SU1346061A3 - Television distributing system - Google Patents

Abstract

The invention relates to communication technology and allows to simplify the system and extend the functionality by connecting any subscribers to the central station (CA). The system consists of CA 1 and p intermediate stations (PS) 2-1, ..., 2-n, each of which contains separation filters 3 and 6, a broadband amplifier 4, amplifiers 5.8 and 9, adder 7, n module tori 10 and p demodulators 11. CA 1 contains a receiver 12 TV and / or VHF signals, an adder.13, a decoupling filter 14, a frequency converter 15, a mixer 16, an amplifier 17 and a local oscillator 18. With the help of separator filters and adders to form an information chain not only in the forward direction from the CA to the MS, but also in the opposite direction uu by bypassing some system blocks involved in signaling in the forward direction. Moreover, the operating frequency band of this information circuit is outside the operating frequency band of the system. i W from N 05 About

Description

The invention relates to communication technology and can be used to organize information communication between a central and any intermediate stations and between any two intermediate stations.

The purpose of the invention is to simplify the system and extend the functionality by connecting any subscribers to the central station.

The drawing shows the structure of an electrical circuit of a television distribution system.

A television distribution system (TPC) consists of a central station 1 and n intermediate stations 2-1.2-2, ...,. 2-p, each of which contains a first separating filter

3, broadband amplifier 4, first amplifier 5, second partition filter 6, adder 7, third amplifier 8, second amplifier 9, n modulators 10 and n demodulators 11. Central station 1 contains a receiver 12 of television and / or ultrashort wave signals, an adder 13 , separation filter 1A, frequency converter 15, mixer 16, amplifier 17 and local oscillator 18.

Intermediate station 2-2 is not connected with central station 1 via intermediate station 2-1. In this case, intermediate stations 2-1, ..., 2-n can be connected to the central station with 1 star or a chain. Central station 1 and intermediate stations are connected by trunk lines 19-1 to 19-n, for example, coaxial cables.

The essence of the invention is that with the help of separation filters and adders TPC can be used to form an information chain not only in the forward (from the central station to the intermediate ones), but also in the opposite direction (the intermediate station to the central one bypassing some blocks of the system participating in in signaling

in the forward direction, the operating frequency band of this information chain is outside the working frequency band TPC.

In the drawing, the solid line shows the circuits for transmitting signals in the TPC operating frequency band, and the dotted one shows the circuit for transmitting signals of the lower frequency band.

The television distribution system works in a melting manner.

Suppose that a computer is

Casting machine, with outputs

The inputs 20 of the working band signals are connected, and the inputs are the outputs of 21 signals of the working band of this station. An interim station 2-2 is connected, for example, with a traffic light system, which is interconnected with a 2-p computational link connected to an intermediate station: The link of intermediate station 2-2 is established as follows.

With the first input 20 of the working band signal, the informational B1-1 inlet of the traffic light system is connected to the arrival of a band by signals.

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These signals are sent to the corresponding modulator 10, where they are modulated according to the y-modulation method (ASK, FSK, PSK, etc.) - (the frequency in the main range from 4 to 25 MHz. The modulated carrier frequency passes through adder 7 to the third amplifier 8, where it is amplified to the corresponding amplitude.

The link 0 is then tapped through the separation filter 3 into the cable of the trunk line 19-2, which connects intermediate staP1, iy 2-2 to intermediate station 2-1. The co cable of the trunk line signals go to the second separation filter 6 of intermediate station 2-1 and then through the adder 7, the third amplifier 8 and the first separation filter 3 to the cable of the main line 19-1. connecting the intermediate station 2-1 with the central station 1. On this cable, the feedback signals of the log go to the central station 1, in which they pass

J- through separation filter I t with converter 15 frequency. 3 last signals are mixed; g signal; -; heterodyne 18; In pesyjibTaTe, the signals are pre-formed on the act. in the frequency range from 295 to 320 MHz. E: - the signal passes in the mixer. 16, which also receives the signal of the local oscillator 18 with such an amplitude, at the output of the mixer 16 the amplitude of the signal of the local oscillator 18 is 11 dB higher than the amplitude of the incoming signal in the frequency range from 293 to 320 MHz callback signal. This applies in general to all feedback screens.

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Such front local oscillator 18 and feedback signals are needed for later demodulation

From the output of the mixer 16, the signal is fed through the amplifier 17 to the adder 13, to the other input of which the signal from the receiver 12 of television and / or ultrashort-wave signals also arrives.

The output of the adder 13 thus comprises television and ultrashort wave signals, local oscillator signals and mixed feedback signals in the frequency band from 295 to 320 MHz. This total frequency spectrum passes through the separation filter 14 to the trunk line 19-n connecting the central station 1 with the intermediate station 2nd.

