RU2092866C1 - Cable conductor number identification device - Google Patents

Abstract

FIELD: communication equipment; power supply. SUBSTANCE: device has generator, current pulse train switch, conductor number counter, conductor number multiplexer, former of private cycle end, adapter of inputs, probe, current pickup, amplifier of current pulse train reproduction, cycle selector, counter of trains per cycle, decoder, indicator, and power supply source. EFFECT: high speed and reliability of check; reduced power consumption of device. 1 dwg

Description

 The invention relates to electrical engineering, in particular to monitoring and diagnostic devices in communication, electrical and energy supply, and can be mainly used to identify the same ends of the wires of cables, bundles, bundles and wires.

 Known devices in which at one end of the cable being tested are connected to the test cores, for example, using a step finder, which is remotely controlled from the other end of the cable (1). However, due to the presence of mechanical sliding contacts, these devices have low interrogation speed and noise immunity, significant power spent on control, and low reliability of control.

 A device for controlling and numbering cores of cable products is also known, which contains a chain of on-board diodes, on-off switches, signal lamps, an AC voltage source, a resistor, two on-board diodes and a flexible jumper (2). Due to the multiple manual switching when searching for cores and the inability to identify a torn core, the device has a low speed and reliability of control.

 A device is also known for determining the number of a wire of a bundle, comprising a generator, a prohibition block, a first pulse counter, a memory block, a decoder, an indication unit, a second pulse counter, a second decoder, a probe, an amplifier, a trigger, and a pulse shaper (3). Due to the need to introduce additional connections into this device, ensuring its normal operation on long lines, it does not have good control reliability.

 Also known is a device for monitoring and marking cable cores, comprising a second counter, a decoder, an indicator, a pulse generator, a clock selector, a counter with a variable division coefficient, a frequency divider, a first counter, a first decoder, differentiating elements, keys, a clock generator and a demultiplexer (4 )

 However, the presence of two generators not synchronized with each other in the transmitter unit and the fractional conversion factor of an integer number of cores reduces the control speed (the measurement time increases) and its reliability.

 The closest in technical essence and the achieved result to the proposed one is a device for identifying a cable core number, which contains at one end a transmitter consisting of a generator, a pulse counter, a core number counter, a gated decoder connected in series, a controlled frequency divider, and a receiver at the other end, consisting of a probe, connected in series with a pulse counter, a decoder, an indicator and a pulse selector, a pulse zeroing unit. The transmitter and receiver have autonomous power sources (5). The disadvantage of this device is the low control speed and reliability of control. This is due to the following reasons.

A low control speed (or a long measurement time) is due to the fact that in each cycle there is an additional calculation up to the end (to the last core number), i.e. When identifying the required core, the transmitter core number counter of the transmitter does not stop, but continues to count until it issues the remaining core codes to the line. Low reliability of control is associated with:
the presence of two power sources in the transmitter and in the receiver, which, due to the occurrence of cross-talk (modulation) in power, reduces the noise immunity of the device as a whole;
the formation of information in the line (cable) in the form of voltage pulses, which reduces the speed of control and sharply reduces the noise immunity, especially on long complex lines with distributed parameters. (Complex lines are those in which the impedance module is significantly different from the ohmic one and requires coordination on the part of the transmitter and receiver).

 The basis of the invention is the task of creating an identifier of the cable core number, which will ensure the reliability of control, increase the speed of the device and noise immunity of measurements from false identifications, reduce the energy consumption of the device as a whole.

 This object is achieved by the fact that in the device for identifying the number of wires of the cable, containing at one end a transmitter consisting of a generator and a counter of the number of wires connected in series, the former of the end of the private cycle, the multiplexer of the core number, the key of the current parcels and the adapter of inputs are inserted, and at the other end, the receiver, consisting of a probe, and a pulse counter connected in series (counter of packages in a cycle in the proposed device), a decoder and an indicator, a current sensor, a playback amplifier t are introduced postglacial parcels and selector loop. The whole device has one power source, which also serves as an information channel.

 The introduction of the end of the private cycle into the shaper device together with the multiplexer and the core number counter made it possible to form a private search mode for the required core. The joint work of the key of current packages with the adapter of inputs in the transmitter, as well as the current sensor with the amplifier for reproducing current packages and the loop selector in the receiver, made it possible to form the information transmitted along the cable core in the form of current pulses (in all analogs and in the prototype, the information is transmitted in the form of voltage pulses) , which significantly increased the reliability of the control and allowed to transfer power to the transmitter and the floor through the controlled core from the device’s only power source located in the receiver amb the same core information about the number of cores in the form of current packages from the transmitter to the receiver at the same time.

 The proposed device, shown in the drawing, consists of a transmitter containing a generator 1, a key of current supplies 2, a counter of a core number 3, a multiplexer of a number of core 4, a shaper of the end of a private cycle 5, an adapter of inputs and a receiver containing a probe 7, a current sensor 8, an amplifier playback of current packages 9, the selector of the cycle 10, the counter of the packages in the cycle 11, the decoder 12, the indicator 13 and the power source 14.

 The first output of the generator 1 is connected to the first input of the counter of the number of the core 3, and the second output of the generator 1 with the input of the key of the current package 2, the output of the counter of the number of the wires 3 is connected to the input of the multiplexer of the number of the wires 4, the output of which is connected to the input of the shaper of the end of the private cycle 5, the first the output of the shaper of the end of the private cycle 5 is connected to the second input of the counter of the number of the core 3, and the key switch of the current packages 2 is connected to the input of the adapter of inputs 6, and the outputs of the adapter of inputs 6 are connected to the inputs of the multiplexer of number of core 4.

