NL1015473C2 - Communication system. - Google Patents

Description

COMMUNICATION SYSTEM

The invention relates to a communication system comprising a cable transmission network, as well as at least one subscriber unit, which unit is provided with various high-frequency transmitting and receiving means for bi-directional transmission of data signals, using a modem for modulating the data signals at selected carrier frequencies.

Such a communication system is generally known. In particular, a communication system suitable as a distribution system for, for example, analog or digital data signals, such as radio / television signals or other so-called utility signals, is known, in which such signals are transferred from a distribution unit provided with transmitting means to subscriber units provided with receiving means. .

The signals are transmitted via the cable transmission network, which may, for example, comprise copper, coax or fiber optic cables. Today, the same communication system is also used for bi-directional transmission of data signals, in order to also enable, for example, interactive activities and / or services, whereby subscribers transmit to each other and / or to the distribution unit via the cable transmission network. In such a case, the distribution unit is also provided with receiving means 30 and the then transmitting subscriber unit is also provided with transmitting means. The present invention refers to such a communication system, which therefore relates in particular to several subscriber units, each provided with transmitting and receiving means, for bi-directional transmission of data signals between the subscriber units and / or between the subscriber units. units on the one hand and the distribution unit 1015473 2 on the other.

The known communication system often uses modems that modulate or demodulate data signals on a carrier wave for the purpose of transmitting the data signals between subscriber units and / or between distribution unit and subscriber unit.

With the known communication system various problems can arise, in particular the following: the known communication system uses the frequency range above 30 or 65 MHz for the different data signals sent from the distribution unit, so that these are normally used for radio / television signals used bandwidth is charged extra; the known communication system for the return traffic, ie from subscriber to distribution unit, uses the transmission area below 65 or 30 MHz, but certainly not lower than 15 MHz, in order to avoid potential interference signals, so that exploitation of the cable network does not take place optimally.

The object of the invention is to provide a communication system in which the above-mentioned drawbacks of the prior art are obviated and for this purpose a communication system of the type mentioned in the preamble according to the invention has the special feature that the modem is designed for directional transmission of the data signals in the lower part of the transmission area of the cable transmission network, in particular below 1015473 3 65 MHz, more in particular below 30 MHz, the lower part of the transmission area being preferably divided into sub-transmission areas for receiving 5 data signals to be transmitted, respectively; the cable transmission network contains at least one converter adapted to convert a. a data signal 10 to be received by the modem from a first transmission channel with a bandwidth Δf into n data signals, each with the same bandwidth Af / n in the (sub-pass region for data signals to be received) in the lower portion of the transmission area of the cable transmission network; b. n data signals to be sent by the modems, each with the same bandwidth Δf 'in one data signal with a bandwidth η Δf' in a second transmission channel.

As will be further explained, this greatly increases the capacity in the lower part of the transmission region of the cable transmission network without affecting the upper part thereof.

In a preferred embodiment of a communication system according to the invention, the various transmitting and receiving means of the subscriber unit are connected to one central housing modem connected to the cable transmission network. The present communication system is based on one central modem that is directly connected to the main cable network, so that there is therefore no longer a question of various modems connected to the residential cable network, at least not with its own transmitter. The data signals in 1015473 4 this residential cable network are limited to radio / television signals (ie exclusively distributively transported high-frequency signals), whose signal levels are low enough not to cause immunity and emission problems.

In a further preferred embodiment of a communication system according to the invention, the one central modem comprises means for blocking interference signals present. In this way, interference signals from the home cable network cannot enter the main cable network.

In a further preferred embodiment of a communication system according to the invention, the one (single) central modem is arranged for bi-directional transmission of the data signals in the lower part of the transmission area of the cable transmission network, in particular below 65 MHz, more in particular 20 below 30 MHz.

In a further preferred embodiment of a communication system according to the invention, the one modem comprises switching means, wherein, depending on a switching state of the switching means, bi-directional transmission of the data signals can take place in a preselected transmission region corresponding to the switching position. In particular, the switching means are switchable between a first switching state corresponding to a transmission range below 30 MHz, and a second switching state corresponding to a transmission range below 65 MHz. The present communication system therefore has a high-frequency switching circuit which allows, optionally, to work initially with the conventional limit value (30 MHz) in the transmission area 1015473 5, and later with a new limit value (for example 65 MHz). ) in that area. This switching is preferably done remotely.

In a further preferred embodiment of a communication system according to the invention, the switching means can exchange, within a preselected transmission area, sub-transmission areas for received or transmitted data signals.

