CH709225A2 - transfer taking digital data. - Google Patents

Abstract

The present invention relates to a socket (1) for transferring digital data, in particular television data, comprising a coaxial-type input terminal (2) receiving, by cable, digital signals coming from a satellite antenna (10). plus DC conduct and a cable television operator (11), a first terminal (3) and a second terminal (4) for the output or input and output of digital data. The first and second terminals (3, 4) are for cable television, and a third terminal (5) for the digital data input and output and DC line. The third terminal (5) is for satellite television and bidirectional cable networks if required without control voltage. The input terminal (2) is provided with an electronic interface (16) arranged to pass digital signals of a predetermined frequency range or of several distinct frequency ranges depending on the voltage of the DC line.

Description

TECHNICAL FIELD OF THE INVENTION

The present invention relates to a digital data transfer socket, including television data, comprising a coaxial type input terminal receiving a cable of digital signals from a satellite antenna plus DC and DC a cable television operator, a first terminal and a second terminal for digital data output or input and output, the first and second input terminals for cable television, and a third terminal for the input and digital data output and DC driving, the third terminal being for satellite television and bidirectional cable networks if required without control voltage.

STATE OF THE PRIOR ART

Such a decision is described in CH 699157 of the same holder. This socket makes it possible to receive on a single socket both cable television whose signal frequency range was 0 to 860 MHz and satellite television whose signal frequency range is greater than 950 MHz, usually from 950 to 2150 MHz. . In the meantime, cable television operators have extended the frequency range beyond 1000 MHz, including 1006 MHz to include signals used in other proposed services.

The partial superposition of two frequency ranges of these digital signals from two different sources poses a problem that the present invention proposes to solve. There is today on the multimedia market arranged outlets, for example DD-04/65 / S or DD-11E / 65 / S of a range known under the name SUPERMEDIA, to allow an output signal by the first and second 65 to 860 MHz output terminal from cable television and an output signal and input with 0 to 2150 MHz DC channel from satellite television. Other jacks, for example DD-04 / LB / S or DD-11E / LBS, of a range known under the name SUPERMEDIA broadband, are configured to allow the output and return of the first and second terminal a cable television signal in the frequency range 5 to 1006 MHz and the third terminal an input and output signal from the satellite TV plus DC conduct in the frequency range 0 to 2150 MHz.

SUMMARY OF THE INVENTION

The socket according to the invention is characterized in that the input terminal is provided with an electronic interface arranged to pass the digital signals of a predetermined frequency range or several distinct frequency ranges according to the voltage of the DC pipe.

According to one embodiment of the invention, said interface is a relay comprising two input terminals and an output terminal, that the first input terminal of the relay is connected to a satellite antenna and DC conduct and the second input terminal of the relay is connected to a cable television output and said relay is arranged to connect the output terminal to the first input terminal of the relay when the DC line voltage is greater than 10V or the second input terminal of the relay when the voltage of the DC line is equal to 0V.

In a particular case of this embodiment the frequency range of the signal transmitted by the satellite antenna is between 950 and 2150 MHz and the frequency range of the cable television signal is between 0 and 1006 MHz.

According to another embodiment of the invention, said interface comprises two input terminals connected to the satellite antenna and DC driving and the other to the arrival of cable television, the arrival of the The cable television signal is connected to a splitter / splitter allowing either the direct passage of the cable television signal to a relay located before the output terminal of the interface or the passage of the signal of the cable television after filtering to pass that part of the frequency range to a mixing device whose output is connected to said relay, that the relay is configured so that when the DC line voltage is greater than 10 Volts the signal coming out of said interface comes from the device mix and includes two distinct frequency ranges, the lower frequency signal coming from cable TV and the frequency range signal satellite television and when the voltage of the DC line is equal to 0 Volts the outgoing signal is only that of the cable television.

