FR2662895A1 - Radio broadcast programme distribution installation with cabled network - Google Patents

Abstract

The invention relates to a radio broadcast programme distribution installation including a head end station (1), a cable network (2) and receiving stations (3). According to the invention, the head end station (1) includes a substation (11), for sources from 5 to 950 MHz, supplying multiplexed signals between 120 and 300 MHz in amplitude modulation, a substation (12), for the sources above 950 MHz, supplying multiplexed signals between 300 and 900 MHz in frequency modulation, and a general multiplexer (13) driven by the two substations and supplying signals between 120 and 900 MHz; the cabled network has a tree structure; the receiving stations comprise a television-programme selector-converter assembly for receiving signals from 120 to 300 MHz, and a channel group converter and a satellite receiver for receiving the signals from 300 to 900 MHz and transmitting them to the television.

Description

"PROGRAM DISTRIBUTION SYSTEM
CABLE NETWORK BROADCASTING ".

 The invention relates to an installation for distributing a plurality of broadcasting programs, in particular television programs, of the type comprising a head station connected to sources for receiving program signals in the range from 5 MHz to 1,750 MHz, a multiplicity of reception stations for broadcasting the programs, and a cable network connected to the head station and to the reception stations for transmitting to the latter the signals originating from the first.

 We already know such cable network installations called "coaxial pair".

 In such installations, for reasons of physical limitation, when the frequency of the signal increases, the range is reduced; installations intended for long ranges must necessarily carry relatively low frequencies.

 Thus, the collective antenna units of small size for the reception of the signals coming from the satellites use a carrier frequency of 950 to 1750 MHz modulated in frequency, because this type of modulation requires only a weak signal level for a correct exploitation .

 Urban networks, on the other hand, using lower frequencies, generally up to 862 MHz, serve areas of dimension up to two kilometers, these areas being interconnected by a transport network with a coaxial line or with optical fiber. The structure of such networks is said to be hierarchical and it is complex; in particular, the interfaces between the transport network, coaxial or optical fiber, and the broadband distribution area, are complex and expensive. This is why it is sometimes preferred to further limit the maximum useful frequency towards 450 to 550 MHz. Such networks, in common use in North America or Belgium, allow large ranges of up to 20 kilometers from a single reception site. However, televisions designed solely for the reception of broadcasts transmitted by channel over the air are not equipped to process signals between 120 MHz and 174 MHz on the one hand, and between 230 MHz and 470 MHZ on the other hand, these bands are not allocated to mainstream broadcasting. Also cable network operators offer their subscribers an interface called program selector which is capable of receiving all the frequencies of the network by restoring the TV signal, either on a radio frequency channel of a broadcasting band, or in video baseband. and audio frequency for the SCART socket. This complexity brought down to the subscriber level partly compensates for the advantage of the lower cost of the cable network proper, compared to the above-described hierarchical structure 862 MHZ broadband networks which distribute the signals. predominantly in the standardized broadcasting bands, therefore without interface for the television.

This disadvantage of homogeneous 450 or 550 MHz networks disappears when the fleet of TV receivers is adapted to the cable, by being equipped for the reception of signals outside the broadcasting band, as is the case in
France for the range of 120 to 300 MHz.

 In addition to this complexity of wiring structures, there is today the complexity of transmission standards; in addition to the SECAM or PAL composite coding, the MAC family codings have been added. This new standard is used on direct broadcasting satellites such as TDFl or TVSAT2 where the transmission is done in frequency modulation above 10 000 MHz. In individual reception or in the collective antennas described at the beginning of this document, these signals are received without change neither of coding, nor of modulation standard, only after transposition of frequency in the band known as BIS from 950 to 1750 MHz in the outdoor satellite reception unit. This simplicity of processing guarantees the best compatibility and the technical quality offered by coding. In broadband cable networks, whatever the upper frequency limit, 450, 550 or 862 MHz, signals including the original coding is of the MAC family are distributed after modulation conversion; indeed, from the original frequency modulation, we pass to the classic reduced sideband amplitude modulation (MABLR) which requires a smaller channel width. Therefore, in the frequency band of the network, a large number of TV channels can be transmitted.

