SU746339A1 - Apparatus for automatic tolerance monitoring of insulation resistance - Google Patents

Description

The invention relates to the field of electrical engineering and can be used in automatic systems of tolerance control of insulation resistance of printed circuit boards.

A device containing keys, an exemplary register, a power source, a pulse generator, counters, comparison units and display units [11. The disadvantages of this device are the low reliability of the control and significant ^1-negative time costs of control.

The closest in technical essence and the achieved result to the known is a device for automatic tolerance control of insulation resistance, containing a converter ‘'resistance-time switch, a sensor of exemplary time. intervals, tolerance setting unit, comparison unit, pulse generator, error fixing unit and programming unit E23. The disadvantages of this device are also low reliability and significant control time.

The purpose of the invention is to increase reliability and reduce control time.

This is achieved by the fact that in the known ^J device, · containing a switch, the information input of which is connected to the monitoring object, and the output is connected to the information input of the converter. resistance-time, controlled by ¹⁰ counter, the control input of which is connected to the first output of the programming unit, the input of which is connected to the output of the error fixing unit, a pulse generator, the first and second coincidence blocks, the shift register and the memory block are introduced, the second output of the programming block connected to the first input of the shift register, and the third output of the programming unit _m is connected to the first control input of the memory unit and to the second input of the shift register, the first and second control outputs of which are connected respectively naturally with the first and

, 746339 by the second control inputs of the switch and, respectively, with the second and third control inputs of the memory unit, and the third output of which is connected to the first input of the second coincidence unit and the 'control input of the resistance-time converter', the output of which is connected to the first input of the first coincidence unit, the second input which is connected to the output of the pulse generator, and the output of which is connected to the information input of a controlled counter, the output of which is connected to the second, the input of the second coincidence unit, the output of which is Inonii to an information input of the storage unit, whose output is connected to the input of error fixing unit.

The drawing shows a structural diagram of a device.

The device comprises a switch 1, a shift register 2, a programming unit 3, a resistance-time converter 4, a pulse generator 5, coincidence units 6 and 7, a controlled counter 8, a memory unit 9, and an error block 10.

The device operates as follows.

The input of the control object 11 is connected to the input of the switch 1. The device is turned on by applying to the inputs of the shift register 2 and the control inputs of the memory block. 9 'START' commands from programming unit 3.

From the output of coincidence unit 6, pulses of a stable frequency, the number of which are proportional to the insulation resistance of the test object 11, are fed to the information input of the controlled counter 8. Information about the filling of the controlled counter 8 from its output goes to the second input of coincidence unit 7, the clock input to which is fed impulses from the corresponding output of shift register 2. If the number of counting pulses is greater than the capacity of the controlled counter 8, then the output signal is generated at the output of coincidence block 7. If the 'number ’of counting pulses is less than the capacitance of the controlled counter 8, a signal is formed' NOT SUITABLE. To set the account coefficient of the managed counter 8, a command to select the account coefficient is sent to its control input from programming unit 3.

The validity signal from the output of coincidence unit 7 is fed to the information input of the memory unit 9. To ensure that the validity signal is recorded in the desired cell of the memory unit 9, one of the control inputs of ³ inputs from shift register 2 receives a cell selection signal. At the same time, this signal is fed to one of the corresponding control inputs 1Q of switch 1 to ensure that the required element of the control object 11 is connected to the information input of the resistance-time converter 4. 4. After processing the results of 15 measurements of the insulation resistance of the control object 11, the overall control result is sent to the fixation unit mistakes 10.

The device can be widely used for technological tolerance control of insulation resistance of printed circuit boards, since its use increases reliability and reduces the time of control.

Claims (2)

