RU112804U1 - DIGITAL TV BROADCASTING STATION - Google Patents

Abstract

Transceiver station of digital TV broadcasting, characterized in that it contains a receiving satellite terminal, including a receiving satellite antenna, the output of which is connected to the input of a digital satellite receiver connected to the first input of the multiplexer / remultiplexer, the second and third inputs of which are connected to the digital data encapsulator and the interface of the tie-in equipment regional programs, respectively, a transmitting terrestrial terminal containing a transmitting terrestrial antenna connected to the main output of a digital terrestrial transmitter, the second additional output of which is connected to the input of a directional coupler, also a transceiving satellite terminal containing a transceiving satellite antenna with a bi-directional transceiver unit, the input-output of which is connected with the input-output of the IP switch, the second input-output of which is connected to the input-output of the monitoring and control module, the input of which is connected to the outputs of N security and fire sensors, and the second input to output - by a bidirectional line to the service input-output of the digital terrestrial transmitter, the IP video camera is connected to the third input / output of the IP switch and is structurally installed on the antenna mast, while the input of the digital terrestrial transmitter of the transmitting terrestrial terminal is connected to the multiplexer / remultiplexer output of the receiving satellite terminal , the digital terrestrial transmitter is rigidly mounted on the antenna mast in the immediate vicinity of the transmitting terrestrial antenna, the output of the directional coupler of the transmitting terrestrial terminal is connected to the digital receiver input of the audio control terminal

Description

A digital broadcasting transceiver station belongs to television systems and can be used to build a digital broadcasting distribution network within a certain area, deliver educational programs to subscribers in remote or inaccessible rural areas, organize temporary broadcasting in places of natural disasters and catastrophes by the Ministry of Emergencies, as well as delivery of regional digital content to subscribers.

A device for the collective reception of broadcast television programs according to the patent of the Russian Federation No. 68828. The device includes:

- a block of receivers of digital television signals containing a number of demodulators of digital signals of the DVB-T standard, which are connected in series with analog modulators, and a number of channel filters;

- a block for amplifying and leveling digital and analog signals of terrestrial television, which is a set of parallel-connected channel filters connected in parallel with the channel filters of the receiver block.

The device can receive both analog and digital channels of the DVB-T standard in an analog format without using subscriber digital set-top boxes, which makes the reception of digital content more accessible for subscribers.

The disadvantage of this technical solution is the lack of functions for generating a digital TV package, regional box and the possibility of transmitting additional data as part of digital TV signals, as well as the need for a cable subscriber distribution network, the organization of which is often not economically justified or impossible due to the difficult terrain .

The Television Village project is also known (Telesputnik magazine, 1999, No. 10), which is based on the concept of 100% coverage of the population with multi-program television using a distributed network of low-power satellite transponders. The repeater includes a receiving satellite antenna, a standard satellite receiver, a modulator, a low-power MB or UHF transmitter and a transmitting antenna with a circular or directional pattern. The transmitter is equipped with a control system with an electronic key that sets the life of the transmitter depending on the paid period of operation of the transmitter, while the transmitter power amplifier is located next to the transmitting antenna. The transmitter modulator has an additional input for connecting a video camera, which allows you to organize the transmission of news from a local studio.

The disadvantage of the above technical solution lies in the need for qualified personnel to maintain a network of satellite repeaters, which increases the cost of network operation, and in the absence of the possibility of forming a digital software package (re-multiplexing the received transport stream) with a regional box.

Closest to the claimed utility model is a terrestrial communication system according to the patent of the Russian Federation for invention No. 2189702, based on the fact that the technique of transmitting signals via satellite can be used for terrestrial signal transmission. The system includes one or more local ground repeaters mounted on masts or other supporting structures. Each repeater is equipped with high-frequency communication equipment corresponding to the equipment of the geostationary satellite for digital transmission of visual, audio information or data transmitted in the L-band, S-band or in the higher frequency range. For transmitting in the horizontal plane, repeaters use an omnidirectional antenna. Information transmitted by the local satellite repeater is received on small subscriber parabolic antennas directed towards the repeater and equipped with equipment for receiving and decoding digital signals. To increase the coverage area, several powerful repeaters can be installed.

The disadvantage of this terrestrial communication system is limited functionality due to the lack of equipment for generating a transmitted packet of information from digital streams received from a geostationary satellite, as well as the need for expensive receiving satellite equipment from subscribers.