The counterpart is that this new standard for signal modulation in MAC coding is practically incompatible at present with individual reception, because a new interface is necessary to demodulate the MABLR then to decode the MAC coding. This new interface is specific to the cable network. . It should be added that the transmission of digital signals, part D2 or D of the D2.MAC and D.MAC codings, in amplitude modulation, is very sensitive to certain transmission faults such as the numerous short echoes due to the mismatches of the active equipment. and cable network liabilities; it can also be assumed that future high-definition TV signals on cable networks will be even more sensitive to these transmission faults in cable networks, especially due to the planned use of amplitude modulation. reduced sideband frequency modulation (FM-VSB) proposed by the
United Kingdom avoids the defects of amplitude modulation, while remaining within a reasonable channel width, this after a complex signal processing and at the price once again of a specific cable network receiver. Also, in some European countries, Italy or the United Kingdom, it has been proposed to keep the frequency modulation of these satellite channels and to place them between the broadcasting bands for example in the range 300-470 MHz.

These solutions are however restrictive because the number of channels thus available is low and often adapted only to the channels of the national satellite, while imposing frequency bands different from those of individual reception, which maintains the need for a wired network interface complex.

The invention aims to remedy these drawbacks, and in particular to create an installation which, by implementing differently from the prior art the multiplex from 120 to 862 MHz, allows
- the use of standard products designed to work up to 860 MHZ developed for conventional cable networks using this upper limit frequency,
- compatibility with most of the fleet of TV receivers for MABLR signals in PAL or SECAM composite coding,
- compatibility with individual reception satellite receivers intended for frequency modulation reception,
- a favorable energy balance,
- optimal operating conditions for amplifiers,
- a simple cabling structure which exploits the tree structure, without irreversible degradation of the digital signals of the time multiplexes of the MAC codings,
- perfect compatibility with signals
MAC, D2, D and the future HD.MAC of high definition TV,
- maintaining the distribution capacities of signals other than TV, such as sound broadcasting in FM between 87.5 and 108 MHz, or interactive digital and bidirectional signals between 10 and 30 MHz for the uplink from the subscriber's and between 50 and 87.5 MHZ for the downlink, allowing for example the transmission of an alarm from a user to a central unit,
- an evolution of the capacity in distributed programs.

 To this end, the invention relates to an installation for distributing a plurality of broadcasting programs, in particular television programs, of the type comprising a head station connected to sources for receiving program signals in the range from 5 MHz to 1,750 MHz, a multiplicity of reception stations for broadcasting programs, and a cable network connected to the head station and to the reception stations for transmitting to the latter the signals from the first, an installation characterized in that the broadcasting station head comprises at least two substations, the respective inputs of which are connected one to sources of program signals in a frequency range substantially from 5 to 950 MHz and the other to sources of program signals in a range of frequencies at least equal to approximately 950 MHz, to create from said program signals respectively multiplexed signals between 120 and 300 MHz in mod amplitude ulation and multiplexed signals between 300 and 900 MHz in frequency modulation, a general multiplexer having two inputs connected respectively to two respective outputs of the two substations to receive said multiplexed signals and providing at its own output multiplexed signals in the range from 120 to 300 MHZ in amplitude modulation and from 300 to 900 MHZ in frequency modulation, the wired network has a tree structure and is provided with at least one coaxial cable into which amplifiers and passive accessories for the connection of reception stations, and the reception stations each comprise a television-program selector-converter assembly connected to a respective passive accessory to receive said signals from 120 to 300 MHz, and a group of channels converter and a satellite receiver cascaded between said passive accessory and the television to receive said passive accessory said signals from 300 to 900 MHz and transmit them to the television.

