KR100519593B1 - Ir in circuit test system - Google Patents

Abstract

The present invention is an IR insert kit test system (hereinafter referred to as an IR insert kit test system) that can determine whether a normal density of a high-density integrated circuit board is measured by measuring the temperature change of each component of a measurement board using an infrared camera together with an existing insert kit tester. Infrared (IR) senses the temperature change and trend of each component mounted on the electric circuit board to determine the defects and reliability of the components, as well as the various measurement requirements, productivity improvement and production cost. The present invention relates to an IR insert kit test system capable of saving energy.

To this end, the present invention has the function of the existing insert kit tester, and the relay set 22 is installed at the top, and a cooling chamber for stabilizing the temperature of the measuring board that has already been operated as a power source for retesting to room temperature is built-in, A console 20 on which the measurement board is placed on the jig 21 that is different for each measurement board by wiring on the relay set 22; A computer 30 installed on the right side of the console 20, a main body 70 such as a barcode reader, a printer and a thermal printer; A rack 10 installed with a digital multimeter, an external device controller and a power supply to a left side of the console 20; Move the infrared camera 41 up and down on the Z-axis to the console 20 coupled as described above, and the camera device 40 is sealed with an external insulation and an infrared absorber for temperature measurement of each part of the measuring board. It is characterized by the configuration.

Description

IR IN CIRCUIT TEST SYSTEM

The present invention relates to an IRL insert kit test system which can determine whether the high density integrated circuit board is normal by measuring the temperature change of each component of the measurement board using an infrared camera together with the existing insert kit tester. By detecting the temperature change and trend of each component mounted on the electronic circuit board by infrared rays, it is possible not only to judge the defects and reliability of electronic components, but also to measure various measurement requirements, improve productivity and reduce production cost. An IR insert kit test system.

In general, an insert kit tester for checking the conduction in a circuit is a conduction check of a wired electrical circuit board, and is capable of incorrect wiring and short-circuit check of only pure wiring without being affected by components. In other words, the insert kit tester is a kind of tester that inspects electronic components. Unlike general measuring instruments that inspect a single component, the insert kit tester pre-inputs the state of the peripheral components due to the circuit configuration of the electronic components assembled on the electronic circuit board. According to the information provided, all parts are automatically inspected while removing the influence of peripheral circuits to display defective items, defective contents, and defective locations.

With the development of semiconductor technology, various integrated circuits have been developed and applied to circuit boards. Especially, the board test of high-density integrated circuits makes it difficult to measure the reliability of individual components because it is difficult to install the measurement pad. In addition, the insert kit tester, X-ray equipment, and flying equipment is expensive, and the design cost of the test jig is increased because the adaptability to the circuit board changes. Therefore, in order to inspect an electronic circuit board on which an electronic component is mounted in a production line, various types of test equipment, such as an existing insert kit tester, expensive X-ray equipment and flying equipment, and a vision, have been developed and used.

 Accordingly, the present inventors have developed a system having various functions so that the substrate test of a high-cost and high-density integrated circuit can be more smoothly performed by applying to an existing insert kit tester considering the variety of infrared cameras. In addition, the research and development to meet the various measurement needs while improving the functionality of the existing insert kit tester.

The present invention has been invented a circuit board test system of a new form and method in view of the above circumstances, by using the advantages of the existing insert kit tester and infrared camera to change the temperature of each part of the measuring board as an electrical circuit board By measuring, it is possible to find out whether the high-density integrated circuit board is normal, and by installing a camera device with an infrared camera on the console, it detects the temperature change and the trend of each electronic component mounted on the circuit board. The aim is to provide an IR insert kit test system that can not only determine the reliability and reliability, but also provide various measurement requirements that require reliability, improve productivity, and reduce production costs.