The technical result of the claimed utility model consists in the possibility of receiving DVB-S / S2 digital signals via a satellite channel, forming its own multiplex with an insert of a regional program and encapsulating additional data (user data), followed by transmitting a digital multiplex in the DVB-T standard to collective and / or individual antennas of subscribers, as well as in reducing the loss of power of a signal from a digital terrestrial transmitter to a transmitting terrestrial antenna.

This is achieved by the fact that the transceiver station of digital television broadcasting is characterized by the fact that it contains a satellite receiver terminal, including a satellite receiver, the output of which is connected to the input of a digital satellite receiver connected to the first input of the multiplexer / remultiplexer, the second and third inputs of which are connected to the encapsulator digital data and the interface of the equipment insert regional programs, respectively, the transmitting broadcast terminal containing a transmitting broadcast antenna connected to the main output of the digital terrestrial transmitter, the second additional output of which is connected to the input of the directional coupler, also a transceiver satellite terminal containing a transceiver satellite antenna with a bi-directional transceiver unit, the input-output of which is connected to the input-output of the IP switch, the second input is the output of which is connected to the input-output of the monitoring and control module, the input of which is connected to the outputs of N security and fire sensors, and the second input-output is a bi-directional line to the service input-in the output of the digital broadcast transmitter, the IP video camera is connected to the third input-output of the IP switch and is structurally mounted on the antenna mast, while the input of the digital broadcast transmitter of the transmitting broadcast terminal is connected to the output of the multiplexer / remux of the receiving satellite terminal, the digital broadcast transmitter is rigidly mounted on the antenna mast in the immediate vicinity of the transmitting broadcasting antenna, the output of the directional coupler of the transmitting broadcasting terminal is connected to the input of the digital receiver an audio-video information control terminal, the output of which is connected to the input of the video-audio monitor of the audio-video information control terminal, to the second input of which the output of the digital satellite receiver of the receiving satellite terminal is connected.

When studying well-known technical solutions in this technical field, the totality of features that distinguish the claimed object was not identified. This solution differs from the known ones.

The claimed solution can be implemented on modern television and radio devices and components, therefore, suitable for industrial production.

The essence of the proposed technical solution is illustrated by drawings.

In Fig.1 shows a block diagram of a transceiver station of digital broadcasting, and Fig.2 is an antenna mast of a transceiver station of digital broadcasting. In figure 1, the positions indicated:

10 - receiving satellite terminal;

20 - transmitting broadcast terminal;

30 - transceiver satellite terminal;

40 - terminal control audio-video information;

11 - receiving satellite dish;

12 - digital satellite receiver;

13 - multiplexer / remultiplexer;

14 - encapsulator of digital data;

15 - interface equipment insert regional programs;

21 - transmitting radio antenna;

22 - digital broadcast transmitter;

23 - directional coupler;

31 - transceiver satellite dish;

32 - transceiver unit;

33 - IP switch ("switch");

34 - IP video camera;

35 - monitoring and control module;

36 - N security and fire sensors;

41 - video audio monitor;

42 is a digital receiver.

The inventive digital broadcasting transceiver station comprises a satellite receiving terminal 10, a broadcasting terminal 20, a satellite transmitting and receiving terminal 30, and an audio-video information monitoring terminal 40. The receiving satellite terminal 10 includes a receiving satellite antenna 11 connected to a digital satellite receiver 12, the output of which is connected to the first input of the multiplexer / remultiplexer 13, to the second input of which the digital data encapsulator 14 is connected, and the interface of the equipment for inserting regional programs 15 to the third. The transmitting broadcast terminal 20 comprises a transmitting broadcast antenna 21 connected to the main output of the digital broadcast transmitter 22, the second additional output of which is connected to the input of the directional coupler 23. The digital broadcast transmitter 22 is rigidly mounted on the antenna mast (see figure 2) in the immediate vicinity of transmitting terrestrial antenna 21. The input of the digital terrestrial transmitter 22 of the transmitting terrestrial terminal 20 is connected to the output of the multiplexer / remultiplexer 13 of the receiving satellite terminal 10, the output of the directional tvetvitelya 23 transmitting broadcasting terminal 20 is connected to the input of digital receiver 42 of the terminal 40 controls the audio-video data, the output of which is connected to the input of video-audio monitor 41 of the terminal 40 controls the audio-video data to the second input of which is connected to the output of the digital satellite receiver 12 of the receiving satellite terminal 10.

