SU928656A1 - Detector of errors of scaling device - Google Patents

Description

one

The invention relates to control-and-measuring and pulse technology and can be used to conduct statistical tests of scaling devices of digital computing and automatic control and regulation in order to detect and study their errors.

It is known a bit-wise control of a scaler, containing a test scaler under test, bit error detectors, elements of comparison Cl3.

A disadvantage of this device is its limited functionality.

Closest to the proposed technical entity is a device for the study of the statistical characteristics of the errors of the counting devices, containing a counting pulse generator, start-stop key, test and control

scaling devices, error detection and recording units 2}.

However, the known device is characterized by insufficient operability, since the output information received by the operator from a punched tape does not have the necessary consistency, and limited functionality, since the known device does not allow detecting and detecting impulse interferences, which can the unjustified transfer and operation of both the next conversion cell and the actuator, which in some cases is completely unacceptable.

The aim of the invention is to enhance the functionality and increase the speed of error detection.

The goal is achieved by the fact that the error detector of a counter device, containing a counting pulse generator, a start-stop key, a control and test calculators, bit detectors and error recorders, connected to the corresponding control and test counters through the comparison elements, introduced serially indicators of the state of the test and control recalculators, regenerators with amplifying elements, communication elements, elements of adjustable The integration, switching nonlinear elements, the control voltage unit, the power unit f solution of the SRI and the programming device, so that the output of each comparison element is connected to the input of the amplifying element of the corresponding regenerator, the first output of the amplifying element of the regenerator is connected through the communication element. to the control unit of the voltage, and through a variable integration element and a switching nonlinear element connected in series to the input of the amplifying element of the regenerator, the second output of the amplifying element is connected to the fault recorder and to the corresponding bit input of the decision block, the first output of which is connected with the output terminal of the detector, its second output is connected to a programming device, the input of which is connected to the generator of counting pulses, the third output of the block is received These decisions are connected to the start-stop key, its fourth output to the subject and the control counters. The drawing shows a diagram of the device. The device contains a generator of 1 pulses, start-stop key 2, test scaler 3, control (sample) scaler / device, bitwise indicators 5 and 6 of the state of the test and control meters, respectively, bit detectors and error recorders 7, containing elements 8 of comparison, regenerators 9 with adorable elements 10, elements 11 of communication, elements 12 of controlled integration by switching nonlinear elements of MI 13 AND registrars C ((counter, fault indicators the control unit 15, the decision block 16, the npoi-ramming device 17 and the output terminal 18. The device operates as follows: In the initial state, the start-stop key 2 is closed and the pulse flow from the oscillator 1 counting pulses does not arrive at the recalculation devices 3 and 4. With the help of the Reset command from the programming device 17, or the decision block, 1b test 3 and the control 4 recalculation devices are set to the same initial conditions, which are fixed by the same bits ikatorami conditions 5 and 6 are set in the initial state and registers (counters, LEDs) Fault 1 bit x a detector 7, the diode 9 regenerators which are in standby mode. The use of sensitive diode regenerators 9 makes it possible to obtain a simple bit detector and recorder 7 of almost all types of faults (failures, faults and interferences). The setting of the required sensitivity to the magnitude and duration of the error signal occurring at the output of the comparison element 8 or at the output of the diode regenerator 9 when any kind of malfunction occurs in accordance with the discharge voltage of the test conversion device 3 is performed respectively by means of the control voltage unit 15 and variable integration element (development 12, connected to the feedback circuit of the regenerator 9 in series with the communication elements 11 and the switching nonlinear element 13, which implements feedback is positive in the regenerator 9. At the same time, the threshold level of the diode regenerator 9 is very stable.When the conversion device 3 is tested, the Start command from the programming device 17 or decision box 16 opens the start-stop key 2 and the pulse flow from the counting pulse generator 1 enters the inputs of the test 3 and control 4 conversion devices, which begin to lead due to incoming pulses at their inputs. In the absence of all types of faults (failures, failures and interference) in the bits of the test conversion device 3, the outputs of the elements of 8 bit detectors. Errors 7 do not generate an error signal with, both conversion devices 3 and continue counting until they are filled, after which From programmer 1, device 17 and block 16, the Stop, Reset, and Start commands are successively generated and the cycle is repeated. In the event of any type of malfunction (failure, failure or interferences) in any discharge of the test converter 3 at the output of the corresponding element 8, an error signal occurs. This signal is amplified by the amplifying element 10 of the diode regenerator 9 and through element 1 enters element 12, from the output of which the resulting signal enters the input of the switching nonlinear element 13. If the value of integrating the signal from the output of element 12 exceeds the voltage / rate specified by the control unit 15 for the shortest impulse noise to be detected and registered, then the switching nonlinear element 13 (e.g. diode) assumes a conducting state, the circuit is positive o The communication connection of the regenerator 9 is closed and a signal is generated at its output, causing both the triggering of the bit fault recorder 14 {counter, indicator, etc.) and the decision unit 16 issuing the Stop command and the output signal at the detection terminal 18 mistakes. Key 2 stops applying counting pulses to counting devices 3 and j, indicators 5 and 6 fix their states, and fault recorders of k bit error detectors; side 7 indicates a malfunction and bit of the tested counting device in which this malfunction occurred. Thus, by comparing the indications of the various indicators 5 and 6 and noting the indications of the fault recorders 14, it becomes possible to determine promptly enough the type of fault (failure, malfunction or room a), its nature (single failure, rug failure, etc.) as well as the times where it occurred. If it is necessary to register information on the errors of the test conversion device 3 on any information carrier (film, punched tape, etc.), this can be done by local means by registering the indicators 5 and 6 and registering the Topo I using a signal synchronization of the signal from the output terminal 18. With the help of the programming device 17 and the decision block 16, the error detector allows for automated control of the test conversion device 3, for example, when their control cycles: until the first malfunction occurs, with the stopping and clearing of information from indicators 5 and 6 and recorders 1, and then returning the counting devices 3 and indicators 5 and 6 and recorders 14 to the initial state, and repeating the control cycle; before the occurrence of the first malfunction, with the memorization of malfunctions behind the bits of the tested conversion device 3 (for example, accumulation of their number) using recorders 14, with subsequent return to the initial state of conversion devices 3 and 4 and repeating the cycle ol and so on. Thus, the functionality of error detection (detection and recording of all types of faults: failure failures and interference, localization of faults beyond the bits of the test converter 3, the possibility of changing the wide detector and fault recorder over wide limits) 7 to the magnitude and duration of the malfunction signal, the possibility of making the necessary decisions, programmable and operational, during the control cycle) and increases Efficiency (information about the type of fault, its nature and the bits where it occurred, the operator receives almost simultaneously with the fault; significantly reduces the time and complexity of testing, etc.). Claims of the invention The error detector of the scaler, containing the generator of pulses, the start-stop key, the control and test of the scalers, bit detectors and error loggers connected to the corresponding bits of the control and the subject of the recalculation device through the elements of comparison, characterized in that, in order to expand the functionality and increase the speed of detection, pores are introduced into it Visual indicators of the state of the test and reference recalculating devices, regenerators, amplifying elements, communication elements, elements of adjustable integration, switching nonlinear elements, a control voltage unit, a decision-making unit and a programming device, the output of each comparison element being connected with the input of the amplifying element of the corresponding regenerator, the first output of the amplifying element of the regenerator through .9 68 cuts the communication element connected to the control voltage block, and through a variable integration element and a switching nonlinear element connected in series to the input of the amplifying element of the regenerator, the second output of the amplifying element is connected to the fault recorder and to the corresponding discharge input of the receiving unit pe-v seams, the first output of which is connected to the output terminal of the detector, its second output is connected to a programming device, the input of which is connected to the generator of counting pulses, the third output of the decision block is connected to the start-stop the key, the fourth of his output - to the subject and control counters. Sources of information taken into account during the examination 1. USSR author's certificate No. 31529 +, cl. N 03 K 21 / ZA, 1970. 2. Losev V.V., Study of the nature of errors of digital devices. Measuring equipment, 19b9, ff 1, pp.55-57, Figure 1.

