KR100657997B1 - Mobile communication repeater apparatus for using integrated duplex - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a mobile communication relay apparatus using an integrated duplex.

2. The technical problem to be solved by the invention

An object of the present invention is to provide a mobile communication relay apparatus using an integrated duplex for simultaneously serving a mobile communication signal and a GPS, satellite broadcasting, and terrestrial broadcasting signal so as to smoothly transmit and receive between a base station and a mobile communication terminal.

3. Summary of Solution to Invention

The present invention provides a mobile communication relay apparatus using an integrated duplex, comprising: a first integrated duplexer for separating a mobile communication signal, a GPS signal, a satellite broadcast signal, and a terrestrial broadcast signal received through a first integrated antenna; Moving to remove the noise of the mobile communication signal separated by the first integrated duplexer, receive a reverse signal (mobile communication signal) from the second integrated duplexer to remove the noise of the mobile communication signal to transfer to the first integrated duplexer A communication processing unit; A GPS signal processor for low-noise amplifying, filtering, and controlling gains separated from the first integrated duplexer; A satellite broadcast signal processor for low-noise amplifying, filtering, and controlling gain of the satellite broadcast signal separated by the first integrated duplexer; A terrestrial broadcast signal processor for low-noise amplifying, filtering, and controlling gains of the terrestrial broadcast signals separated by the first integrated duplexer; A first amplifier for adjusting the output of the signal processed by the GPS signal processor, the satellite broadcast signal processor, and the terrestrial broadcast signal processor; An isolator for blocking the output signal amplified by the first amplifier from flowing backward; And the second integrated duplexer for radiating a signal output from the mobile communication processor, the GPS signal processor, the satellite broadcast signal processor, and the terrestrial broadcast signal processor to a mobile communication terminal through a second integrated antenna.

4. Important uses of the invention

The present invention is used for a mobile communication relay device.

Integrated, Duplexer, GPS, Satellite, Terrestrial, Noise

Description

Mobile communication repeater apparatus for using integrated duplex             

1 is a block diagram of a relay apparatus showing the use of a duplexer according to the prior art,

2 is a block diagram of a mobile communication relay apparatus using an integrated duplex according to an embodiment of the present invention,

3 is a block diagram of a mobile communication relay apparatus using an integrated duplex according to another embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

20A, 20B: integrated antenna 21: first integrated duplexer

22: mobile communication processor 23: multimedia processing unit

24: second integrated duplexer

The present invention relates to a mobile communication relay apparatus using an integrated duplex, and in particular, a mobile communication signal, a GPS (Global Positioning System) signal, a satellite broadcast signal, and a terrestrial broadcast signal so as to smoothly transmit and receive various data between a base station and a mobile communication terminal. The present invention relates to a mobile communication relay apparatus using an integrated duplex for simultaneously serving.

In the mobile communication system, there is a shaded area where transmission / reception is not performed between the mobile communication terminal and the base station in the underground space of a large building and the inside of a high-rise building, and to solve the problem of the shaded area between the base station and the mobile communication terminal. By separately installing a plurality of repeaters to amplify the signal to ensure a smooth transmission / reception between the base station and the mobile communication terminal. In such a repeater, a signal transmitted from a base station is received, amplified and transmitted to a mobile communication terminal, and on the other hand, a signal transmitted from a mobile communication terminal is received, amplified and transmitted to a base station.

The relay apparatus according to the related art, which will be described later, is a part for processing a forward signal for relaying a signal transmitted from a base station to a mobile terminal, and a part for processing a reverse signal for relaying a signal transmitted from a mobile communication terminal to a base station. Divided, the structure is symmetrical. Hereinafter, the processing for the forward signal will be described, and the processing for the reverse signal can be applied in the same manner as in the case of the forward signal.

