SU1096657A1 - Device for checking wiring - Google Patents

Abstract

1. DEVICE FOR ELECTRIC INSTALLATION WALLET CONTAINING, containing M polling switches and display unit, whose information input group is connected to the outputs of polling switches, and the address input to address inputs 1 of the 1 polling switches, information input of the 1st polling switch (, M) The i-th information input of the device, so that, in order to reduce hardware costs, M test drivers and a mode setting unit are entered into the device, with the address output of the mode setting unit connected to the address the inputs of the polling switches, the input with the input of the device mode setting, and the output of the test code with the inputs of the mode of the test drivers and the polling switches and the control input of the display unit, the information input of the i -th form. The test dummy f is the tth information input of the device, and the output is connected to the I1 ormone onv4 input (l-l) -ro of the polling switch. 2. Device POP.1, characterized in that the mode setting block contains a counter, two triggers and an element, with the reset inputs of the counter and triggers connected to the input reset bus, the block, the counting input of the counter and the installation input of the first trigger connected to the block input mode bus , the counter outputs are connected to the address output of the block and the inputs of the And element, the output of which is connected to the counting inputs of the flip-flops, the outputs of which are connected to the output of the block test code. 3. The device according to claim 1, about tl and one that the test numberer 1 contains two groups of AND-NOT elements, the first inputs of the AND-NOT elements of the first and second groups are connected to the corresponding forwarder test code input buses, O the second The inputs of the first NAND elements from the group are connected to the corresponding 1 V1 9D Oi SP by the info generator shaper buses, and the outputs are connected to the second inputs of the second group AND NAND, the outputs of which are connected to the corresponding bit of the shaper output buses.

