KR100674608B1 - Unification amplification unit and remote - Google Patents

Abstract

The present invention relates to an integrated amplifier unit and a remote of a mobile communication network optical repeater. According to the present invention, an amplifier provided on the communication signal transmission path and to be provided to amplify a communication signal, a photoelectric conversion unit for converting an optical signal into an RF signal, amplifying the signal from the photoelectric conversion unit with a high gain Including a primary amplifying unit and a secondary amplifying unit for amplifying and outputting the signal amplified by the primary amplifying unit with a high power, and configured into a single unit, by simplifying the structure and reducing the production cost, A good and simple installation is provided with an integrated amplifier unit and a technology relating to a remote having the integrated amplifier unit.

Mobile communication network, optical repeater, integrated amplifier unit, remote

Description

Integrated amplifier and remote control of mobile communication network {UNIFICATION AMPLIFICATION UNIT AND REMOTE}

1 is a block diagram of a remote of a conventional mobile communication network optical repeater.

2 is a block diagram of a remote of a mobile communication network optical repeater according to an embodiment of the present invention.

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

150, 250: antenna 201: control unit

205: integrated amplifier unit 210: photoelectric conversion unit

220: primary amplifier 230: secondary amplifier

240: filter 300: donor

310: all-optical converter

The present invention relates to a remote of an integrated amplifier unit and a mobile communication network optical repeater, and more particularly, to an amplifier provided on a transmission path of a communication signal and a remote of a mobile communication network optical repeater having the amplifier.

In general, the amplifier is provided on the transmission path of the communication signal, and serves to amplify and output the input signal.

On the other hand, in the mobile communication network, it is common to construct an optical repeater in a radio shadow area that is difficult to cover in a base station due to economic reasons. The optical repeater includes a donor connected to a base station, a mobile communication terminal located in a corresponding area, and a remote wirelessly connected through an antenna. The donor and the remote are connected via an optical fiber cable. Therefore, the remote is provided with an optical module for converting an optical signal input from the donor into an RF signal (Radio Frequency). In such a remote, the optical signal input from the donor is converted into a general radio frequency (RF) signal, and then amplified appropriately and transferred to a mobile station. Such a service has an advantage of maintaining the quality of the original signal in the optical repeater because it can block the influence of the surrounding by using the base station and the repeater optical fiber.

Looking at the configuration of the remote in the optical repeater as described above in more detail, as shown in Figure 1, after changing the optical signal through the electric signal (E / O: Electric to Optic) 310 of the donor 300 to the optical cable Optic to Electric (O / E) 110 for converting the optical signal input through the electrical signal, that is, RF signal, a drive amplifier (DA) 120 having a high gain, and air A power amplifier (PAU) 130 that amplifies with a high power to propagate to the middle, and a band pass filter (BPF) 140 that passes only signals of a desired band in the signal having undergone the above process Is made of. The signal passing through the band pass filter 140 is propagated to the air through the antenna 150 to be transmitted to the mobile communication terminal. In addition, the photoelectric converter 110, the driving amplifier 120, and the power amplifier 130 require control units 111, 121, and 131 to control their respective operations.

However, according to the configuration of the conventional general remote 100 as described above, it is necessary to control the components (111, 121, 131) for connecting the necessary components in each step through the RF cable, and to control each operation, accordingly It costs a lot of parts, and the structure becomes complicated, resulting in installation difficulties and waste of installation time. Also, the loss of signal caused by RF cable cannot be ignored.

However, the conventional power amplifier is a technology that can not be thought of even considering the failure caused by the heat generation, because the heat generation is large, bundling other components to form a single module. On the other hand, however, our researchers have been successful in developing power amplifiers with low heat generation.

The present invention has been made to solve the problems described above, in the same way as the development of a power amplifier with low heat generation, through the integration of the structure and function of the photoelectric converter, the driving amplifier and the power amplifier of the remote An object of the present invention is to provide an integrated amplifier unit that simplifies the configuration of the remote, reduces the cost, and increases the efficiency, and a remote of the optical repeater to which the integrated amplifier unit is applied.

Integrated amplifier unit according to the present invention for achieving the above object, the photoelectric conversion unit for converting the input optical signal into an electrical signal; A primary amplifier for amplifying the signal from the photoelectric converter with high gain; And a second amplifier for amplifying and outputting the signal amplified by the primary amplifier with high power. Characterized in that it comprises a.

In addition, the remote of the mobile communication network optical repeater according to the present invention for achieving the above object, after converting the optical signal input from the donor into an electrical signal, an integrated amplification unit for amplifying and outputting with a high gain and power; A control unit controlling the integrated amplifier unit; And a filter for filtering the unnecessary signal from the signal output from the integrated amplifier unit. Characterized in that it comprises a.

