SU696463A1 - Device for automatic monitoring and detecting faults - Google Patents

Description

(54) DEVICE FOR AUTOMATIC CONTROL AND TROUBLESHOOTING

Claims (2)

The invention relates to the field of automation and computer technology and can be used to troubleshoot electronic equipment. A device for detecting errors contains a NOT element, an AND element, a trigger and an element. A disadvantage of the known device is the low control efficiency and the lack of difficulty in providing an automated search for failures. It is also known device 2 for detecting errors in digital machines, containing the elements AND-NOT, elements NOT pulse generator, one-shot, decoder and pulse counter, the inputs of the multi-input element-AND-NOT is the input from the device and connected respectively to the inputs of the elements NOT, the outputs of which are connected respectively with the first inputs of the two-input elements AND-NOT, the second inputs of which are connected to the group of inputs of the decoder, the outputs of the two-input elements AND-NOT are connected to the corresponding inputs of four inputs the AND-NAND element, the output of the multi-input element AND-NOT is connected to the first input of the three-input element AND-NOT, the second input of which is connected to the output of the pulse generator, and the third input is connected to the output of one vibrator a, the output of the three-input element AND-NOT connected to the first functional input of the pulse counter, the remaining radial inputs of which are connected to a group of descriptor outputs. A disadvantage of the known device is low reliability. The purpose of the invention is to increase the reliability of the device. This goal is achieved by introducing an additional NAND element, an additional NO element, a time delay block and a display unit, the first input of the two-input supplementary gate NAND is connected to the output of the four-input IEE element, and the second input to the input of the temporary block delays, the output of which is connected to the input of the display unit and to the output of the additional element NOT, the input of which is connected to the output of the one-vibrator, the input of which is connected to the output of the two-input additional element of the NAND groups inputs of the indication unit is connected to a group vyho; s; s pulse counter. At the same time, a device with a constant amplitude from a unit (w pulses) is used as a pulse generator in the device, and decadal counters made, for example, on L-K-triggers, whose reset buses are connected to the control output of the decoder, are used as a pulse counter. The accompanying drawing shows a functional diagram of the device for automatic monitoring and troubleshooting. The device contains the first multi-input element AND-NOT 1, each input of which is connected to one of the input buses of the device and through the element is NOT one of the inputs of the corresponding two-input element AND-NOT 3. The signals C. ... Cpj are input signals of the device. The second inputs of the code elements AND-NOT 3 are connected to the corresponding outputs of the decoder 4. The inputs of the decoder 4 are connected to the corresponding outputs 3 -K-flip-flop of pulse 5 and inputs of digital indication block 6. Pulse counter 5 is performed on decade counters 7 working in code 1-2-4-8. Counter 5 capacity is determined by the number of monitored input signals. In order to provide the required recalculation factor of the pulse counter 5 of the reset bus, its triggers are additionally connected to one of the outputs of the decoder 4. The counting input of the first trigger of the ten-day counter 7 is connected to the output of three; input element AND-NOT 8, the first input of which is connected to the output of the first multi-input element a-AND-NOT 1, the second input - to the output of the pulse generator 9, the third input - to the output of the one-vibrator 10 You can use the device as a polling pulse generator 9 quartz oscillator, made, for example, on the chip. The frequency of the pulses of the ator 9 gene is determined by the capacity of the pulse counter 5 and the time required for the control cycle. 20 30 The time of action of the one-shot 10 is determined by the time required to indicate one fault code on the digital indication block 6 performed, for example, on gas-discharge digital indicators and control logic and key elements. The control input of the display unit 6 is connected to the output of the additional element HE 11 and the input of the time delay unit 12, the output of which is connected to the second input of the two-input additional element AND-NOT 13, the first input of which is connected to the output of the second four-input element AND-NOT 14, and the output - to the input of the one-shot 10. The output of the one-shot 10 is connected to the input of the optional element NOT 11. To ensure reliable operation of the device, the delay time of the time delay unit 12 should exceed the pulse pause time, but be shorter e imtgulsov repetition period generator 9. As a monostable multivibrator 10 and a time delay unit 12 in the apparatus can be used Sht monostable multivibrator formed on chips. Outputs; Kodosh 1x IS-3 elements are connected to the corresponding inputs of the second multi-input element AND-NOT All loto functional elements of the device, as well as decoder 4, pulse counter 5, polling pulse generator 9, one-shot 10 and time delay block 12 can be filled. Now unpackaged logic chips 703 series. The device works as follows. In the absence of fault signals at Inputs C ... C p, the devices all NOT 2 elements are in zero contact and, with their low output voltage levels, block AND-NOT 3 code elements at the first inputs. the inputs of the first and second multi-input elements AND-NOT 1 and 14 high voltage levels, these elements AND-NOT 1 and 14 are in the zero state and, with their low output voltage levels, block the three-input element IS-NE 8 and two-input, respectively. element and NOT. 13. In the initial state and in the absence of fault signals at the outputs of the block 12, the time delay and the single-vibration 10 there are high levels of voltage. The low voltage level of the additional element 11 is not the digital indication block 6 in the initial state blocked by