In order to achieve the above object, the present invention provides a cooling chamber for stabilizing the temperature of a measuring board which has a function of an existing insert kit tester and a relay set 22 is installed at the top and is operated as a power source for retesting to room temperature. The console 20 is built-in, the measurement board is placed on the jig 21 that is different for each measurement board by wiring on the relay set 22; A computer 30 installed on the right side of the console 20, a main body 70 such as a barcode reader, a printer and a thermal printer; A rack 10 installed with a digital multimeter, an external device controller and a power supply to a left side of the console 20; Move the infrared camera 41 up and down on the Z-axis to the console 20 coupled as described above, and the camera device 40 is sealed with an external insulation and an infrared absorber for temperature measurement of each part of the measuring board. It is characterized by the configuration.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an installation perspective view showing an IR insert kit test system according to an embodiment of the present invention. The rack (RACK) 10, the console 20, the camera device 40, the main body 70, the display unit ( The rack 10 accommodates and mounts the digital multimeter (DMM) 11 and the power supply 12. The power supply 12 supplies power to the measurement board (insert kit board). . The power supply 12 uses an uninterruptible power supply (UPS), and prevents the parts of the measuring board from being damaged by a power failure during the test of the measuring board. The digital multimeter (DMM) 11 tests the console 20. Check the connection of the measuring board to see if the measuring board is short-circuited. That is, the digital multimeter (DMM) 11 checks the connection state of the measurement board through the relay set 22 connected to the measurement board under test of the console 20. The console 20 is located under the camera device 40. By supporting the camera device 40, and has the function of the existing insert kit tester. In the console 20, the measurement board is placed at a predetermined position for testing, and when the power is applied (burned) to the measurement board, the temperature of the measurement board increases while the measurement board is operated according to the power of the measurement board. That is, the measurement board is placed on the jig 21 at the top of the console 20. The console 20 includes a relay set 22, a relay control unit 21, a switch unit (not shown), a ground terminal (not shown), and a cooling chamber (not shown). The measurement board is intended to be placed on the jig 21 to be changed. This is done by manipulating the wiring on the relay set 22 according to the drive signal from the relay control unit 21. The relay control unit 21 is the main body 70. Outputs a drive signal of the relay set 22 in accordance with the relay control signal from the computer 30 in the < RTI ID = 0.0 >. ≪ / RTI > switch unit (not shown) provides an emergency switch (not shown), a start and A stop switch (not shown) and a door on / off switch (not shown). The emergency switch is used to stop all operation of the IR insert kit test system in an emergency. This switch is used to stop the IR insert kit test system in emergency situations, such as when a user's body is caught in the door while opening or closing the door. The start and stop switches are used to start or end the inspection (test) of the measuring board of the IR insert test system. The door on / off switch is used to manually open or close the door of the console. The ground terminal grounds the operator's wrist for safety of the measurement board. In the case of a measurement board that is weak to static electricity, static electricity may be generated by the operator's contact, and the measurement board may be damaged. To prevent this, ground the wrist of the worker. In some cases, scaffold switches can be installed and used as start and stop switches. A cooling chamber (not shown) cools the measuring board to maintain room temperature in order to retest the already tested and tested measuring board. That is, the temperature of the measuring board is stabilized at room temperature for retesting. The console 20 also includes a storage box (not shown) to store the measuring board. And the upper end of the console 20 is provided with a red, yellow and green three-color lamp (not shown) and the speaker (not shown) indicating the defective state of the measurement board. The camera device 40 photographs the measurement board heated in the console 20 using the infrared camera 41 and outputs the heat distribution of the measurement board as an image signal to the computer 30 of the main body 70. The camera device 40 includes an infrared camera 41, a camera position control module 42, and a camera position control motor 43. The infrared camera 41 moves up and down on the Z axis by the camera position control motor 43 to photograph the measurement board. That is, the infrared camera 41 is moved up and down on the Z axis to set the position of the infrared camera 41 for photographing the measurement board. The camera position control module 42 is a camera of the computer 30 of the main body 50. Outputs the motor drive signal of the camera position control motor 43 according to the position control signal. The camera position control motor 43 is a motor for moving the infrared camera 41 up and down on the Z axis, and the camera position control module 42. Drive motor according to motor drive signal received from When the camera position control motor 43 is driven, the position of the infrared camera 41 is changed accordingly. As a result, the height of the infrared camera 41 and the focus of the lens are controlled according to the measurement board. The camera device 40 has a temperature sensor (not shown) and a BNC connector (not shown) for inputting and outputting various signals to the left and right sides. ) Is installed, and it is an infrared absorber to prevent sealing and infrared reflection for external insulation. The main body 50 includes a computer 30 and an input / output unit 50. The computer 30 is located on the right side of the console 20, and arithmeticly processes image signals received from the camera device 40 on the measurement board. The temperature change of each mounted component is measured to determine whether the component is defective or unreliable, and the result is returned to the printer 51, the thermal printer, the display 80, and the like in the input / output unit 50. Output The computer 30 also controls the position of the infrared camera 41 of the camera device 40 and generates a control signal of the relay set 22. The input / output unit 50 includes a barcode reader 52 and a printer 51. ), A thermal printer (not shown) and the like. The barcode reader 52 reads the barcodes of the measurement boards and transmits them to the computer 30. The printer 51, the thermal printer, etc. output test results of the measurement board received from the computer 30. The display unit 80 outputs the test results of the measurement board received from the computer 30, and A user command is input by a user interface. The present invention is installed in the console 20 using an infrared camera 41 of the camera device 40 together with the console 20 and the computer 30 as a conventional insert kit tester. It is an IR insert kit test system that can detect the normality of the high density integrated circuit board by measuring the temperature change of each component of the measuring board on the upper jig 21 on the top of the jig, which is mounted on the electronic circuit board with infrared rays. By detecting temperature changes and trends, it is possible not only to judge the failure and reliability of electronic components, but also to improve productivity and reduce production costs such as various measurement requirements and statistical processing of data. It is.

