KR20040067224A - Distribution relay system for in-building - Google Patents

Abstract

PURPOSE: An in-building distribution repeater is provided to enhance speech quality by detecting a loss generated in a line and compensating the line loss. CONSTITUTION: A donor unit(211) receives a signal transmitted through free space, amplifies and outputs it, and generates and outputs a reference signal at a predetermined time. A remote unit(213) connected to the donor unit(211) through a line amplifies a signal outputted from the donor unit(211) and transmits it to a mobile terminal, detects a reference signal from an output of a distributor if the reference signal is generated from the donor unit(211), and compensates a loss generated from the line by controlling a gain in response to the reference signal.

Description

Distribution relay system for in-building

The present invention relates to a distributed repeater for in-building, and more particularly, to a distributed repeater in which a donor device and a remote device are wired to each other.

Recently, as human life becomes more culturally and economically and its range of activities is widened, the necessity and desire for communication while humans are moving has emerged. As we enter the information society, the development of new signal processing technology and the improvement of semiconductor integration technology have lowered the cost of communication economically, and the communication technology and components using the high frequency band with large information capacity have been studied. It provided electricity for the telecom business, which was only wired, to expand into the mobile telecom business. As a result, human life becomes more convenient and the information can be processed quickly.

Since Korea's analog cell phone service was implemented by Korean mobile telecommunications company in 1988, PCS (Personal Communication Service) mobile communication service using Code Division Multiple Acccss (CDMA) method has been provided since 1997. The mobile phone service has seen a sharp increase in the number of users to date, with the number of mobile subscribers reaching 15 million. With the increase in mobile subscribers, terminals are being used anywhere in the country. As a result, communication blind spots began to appear in a building, and a distributed repeater was used as a method for eliminating the communication blind spot.

In order to install a distributed repeater for inbuilding, it is important to understand the line loss connecting the donor device and the remote device, and to minimize the line loss. At this time, in order to minimize the line loss, the line loss is conventionally measured using a signal generator and a spectrum analyzer, and then gains of the donor device and the remote device based on the measured data are obtained. ) Was adjusted. In this way, the cost of purchasing signal generators and spectrum analyzers is high, leading to higher initial costs and higher maintenance costs. In addition, every time the in-built distributed repeater is installed, it is inconvenient to carry a signal generator and a spectrum analyzer.

The present invention has been made to solve the above problems, and an object thereof is to provide a distributed repeater that systematically compensates for line loss.

BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the drawings cited in the detailed description of the invention, a brief description of each drawing is provided.

1 is a view showing a state in which a distributed repeater is installed in a building according to the present invention.

FIG. 2 is a block diagram of the donor device and remote device shown in FIG. 1.

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

211: donor device 213: remote device

221,263: first and second transceivers 223,261: first and second input / output units

231,233,281,283: Amplifiers 241: Switch

251: reference signal generator 253,291: first and second detectors

255: reference signal adjusting unit 293: gain adjusting unit

271,272: damping sections

The present invention to achieve the above technical problem,

A distributed repeater installed in a building, comprising: a donor device for receiving a signal transmitted through a free space, amplifying and outputting the received signal, and generating and outputting a reference signal at a predetermined time; And a line connected to the donor device and amplifying the signal output from the donor device to a mobile communication terminal, and detecting a reference signal at an output of the distributor when a reference signal is generated in the donor device. A distributed repeater having a remote device that compensates for losses generated in the line by adjusting gain in response to the reference signal.

Preferably, a plurality of remote devices are provided, one for each floor in the building.

Preferably, the distributor is provided in plurality and is provided corresponding to the remote device.

Preferably, the donor device includes a first transceiver for receiving a signal transmitted through the free space; A first amplifier for amplifying a signal output from the first transceiver; A reference signal generator for generating a reference signal; A switch for selecting one of the first amplifier and the reference signal generator; And a first input / output unit configured to transmit an output of the switch to the distributor through the line.

Preferably, the donor device further comprises: a first detector for detecting the reference signal at an output of the switch; And a reference signal adjusting unit that adjusts the reference signal generator so that the magnitude of the reference signal is constant in response to the output of the first detector.

Preferably, the remote device further comprises: a second input / output unit for receiving a signal transmitted from the distributor; An attenuation unit for reducing the amplitude of the signal output from the second input / output unit; A second amplifier for amplifying the output of the attenuator; A second transceiver for transmitting the output of the second amplifier to the mobile communication terminal; A second detector detecting the reference signal at an output of the second input / output unit; And a gain adjuster for adjusting the gain by adjusting the attenuation rate of the attenuator in response to the output signal of the second detector.

