and outputting control signal for the variable resistor.

Description

DC voltage margin and AC power on / off operation test equipment and test method

1 is a circuit diagram of a DC voltage margin and AC power on / off operation test equipment according to an embodiment of the present invention,

2 is a flowchart illustrating the operation of the DC voltage margin and the DC voltage margin inspection method of the AC power on / off operation test method according to the embodiment of the present invention.

3 is an operation flowchart of the AC power on / off operation test of the DC voltage margin and the AC power on / off operation test method according to the embodiment of the present invention.

The present invention relates to the inspection equipment and inspection method of the DC voltage margin and AC power on / off operation, in particular, the DC voltage margin and AC power of the board in the middle of the computer board inspection process The present invention relates to a DC voltage margin and an AC power on / off operation inspection device and an inspection method which automatically perform an inspection of an on / off operation using a micro-controller.

In the manufacturing process of producing a computer, generally, a printed circuit board (PCB) is equipped with component elements to supply power to a board connected to a circuit (printed wired assembly (PWA)). The process of intermediate | middle inspection is performed. As one of the intermediate test procedures of the above board, a DC voltage margin test for checking whether the board operates within the allowable value of the input DC voltage and an AC power supply for checking whether the board is turned on or off for the on / off of the AC input power. There is an on / off operation check.

In the DC voltage margin test, the tester manually adjusts the variable resistor of the power supply to set the desired DC voltage, and then supplies the DC voltage to the board to determine the board's operation status. In addition, in the AC power on / off operation test, the tester directly turns on / off the AC power switch and judges the board's operation status by judging the operating state of the board.

However, in order to check the margin of DC voltage and AC power on / off operation by the conventional method, the tester measures the output voltage of the power supply using a measuring device and directly adjusts the variable resistance of the power supply to change the output voltage. There is an inconvenience to turn on and off the AC power switch manually. This drawback is not only to increase the number of inspections because the output voltage is manually adjusted, but also to change the output voltage at the subjective judgment of the tester.

Accordingly, an object of the present invention is to solve the above-mentioned disadvantages, and the DC voltage margin and the DC power supply on / off operation are automatically inspected using a microcontroller to shorten the inspection time and increase the reliability of the inspection. To provide voltage margin and AC on / off inspection equipment and inspection method.

The configuration of the present invention for achieving the above object is a microcontroller having a program for controlling the operation of the inspection equipment; A control buffer connected to the microcontroller and a control signal line; An address decoder connected to the microcontroller and the address signal line and having an input terminal connected to the output signal line of the control buffer to decode the address signal; A bidirectional data buffer connected to a microcontroller and a data signal line and having an input terminal connected to an output signal line of an address decoder; An input terminal is connected to an external signal line and an output signal line of an address decoder, and is connected to a bidirectional data buffer and a data signal to convert an analog DC voltage output signal of a power supply device into a digital signal (Analog to Digital). converter) and; The input terminal is connected to the output signal line of the address decoder and the register connected to the A / D converter and the data signal line, and the input terminal is connected to the output signal line of the register and the output adjustment variable resistor of the power supply is electrically connected. An I / O control unit for outputting a signal to adjust; An inspection equipment comprising an AC control buffer having an input terminal connected to an output signal line of the control buffer and outputting a signal for individually turning on / off an AC power output from an alternating current outlet to the board under test; It consists of a program which is an operation method for operating the inspection equipment.

Preferred embodiments of this invention by the above-described configuration and method will be described in detail with reference to the drawings.

1 is a circuit diagram of a DC voltage margin and AC power on / off operation test equipment according to an embodiment of the present invention. As shown in FIG. 1, the structure of the DC voltage margin and the AC power on / off operation inspection apparatus according to the embodiment of the present invention is connected to the microcontroller 10, the microcontroller 10 and the control signal line. The address decoder 30 and the microcontroller 10, which are connected to the control buffer 20, the microcontroller 10 and the address signal lines A0 to A15, and whose input terminals are connected to the output signal lines of the control buffer 20. A bidirectional data buffer 40 which is connected to the data signal lines D0 to D7 and whose input terminal is connected to the output signal line of the address decoder 30, and an input terminal to the signal line from the outside and the output signal line of the address decoder 30. Input terminal is connected to the A / D converter 50 connected to the bidirectional data buffer 40 and the data signal lines D0 to D7, and to the output signal line of the address decoder 30. To the output signal line of the control buffer 20 and the register 60 connected to the output device 50 and the data signal lines D0-D7, the I / O control unit 70 connected to the input terminal of the output signal line of the register 60, and The input terminal consists of an AC control buffer 80 to which it is connected.