1 is a configuration diagram of a relay apparatus using a duplexer according to the prior art, "10A, 10B" is a mobile communication antenna, "101,107" is a duplexer, "102" is a first amplifier, "103,109" is a variable attenuator, " 104 "is a second amplifier," 105 "is a first filter," 106 "is a third amplifier," 108 "is a fourth amplifier," 110 "is a fifth amplifier," 111 "is a second filter," 112 " Denotes sixth amplifiers, respectively.

As shown in FIG. 1, when the forward signal is first processed, when the forward input signal transmitted from the base station is received by the antenna 10A for mobile communication, the dedicated duplexer 10 for transmitting / receiving frequency is transmitted. The signal is classified and transferred to the first amplifier 102.

The first amplifier 102 then amplifies the transmitted signal and attenuates the input signal to an appropriate level with the variable attenuator 103. The signal adjusted to an appropriate level is transferred to the second amplifier 104 and amplified. In the first filter 105, only the desired frequency is passed and unnecessary signals are removed to pass only the mobile communication frequencies (1900 MHz and 800 MHz). Amplified by 106, a signal is radiated to one antenna 10B through a duplexer 107 dedicated to mobile communication.

On the other hand, looking at the processing of the reverse signal, the signal radiated through the mobile communication terminal is received by the mobile communication antenna 10B and amplifies the signal as in the forward direction and radiates to the base station. At this time, the service is provided in the shaded area, which is the non-callable area. That is, a call is possible.

However, since the conventional technology has been applied only to signals for mobile communication, even if the GPS module is embedded in the mobile communication terminal and the satellite and terrestrial broadcast tuner are provided in the future, the underground space of a large building and the inside of a high-rise building, etc. There is a problem that the shadow area is generated, GPS signals and satellite and terrestrial broadcast signals can not be received.

In addition, in order to support GPS, satellite, and terrestrial broadcasting to a mobile communication terminal, a separate repeater needs to be installed according to each service, which causes a large installation cost.

The present invention has been proposed to solve the above problems, using an integrated duplex for simultaneously serving mobile communication signals and GPS, satellite broadcasting and terrestrial broadcasting signals so as to facilitate transmission and reception between the base station and the mobile communication terminal. Its purpose is to provide a mobile communication relay device.

The apparatus of the present invention for achieving the above object is, in the mobile communication relay apparatus using an integrated duplex, a first for separating the mobile communication signal, GPS signal, satellite broadcasting signal, terrestrial broadcasting signal received through the first integrated antenna 1 integrated duplexer; Moving to remove the noise of the mobile communication signal separated by the first integrated duplexer, receive a reverse signal (mobile communication signal) from the second integrated duplexer to remove the noise of the mobile communication signal to transfer to the first integrated duplexer A communication processing unit; A GPS signal processor for low-noise amplifying, filtering, and controlling gains separated from the first integrated duplexer; A satellite broadcast signal processor for low-noise amplifying, filtering, and controlling gain of the satellite broadcast signal separated by the first integrated duplexer; A terrestrial broadcast signal processor for low-noise amplifying, filtering, and controlling gains of the terrestrial broadcast signals separated by the first integrated duplexer; A first amplifier for adjusting the output of the signal processed by the GPS signal processor, the satellite broadcast signal processor, and the terrestrial broadcast signal processor; An isolator for blocking the output signal amplified by the first amplifier from flowing backward; And the second integrated duplexer for radiating a signal output from the mobile communication processor, the GPS signal processor, the satellite broadcast signal processor, and the terrestrial broadcast signal processor to the mobile communication terminal through the second integrated antenna. .

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a mobile communication relay apparatus using an integrated duplex according to an embodiment of the present invention.

