JPH0126162B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to an electronic circuit creation device that measures the characteristics of an electronic circuit and supplies a resistor so that the characteristics of the electronic circuit become a predetermined value to complete the electronic circuit. It is something.

Configuration of conventional example and its problems As shown in Figure 1, the conventional electronic circuit creation device for functionally trimming thick-film hybrid ICs consists of a measurement process 1 for measuring the circuit characteristics of an electronic circuit, and a measurement process 1 for measuring the circuit characteristics of an electronic circuit. Resistance 2 close to the determined resistance
an approximate resistance selection step 3 in which the selected approximate resistance 2 is selected, and a trimming step 4 in which the selected approximate resistance 2 is trimmed to have the resistance value measured in the measurement step 1;
It consists of a mounting process 5 in which the trimmed resistor 2a is mounted on the electronic circuit, but since the measurement process 1, the approximate resistance selection process 3, the trimming process 4, and the mounting process 5 are in one-to-one correspondence, any one of the If a failure occurs during the process, the entire installation process is stopped, resulting in poor efficiency and low productivity.

OBJECTS OF THE INVENTION The present invention eliminates the above-mentioned conventional drawbacks and aims to improve yield and productivity.

Configuration of the Invention The electronic circuit creation device of the present invention measures the circuit characteristics of an electronic circuit equipped with components other than resistors used at adjustment points of the electronic circuit, and selects the optimum resistance value for adjusting the electronic circuit. An electronic circuit measuring unit, a printing unit that prints the serial number of this electronic circuit, and a main controller that stores the circuit characteristic data measured for adjusting the electronic circuit while matching it with the serial number of the electronic circuit. There is a buffer stocker that stocks the electronic circuit when the equipment breaks down and maintains the balance of the flow of the entire equipment, and a buffer stocker that reads the serial number printed on the electronic circuit and reads the circuit characteristic data stored in the main controller. A serial number reading device that matches the electronic circuit, and a plurality of resistors with different resistance values are prepared in advance, and an approximation of a value close to the resistance value selected by the electronic circuit measurement unit from the array of resistors is provided. an approximate resistance selection unit that selects a resistor; a trimming unit that adjusts the resistance value of the selected approximate resistance so that it has the resistance value measured by the electronic circuit measurement unit; It consists of a mounting unit that is attached to the electronic circuit, and even if a trimming defect occurs, a new approximate resistor can be corrected and trimmed and attached to the adjustment point of the electronic circuit, thereby preventing the entire circuit from being defective and increasing the yield. This makes it possible to create electronic circuits with high productivity.

In addition, when any unit in the entire device breaks down, for example, when a measurement unit breaks down, the electronic circuits stored in the buffer stocker can be sent to the subsequent process to maintain a balance in the flow of the entire device. If a unit in the downstream process from the buffer stocker fails, the measurement unit is left in operation, the electronic circuit characteristic data is stored in the main controller, and the serial number is printed, then the buffer stock is removed. By storing it in a car, the entire device can be operated efficiently and electronic circuits can be created with high productivity.

DESCRIPTION OF EMBODIMENTS An embodiment of the present invention will be described below with reference to FIG. 2. In the figure, 11 is the main controller, 12 is the sequence controller, 13 is the approximate resistance selection unit, and 14 is the resistance value of the approximate resistance 17 selected by the approximate resistance selection unit 13 measured by the electronic circuit measurement unit 19. 15 is a known trimming unit that adjusts the resistance value using a laser beam or the like, and 15 is a resistor 1 trimmed by the trimming unit 14 at an adjustment location of an electronic circuit 26 such as a thick film hybrid IC.
16 is a mounting unit for mounting the trimmed resistor 17a onto the electronic circuit 26, 18 is an X-Y table for positioning the electronic circuit 26, and 20 is a measuring unit 19. Electronic circuit 2 which is the measuring head of
6 is provided with a measuring pin (not shown). 3
1 is a conveyor that conveys the electronic circuit 26 to the XY table 18; 22 is a conveyor that conveys the approximate resistance 17 selected by the approximate resistance selection unit 13 to the trimming unit 14; 23 is the conveyor in the trimming unit 14; This is a correction conveyor that conveys the approximate resistor 28 that performs correction trimming to the trimming unit 14 in order to perform correction trimming again when a trimming error occurs.

Reference numeral 24 denotes an electrode for measuring the resistance value of the approximate resistor 17 to be trimmed in the trimming unit 14, and 25 is an approximate resistor 28 for performing corrective trimming.
A correction electrode 27 for measuring the resistance value is a numerical control device for controlling the drive of the X-Y table 18.

32 is a printing unit that prints the serial number of the electronic circuit 26 on the electronic circuit 26 measured by the electronic circuit measuring unit 19; 29 is a buffer stocker that stores the electronic circuit 26;
0 is a serial number reading device that reads the serial number printed on the electronic circuit 26 and matches the circuit characteristic data stored in the main controller 11 with the electronic circuit 26.

