RU182705U1 - HEAD STATION MODULE - Google Patents

Abstract

The claimed technical solution relates to radio engineering and can be used in the construction of compact multi-channel communication systems for signal transmission.

The claimed module of the head station (Fig. 1) includes a computer 1, a block 2 of the input interfaces, a CAM interface 3, a multiplexer 4, a scrambler 5, a switching matrix 6 and a block 7 of the output interfaces. The output of the computer 1 is connected to the control inputs of the block 2 of the input interfaces, the CAM interface 3, the multiplexer 4, the scrambler 5, the switching matrix 6 and the block 7 of the output interfaces. The outputs of block 2 of the input interfaces are connected to the inputs of the switching matrix 6. The outputs of the switching matrix 6 are connected to the inputs of the block 7 of the output interfaces. The ports of the CAM interface 3, multiplexer 4 and scrambler 5 are connected to the switching matrix 6.

Description

The claimed technical solution relates to radio engineering and can be used in the construction of compact multi-channel communication systems for signal transmission.

In modern systems of cable television (hereinafter SKTV) one of the most complex and important nodes is the head television station (hereinafter GTS). The task of the GTS is to receive television and radio broadcast signals transmitted over various media, for example, via cable, including using ethernet technology, through the air, including using satellite broadcasting, etc. and converting the received signals into a format adapted for further broadcasting in a distribution network. In this case, various data transfer standards called protocols can be used, such as DVB (T / T2 / C / C2 / S / S2 / S2X), ASI, SDI, VSB, IP, FM, etc.

One of the most serious problems in building modern digital GTS is the fact that the standards and formats of received and distributed signals are constantly being improved and changed. This requires regular replacement of equipment, which leads to significant financial and time costs.

The prior art patent RU No. 2266626 "COMPUTERIZED METHOD OF INTERACTIVE DIGITAL BROADCAST TV" is published on December 20, 2005 (PCT Application: FR 01/00021 (01/03/2001), PCT publication: WO 01/50764 (07/12/2001). According to the invention transmit a digital signal containing a data stream corresponding to compressed video images, and a data stream corresponding to at least a multimedia application, as well as service signals for controlling said data streams. a synchronization signal comprising a sequence for assigning a multimedia application present in a digital signal and a signal sequence for recording performance parameters of a designated multimedia application, after which a multimedia application is loaded and a multimedia application with the specified execution parameters is initialized. multimedia application interactive features user. This method relates to IPTV systems and is not applicable to terrestrial digital television signal transmission systems.

The well-known "BROADCAST RECEIVING SYSTEM CONTAINING A COMPUTER AND A DECODER" described in the patent for invention RU No. 2199831, published 02.27.2003 (EP 98/01607 (03.19.1998), WO 98/43421 (01.10.1998). The invention proposes a combined a system of a computer and a decoder for receiving broadcasts of digital data.The decoder contains routing means, and digital broadcast data received by the decoder and destined for the computer are identified and sent to computer applications using these routing means. The solution is the need to replace the decoder in the event of the emergence of new data transfer standards, or the emergence of new formats adapted for further broadcasting in distribution networks.

It is also known "DEVICE FOR COLLECTIVE RECEIVING OF TELEVISION TELE PROGRAMS" described in the patent of the Russian Federation for utility model No. 68828, H04N 7/01, published November 27, 2007). The device comprises an amplification unit, the input of which is connected to the antenna / home headend, at least two active conversion units, each of which is based on a digital demodulator and an analog modulator. At least one active conversion unit is connected by its input to the output of the amplification unit.

This device contains a large number of active conversion units and active filters. Each of the digital signal demodulators of the digital TV signal receiver unit is configured to receive a DVB-T signal. The analog modulator of the block of receivers of digital TV signals includes a modulating chip, the output of which is configured to tune to any channel of the TV range, a frequency synthesizer and a controller. The limitations of the known device are the small number of convertible channels of digital TV with significant structural complexity, as well as the inability to convert digital channels for broadcasting.

The closest is the device described in the patent for utility model RU№101607 "DEVICE FOR COLLECTIVE RECEIPT OF TELEPROGRAMS". A device for collective reception of television programs contains an amplification unit, the input of which is connected to the antenna / home headend, and at least two active conversion units, each of which is based on a digital demodulator and an analog modulator. Moreover, at least one active conversion unit is connected by its input to the output of the amplification unit. Also, according to the claimed design, this device contains a large number of active conversion units and active filters and amplification units. The main drawback of the solution proposed in the utility model is that the use of a multi-module system leads to the need to replace a large number of physical blocks in case of changing data transfer standards, or the emergence of new formats adapted for further broadcasting in distribution networks.