As shown in FIG. 2, a mobile communication relay apparatus using an integrated duplex according to an embodiment of the present invention includes integrated antennas 20A and 20B for transmitting and receiving mobile communication signals and multimedia signals, and integrated antenna 20A. Noise of the mobile communication signal separated by the first integrated duplexer 21 and the first integrated duplexer 21 to separate the mobile communication signal and multimedia signals (GPS, satellite broadcasting and terrestrial broadcasting signal) transmitted through A mobile communication processor 22 which receives the reverse signal (mobile communication signal) through the second integrated duplexer 24, removes noise of the mobile communication signal, and transmits the noise to the first integrated duplexer 21; Low noise amplification of the separated multimedia signal through the integrated duplexer 21, and after adjusting the strength of the noise-removed signal through the filtering process, the multimedia for amplifying the gain And a second integrated duplexer 24 for radiating the mobile communication and multimedia signals outputted through the mobile communication processor 22 and the multimedia processor 23 to the mobile communication terminal through the integrated antenna 20B. do.

Here, the mobile communication processor 22 may be configured to determine the amplifier 1 201 for amplifying the mobile communication signal separated through the first integrated duplexer 21 and the strength of the mobile communication signal output through the amplifier 1 201. A variable attenuator 202 for adjustment, an amplifier 2 203 for amplifying the signal adjusted through the variable attenuator 202, and a filter for filtering a desired service signal among signals outputted through the amplifier 2 203 An amplifier 3 205 for amplifying a signal filtered by the first filter 204 and the first filter 204 into a signal enough to be received by the mobile communication terminal, and delivering the signal to a second integrated duplexer 24. An amplifier 4 206 for amplifying the reverse signal received through the second integrated duplexer 24, a variable attenuator 207 for adjusting the intensity of the signal output through the amplifier 4 206, and Amplification for re-amplifying the adjusted signal through the attenuator 207 A second filter 209 for filtering the signal output through the amplifier 5 208, and an amplifier 6 210 for amplifying the filtered signal through the second filter 209. Include.

In addition, the multimedia processing unit 23, the amplifier 7 (211) for low-noise amplifying the GPS and / or satellite broadcasting and / or terrestrial broadcasting signal separated through the first integrated duplexer 21, and the amplifier 7 (211) GPS signal filter 212 for filtering the GPS signal output through the GPS signal gain controller 215 for adjusting the strength of the GPS signal filtered through the GPS signal filter 212, GPS signal gain controller ( 215, an amplifier 8 218 for amplifying the gain of the adjusted signal through the satellite, a satellite broadcast signal filter 213 for filtering the satellite broadcast signal output through the amplifier 7 (211), and a satellite broadcast signal filter ( A satellite signal gain regulator 216 for adjusting the strength of the satellite signal filtered through 213, an amplifier 9 219 for amplifying the gain of the signal adjusted through the satellite signal gain regulator 216; , Output through amplifier 7211 Terrestrial broadcast signal filter 214 for filtering the terrestrial broadcast signal, terrestrial broadcast signal gain adjuster 217 for adjusting the strength of the terrestrial broadcast signal filtered through the terrestrial broadcast signal filter 214, and terrestrial broadcast signal gain Amplifier 10 220 for amplifying the gain of the signal adjusted through controller 217, and GPS and / or satellite and / or terrestrial broadcast output through amplifiers 8, 9 and amplifiers 218-220. An amplifier 11 221 for amplifying the signal to the extent that the mobile communication terminal can receive, and an isolator 222 for blocking each signal outputted through the amplifier 11 (221) from coming in reverse.

In addition, the second integrated duplexer 24 further includes a function of separating a signal received from the second integrated antenna 20B and performing backward processing through the mobile communication processor 22 and the multimedia processor 23.

The multimedia processor 23 may process a portable Internet signal in addition to the multimedia signal described in an embodiment. In the case of processing a bidirectional signal such as a portable Internet signal, the multimedia processing unit 23 may serve as a base station by mounting a reverse processing unit in the same manner as the forward direction.

On the contrary, the reverse signal radiated to the mobile communication terminal may be serviced to the base station in the same manner as the forward direction through the repeater.

3 is a block diagram of a mobile communication relay apparatus using an integrated duplex according to another embodiment of the present invention.

