KR100700459B1 - Outdoor device for processing received signal of base station in mobile communication system and base station in mobile communication system - Google Patents

Abstract

An outdoor reception signal processing device of a mobile communication base station system and the mobile communication base station system are provided to supply power to an LNA(Low Noise Amplifier) in itself by using a forward signal of high power, which is radiated to the air in a base station, thus stable power supply is possible in the processing device though power is not supplied from the base station. An LNA(110) receives a reverse signal from an antenna(191), and amplifies the received reverse signal as minimizing noise, then transmits the amplified reverse signal to a base station(190). A rectenna(120) receives a forward signal delivered to the air from the base station(190), converts the received forward signal into a DC(Direct Current), and provides the DC to the LNA(110). A band pass filter is located on a front end of the LNA(110), and receives the reverse signal from the antenna(191) to provide a desired frequency band to the LNA(110).

Description

Outdoor reception signal processing device and mobile communication base station system of mobile communication base station system {OUTDOOR DEVICE FOR PROCESSING RECEIVED SIGNAL OF BASE STATION IN MOBILE COMMUNICATION SYSTEM AND BASE STATION IN MOBILE COMMUNICATION SYSTEM}

1 is a view for explaining an outdoor reception signal processing apparatus of a mobile communication base station system according to an embodiment of the present invention.

2 is a view for explaining an outdoor reception signal processing apparatus of a mobile communication base station system according to another embodiment of the present invention.

3 is a diagram for explaining a mobile communication base station system according to an embodiment of the present invention;

4 is a diagram for explaining a mobile communication base station system according to another embodiment of the present invention;

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

100,200,310,410: Outdoor receiving signal processing device

110,210,311,411: Low noise amplification part

120,312: Rectena

240,414: bandpass filter

251,252,253,415a, 415b, 415c: matching circuit

190,320,420: Base station

The present invention relates to an outdoor reception signal processing apparatus and a mobile communication base station system of a mobile communication base station system, and more particularly, to improve reception sensitivity performance of a mobile communication base station system and to stabilize the low noise amplifier of an outdoor reception signal processing device. The present invention relates to a technology that can supply power and facilitate installation, maintenance, management, and maintenance.

In general, in a mobile communication base station system, a reverse signal is received through a reception antenna, and the received signal comes to the signal processing unit of the base station through a cable. However, as signals are transmitted through cables ranging from several meters to several tens of meters, cable loss and noise occur, and cell coverage of the base station drops sharply. To that end, a technology called Tower-Top Low Noise Amplifier (TTLNA) has been developed. That is, instead of installing a low noise amplifier (LNA) in the signal processing unit of the base station, by placing a low noise amplifier on the receiving antenna tower, so that the signal can be minimized and amplified as soon as the signal is received through the antenna, It is designed to reduce the effects of cable loss and noise.

The TTLNA applied to date is a combination of a low noise amplifier and a band pass filter (BPF) to prevent cable loss and noise loss.The TTLNA is installed after the antenna and is exposed to the outside. Due to this, installation and maintenance are difficult.

The present invention has been made to solve the problems described above, the outdoor receiving signal processing apparatus of the mobile communication base station system which can supply power to the low noise amplification by using a high power forward signal radiated from the base station to the air And a mobile communication base station system using the outdoor reception signal processing apparatus.

According to an aspect of the present invention, there is provided an outdoor reception signal processing apparatus of a mobile communication base station system, including: a low noise amplifier for receiving a reverse signal from an antenna side, amplifying the signal while minimizing noise, and transmitting the signal to a base station side; And a rectenna configured to receive a forward signal transmitted from the base station to the air, convert the DC signal into a DC current, and provide the DC current to the low noise amplifier.

Here, the bandpass filter is located at the front end of the low noise amplifier, the band pass filter for receiving a reverse signal from the antenna side to provide a desired frequency band to the low noise amplifier side; may further include a.

In addition, a matching circuit located on at least one of the front end of the band pass filter, the front end or the rear end of the low-noise amplifier portion on the reception path transmitted from the antenna to the base station, to minimize the power loss at each input terminal; It is preferable to further include.