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That is, in Fig. 1, the console 20 is provided with a main body 70 having a computer 30 on the right side to control and control the camera device 40, and a barcode reader and a main body 70 in the main body 70. Printers and thermal printers are also installed. On the left side, a rack (RACK: 10) is installed so that the UPS is installed as a digital multimeter, an external device controller and a power supply, and a power main switch, a computer switch, a system switch, and a system reset switch are installed. The hall is installed. At the top of the console 20, three-color lamps (not shown) of red, yellow, and green colors indicating the state of the system are installed.

Above the console 20 is coupled as described above the camera device 40 is installed to move the infrared camera 41 up and down on the Z-axis, BNC connector for input and output of the temperature sensor and various signals to the left and right inside Is installed in the infrared absorber to prevent the sealing and infrared reflection for external insulation. The measuring board placed between the console 20 and the camera device 40 is seated by electric, mechanical or vacuum type.

Therefore, the present invention discharges the remaining capacitance remaining in the capacitor of the measuring board for accuracy of measurement and protection of the digital multimeter before supplying power to the insert kit board, and then measures the resistance to check the short of the measuring board. It supplies power, finds the short position and short parts through the time delay of the power supply to check the power short part, connects to the digital multimeter by supplying power to each probe in the relay set 22 under the jig. After measuring the heat of each part by adjusting the infrared camera 41, normal (operation of data and sound and tricolor lamp (not shown)) and abnormal (data and sound and tricolor lamp (not shown) operation) In addition, it can store related data and have the function to collect these data later and use it as basic data for statistical analysis and finding faulty parts and parts.

