KR200404167Y1 - T-DMB repeating apparatus by using coaxial distribution of TV network - Google Patents

Abstract

      The present invention relates to a repeater of a wireless communication system, and more particularly, to receive terrestrial digital multimedia broadcasting (T-DMB) using a TV coaxial distribution network of a large assembly building such as an apartment complex or a building. The present invention relates to an in-building miniature repeater for digital multimedia broadcasting using a television coaxial distribution network.

      To this end, the present invention, at least one or more antennas capable of receiving a TV signal and a DMB signal at the same time; A head end for amplifying the TV signal and the DMB signal with a predetermined gain; At least one amplifier for compensating attenuation of the TV and DMB signals received from the headend; And a DMB repeater configured to pass and amplify and transmit only the DMB signal among the TV signal and the DMB signal received from the amplifier and transmit it wirelessly.

      With the above-described configuration, the in-building miniature relay device for digital multimedia broadcasting using the television coaxial distribution network according to the present invention transmits a DMB signal received through a common or dedicated antenna using a TV coaxial distribution network and converts it into a free space. Provide a repeater for retransmission.

Description

In-building compact repeater for digital multimedia broadcasting using television coaxial distribution network {T-DMB repeating apparatus by using coaxial distribution of TV network}

      The present invention relates to a repeater of a wireless communication system, and more particularly, to receive terrestrial digital multimedia broadcasting (T-DMB) using a TV coaxial distribution network of a large assembly building such as an apartment complex or a building. The present invention relates to an in-building miniature repeater for digital multimedia broadcasting using a television coaxial distribution network.

      1 is a view showing the configuration of a coaxial distribution network according to the prior art. First, FIG. 1 (a) is a diagram showing a signal distribution structure in a large-scale assembly building such as an apartment complex, and FIG. 1 (b) is a diagram showing a signal distribution structure in a large building such as a building.

      In FIG. 1, a process of transmitting a TV signal to each home is as follows. In FIG. 1A, a TV signal transmitted from a broadcasting station or a satellite is received through the TV antenna 101 or the satellite antenna 102 and amplified to a predetermined gain by the headend 104. The signal amplified at the headend is transmitted to each building of the apartment complex, and the signal is attenuated by the transmission line or the like, and is then sent to each building to compensate for this. Therefore, at least one first amplifier as described above is provided and the number thereof is determined according to the scale of the complex.

      In addition, the process of receiving the TV signal sent to each station in the subscriber's home in FIG. The TV signal sent to each apartment through the first amplifier 105 of FIG. 1 (a) is amplified by the second amplifier 106 of FIG. 1 (b) and branched to each floor, and then supplied to each floor. The signal is input to the third amplifier 107, amplified and then distributed by the number of subscribers in each floor and supplied to each household.

      That is, the first to third amplifiers 105, 106 and 107 respectively amplify a signal that is attenuated in the transmission period, and the first amplifier 105 receives the antennas through the antennas 101 and 102. Amplifies the signal and supplies it to each aggregate 103, the second amplifier 106 amplifies the signal in the aggregate 103 and supplies it to each floor, the third amplifier 107 Amplifies the signal at each layer and supplies it to each subscriber's home.

      Further, when the signal amplified by the second amplifier 106 is branched to each layer and when the signal amplified by the third amplifier 107 is distributed to the subscriber home of each layer, the branching and distributing means is usually a coupler or Dispenser is used.

       However, in the case of a DMB signal other than the above-described TV signal, a shaded area generally occurs in-building. To solve this problem, it is necessary to install a DMB dedicated antenna and leakage cable to install a repeater (signal amplifier) or a light distribution repeater. As described above, when installing a leakage cable or a light dispersion repeater in an apartment complex or building, the generational sealing is required. There are a lot of limitations such as cable installation costs.

      The present invention is designed to receive terrestrial digital multimedia broadcasting (T-DMB) by using a TV coaxial distribution network of a large assembly building such as an apartment complex or a building, in addition to the conventional technology as described above. It is a technical object of the present invention to provide a relay apparatus for transmitting the DMB signal received through an antenna using a TV coaxial distribution network and retransmitting it to free space.

