SU1140254A1 - Device for telemetry and supervisory indication of conditions of regenerators - Google Patents

Abstract

1. DEVICE FOR REGENERATOR TELECONTROL, containing at each unattended point of the communication line a power key, a fault detector, the output of which is connected to the signal input of the response signal generator, the output of which is connected to the first line of the telecontrol path, and serially connected demodul at the end station of the communication line a torus whose inputs are connected to a telecontrol path, a decoder, and a display unit, differently in that, in order to increase the telecontrol reliability, at an unattended point, enter n automatic switch, the signal inputs of which are connected to the corresponding) control outputs of the regenerators, the power key is included in the gap of the second line of the telecontrol path, the signal output of the automatic switch is connected to the first input of the fault detector, the clock output to the second input of the fault detector, and control output - to the control input of the response signal forming bodies; another output, which is connected to the second input of the power key, whose third input is connected to the first line her tract telecontrol. 2. A device according to claim 1, characterized in that the automatic switch comprises a series-connected master oscillator, a ring shift register, the bit outputs of which are connected to the control inputs of the switching element unit, and the element OR | another input is connected to the first one-digit output of the ring shift register, the output (L of the RSHI element is the control output of the automatic switch, the clock of which is the output of the master oscillator, and the signal inputs and signal output are 3. The device according to claim 1, characterized in that the power key contains .sequentially connected actuator and output zener diode, shunted by a break contact An additional element whose closing contact is the second input of the power key, the first and third inputs of which are the corresponding inputs of the executive element.