The resolution of the problems and the obtaining of the advantages listed above are obtained by virtue of these characteristics, and in particular
- compatibility with most of the TV receiver fleet for MABLR signals in PAL or SECAM composite coding is effective for the 120-300 MHz band, a simple interface allowing compatibility with all TV receivers,
- compatibility with satellite receivers for individual reception intended for frequency modulation reception in the band from 950 to 1,750 MHZ is also enabled by the implementation of a simple interface, translating the channels of the band from 300 to 900 MHZ to that of 950 to 1,750 MHZ (BIS),
- the energy balance is very favorable thanks to the implementation of frequency modulation for the highest frequencies, the higher losses at these frequencies being compensated by the lower level necessary for the input of the receiver of the user due to frequency modulation,
- the operating conditions are optimal for the amplifiers, due to the different nature of the modulation of the two groups of channels (AM and FM), which limits the accumulation of faults due to the non-linearities of the active modules of the amplifiers (beat between the frequencies of the channels and their harmonics, giving results accumulating at determined frequencies),
- the wiring structure makes the most of the tree structure, with cascades of passive accessories in series with distribution amplifiers, and this without irreversible degradation of the signals,
- the capacity is scalable thanks on the one hand to the reduction of the spacing between the MABLR channels placed between 120 and 300 MHZ (a spacing of 8 MHz makes it possible to distribute 22 channels), and on the other hand to the reduction of l spacing and adjustment of the definition for frequency modulation, for frequency modulation channels between 300 and 862 MHZ (it is possible to distribute more than 25 channels).

These characteristics and advantages of the invention, as well as others, will emerge more clearly from the description which follows of a preferred embodiment given by way of preferred example and represented in the attached drawings in which
FIG. 1 is a block diagram of the head station of an installation according to the invention,
FIG. 2 is a block diagram showing the structure of the installation's cable network, the head station of which is shown in FIG. 1,
- Figure 3 is a block diagram of the part of the installation which is located at the user.

 The installation according to the invention essentially consists of a head station 1, a cable network 2 with a tree structure, and a plurality of reception stations 3 connected to the head station 1 by the terminations of the branches of the tree structure.

 The head station 1 comprises two substations 11, 12 specialized from the point of view of the origin and of the coding of the programs which they are intended to distribute, and a general multiplexer 13.

 The first substation 11 groups the processing devices for the composite coded signals, while the second substation 12 intersects the processing devices for the coded signals of the MAC family.

More particularly, the composite coding signal processing station 11 is provided
- a group of 111 amplitude modulators whose inputs are connected to means of connection to a source installation of audio frequency and video frequency baseband signals (around 6 MHz) to receive the signals locally available in this band basic,
- of a group of radio frequency processing channels 112 comprising frequency converters for transposing between 120 and 300 MHz the signals arriving from terrestrial transmitters and the input of which is connected to means of connection to one or more antenna (s) adapted to the frequencies of the programs to be received,
- a group of modulation converters 113 to transform the frequency modulation of signals received from satellites into amplitude modulation, more suited to TV receivers if the original coding is PAL or SECAM, and whose input is connected to means of connection to one or more antenna (s) for satellite, corresponding here to 15 programs in total, and
a multiplexer 114 having on the one hand inputs connected respectively to the outputs of the group of amplitude modulators 111, of the group of radio frequency processing channels 112 and of the group of modulation converters 113, and on the other hand a single output for transmitting the multiplexed signals in an arrangement here of 15 channels in reduced band amplitude modulation (MABLR) between 120 and 300 MHz with a spacing here of 12 MHZ in PAL or SECAM composite coding, connected to means of connection to a first input of the general multiplexer 13.