Preferably, the second detector stores a reference signal output from the reference signal generator, compares the stored reference signal with a reference signal detected at the output of the second input / output unit, and compares the line by the comparison. Calculate and output the loss incurred by.

Preferably, the switch is a high frequency switch for quickly outputting the input high frequency signal.

Preferably, the first and second transceivers each include a duplexer for separating an input signal and a transmission signal.

According to the present invention, the remote device systematically compensates for line loss.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings which illustrate preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

1 is a view showing a state in which a distributed repeater is installed in a building according to the present invention. Referring to FIG. 1, distributed repeaters 111, 121-123, 113A-113C are installed in a building 101 and include donor devices 111, distributors 121-123 and remote devices 113A-113C. .

The donor device 111 receives a signal transmitted through a free space, amplifies and outputs the received signal, and generates and outputs a reference signal at a predetermined time.

The distributors 121 to 123 are connected to the donor device 111 through the line LL1 and distribute the output signal of the donor device 111. The distributors 121 to 123 are installed corresponding to the remote devices 113A to 113C one by one.

Remote devices 113A-113C are connected to distributors 121-123 via line LL1. The remote devices 113A to 113C amplify the signals output from the distributors 113A to 113C and transmit the signals to the mobile communication terminals 131 to 133. When the reference signal is generated in the donor device 111, the distributors The reference signal is detected in the output signals of 113A to 113C, and the gain generated in the line LL1 is compensated for by adjusting the gain in response to the reference signal. Remote devices 113A-113C are installed one for each floor in building 101. One or more remote devices 113A-113C are provided.

FIG. 2 is a block diagram of the donor device and remote device shown in FIG. 1. Referring to FIG. 2, the donor device 211 includes a first transceiver 221, amplifiers 231 and 233, a switch 241, a reference signal generator 251, a first detector 253, and a reference signal adjuster ( 255 and a first input / output unit 223.

The first transceiver 221 receives a signal input through the antenna ANT1, transmits the signal to the amplifier 231, receives a signal from the amplifier 233, and transmits the signal to the antenna ANT1. The first transmitter / receiver 221 includes a duplexer for separating and outputting an input received signal and a transmitted signal.

The amplifier 231 amplifies the power while reducing the noise of the signal output from the first transceiver 221. The amplifier 231 includes a low noise amplifier (LNA) or a high power amplifier.

The reference signal generator 251 generates the reference signal Ref1. The frequency of the reference signal Ref1 uses the center frequency in the band among the link frequencies of the distributed repeater 201. It is preferable to set the magnitude of the reference signal Ref1 to 1 [mW], that is, 0 [dBm].

The switch 241 selects one of the amplifier 231 and the reference signal generator 251. The switch 241 includes a high frequency switch for quickly outputting an input high frequency signal. The donor device 211 may have a microprocessor for generating a signal for controlling the on / off of the switch 241.

The first detector 253 detects the reference signal Ref1 from the signal output from the switch 241.

The reference signal adjuster 255 adjusts the reference signal generator 251 so that the magnitude of the reference signal Ref1 is constant in response to the output of the first detector 253.

The first input / output unit 223 transmits the output signal of the switch 241 to the distributors through the line, and transmits the signal input through the line to the amplifier 233.

The amplifier 233 amplifies the power while reducing the noise of the signal output from the first input / output unit 223. The amplifier 233 includes a low noise amplifier or a high power amplifier.

The donor device 211 may include band pass filters for filtering signals output from the amplifiers 231 and 233.

Referring to FIG. 2, the remote device 213 may include a second input / output unit 261, attenuators 271 and 272, amplifiers 281 and 283, a second detector 291, a gain adjuster 293, and a second transceiver. 263).

The first input / output unit 261 receives a signal transmitted through one of the dividers 121 to 123 of FIG. 1, transmits the signal to the attenuator 271, and receives a signal output from the attenuator 272. Send to one of (113A to 113C). When the distributors 113A to 113C are not used, a signal is directly received or transmitted from the donor device 211.

The attenuator 271 reduces the amplitude of the signal output from the second input / output unit 261 and outputs it.