2 is a flowchart illustrating the operation of the DC voltage margin and the AC voltage on / off operation test method according to the embodiment of the present invention. As shown in FIG. 2, the DC voltage margin and AC power on / off operation checking method according to the embodiment of the present invention includes a start step 111 in which power is applied to start an operation. Step 112 of setting an initial screen, step 113 of selecting a time mode, step 114 of receiving a time for each step when the time mode is selected as time, and selecting a time mode in minutes Step 115 for receiving minutes for each step, confirming whether the input data is correct (116), displaying the actual value if the input data is correct (117), and each port. Initializing each time 118, setting an initial time 119, operating a time 120, determining whether the second is "1" (121), and the second " Steps 122, 123, 124 and the inspection of each unit in the case of 1 " After the completion of the inspection, steps (125, 126, 127) for determining whether the time has reached the total inspection time, and when the time has reached the total inspection time, the end step (128).

3 is an operation flowchart of the AC power on / off operation test of the DC voltage margin and the AC power on / off operation test method according to the embodiment of the present invention. As shown in FIG. 3, the operation at the time of the AC power on / off inspection of the DC voltage margin and the AC power on / off operation inspection equipment according to the embodiment of the present invention is a start step 151 in which power is applied to start the operation. A step 152 of setting an initial screen, a step 153 of inputting a total inspection time, a step 154 of initializing a port, a step 155 of setting an initial value, and a time operation A step 156, a step 157 of determining whether the on / off time is reached, a step 158 of checking the state when the on / off time is reached, and a port being turned on if the state is on Step 159, turning off the port when the state is in the off state 160, graphically representing the operation cycle 161, determining whether the operation cycle is full on the screen 162 and (163) and clearing the screen when the operation cycle is full on the screen. In operation 164, the method determines whether the inspection time is a total inspection time, and terminates the operation 165 in the case of the inspection time.

The operation of the DC voltage margin and AC power on / off operation test equipment according to the embodiment of the present invention by the above-described configuration and method are as follows.

When the power is applied, the DC voltage margin and AC power on / off operation test equipment starts to operate. DC voltage margin and AC power on / off operation test When the operation of the equipment starts, the microcontroller 10 performs one of DC voltage margin inspection and AC power on / off operation inspection to the tester through peripheral devices such as a monitor and a keyboard. Provides a main menu for selection.

When the tester selects the DC voltage margin test, the microcontroller 10 receives data such as the total test time through the menu of the initial screen. The microcontroller 10 then enables the address decoder 30 by outputting the address decoder enable signal AEN through the control buffer 20. At the same time, the microcontroller 10 outputs the address signals A0 to A15 of the 16-bit line to the address decoder 30, and the address signals A0 to A15 are decoded by the address decoder 30 to register ( 60).

When the register 60 is selected by the address decoder 30, the register 60 stores the initial value of the DC voltage initially set by the tester, which is the data signals D0 to D7 of the microcontroller 10. 70), and the I / O control unit 70 outputs a signal for electrically adjusting the variable resistor of an external power supply device (not shown) in accordance with the data signal input from the register 60.

The DC voltage is supplied to the board from the external power supply whose variable resistance is adjusted by the output signal of the I / O control unit 70, and the DC voltage input to the board is simultaneously input to the A / D converter 50. . The DC voltage which is an analog signal input to the A / D converter 50 is converted into a digital signal by the A / D converter 50 and then output to the bidirectional data buffer 40. The microcontroller 10 reads the DC voltage output signal of the power supply device inputted to the bidirectional data buffer 40 through the data buses D0 to D7 and displays it externally through the peripheral device to present to the tester from the power supply device. Indicate the DC voltage value being

The DC voltage signal of the power supply output from the A / D converter 50 is input to the register 60, and this signal is delayed for a predetermined time initially set by the microcontroller 10, and then I / O from the register 60 is delayed. It is output to the O control part 70. The I / O controller 70 adds a constant voltage increase from the signal input from the register 60, and then electrically adjusts the variable resistance of the external power supply as a signal to which the voltage increase is added.