In a particular case of this embodiment the frequency range of the signal transmitted by the satellite antenna is 950 to 2150 MHz and that of the cable television is 0 to 1006 MHz. When the DC line voltage is greater than 10 volts, the frequency range of the signal output from said interface is in the range of 0 to 860 MHz and 950 to 2150 MHz and when the DC line voltage is equal to 0 volts the frequency range of the signal output from said interface is in the range of 0 to 1006 MHz and can reach if necessary at 1050 MHz maximum.

The invention also relates to a television data receiving device comprising a satellite antenna and a cable television input comprising one or more interfaces according to one of the preceding claims, the output of which is connected by as many coaxial cables to the inputs. digital data transfer sockets. This device is useful for multi-dwelling buildings or homes with multiple TV sets.

BRIEF DESCRIPTION OF THE FIGURES

The invention will be described in more detail with the aid of the accompanying drawing showing two alternative embodiments of the invention. <tb> Fig. 1 <SEP> is a schematic view of an installation according to the aforementioned patent CH 699157; <tb> Fig. 2 <SEP> is a view similar to that of FIG. 1 incorporating the modification according to the invention. <tb> Fig. 3 <SEP> is a view of a first embodiment of the interface according to the invention; and <tb> Fig. 4 <SEP> is a view of a second embodiment of the interface according to the invention.

DETAILED DESCRIPTION OF EMBODIMENTS

In FIG. 1 take according to CH 699157 will be briefly described. The socket 1 comprises an input terminal 2 connected to a coaxial cable 12 which receives digital signals from a satellite television antenna 10, in principle in a frequency range from 950 to 2150 MHz, and a cable television network 11 , in principle in a frequency range of 0 to 860 MHz, a first output terminal 3 is intended for the output of a digital signal, for example for radio television etc. A second output terminal 4 supplies a television apparatus 14 with a cable, the signal transmitted being that of cable television in a frequency range of 0 to 860 MHz. Finally, a third output terminal 5 supplies the same television apparatus 14 or another with a cable 15, the signal transmitted being that of the satellite television plus DC conduct in a frequency range of 950 to 2150 MHz or more. So the frequency ranges of two signals intended for television do not overlap and the plug met the requirements of the time.

The fact that the cable television operators announce increasing the frequency range beyond 860 MHz to arrive today, at least in some countries, to a value greater than 1000 MHz has required the search for a solution for users wishing access to both cable and satellite television on the same distribution network.

The invention proposes two distinct solutions whose common point is an interface 16 located between the arrival of two satellite television signals 10 and wired 11 and the coaxial cable 12.

In FIG. 2 we have taken again fig. 1 and inserted the interface 16. This device allows a broadband passage by the elimination of a blocking filter 5 to 65 Mhz present on the terminals 3 and 4, which confers an increased bandwidth of 5 to 1006 Mhz.

The interface 16 of FIG. 3, called SUPERMEDIA LAYER RELAY, has two input terminals 17 and 18 for the signals arriving from the satellite antenna 10 respectively of the cable television 11. The output terminal 19 of the interface 16 is connected by a coaxial cable 12 at the entrance of the socket 1 which is of the type mentioned in the state of the prior art. The interface 16 of FIG. 3 consists of a simple relay R1 whose output is connected to the output terminal 19. When the user turns on the tuner of the satellite television the DC line is at a voltage that usually varies from 10 to 18 volts. In this case, the relay R1 connects to the terminal 17 and the signal that passes is that of the satellite television so in a frequency range above 950 MHz, including 950 to 2150 MHz. When the user triggers the tuner the voltage of the DC line is 0 volts and the relay R1 switches to terminal 18 and the passing signal is that of the cable television is in a frequency range of 0 to 1006 MHz. The solution is simple to implement for a low cost and must satisfy the majority of users.

Some users may wish to have access to cable television at the same time but in a small range and on satellite television. In this case the interface of FIG. 4 allows to meet this expectation.

