UA55552C2 - Microwave integrated television-radio-information system (mitris com) - Google Patents

Abstract

The present invention relates to special communication systems designed for transmitting television programs over radio communication channels. The proposed microwave integrated television-radio-information system contains a broadcasting subsystem. This subsystem contains a multichannel station for transmitting signals in a centimeter-wave range and a multichannel station for transmitting signals in a decimeter-wave range. The proposed invention provides for servicing up to 100 % of the region population due to the possibility to obtain information transmitted in the centimeter-wave and decimeter-wave ranges, at insignificant expenses required for extension of the service area and a number of subscribers of the system.

Description

The invention relates to a special communication technique that ensures delivery of radio and television programs to users via radio communication channels.

Currently, broadcasting systems using powerful up to 1MW transmitters located on high (150-300m) television towers located throughout the country are widespread. Information from the studios is fed to the transmitters through the channels of the radio relay network. Each television program involves a separate radio transmitter. Information is emitted in the form of a radio signal in the frequency range allocated for broadcasting (meter or decimeter wavelength range) by the antenna located on the tower and to which the outputs of the transmitters are connected. This system, along with positive qualities, has disadvantages, which can be attributed to: high cost of design, construction, installation work and high cost of equipment; high cost of maintenance of the transport network; the small number of television programs distributed; low efficiency of the use of the transmitter resource - a significant part of the energy is spent in the territory where there are no users - fields, forests, etc., and in the immediate vicinity of the TV tower the signal level is much higher than the required one. significant level of population exposure. This level may exceed sanitary standards; such a system does not provide full coverage of the country, leaving areas with a population where either there is no television or its quality is very low.

Satellite broadcasting systems are quite expensive and require expensive subscriber equipment and do not distribute all desired programs.

Broadcasting using low-power transmitters (1-10 W), as a rule, in the dm wave range within a radius of up to 10 km ("TV-village") provides service to a local settlement without creating levels of electromagnetic oscillation that pose a threat to health I. In this case, information is received either from a satellite or from the air. Project work is usually not needed, the cost of the equipment is much lower, and the reliability of the transmitters is much higher.

The disadvantage is the small territory of the service area, which in some cases does not completely cover the territory of a large village or town.

These shortcomings can be avoided by the microwave integrated television and radio information system MITRIS GI, which is the prototype of the object of the invention application.

Microwave integrated television and radio information system MITRIS, consisting of subsystems of receiving, forming and processing information, a central station containing a multi-channel microwave transmitter operating at frequencies of 11-13 GHz with frequency modulation units combined with filtering, amplification and conversion units of frequency-modulated signals in the short-wave part of the centimeter wave range, all channels of the UHF transmitter are combined with the connection of the UHF outputs of individual channels to the common UHF output of the transmitter through the corresponding straight arms of serially connected ferrite circulators, as well as the antenna connected to the specified UHF transmitter, subscriber stations , containing each mirror antenna with a converter and a tuner, as well as a repeater (if necessary) of the signals of the central station to expand the reception area.

Due to the improvement of the channel's immunity to interference (frequency-modulated signal, increased amplification factor of the antennas of the central and subscriber stations), the coverage area expands almost to the horizon line.

The disadvantage of the prototype is that it provides a service area only within the line of sight. In addition, when expanding the service area by deploying a number of the same systems, the cost of the complex of means increases in proportion to the square of the increase in the radius of the service area and is not cost-effective.

The need to install a subscriber station also requires additional expenses of the subscriber. This reduces the number of subscribers.

The purpose of this invention is to create an information distribution system that provides the ability to serve 10,095 people in the region due to the fact that information can be received in different areas

The microwave range (centimeter - the range of operation of the central station and decimeter - the range of operation of the broadcasting complex, which allows reception on household reception antennas of broadcast broadcasting), while the cost of deploying the system to increase the coverage area and the number of subscribers increases to a much lesser extent.

