SU1691819A1 - Radioelectronic installations diagnostic device - Google Patents

Abstract

The invention relates to technical diagnostics and is intended to detect single failures in radio electronic objects with feedback. The purpose of the invention is to improve the quality of diagnosing an object and reduce its time simply. The device contains keys 8-11, 47, 48, blocks of sensors 12, indications of the technical condition of the diagnosed object 52, technical condition of the functional elements of the diagnosed object 23, technical condition of the sensors 38 of tolerance control, decoupler unit 40, decoder 20, elements OR 45, 46, NOT 50, 51, isolation 39, source 49 reference signals. The device diagnoses failures in the elements covered and uncovered by feedback by monitoring without disabling the operating mode of the object, thereby increasing its utilization rate. 2 Il. 1 tab. w & and you 00

Description

The invention relates to technical diagnostics and is intended to monitor the operability and detect single failures in radio electronic objects, including to feedbacks m,

The purpose of the invention is to improve the quality of diagnosing an object and reducing its time simply,

Fig, 1 shows a functional diagram of the proposed device; figure 2 is a fragment of the decoder circuit.

The diagram of a device for diagnosing an object 1, including functional elements 2-5 and, for example, power inputs b and antennas 7, shows groups of keys 8-11, a block of 12 sensors of tolerance control with sensors 13, 14 (according to the number of functional elements of the object) , outputs 15-19 groups of keys, decoder 20, outputs (buses) 21, 22 of the sensor control unit of the tolerance control, block 23 indicators of the technical state of the functional elements of the object being diagnosed, including indicators 24-27, groups of outputs and outputs (buses) 28 -37 decoder, block 38 indicators t The technical condition of the sensors of the tolerance control, the element 39 is separated, the block 40 is disconnected, built on diodes 41-44, the first 45 and second 46 elements OR, the first 47 and second 48 keys of the source 49 reference signals, the first 50 and second 51 elements , the block 52 of the indicators of the technical condition of the object being diagnosed (with the indicator 53 of the health of the object and the indicator 54 of the inoperability of the object), the switch 55 of operating modes with terminals 56, 57.

The decoder 20 (FIG. 2) is made on the basis of a rectangular resistive-diode array and is designed to convert the parallel code signals from the sensors into unit signals generated at the outputs 28-37 of the decoder according to the algorithm given in the table of failures of the object and sensors. The first part of the decoder matrix implements rows 1-5 of the table in order to determine the operability of the object and to detect the failed elements in the event that the object does not function. The second part of the matrix implements rows 6-10 of the table and is introduced to detect failures of the second kind in the sensors of block 12. The third part of the matrix, which implements rows 11-16 of the table, is introduced to detect the failures of the first kind in the sensors of block 12. The decoder has the main information input bus 21, 22 and auxiliary, to which the input signals are received through the elements NOT

58-60 in inverted form, the output busbars 28-37 connected through resistors 61-64 to the reference inputs 56, 57 of the decoder, and switching diodes 65, 66 connected between the input and output buses according to the table.

In this case, each output bus is connected by diodes to the main input information buses, if in the table

0 failures at the intersection of its lines is sign 1, and with auxiliary ones, if sign O is.

The device works as follows.

5 In the initial state, the switch 55 is set to position A. The keys 8-11 are open, a third of the decoder 20 is turned off. Sensors 13, 14 convert monitored output parameters

0 elements 2-5 of object 1 in unified signals of the type 1 (parameter within permissible values) or O (parameter is out of limits), which are transmitted in parallel by

5 descrambler. If the object is operational, then at the outputs of all sensors, signals of the form 1 are formed, which, entering the inputs 21, 22 of the decoder, block with their high positive potentials

0 all the diodes of the output bus 28, which cease to shunt the given output, at the last, a signal of the type 1 is formed, which through the first element OR 45 enters the first input of the element OR 46,

5 to the input element 51 and to the input of the indicator 53 the health of the object in block 52, the indicator 53 of the health of the object is turned on, the indicator 54 inoperability of the object is off, the key 47

0 is open, key 48 is closed.

On the remaining outputs of the decoder, zero potentials are formed due to the flow of current through the resistors.

5 61-64 and the supply voltage drops to them, since the individual diodes in the circuit of each bus are open. As a result, all fault indicators are off. If the object fails any

0 elements, then the data inputs 21, 22 of the decoder receive a combination of signals different from the combination 111111; through any diodes of output bus 28 current flows from power bus 56

5 through a resistor 61 to the input bus having a low (zero) potential; the voltage of the power source mainly falls on the resistor 61. At the output 28, a potential of zero is formed, the indicator 53 turns off, the indicator 54 turns on.

