KR20000028464A - System for distributing satellite broadcasts for households use - Google Patents

Abstract

PURPOSE: A system for distributing satellite broadcasts for households use is provided to prevent a signal distortion caused by noises in processing of distributing/transmitting the satellite broadcasts, and to simplify a circuit design. CONSTITUTION: A system for distributing satellite broadcasts for households use comprises a satellite tuner and many satellite broadcasting receivers. The satellite tuner has one satellite antenna and the satellite broadcasting receivers are connected to the satellite tuner through a cable. The satellite tuner comprises an I/Q satellite broadcasting signal generator, a demodulator(104), and a transmission interface unit(106). The generator converts a Ku-band satellite broadcasting signal received through a satellite antenna into tens of MHz intermediate frequency, and generates satellite broadcasting signals of the modulated I/Q signal. The demodulator demodulates the satellite broadcasting signals to original signals, and generates transport streams of digital. The transmission interface unit interfaces the transport streams in serial with a high speed, and distributing/transmitting to the satellite broadcasting receivers through the cable. Each satellite broadcasting receiver comprises a receiving interface block(202), a tuning performer(204), and a supplier.

Description

Satellite Broadcasting Distribution System for Multiple Households

The present invention relates to a system for distributing satellite broadcast signals received through an antenna. More particularly, the present invention relates to satellite broadcast receivers received through one antenna in multiple households such as apartments and multi-family homes. A multi-home satellite broadcast distribution system suitable for distribution.

In recent years, a satellite broadcasting system that broadcasts broadcasts using satellites includes a broadcasting station that transmits a satellite broadcasting signal, a satellite body that receives the transmitted satellite broadcast signal and propagates it to each receiver, and a satellite broadcast signal that propagates from the satellite body. A plurality of satellite broadcast receivers (aka set-top boxes) each having an antenna is included. In other words, each family must have a satellite antenna and a satellite broadcast receiver in order to watch satellite broadcast signals.

On the other hand, in multiple households such as officetels, apartments, and multi-family homes, the satellite broadcast signals received through one outdoor antenna are distributed to each household using a splitter and an RF cable, rather than a separate satellite antenna for each household. I am using satellite broadcasting distribution system to distribute.

At this time, the satellite broadcast signals distributed to the satellite broadcast receivers of each household through the distributor and the RF cable are analog signals. Therefore, in a distribution system, a circuit for converting a digital satellite broadcast signal into an analog signal must be added, and a circuit for converting an analog signal into a digital signal because the satellite broadcast receiver provided in each household performs digital signal processing. Must be added.

Therefore, when distributing the received satellite broadcasts to multiple households according to the conventional method, a circuit (that is, an A / D conversion circuit and a D / A conversion circuit) has to be added unnecessarily, which is a major obstacle to light weight and low cost. It is becoming.

In addition, the conventional method of distributing an analog broadcast signal using a splitter and an RF cable has various problems such as distortion of the signal and noise in the distribution transmission process. there was.

Accordingly, the present invention is to solve the above-mentioned problems of the prior art, a multi-household satellite broadcast distribution system that can prevent the signal distortion occurring during the distribution transmission to the multi-household and simplify the circuit configuration of the satellite broadcast receiver The purpose is to provide.

In order to achieve the above object, the present invention provides a multi-household for distributing satellite broadcast signals received through the satellite antenna to a plurality of satellite broadcast receivers connected to the satellite tuning means via a cable and a satellite tuning means having one satellite antenna. A satellite broadcasting distribution system, said satellite tuning means comprising: means for converting an old band satellite broadcast signal received through said satellite antenna into an intermediate frequency of several tens of MHz to generate a satellite broadcast signal of modulated I and Q signals; Demodulation means for demodulating the satellite broadcast signal of the modulated I and Q signals into an original signal before modulation to generate a digital transport stream; And transmission interface means for serially transmitting the generated digital transport streams at high speed to distribute the plurality of phase broadcast receivers to the plurality of phase broadcast receivers, wherein each phase broadcast receiver comprises: satellite broadcast received through the cable; Receiving interface means for delivering the transport stream of the signal at high speed to a next satellite broadcast receiver connected via a cable at the same time; Means for decomposing the received transport stream into a video packet stream and an audio packet stream and tuning to extract video packets and audio packets of a selected satellite broadcast channel in response to a tuning control signal from the outside; And means for restoring the encoded video signal and the audio signal of the tuned selective broadcast channel to the original signal before encoding and providing the same to the display side and the speaker side, respectively.

1 is a block diagram of a multi-home satellite broadcasting distribution system according to a preferred embodiment of the present invention.

<Description of the code | symbol about the principal part of drawing>

100: satellite tuner block 102: tuner

104: demodulation block 106, 202/1-212 / n: interface block

200/1-200 / n: satellite broadcast receiver

204/1-214 / n: Demultiplexer

206/1-216 / n: MPEG decoder

208/1-218 / n: NTSC encoder

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a satellite broadcasting distribution system for a multi-family household according to an exemplary embodiment of the present invention. A plurality of satellite broadcast receivers connected in parallel to the satellite tuner block 100 through one satellite tuner block 100 and a cable are shown in FIG. (200/1-200 / n). Here, the satellite tuner block 100 includes a tuner 102, a demodulation block 104 and an interface block 106, and each satellite broadcast receiver is, for example, an interface block 202/1, a demultiplexer 204. / 1), MPEG decoder 206/1 and NTSC encoder 208/1.