      In order to solve the above technical problem, an in-building miniature relay apparatus for digital multimedia broadcasting using a television coaxial distribution network according to the present invention includes at least one antenna capable of simultaneously receiving or respectively receiving a TV signal and a DMB signal; A head end for amplifying the TV signal and the DMB signal with a predetermined gain; At least one amplifier for compensating attenuation of the TV and DMB signals received from the headend; And a DMB repeater configured to pass and amplify and transmit only the DMB signal among the TV signal and the DMB signal received from the amplifier and transmit it wirelessly.

      Hereinafter, with reference to the accompanying drawings will be described the configuration and operation principle of the in-building miniature relay device for digital multimedia broadcasting using a television coaxial distribution network according to the present invention. In the following description, the same or corresponding members will be denoted by the same reference numerals and detailed description thereof will be omitted.

      2 is a view showing the configuration of a first embodiment of the in-building compact relay for digital multimedia broadcasting using a television coaxial distribution network according to the present invention. A first embodiment according to the present invention is a relay apparatus capable of providing a DMB service using one antenna and a television coaxial distribution network, comprising: a TV antenna 201 for simultaneously receiving a TV signal and a DMB signal in a VHF band; A head end 202 for amplifying the TV signal and the DMB signal received by the TV antenna with a predetermined gain; First and second amplifiers (203, 204) for compensating attenuation of the TV and DMB signals received from the headend; A first divider 205 for branching the TV signal and the DMB signal received from the second amplifier by the required number of paths; A third amplifier (206) for amplifying the TV signal and the DMB signal of each of the divided paths with a predetermined gain; A connection node (207) for connecting the output of the third amplifier with an external device; A second distributor (208) for receiving a signal from the access node and distributing it; A TV receiver (209) connected to the access node or second distributor; And a DMB repeater 210 connected to the second distributor and transmitting only the DMB signal, amplifying and transmitting the DMB signal wirelessly.

      The DMB repeater includes an impedance converter for converting a 75 ohm characteristic impedance of a television coaxial distribution network to a 50 ohm characteristic impedance of a high frequency circuit, a band pass filter for passing only a DMB signal, and amplifying the DMB signal with a predetermined gain. And a dedicated antenna for discharging the DMB signal to free space. Since the general configuration of the DMB repeater as described above is a general one, the embodiment of the present invention is not shown in detail and will be omitted.

       In the first embodiment of the present invention as described above, the TV signal characteristic of the VHF band (174-216 MHz) is horizontal polarization. Terrestrial DMB signals use vertical polarization in the VHF band (channels 8 to 180-186 MHz and 12 channels for 204-210 MHz). Although the two signals have different polarizations but use the same frequency, artificially and natural obstacles unintentionally change the polarization of the signal, resulting in X-polarization, which causes -10dB of radio wave loss. TDMB signal can also be received using an antenna. It can also share AMPs in the VHF band. For reference, (1) terrestrial DMB antennas (180 ~ 210MHz) can also receive TV signals 7, 8, 9, and 11 channels in the VHF band, and (2) unintentionally caused by artificial and natural obstacles. When the polarized wave is not changed and the vertical polarized signal is received by the horizontal polarized antenna (the horizontal polarized signal is received by the vertical polarized antenna), a wave loss of about -30 dB is generated.

      3 is a view showing the configuration of a second embodiment of the in-building compact relay for digital multimedia broadcasting using a television coaxial distribution network according to the present invention. According to a second embodiment of the present invention, there is provided a relay apparatus capable of providing a DMB service using two antennas and a television coaxial distribution network, comprising: a TV antenna 201 for receiving a TV signal in a VHF band; A DMB antenna 201-1 receiving the DMB signal; A synthesizer 211 for combining the TV signal received by the TV antenna and the DMB signal received by the DMB antenna into one path; A head end (202) for amplifying the TV signal and the DMB signal output from the synthesizer with a predetermined gain; First and second amplifiers (203, 204) for compensating attenuation of the TV and DMB signals received from the headend; A first divider 205 for branching the TV signal and the DMB signal received from the second amplifier by the required number of paths; A third amplifier (206) for amplifying the TV signal and the DMB signal of each of the divided paths with a predetermined gain; A connection node (207) for connecting the output of the third amplifier with an external device; A second distributor (208) for receiving a signal from the access node and distributing it; A TV receiver (209) connected to the access node or second distributor; And a DMB repeater 210 connected to the second distributor and transmitting only the DMB signal, amplifying and transmitting the DMB signal wirelessly.