2 is a block diagram illustrating an IR insert test system according to the present invention. The digital multimeter (DMM) 11, the power supply 12, the jig 21, the relay set 22, and the relay control unit 23 are shown in FIG. ), External device control unit 31, relay interface 32, microcomputer operation processing unit 33, camera interface 34, printer interface 35, barcode reader interface 36, database (D / B) (37) And an infrared camera 41, a camera position control module 42, a camera position control motor 43, a printer 51, and a barcode reader 52. The jig 21 fixes a measurement board to a predetermined position. Position it. The jig 21 fixes the measurement board by moving to a predetermined position according to the jig control signal received from the microcomputer operation processor 33 through the relay interface 32, the relay control unit 23, and the relay set 22. . The jig 21 also has a power supply probe, which is connected to transmit power from the power supply 12 to the power supply probe through the relay set 22, and the pro part is connected to the power supply of the measuring board. The relay set 22 is composed of a plurality of relays, and is largely divided into a power relay and a signal relay. The relay is a device that can't conduct and turn on according to ON / OFF. The power relay is to supply power to the measurement board, and the signal relay is to measure the signal where the measuring probe is in contact. . That is, when power is supplied to the measuring board and the measuring board is operated, the signal is measured by the measuring probe from the measuring board in operation, and the measured signal is transmitted through the relay set 22 to the digital multimeter (DMM) ( 11). In addition, the relay set 22 transmits the jig control signal received from the microcomputer arithmetic processing unit 33 through the relay controller 23 to the jig 21. The relay controller 23 from the microcomputer arithmetic processing unit 33. Receives a relay control signal through the relay interface 32, and outputs a relay drive signal from the relay set 22 to drive the relay set 22. The relay control unit 33 has a microprocessor. The relay set 22 and the relay control unit 23 are referred to as a relay unit 60. The relay interface 32 transmits control signals from the microcomputer operation processor 33 to the relay control unit 23 and the digital multimeter (DMM) ( 11), and transmits to the power supply 12, and outputs the output signal of the relay control unit 23, the digital multimeter (DMM) (11), etc. to the microcomputer calculation processing unit (33). In the present invention, the relay interface 32 is composed of RS232C. The digital multimeter (DMM) 11 receives the measurement signal detected through the measurement probe from the measurement board mounted on the jig 21, and relays the relay set 22 to the relay set 22. It detects whether there is a short circuit (short) of the measurement board, and transmits the result to the microcomputer calculation processing unit 33 through the relay interface unit 32. The power supply 12 is a relay set 22. Apply power to the measuring board mounted on the jig 21 through. When power is applied to the measuring board in this way, the measuring board is operated, and thus the temperature of the measuring board rises. The digital multimeter (DMM) 11 and the power supply 12 are stored and mounted in the rack 10. The infrared camera 41 is moved up and down on the Z axis by the camera position control motor 43, The measuring board is photographed and transmitted to the external device controller 31. The camera position control module 42 receives a camera position control signal from the microcomputer calculation processor 33 through the camera interface 34, and from there, Outputs a motor drive signal of the camera position control motor 43. The camera position control motor 43 is a motor for moving the infrared camera 41 up and down on the Z axis, and is received from the camera position control module 42. Drive the motor according to the motor drive signal. That is, the height of the infrared camera 41 and the focus of the lens are controlled according to the measurement board. The infrared camera 41, the camera position control module 42, and the camera position control motor 43 constitute the camera device 40. The camera interface 34 is used for the infrared camera 41 from the microcomputer computing processor 33. Information according to the setup, that is, the camera position control signal is transmitted to the camera position control module 42. The external device controller 31 converts the image signal received from the infrared camera 41 into a digital signal to convert the microcomputer operation processor ( 33). In addition, although not shown, the external device control unit 31 sets the digital multimeter 11 and the voltage and current, and reads the power state values from the power supply 12 and transmits them to the microcomputer operation processor 33. The microcomputer calculation processing unit 33 reads information on each component type and position of the measurement board from the database (D / B) 37, and receives the image received from the camera device 40 through the external device control unit 31. The signal is processed to measure the temperature change of each component mounted on the measuring board, and the defect and reliability of the component are determined, and also received through the relay interface 32 from the digital multimeter (DMM) 11. From the short circuit (short) of the measured measurement board to determine whether it is within the normal range of each component, and the results to the printer 51, thermal printer, display unit 80, etc. in the input and output unit 50 Output In addition, the microcomputer operation processor 33 transmits the position control signal of the infrared camera 41 to the camera position control module through the camera interface 34, and the digital multimeter (DMM) 11 through the relay interface 32. Each control signal is transmitted to the power supply 12 and the relay control unit 23. The database (D / B) 37 includes a board drawing file database, a parts information database, a test sequence table database, and a normal range database. The board drawing file database is a database of drawing files of each measuring board. The part information database is a database of the types of parts according to each position in the drawing of the measuring board. That is, in order to input the information of the measurement board fixed by the jig 21, graphic or image conversion information is set from the board drawing file database, and the component type and position, which are position information, are created as a CAD file in the parts information database. . The parts information database is a database of areas, types, and passion image ranges for each part, and thermal images are stored as time images. The test sequence table database is a database in which the test sequence information of the measurement board is stored. The test sequence table database lists the time, relay number, relay information, relay status, current limit, measurement items, minimum value, maximum value and operation status by time. The barcode reader 52 reads the barcodes of the measurement boards and transmits them to the microcomputer operation processor 33 through the barcode reader interface 36. The printer 51 outputs the test result of the measurement board received from the microcomputer calculation processing unit 33 through the printer interface 35. The barcode reader 52 and the printer 51 constitute an input / output unit 50. As described above, FIG. 2 is a block diagram illustrating an IR insert test system according to the present invention. 10) the digital multimeter (DMM) 11 and the power supply 12 are installed, respectively, connected to the external equipment control unit 31 and the relay set 22, the console 20 of the relay set 22 is a relay The relay interface 32 and the jig 21 through the control unit 23 are connected to each other. The computer 30 has an external device control unit 31, a relay interface 32, a camera interface 34, a printer interface 35, a barcode reader interface 36, and a CAD file via a microcomputer arithmetic processing unit 33 as a medium. Parts information database 37 is connected, respectively.