So, if element 3 fails - an element not covered by feedback, then code 2100 enters inputs 21, 22 of the decoder 20, which according to the table causes signal 1 to appear on output bus 30 of the decoder 20 and turn on the indicator 25 element 23 failure unit 3. Furthermore, the output signal 30 through the OR element 46 is supplied to the control input of the key 47 and to the input of the element 50, when this key 47 is open, the key 48 is closed, the feedback between elements 4 and 5 is not broken . If element 4, for example, is a feedback element, then the inputs 21, 22 of the decoder 20 receive a code combination of type 11000, which, according to the table, causes the appearance of a signal of type 1 only on the output bus 31 of the decoder 20 and switching on indicator 26 of element 4 failure. On all inputs of element OR 46, signals O are present, therefore, key 47 is open, key 48 is closed, the connection between elements 4 and 5 is broken, source 49 of reference signals is connected to element 4. Necessity to break the reverse connection for is that in case of failure of element 5 and maintaining feedback between elements 4 and 5, the input of operable element 4 receives a signal of the failed element 5 that has gone beyond the limits, which leads to disruption of the function of element 4 and the output parameters of its output signal limits of acceptable values. Consequently, the code combination 11000 arrives at the input of the decoder and, according to the table, element 4 failure indicator 26 should turn on, which is not true. When the feedback is disconnected and the signal from source 49 is connected to element 4, instead of a feedback signal, the code combination 11100 is sent to the input of the decoder, which causes the indicator 27 to turn on the really failed element 5. The rest of the fault indicators are off

Detection in the sensors of failures of the second kind, when the operable element is recognized as failed by the sensor, is performed in the same mode as detection of the failed elements of the object (switch 55 in position A). When a second type failure occurs in one of the sensors (for example, 13), the code combination (01111) arrives at the input of the decoder, which coincides with one of the rows 6-10 (from the 6th) table.

The decoder also compares the input code value with the programmed one and in the same way causes the inclusion of the corresponding indicator in block 38. In this case, the object is recognized as intact and the feedback between its functional elements is not broken.

In order to detect the first kind of failures in the sensors, when the sensor does not detect the sensor failure, the mode switch 55 is set to position B. The keys 8-11 close, do not pass signals, with the output of the object 1 to the sensor inputs,

15, the input 57 of the decoder 20 provides the reference voltage, and the first two parts of the decoder 20 are turned off. A sensor having a first kind failure, with any input signal, always generates a signal 1. Therefore

0 any such failure according to the table (lines 12-16) causes the appearance of a single signal at one of the outputs 36, 37 of the decoder and the activation of the corresponding sensor failure indicator in block 38.

5, in this case, the object is also recognized as operable and the feedback between its functional elements is not broken. In case of absence in block 12 of the first kind of failures at the inputs 21. 22 decoder

0 20, a combination of the type 00000 is received, which, according to the table, causes the occurrence of signal 1 at output 35 of the decoder 20. This signal through the element OR 45 enters the input of the element OR 46.

5 input element 51 and the input of the indicator 53 of the health of the object, while the indicator 53 is on, the indicator 54 inoperability of the object is off, the key 47 is open, the key 48 is closed, i.e. feedback,

0 is not broken.

Claims (1)

Apparatus of the Invention A device for diagnosing electronic objects containing a unit 5 tolerance control sensors, a decoder, a block of indicators of the technical state of functional elements of the object being diagnosed, a block of indicators of the technical state of sensors of auxiliary control, first element OR, two keys, mode switch source of reference signals. First element NOT, isolation unit, block indicators of the technical condition of the diagnosed 5 of the object, the first input of which is connected to the output of the first OR element, the first input of which is connected to the first input of the decoder, the group of inputs of the first OR element, and the group of inputs of the indicator block of the technical condition of the control sensors of the isolation unit, first and second groups of outputs of the decoder are connected to the first and second groups of inputs of the display unit of the technical state of the functional elements of the object being diagnosed, the third and fourth groups of outputs of the decoder are connected with the first and the second group of inputs of the isolation unit, the group of inputs of the decoder is connected to the output group of the sensor control unit of the tolerance control, the first and second reference inputs of the decoder are connected via the first and second outputs of the mode switch to the input reference voltage of the device, the output source of reference signals is associated with the information the input of the second key, the control input of which is connected to the output of the first element NOT, the information input of the first key is connected to the input of the device for connection to the feedback output d A diagnostic object, characterized in that, in order to improve the quality of diagnosing an object and reduce its time simply by maintaining the feedback operability during partial faults and diagnosing the tolerance control sensors themselves without stopping the monitoring object, a second element OR zki, a group of keys and the second element is NOT, and the decoder has the second output connected to the second input of the first OR element, the output of which is connected with the input of the second element NOT, the output of which is connected to the second input of the indicator block of the technical condition control object, the output of the first element OR is connected to the input of the second element OR, the group of inputs of which is associated with the first group of outputs of the decoder, the output of the second element OR is connected to the input the first element and the control input of the first key, the output of which and the output of the second key are connected to the inputs of the isolation element, the output of which is the output of the device for connecting the control object to the feedback input, the first output of the operating mode switch is connected to the control inputs group keys, the outputs of which are connected to the inputs of the tolerance control sensor unit, and the information inputs are the device inputs for connecting to the output control points of the functional elements of the control object. Failure table of object states and sensors 21 58 59 P 61  65 I -pi 51 51 L 65 Have 64 FIG. 2 Table continuation P 28 I I t I 54 I 35 T 51