In this case the interface 16 of FIG. 4, called THE COMBINER V1, includes a mixing device M connected directly to the arrival 17 of the satellite television, in principle in the frequency range 950 to 2150 MHz. The input terminal 18 of the interface 16 is connected to an RD splitter / splitter whose output is connected to the multiplexer M by passing a frequency range from 0 to 860 MHz. The other output of the splitter / splitter RD passing the signal received from the cable television (0-1006 MHz) is connected to a terminal of a relay R2 located before the output terminal 19 of the interface 16 When the tuner the satellite television is triggered the DC line voltage is 0 volts and the R2 relay connects to its lower terminal letting through the output 19 the signal received only from the cable TV in its entire frequency range from 0 to This device can even go up to a frequency of 1050 MHz. When the user switches on the tuner, the voltage of the DC line is of the order of 10 to 18 volts. In this case relay R2 connects to its upper bound. The satellite television signal and the filtered signal from the cable television pass through the mixer M and the frequency range of the signal output from terminal 19 is 0 to 860 MHz (cable television) and 950 to 2150 MHz ( satellite television). Depending on the frequency range the signals will be directed to output terminals 4 or 5 of the socket 1.

It is obvious that for buildings comprising several users or housing several interfaces can be connected in parallel to the signal arrivals of satellite and cable television before reaching the respective socket 1 of these users or housing.

Claims (6)

Digital data transfer socket (1), in particular television data, comprising a coaxial-type input terminal (2) receiving a cable of digital signals from a satellite antenna (10) plus DC conductor and a cable television operator (11), a first terminal (3) and a second terminal (4) for digital data output or input and output, the first and second terminals (3, 4) being for cable television, and a third terminal (5) for the digital data input and output and DC line, the third terminal (5) being for satellite television and two-way cable networks if required without control voltage, characterized in that the input terminal (2) is provided with an electronic interface (16) arranged to allow the digital signals of a predetermined frequency range or of several distinct frequency ranges to pass through. ction of the DC line voltage. 2. Socket according to claim 1, characterized in that said interface (16) is a relay (R1) comprising two input terminals (17, 18) and an output terminal (19), that the first terminal of input (17) of the relay (R1) is connected to a satellite antenna (10) and DC line and the second input terminal (18) of the relay is connected to a cable television input (11) and said relay (R1 ) is arranged to connect the output terminal (19) to the first input terminal (17) of the relay (R1) when the voltage of the DC line is greater than 10V or the second input terminal (18) I of the relay (R1) when the voltage of the DC line is equal to 0V. 3. Socket according to claim 2, characterized in that the frequency range of the signal transmitted by the satellite antenna (10) is between 950 and 2150 MHz and the frequency range of the cable television signal (11) is between 0 and 1006 MHz. 4. Socket according to claim 1, characterized in that said interface (16) comprises two input terminals (17, 18) connected to the satellite antenna (10) and DC line and the other (18) to the arrival of the cable television (11), that the arrival of the cable television signal (1) is connected to a splitter / splitter (RD) allowing either the direct passage of the signal of the cable television to a relay (R2 ) before the output terminal (19) of the interface (16) is the passage of the signal of the cable television after filtering to pass that part of the frequency range to a mixing device (M) whose output is connected to said relay (R2), that the relay (R2,) is configured so that when the DC driving voltage is greater than 10 Volts the signal coming out of said interface comes from the mixing device (M) and comprises two ranges of different frequencies, the signal of the lower frequency range From the cable television and the higher frequency range of the satellite television and when the voltage of the DC line is equal to 0 Volts the outgoing signal is only that of the cable television. 5. Socket according to claim 4, characterized in that the frequency range of the signal transmitted by the satellite antenna is 950 to 2150 MHz and that of the cable television is 0 to 1006 MHz and that when the driving voltage DC is greater than 10 volts the frequency range of the signal output from said interface (16) is in the range of 0 to 860 MHz and from 950 to 2150 MHz and when the DC line voltage is equal to 0 volts the signal frequency outgoing from said interface is in the range of 0 to 1050 MHz. 6. A television data reception device comprising a satellite antenna (10) and a cable TV input (11) comprising one or more interfaces (16) according to one of the preceding claims whose outputs (19) are connected by as many coaxial cables to the digital data transfer sockets (1).