The amplifier 281 amplifies the power of the signal output from the attenuator 271. The amplifier 281 may include a high power amplifier or a low noise amplifier that greatly amplifies the power of the input signal.

The second detector 291 detects the reference signal Ref2 from the signal output from the second input / output unit 261. The second detector 291 stores the reference signal Ref1 output from the reference signal generator 251, and the reference signal Ref2 detected at the output of the stored reference signal Ref1 and the second input / output unit 261. ), And the loss generated in the track is calculated and output by the comparison.

The gain adjuster 293 compensates for losses occurring in the line by adjusting the attenuation ratios of the attenuators 271 and 272 in response to the output signal of the second detector 291. The gain of the remote device is adjusted as the attenuation rate is adjusted.

The second transceiver 263 transmits the signal output from the amplifier 281 to the mobile communication terminal through the antenna ANT2, receives the signal transmitted from the mobile communication terminal, and transmits the signal to the amplifier 283. do. The second transceiver 263 includes a duplexer that separates an input received signal and a transmitted signal.

The amplifier 283 amplifies the power of the signal output from the second transceiver 263. The amplifier 283 may include a high power amplifier or a low noise amplifier that greatly amplifies the power of the input signal.

The attenuator 272 reduces the amplitude of the signal output from the amplifier 283 and outputs it.

The remote device 213 may include a band pass filter for filtering the signal output from the second input / output unit 261 and a band pass filter for filtering the signal output from the amplifier 283.

When the distributed repeater 201 is installed, the donor device 211 generates the reference signal Ref1 and transmits it through the first input / output unit 223, and the remote device 213 receives the loss generated in the line. Find out. Then, the gain of the remote device 213 is adjusted to adjust the attenuator 271 to maximize the call quality.

The donor device 211 generates the reference signal Ref1 if necessary even during communication, and the remote device 213 adjusts the gain accordingly so that the donor device 211 and the remote device 213 compensate for the line loss at any time. To maintain the system, thereby improving call quality.

The best embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, according to the present invention, the donor device generates and outputs a reference signal, and the remote device receives the reference signal and recognizes the loss occurring in the line to compensate for the line loss, thereby improving call quality. have. In addition, the method of compensating the line loss by systematically compensating the line loss is simple and easy, eliminating the inconvenience of having to carry separate equipment and reducing the maintenance cost.

Claims (9)

In the distributed repeater installed in the building, A donor device configured to receive a signal transmitted through a free space, amplify and output the received signal, and generate and output a reference signal at a predetermined time; And It is connected to the donor device via a line, amplifies the signal output from the donor device and transmits it to the mobile communication terminal, when the reference signal is generated in the donor device detects the reference signal at the output of the distributor, And a remote device for compensating for losses generated in said line by adjusting gain in response to a reference signal. The distributed repeater of claim 1, wherein the remote device is provided in plural and is provided one for each floor in the building. The distributed repeater of claim 2, wherein a plurality of distributors are provided to correspond to the remote apparatus. The donor device of claim 1, wherein A first transceiver for receiving a signal transmitted through the free space; A first amplifier for amplifying a signal output from the first transceiver; A reference signal generator for generating a reference signal; A switch for selecting one of the first amplifier and the reference signal generator; And And a first input / output unit configured to transmit an output of the switch to the distributor through the line. The donor device of claim 4, wherein A first detector detecting the reference signal at an output of the switch; And And a reference signal adjusting unit for adjusting the reference signal generating unit so that the magnitude of the reference signal is constant in response to the output of the first detection unit. The method of claim 1, wherein the remote device A second input / output unit configured to receive a signal transmitted from the distributor; An attenuation unit for reducing the amplitude of the signal output from the second input / output unit; A second amplifier for amplifying the output of the attenuator; A second transceiver for transmitting the output of the second amplifier to the mobile communication terminal; A second detector detecting the reference signal at an output of the second input / output unit; And And a gain adjuster for adjusting the gain by adjusting the attenuation rate of the attenuator in response to an output signal of the second detector. The display apparatus of claim 6, wherein the second detector stores a reference signal output from the reference signal generator, compares the stored reference signal with a reference signal detected at an output of the second input / output unit, and compares the reference signal. Distributed repeater, characterized in that for calculating the loss generated in the line output. The distributed repeater of claim 1, wherein the switch is a high frequency switch for quickly outputting an input high frequency signal. The distributed repeater of claim 1, wherein the first and second transceivers each include a duplexer for separating an input signal and a transmission signal.