 The camera device 40 connected to the microcomputer 33 and the camera interface 34 of the computer 30 includes an infrared camera 41 and a camera position control motor 43 through the camera position control module 42. On the other hand, the main body 70 is configured with the printer 51 and the barcode reader 52, respectively. The camera position control module 42 controls the height of the infrared camera 41 and the focus of the lens according to the measurement board, and transmits the image information according to the setup of the infrared camera 41 through the camera interface 34.

The external device controller 31 sets the digital multimeter 11 and the voltage, current, and the like, and reads the power state value from the power supply 12. The relay set 22 is connected to a plurality of relays in a fixed state, while the jig 21 connected by the corresponding wiring is newly manufactured and used according to the measurement board, and the measurement board is placed thereon, along with an insert kit test. The camera displays the normal status according to the temperature range of each part.

An operation description of the IR insert test system of the present invention configured as described above will be described with reference to FIGS. 1 to 5. 3 is a setup flowchart for explaining the operation of the IR insert test system according to the present invention. [0050] The relay set 22 and the infrared camera 41 are initialized (S100). That is, when the test start is selected from the start and stop switches by the operator, the microcomputer calculation processing unit 33 of the computer 30 passes the relay control signal to the relay control unit 23 in the console 20 via the relay interface 32. The initial setting value is transmitted and initialized, and the microcomputer calculation processing unit 33 of the computer 30 initializes the initial setting value of the camera position control signal to the camera position control module 42 through the camera interface 34. Accordingly, the relay set 22 and the infrared camera 41 are initialized. A part information database according to the type and position of the part is created from the board drawing file database of the measuring board, and the board information of the measuring board is input (S120). That is, in order to input the measurement board information fixed to the jig 21, graphic or image conversion information is set from the board drawing file database, and the component type and position, which are position information, are created in the parts information database as a CAD file. In order to input the test order information of the test procedure table database is created (S140). The test sequence table database is arbitrarily set by the operator for the test sequence for each time. A learning board is applied (S160). In order to detect the normal range of temperature for each part by time, about 20 learning boards which have been tested and confirmed to be normal boards are applied. The microcomputer calculation of the computer 30 is performed by examining the learning boards. Obtained by the processor 33 (S180). From the information obtained by the microcomputer arithmetic processing unit 33 of the computer 30 to set the normal range of the component measured in the digital multimeter 11, the passion image of each component Build a range database (S200). Using the passion range database of each part, the temperature normal range setting for each part is displayed on the teaching screen. In addition, the microcomputer calculation processing unit 33 of the computer 30 creates a voltage normal range database by setting the normal range of the voltage regardless of the components of the measurement board (S220). The voltage normal range setting for each measurement relay in the console 20 is displayed on the setup screen using the voltage normal range database. 4 is a test flow chart for explaining the operation of the IR insert kit test system of the present invention. Initialize the IR insert kit test system (S300). That is, when the new jig 21 is designed, various kinds of information for testing with the IR insert kit test system are set up. The infrared camera 41 is initialized. Enter a barcode (S320). The barcode reader 52 transmits the barcode of the measurement board to the microcomputer operation processor 33 through the barcode reader interface 36. The microcomputer operation processor 33 reads the ID of the measurement board from the input barcode. The measuring board to be tested is applied on the jig 21 of the console 20 and the start switch is pressed (S340). At this time, the jig 21 is locked. From the inputted information, the position of the guide hole of the board in the measurement board information, and the location, size, type, and detail of each component are identified. Infrared cameras are type, resolution, number of contrast bits, frame rate and gamma correction, focal length information, stand are maximum height, minimum height and camera installation height (position). (S360). That is, when the measuring board is mounted on the jig and the start switch is pressed, the door is closed and the short circuit test of the power supply, ie, the power supply discharge, the power supply resistance measurement, and the measured value are measured within the normal range according to the test sequence table database. The test sequence table database lists time, relay number, relay information, relay status, current limit, measurement item, minimum value, maximum value and operation status by time. In accordance with the maximum application time delay setting of the power supply failure is printed in the printter 51 and the like (S370). The power failure message includes information on the location of the power failure on the measurement board. If the measurement board passes the power supply short circuit test, power is applied to the measurement board (S380). That is, power is applied from the power supply 12 to the measuring board mounted on the jig 21 through the relay set 22. The timing of which power supply will be stored is stored in the test sequence table database, and the measurement board is powered according to the data on the measurement board from the test sequence table database. For example, the resistance measurement of the power supply section is short when less than 10 ohms, and open when more than 1 mega ohm. The power failure mode is only tested for a predetermined time (set in the setup phase). An infrared camera 41 acquires a thermal image (S400). That is, when power is applied to the measurement board and the measurement board is driven, the temperature of the measurement board is increased, and the thermal imaging information is transferred to the microcomputer operation processor 33 through the external device controller 31 by photographing the measurement board with the infrared camera 41. The temperature calculation for each part is performed in the parts information database (S420). That is, the microcomputer calculation processing unit 33 calculates the temperature of each part of the measurement board using the parts information database from the thermal image information received from the infrared camera 41 through the external device controller 31. Inspect the temperature by parts (S440). That is, when the temperature of each component of the measurement board is calculated, the microcomputer calculation processing unit 33 checks whether each component of the measurement board is within the passion phase range by using the passion phase range database. If there is a part out of the normal range on the measurement board (S460), it is printed as a temperature error part (S470) .If there is no part out of the normal range on the measurement board, the test sequence table database as an insert kit tester as before. The voltage is measured by the controller (S480). The measured voltage reads the voltage from the test point connected to the relay of the digital multimeter 11 (S500). It is determined whether there are test points that deviate from the normal range (S520). Collect all measured data and reenter the location data of already repaired defective parts through statistical technique to find the related defective parts. That is, the voltage test is performed using a thin voltage normal range database in which the voltage of the test point is within the normal range. If there is a test point out of the normal range during the voltage test, it is printed as a voltage error test point and ends (S430). End immediately (S440). Therefore, the result print of the printer 51 is the output of the power supply short test, the part temperature test and the digital multimeter test result, and the unlocking of the measurement board. As described above, FIG. 3 is a setup flow chart for explaining the operation of the IR insert kit test system of the present invention, and FIG. 4 is a test flow chart for explaining the operation of the IR insert kit test system of the present invention. As follows.

