SU600484A1 - Multipoint monitoring adaptive device - Google Patents

Description

one

The invention relates to the field of control-measuring and computing equipment 1010. It is intended for visual and automatic control of electronic equipment during its production and operation in cases when the recognition of the technical condition of complex, different redundant systems in the presence of coptrolio-measuring equipment is performed. (KIA), control errors.

A control device containing a software block, a clock generator, a distributor, valves, a comparison circuit, a tolerance storage block, a threshold element, a counter and an oscilloscope 1 is known.

However, such a device does not take into account the KIA errors, the main attention is paid to the first kind errors (to recognize the corrected system as unsuitable) and the effect of the control outcomes on the adaptation element of the threshold element is not shown. All of this automatically leads to significant errors in the detection of a controlled object.

It is known a device for determining the characteristics of KIA, containing its two groups of comparing elements connected through elements with pulse counters, and a control unit connected to pulse counters and a tolerance storage unit, the outputs of which are connected to the first inputs of an element | olk jheateri imlauJiii OTK.ioHCJiiin the parameters of the object of control of control and: yuk gipeperayurov imitation of occasional holes, the waters of which are connected to

The terminal is connected to the terminal, and the outputs through the summattor are with the second inputs of the comparing elements of the first group, the second inputs of the second group of elements are connected to the outputs of the tree of the hyperash p.mptacpi

oiK.ioneiinn napa.MeipoB Project Control.

ippako is a ciponcTBO, firstly, a service for the accuracy of

Cut the results of control, secondly, as

The facility can serve as a technical system,

consisting of a series of non-redundant subsystems, and using it for control, with various reserve systems, to achieve a multitude of losses from control systems of the first and second kind under arbitrary distribution laws and parameters, does not seem to be possible.

The aim of the design is to reduce the losses due to the control and to increase the functionality

devices.

The goal is achieved by the fact that the adaptive multipoint control device containing a unit is equalized, connected to the inputs of the storage unit of tolerances and

- to the control input of the counter, to inform

The output of which is connected to the output of one of the elements AND, random voltage level generators connected to the inputs of all adders and the comparison element, to one of whose inputs the tolerance storage unit is connected, a subtractive element, two groups of valves, a distributor, a clock generator, an oscilloscope are entered , threshold element, switch, and adaptive threshold element. In this case, the control unit is connected to the distributor via the clock generator directly to the first inputs of both threshold elements, the outputs of which are connected to the inputs of the elements AND, and one of the adjusting inputs of the adaptive threshold element are connected to the output of one of the elements AND, the other to the output of the counter The second inputs of both normative elements are connected via a switch to an oscilloscope and a reference element, the other input of which is subtracted through, the other element is connected to the outputs of both groups of gates, channeling inputs of which are connected with the distributor and informative inputs - with adders.

The drawing shows a structural electrical circuit of the device.

The device contains a unit 1 unravlepi, a generator of 2-1 random voltage levels to simulate the deviations of monitored parameters of the control object, a generator of 2-2 random voltage levels to simulate the error deviations of the measuring equipment, adders 3-1, 3-2 ... 3-pn of the controlled parameters, gates 4-i, 4-2 ... 4-n, the inputs of which receive the values of the monitored parameters, the generator 5 clock pulses, the distributor b, the ventilator 7-1, 7-2 ... 7-n, the inputs of which are supplied with the values of the reference or exemplary pa meters, subtractive element 8, comparison element 9, tolerance storage unit 10, oscilloscope 11, on the screen of which you can observe impulses proportional to the differences between reference and controlled voltages with corresponding signs, switch 12, which is in position 12 in the process of learning -1, and in recognition of -12-2, the threshold element 13 for classifying serviceable and faulty objects, the adaptive threshold element 14 for classifying objects into classes suitable and useless according to the results of control, logical elements And you 15, 16 and the counter 17 serving to provide a signal to an adaptive threshold element at given ratios errors of the first and second kind.

The device operates in the learning mode, when a classification norm that optimizes the loss of Coptrol from errors is detected, or the total value of these errors, n in the control mode of the object.

Review mode. The control unit 1 reset the storage unit 10

tolerances. The counter 17 is filled to the state determined by the error ratio of the first and second type, the threshold element 13 is adjusted depending on the system structure, the necessary distribution laws of parameters in the generator 2-1 and the error distribution KIA in the generator 2-2 are selected, the switch 12 is translated in position 12-1. Then, the signal from the control unit 1 generator 2-1 random levels simulates the random deviations of parameters, which through the adders 3-1 ... 3-p are supplied to the inputs of the ventilation 4-1 ... 4-p. In addition, from block 1

through the generator 5 clock pulses n the distributor 6 signals sequentially open the fan 4-1, 7-1 .. Л-п, 7-п. The reference voltages applied to the inputs of the valves 7-1 ... 7-n and the simulated voltages supplied to the inputs of the valves 4-1 ... 4-n after opening the corresponding valves are fed to the extracting element 8. After comparing the difference of signals on element 9 with predetermined limits of tolerances, obtained from the block 10 of snoring tolerances, through switch 12 sigp enters the threshold element 13. After all the parameters are compared with the reference ones, depending on the number of parameters within the tolerances, and 13 signal nodaets pas input member 15, if the object isnravpyh relates to a class, and the input element 16, if the class object otpospts faulty.

After detecting the state of the object, the effect of measurement errors on the results of the control is investigated. For this purpose, a signal from block 1 of the control unit is used to simulate random errors of a KIA generator

2-2. Pa su-m. Matrices 3-1, 3-2 ... 3-p, the addition of the rejected parameters with the error of their measurement occurs, and the amounts obtained are fed to the inputs of the valves 4-1 ... 4-. After the corresponding oiros, established by distributor 6, sprinkled with reference panels through the fan 7-1 ... 7- / g and modeled through Veptlni 4-1 ... 4, carry the detector to the input of the subtracting element 8. The results of comparisons of all parameters with the permissible the values are passed through the switch 12 to element 14. The initial number of the required results is “Fit for the control unit 1, the same for the olon threshold elements 13 and

14. If they were no less compared with the results of the comparison at element 14, then the signal that the entire control object is classified as fit is sent to the input of element 16, otherwise it goes to the input of element 15.

With multiple tests, the threshold in element 14 is corrected, but the signals from the outputs of elements 15 and 16 are received. At the same time, the signal from the output of element 16

class fit, and with the release of the element 15 prp