On the other hand, the mobile communication base station system according to the present invention for achieving the above object, at least one outdoor receiving signal processing apparatus for receiving a reverse signal, amplifying while minimizing noise and transmitting to the upper end through a feed line; And amplifies the forward signal input from the upper end with high power and transmits the signal through at least one or more first antennas, and receives a reverse signal from the at least one outdoor receiving signal processing apparatus, performs signal processing, and then moves to the upper end. Transmitting base station; Including, but the outdoor reception signal processing apparatus, receiving a reverse signal from the second antenna side, a low noise amplifier for amplifying while minimizing noise and transmitting to the base station side; And a rectifier configured to receive a forward signal output from the at least one first antenna, convert the DC signal into a DC current, and provide the DC current to the low noise amplifier.

In addition, the mobile communication base station system according to the present invention for achieving the above object, at least one outdoor receiving signal processing apparatus for receiving a reverse signal, amplifying while minimizing noise and transmitting to the upper end through a feed line; And amplifies the forward signal input from the upper end with high power and transmits the signal through the at least one first antenna, and receives a reverse signal from the at least one first antenna and the at least one outdoor reception signal processing apparatus. A base station which transmits to a higher stage after signal processing; Including, but the outdoor reception signal processing apparatus, receiving a reverse signal from the second antenna side, a low noise amplifier for amplifying while minimizing noise and transmitting to the base station side; And a rectifier configured to receive a forward signal output from the at least one first antenna, convert the DC signal into a DC current, and provide the DC current to the low noise amplifier.

Here, the outdoor receiving signal processing apparatus, located in front of the low noise amplifier, the band pass filter for receiving a reverse signal from the second antenna side to provide a desired frequency band to the low noise amplifier side; desirable.

Hereinafter, preferred embodiments will be described so that the present invention described above can be understood in more detail.

Outdoor reception signal processing device of mobile communication base station system

1 is a view for explaining an outdoor reception signal processing apparatus of a mobile communication base station system according to an embodiment of the present invention. As shown in FIG. 1, the outdoor signal reception apparatus 100 of the mobile communication base station system according to the present invention includes a low noise amplifier 110 and a rectenna 120.

The low noise amplifier (LNA) 110 receives a reverse signal from the reception antenna 130, amplifies the signal while minimizing noise, and transmits the reverse signal to the base station 190. In general, the power of the reverse signal received at the RF (Radio Frequency) receiver has a very low power level due to the effects of attenuation and noise. For this reason, amplification is necessary. Since it is a signal that already contains a lot of noise from the outside, the amplification function that minimizes noise is needed above all.

The rectenna 120 receives a forward signal transmitted from the base station 190 to the air through the transmission antenna 191, converts the DC signal into a DC current, and provides the DC current to the low noise amplifier 110. do. Rectenna is a combination of rectifier and antenna. Its structure is also a combination of antenna 121 and rectifier 122. It converts microwaves directly into direct current. .

On the other hand, the outdoor receiving signal processing apparatus 100 as described above is installed in the receiving antenna tower away from the base station 190 of the mobile communication base station system, accordingly for transmitting a reverse signal from the receiving antenna to the base station 190 This eliminates the possibility of loss in the cable. In addition, since the power can be stably supplied to the low noise amplification unit 110 by using the high power forward signal transmitted from the base station 190 through the rectenna 120, the connection of the power line for power supply can be removed. This can facilitate installation, maintenance, management and maintenance.

Here, the signal received through the reception antenna may saturate the low noise amplifier due to an unnecessary signal adjacent to a desired frequency band. Therefore, as shown in Figure 2, it is preferable to further include a band pass filter 240 located at the front end of the low noise amplifier. That is, the outdoor signal reception apparatus 200 of the mobile communication base station system according to another embodiment of the present invention includes a low noise amplifier 210, a rectenna 120, and a band pass filter 240.

Since the description of the low noise amplifier 210 and the rectenna 120 has been described in detail above, overlapping descriptions are avoided.

A band pass filter (BPF) 240 is positioned in front of the low noise amplifier 210 and receives a reverse signal from the receiving antenna 230 to receive a desired frequency band. To the side. Therefore, in the low noise amplifier 210, saturation due to amplification of an unnecessary signal can be prevented in advance.

