RU2012144C1 - Device for tapping digital signals - Google Patents

Abstract

FIELD: communications. SUBSTANCE: device has matching unit 1, disable element 2, generator unit 3, receiver 4 of cycle synchronizing signal, transmitter 5, code converter 6, OR gate 7, mating unit 8, AND gate 9, control signal receiver 10, manual control unit 11. EFFECT: capability of changing number of channels to be tapped. 1 dwg

Description

 The invention relates to communication technology and can be used in the transmission of signals by digital transmission systems.

 A device is known that contains two interface blocks, two prohibition elements, a generator block, a cyclic clock signal receiver, a transmitter, a code converter, two OR elements, two I. elements.

 However, this device allows only blocking faulty channels without the possibility of redistributing free channels.

 The closest in technical essence to the proposed one is a device for branching digital signals, containing a code converter, the first output of which is connected to the first inputs of the transmitter and the generator unit, the output of which is connected to the first input of the receiver of the cyclic clock signal, the second input and the first output of which are connected respectively to the second the output of the code converter and the second input of the generator block, as well as the first and second interface blocks, two AND elements and a series-connected element and an OR element, the second input and output of which are connected respectively to the output of the first AND element, to the first input of which the output of the first interface unit is connected, and with the second input of the transmitter, while the second output of the generator unit is connected to the first input of the second interface unit, to the second the input of which is connected to the second output of the code converter, with the input of the first interface unit and with the first input of the second AND element, whose output is connected to the second input of the first AND element and to the first input of the inhibit element, the second od is connected to the second output of the code converter, and the second cyclic output of the receiver clock is connected to the second input of the second member I.

 However, in this device for input and output of a component signal, each device for branching digital signals is assigned a constant channel interval or several channel intervals (constant number or channel numbers), i.e., it is not possible to control the number and numbers of branch channels. This limits the functionality of the device, since changes in the requirements of users of branch lines in the number of channels cannot be taken into account; the maximum number of channels branched by a device depends on the number of such devices in the entire transmission path; channel utilization is not high.

 In the event of a malfunction in a channel or with a significant deterioration in channel quality, it is not possible to redistribute free channels.

 If in devices for branching digital signals it will be possible to control the number and numbers of branch channels, then in addition to expanding the functionality of traditional digital transmission systems, the advantage of such devices should be considered that distributed transmission and switching systems can be built on their basis.

 The purpose of the invention is the expansion of functionality by providing the ability to change the numbers of branch channels.

 This goal is achieved by the fact that a control signal receiver, a matching unit and a manual control unit are additionally introduced into the device for branching digital signals, while the input of the matching unit is connected to the second output of the generator unit, and its first output is connected to the second input of the And element, the first input the control signal receiver is connected to the second output of the code converter, the second input is connected to the output of the cyclic clock receiver, the third input is connected to the second output of the matching unit, the output oedinen to the third input of the generator unit and on the other inputs the control signals fed communication control system of the automated system of data transmission, remote control, an application specific changes of channel numbers from the system out branch link manual control unit, and others.

 The introduction into the proposed device of the receiver of the control signals of the matching unit and the manual control unit with appropriate connections allows you to expand its functionality to change the numbers of branch channels.

 The ability to control the number (s) of branch channels appears due to the introduction of a control signal receiver. Moreover, since the generator unit generates signals corresponding to the temporary positions of the branched component stream, using the control signal receiver it becomes possible to change these temporary positions within the cycle in accordance with the numbers received at the specified receiver either remotely or from the manual control unit.

 The drawing shows a structural electrical diagram of a device for branching digital signals.

 It contains a matching unit 1, a prohibition element 2, a generating unit 3, a cyclic clock signal receiver 4, a transmitter 5, a code converter 6, an OR element 7, an interface unit 8, an AND 9 element, a control signal receiver 10, a manual control unit 11.

 The input of the code converter 6 is the input of the device, the first output is connected to the first inputs of the transmitter 5 and the generator unit 3. The second output of the code converter 6 is connected to the first input of the control signal receiver 10, the first input of the cyclic clock signal receiver 4, the first input of the interface unit 8, the first input prohibition element 2, the output of which through the OR element 7 is connected to the second input of the transmitter 5, the output of which is the first output of the device. The second input of the generating unit 3 is connected to the output of the receiver 4 and the second input of the receiver 10, the output of which is connected to the third input of the generating unit 3, the first output of which is connected to the second input of the receiver 4, and the second output is connected to the second input of the inhibit element 2, the input of the matching unit 1, the second input of the interface unit 8 and the input of the AND element 9, the output of which is connected to the second input of the OR element 7, and the second input is connected to the first output of the matching unit 1, the second output of which is connected to the third input of the signal receiver detecting 10 the second input is the second input device. The output of the interface unit 8 is the second output of the device.