Description

The invention relates to telecommunications and is intended to determine the number of a faulty digital signal regenerator in a line containing a large number of unserved points. A device for telecontrol of regenerators in unattended points, which contains a power key connected to the telecontrol path, and blocks of a digital signal loop for the reverse transmission direction, connected to regenerators of controlled linear paths is known. J The disadvantage of this device is the need to accommodate at the unattended point of such a number of loop closures, which is equal to the number of monitored linear paths, which increases the amount of control equipment, as well as reduction of signal transmission reliability due to an increase of the crosstalk penetrating psheyfa circuit blocks. The closest to the proposed technical essence and the achieved result is a device for telecontrol of regenerators, containing at each unattended point of the communication line a power key, a fault detector, the output of which is connected to the signal input of the response signal generator, the output of which is connected to the first line of the telecontrol path, and at the terminal station of the communication line, the successively connected demodulator inputs of which are connected to the telecontrol path, the decoder and the display unit (2j. However, The device for telecontrol of regenerators does not provide sufficient reliability of the evaluation of the state of the tested regenerator due to the one-time proc. (Interrogation process. In addition, the monitoring equipment located at unattended points is not interchangeable, as telecontrol signal splitters decode only their address signals, telecontrol units are placed in each regenerator, which increases the amount of control equipment at an unattended station, the performance of the telecontrol devices, as in a healthy state of checked regenerators, the transmission of response signals to the terminal station is not provided. The purpose of the invention is to increase the reliability of telecontrol. The goal is achieved by the fact that the device for telecontrol regenerators, containing at each unattended point of the communication line a power key, a fault detector, the output of which is connected to the signal input of the response signal generator, the output of which is connected to the first line of the vehicle, telecontrol, and at the terminal communication line stations connected in series to a demodulator, whose inputs are connected to a telecontrol path, a decoder and a display unit, an automatic switch is inserted at a non-service point, a signal The input inputs of which are connected to the corresponding control outputs of the regenerators, the power key is included in the gap of the second line of the telecontrol path, the signal output of the automatic switch is connected to the first input of the fault detector, the clock output to the second input of the fault detector, and the control output to the control input response signal generator, the other output of which is connected to the second input of the power supply key, the third input of which is connected to the first line of the telecontrol path. In this case, the automatic switchboard contains a series-connected master oscillator, a ring shift register, the bit outputs of which are connected to the control inputs of the switching unit, and the OR element, whose other input is connected to the first bit output of the ring shift register, and the output of the OR element the control output of the automatic switch, whose clock output is the output of the master oscillator, and the signal inputs and signal output are the corresponding inputs Output switching elements supply. In addition, the power key contains a series-connected actuator and an output Zener diode, shunted by an opener contact of the actuator, the closing contact of which is the second input of the power key, the first and third inputs of which are the corresponding inputs of the final element. FIG. 1 shows a structural electrical circuit of the device; FIG. 2 - timing diagrams for the operation of the device. The device for the telecontrol of the regulators contains on the unattended point 1 of the communication line with the regenerators 2 a power key 3, a telecontrol path 4, an automatic switch 5, a fault detector 6, a response signal generator 7. At the terminal station 8 of the communication line, a demodulator 9, a decoder 10, and an indication unit 11 are connected in series to the telecontrol 4. The fault detector 6 contains a digital signal detector 12, a 13 error selector, an error counter 14, and a recording unit 15. The response signal generator 7 comprises a fault signal generator 16, a synchronization signal generator 17, and an amplifier. The automatic switch 5 comprises a master oscillator 19, a ring shift register 20, an OR element 21, and a switching element block 22. The power key 3 comprises an output zener diode 23 and an actuating element 24 with contacts 25. The device operates as follows. In the initial state at the output of the actuating element 24, the path of the remote power supply is closed in the opposite direction (loop of the remote power supply). The power key 3 serves for supplying power from the output zener diode 23 to the control equipment unit when the remote power supply via the 4th telecontrol path from the terminal station 8 is turned on, the power is turned off and the self-blocking is interrupted when the remote power supply is disconnected (reset self-locking) when changing the polarity of the remote power supply, which is ensured by the execution of the actuating element 24 on the switched-on sequentially electromagnetic and polarized relays. The remote power source and the elements separating the AC and DC voltage circuits are located in demodulator 9. When the remote power is supplied through the telecontrol path 4, the actuator 24 of the power key 3 operates in the first unattended point 1. The remote power loop at the actuator output 24 remains closed, so the keys 3 of the power supply to the subsequent unattended points 1 are de-energized. When the actuating element 24 is triggered, its contacts 25 remove the bypass of the output Zener diode 23, the voltage from which begins to be supplied to the power supply of the automatic switch 5, the detector 6 and the formation of 7, and connect the second output of the response signal generator 7 to the telecontrol 4. The master oscillator 19 of the automatic switch 5 generates a regular pulse sequence (Fig. 2a), which is fed to the clock input of the ring shift register 20, as a result of which signals are generated at the outputs of its bits (Fig. 25, B, q, e) . In block 22, the switching elements sequentially one after another for a set time T connect the monitored digital signals of the regenerators 2 to the signal input of the fault detector 6 for isolating and counting errors. The switching time T of the signal of one regenerator 2 is set the same for all unattended points 1 depending on the speed of signal transmission 8, the capacitance n of the error counter 14 and the value of the fixed error factor Kd in accordance with the ratio T Regenerator 2 is considered to be faulty if switching the error counter 14 overflows, or a signal appears at the output of the detector 12 of the absence of a digital signal. Let during the time of the signal (Fig. 2b) many errors were detected in the digital signal of the second regenerator 2, in this case the alarm signal (Fig. 2 jk) overflow of the error counter 14 enters 5 to the input of recording unit 15, where it is recorded in the first cell . After the end of the signal time (Fig. 2E) .the front of the next signal pulse (Fig. 2a) arriving at the clock input of the malfunction detector 6, the alarm signal (Fig. 2) is copied from the first cell to the second, while the counter 14 is zeroed mistakes. Next, the digital signal of the subsequent regenerator 2 is connected to the control, and a signal is received at the input of the signal body 7 (Fig. 2 O, which unlocks the alarm signal generator 16. Through the amplifier 18, the alarm signal is transmitted via path 4 to the end station 8 during the switching time the signal of the subsequent regenerator 2. If there is no signal at the output of the detector 6, the alarm signal is not transmitted. 7, the response signals receive a signal (FIG. 2 (4-) which unlocks the synchronization signal generator 17. During the signal time, (FIG. 2 K), a synchronization signal is transmitted to the terminal station 8, which differs in frequency and duration from the alarm signals. Then, the next cycle of sequential control of regenerators 2 continues. The response signal (Fig. 2k) in path 4 of the telecontrol consists of synchronization signals following cyclically and alarm signals, the location of which relative to the synchronizing signals is uniquely determined At the end station 8, the demodulator 9 separates the synchronization signal from the alarm signals, the decoder 10 determines the time of the alarm signals relative to the synchronization signals, and the display unit 11 records the numbers of the faulty regenerators 2. For the following telecontrol unattended item 1 interrupts the remote power supply, the power key 3 in the first unattended point 1 is self-blocking and the remote power loop in it is turned off, then the dis 546 power supply, triggered. Executive element 24 of the second unattended point 1. Next, the process of telecontrol of regenerators 2 in it is carried out in a manner similar to that described. To bring the telecontrol device back to its initial state after the end of the telecontrol, the polarity of the remote power supply is changed, the power keys 3 alternately release the self-locking. By supplying a remote power supply with a certain number of interruptions, it is possible to put the monitoring equipment into operation in the unattended point 1. Any selected numbers. The technical and economic effect of the use due to acquisition, as compared with the known, is to reduce the monitoring equipment located at the unattended station, due to the use of the same units for the telecontrol of all regenerators. The efficiency of searching for failed regenerators is increasing due to the fact that the cycle of polling the status of regenerators takes several seconds, and the time for a sufficiently reliable estimate of the reliability of digital signal transmission based on fixation of multiple response signals does not exceed several minutes. In the proposed control device, the equipment placed in unattended points does not contain blocks of selection and decoding of address signals, is completely identical, therefore, it is interchangeable. This contributes to the simplification of setting up control equipment in production and reduces the maintenance reserve during operation. In addition, the regularity of receiving synchronization signals at the terminal station allows monitoring the performance of the proposed telecontrol device. The proposed device sends to the terminal station signals generated depending on the ratio of the current and normalized values of the error rate. Since the error rate is the main standardized indicator of the quality of signal transmission, the telecontrol of this parameter increases