Referring to FIG. 1, the tuner 102 converts an 11-12 GHz old band satellite broadcast signal received through an antenna (not shown) into an intermediate frequency of several tens of MHz (for example, 45 MHz), thereby causing I and Q signals. And transmit the generated I and Q signals to demodulation block 104.

In addition, demodulation block 104 demodulates the QPSK modulated satellite broadcast signal (i.e., I and Q signals) into the original signal before modulation to generate a digital transport stream (TS). Passed to block 106. In this case, in the satellite broadcast distribution system of the present invention, the satellite tuner block 100 includes a demodulation block 104 that demodulates a QPSK modulated satellite broadcast signal into a transport stream. Since it is not necessary to provide a demodulator, it is possible to realize a slimmer and lower cost of the satellite broadcast receiver.

Here, the interface block 106 is a first satellite broadcast receiver 200 connected in parallel via a cable by high-speed serial interface of the demodulated digital transport stream (i.e., satellite broadcast signal stream) provided from the demodulation block 104. / 1) to the interface block 202/1, and as the interface block 106, for example, a 1394 interface board that performs a high speed serial interface can be employed.

That is, the interface block 106 in the satellite tuner block 100 is connected to the interface block 202/1 of the first satellite broadcast receiver 200/1 through a cable, and the first satellite broadcast receiver 200/1. A plurality of satellite broadcast receivers are sequentially connected in a form in which an interface block of a second satellite broadcast receiver is connected to the inner interface block 202/1, and the present invention implements a multiple household satellite broadcast distribution system using this connection structure. .

To this end, the interface block employed in the satellite broadcast receiver is configured to transmit intermediate frequency signals (I and Q signals) regardless of whether the satellite broadcast receiver is powered off.

Meanwhile, the interface block 202/1 in the satellite broadcast receiver 200/1 performs substantially the same function as the interface block 106 included in the satellite tuner block 100, and interfaces through a cable. When a transport stream is provided from block 106, it is serially interfaced at high speed to a demultiplexer and at the same time to an interface block in a second satellite broadcast receiver.

In addition, the demultiplexer 204/1 analyzes the transport stream to classify the video packet stream and the audio packet stream, and selects the video packets of the satellite broadcast channel selected based on a tuning control signal provided from a tuning control unit (not shown). Extract audio packets, ie tune the selected broadcast channel, where the video and audio data of the tuned selected broadcast channel is provided to the next MPEG decoder 206/1.

Next, the MPEG decoder 206/1 receives the compressed and encoded audio signal and the video signal of the tuned satellite broadcast channel provided from the demultiplexer 204/1, for example, the spatial and spatial correlation of the video signal. The compressed and decoded video signal is restored to the original signal before encoding by using decoding techniques such as variable length decoding, inverse DCT, inverse quantization, and motion compensation, and the digital satellite broadcast video signal reconstructed here is an NTSC encoder And the reconstructed digital audio signal is provided to an audio signal processor (not shown).

In addition, the NTSC encoder 208/1 converts the digital broadcast video signal of the tuned satellite broadcast channel provided by the MPEG decoder 206/1 described above into an NTSC or PAL analog video signal and then provides it to the display side (not shown). .

As described above, according to the present invention, by transmitting and distributing a digital satellite broadcast signal (ie, a transport stream) to each satellite broadcast receiver of a multi-family using means for performing a serial interface at high speed, It is possible to reliably prevent distortion of image quality due to distortion or noise.

In addition, the A / D conversion circuit and the D / A conversion circuit required in the conventional system for distributing the satellite broadcast signal in an analog form using a splitter and a cable are removed, and the satellite broadcast signal QPSK modulated on the satellite tuner block side is also removed. By demodulating the demodulator into a transport stream and eliminating the demodulator required by each satellite broadcast receiver, it is possible to realize a light and small and low cost of the satellite broadcast receiver.

Claims (1)

A satellite broadcasting distribution system for multiple households which distributes satellite broadcast signals received through the satellite antenna to a plurality of satellite broadcast receivers connected to the satellite tuning means via a cable and a satellite tuning means having one satellite antenna. The satellite tuning means is: Means for converting the old band satellite broadcast signal received through the satellite antenna into an intermediate frequency of several tens of MHz to generate a satellite broadcast signal of modulated I and Q signals; Demodulation means for demodulating the satellite broadcast signal of the modulated I and Q signals into an original signal before modulation to generate a digital transport stream; And A transmission interface means for serially interfacing the generated transport streams at high speed to distribute the transmissions to the plurality of phase broadcast receivers through a cable; Each phase broadcast receiver is: Receiving interface means for transmitting the transport stream of the satellite broadcast signal received through the cable at a high speed to the next satellite broadcast receiver connected via a cable at the same time; Means for decomposing the received transport stream into a video packet stream and an audio packet stream and tuning to extract video packets and audio packets of a selected satellite broadcast channel in response to a tuning control signal from the outside; And And means for restoring the encoded video signal and the audio signal of the tuned selective broadcast channel to the original signal before encoding and providing the same to the display side and the speaker side, respectively.