 The device operates as follows.

 A digital signal is supplied to the input of code converter 6 in a butt or linear code from a digital transmission system, and at the output of converter 6 this aggregate signal is converted to binary form. In the converter 6 of the code is also the selection of the timing oscillation, which serves to control the generator unit 3 and the transmitter 5.

 The binary aggregate signal from the output of the code converter 6 is supplied to the cyclic clock signal receiver 4, which, interacting with the generator unit 3, determines the position of the cyclic clock signal in the group aggregate signal, and to the input of the receiver 10 control signals. The receiver 10 of the control signals determines the number of the channel (s), the component flows of which are subject to branching. These channel numbers can be remotely entered into the control signal receiver or using a specialized trunk redistribution system organized in an aggregate group stream using free bits of the transmission cycle structure (for example, bits 5, 7, 8 of the zero cycle of channel interval 16 in the transmission cycle IKM-30, corresponding to the CCITT recommendation G-732), either by the data transmission system of the automated communication control system, or by the telemechanics system on specially allocated time at the telemechanics channel positions, or using a specialized system for changing the channel number (s) from the side of a branch communication line organized in a component digital stream. The number (s) of the branch channels can be entered into the receiver of the control signals not only remotely, but also directly using the manual control unit 11.

 To determine the temporary positions of the control signals in the aggregate stream to the receiver 10 of the control signals, a cyclic clock signal is supplied.

 The number (s) of the allocated channel in the parallel code is fed to the input of the generator unit 3, the phasing of which is provided by the receiver 4 of the cyclic clock signal. Based on these numbers, the generator unit 3 generates direct current signals, which in time correspond to the temporary positions of the branched component signal. These signals in the inhibit element 2 prohibit the passage of the branched component in the aggregate digital stream in the forward direction and by means of the And 9 element and the OR element 7, the digital component signal input from the matching unit 1 is passed into these aggregate stream at these times. Aggregate digital signal direct direction, subjected to these transformations, is transmitted to the transmitter 5 and then to the line of direct direction.

 The selection of the component signal from the aggregate is carried out in block 8 pairing, and the input through the block matching.

 The interface unit and the matching unit are controlled from the generator unit 3. In these interface units, synchronous or asynchronous interface, as well as interface with the butt signal. In the control mode of the number (s) of branch channels on the side of the branch line, the matching unit 1 also selects the control signals of this system.

 Since the generator unit 3 generates direct current signals corresponding to the temporary positions of the branched component signal only when the receiver 4 of the cyclic clock signal found this clock signal in the aggregate stream, the proposed device does not have a second element And, if the clock signal is not found, the generator the block of DC signals does not form and the aggregate digital stream does not undergo changes.

 Since at the indicated parallel branching from the group aggregate signal it is not divided into separate parts, and those parts of the aggregate signal that are relevant only to the allocated component signal are prohibited in the direct path, the transmission of all service signals of the aggregate stream is provided, including cyclic clock.

 Thus, the proposed device allows simple and economical measures to carry out dynamic remote control of the numbers of branch channels, which allows you to switch channels when changing the requirements of users of the communication system, if there is a malfunction in the channel or if its quality deteriorates, redistribute free channels. This greatly increases the reliability and flexibility of the digital communications network.

Claims (1)

 DEVICE FOR BRANCHING DIGITAL SIGNALS, comprising a code converter, a transmitter, a generator unit, a cyclic signal receiver, an interface unit, a prohibition element, an OR element, an AND element, the first output of the code converter being connected to the first inputs of the transmitter and the generator unit, the first output of which is connected to the first input of the cyclic clock receiver, and the second output of the code converter is connected to the second input of the cyclic clock receiver, the first input of the interface unit, and the element with the first input and the ban, the output of which is connected to the first input of the OR element, the output of which is connected to the second input of the transmitter, and the output of the receiver of the cyclic clock signal is connected to the second input of the generator block, the second output of which is connected to the second input of the ban element, the second input of the interface unit and the first input of the element And, the output of which is connected to the second input of the OR element, characterized in that a control signal receiver, a matching unit and a manual control unit are introduced, while the first input of the matching unit is connected to the second output of the generator unit, and the first output of the matching unit with the second input of the And element, the first input of the control signal receiver connected to the second output of the code converter, and the second input of the control signal receiver to the output of the cyclic clock receiver, while the third input is connected to the second the output of the matching unit, the second input of which, as well as the output of the interface unit, are respectively the output and input of a branched digital signal, and the output of the control signal receiver is connected to the network input of the generator unit, and the remaining n inputs of the control signal receiver are connected to the data transmission system of the automated communication control system, telemechanics, a specialized system for changing channel numbers from the branch of the communication line, as well as to the manual control unit, while the input of the code converter and the output of the transmitter are respectively the input and output of the device.