 The probe 7 is connected to the input-output of the current sensor 8, the power supply 14 is connected to the current sensor 8, the current sensor 8 is connected to the current-packet reproduction amplifier 9, the first input of the current-signal reproduction amplifier 9 is connected to the first input of the parcel counter in cycle 11, the counter output parcels in the loop 11 is connected to the first input of the decoder 12, the output of the decoder 12 is connected to the input of the indicator 13, and the second output of the amplifier reproducing current packages 9 is connected to the input of the loop selector 10, the first output of the loop selector 10 is connected to the second stroke counter chip 11 in the cycle and the second cycle of the selector output 10 is connected to the second input 12 of the decoder.

 The device operates as follows.

The inputs “XS _1. XS. _n ” of the input adapter 6 connect the cores of one end of the cable under test, which are connected indirectly and unambiguously to the input of the multiplexer of the cable number 4. The input XS _{0 of} the input adapter 6 is connected to the zero core of the cable. At the other end of the cable, connect the common terminal “XP” of the receiver to the known zero core of the cable and touch the probe 7 of the receiver to any core of the cable under test (XS ₁ .XS _n ). For this core, through a current sensor 8 from a power source 14, a voltage is supplied to the transmitter, which is simultaneously fixed by one of its physical active level through an adapter of inputs 6 on one of the information inputs of the core number multiplexer 4. After power is supplied to the transmitter, generator 1 starts working, forming a series of voltage pulses that are fed to the counting input of the core number counter 3. The core number counter 3 converts the serial code from generator 1 into a parallel polling code, exposing it at the inputs control of the core number multiplexer 4. If the position code generated by the active physical layer at one of the inputs of the number 4 multiplexer inputs matches the supply voltage (see above) with a parallel binary, changing in time with the pulses of the generator 1 code on the control inputs of the core number 4 multiplexer, the latter gives a signal of their coincidence to the shaper of the end of the private cycle 5. The shaper of the end of the private cycle 5, therefore, the signals are blocked by the generator 1, forming a pause between informative packages and zeroing the counter to number 3 wires, preparing it to repeat the cycle of the private, who at the end of the formation of the pause resumes.

 From the moment the generator 1 begins to work with its second output, a series of voltage pulses is converted by a current-supply key 2 into current pulses, which, through an input adapter 6, are supplied to the same core as current pulses and fed through the current sensor 8 of the receiver to the input of the current-packet reproduction amplifier 9 The amplifier reproducing current packages 9 converts the current pulses back into voltage pulses and feeds them to the counting input of the counter parcels in cycle 11 and simultaneously to the input of the selector cycle 10. At the end of the count mpulsov in the stack of parcels in the cycle counter 11, the selector 10 generates a census cycle signal chip counter content in the cycle register 11 in the decoder 12 and then resets counter parcels loop 11 and the receiver is ready to receive the next pack informative. At the end of the pause, the shaper of the end of the private cycle is ready for re-work.

Thus, in one private cycle, "N" current pulses, exactly corresponding to the number "XS _n " of the identified core, go to the line from the transmitter to the receiver along the core.

 When the probe 7 touches any other core at the cable end, power is again supplied from the receiver to the transmitter and the receiver from the transmitter receives a pack of current packages through the same core, the number of current pulses in which strictly corresponds to the number of this core.

раз,
где M число жил в кабеле; XS_n номер контролируемой в данный момент жилы
повышенная достоверность контроля за счет формирования информации в линию в виде импульсов тока;
пониженное энергопотребление за счет применения всего лишь одного источника питания (только в блоке приемника);
снижение затрат по труду, т.к. маркировка даже на очень протяженных линиях может производиться одним человеком.The proposed device for identifying the number of cable cores has the following advantages over the prototype:
increase in control speed due to the formation of a private cycle in

time,
where M is the number of cores in the cable; XS _n number of the current controlled core
increased reliability of control due to the formation of information in a line in the form of current pulses;
reduced power consumption due to the use of only one power source (only in the receiver unit);
reduction of labor costs, as marking even on very long lines can be done by one person.

 According to the proposed device, a pilot batch of devices was manufactured with implementation at different enterprises.

Claims (1)

 A device for identifying a cable core number, having at one end a transmitter containing a generator and a core number counter connected in series, and at the other end a receiver containing a power source, a probe and a series-connected counter of packages in a loop, a decoder and an indicator, characterized in that the transmitter implements the end-of-loop driver, the core number multiplexer, the key of current transmissions and the input adapter, and the current sensor, the amplifier for reproducing the current parcels and the loop selector are introduced into the receiver m in the transmitter, the output of the core number counter is connected to the input of the core number multiplexer, the output of the multiplexer with the input of the end of the private cycle shaper, the first output of which is connected to the second input of the core number counter, the second output to the generator input, and the second generator output connected to the key input of current packages the output of which is connected to the input adapter inputs, the outputs of the adapter inputs being connected to the inputs of the core number multiplexer, and in the receiver, the probe is connected to the input / output of the current sensor, and the power source is the receiver is connected to the second input of the current sensor, the output of which is connected to the input of the amplifier for reproducing current packages, the first output of which is connected to the first input of the package counter in the cycle, and the second output with the input of the cycle selector, the first output of which is connected to the second input of the package counter in the cycle, and the second output with the second input of the decoder.