Substation 12 is provided
- a group of amplifiers 121 and a group of frequency converters 122 whose respective inputs are connected to means for connection to one or more antenna (s) for satellite receiving signals modulated in frequency in the range of 10,700 to 12,750 MHz and fitted with a converter (s) to transpose them into the BIS range from 950 to 1,750 MHz,
a multiplexer 123 having inputs connected respectively to the outputs of the group of amplifiers 121 and of the group of frequency converters 122, in order to arrange the 15 other programs here retained in an arrangement (multiplex) of frequencies of 15 adjacent channels modulated in frequency spaced here from 38.36 MHz and occupying a frequency band of total width 575.4 MHz also located between 950 and 1750 MHz and transmit them on its single output, and
a channel group frequency converter 124, the input of which is connected to the output of the multiplexer 123 and the output of which is connected to means for connection to a second input of the general multiplexer 13. Thus, the 15 channels , of which, at the output of the multiplexer 123 of the substation 12 for the MAC coded signals, the center or quiescent frequency is of the form 977.48 + 38.36 n (in MHZ), n being an integer between 0 and 40, are arranged (always in frequency modulated) by the channel group converter 124, after this, between 300 and 900 MHz, by means of a beat with a local transposition oscillator whose the frequency is higher than that of the 15 channels to be converted (supradyne conversion). The channel group converter 124 can be deleted if the frequency converters of group 122 carry out, for each program selected, the direct conversion on the allocated channel between 300 and 900 MHz.

 The general multiplexer 13 which is used for multiplexing the 2 x 15 signals of the outputs of the substations 11, 12, into 30 signals on its single output, may include amplifiers to adjust the general output level to the needs of the network located downstream.

 The substation 11 also includes devices for processing signals other than TV signals, for example interactive digital signals and frequency modulation sound broadcasting signals, which are typically arranged between 5 or 10 and 108 MHz, from even that the entire head station naturally includes ancillary but nevertheless necessary devices such as power supplies, reference signal generators, etc. conventional in all head stations of cable network installations.

 While the signal processing for frequency modulation programs and the operating conditions are, as we have seen, significantly different from those of the prior art, the general structure of the cable network 2 proper is conventional in that it This is a tree network provided with extension amplifiers in the distribution lines. It comprises a line 21 consisting of a low-loss coaxial cable, amplifiers 22, and the distribution network which terminates at the stations. reception, and constitutes the transport network which carries the downlink signals (that is to say TV, FM audio and interactive outbound) from the head station to all the distribution areas, and if necessary the signals amounts (ie interactive return signals) from users to the headend; this is why all the amplifiers are provided with two amplification channels, namely a descending channel between 50 and 900 MHZ and an ascending channel between 10 and 30 MHZ (represented by two triangles arranged head to tail one in the other).

 More precisely, from the line amplifiers 22 inserted in the line 21 each time that an amplification is necessary, leave respective conductors 23 such as coaxial cables connecting a distribution amplifier 24 to the line amplifier 22, from which share a new coaxial line 25 on which are cascaded the passive accessories 26, derivators and distributors, intended for the supply of signals. On this coaxial line 25, also are amplifiers of extension 27 to re-amplify the signal to each location where necessary; thus, at the output of each extension amplifier 27, a new cascade of passive accessories 26 and extension amplifiers 27 can be connected; thanks to the choice of modulations of TV signals in the codings of the MAC family (D, D2, HD), a cascade in a coaxial line 25 of the distribution network can comprise up to two or three extension amplifiers 27 with accessories Passive 26 intercalated. For connection to reception stations, i.e. to devices specific to users, the network also includes coaxial cables 28 coming from the outputs of passive accessories 26, and which penetrate into users (for example in their housing), and user sockets 29 connected to these cables, these sockets 29 conventionally having two outputs, namely one for interactive signals and sound broadcasting in FM between 5 and 108 MHz and one for signals TV above 120 MHz, and constituting the terminations of each branch of the tree structure. The network also includes ancillary equipment such as power supplies and passive accessories not shown.

 The reception stations located at the user's premises naturally include televisions 31 and the devices enabling these televisions to exploit the possibilities of the network and more particularly to listen to and / or view the programs transmitted.

In the event that the television set 31 is not of the interband type, in order to use the programs
TV in PAL or SECAM composite coding in amplitude modulation distributed between 120 and 300 MHz, it is necessary to insert between the user socket 29 and this television set 31, conventional interfaces for cable networks with use of interband, such as a program selector 32 and a converter 33 connected to the scart input of the television; on the other hand, if the television is of the interband type, no particular interface is necessary; the reception station therefore optionally comprises a program selector 32 and a converter 33 inserted between the user socket 29 and the television set 31.

