SU382094A1 - ALL-UNION ( - Google Patents

Description

one

The present invention relates to the field of instrumentation technology and can be used in automated complexes for testing structurally complex objects on ethane of serial production and basic tests.

The automatic control systems (NAC) are known, which contain a control panel, an address generation unit, a software device, a resolver device whose output is connected to the first input of the display unit, and the second input is connected to the output of the synchronization unit, input analyzer, distribute the device and power supply unit. .

The speed of the known systems is limited by the response time of the switching devices, and the accuracy of the control depends on such factors as the errors of the switching devices and data analysis and processing units. In addition, the complexity of the known SAHs does not make it possible with high efficiency to analyze the state of the object of control (OK). its reliability and efficiency of use. According to the invention, the stated goal is up to 2.

stigmatsya by changing the structure of the NAC, eliminating switching or switching devices at its entrance and changing the algorithm of the operation of the NAC

pins; and associated with blocks forming the address, display, and the resolver. In addition, the inputs of the address generation unit are connected to the outputs of the synchronization unit and the output analyzer, and its output is connected with the input of the software device, which is connected to the resolver and the synchronization unit. Solving an input and output device is connected to a distribution device whose input is connected

with the output of the input analyzer. An input and output analyzer is connected to a power unit, which by its outputs is associated with all units of the system. On the arm, the automatic control system is presented.

The control panel V serves for communication of the operator with the system, setting various modes of operation, etc. The unit for generating address 2 serves to form the address of the control command for the parameter and determines the test pattern of the control object (OK). Software device 3 is a matrix storage device (memory) in the form of removable cassettes and is used to record

programs. Solver 4 serves

for the formation of commands for controlling the operation of the blocks according to the corresponding algorithms and for making a decision about the state of the object of control. The sync | sync block 5 is used to generate clock pulses scaled and the NAC operation synchronization. The display unit 6 is used to provide the operator with an integrated assessment of the condition of OK, n formations about the state and information about the presence in the release of each of the monitored parameters. Switchgear 7 is a co-ownership circuitry, which is used to switch the output signals of the input analyzer 8 to the input of a solver 4 in accordance with the co-control sequence diagram.

Input analyzer 8 represents the field of threshold devices (for example, diode-regenerative comparators), directly connected to the sensors of monitored parameters set by iB OK, assemblies for analyzing the state of threshold devices, and serves to determine the validity of the OK parameter in accordance with a given support and issuing a power-on command.

The power supply unit 9 consists of a block of stabilized supports, which are permanently connected to the analyzer's downstream devices, and the power units of all the ACS devices, which are powered only by a command from the input analyzer.

The device works as follows.

When any of the OK parameters goes out of tolerance, the threshold device for controlling this parameter is triggered, and from the output of the assembly of the input analyzer 8, a signal is sent to turn on the power supply unit 9. The power supply unit supplies power to all system units, and then the analyzer 8 gives the installation signal the control to the initial state (resetting the triggers, etc.) and launching the address generation unit 2, which sends the command to the program device 5.

The software device 3 issues a program code to a solver 4 and a synchronization unit 5, the code corresponding to the number of the parameter being monitored being sent to the output of device 4, and the time code of its control to the synchronization unit 5.

Solver 4 through the matching device scheme 7 Determines the state of the input analyzer 8 in the time interval specified by the synchronization unit 5. At the end of the interval of control of the first parameter, the decision tool 4 goes to the control of the next parameter

and so on. In accordance with the 3 nd control pattern in the software device 3. The operator from the control panel / sets the repetition rate of the cyclical control frame and the command for self-monitoring of the AAC system after executing the monitoring program, data on the state of the parameters, fault type OK and information on the operability of the control signal are output by the alarm and indication unit to the control panel and digital printing.

The power supply unit 9 disables all CAH devices. After repair work to eliminate the fault, the operator switches on the input analyzer.

Subject invention

An automatic control system for electronic equipment containing a control panel, an address generation unit,

software device, a solver whose output is connected to the first input of the display unit, and the second input to the output of the synchronization unit, the input analyzer and switchgear, differing from the fact that, in order to increase speed, reliability and efficiency of the congroup, the control panel its outputs are connected to the inputs of the display unit, the resolver device and the address generation unit, the other inputs of which are connected to the outputs of the synchronization unit AND of the input analyzer, and the output - to the input of the software device The KOTOiporo outputs are connected to the inputs of the syncronization unit and the decider, the input and output of which are connected to the distribution device, the inputs of which are connected to the outputs of the input analyzer a.