KR20040080713A - Broadcasting signal amplification apparatus for satellite broadcasting repeater - Google Patents

Abstract

PURPOSE: A device for amplifying a broadcasting signal in a satellite broadcasting repeater is provided to easily manage and maintain the satellite broadcasting repeater by composing a single power amplifier connected to a plurality of transmission antennas in common. CONSTITUTION: A single power amplifier(34) installed in a housing of a repeater(30) connects to a plurality of transmission antennas(36,38,40) to be capable of dividing power. The single power amplifier amplifies a CDM(Code Division Multiplex) signal from a CDM converter(32), and transmits the amplified CDM signal through a plurality of the transmission antennas. A microprocessor(42) forms a bidirectional communication link with the single power amplifier, and performs a monitoring communication for checking whether the single power amplifier is abnormal.

Description

BROADCASTING SIGNAL AMPLIFICATION APPARATUS FOR SATELLITE BROADCASTING REPEATER}

The present invention relates to an apparatus for amplifying a broadcast signal of a satellite broadcast repeater, and more particularly, to provide a single broadcast signal transmission power amplifier of a repeater for a satellite broadcast system so as to reduce management, maintenance, and installation space. The present invention relates to a broadcast signal amplification apparatus of a repeater.

Recently, the construction of satellite broadcasting systems using satellites such as broadcast satellites and communication satellites has been progressed. Such satellite broadcasting systems receive multimedia broadcast signals transmitted from terrestrial broadcasting centers from satellite broadcasting receivers through satellites. In the case of the satellite broadcasting receiver, it is possible to watch the desired broadcasting program by selectively selecting the allocated broadcasting channel according to the type of specialized broadcasting program such as movie, music, and educational broadcasting. It is supposed to be.

In the satellite broadcasting system, a code division multiplex (hereinafter referred to as CDM) method is adopted as a channel multiplexing method of satellite broadcasting signals. Kuband TDM (14GHz) signal is transmitted to the broadcast satellite, and the broadcast satellite transmits the broadcast signal as a Kuband TDM signal with 12GHz to the ground and S-band CDM signal with 2.6GHz. It converts the data and transmits it directly to the subscriber receiver on the ground.

On the other hand, subscribers located in the shadowed area receive satellite broadcast signals from the broadcast satellite in the shaded area where it is difficult to receive the broadcast signal due to buildings, structures, or terrain, depending on the directing characteristics of the broadcast satellite operating on the orbit of the air. A satellite broadcasting repeater called "Gap Filler" is provided to relay to the side receiver.

The satellite broadcasting repeater receives a Ku-band TDM signal transmitted from a broadcasting satellite through a receiving antenna, and downconverts to a frequency that can be received by a subscriber receiver, that is, a 2.6 GHz CDM signal, and then retransmits it through the transmitting antenna. It is made to be.

Here, in the satellite broadcasting repeater to transmit the CDM signal to the subscriber-side receiving apparatus located in a particular shaded area, a plurality of transmit antennas, each of which is responsible for dividing a radio wave directing area in the corresponding shaded area, are typically provided. The plurality of power amplifiers for power amplifying the CDM signal to be transmitted separately are respectively connected to each other.

That is, FIG. 1 is a diagram illustrating a configuration of a broadcast signal amplifying apparatus in a conventional satellite broadcasting repeater, and the broadcast signal amplifying apparatus according to the drawing shows a specific receiving antenna (not shown) in the satellite broadcasting repeater 10. CDM converter 12 for converting the satellite broadcast signal according to the TDM scheme from the broadcast satellite received through the S-band CDM signal that can be received by the subscriber side is provided.

Outside the satellite broadcasting repeater 10, a plurality of power amplifiers 14, 16 and 18 having the same amplification degree are respectively connected to the CDM converter 12, respectively, and the respective power amplifiers 14 and 16 18, a plurality of transmit antennas 20, 22, and 24 are respectively connected to each other by dividing the shaded area that the satellite broadcast repeater 10 is responsible for into a radio wave directing area.

In the conventional satellite broadcasting repeater configured as described above, the broadcast signal amplifying apparatus includes a satellite broadcasting signal down-converted into a CDM signal by the CDM converter 12 through a plurality of power amplifiers 14, 16 and 18, respectively. The power is amplified so that it can be transmitted to the subscriber receiver through the transmission antennas 20, 22, and 24 correspondingly connected to the respective power amplifiers 14, 16, and 18.

However, since the broadcast signal amplifying apparatus in the conventional satellite broadcasting repeater is composed of a structure in which a power amplifier is individually connected to each of a plurality of transmission antennas, the installation cost increases and the place where each power amplifier is installed is increased. There is a problem that the increase, and the long time is required for the individual maintenance of the power amplifier.

In addition, supervisory communication for checking an abnormality of each power amplifier is necessary in a control means such as a microprocessor in the satellite broadcasting repeater, but since each power amplifier is provided outside the repeater, monitoring with the control means is required. There is a problem in that it is difficult to establish a bidirectional link line for communication.