First, as a system structure, the operator sets up relay information in the console 20 and initializes an infrared camera 41 or stand information using the computer 30. In order to input the measurement board information on the jig 21, graphic or image conversion information is set from the board drawing file database, and the component type and position, which are position information, are created in the parts information database as a CAD file.

In order to input the test sequence information of the measurement board, a test sequence table database is created, which is arbitrarily set by an operator by time, and about 20 pieces of normal boards that have been tested and tested to measure the temperature of each part by time Apply degree to learning board.

After acquiring the image from the computer 30 and setting the normal range of the components of the digital multimeter 11 as the passion image range, a passion image range database of each component is created, which is the normal temperature range of each component. The teaching screen is displayed by setting. The voltage normal range database is created by setting the normal range of the voltage regardless of the parts of the measurement board, and the voltage normal range setting for each measurement relay in the console 20 is displayed on the setup screen.

That is, when a new jig 21 is designed, various types of information are set up for testing with the insert kit tester. First, the measurement board information is the guide hole position of the board, and each component position, size, type and You will see the details. Infrared cameras are type, resolution, number of bits of contrast, frame rate and gamma correction, focal length information, stand is maximum height, minimum height and camera installation height (position).

The graphic / image conversion information as output is a conversion function for overlaying the graphic and image on the measurement board. The parts information database stores an area, a type, and a passion image range for each part and a thermal image for each time as an image. The test sequence table database generates a table listing time, relay number, relay information, relay status, current limit, measurement item, minimum value, maximum value and operation status by time.

The time is 0-15 seconds (can be increased or decreased as needed), and the relay number means that all relays are numbered. Relay information has information such as type (POWER / GP / SIGNAL) and input / output status of each relay. The relay status is on / off, the current limit is the current limit setting of the power supply, and the measurement items are only for the input relay to resistance / current / DCV / ACV / frequency / diode. The minimum and maximum values are for the case of input relays in the normal range of the measured values. The operating status is the discharge part of the measuring board, short circuit test, power on, image acquisition, component temperature test and DMM test.

The enthusiasm range is a minimum and maximum setting of a feature value of each component in the items of the parts information database by time-varying thermal changes and is used for the learning board. The normal range of the digital multimeter can be set by the operator by setting the minimum and maximum values of the measured values in the items in the test sequence table database or by using the learning board. Whether the power failure is handled or not, the maximum test time is set for how long to test after the power supply short circuit test. This is done by precisely locating the parts and circuits in question by short-circuit inspection with thermal imaging.

After the setup as described above, the test is applied while applying the measurement board one by one. As a result, the setup flow result shown in FIG. 3 is a graphic / video conversion information, a parts information database, a test sequence table database, and the barcode reader 52 Check the ID of the board to be tested. The switch starts and stops the test. In addition, the output includes a power supply abnormality and a component abnormality.