      Also in the second embodiment, since the configuration of the DMB repeater is the same, detailed description is omitted. In addition, the second embodiment of the present invention further includes an antenna that can receive only the DMB signal when the reception level of the DMB signal is too low to share the VHF TV antenna.

      4 is a diagram showing the configuration of a third embodiment of the in-building compact relay for digital multimedia broadcasting using a television coaxial distribution network according to the present invention. According to a third embodiment of the present invention, a relay apparatus capable of providing a DMB service using two antennas and a cable TV coaxial distribution network includes: a TV antenna 201 for receiving a TV signal in a VHF band; A DMB antenna 201-1 receiving the DMB signal; A combiner / divider (212) for combining the TV signal received by the TV antenna and the DMB signal received by the DMB antenna and then distributing the same into two paths; A frequency converter (213) for receiving the TV signal and the DMB signal output from the synthesizer / divider and separating only the DMB signal to convert the frequency; A head end 202 which receives the cable TV signal from the cable TV network and amplifies it with a predetermined gain; A synthesizer 214 for combining the DMB and TV signals received from the frequency converter and the headend into one path; First and second amplifiers (203, 204) for compensating attenuation of the DMB signal and the TV signal received from the synthesizer; A first divider 205 for branching the DMB signal and the TV signal received from the second amplifier by the required number of paths; A third amplifier (206) for amplifying the distributed DMB signal and the TV signal with a predetermined gain; A connection node (207) for connecting the output of the third amplifier with an external device; A second distributor (208) for receiving a signal from the access node and distributing it; A TV receiver (209) connected to the access node or second distributor; And a DMB repeater 210 connected to the second distributor and transmitting only the DMB signal, amplifying and transmitting the DMB signal wirelessly.

      In the third embodiment, since the configuration of the DMB repeater is the same, a detailed description thereof will be omitted, and the third embodiment of the present invention allows a DMB signal to be serviced using an existing cable TV network instead of a TV public hearing network. . The frequency band of the cable TV uses 54 to 750 MHz for the downlink signal from the cable TV broadcasting station to the subscriber, and uses 5 to 42 MHz for the upstream signal for the cable TV broadcasting station from the subscriber.

      As shown in FIG. 4, the VHF TV signal received by the TV antenna 201 is distributed by the synthesizer / distributor 212 and transmitted to the TV network, and the DMB signals are channel 8 (180 to 186 MHz) and channel 12 (204). ~ 210MHz) band is passed through the filter and then converted by the frequency converter 213 to a frequency not used by the cable TV, synthesized with the cable TV signal passed through the headend 202 and transmitted through the cable TV coaxial distribution network.

      As described above, the present invention has been described and illustrated with respect to preferred embodiments, but it is obvious that the present invention is not limited to the above-described embodiments and that various changes and modifications can be made without departing from the technical spirit of the present invention. .

      With the above-described configuration, the in-building miniature relay device for digital multimedia broadcasting using the television coaxial distribution network according to the present invention transmits a DMB signal received through a common or dedicated antenna using a TV coaxial distribution network and converts it into a free space. It has the effect that it is possible to provide a relay device for retransmission.

1 is a view showing the configuration of a coaxial distribution network according to the prior art.