As shown in FIG. 3, a mobile communication relay apparatus using an integrated duplex according to another embodiment of the present invention includes integrated antennas 30A and 30B for transmitting and receiving mobile communication signals and multimedia signals, and integrated antenna 30A. Noise of the mobile communication signal separated by the first integrated duplexer 31 and the first integrated duplexer 31 that separates the mobile communication signal and the multimedia signal (GPS, satellite and terrestrial broadcast signal) transmitted through A mobile communication processor 32 which receives the reverse signal (mobile communication signal) through the second integrated duplexer 34, removes noise of the mobile communication signal, and transmits the noise to the first integrated duplexer 31; Multi-media for low noise amplification of the separated multimedia signal through the integrated duplexer 31, the intensity of the signal from which the noise is removed through the filtering process, and then amplifying and processing the gain And a second integrated duplexer 34 for radiating the mobile communication and multimedia signals outputted through the mobile communication processor 32 and the multimedia processor 33 to the mobile communication terminal through the integrated antenna 30B. do.

In this case, the mobile communication processor 32 may include an amplifier 1 301 for amplifying the mobile communication signal separated through the first integrated duplexer 31 and a strength of the mobile communication signal output through the amplifier 1 301. A variable attenuator 302 for adjustment, an amplifier 2 303 for amplifying the signal adjusted through the variable attenuator 302, and a filter for filtering a desired service signal among signals outputted through the amplifier 2 303 An amplifier 3 (305) for amplifying a signal filtered by the first filter 304 and the first filter 304 into a signal sufficient to be received by the mobile communication terminal, and delivering the signal to the second integrated duplexer 34. And an amplifier 4 306 for amplifying the reverse signal received through the second integrated duplexer 34, a variable attenuator 307 for adjusting the intensity of the signal output through the amplifier 4 306, and Increment to re-amplify the adjusted signal through the attenuator 307 An aeration 5 308, a second filter 309 for filtering the signal output through the amplifier 5 308, and an amplifier 6 310 for amplifying the signal filtered through the second filter 309. Include.

In addition, the multimedia processing unit 33 may include an amplifier 7 311 for low-noise amplifying the GPS signal separated by the first integrated duplexer 31 and a GPS for filtering the GPS signal output through the amplifier 7 311. Amplify the gain of the signal adjusted through the signal filter 314, the GPS signal gain adjuster 317 for adjusting the strength of the GPS signal filtered through the GPS signal filter 314, and the GPS signal gain adjuster 317. Filtering the satellite broadcast signal output through the amplifier 10 (320), the amplifier 8 (312) for low noise amplification of the separated satellite broadcast signal through the first integrated duplexer (31) Through a satellite broadcast signal filter 315, a satellite broadcast signal gain adjuster 318 for adjusting the strength of the satellite broadcast signal filtered through the satellite broadcast signal filter 315, and a satellite broadcast signal gain adjuster 318. Amplifying the gain of the adjusted signal An amplifier 11 321 for the amplifier 13 and an amplifier 13 for amplifying the GPS signal and / or the satellite broadcast signal output through the amplifier 10 and the amplifiers 11, 320 and 321 to a extent that the mobile communication terminal can receive; An amplifier for low-noise amplifying the terrestrial broadcast signal separated by the isolator 1 324 and the first integrated duplexer 31 for blocking the GPS and / or satellite broadcast signal outputted through the 323 from being reversed. 9 (313), terrestrial broadcast signal filter 316 for filtering the terrestrial broadcast signal output through the amplifier 9 (313), and terrestrial broadcast signal filter to adjust the strength of the terrestrial broadcast signal filtered through Terrestrial broadcast signal gain adjuster 319, an amplifier 12 for amplifying the gain of the signal adjusted through the terrestrial broadcast signal gain adjuster 319, and a terrestrial broadcast signal output through the amplifier 12 322. From entering into the station and a second isolator 325 for blocking.

In addition, the second integrated duplexer 34 further includes a function of separating the signal received from the second integrated antenna 30B and performing backward processing through the mobile communication processor 32 and the multimedia processor 33.

On the contrary, the reverse signal radiated to the mobile communication terminal may be serviced to the base station in the same manner as the forward direction through the repeater.