The external power supply whose variable resistance is adjusted by the output signal of the I / O control part 70 outputs a DC voltage to the board according to the variable resistance value adjusted by the I / O control part 70 and simultaneously performs an A / D converter. The operation as described above is repeated by outputting to 50 until the total inspection time initially set. In this process, the tester judges the board's failure by checking the operation status of the board through the peripheral device.

When the tester selects an AC power on / off test, the microcontroller 10 receives data such as on / off time or total test time from the tester through a menu on the initial screen. Next, the microcontroller 10 selects the AC control buffer 80 through the control buffer 20 and simultaneously outputs data D0 to D7. Data D0 to D7 output from the microcontroller 10 are input to the AC control buffer 80 via the bidirectional data buffer 40.

The AC control buffer 80 is a buffer for controlling the AC outlet to individually turn on / off the AC power output from the AC outlet to the board under test according to the data D0 to D7 input from the bidirectional data buffer 40. Output the signal.

Therefore, the microcontroller 10 repeats the operation as described above until the total inspection time while controlling the interruption and supply of the AC power every on / off time. In this process, the tester judges the board's failure by checking the operation status of the board through the peripheral device.

In the embodiment of the present invention, the operation of the inspection equipment is controlled using the microcontroller 10, but may be interfaced to a personal computer to load and control a program in a central processing unit and a memory of the personal computer.

As described above, in the embodiment of the present invention, the DC voltage margin and the AC power on / off operation are automatically inspected by using a microcontroller to reduce the inspection time and increase the reliability of the inspection. AC power on / off operation inspection equipment and inspection method can be provided. This effect of the invention can be used in the field of intermediate inspection equipment in computer manufacturing processes.

Claims (3)

A microcontroller having a program for controlling the operation of the inspection equipment; A control buffer connected to the microcontroller and the control signal line; An address decoder connected to the microcontroller and the address signal line and connected to the output signal line of the control buffer to decode the address signal; A bidirectional data buffer connected to a microcontroller and a data signal line and having an input terminal connected to an output signal line of an address decoder; An A / D converter having an input terminal connected to an external signal line and an output signal line of an address decoder and connected to a bidirectional data buffer and a data signal to convert an analog DC voltage output signal of a power supply into a digital signal; A register connected to an output signal line of the address decoder and connected to an A / D converter and a data signal line; An I / O control unit for outputting a signal for electrically adjusting an output adjustment variable resistor of a power supply device from an input signal connected to an input terminal of an output signal line of a register; DC voltage margin and AC power on, characterized in that the input terminal is connected to the output signal line of the control buffer and the AC control buffer outputs a signal for individually turning on / off the AC power output from the AC power outlet to the board under test. On / off operation inspection equipment. At the time of inspecting the DC voltage margin, a start step in which power is applied and operation starts; Setting an initial screen; Selecting a time mode; Receiving a time input for each step when the time mode is selected as time; Receiving a minute by step if the time mode is selected as minute; Checking whether the input data is correct; Displaying the actual value; Initializing each port; Setting an initial time; Operating time; Determining whether the second is "1"; Checking each unit when the second is "1"; DC voltage margin inspection method comprising the step of determining whether the time has reached the total inspection time when the end of the inspection, and the end step of ending the inspection when the time reaches the total inspection time. At the time of inspection of the AC power on / off operation, a start step in which the power is applied to start the operation; Setting an initial screen; Inputting a total inspection time; Initializing the port; Setting an initial value; Operating time; Determining whether an on / off time has elapsed; Checking the status when the on / off time is reached; Turning on the port if the state is on; Turning off the port if the state is off; Graphically representing an operating cycle; Determining whether an operation cycle is full on the screen; Clearing the screen when the operation cycle is full on the screen; Determining whether it is total time; AC power on / off operation test method characterized in that it comprises a termination step of terminating the operation when the total time.