On the other hand, for TV signals in coding of the MAC family in frequency modulation distributed between 300 and 900 MHz, it is necessary to insert between the user socket 29 and the television set 31 if this is provided for reception of broadcasts by satellite, or between the user socket 29 and the input of a satellite receiver 34, the output of which is connected to the SCART input, if the television set 31 is not provided for reception of satellite broadcasts, a converter channel group MF 35; under these conditions, the converter 35 performs the frequency conversion for all the TV channels in MF to the band from 950 to 1,750 MHz, called the satellite intermediate band, and the conventional satellite receiver 34 or television set 31 are capable of processing the converted signals; the converter interface 35 is remotely supplied with DC voltage by the satellite receiver or the television. The processing of signals other than TV (FM tuners, modems for interactive signals) is not described here, not being the subject of the present application.

 By means of this installation, all the signals likely to be received routinely, from 5 MHz for those corresponding to the audio and video signals of the base band received on input terminals, up to more than 12,000 MHz (typically 12,750 MHz) for television signals from satellites, can therefore be transposed between 120 and 900 MHZ (between 120 and 300 MHZ with amplitude modulation, and between 300 and 900 MHZ with frequency modulation), transported up to 'at reception stations, and there retransposed into signals usable by most of the televisions currently available.

 Of course, the invention is not limited to the form and to the embodiment described and represented above, and other forms and other modes can be provided without departing from its scope.

Claims (20)