The method of the present invention as described above may be implemented as a program and stored in a computer-readable recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.). Since this process can be easily implemented by those skilled in the art will not be described in more detail.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those of ordinary skill in Esau.

As described above, the present invention can provide a location service to a mobile communication terminal using a GPS signal, and can receive various types of information to the mobile communication terminal using satellite and terrestrial broadcast signals, as well as radio signals. It is effective to enable location and reception of information in weak suburban areas, buildings, and moving vehicles.

In addition, the present invention, if the mandatory installation of GPS reception in the mobile communication terminal and the built-in tuner for satellite broadcasting and terrestrial broadcasting in the future there is an effect that the relay system can be very activated with the explosive demand accordingly.

In addition, the present invention can be integrated service of mobile communication, GPS, satellite broadcasting and terrestrial broadcasting to a mobile communication terminal in one repeater system, the repeater installation cost is reduced, and the environment is beautiful.

Claims (8)

In the mobile communication relay device using an integrated duplex, A first integrated duplexer for separating a mobile communication signal, a GPS signal, a satellite broadcast signal, and a terrestrial broadcast signal received through the first integrated antenna; Moving to remove the noise of the mobile communication signal separated by the first integrated duplexer, receive a reverse signal (mobile communication signal) from the second integrated duplexer to remove the noise of the mobile communication signal to transfer to the first integrated duplexer A communication processing unit; A GPS signal processor for low-noise amplifying, filtering, and controlling gains separated from the first integrated duplexer; A satellite broadcast signal processor for low-noise amplifying, filtering, and controlling gain of the satellite broadcast signal separated by the first integrated duplexer; A terrestrial broadcast signal processor for low-noise amplifying, filtering, and controlling gains of the terrestrial broadcast signals separated by the first integrated duplexer; A first amplifier for adjusting the output of the signal processed by the GPS signal processor, the satellite broadcast signal processor, and the terrestrial broadcast signal processor; An isolator for blocking the output signal amplified by the first amplifier from flowing backward; And The second integrated duplexer for radiating signals output from the mobile communication processor, GPS signal processor, satellite broadcast signal processor, and terrestrial broadcast signal processor to a mobile communication terminal through a second integrated antenna. Mobile communication relay device using an integrated duplex comprising a. The method of claim 1, The GPS signal processing unit, A first low noise amplifier for low noise amplifying the GPS signal separated by the first integrated duplexer; A GPS signal filter for filtering the GPS signal amplified by the first low noise amplifier; A GPS signal gain adjuster for adjusting the strength of the GPS signal filtered by the GPS signal filter; And A first gain amplifier for amplifying the gain of the GPS signal whose intensity is adjusted in the GPS signal gain regulator Mobile communication relay device using an integrated duplex comprising a. The method of claim 1, The satellite broadcast signal processing unit, A second low noise amplifier for low noise amplifying the satellite broadcasting signal separated by the first integrated duplexer; A satellite broadcast signal filter for filtering the satellite broadcast signal amplified by the second low noise amplifier; A satellite broadcast signal gain adjuster for controlling the strength of the satellite broadcast signal filtered by the satellite broadcast signal filter; And A second gain amplifier for amplifying the gain of the satellite broadcast signal whose intensity is adjusted in the satellite signal gain regulator; Mobile communication relay device using an integrated duplex comprising a. The method of claim 1, The terrestrial broadcast signal processing, A third low noise amplifier for low noise amplifying the terrestrial broadcast signal separated by the first integrated duplexer; A terrestrial broadcast signal filter for filtering the terrestrial broadcast signal amplified by the third low noise amplifier; A terrestrial broadcast signal gain adjuster for adjusting the strength of the terrestrial broadcast signal filtered by the terrestrial broadcast signal filter; And A third gain amplifier for amplifying the gain of the terrestrial broadcast signal whose intensity is controlled by the terrestrial broadcast signal gain regulator; Mobile communication relay device using an integrated duplex comprising a. delete delete delete delete

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