SU1119030A1 - Device for checking parameters - Google Patents

Abstract

PARAMET .ROV CONTROL DEVICE, containing a program block, connected by the first and second information outputs to the first and second inputs of the tolerance generator, respectively, connected by the third input and outputs, respectively, to the first output and the corresponding first inputs of the first comparison unit, associated with the second input and output, respectively the output of the switch and with the first input of the display unit, and the third output with the input of the second and third comparison blocks connected by the second inputs to the third information Ion outputs of the program block, characterized in that, in order to increase the speed of the device, the fourth comparison block, the first and second adders and the control block containing the trigger, And element and the Sh1I element connected with the first input through the first button to the Start bus, the second input is to the fourth output of the first comparison block, and the output to the first input of the And element associated with the output from the program block start input, and the second input from the output of the trigger connected to the drop input of the first input programs and through the second button to the bus Reset, and the second input to the output of the fourth comparison block, connected by the first input to the fourth information output of the program block, and the second and the input (L dami, respectively, to the outputs of the first adder and outputs of the second adder connected the first information input to the output of the third comparison block, and the fault input to the control output of the program block and to the reset input of the first adder connected by the information about the soc input input to the output of the second comparison block; the overflow output is with the second information input of the second adder, and the fifth information output of the program-1 mk block to the control input of the switch.

Description

The invention relates to instrumentation technology and can be used to create automatic systems for controlling complex objects.

A device for controlling parameters is known, which contains a program block connected to the input of an operational amplifier, which is programmed; the 1st generator is a current; converter, voltage meter and resistors Cl 3.

In this device, the reliability of the control is determined by the accuracy characteristics of the blocks, providing comparison, conversion, etc.

Closest to the invention: is a device for controlling parameters, comprising a program block, the first input of which is connected via an admission driver to the first input of the comparison unit; the first output of which is connected to the first control of the program block input. Dp of reducing the monitoring time without reducing the requirements for reliability, a second comparison unit is introduced, the control input of which is connected to the second output of the program block, and the signal input is connected to the second output of the first comparison block. With the help of the second comparison unit, the parameters, the results of which are compared with the tolerance, carried out in the first comparison unit, do not exceed a certain amount smaller than the difference between the parameter tolerance and the maximum error of the first comparison unit 2 J.

However, the total time of monitoring by a device of a layer object remains relatively large even in cases where the overwhelming number of parameters satisfies the indicated requirements.

I The purpose of the invention is to increase the speed of the device.

The goal is achieved by the fact that in the device control parameters containing a block of programs. The first and second information ports, ion outputs, respectively, to the first and second inputs of the tolerance generator, connected by the third input and outputs, respectively, to the first output and the corresponding first inputs of the first comparison unit, connected to the second input and output, respectively, from the switch output

and with the first input of the indi- cadia block, and the third output with the input of the second and third comparison blocks connected by second inputs to the third information outputs of the program block, a quarter comparison block, the first and second adders and the control block containing the trigger, the AND element and the OR element, connected by the first input via the first button to the Start bus, the second input to the fourth output of the first comparison unit, and the output to the first input of the element AND connected to the launch output of the program block, and the second input to output three A key connected by the first input to the reset input of the program block and through the second button to the Reset bus, and the second input to the output of the fourth comparison block connected by the first input to the fourth information output of the program block, and the second and third inputs to the outputs of the first adder and the outputs of the second adder connected by an intermediate information input to the output of the third comparison unit, and the reset input to the control block of the programs and to the reset input of the first adder connected by information an input with an output of the second comparison unit, and an overflow output with the second information input of the second adder, and the fifth information output of the program section to the control input of the switch.

