SU809072A1 - System for testing electronic circuit parameters - Google Patents

Description

(54) SYSTEM OF CONTROL OF PARAMETERS OF ELECTRONIC CIRCUITS

The invention relates to a control computing technique and can be used to verify and test electronic circuits and units of aeronautical equipment. Control systems are known that are used to test objects of electronic equipment, such as the Uranus automatic instrumentation and instrumentation of the Reg.turn 1. The closest to the proposed is the automatic control system for electrical parameters of electronic circuits containing a control computer, outputs which are connected via the interface to the first and second inputs of the digital-to-analog converter, the first switch and the block of analog-digital converters, control panel The output of which is connected to the input of the power supply unit, the first output of which is connected to the first input of the second switch, and the second output to the first input of the third switch, the first and second normalizers, the outputs of which are connected to the third inputs of the first switch connected to the OUT with the third input block analog-to-digital converters 2. The disadvantage of this system is the lack of protection of the object of control from the system and limited functionality for a range of parameters. The purpose of the invention is to increase the reliability of the system. The goal is achieved by introducing a constant signal control unit, an ac signal amplitude meter, an ac signal frequency meter, a logic unit, a distributor, and a reference frequency generator, the output of which is connected to the first input of the ac signal amplitude meter, the second input of which is connected to the third output of the power supply unit, the first output to the second input of the second switch, the first input of the control panel and the first input of the ac signal frequency meter, and the second output - to the fourth input of the analog-to-digital converter unit and the second input of the ac frequency meter, the third and fourth inputs of which are connected respectively to the first and second; inputs of a digital-to-analog converter whose outputs are connected to the first inputs of the distributor, the second input of which is connected to the first input of the interface, the first output to the third input of the second switch, and the second output to the second input of the third switch, the third input of which is connected signal, the first and second inputs of which are connected to the second and third outputs of the power supply unit, the fourth output of which is connected to the third input of the ac signal amplitude meter, The output of the ac signal frequency meter is connected to the first output of the logic unit and the second input of the control panel, the third input of which is connected to the second input of the logic unit and the third input of the third switch.

The drawing shows a block diagram of the control system parameters of electronic circuits.

The system contains a computer 1, a remote control 2, a power supply unit 3, a reference frequency generator 4, a variable signal frequency meter 5, a variable signal amplitude meter 6, a logic unit 7, a constant signal control unit 8, a switch 9 variable signals, a powerful switch 10 signals, the normalizer 11, the switch 12 control signals, the normalizer 13, block 14 analog-to-digital converters, interface 15, distributor 16, digital-to-analog converter 17, object 18 control.

The computer 1 issues, via the interface 15, to its external buses, address codes and stimulus codes, followed by control command signals. Any device connected to the bus perceives a code belonging only to it. If the code arrives at the information input of the digital-to-analog converter 17 and is perceived by it under the action of command signals arriving at its controllable inputs, then the analog signal in the form of a constant voltage is generated at the output of the converter. Next, this signal is fed to the input of the distributor 16, and from the output of the distributor through one of the output groups to the control object 18, through the other groups, as a controlling effect, the signal goes to switches 9 and 10. The power supply unit 3 outputs variables to one of the outputs signals varying in amplitude and time, and on others - constant signals. Permanent signals are used as stimuli and as reference voltages.

In the process of testing the control object 18, the stimulating and supply voltages are supplied both directly from the outputs of the distributor 16 and from the outputs of the power supply unit 3 through the switches 9 and 10.

The DC signal control unit 8 monitors the voltage and current of the DC signals. The measured value is fed to one of its inputs, and the reference voltage to the second. If the signal value is outside the specified tolerance, then a signal is produced at its output, which on one side blocks switch 10 on the control input, and on the other side enters the control panel 2 and interrupts the computer via logic unit 7.

The switch 9 connecting the variable signal to the control object is controlled by the output signal of the meter 6 of the variable signal amplitude and the output signal

the signal from the distributor 16. If the variable signal goes beyond the established norm, then the switch 9 is blocked by the output signal of the measuring instrument 6 of the amplitude of the variable signal, which is controlled by one of the inputs by the signals of the generator 4 of the reference frequency, and the other input is the reference voltage from unit 3 power sources.

A variable signal frequency meter 5 measures the frequency and time parameters of the variable signals. The meter is controlled from the code and control interfaces of the interface 15, as well as from two outputs of the meter 6 amplitude of the variable signal. If the variable signal has a deviation in frequency parameters,

0 then it is generated - a mismatch signal arriving simultaneously to the control panel and through logic block 7 for interrupting the 3iBM.

Measurement of the monitored parameters of the control object 18 is carried out by the block 14 of analog-to-digital converters, the inputs of which are connected to the outputs of the control object through the switch 12 of the monitored signals and the normalizers 11 and 13.

0 Introduction to the system of additional devices for the formation, switching and control of stimuli, as well as new connections, allows to form not only stimuli in the form of analog signals of direct current and voltage, but also stimuli in the form of

5 signals varying in a wide range in amplitude and in time. At the same time, reliable control of both the stimuli generated by the system and the output parameters of the controlled objects is provided, as a result of which the flexibility and versatility of the system is increased, which favorably distinguishes it from the known systems in terms of reliability, functionality and extends its range of use.

Claims (1)

Invention Formula A system for monitoring electronic circuit parameters containing a control