Initialization as a board test is the initialization of the infrared camera 41, the barcode reading and the locking of the jig 21. The input of the bar code reads the ID of the measurement board, and the test board to test the jig of the console 20 ( 21) Apply above and press the start switch. Then, the door is closed and the short circuit test of the power supply, that is, the discharge of the power supply, the measurement of the resistance of the power supply, and the measured value are measured within the normal range based on the test sequence table database. At this time, if the power failure test fails, the power failure error is printed and terminated due to the delay setting of the maximum applied time of the preset voltage.

When printing a power failure, the time delay of the voltage supply shows the location of the power failure in a passionate analysis. When the power supply short check passes, power is supplied, which is stored in the test sequence table database to determine which power supply and when. For example, the resistance measurement of the power supply section is short when less than 10 ohms, and open when more than 1 mega ohm. At this time, the power failure mode is entered. The power failure mode is only tested for a predetermined time (set in the setup phase).

Subsequently, a thermal image is acquired by an infrared camera 41, a part temperature is calculated by a part information database, and a part temperature is inspected by a passion image range database. If there is a part out of the normal range, the temperature error part is printed. Otherwise, the voltage is measured by the test sequence table as an insert kit tester. This reads the voltage at the test point connected to the relay of the digital multimeter (11).

All measured data are collected and the statistical technique is used to reenter the location of the defective part that has already been repaired to find the associated defective part. The voltage is checked in the voltage normal range database according to whether the voltage of the test point is within the normal range. At this time, if there is a test point out of the normal range, the voltage error test point is printed and terminated. Therefore, the result printing of the printer 51 is a power supply short circuit test, a part temperature test and a digital multimeter test result output, and unlocking of a test board.

In the IR insert kit test system of the present invention operated as described above, the voltage test is performed by the time between the normal board (see FIG. 5 (A)) and the abnormal board (see FIG. 5 (B)) as shown in FIG. 5 (C). It can be recognized through the histogram of the temperature change of the component, and it is possible to determine the defect and reliability of the electronic component by detecting the temperature change and trend of each electronic component mounted on the electric circuit board as the board according to the acquisition of the thermal image. In addition, the microcomputer operation processing unit 33 has a device that informs the state as a three-color lamp (not shown), and also allows the operator to easily recognize the situation using various sounds.

As described above, according to the present invention, by using the advantages of the existing insert kit tester and infrared camera, it is possible to find out whether the high density integrated circuit board is normal by measuring the temperature change of each component of the measuring board as the electric circuit board. By installing a camera device with an infrared camera on the top, it detects the temperature change and trend of each electronic component mounted on an electric circuit board, and judges the defect and reliability of the electronic component, as well as various measurement requirements, productivity improvement and production. An IR insert kit test system can be provided that can reduce costs.

Although the present invention has been described with reference to the accompanying drawings, the technical idea of the IR insert kit test system is illustrative of the best embodiment of the present invention by way of example and not limitation. It will be apparent to those skilled in the art that various modifications and imitations can be made without departing from the scope of the technical idea of the present invention.

1 is an installation perspective view showing an IR insert kit test system according to an embodiment of the present invention,

2 is a block diagram illustrating an IR insert test system of the present invention;

3 is a setup flow chart for explaining the operation of the IR insert test system of the present invention;

4 is a test flow chart for explaining the operation of the IR insert test system of the present invention;

FIG. 5 is a diagram illustrating whether an IR insert kit test system of the present invention operates to display a temperature change of a measurement component as abnormal.

♠ Explanation of symbols on the main parts of the drawing ♠

10: rack 11: digital multimeter (DMM) 12: power supply 20: console 21: jig 22: relay set 23: relay control unit

3 0: computer 31: external device control unit 32: relay interface 33: microcomputer operation processor 34: camera interface 35: printer interface 36: barcode reader interface 37: database 40: camera device 41: infrared camera 42: camera position control module 43: Camera positioning motor

50: input / output unit 51: printer 52: barcode reader 60: relay unit 70: main body 80: display unit

Claims (12)