The integrated amplifier unit includes a photoelectric conversion unit for converting an optical signal input from the donor into an electrical signal; A primary amplifier for amplifying the signal from the photoelectric converter with high gain; And a second amplifier for amplifying and outputting the signal amplified by the primary amplifier with high power. It is preferable to include a.

2 is a block diagram of a remote of a mobile communication network optical repeater according to an embodiment of the present invention.

Hereinafter, an integrated amplifier unit and a remote of a mobile communication network optical repeater in which the integrated amplifier unit is installed will be described with reference to FIG. 2.

As shown in FIG. 2, the remote 200 of the mobile communication optical repeater includes an integrated amplifier unit 205, a control unit 201, a filter 240, and the like. This configuration will be described in more detail as follows.

The integrated amplification unit 205 is a photoelectric conversion unit 210 for converting an optical signal input from the donor 300 into an electrical signal, and a primary for amplifying a signal from the photoelectric conversion unit 210 with a high gain. Amplifying unit 220 and the secondary amplifying unit 230 for amplifying and outputting the signal amplified by the primary amplifier 220 with a high power.

That is, among the components of the conventional remote illustrated in FIG. 1, the functions of the photoelectric converter 110, the driving amplifier 120, and the power amplifier 130 are integrated into the integrated amplifier unit 205 and configured as one amplification module. In this way, by eliminating the cable connection between the components, and having only one control unit 201 for controlling the operation of the integrated amplification unit 205, the structure is simplified to reduce the production cost. In addition, it is possible to greatly reduce the loss (Loss) of the communication signal due to the cable, there is a concise on the installation by the installation of one amplification module (that is, one integrated amplifier unit). The integrated amplification unit 205 converts the input optical signal into an electrical signal, that is, an RF signal in the photoelectric conversion unit 210, and the communication signal converted into an RF signal in the photoelectric conversion unit 210 is 1 The amplification unit 220 amplifies with a high gain, and then amplifies the secondary amplifier 230 at a high power to output the filter 240. Here, the primary amplifier 220 performs the function of the conventional driving amplifier 120, and the secondary amplifier 230 performs the function of the conventional power amplifier 130.

The control unit 201 controls the integrated amplifier unit 205.

The filter 240 is a band pass filter (BPF) that passes only signals of a desired band among the signals output through the integrated amplifier unit 205.

The operation of the remote 200 configured as described above will be described.

First, the optical signal input from the donor 300 passes through the photoelectric conversion unit 210, the primary amplifier 220, and the secondary amplifier 230 sequentially in the integrated amplifier unit 205. After input to the output signal having a high gain and amplified RF signal output, the RF signal output from the integrated amplification unit 205 passes only the signal of the desired band through the filter 240, the antenna ( Propagated into the air through 250).

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but since the above embodiments have only been described with reference to the 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, the present invention has the following effects.

First, by breaking the structure of the optical module that converts the optical signal into an electrical signal and the amplifier that amplifies the electrical signal as a separate component, it is realized as a single component. The production cost can be reduced.

Second, since the cable that constitutes the communication line between each component is not necessary, it is possible to prevent the loss of the signal by the cable, thereby increasing the efficiency and reducing the cable cost.

Third, since the operation of the integrated amplifier unit in the remote of the mobile communication optical repeater is controlled by one control unit, the structure of the remote can be further simplified, thereby realizing the productivity and miniaturization of the remote.

Claims (3)

A photoelectric conversion unit for converting an input optical signal into an electrical signal; A primary amplifier for amplifying the signal from the photoelectric converter with high gain; And A secondary amplifier for amplifying and outputting the signal amplified by the primary amplifier with high power; Including, The integrated amplification unit, characterized in that the photoelectric conversion unit, the primary amplification unit and the secondary amplification unit composed of one module. An integrated amplifier unit for converting an optical signal input from the donor into an electrical signal and then amplifying and outputting the signal with high gain and power; A control unit controlling the integrated amplifier unit; And A filter for filtering the unnecessary signal from the signal output from the integrated amplifier unit; Remote of the mobile communication network optical repeater comprising a. The method of claim 2, The integrated amplifier unit A photoelectric conversion unit converting the optical signal input from the donor into an electrical signal; A primary amplifier for amplifying the signal from the photoelectric converter with high gain; And A secondary amplifier for amplifying and outputting the signal amplified by the primary amplifier with high power; Remote of the mobile communication network optical repeater comprising a.

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