KR100504012B1 - Apparatus for dividing satellite broadcast signal with lnb in multi-channel transmission equipment - Google Patents

Abstract

The present invention relates to a satellite signal distribution device of a satellite transmission device for SMATV, and more particularly to a satellite signal distribution device of a parallel distribution method using a low noise amplifier in TDT equipment for multi-channel satellite signal transmission.

Satellite signal distribution device using a low noise amplifier of the present invention includes a built-in power supply for LNB, for supplying a signal to each channel card of the TDT equipment for demodulating and converting the QPSK signal for multi-channel satellite signal transmission into a QAM signal A satellite signal distribution device comprising: a low noise amplifier for compensating for the distribution loss of a satellite signal received from an LNB, a divider for equally distributing the satellite signals amplified from the low noise amplifier in a parallel distribution manner, and independently outputting the splitters; Technical features include a PCB-type channel card that can be attached and detached without affecting other channel cards during operation of receiving signals independently, and a combiner for synthesizing, amplifying and outputting the compressed QAM signal input from the channel card. have.

Therefore, the satellite signal distribution device using the low noise amplifier of the present invention has an effect that the input signal is supplied to each channel card without attenuation, so that the effect of the signal sensitivity and the weather environment is less than other equipment connected in series. In addition, since the signal is independently connected to each channel card, even if the intermediate channel card is defective, replacement and repair can be performed without affecting other channel cards, thereby providing a more stable service.

Description

Apparatus for dividing satellite broadcast signal with LNB in multi-channel transmission equipment}

The present invention relates to a satellite signal distribution device of a satellite transmission device for satellite master antenna television (SMATV), and more particularly, to a satellite of a parallel distribution method using a low noise amplifier in TDT (Transparent Digital Transmodulator) equipment for multichannel satellite signal transmission. A signal distribution device.

The SMATV method installs a master antenna on the roof of a common building such as an apartment, a large building, a villa, and then transmits it to each home or office through a transmission device such as an amplifier or a divider. You can watch satellite broadcasts.

The SMATV method can be divided into two types, the first of which is a quadrature phase shift keying (QPSK) signal, which is a satellite intermediate frequency (950 ~ 2150MHz) coming down through a low noise blockdown converter (LNB), without any processing. There is an intermediate frequency transmission method. However, in order to use the intermediate frequency transmission method, transmission equipment such as amplifiers and distributors in apartment houses should be upgraded to accommodate 50 ~ 2150MHz, which used the existing 50 ~ 870MHz band.

Second is the TDT method that uses TDT equipment, which converts frequency and modulation schemes so that it can be used without upgrading existing equipment. This TDT method converts the satellite intermediate frequency (950 ~ 2150MHz) into CATV frequency (50 ~ 870MHz) to use the existing network, and converts the satellite into a highly compressed modulation method to transmit more signals in the narrow frequency band. It has the characteristic of transmitting a signal.

1 is a block diagram illustrating a satellite signal distribution apparatus using a conventional loop-through method. As shown in Fig. 1, each channel card 100 is connected in series. Therefore, as the number of channel cards 100 increases by one, the loss is increased by about 1.5 dB, which deteriorates the performance of the overall system, thereby limiting the addition of the channel card, and the reception rate may drop significantly in bad weather conditions such as rain or snow. In addition, there is a problem that affects other channel cards that do not occur when a defect occurs in some of the channel card during system operation and replacement.

The Republic of Korea Utility Model No. 246794 can be easily installed by installing a power supply unit that supplies power to satellite antenna and LNB in a multi-unit house, and can easily install and detach the divider and mixer, so that digital satellite broadcasting signal and MATV & A technology that can separately use an amplifier to amplify the CATV broadcast signal is presented. However, there is a problem in that the satellite signal is independently connected to each card so that even if the intermediate card is defective, replacement and repair cannot be performed without affecting other cards.

Republic of Korea Patent No. 204330 is a card-type satellite broadcasting receiver that can be mounted in a rack that can be easily maintained and prevents degradation of image quality due to interference of adjacent channels and is not limited by the number of broadcasts. Presented. However, the conventional technology as described above has a problem in that it is not possible to supply power to the LNB by itself even if the set top box is not connected.

Therefore, the present invention is to solve the above-mentioned disadvantages and problems of the prior art, the satellite signal is independently connected to each channel card, even if the middle card is defective, the replacement and repair without affecting other cards It is an object of the present invention to provide a satellite signal distribution apparatus using a low noise amplifier in a multi-channel satellite signal transmission equipment that can provide a more stable service.

The above object of the present invention includes a built-in power supply for LNB, satellite signal distribution device for supplying a signal to each channel card of the TDT equipment for demodulating and converting the QPSK signal for multi-channel satellite signal transmission into a QAM signal A low noise amplifier for compensating for the distribution loss of the satellite signal received from the LNB, a divider equally distributing the satellite signals amplified from the low noise amplifier in a parallel distribution method, and independently outputting the split signals; A low noise amplifier is used in a multi-channel satellite signal transmission device composed of a PCB-type channel card that can be attached and detached without affecting other channel cards during operation, and a combiner that synthesizes, amplifies and outputs the compressed QAM signal inputted from the channel card. It is achieved by the satellite signal distribution device used.