The drawing shows a block diagram of a device

The device contains the first comparison unit 1, which includes an operadgdaon amplifier 2, current-generating resistors 3-5, analog-digital converter 6, converter 7 code-code, tolerance driver 8, including first digital-to-analog converter 9, second digital-to-analog converter 10, start bus 11, the second comparison block 12, the third comparison block 13, the block. 14 programs, including control unit 15 control 5 photo-reading device 16, pulse distributor 17, register block 18, containing registers 18, ISr, element 19 for, core 5 first adder 20 and second adder 21, fourth comparing unit 22, block 23 display, the switch 24, the first and second buttons 25 and 26, bus Reset 27. The control unit contains the trigger 28 element OR 29, element AND 30. The pulse distributor decoder 31 contains amplifier 32. Digital-to-analog converter 9 is used to set the input of operational amplifier 2 through a current resistor 4 proportional to the program task for the nominal parameter being monitored. From the outputs of the register 8l, a program is entered into the switch 24. The program determines the signal pickup point in the control object. From the outputs of register 18, a code defining the sign and nominal value of the parameter being monitored is entered into the imaging unit 8. Register 183 enters a code defining the value of the tolerance (half the value of the tolerance per parameter), Register 18 enters in block 22 a code defining the required (for example, minimum acceptable) accuracy of the object control. Service commands, for example, Stop, are assigned to register 18 from the program 1 for the star in the photo-reading device 16. From the outputs of register 184, codes defining the zones of high and low reliability of control are entered into the comparison blocks 13 and 12. The codes are positional, the weight value of each bit is equal to the weight value of the positional unit code relative to the parameter deviation entered in block 14 of block 1. The high and low confidence polling zones are set by entering from the block of registers 18 groups of sequentially placed bits. Two blocks 12 and 13 of the comparison record the finding of the result of the control in one of the two confidence zones. The first zone covers deviations of O - 85 and from 1 15% to 00. This is a high confidence zone. The stay of the control result in this zone is fixed by the comparison unit 13. The second zone covers the deviations found in the zone 85 - 115%. This is a zone of low confidence and the stay of the control result in it is fixed by the comparison unit 12. In the initial state, the registers 18 of block 14 are reset. Block 1 due to 304 switch 24, disconnected from the object j control. Broken adders 20 and 21 (for example, counters). The device is generally reset using button 26, with which trigger 28 is set to state 1, whereby element 30 is open and prepared to receive a start signal from button 25. The device operates as follows. The control cycle begins by inputting the element OR 23 a signal to start from button 25. This signal, passed further to the output of the open element 28, enters the input of the photo reader 16 as the Start signal, which starts the photo reader 16, which reads the control program line by line and the address of the register in which this program is to be entered. Register address is decrypted; . in the decoder 31, from where the signal is written to the control input of the corresponding register 18 ... 18. The information inputs of the registers are supplied by the photo control program enhanced by photo amplifiers 32. In the last line of the group of lines that make up the monitoring program for each parameter, the Stop command is placed, which puts the device 16 in the waiting mode for the next Start signal from the output of the comparison unit 1. The first line of the group of lines that make up the monitoring program for each parameter contains the Reset command, which being read by the photo-reading device 16, goes to register 18, and then goes to the Reset inputs of other registers of block 18. The storage time of the Reset and Stop commands to register 18 is limited to the expense of the delay element 19, which ensures its reset in a time sufficient to effect the reset of all the other registers of block 18 on the command Reset from the output of register 18 /. In the remaining registers 18, the program information is stored for a period of time while the monitoring procedure of the next parameter is performed. The program information received by the switch 24 provides the connection of unit 1 to the removal point provided by the program in the control object. The monitored signal through the switch 24 and the resistor 3 is fed to the input of the operational amplifier 2 in the form of a current proportional to the monitored signal. On the other hand, the summing point from the output of the converter 9 through the resistor 4 receives a current proportional to the program task for the nominal parameter monitored IS register output. The direction of the current is determined by the program and is always the opposite of the expected direction of the current generated by the monitored signal. The deviation of the monitored parameter from its nominal value, detected as a result of the summation of the indicated currents at the input of the operational amplifier 2, is normalized by the latter in accordance with the coefficient (1 transfer criterion determined by the tolerance for the parameter whose code is entered from the output of the register 13 into the converter 10, The indicated normalization is ensured by the fact that the current in the feedback circuit of the amplification of the body 2 depends on the voltage acting on the input of this amplifier and the output of the converter 0, and on the code determining the value to the one of the tolerance entered into converter 10 from register 8, the normalized deviation value of the controlled pair) ether from the output of amplifier 2 is fed to the input of converter 6, where it is converted into a deviation code, which is converted by the converter 7 into a form, Operator-friendly, for example, 5 in a one-ten positional code, the bits of which are grades of deviation expressed as a percentage. At the same time, an estimate of the Fit or Unfit parameter is generated; as well as power-on start. The results of the evaluation of the evaluation are God or Negodn and grades - the percentage of the relative deviation comes in the display unit 23. In addition, the parameter deviation code also goes to blocks 2 and 13 compared to the confidence zone codes entered in them from the register 18 output. Using the comparison blocks 12 and 13, the parameters are found, the control results are stored in one of the other zone of certainty. 06 The results of the control parameters, the values of which lie in the zone of increased reliability, for example, have relative deviations, expressed as a percentage of 1/2 of the tolerance field, in the range of 0-85% and 115% - "o, detected by block 13, receive a higher confidence weight value than the control results detected by block 12 located in a low confidence zone of 85% -15%. The signal for establishing a confidence zone in which the control result is located is fed from the outputs of blocks 12 and 13 to the inputs of the adders 20 and 21 signals from the output b Lock 13, having a higher weight value, is summed in the adder, 2 1, where the sum of the most significant bits of the overall reliability of the control object is determined. The adder 20 determines the sum of the lower bits of the overall reliability of the control object. Adders 20 and 21 are connected in series. So they recorded the total result of the overall reliability of the control object. The result of measuring the current value of the object's control reliability is fed to the corresponding (second and third) inputs of the comparator unit 22, the first inputs of which are fed from the output of the register 18 to a code displaying the required value of the object's control confidence. Advancement of the control program from the parameter to the parameter is carried out by the Start signal generated in the first block 1 of the comparison. On this signal, the advancement of the monitoring program proceeds until all the parameters stipulated by the program are monitored. However, the monitoring process of the pref. It is still, until the control of all parameters is completed, if the comparison unit 22 is fixed earlier. In this case, the trigger 28 receives a signal. Stop from exit 22 and the monitoring process will stop. The proposed technical solution significantly reduces the time for monitoring objects, whose parameters are well adjusted or have not undergone significant changes during storage and operation of this object. This is all the more significant given that the values of controlled

