RU161758U1 - TRANSMISSION TREATMENT OF A MEDIUM-WAVE GROUND RADIO STATION - Google Patents

Abstract

1. The transmission path of the medium-wave terrestrial radio station, containing a serially connected pathogen, a broadband amplifier, an adjustable antenna-feeder matching, a tuned antenna matching and an antenna, and the adjustable antenna-feeding matching has a circuit with the impedance sensor inserted into it at its input, connected by its first the output with the input of the ball variometer and the second output with the input of the microchip control unit, which is connected to the drive of the ball variometer, and The antenna antenna adapter has a circuit with selectively connecting the capacitors to the transmission line of the path in its section between the output of the ball variometer of the adjustable antenna feeder antenna and the antenna input and connecting to each capacitor a separate switching relay powered from the output of the corresponding transistor switch, with the input to the last signal control, characterized in that the supply of the control signal to each transistor switch in the circuit of the trimming antenna matching made in parallel The capacitors were directly connected to the transmission line of the path using a microcontroller connected to its input with the output of the microchip control unit of an adjustable antenna-feeder coordinator and equipped with feedback from it and connected to each transistor switch by its outputs, and the capacitors in the tuning antenna matching circuit were used in the amount that ensures the adjustment, consistent with the regulation of coordination of the transmission line of the path with the antenna, using a ball-and-tube variometer e

Description

The utility model relates to transmitters in the composition of medium-wave ground-based radio stations, in particular, mobile ground-based drive radio stations (installed on vehicles of ground-based radio stations with non-directional radiation and distinctive callsigns for them to determine the direction of its movement on the aircraft to the deployed ground-based radio station during its flight and approach landing) with collapsible medium-wave mast antennas.

Optimization of the designed medium-wave transmitters as part of mobile ground-based drive radio stations consists in providing an acceptable combination of the required radiation power level, which is permissible reduced with the condition that the transmitter has a range of at least 150 km and which makes it possible to place less powerful and smaller autonomous gas-powered electrical units on automobile vehicles drive radio station, and acceptable dimensions of a medium-wave antenna with reduced lengths radiating mast minutes (e.g. up to 10 m) in communication with said emission frequency range for placement in the transport position in disassembled form on the same vehicles medium wave type antenna mast of the umbrella.

As a result of the above optimization, the transportability of the drive radio station increases while saving energy costs for its operation and, accordingly, with an increase in the time of functioning itself with this reduced fuel consumption for electricity generation.

The optimal combination of the radiation power level and the dimensions of the mast antenna requires solving the problem of increasing the efficiency of the transmission path of the medium-wave drive radio station based on the optimal broadband matching of the wave impedance of the transmission line of the path with the input resistance of the medium-wave antenna, which leads to a decrease in electromagnetic energy losses in the transmission line and an increase in the current in the radiating antenna and thus to increase the transmitting path efficiency but.

However, the above requirements do not fully comply with the known transmission path of the medium-wave ground-based radio station, which is a mobile ground-based drive radio station PAR-9M2-1M (see attached to the application for the grant of a patent of the Russian Federation, with its description of the utility model included, information about the specified transmitting path of the PAR-9M2-1M product in accordance with the Operating Instructions for the specified product YM1.201.017-02 RE, Appendix D - Electrical connection diagram of the same product and Electrical circuit diagram tsipialnogo block B9-F - trimmer antenna matching as part of the same product NM2.240.033 EZ manufacturer GZAS them. A. Popov - the applicant of this application), due to insufficient optimal broadband matching of the wave impedance of the transmission line of the path with the input resistance of the medium-wave mast antenna.

This transmission path is selected as a prototype of the claimed utility model, supplemented in the PAR-9M2-1M product with a second same transmission path according to the passive duplication scheme, and contains a series-connected pathogen (as a part of the exciter - block B1A-Os1), a broadband amplifier (block B4A- ОС1), adjustable antenna-feeder coordinator (B5A-ОС1 block), tuned antenna coordinator (B9-Ф block - common to both transmission paths) and a medium-wave mast antenna of the umbrella type, moreover, an adjustable antenna-feeder acc. The oscillator has a circuit with a wave resistance sensor inserted into it at its input, connected by its first output to the input of the ball variometer and the second output to the input of the microchip control unit, which is connected to the drive of the ball variometer, and the tuning antenna matching has a circuit with selectively turning on the capacitors (in two) to the transmission line of the tract on its section between the output of the ball variometer of an adjustable antenna-feeder coordinator and the antenna input and the connection to each condensate in the individual relays, energized from the output of a corresponding transistor switch to it, with the supply to the latter a control signal (from generator frequency subbands in the composition coming from the decoder remote control information densified - block SB3-B1-OC1).

