KR100821116B1 - Digital optical repeater - Google Patents

Abstract

The present invention relates to a digital optical repeater applied to a mobile communication system. According to the present invention, a power amplifier, a digital delay unit, and a controller for power amplifying an RF signal output in a terminal side direction are modularized, and through the control unit. Disclosed is a technique for reducing assembly cost while improving assembly performance by allowing the entire remote to be controlled.

Optical Repeater, Digital Repeater, Delay, Remote, Remote Station

Description

Digital Optical Repeater Remote {DIGITAL OPTICAL REPEATER}

1 is a conceptual diagram of a signal relay system to which a digital optical repeater is applied according to an embodiment of the present invention.

2 is a block diagram of a digital optical repeater according to an embodiment of the present invention applied to FIG.

* Description of the symbols for the main parts of the drawings *

220: remote

221: digital optical converter

222 power amplification module

21: digital delay unit

21a: A / D conversion element

21b: Digital Delay

21c: D / A conversion element

22: signal up converter

23: power amplifier

24: strength detection unit

25: control unit

The present invention relates to a digital optical repeater.

In general, a mobile communication system installs a repeater to solve communication problems in a radio-shading area. The repeater includes a donor connected to a base station and a remote connected to a terminal. Are connected by mutual cables. In this case, when the cable connecting the donor and the remote is an optical cable, it is called an optical repeater. When the signal exchanged through the optical cable is an analog type, it is called an analog optical repeater, and when it is a digital type, it is called a digital optical repeater, and the present invention relates to a digital optical repeater.

In the above repeater, the donor and the remote are separated by the distance between the base station and the radio shading area, and the difference in the separation distance (the length of the cable) is delayed by the distance corresponding to the separation distance of the signal directly generated between the base station and the terminal. There is a problem, and to solve this problem, a configuration for controlling the delay of the signal is required.

Therefore, in the digital optical repeater, a delay is added to the digital signal from the base station, converted into an analog signal, and output to the terminal side. The analog signal from the terminal side is converted into a digital signal, and then a delay is added to the base station. Doing.

On the other hand, the remote to amplify the power before outputting the RF signal to the terminal side, for this purpose is configured a power amplifier, this power amplifier has a control means for controlling its own switching operation.

However, according to the related art, there is a need for a control means for controlling the operation of the entire remote and a control means provided in the amplifier itself.

The present invention has been made to solve the above-mentioned problems of the prior art, the unit which allows to perform the delay and the amplifier function together into a single amplification module, the overall operation of the remote through the control means configured in the corresponding amplification module It is an object of the present invention to provide a technique to control the control.

The remote of the digital optical repeater according to the present invention for achieving the above object, converts the input optical signal into a digital signal "output to the terminal side (hereinafter referred to as" downward output ")", digital input A digital optical converter for converting a signal into an optical signal and outputting it in a "donor side direction" (hereinafter referred to as an "upward output"); A power amplification module which processes the digital signal output from the digital optical converter and converts it into an RF signal and then amplifies and outputs the downlink signal; A signal down converter for converting an RF signal from the terminal to an IF signal in an intermediate frequency band and outputting the signal upward; And a switch for selectively connecting a downlink output path of the RF signal output down from the power amplifier module and an uplink output path to the signal down converter by outputting the RF signal from the terminal side upward. It includes, The power amplifier module, After adding a delay to the digital signal output down from the digital optical converter and converts to an IF signal of the intermediate frequency band, which is an analog signal and outputs down, Up output from the signal down converter A digital delay unit which converts the IF signal into a digital signal and then adds a delay and outputs the signal upwardly to the digital optical converter; A signal up converter for converting an IF signal output from the digital delay unit into an RF signal; And a power amplifier configured to amplify the RF signal output downward from the signal up-converter and output the downlink signal to the switch side. Characterized in that it comprises a.

The digital delay unit may include an A / D conversion element for converting an IF signal output upward from the signal down converter into a digital signal; A digital delay outputted to the digital optical converter by adding a delay to the digital signal outputted downward from the digital optical converter and outputting the delayed signal to the digital optical converter by adding a delay to the digital signal input from the A / D conversion device. ; And a D / A converter for converting a digital signal output from the digital delay down to an IF signal in an intermediate frequency band and outputting the digital signal to the signal up-conversion section. It includes a more specific feature to include.