This task is solved by the fact that the MITRIS microwave integrated system, which consists of a subsystem for receiving, forming and processing information, a central station that contains a multi-channel microwave transmitter with frequency modulation units combined with filtering, amplification and conversion units of frequency-modulated signals in the short-wave part of the centimeter wave range, all channels of the microwave transmitter are combined with the connection of the microwave outputs of individual channels to the common microwave output of the transmitter through the corresponding straight arms of serially connected ferrite circulators, as well as the antenna connected to the specified microwave transmitter, subscriber stations that contain each mirror antenna with a converter and a tuner, as well as a repeater (if necessary). rtor, M tuners connected to the common output of the converter, and a multi-channel transmission system, which includes: M transmitters, the input of each of which is connected to the output of the corresponding tuner of the multi-channel receiving system, and the outputs to the common input of the transmission antenna of the decimeter wave range.

The combined integrated television and radio information system MITRIS KOM developed by the authors consists of subsystems of information reception, formation and processing, a central station (CS), which contains a multi-channel UHF transmitter operating at frequencies of 11-13 GHz with frequency modulation units combined with amplification and conversion filtering units of frequency-modulated signals in the short-wave part of the centimeter wave range, all channels of the NHF transmitter are combined with the connection of the microwave outputs of individual channels to the common microwave output of the transmitter through the corresponding straight arms of serially connected ferrite circulators, as well as the antenna connected to the specified microwave transmitter, subscriber stations (AS), each containing a mirror antenna with a converter and a tuner, as well as a repeater (if necessary), a broadcasting complex (CM) consisting of a multi-channel receiving system, which includes: a receiving antenna of the centimeter wave range, a converter, M tuners connected to full output of the converter, and a multi-channel transmission system, which includes: M-transmitters, the input of each of which is connected to the output of the corresponding tuner of the multi-channel receiving system, and the outputs to the common input of the transmission antenna of the decimeter wave range

The proposed system differs from the prototype in that the MITRIS system includes a broadcast complex (CM).

Figure 1 shows the structural diagram of the combined microwave integrated television and radio information system MITRIS KOM; Figure 2 shows options for using the MITRIS COM system.

The proposed MITRIS COM system, presented in Fig. 1, consists of subsystems for receiving, forming and processing information 1, a central station (CSO) 2, which contains a multi-channel NVU-transmitter 3, operating at frequencies of 11-13 GHz with frequency modulation units 4 combined with units for filtering, amplification and conversion of frequency-modulated signals into the short-wave part of the centimeter wave range 5, all UHF channels of transmitter C are combined with the connection of the UHF outputs of individual channels to the common UHF output b of transmitter C through the corresponding straight arms of serially connected ferrite circulators 7 , a transmission antenna 8 connected to a common microwave output 6, subscriber receiving stations (AS) 9, each containing a receiving mirror antenna 10 with a converter 11 and a tuner 12, a repeater 13 (if necessary) of signals from the central station to expand the reception area, broadcasting complex (CM) 14 consisting of a multi-channel receiving system 15, which includes: a receiver antenna 16 of the centimeter wave range, converter 17, M tuners 18 connected to the common output of the converter 17, and multi-channel transmission system 19, which includes: M-transmitters 20, the input of each of which is connected to the output of the corresponding tuner 18 of the multi-channel receiving system 15 , and the outputs to the common input 21 of the transmission antenna 22 of the decimeter wave range.

The proposed MITRIS COM system works as follows: the information signal received, processed and emitted by the central station 2 is received by the subscriber stations 9 and the receiving system 15 of the broadcast complex 14, which is functionally similar to the subscriber stations 9, except that each M tuner 18 KM 14 is tuned to a separate TV program. Video signal from the output

M tuner 18 is fed to the input of the corresponding M transmitter 20, which transfers the signal to the range of decimeter wavelengths. After that, the information is emitted by the transmitting antenna 22 KM 14.

In this way, the MITRIS COM system creates two types of products: a signal in the range of 11-13 GHz, which is received by the speaker and fed to the input of the subscriber's television or radio receiver. The number of television programs may exceed 50; a signal in the decimeter range, which is received by the subscriber's antenna of the decimeter range and is fed to the input of the subscriber's receiver. The number of television programs is usually up to 10.