The problem to which the claimed technical solution is directed is to create a compact, unified and inexpensive device for transmitting information signals.

The technical result of the claimed utility model is to reduce the operating costs of the transmission system while improving the quality of transmission of information signals. This is achieved due to the absence of the need for physical replacement of equipment when changing data transfer standards, or the emergence of new formats adapted for further broadcasting in distribution networks.

The specified technical result is achieved in that the head station module includes a computer, an input interface unit, a CAM interface, a multiplexer, a scrambler, a switching matrix, and an output interface unit. The computer output is connected to the control inputs of the input interface block, the CAM interface, multiplexer, scrambler, switching matrix and the output interface block. The outputs of the input interface unit are connected to the inputs of the switching matrix. The outputs of the switching matrix are connected to the inputs of the block of output interfaces. The CAM interface, multiplexer and scrambler are connected to the switching matrix.

Connecting a computer to the input interface unit, multiplexer, scrambler and the output interface unit and the switching matrix makes it possible to coordinate the electrical parameters of the above interfaces programmatically in accordance with the program loaded into the computer.

The proposed utility model makes it possible to construct a head station module based on a computer. Such a module of the head station can change its functionality and hardware architecture without the need for physical replacement of equipment, but simply by updating the computer software.

The claimed utility model can transmit the following types of signals DVB (T / T2 / C / C2 / S / S2 / S2X), ASI, SDI, VSB, IP, FM.

In the following, the claimed technical solution is illustrated by a detailed description of specific, but not limiting the present solution, examples of its implementation and the accompanying drawings, on which:

FIG. 1 - shows a General diagram of the claimed device;

FIG. 2 - shows a diagram of the claimed device when receiving a satellite signal DVB-S / S2, with its descrambling, adding to the software package an additional program received via the IP interface, re-scrambling and simultaneously issuing signals in the form of a broadcast DVB-C package and a transport signal via ASI an interface

FIG. 3 - shows a diagram of the claimed device when receiving an ASI signal with conversion to scrambled DVB-T signal;

FIG. 4 - shows a diagram of the claimed device when receiving an IP signal and converting it into an FM radio signal.

The claimed module of the head station (Fig. 1) includes a computer 1, a block 2 of the input interfaces, a CAM interface 3, a multiplexer 4, a scrambler 5, a switching matrix 6 and a block 7 of the output interfaces. The output of the computer 1 is connected to the control inputs of the block 2 of the input interfaces, the CAM interface 3, the multiplexer 4, the scrambler 5, the switching matrix 6 and the block 7 of the output interfaces. The outputs of block 2 of the input interfaces are connected to the inputs of the switching matrix 6. The outputs of the switching matrix 6 are connected to the inputs of the block 7 of the output interfaces. The ports of the CAM interface 3, multiplexer 4 and scrambler 5 are connected to the switching matrix 6.

The following are several options for the operation of the claimed head station module.

Before starting work of the headend module (Fig. 1), specialized software must be loaded into the computer 1. Computer 1, in accordance with this software, generates in the switching matrix 6 the logical and computational structures necessary for receiving, processing and modulating digital television signals. Also, matching routines for the used input signals are loaded in block 2 of the input interfaces, in block 7 of the output interfaces and the CAM interface 3.

Example 1. (Fig. 2) The functioning of the module when receiving a DVB-S / S2 satellite signal, with its descrambling, adding to the software package an additional program received via the IP interface, re-scrambling and simultaneously outputting signals in the form of a broadcast DVB-C package and transport signal via ASI interface.

In this example, the physical connectors of block 2 of the input interfaces receive input signals of the DVB-S / S2 format and IPTV signals. As connectors, for example, F type connectors for DVB-S / S2 signals and RJ45 connectors for IPTV signals can be used. The program loaded into the computer 1 configures the input interfaces in block 2 to convert the input signals in the DVB-S / S2 tuner and in the IP interface to the standard MPEG TS (TS) digital stream format.

Also, the computer 1, in accordance with the loaded program, using the switching matrix 6, connects the output of the DVB-S / S2 tuner to the input of the CAM interface 3, the output of the CAM interface 3 connects to the input of the multiplexer 4, the output of the multiplexer 4 connects to the input of the scrambler 5, the output of the scrambler 5 connects to the inputs of the DVB-C modulator and IP interface block 7 output interfaces. Also, the output of the IP interface is connected to the input of the multiplexer 4. Also, the computer 1 sets the operating modes of the block 7 of the output interfaces, CAM interface 3, multiplexer 4 and scrambler 5.