The satellite transceiver terminal 30 includes N security and fire sensors 36 connected to the first input of the monitoring and control module 35, the output of which is connected to the first input-output of the IP switch 33, the second input-output of which is connected to the IP video camera 34, structurally mounted on the antenna mast.

The third input-output of the IP switch 33 is connected to the transceiver unit 32 connected to the transceiver satellite antenna 31.

The monitoring and control module 35 is connected via a bi-directional line to the service input-output of the digital broadcast transmitter 22.

The inventive transceiver station of digital broadcasting operates as follows.

Digital television and radio signals according to the DVB-S / S2 standard are received by the receiving satellite antenna 11 mainly in the Ki range and are fed to the input of a standard digital satellite receiver 12, in which the QPSK signal is demodulated. From the output of the receiver 12, the received digital transport stream is fed to the first input of the multiplexer / remultiplexer 13. Additional data (user data) from the digital data encapsulator 14 is supplied to the second and third inputs of the multiplexer / remultiplexer 13 and a digital signal of regional TV shows. As a result, at the output of the multiplexer / remultiplexer 13, a digital multiplex is formed, containing a television program package (up to eight programs with a regional box) and additional user data received at the input of the digital broadcast transmitter 22. and then to the transmitting antenna 21.

The inventive transceiver station operates in an unattended mode, therefore, a transceiver satellite terminal 30 has been introduced into it, the equipment of which provides remote monitoring of the station and the ability to control the station. The signals from N security and fire sensors 36 are fed to the monitoring and control module 35 and in the IP switch 33 are switched with a digital image signal from the IP video camera 34, which is structurally mounted on the antenna mast.

After processing and amplification in the transmitting and transmitting unit 32, the signals are emitted in the C-band of the transmitting and receiving satellite antenna 31. Monitoring and control of the operation of the digital broadcast transmitter 22 is carried out through the module 35 for monitoring and control on a bi-directional line.

Thus, the claimed transceiver station of digital broadcasting provides the reception of digital satellite television and radio programs in the DVB-S / S2 standard, the formation of a digital multiplex containing a package of television programs with a regional frame and encapsulated user data, broadcasting a digital transport stream in the DVB- standard T over the air. To ensure the operation of the station in maintenance-free mode, to increase the reliability of operation, the station is equipped with a C-band satellite transceiver terminal that provides remote monitoring and control of the station.

By installing a digital broadcast transmitter on the antenna mast in the immediate vicinity of the transmitting broadcast antenna, the technical result of the claimed utility model is achieved by reducing the power loss of the signal from the digital broadcast transmitter to the transmitting broadcast antenna.

The inventive transmitting and receiving station of digital broadcasting is implemented and tested in the experimental area of digital broadcasting. Stable reception and high image quality among subscribers when transmitting multi-program digital television was noted.

Claims (1)

A digital broadcasting transceiver station, characterized in that it comprises a satellite receiving terminal including a satellite receiving antenna, the output of which is connected to the input of a digital satellite receiver connected to the first input of the multiplexer / remultiplexer, the second and third inputs of which are connected to the digital data encapsulator and the insertion equipment interface regional programs, respectively, the transmitting terrestrial terminal containing the transmitting terrestrial antenna connected to the main digital output a terrestrial transmitter, the second additional output of which is connected to the input of the directional coupler, also a transceiver satellite terminal containing a transceiver satellite antenna with a bi-directional transceiver unit, the input-output of which is connected to the input-output of the IP switch, the second input-output of which is connected to the input- the output of the monitoring and control module, the input of which is connected to the outputs of N security and fire sensors, and the second input-output is a bi-directional line to the service input-output of digital air about the transmitter, the IP video camera is connected to the third input-output of the IP switch and is structurally mounted on the antenna mast, while the input of the digital broadcast transmitter of the transmitting broadcast terminal is connected to the output of the multiplexer / remultiplexer of the receiving satellite terminal, the digital broadcast transmitter is rigidly mounted on the antenna mast in In close proximity to the transmitting on-air antenna, the output of the directional coupler of the transmitting on-air terminal is connected to the input of the digital receiver of the audio monitoring terminal -videoinformatsii whose output is connected to the input video audio monitor audio-video control terminal, a second input connected to the output of which a digital satellite receiver receiving satellite terminal.