SU708359A1 - Device for determining reliability of objects - Google Patents

Description

The invention relates to the field of automation and L51 numerical technology and can be used in the analysis and prediction of reliability, namely, to determine the structural reliability of electronic devices. In this case, the structural reliability should be understood as the result of the reliability of the system (votroysgva) for a given structure of it and the known reliability values of all its parts. A device for assessing the reliability of objects containing sensors of mode coordinates, a level meter of their magnitudes, a generator and pulse counters, logic elements, a switching device Cll is known. A disadvantage of the known device is the inability to determine the structural reliability of a device (system). Closest to the invention is a device for determining the reliability of objects, comprising a clock pulse generator, a state counter, a switch, a first comparison block and a hit counter, the state counter being connected to the first input of the comparator unit, the output of which is connected to the counting input of the hit counter, the outputs of the coincidence counter are the outputs of device 2. The disadvantage of this device is its limited functionality, namely the impossibility of determining structural reliability. objects. The purpose of the invention is to expand the functionality of the device by determining the structural reliability. The goal of the DSC is tigged by the fact that a memory block, an address register, an OR element, a second comparison block, a register and a decoder are inserted into the device, the output of the clock pulse generator; o connected to the first register input, and the crack whose output is connected to the input of the block memory and the first input of the second comparison unit, the register output is connected to the second 370 input of the second comparison unit, the output of which is connected to the second input of the OR element, the output of the AND / 1I element is connected to the second input of the address register and to the counting input of the state counter the output of which is connected to the input of the switch and the control input of the decoder, the output of the decoder is connected to the first control input of the match counter, the output of the switch is connected to the second control input of the match counter, the output of the memory block is connected to the second input of the first comparison unit, the output which is connected to the second input element OR. A block diagram of a device for determining structural reliability is shown in the drawing. The following blocks are included in the device: clock pulse generator 1, coincidence counter 2, address register 3, status counter 4, first comparison block 5, second comparison block 6, memory block 7, register 8, decoder 9, element - OR 1O, switch 11. The principle of operation of the device consists in a complete enumeration of the states of the model of the reliability of the object and the counting of the states that ensure the functioning of the object. In this case, a reliability model is understood as an analytically or otherwise represented system that displays the object of study, taking into account the peculiarities of the formation and implementation of reliability, and is capable of replacing it so that its study provides complete information about the reliability of the object. Models are built on the assumption that, based on the requirements of ensuring the required quality of system operation, there may be even-40

are defined failure concepts for all its elements. The model displays the effect of individual element failures on system reliability.

An element is an object that represents the simplest part of a system, some parts of which are not of independent interest within the framework of a specific consideration. The division of the system into elements depends on the nature of the examination, on the required accuracy of the study and on other reasons. The concept of an element in the theory of reliability does not coincide with the concept of a structural element (integrated circuit, resistor, etc.). Obviously, when preparing models for calculating the reliability of the device in the element of reliability, it is advisable to combine

Claims (2)

Madi is compared by the first comparison unit 5 with the code received from the state counter 4. If the codes do not match, then the next signal from the clock 1 generates the address of the address register 3 by one and provides the next word from the memory unit 7. When codes 55-9 are a set of structural elements, the reliability of which (set of elements) is defined as a post-user, parallel-serial, parallel, or other studied combination of elements. The device works as follows. Before switching on the device, the model of the object under study is inserted into the memory block 7. Each word in the memory block corresponds to a path in the reliability model, and if the path passes through the 1st model element, then the 1st bit of the word is entered, otherwise, O is entered. In register 8, the code corresponding to the number of paths in the reliability model is entered. Switch 11 is set to the position corresponding to the number of elements in the model, namely, if there are AND elements in the model, the switch is connected to the output (AND +1) of the state counter 4 discharge. After setting the reliability model an object begins to iterate over the model states, the purpose of which is to count the number of working states of the model with k running 1 common elements (k 1, 2, ..., and, where and is the number of model elements). When iterating, a working (working) element of the model corresponds to state 4 at the corresponding output of the counter, and the failed one to O. When iterating, the pulses from the clock pulse generator 1 are sent to the counting input of the address register 3. By the code formed in the address register 3, the corresponding line (word) of the memory block 7 is output. The information read is dropped, then the signal from the output of the first comparison block 5, an increase is made in the code stored in the coincidence counter 2. The decoder 9 maps the positional code containing If units to the input of the decoder to the unitary code at the output of the decoder containing the unit on the k -th output associated with the yn equal input to write to the hit counter 2, accumulating a number of healthy states containing K healthy elements. The signal from the output of the first comparison block 5 increases the code outputted from the output of the state counter 4 by one. As a result, the operability test of the next state of the model is carried out. If, when issuing all the paths of the model under study from memory block 7, the code of any of the paths does not coincide with the code at the output of the state counter 4, then the signal from the output of the second comparison block 6, which appears when the address 3 is formed in the register , which coincides with the code in register 8 (which corresponds to the number of paths in the model), the code a is incremented from the output of the status counter 4 by one. In this case, the previous state, outputted from the output of the state counter 4, is considered inoperable, i.e. there is no increase in the content of the hit counter 2. The brute force process continues until all the 2 P states are searched, then the signal from the (1 + 1) -th bit of the state counter 4 is outputting the content of the hit counter 2. The content of the hit counter 2 corresponds to the number of working states of the model with k equipments of NK. According to the results of the search, M) the structured reliability of the object under study is determined; Vi-KP I (- (- P, to the list of P - the probability of failure-free operation of the element of the reliability model of the object under investigation. The technical and economic effect of the application of the proposed invention is in analyzing the structural reliability of the objects with its help, which makes it possible to study complex reliability models of objects, which are estimated by EGSM, require significant costs of expensive masking time. Invention A device for determining the reliability of objects, comprising a clock generator, a state counter, The first unit of the comparison unit and the coincidence counter, the output of the state counter connected to the first input of the comparator unit, the output of which is connected to the counting input of the coincidence counter, the outputs of the coincidence counter are outputs of the device, characterized in that device by determining the structural reliability, a memory block, an address register, an OR element, a second comparison block, a register, and a decoder are entered into the device, and the clock pulse generator is connected to By the first input of the address register, the output of which is connected to the input of the memory unit and the first input of the second comparison unit, the output of the register is connected to the second input of the second comparison unit, the output of which is connected to the second input of the OR element, the output of the OR element is connected to the second input of the address register and with the counting input of the state counter, whose input is connected to the input of the switch and the control input of the decoder, the output of the decoder is connected to the first control counter of the coincidence counter, the output of the switch is connected to the second control conductive input coincidence counter mlhod block memory connected to the second input of the first comparator block, whose output is connected to a second input of the OR element. Sources of information taken into account in the examination 1. The author's certificate CCQ N) 304586, cl. O06 F 15 / 4b, 1970. 2. Author's testimony of the USSR N5 389510, cl. Q 06 F 15/46, 1971 (prototype). 8btfo9