By this it is meant that in the present communication system the upper part and the lower part of the transmission area for received (downstream) and transmitted (upstream) data signals can be exchanged, that is, in reverse. After reversal, the downstream is then, for example, defined from 5 to 30 MHz and the upstream from 40 to 65 MHz.

In a further preferred embodiment of a communication system according to the invention, the one central modem comprises an amplifier for amplifying data signals of a certain type sent to the subscriber, whereby the amplifier can be switched off to block the data signals of that particular type. In the present communication system, an amplifier is present which amplifies the high-frequency data signals before supplying them to the residential cable network. This amplifier can be deactivated on command of, for example, a microprocessor located in the system. This blocks all radio / television signals for the residential cable network. All this is preferred if the subscriber unit has to be switched off if it has not paid for a service in question. It is important that the other bi-directional transmission of data signals can continue to take place if desired.

1015473 6

The invention will be further elucidated with reference to a figure shown in a drawing, in which a schematically shown preferred embodiment of a communication system according to the invention is shown.

The figure shows a communication system 1 provided with a fiber optic cable network 7 with transmission channels 7a, 7b, 7c and a cable transmission network 2 with coaxial cables. Data signals or information in the form of high-frequency central antenna radio and television signals are received in a station 3 acting as a distribution unit and sent via subscriber units 4 of the network 2 via its own transmission channel 7a. The signals that are transported over the network 2 via intermediate stations 5 and distribution stations 6 to the subscriber units contain modulated high-frequency carriers. Modulation techniques employed may include analog or digital modulation techniques as required. The communication system 1 is bi-directional in order to serve as a medium in addition to the distribution system in order to route data signals from the subscriber units 4 to the station 3 or other subscriber units 4 which may or may not be located within or outside the district. The station 3 is therefore able to transmit and receive both over the cable and over the air. As stated, the present communication system 1 comprises the glass fiber network 7 with the transmission channels 7a, 7b, 7c conducting electromagnetic light 30 to which district centers 8 are connected. These district centers 8 form, as it were, coupling stations for coupling data signals from network 7 from network 7, or conversely from data signals from subscriber units 35 to network 7. In the district centers 8, the opto-electric converters 11 shown are located which convert the light to the high frequency electric 1015473 7 signals and vice versa. In accordance with the invention, these high-frequency signals are transformed by a converter or converter 9 in each of the district centers 8 into channels on the coaxial cables located in the lower part of the transmission area of the network 2, in particular below 65 MHz, more in especially below 30 MHz. According to the invention, this lower part of the transmission area is divided into two sub-transmission areas: one for data signals to be received by 10 modems 10 from the subscriber units 4 and the other for data signals to be transmitted by the modems 10. The modems 10 located in the subscriber units, i.e. homes 4, are therefore arranged for bi-directional transmission of the 15 data signals in the said lower part of the transmission area of the network 2, wherein - as said - 2 sub-transmission areas in that lower part. can be distinguished for data signals to be received by the modems 10 on the one hand, and 20 data signals to be transmitted thereby on the other. Each converter 9 in the district centers 8 transforms the high-frequency electrical signals transmitted by the modems 10 in the houses into a common transmission channel 7c on its own fiber optic cable of the network 7. The important advantage of the communication system 1 according to the invention is that the capacity in the the lower part of the transmission area is greatly enlarged, without affecting the upper part ie above 80 MHz thereof, as will be further elucidated with reference to the example below.

Example

The converter 9 in each neighborhood center 8 has n gates 35 (n = 1, 2,3 ...), each gate being connected via network 2 to n neighborhoods within the neighborhood center 8, and where a neighborhood is for example 100 è 200 modems 10 1015473 8. Practically speaking, the converter 9 will, for example, have eight gates and thus correspond to eight neighborhoods (i.e. 800 to 1600 modems 10). High-frequency electrical data signals with a 5 bandwidth Δf from the station 3 via its own transmission channel 7b (downstream) are transformed by the converter 9 into n high-frequency electrical signals each with the same bandwidth Δf / n and then to the n neighborhoods within the district center 8 10 sent. In addition, transmission to the modems 10 takes place. In practice, this means, for example with n = 8 and Δf = 200 MHz, that eight high-frequency electrical signals each with a bandwidth of 25 MHz lying in the lower part of the transmission area of the network 2 are sent to the modems 10. Conversely, high-frequency electrical signals from the modems 10 lying in the respective sub-pass region in the lower portion of the network pass region 2, each 20 having a bandwidth Δf ', are transformed by the converter 9 into one high-frequency electric signal with a bandwidth η Δf 'and sent to station 3 via its own transmission channel 7c (upstream).

