SU480082A1 - Device for detecting electrical faults - Google Patents

Description

one

The proposed device relates to the field of automation and computing technicians and can be used, for example, in enterprises manufacturing sophisticated electronic equipment, computers, etc.

A device for detecting faults is an electrical installation, containing a control unit connected to an input unit and an output unit, registers whose outputs are connected to the corresponding inputs of an output unit and a galvanic connection recorder connected to the corresponding contacts of the tested product.

When testing a product with this device for: each chain, the “breaks” are first monitored, and then a mandatory search for possible “front lines”, despite the fact that many of these circuits can be performed quite correctly. This increases the scan time.

The purpose of the invention is to reduce the time (checks by eliminating contacts of redundant contacts while checking for serviceable circuits.

The goal is achieved by the fact that the device additionally contains a stabilized current source, an analog-digital converter, an additional register, a comparison circuit, scaling resistors and diodes, and each of the outputs of the galvanic communications recorder is connected via series-connected scaling resistor and a diode to the stabilized current source connected in parallel to an analog-digital transducer connected to the control unit directly and through a comparison circuit, the second Its input is connected to the output of the additional register, the input (of which is connected to the input unit and one of the registers, the output of the galvanic communications recorder is connected to the control unit.

hia drawing shows a functional diagram of the proposed device.

Device for detecting faults IB electrical installation contains a galvanic communication recorder (CS) 1 with matrices 2 and 3, where commutating switches 4 and 5 are located, controlled by signals from the outputs of circuit 6 and 7 c, whose inputs are via coordinate buses 8, 9 and 10, 11 Are connected respectively to registers 12 and 13. All switching keys from matrices 2 and 3 are connected in pairs to each other, connected to checked contacts of product 14 and are connected in series through scaling resistors RI, JRz, Cs, and Rn diodes Di, D2, Oz, ..., Dn and connections with a stabilized current source 15, with an analog-digital converter & m (ADC) 16, the output of which is connected to a comparison circuit 17, where the output of the additional register 18 is also connected. Other outputs of blocks 13 and 14 are connected between each other and connected to one output terminal 5 of the CSG, connected to the positive pole of a constant voltage source EI, the negative pole of which through a resistor RH is connected to another output terminal of the CSG and "control unit 19. The outputs of registers 12 and 13 are connected to the output unit 20 connected to b eye 19, which is also connected to the input register 12 and an input unit 21 coupled to the inputs of registers 18 and 13. The other output of register 13 is connected to registers of-is rum 12. The device operates as follows. In the register of registers 12 and 13, the codes of the addresses of two contacts (for example, az and az), the corresponding coordinate buses 8, 9 and 10, 11 are awakened, and the keys 4, 5 associated with the said contacts go into closed condition. A contact in product 14 between the two selected contacts eta and az25 leads to a change in potential at the output of the resistor Ri associated with the control unit 19. To determine the total number of contacts having a galvanic connection to the selected Contact, for example az, in a manner similar to the above, it is necessary to put the corresponding key 5 in the matrix 3. The Tol-d the constant current, using the block 15, passes through 5 connected in parallel by the controlled links the scaling resistors R, Rz, Ra- Voltage directly proportional to the equivalent value of the indicated resistances, is fed to the input of the A / D converter 16, whose output code 40 serves as information about the number of contacts connected to one (contact). This information can be used to reduce the test time by The next operation algorithm of the device is 45, for example, the test program is recorded, for example, on punched tape by groups of numbers corresponding to the addresses galvanically connected to 50 contacts (chains). In each group, the last largest number is combined with a sign indicating the end of the price, immediately followed by the code of the value of the specified equivalent resistance measured for this purpose in preparing the program. After starting the device from the input unit 21, the number of the first contact of the circuit is fed through the register 13 to the register 12. The next contact number goes to register 13 through-QQ, after which the control unit 19 analyzes the signal from the CWG output. If the search link in item 14 is missing, the numbers in registers 12 and 13 are fixed in the output unit block 65 as the addresses of the malfunction of the type "break." After this check, this circuit is resumed by inputting the number of the next contact, checking the presence of communication, etc. until the end of the circuit is entered from the input block 21, The equivalent resistance code located on the punched tape is fed into the additional register 18. The ADC and the code received at its output are compared with the code located in register 18 with the help of block 17, from where the control unit 19 receives a signal corresponding to the same, fewer or more contacts in the tested circuit compared to reference. Depending on the value of this signal, the following possible situations can be distinguished: a) In the tested circuit, there are no "breaks" and the number of contacts included in this circuit is the same as the reference circuit, which indicates that there are no "extra connections" in the product. Therefore, the test of this circuit can be considered complete and proceed to the next in order group of numbers, b) “There are no breaks in the circuit being tested, but the number of contacts in it exceeds the specified one. Consequently, there is an "extra connection, to localize the address of which, using register 12, the contacts whose numbers exceed the maximum number of the entire group are enumerated. When a zero potential appears from the CSG, the fault addresses are recorded in the output unit B in block 20. c) At least one "break" is detected in this circuit. Since, in the overwhelming majority of cases, the result of the comparison can be foreseen, without performing the enumeration referred to in paragraph b, the next test is passed. The above procedures are repeated for each installation circuit, i.e. before the appearance of a signal with a punched tape end of check. After elimination of the detected faults, the verification must be repeated. Thus, the alternate search of contacts with the help of the CSG, which takes most of the time proper control, is assigned only in those necessary cases, when it is well established that "extra communication in the circuit exists. This allows you to shorten the test time, especially with repeated, final procedures, after almost all errors in the product are eliminated, P1capacitive data for the test program of any product are obtained on specific GCF and ADC, so that only stability is required from the scaling resistors their magnitude in time, the subject of the invention. A device for detecting faults in electrical installation, comprising

a control unit connected to an input unit and an output unit; current, analog-to-digital converter, additional register, comparison circuit, scaling resistors and diodes, each

from the outputs of the galvanic recorder are connected via a series-connected scaling resistor and a diode to a stabilized current source connected in parallel with an analog-to-digital converter connected to the control unit directly and through a comparison circuit whose second input is connected to the output of the auxiliary register whose input is connected to the unit input and one of the registers; the output of the galvanic communications recorder is connected to the control unit.