At the intermediate station 2-p, the first separation filter 3 is designed in such a way that it passes frequencies from 40 to 320 MHz only for broadband amplifier 4 in the forward direction. At the output of the broadband amplifier 4, the intermediate station 2-n signals are distributed in three directions (in the main direction they pass through the second separation filter 6 to the next intermediate station).

The other two outputs of the broadband amplifier 4 of the intermediate station 2-n are connected to the first and second amplifiers 5 and 9, the first amplifier 5 transmitting signals from television and ultrashort wave channels to subscribers, and the second amplifier 9 for outputting feedback data.

From the second amplifier 9, the signals are passed to the demodulators 11, made

in two parts. One part should return the frequency range from 295 to 320 MHz using a local oscillator signal in the frequency range from 4 to 25 MHz. This mixing with the signal of the local oscillator 18 at the central station 1 in the demodulator 11 makes possible larger deviations in the frequency of the local oscillator 18, and also makes the generator in the first part of the demodulators 11 superfluous. Another part of the demodulators 11 generates, according to the modulation mode sig - The feedback signal is a working band signal.

If, for example, the second part of the first demodulator 11 of intermediate station 2-n is made to receive sig

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After the first mode is generated; then, at the corresponding output 21 of the operating band signals, an accurate mapping of the input information signals entered via the first input 20 of the working band is obtained, and a difference may appear between the two signals, which is manifested in the delay items.

Data arriving from the traffic light system connected to the intermediate station 2-2, passes through the central station 1 to the input of the computer provided for in the intermediate station.

The computing machine can process this data in accordance with its program. If, based on the received data, it reveals a malfunction in the traffic light system, then it can issue commands via the chain over which the described signal is transmitted.

A possible signal path may be, for example, the second input 20 of the signals of the working band of the intermediate station 2-p, the modulator 10, the adder 7, the amplifier 8, the separation filter 3 of the intermediate station 2-p, the trunk line 19-n, the separation filter 14, the converter 15 frequencies; mixer 16, amplifier 17, adder 13, separation filter

14, cable trunk line 19-1, the first separation filter 3 intermediate station 2-1, broadband amplifier 4, the second separation Q filter 6, cable trunk line 19-2, the first separation filter 3 intermediate station 2-2,

broadband amplifier 4, second amplifier 9, demodulators 11.

 If the second demodulator is 11

prepared to receive the signal of the second modulator 10, then the input of the second input 21 of the working band signals is obtained through the second input 20

 information signal.

From this, it follows that in this TPC, along with television and ultrashort wave signals, numerous other data can be transmitted, and between any two points, TPC can be established using central link station 1 in both directions.

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Claims (1)

Invention Formula A television distribution system containing a central station, including a receiver of television and / or ultrashort wave signals, the output of which is connected to the first input of the adder, and n intermediate stations, the first of which is connected via a coaxial cable to the output of the central station, each the intermediate station includes a broadband amplifier, the first amplifier whose input is connected to the first output of the broadband amplifier, and the outputs are subscriber outputs of the intermediate station, characterized in that, in order to simplify the system and expand its functionality by connecting any subscribers to the central station, a local oscillator, an separation filter, a frequency converter, a mixer, an amplifier, and a splitter filter, a frequency converter are introduced into the central station , the mixer and the amplifier are connected in series between the output of the adder and the second input of the adder, the local oscillator is connected between, other inputs of the frequency converter and the mixer, and the corresponding H Compiled by V.Lapko:; - Editor M.Petrova Tehred L.Oliynyk Proofreader L.Pilipenko Order 4937/58 Circulation 635 Subscription VNIIPI USSR State Committee Inventions n discoveries 113035, Moscow, Zh-35 ,, Raushsk nab. - „d. Production and printing company, Uzhgorod, st. Design, ЗД6061 The inputs and outputs of the Rael filter filter are the corresponding cable inputs and central control stations, the first and second splitter filters are introduced into each intermediate station, the second and third; amplifiers, the adder, the P E-1 modulators and the T1 demodulators, while the high-frequency output the first splitter filter is connected to the input of a broadband amplifier. The second output of which is connected to the first input of the cyi-mater through the second separating filter, and the third output through the second amplifier to the combined inputs demodulators whose outputs are the outputs informatsionnp1I kazedoy intermediate station ,, and sum1-1ator the third amplifier is connected in series with the outputs of the n modulators, whose inputs are information inputs to the intermediate station and the low-frequency input of the first The sections;: flax filter, and the corresponding inputs and outputs of the first and second separators: the filters are the corresponding cable inputs and codes of each Central Station and connected to the corresponding inputs and outputs of the central and system stations.