On the other hand, the purpose of the band pass filter 240 mounted on the outdoor receiving signal processing apparatus 200 according to an embodiment of the present invention, the signal level of the adjacent band, rather than the signal of the desired frequency band in the received signal is relatively large In this case, all of the received signals are input to the low noise amplifier 210 to prevent the low noise amplifier 210 from being saturated. Accordingly, the band pass filter 240 does not need to be as large as a band pass filter (not shown) mounted in the receiving signal processing stage of the base station 190, and reduces the number of resonators, resulting in small size and small loss. What is necessary is just to have an appropriate pass band and to have appropriate attenuation according to a band. In other words, the band pass filter 240 mounted in the outdoor reception signal processing apparatus 200 does not need to be as large as the band pass filter mounted in the reception signal processing terminal of the base station 190. Therefore, the overall size of the outdoor reception signal processing apparatus 200 including the low noise amplifier 210, the rectenna 120, and the bandpass filter 240 may also be reduced, and the installation and maintenance may be easy. will be.

In addition, when the received signal passes through the components in stages, power loss may occur at the input terminals of the components. Accordingly, as shown in FIG. 2, the matching circuits 251, 252, and 253 are further included at the front end of the band pass filter 240 and the front end and the rear end of the low noise amplifier 210 to minimize power loss at each input end. desirable.

Hereinafter, a mobile communication base station system according to an embodiment of the present invention will be described with reference to FIGS. 3 and 4.

Mobile communication base station system

3 is a diagram illustrating a mobile communication base station system according to an embodiment of the present invention. As shown in FIG. 3, the mobile communication base station system includes an outdoor reception signal processing apparatus 310 and a base station 320.

The outdoor reception signal processing apparatus 310 receives the reverse signal and amplifies the signal while minimizing the noise, and then the upper stage through the feeder line (the upper end of the outdoor reception signal processing apparatus 310 is described later). To say). The outdoor reception signal processing apparatus 310 includes a low noise amplifier 311 and a rectenna 312.

The low noise amplifier 311 receives the reverse signal from the second antenna (referred to as 'receive antenna') 313 for convenience of explanation, amplifies the signal while minimizing noise, and transmits the signal to the base station 320.

The rectenna 312 receives a forward signal output from the first antenna (hereinafter referred to as 'transmission antenna') 321 of the base station 320 to be described later, converts the signal into a DC current, and The DC current is provided to the low noise amplifier 311.

The outdoor reception signal processing apparatus 310 including the low noise amplifier 311 and a rectenna 312 constituted by a dipole antenna 312a and a rectifier 312b includes the outdoor reception signal of the mobile communication base station system described above. It can be easily understood by referring to the description of the 'processing apparatus', and thus duplicate descriptions are avoided.

The base station 320 amplifies the forward signal input from the upper end with high power and transmits it through the transmission antenna 321, receives the reverse signal from the outdoor reception signal processing apparatus 310, performs signal processing, and then To the end. The configuration of processing the forward signal in the base station 320 may be a digital up converter, a digital-to-analog converter, a power amplifier, or the like. Therefore, it can be designed in various forms. In addition, the configuration of processing the reverse signal in the base station 320 may be a base station low noise amplifier (Low Noise Amplifier), an analog-to-digital converter (Analog to Digital Converter), a digital down converter (Digital Down Converter), This may also be designed in various forms depending on the transmission scheme. In addition, since the primary signal processing is possible through the low noise amplifying unit 311 in the outdoor reception signal processing apparatus 310, the configurations for the reverse signal processing in the base station 320 may be further simplified.

On the other hand, at least one outdoor reception signal processing device 320 may be installed according to the installation purpose, location, usage of the mobile communication base station system. In addition, at least one transmission antenna 321 transmitted from the base station 320 to the air may be installed.

Here, the signal received through the reception antenna may saturate the low noise amplifier due to an unnecessary signal adjacent to a desired frequency band. Therefore, as illustrated in FIG. 4, the outdoor reception signal processing apparatus 410 may further include a band pass filter 414 positioned at the front end of the low noise amplifier 411.