parameters in the process of acceptance tests, storage and operation are subject to the normal distribution law, i.e. finding the values of deviations of parameters in the zone O - 85% is most likely.

As a result, the service time of each monitored object is reduced, the operating personnel is released, and, consequently, human resources are saved.

Claims (1)

A PARAMETER CONTROL DEVICE comprising a program block connected by first and second information outputs respectively to first and second inputs of a tolerance driver connected to a third input and outputs, respectively, with a first output and corresponding first inputs of a first comparison unit, connected by a second input and output, respectively, to a switch output and with the first input of the display unit, and the third output with the input of the second and third comparison units, secured by the second inputs to the third information the outputs of the program unit, characterized in that, in order to improve the performance of the device, the fourth comparison unit, the first and second adders and the control unit containing a trigger, an AND element and an OR element connected to the Start bus via the first input are inserted into it, the second input - to the fourth output of the first comparison unit, and the output to the first input of the AND element, connected by the output to the start input of the program block, and the second input - to the output of the trigger connected by the first input to the reset input of the program block and through the second button to the Reset bus, and the second input to the output of the fourth comparison unit, connected by the first input to the fourth information output of the S block of programs, and the second and third inputs, respectively, with the outputs of the first adder and the outputs of the second adder connected to the output by the first information input the third comparison block, and the dump input to the control output of the program block and to the dump input of the first adder connected by the information input to the output of the second comparison block, and the overflow output from torym data input of the second adder and the fifth information output unit progra ^ u switch control input. SU. „1119030 I I 19030