The power amplifier module includes: an intensity sensing unit for sensing the strength of a signal input to the power amplifier in front of the power amplifier; And a controller controlling the switch to connect the downlink output path for a predetermined time when the intensity of the signal sensed by the intensity detector is equal to or greater than a preset value and to connect the uplink output path when the intensity of the signal is less than or equal to a preset value. It is characterized by another comprising a further.

Hereinafter, a preferred embodiment of a digital optical repeater and a signal relay method according to the present invention as described above will be described in more detail with reference to the accompanying drawings.

1 is a conceptual diagram of a signal relay system to which a digital optical repeater 200 according to an embodiment of the present invention is applied.

Referring to FIG. 1, the signal relay system includes a base station 100, a digital optical repeater 200, a terminal 300, and the like.

The base station 100 transmits the digital signal to the digital optical repeater 200 side, and receives the digital signal from the digital optical repeater 200 side.

The digital optical repeater 200 is a donor 210 connected to the base station 100 side, the remote 220 and the optical cable connecting the donor 210 and the remote 220 wirelessly connected to the terminal 300 side ( 230).

The donor 210 has a digital light conversion unit 211, and converts the digital signal from the base station 100 into an optical signal and outputs the optical signal to the optical cable 230, or the optical signal from the optical cable 230 side The signal is converted into a digital signal and outputted to the base station 100.

The remote 220 converts the optical signal coming from the donor 210 through the optical cable 230 into a digital signal, and then controls the delay and then converts the analog signal into an analog signal and outputs it to the "terminal 300 side (hereinafter" down "). Output "), or sequentially convert the RF signal from the terminal 300 into an IF signal and a digital signal, add a delay, and switch to an optical signal again to output toward the" donor 210 "side. (Hereinafter referred to as 'upward output') Fig. 2 shows a detailed block diagram of such a remote 220.

Referring to FIG. 2, the remote 220 includes a digital optical converter 221, a power amplifier module 222, a signal down converter 223, a switch 224, and the like.

The digital optical converter 221 converts the optical signal input from the donor 210 side through the optical cable 230 into a digital signal and outputs the digital signal downward to the power amplification module 222, and sends the power amplification module ( The digital signal input from the side 222 is converted into an optical signal and outputted upward to the donor 210 side.

The power amplification module 222 processes the digital signal output down from the digital optical converter 221 and ultimately converts the RF signal to which the delay is added and then amplifies the output down or comes from the terminal 300 side direction. The IF signal is processed and ultimately converted into a digital signal to which a delay is added, and then output to the digital optical converter 221 by upward output. A detailed description thereof will be described later.

The signal down converter 223 converts an RF signal from the terminal 300 into an IF signal of an intermediate frequency band and outputs the signal to the power amplification module 222.

The switch 224 outputs the downlink output path of the RF signal output down from the power amplifier module 222 and the uplink output signal to the signal down converter 223 by outputting the RF signal from the terminal 300 side up. Selectively connect paths.

Meanwhile, the power amplification module 222 includes a digital delay unit 21, a signal up-conversion unit 22, a power amplification unit 23, an intensity detection unit 24, a control unit 25, and the like. .

The digital delay unit 21 is configured to add a delay to a signal transmitted through a repeater path, and includes an A / D conversion element 21a, a digital delay 21b, a D / A conversion element 21c, and the like. It is configured to include.

The A / D conversion element 21a converts the IF signal output upward from the signal down converter 223 into a digital signal.

The digital delay 21b adds a delay to the digital signal output downward from the digital optical converter 221 and outputs the delay downward, or adds a delay to the digital signal input from the A / D conversion element 21a. In addition, by outputting upward, it serves to send to the digital optical converter 221 side.

The D / A converter 21c converts the digital signal output downward from the digital delay 21b into an IF signal of an intermediate frequency band and outputs the digital signal downward to the signal up-conversion unit 22.

The signal up-conversion unit 22 converts the IF signal output downward from the digital delay unit 21 into an RF signal for wireless transmission to the terminal 300 side.

The power amplifier 23 amplifies and outputs the RF signal output downward from the signal up-conversion unit 22 to the switch 224.

The intensity detector 24 senses the strength of the signal input to the power amplifier 23 at one point in front of the power amplifier 23.

The controller 25 controls the respective components of the power amplification module 222 and controls the overall operation of the remote 220. In particular, the switch 224 is controlled to connect the downlink output path for a predetermined time when the intensity of the signal sensed by the intensity detector 24 is greater than or equal to a preset value, and to connect the uplink output path if the signal is less than or equal to the preset value. do.