 1 - Installation for distributing a plurality of broadcasting programs, in particular television programs, of the type comprising a head station (1) connected to sources for receiving program signals therefrom in the range from 5 MHz to 1,750 MHz, a multiplicity of reception stations (3) for broadcasting the programs, and a cable network (2) connected to the head station and to the reception stations for transmitting to the latter the signals originating from the first, installation characterized in that the head station (1) comprises at least two substations (11, 12), the respective inputs of which are connected, one to sources of program signals in a frequency range substantially from 5 to 950 MHz and the other to sources of program signals in a frequency range at least equal to approximately 950 MHz, for creating from said program signals respectively multiplexed signals between 120 and 300 MHz in modulation of amplitude and multiplexed signals between 300 and 900 MHZ in frequency modulation, a general multiplexer (13) having two inputs connected respectively to two respective outputs of the two substations to receive said multiplexed signals and providing at its own output multiplexed signals in the range from 120 to 300 MHz in amplitude modulation and from 300 to 900 MHz in frequency modulation, the cable network (2) has a tree structure and is provided with at least one coaxial cable (21, 25, 28 ) in which are inserted amplifiers (22, 24, 27) and passive accessories (26) for the connection of reception stations (3), and the reception stations (3) each include a television set (31) selector program (32) -converter (33) connected to a respective passive accessory (26) to receive said signals from 120 to 300 MHz, and a group of channels converter (35) and a satellite receiver (34) connected to c climbing between said passive accessory (26) and the television (31) to receive from said passive accessory, said signals from 300 to 900 MHz and transmit them to the television.  2 - Installation according to claim 1, characterized in that the substation (11) whose respective inputs are connected to sources of program signals in a frequency range substantially from 5 to 950 MHz is provided with a group of amplitude modulators (111) whose inputs are connected to means for connection to a source installation of audio and video baseband signals to receive the signals locally available in this baseband.  3 - Installation according to claim 1, characterized in that the substation (11) whose respective inputs are connected to sources of program signals in a frequency range substantially from 5 to 950 MHZ is provided with a group of radio frequency processing channels (112) comprising frequency converters for transposing between 120 and 300 MHZ signals from terrestrial transmitters, and the input of which is connected to means for connection to at least one antenna for terrestrial transmitters.  4 - Installation according to claim 1, characterized in that the substation (11) whose respective inputs are connected to sources of program signals in a frequency range substantially from 5 to 950 MHz is provided with a group of modulation converters (113) for converting the frequency modulation of signals received from satellites into amplitude modulation, the input of which is connected to means for connection to at least one antenna for satellite.  5 - Installation according to claim 1, characterized in that the substation (11) whose respective inputs are connected to sources of program signals in a frequency range substantially from 5 to 950 MHz is provided with a multiplexer ( 114) having a single output for transmitting, from the program signals, multiplex signals in an arrangement of the same number of channels in reduced band amplitude modulation in the range from 120 to 300 MHz with a spacing of 12 MHz, connected to means for connection to an input of the general multiplexer (13).  6 - Installation according to claim 1, characterized in that the substation (12) whose inputs are connected to sources of program signals in a frequency range at least equal to approximately 950 MHz is provided with a group d amplifiers (121), the input of which is connected to means for connection to at least one antenna for satellite receiving signals in the range from 10700 to 12750 MHz and provided with a converter for transposing them into the range from 950 to 1750 MHz.  7 - Installation according to claim 1, characterized in that the substation (12) whose inputs are connected to sources of program signals in a range of frequencies at least equal to approximately 950 MHZ is provided with a group of frequency converters (122), the input of which is connected to means for connection to at least one antenna for satellite receiving signals in the range from 10700 to 12750 MHz and provided with a converter for transposing them into the range from 950 to 1750 MHz.  8 - Installation according to claim 1, characterized in that the substation (12) whose inputs are connected to sources of program signals in a frequency range at least equal to approximately 950 MHZ is provided with a multiplexer ( 123) having a single output for transmitting, from the program signals, multiplexed signals in an arrangement of the same number of channels in the range 950 to 1750 MHz with a spacing of 38.36 MHz.  9 - Installation according to claim 1, characterized in that the substation (12) whose inputs are connected to sources of program signals in a frequency range at least equal to approximately 950 MHZ is provided with a converter channel group frequencies (124) whose input is connected to the output of a multiplexer (123) and whose output is connected to means for connection to an input of the general multiplexer (13).  10 - Installation according to claim 1, characterized in that it comprises a wired network with a tree structure comprising amplifiers (22, 24, 27) with two channels.  11 - Installation according to claim 1, characterized in that reception stations comprise a television (31) of the interband type, comprising a program selector and a converter for operating television programs in composite coding.  12 - Installation according to claim 1, characterized in that receiving stations comprise a television (31) as well as a program selector (32) and a converter (33) for operating television programs in composite coding.  13 - Installation according to claim 1, characterized in that reception stations comprise a television set (31) for the reception of satellite broadcasts.  14 - Installation according to claim 1, characterized in that receiving stations include a television (31) and a satellite receiver (34) whose output is connected to an input of the television.  15 - Installation according to any one of claims 13 and 14, characterized in that the reception stations comprise a channel group converter (35) for converting the television channels in frequency modulation to the band from 950 to 1750 MHz .  16 - Installation according to claim 1, characterized in that the substation (11) connected to sources of program signals in a frequency range substantially from 5 to 950 MHz comprises a multiplexer (114) for multiplexing signals input on approximately 15 channels between approximately 120 and 300 MHz.  17 - Installation according to claim 1, characterized in that the substation (11) connected to sources of program signals in a frequency range substantially from 5 to 950 MHZ comprises a multiplexer (114) for multiplexing signals input on approximately 22 channels between approximately 120 and 300 MHz.  18 - Installation according to claim 1, characterized in that the substation (11) connected to sources of program signals in a frequency range substantially from 5 to 950 MHZ comprises a multiplexer (114) for multiplexing signals input with approximately 8 MHz spacing.  19 - Installation according to claim 1, characterized in that the substation (12) connected to sources of program signals in a frequency range at least equal to approximately 950 MHZ comprises a multiplexer (123) for multiplexing signals of 'input on about 15 channels.  20 - Installation according to claim 1, characterized in that the substation (12) connected to sources of program signals in a frequency range at least equal to approximately 950 MHZ comprises a multiplexer (123) for multiplexing signals of input on about 25 channels.