2 is a view showing the configuration of a first embodiment of the in-building compact relay for digital multimedia broadcasting using a television coaxial distribution network according to the present invention;

3 is a view showing the configuration of a second embodiment of the in-building compact relay for digital multimedia broadcasting using a television coaxial distribution network according to the present invention;

4 is a diagram showing the configuration of a third embodiment of the in-building compact relay for digital multimedia broadcasting using a television coaxial distribution network according to the present invention;

※ Explanation of code for main part of drawing

101, 201.TV antenna 102. Satellite antenna

103. Assembly 104, 202. Headend

105, 203. First amplifier 106, 204. Second amplifier

107, 206. Third amplifier 201-1. DMB antenna

205. First distributor 207. Connection node

208. Second distributor 209. TV receiver

210. DMB Repeater 211, 214. Synthesizer

212.Synthesis / Distributor 213. Frequency converter

Claims (4)

In the relay device for receiving a high frequency signal from a communication system or a base station and retransmitting it, At least one antenna capable of simultaneously receiving a TV signal and a DMB signal; A head end for amplifying the TV signal and the DMB signal with a predetermined gain; At least one amplifier for compensating attenuation of the TV and DMB signals received from the headend; And An in-building miniature repeater for a digital multimedia broadcasting using a television coaxial distribution network comprising a; DMB repeater for transmitting and amplifying and wirelessly transmitting only the DMB signal among the TV signal and the DMB signal received from the amplifier. In the relay device for receiving a high frequency signal from a communication system or a base station and retransmitting it, A TV antenna for simultaneously receiving a TV signal and a DMB signal in a VHF band; A head end amplifying the TV signal and the DMB signal received by the TV antenna with a predetermined gain; First and second amplifiers for compensating attenuation of the TV and DMB signals received from the headend; A first divider which branches the TV signal received from the second amplifier and the DMB signal by the required number of paths; A third amplifier for amplifying the TV signal and the DMB signal of each of the divided paths with a predetermined gain; A connection node for connecting the output of the third amplifier with an external device; A second divider which receives a signal from the access node and distributes it; A TV receiver connected to the access node or second distributor; And And a DMB repeater connected to the second distributor and configured to pass, amplify, and wirelessly transmit only a DMB signal, and comprises a television coaxial distribution network. In the relay device for receiving a high frequency signal from a communication system or a base station and retransmitting it, A TV antenna for receiving a TV signal in the VHF band; A DMB antenna for receiving a DMB signal; A synthesizer for combining the TV signal received by the TV antenna and the DMB signal received by the DMB antenna into one path; A head end for amplifying the TV signal and the DMB signal output from the synthesizer with a predetermined gain; First and second amplifiers for compensating attenuation of the TV and DMB signals received from the headend; A first divider which branches the TV signal received from the second amplifier and the DMB signal by the required number of paths; A third amplifier for amplifying the TV signal and the DMB signal of each of the divided paths with a predetermined gain; A connection node for connecting the output of the third amplifier with an external device; A second divider which receives a signal from the access node and distributes it; A TV receiver connected to the access node or second distributor; And And a DMB repeater connected to the second distributor and configured to pass, amplify, and wirelessly transmit only a DMB signal, and comprises a television coaxial distribution network. In the relay device for receiving a high frequency signal from a communication system or a base station and retransmitting it, A TV antenna for receiving a TV signal in the VHF band; A DMB antenna for receiving a DMB signal; A synthesizer / divider that combines the TV signal received by the TV antenna and the DMB signal received by the DMB antenna and then distributes the signal into two paths; A frequency converter receiving the TV signal and the DMB signal output from the synthesizer / divider and separating only the DMB signal to convert a frequency; A head end receiving the cable TV signal from the cable TV network and amplifying the cable TV signal with a predetermined gain; A synthesizer for combining the DMB signal and the TV signal received from the frequency converter and the headend into one path; First and second amplifiers for compensating attenuation of the DMB signal and the TV signal received from the synthesizer; A first divider for branching the DMB signal and the TV signal received from the second amplifier by the required number of paths; A third amplifier for amplifying the DMB signal and the TV signal of each of the divided paths with a predetermined gain; A connection node for connecting the output of the third amplifier with an external device; A second divider which receives a signal from the access node and distributes it; A TV receiver connected to the access node or second distributor; And And a DMB repeater connected to the second distributor and configured to pass, amplify, and wirelessly transmit only a DMB signal, and comprises a television coaxial distribution network.