25

According to the preferred embodiment of the figure, each home 4 (i.e. subscriber unit) in the district contains only one central modem 10 connected directly to the home connection of the network 2, which modulates 30 data signals for transmission and demodulates upon receipt. There is therefore no longer any question of different modems 10 per home 4 locally connected to the home network of the network 2, since the modem 10 forms, as it were, an 'interface' for all 35 possible cable services in one home 4 and thus as a 'residential gateway'. 4 has been carried out for each dwelling.

1015473 9

In particular, the modem 10 includes a provision for blocking all kinds of interference signals from the home network to the network 2. Preferably, the central home modem 10 also includes a switching circuit 5 that provides bi-directional transmission of data signals from a first switching state corresponding to a transmission area below 30 MHz, and from a second switching state corresponding to a transmission range below 65 MHz. This is important, since many current cable networks 2 still operate with a frequency distribution of the transmission area at 30 MHz, while this will be 65 MHz in the future. The modem 10 is therefore usable for both types of networks 2.

Furthermore, the switching circuit in the modem 10 makes it possible, within a preselected transmission area (in particular below 30 or 65 MHz), to exchange the aforementioned sub-transmission areas for data signals to be received or to be transmitted. This has the advantage that, due to the irradiation of natural interference signals, but also the irradiation by foreign electrical appliances, unusable frequencies in the selected transmission area no longer cause problems, because in the present system, if desired, the transmission area below, for example, 15 MHz is used for data transmission in the direction to the modems 10.

Finally, the central modem contains an amplifier for amplifying TV / FM signals sent to a home 4, whereby the amplifier can be switched off to block the data signals of that type. The home 4 can therefore be cut off from TV / FM signals if the subscriber refuses to pay for it. This selective cutting is not possible with conventional communication systems 1, since there is only a shutdown in the so-called multitap 1015473 10, with the result that all services offered are switched off.

1015473

Claims (11)

1. Communication system 1. Communication system comprising a cable transmission network, as well as at least one subscriber unit, which unit is provided with various high-frequency transmitting and receiving means for bi-directional transmission of data signals, using a modem for modulating the data signals at selected carrier frequencies characterized in that the modem is arranged for bi-directional transmission of the data signals in the lower portion of the transmission area of the cable transmission network, in particular below 65 MHz, more in particular below 30 MHz, the lower part of the transmission area is preferably divided into sub-transmission areas for data signals to be received and to be transmitted, respectively; the cable transmission network comprises at least one converter adapted to convert a. a data signal to be received by the modem from a first transmission channel with a bandwidth A f into n data signals each with the same bandwidth Af / n for the sub-pass region to be received data signals in the lower portion of the transmission area of the cable transmission network; b. n by transmitting the modems 35 data signals each with the same bandwidth Af 'in one data signal with a bandwidth η Δ f' in a second 1015473 transmission channel. 2. Coaxial cable transmission work 2. Communication system according to claim 1, wherein the various transmitting and receiving means of the subscriber unit are connected to one central modem connected to the cable transmission network. 3. Distribution unit (also receiving) Communication system according to claim 1 or 2, 10, wherein the one modem contains means for blocking interference signals. 4. House with house network Communication system as claimed in claim 1, 2 or 3, wherein the one modem comprises switching means, wherein, depending on a switching state of the switching means, bi-directional transmission of the data signals can take place in a preselected lower part corresponding to the switching position. the transmission area of the cable transmission network. 5. Intermediate station Communication system according to claim 4, wherein the switching means are switchable between a first switching state corresponding to a bottom part of the transmission area below 30 MHz, and a second switching state corresponding to a lower part of the transmission area below 65 MHz. 6. Distribution station 6. Communication system according to claim 4 or 5, wherein the switching means, within a preselected lower part of the transmission area, can exchange the sub-transmission areas for received or transmitted data signals. 7. Fiber optic transmission network (multiple fibers) Communication system according to claim 5 or 6, 1015473 • · wherein the switching means can be activated remotely. 8. Neighborhood center Communication system according to any one of the preceding claims 1 to 7, wherein the one modem comprises an amplifier for amplifying TV, radio and / or broadcast data signals sent to the subscriber, wherein the amplifier can be switched off to block these 10 signals. 1015473 '. * 9. Converter 10. Central modem in the home 11. Electric / optical transducer 1015473