RU2001103895A - OPTIMIZED SYSTEM FOR THE DISTRIBUTION OF SIGNALS OF TELEVISION AND TELECOMMUNICATION SERVICES FROM THE PERIPHERAL NODE TO THE SUBSCRIBER TERMINALS - Google Patents

Claims (14)

1. An optimized system for distributing signals of television and telecommunication services from a peripheral node to subscriber terminals (10, 11, 12), said television services include terrestrial television broadcasting on radio frequencies, satellite television broadcasting on radio frequencies and television broadcasting channels using hybrid fiber - coaxial network or cable; each of the telecommunication services includes a direct channel for transmitting data and / or speech in the forward direction to the subscriber terminal, and a return channel for transmitting data and / or speech in the opposite direction, from the subscriber terminal; said system also comprises a bi-directional switching station (1) connected to a peripheral node; equipment (7) for bi-directional distribution of signals connected to a switching station (1), and at least one subscriber device (9) connected to said equipment (7), as well as to said subscriber terminals (10, 11, 12); characterized in that the switching station (1) comprises a filter (22), a frequency filtering and transposing unit (30), a logical control unit (54), an adder (48) and a selector (50), said adder (48) and a selector (50 ) connected to equipment (7) for bidirectional distribution of signals; while the signals of the channels of terrestrial television broadcasting are fed to the input of the adder (48); a filter (22) receives signals of said cable television channels and said direct data and / or speech channels, separates signals of direct data and / or speech channels from cable television channels, redistributes signals of direct data and / or speech channels to predetermined frequencies and feeds them to the input of the adder (48), and also feeds the signals of the cable television broadcasting channels to said frequency filtering and transposition unit (30); signals of satellite television broadcasting channels also enter the block (30) of frequency filtering and transposition; the selector (50) is connected to equipment (7) for bi-directional distribution of signals for receiving from this equipment a local sequence of data transmitted in the aforementioned direction, and for supplying it to the logical control unit (54), as well as for receiving signals of reverse data transmission channels and / or speech from said equipment (7) for bi-directional distribution of signals and for supplying them to said peripheral unit; the logical control unit (54) generates control signals intended for feeding frequency filtering and transposing to the block (30), and a local data sequence transmitted in the aforementioned forward direction and intended for feeding to the input of the adder (48); a frequency filtering and transposing unit (30) selects the signals of both cable and satellite television broadcasting channels, performs their frequency redistribution and / or transposition for supplying the adder input (48); an adder (48) combines the input signals and delivers them to equipment (7) for bidirectional distribution of signals; said subscriber unit (9) comprises a demodulator (59), a logic unit (60), a modulator (68) and an adder (69); while the logical unit (60) processes the local data sequence transmitted in the forward direction and leaving the demodulator (59); a modulator (68) modulates the carrier with a local sequence of data transmitted in the opposite direction from said subscriber unit (9); the adder (69) combines the signals of the local sequence of data transmitted in the opposite direction, and the signals of the reverse data and / or speech channels from said subscriber unit (9), and feeds them to the equipment (7) for bi-directional distribution of signals.  2. The system according to claim 1, characterized in that said switching station (1) further comprises a signal filtering unit (18) located on the terrestrial television broadcasting channels located upstream of the adder (48), designed to eliminate all copies of signals having the lowest signal / noise.  3. The system according to claim 1 or 2, characterized in that said television services further include television channels of closed-circuit television systems, which are fed to the input of an adder (48) or frequency filtering and transposing unit (30).  4. A system according to any one of the preceding paragraphs, characterized in that said frequency filtering and transposing unit (30) comprises a converter (31) for converting radio frequencies of a hybrid fiber-coaxial network, a converter (32) for converting radio frequencies of satellite systems, and also a unit ( 47) switching; the converters (31, 32) have N inputs and N outputs, and the switching unit (47) has 2xN inputs and N outputs, while the corresponding output signals of both converters (31, 32) are alternatively selected by the said switching unit (47) and supplied in block (30) of frequency filtering and transposition.  5. The system according to claim 4, characterized in that the said frequency converter (31) of the hybrid fiber-coaxial network contains N filter converters, each of which contains a tuner (33) having a constant passband and a tunable center frequency; mixer (34); local oscillator (35) with tunable center frequency; a band-pass filter (36) having a constant passband and a tunable center frequency; as well as a logical unit (37); while the tuner (33) filters the input signal, the mixer (34), the local oscillator (35) and the bandpass filter (36) convert the frequency of the filtered signal, and the logic unit (37) generates control signals.  6. The system according to claim 4 or 5, characterized in that the said converter (32) of the radio frequencies of satellite systems contains N filter converters, each of which contains a tuner (38) having a constant passband and a tunable central frequency; mixer (39); local oscillator (40) with a tunable frequency; a band-pass filter (41) having a constant passband and a tunable center frequency; as well as a logical unit (42); the tuner (38) filters the mentioned input signal, the mixer (39), the local oscillator (40) and the bandpass filter (41) convert the frequency of the filtered signal, and the logic unit (42) generates control signals.  7. The system according to claim 6, characterized in that each of said N transducers-filters included in the transducer (32) of the radio frequencies of satellite systems further comprises a modulation transducer (43).  8. The system according to claim 4 or 5, characterized in that the said transducer (32) of the radio frequencies of the satellite systems contains N transducers-filters, each of which contains a modulation converter (44) and a logic control unit (45); wherein the modulation converter (44) filters the input signal, and also performs its modulation conversion and frequency transposition.  9. The system according to any one of the preceding paragraphs, characterized in that the said equipment (7) for bi-directional distribution of signals is formed by equipment for centralized distribution of terrestrial television broadcasting channels or equipment for television reception with a collective antenna.  10. The system according to any one of the preceding paragraphs, characterized in that each subscriber unit (9) is connected to one or more telephones (11) and / or to one or more personal computers (12).  11. System according to any one of the preceding paragraphs, characterized in that each subscriber unit (9) is connected to one or more devices (11) or set-top boxes for communication with a pay-TV service provider.  12. The system according to any one of the preceding paragraphs, characterized in that the local data sequences transmitted in the forward and reverse directions are transmitted using digital modulation.  13. The system according to p. 12, characterized in that said digital modulation is a frequency shift keying and / or phase shift keying and / or quadrature amplitude modulation.  14. A system according to claim 12 or 13, characterized in that said subscriber unit (9) further comprises a digital demodulator (59) located in front of the logical unit (60); a frequency multiplexer (63) and a demodulator (64) of a telephone signal for telecommunication services, located in front of the mentioned subscriber terminals (10, 11, 12); a telephone signal modulator (65) for telecommunication services connected to the outputs of subscriber terminals (10, 11, 12); a digital modulator (68), which receives data on the selection of a television channel from at least one subscriber terminal (11), as well as an adder (69) placed after the telephone communication modulator (65) and the digital modulator (68) and connected to its output with the mentioned equipment for bidirectional distribution of signals.