The use of a trimmer antenna matching based on two switched capacitors to control the impedance of the antenna circuit in two medium-wave frequency sub-bands of radiation of 150-400 kHz and 400-1750 kHz does not provide an accurate resonant tuning of the impedance of an antenna acquiring inductive frequency in the second medium-wave sub-band (400-1750 kHz) properties and requiring additional capacitive adjustment in it depending on the radiation frequency, without which the maximum possible degree of optimum In this case, the broadband matching of the wave impedance of the transmission line of the path with the input impedance of the medium-wave antenna and, accordingly, the reserve of reducing the loss of electromagnetic energy in the transmission line and increasing the current in the radiating antenna is not exhausted.

The prior art in the field of radio transmitting devices with antenna-feeder matching in the medium wavelength range is represented by an extremely limited number of analogues, despite the relatively large number of foreign patents with information on matching high-frequency transmission lines with antennas, the adaptation of which for medium-wave transmitters in those cases this is permissible, not effective due to the large increase in the dimensions of the matching blocks.

Among the known patents relating to the medium wavelength range

DE patent No. 19818003, H04B 1/04, H03H 7/38, 1999 relates to a radio transmission system for long, medium and short wavelengths with a fixed two-stage matching scheme without the possibility of adjusting the matching of the transmission line with the antenna;

US patent No. 7107026, H01Q 11/02, H04B 1/04, 2006 relates to a circuit for automatically matching and tuning a low- or mid-frequency high-power radio transmitter with an antenna made on the basis of microcontroller control connecting a series of inductors using various sensors;

JP patent No. 2008288793, H04B 1/04, 2008 relates to a circuit for automatically matching a transmitter to an antenna using a processor as part of a device that controls the phase of the radio wave to provide medium-wave radiation in extreme conditions that require quick adjustment of matching;

CN patent No. 1728567, H04B 1/04, 2006 relates to a system for correcting the standing wave coefficient of a transmission system in the mid-wave range for widening the sideband in digital broadcasting.

Those. the above analogues relating to the medium-wave range of waves, as well as patents with information on various matching schemes in the high-frequency range of emitted waves (see, for example, US patents Nos. 3794941, 4015223, 6868260, 8008982, 8140033, 8466756 and 8532724) do not contradict the presence of novelty of the utility model proposed by the applicant.

The technical result of the claimed utility model is to increase the accuracy of matching with increasing current in the transmitting antenna and, accordingly, the efficiency of the transmitting path in an extended frequency band.

To achieve the specified technical result in the transmission path of the medium-wave ground-based radio station, containing a pathogen, a broadband amplifier, an adjustable antenna-feeder matching, a tuning antenna matching and an antenna, with an adjustable antenna-feeding matching, having a circuit with a wave sensor inserted into it at its input resistance connected by its first output to the input of the ball variometer and the second output to the input of the microchip control unit, which It is connected to the drive of a ball variometer, and with a trimming antenna coordinator having a circuit with selectively turning on the capacitors in the transmission line of the path in its section between the output of the ball variometer of the adjustable antenna-feeder coordinator and the antenna input and connecting to each capacitor a separate switching relay, powered from the output of the corresponding him a transistor key, with an input to the last control signal, supply a control signal to each transistor key in the tuning antenna circuit with a vocalizer, made with parallel connection of capacitors in the transmission line of the path, is implemented using a microcontroller connected to its input with the output of the microchip control unit of an adjustable antenna-feeder coordinator and equipped with feedback with it and connected to each transistor by its outputs, and the capacitors in the tuning circuit antenna coordinator used in an amount that is consistent with the regulation of coordination of the transmission line of the path with the antenna with p spherical power variometer controlled antenna-feeder matcher selection by connecting the microcontroller to the transmission line path of said capacitors in a combination corresponding to the condition of maximum matching transmission line path to the antenna in the desired region of medium wave range of transmitted frequencies.

In the particular case of the implementation of the proposed transmission path, the capacitors in the trimming antenna coordinator circuit can be used in an amount of six, and the antenna can have a mast design of the umbrella type.

In FIG. 1 shows a block diagram of a proposed transmission path of a medium-wave terrestrial radio station; in FIG. 2 - the main part of the circuitry of the tuning antenna coordinator as part of the transmitting path in FIG. one.

The proposed transmission path of the medium-wave ground-based radio station contains (see Fig. 1) a series-connected pathogen (V-l) 1, a broadband amplifier (SHPU) 2, an adjustable antenna-feeder matching 3, a tuning antenna matching 4 and an antenna 5.

In this case, the adjustable antenna-feeder coordinator 3 has a circuit with a wave impedance (ICE) sensor 6 inserted at its input and connected to its first output with the input of a ball variometer (SHV) 7 and a second output with an input of a microchip control unit (BMSU) 8, which is connected to the drive 9 ШВ 7, and the trimmer antenna matching 4 (see Fig. 2) has a circuit with parallel connection of the capacitors 11 mounted on the board (PC) 10, into the transmission line of the path in its section between the output of the ШВ 7 of the adjustable antenna feeder agree I 3 and the input of the antenna 5 and the connection to each capacitor 11 of the relay unit (BR) 12 included in the separate relay 13, powered from the output of the corresponding transistor switch unit (BTK) 14 transistor switch 15, with the input to the last signal management.