The invention relates to the field of electronic measuring technology and can be used in automatic systems for tolerance control of insulation resistance of printed circuit boards. A device containing keys, an exemplary register, a power source, a pulse generator, counters, comparison units and display units l is known. The disadvantages of this device are the low reliability of the control and the considerable time spent on conducting the control. The closest in technical and achieved result to the known is the device for automatic tolerance control of the insulation resistance, which contains a switch resistance-time converter, a sensor of exemplary time intervals, a tolerance setting unit, a comparison unit, a pulse generator, an error fixing unit and a programming unit . The disadvantages of this device are also low accuracy and significant monitoring time. The purpose of the invention is to increase the reliability and reduce the time of control. This is achieved by the fact that in a known device, which contains a switch, the information input of which is connected to the control object, and the output is connected to the information input of the converter, the impedance-time, controllable meter, the control input of which is connected to the first output of the programmer, which is connected to the output of the error fixing unit, a pulse generator, the first and second matching blocks, the shift register and the memory block are entered, the second output of the programming unit is connected to the first input of the offset register hectare, and the third output of the programming unit is connected to the first control input of the memory block and the second input of the shift register, the first and second control, the outputs of which are connected respectively to the first and TOf) control inputs of the switch n Schottystenno BT (erim and third control modules of the memory block, and the third output of which is compatible with the first input of the second coincidence unit and control input of the resistance – time converter, the output of which is connected to the first pass of the first coincidence unit, the second input of The generator is connected to the generator Stzglsov, and the output of which is connected to the information input of a controlled counter, the output of which is connected to the second input of the second coincidence unit, the output of which is connected to the information input of the memory block, the output of which is connected to the input of the error fixing unit. The drawing shows a block diagram of the device. The device contains a switch 1, a shift register 2, a programming unit 3, an impedance converter in time 4, a pulse generator 5, coincidence blocks 6 and 7, a controllable counter 8, a memory block 9 and an error latching unit 1O. The device works as follows. The input of the control object 11 is connected to the input of the switch 1. The device is turned on by supplying the shift register 2 and the control inputs of the memory unit, 9 a RUN command from the programming unit 3 to the inputs. The proportions of the insulation resistance of the control object 11, proportional to the information input of the controlled counter 8. Information about the filling of the controlled counter 8 from its output goes to the second input of the coincidence block 7, to the first input of which are given clock signals from the corresponding the output of the shift register 2. If mi the number of counting pulses is larger than the capacitance of the controlled counter 8, then at the output of the block a coincidence 7 forms a signal GODEN. EbfflaiPfe KuTfffl4igcTBO i 4i-- “4 i: - -.24 riW4 ir- -“ ;; ; - - ";, v-. , -, -..- .V, r ....;: -...- -.- .., -.- -ЛЖЖ-- -... -. counting pulses less than eMKOctii of the controllable counter 8, the signal is NOT OK. To set the counting factor of the controlled counter 8, to its control input from the unit programmed 3 is fed to the factor of selecting the counting coefficient. , 7 9 The GOE1NOOTI signal from the output of the coincidence block 7 is fed to the information input of the memory block 9. To ensure the recording of the validity signal to the desired cell of the memory block 9, one of the control inputs from the shift register 2 receives the cell select signal. At the same time, this signal goes to one of the RESPONSIBLE control inputs. switch 1 to ensure the connection of the required element of the control object 11 to the information input of the resistance-time converter 4. After the processing of the results and the insulation of the insulation of the control object 11 is completed, the total control result goes to the error-fixing unit 10. The device can be widely used for process tolerance resistance testing isolation of printed circuit boards, as its use increases the reliability and reduces the time of control. The formula of the network The device for automatic tolerance control of the insulation resistance contains a switch, the information input of which is connected to the control object, and the output is connected to the information input of the resistance-time converter, a controlled counter, the control input of which is connected with the first output of the unit diagram, the input of which is connected to the output of the unit for fixing the error, a pulse generator, characterized in that, in order to increase the accuracy and reduce the monitoring time, the first and second match blocks, the shift register and the memory block, the second output of the programming unit is connected to the first input of the shift register, and the third output of the programming unit is connected to the first control input of the memory unit and the first shift register The outputs of which are connected respectively to the first and second control inputs of the switch and respectively to the second and third control inputs of the memory unit, and the third output of which is connected to the first input of the second match of the The control input of the converter is resistance-y, the input of which is connected to the first input of the first S748 unit, the second input of which is connected to the pyxohard of the hexamp, the pulses and output of which is connected to the information input of the calculating counter, the output of which is connected to the second input of the second matching unit, the output of which is connected to the information input of the memory unit, the output of which is connected to the input of the error fixing unit. 3 © V4, Iotochka and takenimentsii, received in Moscow at 9 ksp vrtizv 1.Avtorskoe certificate of the USSR N 406170, кп. q 01 R 31/00, 197D. 2. The author's certificate of the USSR N 191689, are. Q 01 R 31/00, 1967.