A band pass filter (BPF) 414 is positioned in front of the low noise amplifier 411 and receives a reverse signal from the receiving antenna 413 to receive a desired frequency band. To the side. Therefore, in the low noise amplifier 411, saturation due to amplification of an unnecessary signal can be prevented in advance. Of course, as described above, the band pass filter 414 mounted in the outdoor reception signal processing apparatus 410 is as large as the band pass filter (not shown) mounted in the reception signal processing stage of the base station 420. It does not have to be the size.

On the other hand, when the received signal passes through each component step by step, power loss may occur at the input terminals of the respective components. Therefore, as shown in FIG. 4, the outdoor reception signal processing apparatus 410 includes matching circuits 415a, 415b, and 415c at the front end of the band pass filter 414 and at the front end and the rear end of the low noise amplifier 411. In addition, it is desirable to minimize power loss at each input stage.

4 shows that the antenna of the base station 420 is a transmission / reception antenna 421 capable of both transmission and reception. This is implemented in the mobile communication base station system to improve the reception sensitivity (Space Diversity), through two or more reception antennas (transmission and reception antenna 421 and the reception antenna 413 of the outdoor reception signal processing apparatus) It is a method of increasing the reception gain by receiving a reverse signal and applying an equalizer so that each received signal can be summed or received by discriminating the received signal with less fading.

At this time, the base station 420 is transmitted and received along the respective transmission and reception paths by dividing the forward and reverse signals transmitted and received through the transmission and reception antenna 421 through a known circulator (not shown), etc. It can be done.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but the above-described embodiments have been described by way of example only, and thus 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, even if the base station does not supply power, it is possible to supply stable power to the outdoor receiving signal processing apparatus. In addition, since the low-noise amplifier can be manufactured in a small size, it can be mounted inside the receiving antenna, and the structure can be simple and inexpensive and can be easily installed.

Claims (6)

A low noise amplifier for receiving a reverse signal from the antenna side, minimizing noise, amplifying the signal, and transmitting the signal to the base station; And Rectenna for receiving a forward signal transmitted from the base station to the air, converts into a direct current, and provides the direct current to the low noise amplification unit; . The method of claim 1, Located in the front of the low noise amplifier section, the band pass filter for receiving a reverse signal from the antenna side to provide a desired frequency band to the low noise amplifier side; further comprising the outdoor reception signal processing of the mobile communication base station system Device. The method of claim 2, A matching circuit positioned on at least one or more points of the front end of the band pass filter, the front end, or the rear end of the low noise amplification part on a reception path transmitted from the antenna to the base station, to minimize power loss at each input terminal; Outdoor reception signal processing apparatus of a mobile communication base station system further comprising. At least one outdoor reception signal processing apparatus for receiving a reverse signal, minimizing noise, amplifying the signal, and transmitting the signal to a higher level through a feed line; And Amplifies the forward signal input from the upper stage with high power and transmits it through at least one or more first antennas, receives a reverse signal from the at least one outdoor receiving signal processing apparatus, performs signal processing, and then transmits the signal to the upper stage. A base station; Including, The outdoor reception signal processing apparatus, A low noise amplifier for receiving a reverse signal from the second antenna, amplifying the signal while minimizing noise, and transmitting the signal to the base station; And And a rectenna configured to receive a forward signal output from the at least one first antenna, convert the DC signal into a DC current, and provide the DC current to the low noise amplifier. At least one outdoor reception signal processing apparatus for receiving a reverse signal, minimizing noise, amplifying the signal, and transmitting the signal to a higher level through a feed line; And Amplifies the forward signal input from the upper end with high power and transmits it through at least one or more first antennas, and receives a reverse signal from the at least one or more first antennas and the at least one or more outdoor receiving signal processing apparatuses. A base station for transmitting to a higher stage after processing; Including, The outdoor reception signal processing apparatus, A low noise amplifier for receiving a reverse signal from the second antenna, amplifying the signal while minimizing noise, and transmitting the signal to the base station; And And a rectenna configured to receive a forward signal output from the at least one first antenna, convert the DC signal into a DC current, and provide the DC current to the low noise amplifier. The method according to claim 4 or 5, The outdoor reception signal processing apparatus, And a band pass filter positioned at a front end of the low noise amplifier and configured to receive a reverse signal from the second antenna and provide a desired frequency band to the low noise amplifier.

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