The first type of products provides a high level of services in terms of the nomenclature, quantity and quality of programs. At the same time, it is assumed that the subscriber will install a subscriber station.

The second type of production, with a slightly smaller number of programs and a slightly lower quality, which is connected with the inclusion of the reception section in the transmission chain, provides quite high-quality service to subscribers who receive television programs on household antennas of the decimeter range. At the same time, the quality is in any case not lower than in the traditional version using powerful transmitters. This type of product makes it possible to provide high-quality products to 100 95 of the population with no information service at minimal subscriber costs.

Figure 2 shows options for using the MITRIS COM system. Conditionally shown: zone 1-1 - the service area of the central station (CSO) 2 of the MITRIS COM system, in which signal reception is performed by subscriber stations 9 of the MITRIS COM system, and zones 2-1, 2-2, 2-3 - service areas of the CM 14 , in which signal reception is performed by television antennas available to users.

The options shown in Fig. 2 include cases: the service area of the CM is within the service area of Tse. In this case, the reception of the signal is carried out by the reception system of the CM class AS (2-1). The task of bringing low-cost services to the population in the service area of the MITRIS COM system and reaching 100 95 of the population in this area is being solved.

The CM is located outside the CS service area, but still within the horizon line (2-2). This option can be when the service area of the central station is limited by energy conditions (realization of the required value of the equivalent isotropically radiated power is impossible due to the electromagnetic situation) or local interference.

In this case, reception of the signal by the CM receiving system may require an antenna system with a gain greater than that of the speaker. This option solves the same problems as in the first option, and, in addition, services are brought to the population who cannot get them in any other way.

The CM is located outside the service area of Tse and beyond the horizon line (2-3). In this case, a relay station 13 is used to communicate the remote CM with the central station. A set of high-quality information is delivered to the remote point, possibly in a volume somewhat smaller than in the Tse service area.

Thus, the proposed technical solution solves the set tasks, namely: it expands the number of potential subscribers, providing the opportunity to choose between services of different costs with slightly different qualities; expands the service area with efficient use of the resource, which in turn reduces the cost of services and covers a larger number of the population, thereby increasing the number of potential subscribers;

reduces the cost of expansion due to the fact that the cost of CM is much lower than that; solves the social problem of providing high-quality information services to citizens of the country regardless of their place of residence.

Sources of information 1. T.N. Nartnyk, V.P. Babak, M.E. Mylchenko, S. A. Kravchuk Microwave technologies in telecommunication systems, Kyiv. - Technology", 2000, p. 131 yuyu pi 16 22 zhi, : 6 "ya !

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Claims (4)

1. Microwave integrated television and radio information system MITRIS COM, consisting of subsystems for receiving, forming and processing information, a central station, which contains a multi-channel microwave transmitter with frequency modulation units, combined with filtering units, amplification and conversion of frequency-modulated signals into the short-wave part of the centimeter range waves, all channels of the UHF transmitter are combined with the connection of the outputs of individual channels to the common output of the UHF transmitter through the corresponding straight arms of series-connected ferrite circulators, as well as the transmission antenna connected to the specified UHF transmitter, subscriber receiving stations, each containing a receiving mirror antenna with converter and tuner, and/or repeaters, which differs in that the system includes at least one broadcasting complex consisting of a multi-channel receiving system and a multi-channel transmission system. 2- The system according to claim 1, which differs in that the multi-channel receiving system of the broadcast complex consists of a receiving antenna of the centimeter wave range, a converter, M tuners connected to the common output of the converter. 3. The system according to point I, which differs in that the transmission system of the broadcast complex consists of M transmitters, the input of each of which is connected to the output of the corresponding tuner of the multi-channel receiving system, and the outputs to the common input of the transmission antenna of the decimeter wave range. 4. The system according to item I, which differs in that the transmission system of the central station is connected to the input of the multi-channel receiving system of the broadcast complex by a communication channel.