Moreover, the supply of the control signal to each transistor switch 15 in the trimming circuit of the antenna matching device 4 (see Fig. 1 and 2) is carried out using a microcontroller (MK) 16, connected by its input to the output of the BMSU 8 of the adjustable antenna-feeder coordinator 3 and equipped with feedback with it and connected with its outputs to each transistor switch 15 (in Fig. 1 MK 16 is connected by its output to the input of BTK 14, which is connected through PC 12 to PC 10), and the capacitors 11 in the tuning antenna matching circuit 4 are used if six (in the present example of the transmitting path execution) that provides coordination with the adjustment of the transmission line of the path with the antenna 5 (in this example, with the mast antenna of the umbrella type) using BC 7 adjustable antenna-feeder coordinator 3 selection using MK 16 connection to the transmission line of the path of the capacitors 11 in their combination, corresponding to the condition of maximum matching of the transmission line of the path with the antenna 5 in the upper region of the medium-wave range of transmitted frequencies .

The proposed transmission path of the medium-wave terrestrial radio station (in the present example, a mobile terrestrial radio station) operates as follows.

The transmitting signal generated by V-lem 1 and amplified by the silo 2 passes through the internal combustion engine 6, then through the wide-angle shaft 7 and then along the transmission line (see Fig. 1) through the PC 10 of the capacitors 11 to the input of the antenna 5.

At the same time, in the lower region of the medium-wave range of transmitting frequencies from 150 to 400 kHz, the optimal matching in automatic mode is carried out using the internal combustion engine antenna 6 included in the composition of the antenna-feeder 6 and BMSU 8, which leads the correcting signal of the transmission line mismatch with the help of drive 9 to corrective movement ШВ 7, specifying the required adjustment of the impedance of the transmission line.

In the upper region of the medium-wave range of transmission frequencies from 400 to 1750 kHz, optimal matching in automatic mode is carried out when the impedance of the transmission line is insufficiently controlled using the antenna-feeder matching 3 using the tuning antenna matching 4 MK 16, which is triggered by the output control signal of ICE 6 passing through BMSU 8, and software enumeration of the combinations of turning on six capacitors 11 using BTK 14 and BR 12 selects in the process of changing the control signal ICE 6, the combination of turning on the capacitor 11, corresponding to the condition of maximum matching of the transmission line of the path with the antenna 5, after which through feedback it turns on the BMSU 8 for the final adjustment of the impedance of the transmission line using the antenna-feeder coordinator 3.

The proposed transmitting path in comparison with the transmitting path - the prototype provides the possibility of excluding the supply of the control signal to the tuning antenna coordinator 4 from the remote unit of the drive radio station (from the frequency subband generator as part of the decoder of the compressed information coming from the control panel), as well as due to the automatic control of the transmitting impedance lines using a special selection program for the inclusion of an effective combination of capacitors 11, adjusted for working pa the meters of the used medium-wave antenna 5 increases the accuracy of tuning the optical matching of the transmitting line of the path with the input of the transmitting antenna 5 and, accordingly, increases the efficiency of the path by power by 25-30% in the extended mid-frequency band and the extended size range of the working elements of the medium-wave antenna with the range of the proposed transmitting a path of at least 150 km and a decrease in the length of the emitting mast of the antenna 5 of the umbrella type to 10 m or less.

Claims (3)

1. The transmission path of the medium-wave terrestrial radio station, containing a serially connected pathogen, a broadband amplifier, an adjustable antenna-feeder matching, a tuned antenna matching and an antenna, and the adjustable antenna-feeding matching has a circuit with the impedance sensor inserted into it at its input, connected by its first the output with the input of the ball variometer and the second output with the input of the microchip control unit, which is connected to the drive of the ball variometer, and The antenna antenna adapter has a circuit with selectively connecting the capacitors to the transmission line of the path in its section between the output of the ball variometer of the adjustable antenna feeder antenna and the antenna input and connecting to each capacitor a separate switching relay powered from the output of the corresponding transistor switch, with the input to the last signal control, characterized in that the supply of the control signal to each transistor switch in the circuit of the trimming antenna matching made in parallel The capacitors were directly connected to the transmission line of the path using a microcontroller connected to its input to the output of the microchip control unit of an adjustable antenna-feeder coordinator and equipped with feedback from it and connected to each transistor switch by its outputs, and the capacitors in the tuning antenna matching circuit were used in the amount that ensures consistent with the regulation of coordination of the transmission line of the path with the antenna using a ball a variometer of an adjustable antenna-feeder matching device using a microcontroller to connect the indicated capacitors to the transmission line of the path in their combination, corresponding to the condition of maximum matching of the transmission line of the path with the antenna in the required region of the medium-wave range of transmitted frequencies. 2. The transmission path according to claim 1, characterized in that the capacitors in the trimming circuit of the antenna matching are used in an amount of six. 3. The transmission path according to claim 1, characterized in that the antenna has a mast design of the umbrella type.

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