Console 20 having a jig 21 for mounting the measurement board on the top; Located at one side of the console 20, the digital multimeter (DMM) to check whether the short circuit (short) of the measurement board mounted on the jig, equipped with a power supply for supplying power to the measurement board mounted on the jig A rack 10 accommodated therein; A camera device 40 positioned on the console 20 and having an infrared camera for photographing a measurement board mounted to the jig; Located on the other side of the console 20, the computer receives the information from the infrared camera, the digital multimeter (DMM) and arithmetic processing to determine whether the components of the measuring board is within the normal range of the measurement board, In the IR (infrared) insert kit test system comprising a main body 70 having a barcode reader for reading a barcode, a printer for receiving and outputting the determination result of the measurement board from the computer, The console 20 may include: a relay set for selectively supplying power to a measurement board and selectively measuring a signal from the power supplying measurement board; A relay control unit for driving the relay set in accordance with a relay control signal from the computer; And a cooling chamber for maintaining the temperature of the measuring board at room temperature to retest the measuring board. The camera device 40, the camera position control motor for moving the infrared camera up and down the Z axis; And a camera position control module for outputting a motor driving signal for driving the camera position control motor according to the camera position control signal from the computer. The camera position control module receives a camera position control signal from the microcomputer computation processing unit 33 of the computer through a camera interface, and the infrared camera converts the image information obtained by photographing a measurement board into a digital signal through an external device controller. IR insert kit test system, characterized in that for transmitting to the microcomputer operation processing unit (33). delete delete delete An initializing step of initializing a relay set and an infrared camera according to a control signal of a computer when a test start (start) is selected from a start and a stop switch; A measurement board information input step of inputting board information of the measurement board by creating a part information database according to a component type and a location from a board drawing file database of the measurement board; A test sequence table preparing step of preparing a test sequence table database for inputting test sequence information of the measurement board; Learning board applying step of applying a learning board; Learning board information obtaining step of inspecting the learning boards and acquiring image information according to the learning boards; A passion phase range construction step of establishing a passion phase range database of each part by setting a normal range of parts measured in a digital multimeter from information acquired from a computer; In the IR insert test system operating with a setup step consisting of; a voltage normal range creation step of creating a voltage normal range database by setting the normal range of the voltage in the computer, regardless of the components of the measurement board, Using the passion phase range database of each part created in the passion phase range building step, the temperature normal range setting for each part is displayed on the teaching screen, IR normal test system, characterized in that for setting the voltage normal range for each measurement relay in the console (20) by using the voltage normal range database created in the voltage normal range creation step to the setup screen. delete The method of claim 1, The external device control unit is an IR insert test system, characterized in that for reading the power state value from the power supply. A barcode input step of reading a barcode of a measurement board from a barcode reader and sending the barcode to a microcomputer calculation processing unit; A measuring board applying step of applying the measuring board to be tested on the jig 21; A short circuit inspection step of performing a short circuit inspection of the power supply unit of the measurement board applied in the measurement board applying step; A power unit error output step of outputting and terminating a power unit error message according to a preset maximum time delay setting of a predetermined voltage if the measurement board does not pass the power unit short circuit test; A power applying step of applying power to the measuring board if the measuring board passes the power unit short-circuit test as a result of the test of the shorting test step; A thermal image acquiring step of acquiring a thermal image by photographing the measuring board to which power is applied in the power applying step with an infrared camera; A part-time thermometer calculation step of performing a part-by-part temperature calculation of the measurement board by using a parts information database from the thermal image information obtained in the thermal image acquisition step; A temperature inspection step of inspecting the temperature of each part of the measurement board using a passion phase range database from the calculation result of the temperature calculation step of each part; A temperature judging step of judging whether there are any parts outside the normal range in the measuring board from the inspection result of the temperature checking step; An error part output step of outputting a temperature error part message if there is a part out of the normal range on the measurement board from the temperature determination step; A voltage measuring step of measuring a voltage of the measuring board at each test point connected to the relay of the digital multimeter according to a test sequence table database, if there is no component out of the normal range from the temperature determining step; A voltage determination step of determining whether there are test points outside the normal range in the measurement board; An IR insert kit that is operated with a termination step of terminating if there is no test point outside the normal range from the voltage judging step, and outputting and terminating a voltage error test point message if there is a test point outside the normal range from the voltage judging step. In the test system, Emergency switch that shuts down all operation of the IR insert test system in an emergency. Start and stop switches used to start or end the inspection of the measuring board, IR on-kit test system characterized in that it comprises at least one of the door on / off (door on / off) switch, which is used to open and close the door manually. The method of claim 1, The console 20 IR insert kit test system comprising a ground terminal for grounding the wrist of the operator for the safety of the measuring board. The method of claim 8, The start and stop switch IR insert kit test system, characterized in that consisting of a foot switch. delete delete