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Details of the above object and technical configuration of the present invention and the effects thereof according to the present invention will be more clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

Figure 2 is a block diagram showing a satellite signal distribution apparatus according to the parallel distribution method of the present invention. As shown in FIG. 2, the QPSK signal received from the satellite antenna 200 is converted into an intermediate frequency (IF) band through the LNB 210, and then compensates for the distribution loss through the low noise amplifier 250. . The signals amplified from the LNB 210 and the low noise amplifier 250 are distributed by the divider 220 and transmitted to each channel card 240 in a parallel distribution manner.

3 is an overall configuration diagram of a satellite signal distribution system in a multi-channel satellite signal TDT equipment according to the present invention. As shown in FIG. 3, the satellite joint reception equipment demodulates an IF signal obtained by converting a QPSK signal received from a satellite through the LNB 210 and then remodulates the QAM signal into a QAM signal. A band pass filter (BPF) for passing only the passband frequency components of a desired bandwidth after transmitting to the combiner 230 for synthesizing, amplifying and outputting the compressed QAM signal input from the channel card 240. Through the VHF / UHF signal, which is a terrestrial broadcast signal, it is input to a 2-way combiner.

Signals passing through the 2-Way coupler are transmitted to the set-top box of the subscriber premises through cable lines such as premises amplifiers and premises terminal boxes. The subscriber can watch satellite broadcasting through the TV connected to the set-top box. In addition, the LNB power supply 260 may supply 18V power to the LNB 210 independently of the set top box.

The TDT system solves terrestrial problems in astigmatism areas by applying to shaded areas and large apartments, officetels, buildings, etc., and does not harm the aesthetics of buildings because it does not need to install individual antennas in multi-family houses, residential buildings, and buildings. In addition, since the antenna is not installed in each house, various problems such as antenna fall and antenna direction misalignment can be prevented.

The TDT system can be mounted in a standard 19 "rack, and a main shelf can be equipped with a channel card that demodulates 10 QPSK signals and converts them into QAM signals. It also provides a fan unit that can ensure stability.

4 is a configuration diagram of a front surface of a channel card. The channel card 240 mounted on the main shelf of the TDT system includes a reset switch 300, a status display unit 310, a gain adjustment terminal 320, and a monitoring port 330. The channel card 240 is configured as a PCB (Printed Circuit Board) type card so that even if a defect occurs during operation without affecting other channel cards, it is easy to replace and repair the channel card 240 Do.

The reset switch 300 is a switch for initializing the channel card 240 when an error occurs in the channel card 240, and the status display unit 310 is a LED (Light) whether power supply, satellite signal demodulation, normal modulation, etc. -Emitting Diode), the operator can easily determine the state of the channel card 240. In addition, the gain adjusting terminal 320 adjusts the output level of the IF band by using a variable resistor, and the monitoring port 330 is connected to a laptop, computer, etc. with a communication terminal such as RS232C to monitor the state of the channel card. This is the communication port that enables this.

5 is a flowchart of a satellite signal according to the present invention. The satellite signal flow of the distributor and combiner for supplying the signal to each channel card of the TDT equipment that demodulates the QPSK signal for satellite signal transmission and converts it into a QAM signal is performed as follows.

First, after receiving the QPSK satellite signal from the satellite antenna (S100), and converts the received satellite signal to the IF band through the LNB (S110). In order to compensate for the distribution loss of the received satellite signal, the signal converted into the IF band is amplified (S120) using a low noise amplifier. The amplified signal is distributed in a parallel distribution method and transmitted independently to each channel card (S130). Finally, a synthesized, amplified and output signal (S140) of the compressed QAM signal input from the channel card through the combiner.

Although the present invention has been shown and described with reference to the preferred embodiments as described above, it is not limited to the above embodiments and those skilled in the art without departing from the spirit of the present invention. Various changes and modifications will be possible.

The satellite signal distribution device using the low noise amplifier has less effect on signal sensitivity and weather environment than other equipment connected in series because the input signal is supplied to each channel card without attenuation. In addition, since the signal is independently connected to each channel card, even if the intermediate channel card is defective, replacement and repair can be performed without affecting other channel cards, thereby providing a more stable service.

1 is a block diagram showing a satellite signal distribution apparatus according to a conventional serial connection method.

Figure 2 is a block diagram showing a satellite signal distribution apparatus according to the parallel distribution method of the present invention.

3 is an overall configuration diagram of a satellite signal distribution system in a multi-channel satellite signal TDT equipment according to the present invention.

4 is a configuration diagram of a front surface of a channel card.

5 is a flowchart of a satellite signal according to the present invention.

<Description of the symbols for the main parts of the drawings>

200: satellite antenna 210: LNB

220: divider 230: combiner

240: channel card 250: low noise amplifier

Claims (3)

In the satellite signal distribution device for supplying a signal to each channel card of the TDT equipment including a built-in power supply for the LNB, demodulating the QPSK signal for multi-channel satellite signal transmission to a QAM signal, A low noise amplifier for compensating for the distribution loss of the satellite signal received from the LNB; A divider for equally distributing the satellite signals amplified by the low noise amplifier in a parallel distribution manner and outputting them independently of each other; A channel card of a PCB type that is detachable without affecting other channel cards during operation of receiving the output signals of the distributor independently; And Combiner for synthesizing, amplifying and outputting the compressed QAM signal input from the channel card Satellite signal distribution device using a low noise amplifier, characterized in that configured to include. delete delete