SU928257A1 - Device for locating point of failure in cable articles - Google Patents

Description

one

The invention relates to the control of measuring equipment, in particular to the control of wiring, and is intended to localize the location of the fault in cable products.

The main defects of cable products of radio engineering and computing devices are breaks and short circuits of connecting conductors in one of the connectors.

A device is known for detecting a break in a conductor in a cable to be tested, comprising a generator to which a broken conductor of the cable being tested is connected as an emitter and an indicator with capacitance probe ll.

The known device does not allow to determine the short-circuit location of the cable conductors and is difficult to operate.

Closest to the invention is a device for controlling ka-.

containing diodes on one side of the cable, connected oppositely between adjacent cable conductors, and on the other side of the cable - n three-input AND-NE elements, the first inputs of which are connected to the corresponding outputs of the clock generator, the second input of each II-IE element is connected to the output of the previous element AND-NOT and to the first input of the previous element OR-NOT, the third inputs of the elements AND-NOT are connected to odd checked conductors, with a fault analyzer and with one output of the corresponding memory the first capacitor, the other terminal of which is connected to the common bus, damage analyzer connected to the input of the clock generator and with an indicator, and The yields,

Claims (2)

20 elements of OR-NOT are unified to even checked conductors, to the second inputs of previous elements-OR-NOT and to the indicator. This device allows you to determine the number of the damaged conductor and the type of fault 2. However, the known device does not make it possible to determine on which side of the cable (in which connector) the fault is located. The purpose of the invention is to improve the accuracy in localizing the site of damage to cable conductors. To achieve this goal, the first and second keys, the output of which is connected to the first input of the second three-input AND-NOT element and the indicator, are entered into the device for determining the fault location in the cable products {containing a pulse generator, the first three-input element AND the inputs of which are connected to the output of the pulse generator, and the output of the first key is connected to the second inputs of the first and second elements of NAND, the output of the latter is connected to the second input of the indicator and to the third input of the first element of NAND, the output of which It is connected to the first input of the indicator, and the first input of the first element AND-NOT is connected to the damaged conductor of the cable on one side, and the output of the second key is connected to the third input of the second Element AND-NOT and to the damaged conductor of the cable on the other side. FIG. 1 shows a block diagram of the device; in fig. 2 - potential diagrams of inputs and outputs of the device elements. The device contains two three-input elements AND-NOT 1 and 2, indicator 3, switches and 5, pulse generator 6. The output from the elements AND-NOT connected to the indicator 3 and the input of the other element AND-H Combined inputs 7 elements AND-NOT 1 and 2 and input 8 of the NAND element 2 is connected respectively via switches 4 and 5 to the pulse generator 6. Inputs 8 and 9 of the NAND element are inputs to the device. The device works as follows. To determine the connector in which the conductor was broken, the latter is connected to the inputs 8 and the devices with the ends of the device and the contacts of the switch A are closed. At a low (zero) voltage level at the input of the pulse generator 6 and the combined inputs 7 of the elements AND 74 1 and 2, at the inputs 8 and 9, a low potential is also established through the internal circuits of the AND-NE elements (Fig. 2). After switching the signal at the Output of the pulse generator 6 to a single (high) state, the potential of the inputs 8 and 9 increases and the capacitance of these inputs through the internal circuits of the AND-NE elements 1 and 2 increases. At the same time, the steady state of the AND-NOT elements is determined by the ratio of the capacitances (and, respectively, sizes), connected to the inputs 8 and 9 of the ends of the broken conductor of the cable. When a conductor connected to input 8 in the connector is broken, the potential of this input reaches a certain switching threshold, g for a given system of elements, before the potential of input 9, since a conductor with a larger capacitance is connected to the latter. This leads to the fact that at the output of the element AND-HE 2 a low potential is established, and at the output of the element AND-NOT 1 - correspondingly high. When a conductor is broken from the input 9 side, the device is installed in the opposite state (marked by the dotted line in the timing diagram). The periodic sequence of the established values of the elements AND-NE 1 and 2 is determined by the indications of the indicator 3 (for example, LEDs), for which the duty cycle of the negative pulses of the generator 6 is chosen relatively large. To determine the connector in which the short circuit of the conductors occurred, the latter are connected to the inputs 8 and 9 on the side of one of the cable connectors and the contacts of the switch 5 are closed. In this state, in which the AND-NOT elements are installed, the propagation time of the positive signal edge is determined from the outputs of the pulse generator 6 to the inputs 8 and 9 of the elements AND-NOT. If there are short circuits of conductors in the connected cable connector, the ratio of the lengths of the circuits from the pulse generator 6 to the inputs 8 and 9 of the NAND elements is close to unity, and the state of the elements (for example, low for the NAND element 1 and high for the NAND element 2) is determined by the spread of the internal parameters of these elements. When the conductors in the far, unconnected cable connector are short-circuited, the front reaches the threshold value Un earlier at the input 8 of the K-HE 2 element and the latter is set to the zero state, and the AND-HE element 1, respectively, is unified. The minimum value of the difference in the lengths (capacities) of the conductors, which compensates the technological asymmetry of the NAND elements, determines the sensitivity of the device. When using the widely used TTL microcircuits of the 155 series, the sensitivity of the device when searching for the location of a short circuit break is of the order of 0.1 m ((provided that both elements are located in the same housing), which is quite enough to localize the fault with an accuracy to the connector. Thus , the device detects breaks and short-circuits of damaged cable conductors and determines in which of the cable connectors the conductor damage is located, while the time required for searching and storing is reduced by about 1/3 The device for determining the location of a fault in cable products containing a pulse generator is a first three-input element AND-NOT, the output of which is connected to the first input of the second three-input element AND-NOT, and an indicator, characterized in that, in order to improve accuracy, the first and second keys are entered into it, the inputs of which are connected to the output of the pulse generator, and the output of the first key is connected to the second inputs of the first and second elements AND-NOT, the output of the last is connected to the second input the house of the indicator and the third input of the first NAND element, the output of which is connected to the first input of the indicator, and the first input of the first element NANDY is connected to the damaged conductor of the cable on one side of it, and the output of the second key is connected to the third input of the second element AND -NOT and damaged conductor cable on the other side. Sources of information taken into account during the examination 1. Solovyov N.N. Measuring equipment in wired communication. Part 1U, M., Sv z, 197, p. , fig.13-10. 2. USSR author's certificate Jf, cl. G 01 R 31/02, 1975. tf% V To cael 6Х97 Y9 Hht u-ttet Bho U hff tuxei UUti Un L. ui.t