Accordingly, the present invention has been made to solve the above-described problems, and an object thereof is to provide a single power amplifier for common connection of a plurality of transmission antennas inside a satellite broadcasting repeater for easy management and maintenance. At the same time, to provide a broadcast signal amplification apparatus of a satellite broadcast repeater to reduce the installation space.

1 is a view showing the configuration of a broadcast signal amplifying apparatus in a conventional satellite broadcasting repeater,

2 is a diagram showing the configuration of a broadcast signal amplifying apparatus for a satellite broadcasting repeater according to the present invention.

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

30: satellite repeater, 32: CDM converter,

34: single power amplifier, 36, 38, 40: transmission antenna,

42: Microprocessor.

In order to achieve the above object, according to the present invention, a CDM converter installed inside the enclosure of the repeater to convert the satellite broadcasting signal of the TDM method from the broadcast satellite to the CDM signal, and installed outside the enclosure of the repeater radio wave propagation In the satellite broadcasting repeater having a plurality of transmission antennas installed separately for each of the directing areas, it is installed in the enclosure of the repeater and connected to the plurality of transmission antennas so that power distribution is possible, and power amplifies the CDM signal from the CDM converter A single power amplifier configured to be transmitted through the plurality of transmission antennas, and a microprocessor for forming a bidirectional communication link with the single power amplifier and performing supervisory communication for checking whether there is an abnormality of the corresponding power amplifier. It provides a broadcast signal amplification device of the satellite broadcast repeater.

Hereinafter, the present invention configured as described above will be described in detail with reference to the accompanying drawings.

That is, Figure 2 is a diagram showing the configuration of a broadcast signal amplification apparatus of a satellite broadcasting repeater according to the present invention.

As shown in FIG. 2, the apparatus for amplifying a broadcast signal of a satellite broadcast repeater according to the present invention includes a CDM converter 32, a single power amplifier 34, and a microprocessor 42 in a housing of the satellite broadcast repeater 30. ), And a plurality of transmit antennas (36, 38, 40) is formed outside the repeater (30) connected to the single power amplifier (34).

In the figure, the CDM converter 32 is an S-band CDM signal capable of receiving a satellite broadcasting signal according to a TDM scheme from a broadcasting satellite received through a specific receiving antenna (not shown) at a subscriber receiver. To convert

The single power amplifier 34 is installed inside the enclosure of the satellite broadcast repeater 30 as a single, so as to have a greater power amplification capacity than a plurality of power amplifiers correspondingly connected to a plurality of conventional transmission antennas, respectively. It is designed.

The plurality of transmission antennas 36, 38, and 40 are individually installed to direct the shaded areas of the satellite broadcasting repeater 30 to each of the radio wave directing regions, and each of the single power amplifier 34 and power distribution. Is connected to enable.

In addition, the microprocessor 42 is to form a bidirectional communication link with the single power amplifier 34, and performs the supervisory communication to check the abnormality of the single power amplifier 34, which is the Since it is installed in the same enclosure of the repeater 30 as the single power amplifier 34, the formation of the bidirectional link for supervisory communication can be made relatively easily.

In the broadcast signal amplification apparatus of the satellite broadcasting repeater according to the present invention configured as described above, the satellite broadcasting signal down-converted from the TDM signal to the CDM signal through the CDM converter 32 is connected to a single power amplifier 34. The power is amplified so that it can be transmitted to each of the radio wave directing regions of the shaded area through the plurality of transmission antennas 36, 38, and 40.

In addition, the microprocessor 42 is formed inside the same repeater 30 as the single power amplifier 34, the bi-directional communication link is formed, to check the abnormality of the power amplifier 34 Perform surveillance communication.

On the other hand, the present invention is not limited to the above-described typical preferred embodiments, but can be carried out in various ways without departing from the gist of the present invention, various modifications, alterations, substitutions or additions are common in the art Those who have knowledge will easily understand. If the implementation by such improvement, change, replacement or addition falls within the scope of the appended claims, the technical idea should also be regarded as belonging to the present invention.

As described above, according to the present invention, a single power amplifier is provided inside the enclosure of the satellite broadcasting repeater, and the power amplifier can be connected to a plurality of transmission antennas separately installed for each propagation direction area of the shadow area so as to enable power distribution. Therefore, the installation cost and the installation place can be significantly reduced, and the management and maintenance can be easily performed as compared with a plurality of conventional power amplifiers installed outside the repeater enclosure.

In addition, in the present invention, since a single power amplifier is installed inside the enclosure of the satellite broadcasting repeater, a bidirectional link can be easily formed with a control means for monitoring the abnormality of the power amplifier.

Claims (1)

A CDM converter installed inside the enclosure of the repeater to convert TDM satellite broadcast signals from the broadcast satellites into a CDM signal, and a satellite having a plurality of transmit antennas installed outside the enclosure of the repeater and individually installed for each propagation area of the shaded area. In the broadcast repeater, A single power amplifier installed inside the enclosure of the repeater and connected to the plurality of transmission antennas so as to enable power distribution, and amplifying the CDM signal from the CDM converter to be transmitted through the plurality of transmission antennas; And a bidirectional communication link formed with the single power amplifier, and configured to include a microprocessor for performing supervisory communication for checking whether there is an abnormality of the corresponding power amplifier.