Work description. The DVB-S / S2 signal is input to the tuner, which converts it to the standard MPEG TS (TS) format. This signal is fed through a switching matrix 6 to the input of the CAM interface 3 in which it is descrambled (converted to an unencoded stream). The stream from the output of the CAM interface 3 enters the input of the multiplexer 4. The stream (TS) from the output of the IP interface enters the same input. This could be, for example, a local television program. In multiplexer 4, these signals are summed. From the output of the multiplexer 4, the total stream is fed to the input of the scrambler 5, in which it is encoded (scrambled) by the operator coding system for organizing pay television. From the output of the scrambler 5, the signal enters the block 7 of the output interfaces - the inputs of the DVB-C modulator and the input of the ASI interface. From the DVB-C modulator output, the signal enters the distribution network to end users, and from the ASI interface output, the signal can be fed into the transport network for transmission to other head stations of the cable operator.

Example 2. (Fig. 3) The operation of the module when receiving an ASI signal with conversion to scrambled DVB-T signal.

In this example, the physical connectors installed in block 2 of the input interfaces to the ASI interface receive input signals of the ASI format. As connectors, for example, BNC connectors in accordance with the ASI standard can be used. The program loaded into the computer 1, configures the input interface in block 2 to convert the input signal of the ASI format to the standard MPEG TS (TS) digital stream format.

Also, the computer 1, in accordance with the loaded program, using the switching matrix 6, connects the output of the ASI interface to the input of the scrambler 5, and the output of the scrambler 5 connects to the input of the DVB-T modulator in block 7 of the output interfaces. Also, the computer 1 sets the operating modes of the block 7 of the output interfaces and the CAM interface 3, multiplexer 4 and scrambler 5.

Work description. The signal of the ASI format is fed to the input of the ASI interface, which converts it to the standard MPEGTS (TS) format. This signal is transmitted through the switching matrix 6 to the input of the scrambler 5, in which it is encoded (scrambled) by the operator coding system for organizing pay television. From the output of the scrambler 5, the signal enters block 7 to the output interface - the input of the DVB-T modulator. From the output of the DVB-T modulator, the signal enters the distribution network to the end users.

Example 3. (Fig. 4) The operation of the module when receiving an IP signal and converting it to an FM radio signal.

In this example, the physical connectors installed in block 2 of the input interfaces receive input signals of the IP format. As connectors, for example, an RJ45 connector can be used. The program loaded into the computer 1, configures the input interface in block 2 of the input interfaces to convert the input signal of the IP format to the standard digital stream format MPEG TS (TS). The computer also configures the operating modes of the output interface 5 and CAM interface 3, multiplexer 4 and scrambler 5.

Also, the computer 1, in accordance with the loaded program, using the switching matrix 6, connects the output of the IP interface with the input of the FM modulator in block 7 of the output interfaces.

Work description. The IP format signal is input to the IP interface, which converts it to the standard MPEGTS (TS) format. This signal is fed through a switching matrix 6 to the input of the FM modulator of block 7 of the output interfaces. From the output of the FM modulator, the signal enters the distribution network to the end users.

All of the above examples are implemented on the same equipment thanks to the software in the host computer 1.

Thus, the proposed solution allows you to create a module of the head station, which in the process, depending on the load and tasks performed, can change its functionality and internal logical structure.

The television headend does not bind the cable TV operator or broadband data network operator to the existing functionality, but provides the opportunity to gradually update the software of existing modules as the need arises, improving the configuration to the required level.

For example, when switching from analog modulation to digital, organizing IPTV broadcasting or introducing a conditional access system using a headend, you do not need to additionally purchase digital modulators, multiplexers, streamers and scramblers; it is enough to update the software on existing modules.

Thus, the proposed utility model is an urgent solution for everyone whose business is based on relaying television channels and offering additional video services, as it is a powerful universal TV platform whose technical potential is capable of providing long-term “survivability” due to the ability to adapt to changing conditions receiving, processing and distribution of video content in any environment intended for this purpose, whether it is a coaxial cable, twisted pair or ether while maintaining a high signal transmission quality.

Claims (1)

The head station module includes a computer, a block of input interfaces, a CAM interface, a multiplexer, a scrambler, a switching matrix and a block of output interfaces, while the computer output is connected to the control inputs of a block of input interfaces, a CAM interface, a multiplexer, a scrambler, a switching matrix, and a block of output interfaces, the outputs of the input interface unit are connected to the inputs of the switching matrix, the outputs of which are connected to the inputs of the output interface unit, and the ports of the CAM interface, multiplexer and scrambler are connected to the port and a switching matrix.

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