the control input. Before starting the operation of the enabling pulse to the reset tires, the triggers of the counter of 5 pulses are reset. In the event of a malfunction on one or more inputs C, ... C. Devices P9rv1y multi-input element AND-NOT 1 and the inverters 2 corresponding to the input fault signals are thrown into one state. Since at the first and third inputs of the three-input element AND-HE 8 there will be high levels of output signals, the first multi-input element AND-HE 1 and one-shot 1O, element 8 opens, and high-frequency polling pulses from the generator 9 begin to flow to the pulse counter 5, the triggers of the decade counters 7 of which form a counting device operating in binary-decimal code. The code combinations of the pulse counter 5 simultaneously arrive at the corresponding inputs of the decoder 4 and the digital indication unit 6. The decoder 4 is in correspondence with the code combinations arriving at its inputs. sends once decisive signals to the second inputs of AND-NOT 3 code elements, and the device is put into fault finding mode at inputs C ... C | . When the high levels of the decoder 4 and inverters 2 coincide, it opens with the corresponding two-input code element AND-HE 3 and with its low output level, the voltage triggers the transfer of the second multi-input element AND-HE 14 to the unit state. Since the second input of the two-input element AND-HE 13 at the same time has a high voltage level of the time delay unit 12, the AND-HE element 13 opens and, with its input voltage drop from high to low, triggers the one-shot 1O. The output of the one-vibrator 1O causes a low voltage level, which at the third input of the three-input element IS-NE 8 closes, as a result of which the pulses from the generator 9 to the input of the counter 5 are stopped for the duration of the action of the single vibrator 1O. The operation of the one-shot 10 detects the transfer of the optional HE 11 element into a single state, which by its high output voltage level allows, for the duration of the one-shot, an indication on the digital display unit 6 of the corresponding Input Bus of the device on which the fault is detected. After the validity time of the one-vibrator 10, a high voltage level appears again at its output, which, through the IS-NE element 8, again allows polling pulses from generator 9 to input of pulse counter 5 and the additional element 11 is not transferred to the zero state. Thereby, the display indication signal is removed from the control input of the digital display unit 6, and the difference from the high to a low level of the output voltage of the additional element NOT 11 triggers the operation of the time delay block 12, the output low level of which the two-input element of the additional IS-HE 13 continues remain closed until the end of the operation of unit 12 is rooted. Since the delay time of the block 12 is longer than the pause time of the polling pulse, but less than its period, when the device resumes operation, this delay causes the state (code) of the pulse counter 5 to change immediately at the moment the first polling pulse arrives from the generator 9 and prevents thus, the false triggering of the one-shot 10. When the time delay unit 12 is terminated, a high voltage level appears at its output and the second input of the IS-NE 13 input element and the interrogation of the inputs C ... C | device continues until the next fault is detected. Thus, a sequential interrogation of all inputs C / ... C of the device and the indication of the numbers of those inputs on which malfunctions are detected are made. When installing in the counter 5, a code corresponding to the required conversion factor of counter 5 and determined by the number of inputs С.,., С. the device, on the reset buses of the triggers of the decade counters 7, receives a signal from the control output of the decoder 4, by which the triggers are reset. After that, a new automatic control and troubleshooting procedure starts. The implementation of the device according to the invention makes it possible to monitor and troubleshoot the effectiveness of the device, provides for the consistency and objectivity of the control, and makes it easy to increase the number of monitored fault signals. The device is reliable in operation, compact and simple in design and can be implemented on single-component logical elements with an increased level of integration. NANI claims device for automatic control and troubleshooting, containing NAND elements, NOT epemenes, pulse generator, one-shot, decoder and pulse counter, with inputs of the multiple-input element AND-NOT being the inputs of the device and connected respectively to the inputs elements NOT, the outputs of which are connected respectively to the primary inputs of the two-input H – NE elements, the second inputs of which are connected to the group of inputs of the decoder, the slots of the two-input elements AND – NOT are connected to the corresponding inputs and the four-input element IS-NOT, the output of the multi-input element AND-NOT is connected to the first input of the three-input element AND-NOT, the second input of which is connected to the output of the pulse generator and the third input is connected to the output of the one-vibrator a, the output of the three-input element AND-NOT is connected to the functional input a pulse counter, the remaining bit inputs of which are connected to a group of outputs of the decoder, characterized in that, in order to improve reliability, additional elements AND-NOT, an additional element NOT, the block are inserted into the device the first input of the two-input option is NOT-connected to the output of the four-input element AND-NOT, and the second input of the input of the time delay unit, the output of which is connected to the input of the display unit and the output of the additional element NOT, input which is connected to the output of the one-shot, the input of which is connected to the output of the two-input auxiliary element NAND, the group of inputs of the display unit is connected to the group of outputs of the pulse counter. The sources of information taken into account in the examination of L. .. USSR author's certificate No. 235399, cl. Q 06 F 11 / GS, 1969. 2. USSR author's certificate NO 433483, cl. G 06 F 11/00, 1974.