reliability of control of regenerators. In this case, the device can work on the test

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Claims (3)

1. DEVICE FOR TELECONTROL OF REGENERATORS, containing on each maintenance-free point of the communication line a power switch, a fault detector, the output of which is connected to the signal input of the response signal conditioner, the output of which is connected to the first line of the telecontrol path, and at the terminal station of the communication line, a demodulator connected in series, inputs which is connected to the control channel, a decoder and an indication unit, which is characterized by the fact that, in order to increase the reliability of the monitoring, an unattended item is entered a math switch, the signal inputs of which are connected to the corresponding control outputs of the regenerators, while the power switch is included in the gap of the second line of the telecontrol path, the signal output of the automatic switch is connected to the first input of the detector. faults, the clock output is to the second input of the fault detector, and the control output is to the control input of the response signal generator, the other output is connected to the second input of the power switch, the third input of which is connected to the first line of the control channel. 2. The device according to p. 1, characterized in that the automatic switch contains a serially connected master oscillator, an annular shift register, the bit outputs of which are connected to the control inputs of the block of switching elements, and an OR element ₍ another input of which is connected to the first bit output of the ring shift register moreover, the output of the OR element is the control output of the automatic switch, the clock output of which is the output of the master oscillator, and the signal inputs and signal output are The corresponding inputs and outputs of the block of switching elements are given. 3. The device according to p. 1, characterized in that the power switch contains ".consecutively connected actuator and output zener diode, shunted by the NC contact of the actuator, the NO contact of which is the second input of the power switch, the first and third inputs of which are the corresponding inputs th element. "