Description

The invention relates to automation and computer technology and can be used in the construction of devices for test diagnostics and preventive control in the production and operation of electronic equipment. Electrical installation fault detection devices are known that contain a galvanic communications recorder, first and second counters, an output unit, a control unit, a memory device, an analysis unit, coincidence elements, DJ address registers. The drawbacks of the devices are the laborious process of creating electrical installation check programs , that is, the creation of a certain standard of the wiring diagram on the carrier (punched tape), and also the speed of verification is low. The closest to the invention according to the technical essence is a device for automatic check of mounting, containing a group of series-connected pulse distributors, registers, depfritors and interrogation switches, as well as a switch. Connecting points of controlled points, a clock generator, a comparison circuit, a switch circuit. point addresses, input and output blocks t. The disadvantages of the known device are the large amount of hardware costs, the complexity of the connection scheme and the analysis of the definition of a faulty contact, which makes the process of creating an installation verification program time-consuming. The considerable time of the installation check does not allow checking the object in operation during the operation. The aim of the invention is to reduce hardware costs and reduce diagnostic time. The goal is achieved by the fact that in the device containing M polling switches and display unit the information inputs group is connected to the outputs of the opting switches, and the address input is with the address inputs of the polling switches, the information input of the polling switch (, M) is The i-th information input of the device, M test drivers and a mode setting block are entered, the address output of the mode setting block is connected to the address inputs of the interrogation switches, the input with the device mode setting input, and the output of the test code and - s.vhodami specifying test mode formers and poll switches and a control input blbka indication information input i -th shaper test is -th information input device and an output coupled to the data input of the (i-l) -ro switch polling. At that, the mode setting unit contains a counter, two triggers and an element, And the reset inputs of the counter and triggers are connected to the unit input reset bus, the counting counter BXOJQI and the installation input of the first trigger are connected to the unit input mode bus, the counter outputs are connected to the address output of the unit and the inputs of the element And, the output of which is connected to the counting inputs of the flip-flops, the outputs of which are connected to the output of the block test code. In addition, the test driver contains two groups of NAND elements, the first inputs of the NAND elements of the first and second groups are connected to the corresponding buses of the input of the test code of the imager, the second inputs of the AND AND elements of the first group are connected to the corresponding bit buses of the information input the driver, and went out - with the second inputs of the corresponding AND-NOT elements of the second group, the outputs of which are connected to the corresponding discharge buses of the driver's output. Figure 1 presents the block diagram of the proposed device, figure 2-4 functional diagrams of the driver of the tests, block mode and display unit, respectively. The device (Fig. 1) contains the polling switches 1, the shapers of 2 tests, the mode setting unit 3, the 4 indication unit. The design elements 5 combine the logic circuits of the object. Constructive element 5 of the object under test with shaper 2 and switch 1 form module 6. Inside module 6, information inputs 7 of the constructive element “E1Nta 5 are connected to the corresponding informational; device outputs and input 8 of switch 1, outputs St constructive of element 5 are connected to information devices and input 10 of generator 2, output 11 of generator is the corresponding information output of device and module 6. Information output 11 of each module 6 is connected to information input 7 subsequent module 6 chain of modules. The outputs 12 of the switches 1 are connected to the information inputs 13-16 of the group 4 of the block 4. The buses of the inputs 17 and 18 set the mode of the drivers 2 and the switches 1 are connected to the buses of the outputs 19 and 20 of the test code and to the control inputs 21 and 22 of the block 4. Address input 23 each switch 1 is connected to address output 24 of block 3 and address input 25 of block 4, input 26 of the device’s mode setting is connected to input of block 3. The interrogation switch 1 is used to connect the inputs of the structural element 5 of the object to be tested with the corresponding input of group of block 4. Switch 1 can be made in the form of a multiplexer whose input 23 supplies the address of the polled input (input contact) of module 6. The 2 test generator is designed to generate test sets (in this example, dvz: T1 and T2) or to organize the operating mode of functioning of the object being tested depending on the supplied control signals and contains-elements AND-NOT 27 of the first and second groups (figure 2). The mode setting unit 3 is intended for organizing the operating and test modes of operation of the object and contains, for example, a counter 28, an AND element 29 and triggers 30 and 31 (FIG. 3). The display unit 4 is used to form and output, for example, on the display of coordinates of faulty circuits and consists of the elements OR-NOT 32, -OR 33, decoder 34 and indicator 35 (figure 4). The device works as follows. There are two possible modes of operation of the device: the operating mode, which allows the main mode of operation of the object to be tested, and the test diagnostics mode of the object under test. The operation mode is set by issuing a command (signal) to input 26. This command can be given from a certain time object eg computer. A command for setting the operating mode of operation is sent to the reset bus of input 26 (signal 1). In this case, the counter 28 is zeroed out, and the triggers 31 and 30 are set to state 1. In the operating mode of the device, the values of the binary variables correspond to row O of the table. In the operating mode, the inputs 17 and 18 are supplied with single signals, which allow the structural elements 5 of the object under test to function in the specified mode, i.e. the signals from the outputs of any element 5 pass through the drivers 2 without changing. The second combination of control signals from outputs 19 and 20 (O, 1), fed simultaneously to inputs 17 and 18, allows all formers 2 to generate a first test set T1, in which at sets 11 of all formers 2 there are single sets ( eleven) . O 1 1 f (T1 - O 1 1 1 T2 1 O O O The table shows the values of the signals at outputs 19, 20, 11, 12, and 9 and inputs 7 (8), and the values of binary variables in the line O are shown in the operating mode the operation of the device and the object under test, in the lines T1 and T2, are the values of binary variables in the test diagnostics mode. The symbol jf indicates that in this case the value of the binary variable can be anything. The device operates in the test diagnostics mode as follows. test diagnostic command (signal 1) It is fed to the bus, the input mode 26 (Fig. 3). At that, the trigger 30 goes to the state T and the counter 28 is simultaneously started. Thus, at the output 19 of the trigger 30 the control signal of the tasks is set to the first test set T1, and at the outputs 24 the counter 28 appears the address of the information input 7 of the structural element 5. In the test diagnostics mode on the test set T1 the values of the binary variables correspond to the row T1 of the table. The test set T1 is held for the time required for the switches 1 to interrogate the input values of each structural element 5. Thus, on the T1 set, a failure of the ConstantTg type type is detected for F1 | xirovanny number of strokes is independent of the number of structural elements 5 in the test object alike. how one ator I makes a click at the same time in elements 3. In the case when at least one of the polled information inputs 7 of modules 6 on the test set T1 appears a zero signal, evidence of the presence of a failure, block HQCTH ( module number and input contact number). In the case when none of the received information inputs 7 1 ″ one 6 on the test set T1 shows a zero signal, the device automatically proceeds to test diagnostics of the test subject on the second test set T2. This is done in the following way. When the counter 28 is zeroed, an AND 29 element is triggered, the output of which is fed to the counting inputs of the trigger 31 and 30. This changes the state of the triggers 31 and 30 (the trigger 30 changes to state 1, and the trigger 31 changes to state O) and, thus, the second test set T2 is set by the signal O at the output 20 of the 3 K flip-flop. At the same time, the counter 28 is started, and the whole verification process repeats over the same number of cycles. When a signal other than the specified test set appears on one of the information inputs 8 of any switch 1, unit 4 provides the address ((of faults of type Constant 1 and Constant O in the electrical installation between the structural elements 5 of the object being tested. This means that any physical faults leading to the appearance of constant values of potentials O or 1 at the inputs of elements 5. Typically, such physical faults are interruptions in mounting, non-depressive contacts, contact closure and The advantages of the proposed device in comparison with the known ones are in reducing hardware costs and reducing the time of preparation and monitoring, as the unification of the test diagnostics process, independent of the type of peanH3yehaiix. , eliminates the need to create programs for checking the electrical installation, i.e. creating a certain standard of montage circuit, increases the speed of test diagnostics and provides awn performing test diagnostics during operation the object to examined.

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Claims (3)

1. DEVICE FOR MONITORING THE ELECTRICAL INSTALLATION, comprising M polling switches and a display unit, the group of information inputs of which are connected to the outputs of the polling switches, and the address input is connected to the address inputs of the polling switches, information input of the ith polling switch (i = 1, M) is the ith information input of the device, which is related to the fact that, in order to reduce hardware costs, M test shapers and a mode setting unit are introduced into the device, and the address output of the mode setting unit is connected to address entry and polling switches, the input is with the input of the device mode setting, and the test code output is with the inputs of the test shaper mode and polling switches and the control input of the display unit, the information input of the ί · 'test driver is the t-th information input of the device, and the output is connected to the information input (il) -ro of the polling switch. 2. The device according to claim 1, characterized in that the mode setting unit comprises a counter, two triggers and an AND element, the reset inputs of the counter and triggers being connected to the reset bus of the input, the unit, the counting input of the counter and the installation input of the first trigger connected to the bus block input mode, the counter outputs are connected to the address output of the block and the inputs of the AND element, the output of which is connected to the counting inputs of the triggers, the outputs of which are connected to the output of the block test code. 3. The device according to claim 1, characterized in that the test driver contains two groups of NAND elements, the first inputs of the NAND elements of the first and second groups connected to the corresponding input driver bus lines of the test code, the second inputs of the NAND elements of the first group connected to the corresponding bit wines of the information input of the shaper, and the outputs to the second inputs of the corresponding elements AND NOT of the second group, the outputs Oh 3d 3d The joint ventures of which are connected to the corresponding discharge output wines of the shaper. t