Claims (2)

Claim An error detector of a recounting device, comprising a counting pulse generator, a start-stop key, test and test recounters, bit detectors and error recorders connected to the corresponding bits of the test and test recounters through comparison elements, characterized in that, in order to expand the functional possibilities and increase the detection efficiency, bitwise indicators of the states of the test and control recounters, regenerators are introduced into it Tammy reinforcing element, connection elements, the elements of the adjustable integration nonlinear switching elements, a voltage control unit, the block making and programming device, wherein an output of each comparison is coupled to the input of amplifying element corresponding to the regenerator, a first output amplifying element regenerator che20 928656 The 8th communication element is connected to the control voltage unit, and through the adjustable integration element and a switching nonlinear element connected in series ^ to the input of the regenerator amplifier element, the second output of the amplifier element is connected to the fault recorder and to the corresponding bit input of the decision block the first output of which is connected to the output terminal of the detector, its second output is connected to a programming device, the input of which is connected to the generator of counting pulses owls third exit decision block 'resheniy.podklyuchen to the start-stop key, the fourth its output - to the test and control scaler. Sources of information taken into account during the examination 1. USSR author's certificate No. 315294, cl. H 03 K 21/34, 1970. 2. Losev V.V. Investigation of the nature of digital device errors. Measuring equipment, 1969, No. 1, p. 55-57, Fig.1. 923656 ЯНИИПИ Order 3284/76 Circulation 954 Subscribed Branch of PPP Patent · / Uzhgorod, Project 4,