In the above configuration, the electronic circuit 26 is measured by the measurement head 20, the measurement unit 19 calculates the resistance value required for the adjustment location of the electronic circuit 26, and the calculation result is sent to the main controller 11. will be forwarded to. Next, the electronic circuit 26 whose measurement has been completed is transferred to the serial number printing unit 3.
2, the serial number of the electronic circuit 26 is printed. The electronic circuit 26 on which the serial number is printed is stored in the buffer stocker 29 in a process subsequent to the buffer stocker 29 if there is a failure or the electronic circuit 26 is in a stocked state. The electronic circuit 26 supplied from the buffer stocker 29 or the measurement conveyor 21 is read by the serial number reader 30.
The serial number of the electronic circuit is read, the circuit characteristic data stored in the main controller 11 is matched with the electronic circuit 26, and based on the result, the approximate resistance selection unit 13 is operated via the sequence controller 12. and approximate resistance 17
is selected, and an approximate resistance 17 close to the required resistance value is transferred to the conveyor 22. Next, the approximate resistance 17 is conveyed to the trimming unit 14 by the conveyor 22, and by the electrode 24,
While measuring the resistance value, trimming is performed by the laser beam of the trimming unit 14 until the resistance value at the adjustment point is reached. trimmed resistor 17
a is conveyed by the conveyor 22 to the position corresponding to the mounting unit 16, and after arriving at the predetermined position, the mounting unit 16 transfers it to the X-Y table 1.
It is mounted on the electronic circuit 26 which is set to 8. In this series of steps, when a trimming defect occurs, another approximate resistor having the same resistance value as the approximate resistor 17 that caused the trimming defect is again selected by the approximate resistor selection unit 13, and the selected correction is performed. The approximate resistance 28 is conveyed to the trimming unit 14 by a correction conveyor 23, and corrected and trimmed while being measured by a correction electrode 25. Modified trimmed resistor 28a
joins the conveyor 22 and is attached to the electronic circuit 26. Note that the approximate resistance that caused the trimming error is discarded.

Effects of the Invention As described above, according to the present invention, even when a trimming failure occurs, it is possible to trim again using another approximate resistor and supply it to the electronic circuit, which makes it possible to trim thick film hybrid ICs directly. compared,
The IC will not become defective as a whole.
This results in a high yield and a highly productive system.

In addition, when any unit in the entire device breaks down, for example, when a measurement unit breaks down, the electronic circuits stored in the buffer stocker can be sent to the subsequent process, thereby balancing the flow of the entire device. If a unit in the downstream process from the buffer stocker fails, the measuring unit is left in operation, the electronic circuit characteristic data is stored in the main controller, and after printing the serial number, the buffer stocker By stocking the device, the entire device can be operated efficiently without stopping, and electronic circuits can be created with high productivity.

[Brief explanation of drawings]

FIG. 1 is a system configuration diagram of a conventional example, and FIG. 2 is a system configuration diagram of an embodiment of the present invention. DESCRIPTION OF SYMBOLS 11... Main controller, 12... Sequence controller, 13... Approximate resistance selection unit, 14... Trimming unit, 15... Application unit, 16... Mounting unit, 17... Approximate resistance, 1
7a...Resistor, 18...X-Y table, 19...Electronic circuit measuring unit, 20...Measuring head, 21...Measuring conveyor, 22...Conveyor, 23...Correction conveyor, 24...Electrode, 25...Modifying electrode, 26...
Electronic circuit, 27... Numerical control device, 28... Approximate resistance, 29... Buffer stocker, 30... Serial number reader, 31... Conveyor, 3
2...Printing unit.

Claims (1)

[Claims] 1. An electronic circuit measurement unit that measures the circuit characteristics of an electronic circuit and determines the resistance value necessary to adjust the electronic circuit, a printing unit that prints the serial number of this electronic circuit, and a unit that The main controller stores the measured circuit characteristic data while matching it with the serial number of the electronic circuit, the buffer stocker stores the electronic circuit and balances the flow of the entire device, and the data printed on the electronic circuit It is equipped with a serial number reading device that reads the serial number and matches the circuit characteristic data stored in the main controller with the electronic circuit, and a plurality of resistors with different resistance values, and selects from among these resistors the electronic circuit measurement device. an approximate resistance selection unit that selects an approximate resistance with a value close to the resistance value determined by the electronic circuit measurement unit; and an approximate resistance selection unit that selects an approximate resistance value close to the resistance value determined by the electronic circuit measurement unit; An electronic circuit production device comprising a trimming unit that performs adjustment and a mounting unit that mounts the trimmed resistor to the electronic circuit.