Referring to the operation method of the remote 220 is configured as described above are as follows.

First, when the signal from the donor 210 describes the downlink output path of the signal output to the terminal 300 side, the optical signal from the donor 210 is converted into a digital signal in the digital optical converter 221 to the power amplifier module ( 222, the power amplification module 222 processes a signal from the digital optical converter 221, and finally outputs an amplified RF signal to the terminal 300 through the switch 224 after a delay is added. Let's do it.

In more detail, the operation of the power amplification module 222 in the downlink output path, a delay required for the digital signal from the digital optical converter 221 is added by the digital delay 21b, the digital delay ( The digital signal added with the delay in 21b) is converted into an IF signal of the intermediate frequency band by the D / A conversion element 21c, and then converted into an RF signal for transmission from the signal up-conversion unit 22 to the terminal 300. Is converted. Subsequently, the RF signal converted by the signal up-conversion unit 22 is amplified by the power amplifier 23 and output to the switch 224.

In addition, when the signal from the terminal 300 describes the upward output path of the signal output to the donor 210 side, the RF signal from the terminal 300 side is input to the signal down converter 223 through the switch 224 The RF signal input to the signal down converter 223 is converted into an IF signal of an intermediate frequency band, and then input to the power amplification module 222, and then a digital signal ultimately added to the delay in the power amplification module 222. After processing, the digital light converter 221 converts the light signal into an optical signal and outputs it to the donor 210.

In more detail, the operation of the power amplifier module 222 in the uplink output path, the IF signal input from the signal down converter 223 to the power amplifier module 222 is digital in the A / D conversion element (21a) The digital signal converted into the signal and converted by the A / D conversion element 21a is added to the digital delay 21b and then output to the digital optical converter 221.

On the other hand, the switch 224 selectively connects the down output path or the up output path of the signal by performing the switching operation under the control of the control unit 25, the operation of the intensity detection unit ( When the strength of the signal input to the power amplifier 23 is detected at one point of the front end of the power amplifier 23 at 24, the controller 25 analyzes the strength of the detected signal to obtain synchronization. The controller acquiring the synchronization may control the switch 224 to connect the downlink output path when the signal strength is greater than or equal to a preset value, and if the signal strength is less than or equal to the preset value, the switch ( 224 is controlled to synchronize the upstream output path.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings. However, since the above-described embodiments have only been described with reference to preferred examples of the present invention, the present invention is limited to the above embodiments. It should not be understood that the scope of the present invention is to be understood by the claims and equivalent concepts described below.

As described in detail above, according to the present invention, each component performing the delay and the power amplification functions is modularized into a single power amplification module, and the overall operation of the remote is controlled by using a controller configured in the power amplification module. It is possible to reduce the production cost by minimizing the components while minimizing the components.In particular, it is possible to easily synchronize by analyzing the strength of the signal input to the power amplifier from the control unit configured in the power amplifier module and controlling the switch. Will be.

Claims (3)

delete delete Converts the input optical signal into a digital signal and outputs it "to the terminal side" (hereinafter referred to as "downward output"), and converts the input digital signal into an optical signal and outputs it "to the donor side" (hereinafter "upward output"). Digital light converter; A power amplification module which processes the digital signal output from the digital optical converter and converts it into an RF signal and then amplifies and outputs the downlink signal; A signal down converter for converting an RF signal from the terminal to an IF signal in an intermediate frequency band and outputting the signal upward; And A switch for selectively connecting a downlink output path of the RF signal output down from the power amplifier module and an uplink output path to the signal down converter by outputting an RF signal from the terminal side; Including, The power amplifier module, After adding a delay to the digital signal output down from the digital optical converter, and converts the IF signal of the intermediate frequency band, which is an analog signal, and outputs it down, and converts the IF signal output upstream from the signal down converter into a digital signal A digital delay unit which adds a post-delay and outputs it upward to the digital optical converter; A signal up converter for converting an IF signal output from the digital delay unit into an RF signal; A power amplifier for amplifying and outputting the RF signal output from the signal up-converting part downwardly to the switch side; An intensity sensing unit sensing an intensity of a signal input to the power amplifier at the front end of the power amplifier; And If the intensity of the signal sensed by the intensity detection unit is greater than or equal to a predetermined value, the switch is controlled to connect the down output path for a predetermined time, and to connect the upstream output path if less than a predetermined value, each of the power amplifier module A control unit for controlling the unit; Remote of the digital optical repeater comprising a.

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