KR100434339B1 - power amplification sharing device of the base-station - Google Patents

Abstract

The present invention provides a power amplification sharing apparatus of a base station, comprising a plurality of splitters for distributing RF signals received for each sector of the base station cell, by distributing the received RF signal can be amplified in the adjacent sectors A power amplifier comprising a distribution unit having a first sharing unit, a plurality of power amplifiers that amplify the power of the RF signal distributed by the distribution unit to a predetermined level, and a power amplification unit in the power amplifier unit. Composed of a plurality of combiners for combining the signal, the combiner having a second sharing unit for combining the power amplified signal of the RF signal of the adjacent sector, and monitors the signal coupled by the combiner to amplify the power amplified state A power amplification state monitoring unit for monitoring and receiving a monitoring result from the power amplification state monitoring unit, and a first unit in the distribution unit and the coupling unit; It is configured to include a switch control unit for controlling the switching to the second sharing unit, the mobile communication base station to share the power amplifier between the cell sectors when the failure occurs in the power amplifier of a particular sector to move by utilizing the idle resources of the adjacent sectors The call quality of the phone can be improved.

Description

Power amplification sharing device of the base-station

The present invention relates to power amplification in a base station of a mobile communication system. In particular, when a mobile amplifier is sharing power amplifiers among cell sectors and a failure occurs in a power amplifier of a specific sector, the mobile phone utilizes idle resources of an adjacent sector. The present invention relates to a power amplification sharing apparatus of a base station so as to be suitable for improving call quality.

In general, a mobile communication system is a communication system that targets mobile devices such as people, cars, ships, trains, and airplanes, which includes key phone systems, mobile phones (mobile phones, vehicle phones), port phones, aircraft phones, and mobile phones. Trains, cruise ships, express buses), radio calling, radiotelephony, satellite mobile communication, amateur radio, and fishing service ships.

Thus, such a mobile communication system, the network operation unit for receiving the operator's input and reflects to the systems in the network; A base station controller which collects data of the network operation unit and base stations in the lower base station and transmits the collected data to a switching system; A base station (Radio Port, RP) for transmitting the data of the base station control unit to the user terminals, and collects the data of the user terminals to transmit to the base station control unit; And a user's mobile terminal which transmits the information transmitted from the base station to the user, converts the transmitted voice or code level information into wireless data and transmits the information to the base station.

Here, the base station undergoes CDMA (Code Division Multiple Access) signal conversion and digital-to-analog conversion of voice and data signals transmitted from general subscribers or mobile subscribers. The converted analog signal is finally amplified by the power amplifier in the transmitting end of the base station to be delivered to the terminal of the mobile subscriber and radiated from the antenna stage.

The serviceable area (cell) of the base station is divided into 2-3 sectors (α, β, and γ) to improve frequency efficiency. The power amplifier is also configured for each sector to supply RF (Radio Frequency) power.

FIG. 1 is a block diagram illustrating a conventional power amplifier of a base station, and shows an example in which a sector is two sectors α and β, and FIG. 2 is a detailed configuration diagram of FIG.

As shown therein, first and second distribution units (1) (2) for distributing the RF signals of the α sector and the β sector, respectively; First and second power amplifiers (3) (4) for amplifying the power of the RF signal distributed by the first distributor (1), respectively; Third and fourth power amplifiers (5) (6) for amplifying the power of the RF signal distributed by the second distributor (2), respectively; A first coupler (7) for coupling the signals amplified by the first and second power amplifiers (3) (4), respectively; A second coupler (8) for coupling the signals amplified by the third and fourth power amplifiers (5) and (6), respectively; First and second transmit filters (51) (52) for respectively filtering the combined signals in the first and second combiners (7); And antennas 61 and 62 for radiating the signals filtered by the first and second transmission filters 51 and 52 to the α sector and the β sector, respectively.

3 is a flowchart illustrating a power amplification method of a conventional base station.

As shown therein, receiving an RF signal to a sector of each cell (ST1); distributing the received RF signal to amplify each power, and then combining the power-amplified signals (ST2 to ST4); ; The combined signal is filtered and then transmitted to each sector through the antenna (ST5).

Thus, when the serving cell structure of the base station is two sectors, the power amplifier also includes two blocks.

Each block has a distribution unit 1 (2) for distributing an RF signal input from a frequency converter (not shown in the figure) to each of the power amplifiers 3 to 6. The power amplifiers 3 to 6 amplify the signals of the α sector and the β sector respectively output from the distribution units 1 and 2 to a predetermined level. In addition, the combiner 7 and 8 combine the signals amplified by each of the power amplifiers 3 to 6 into one and supply the signals to the corresponding sector antennas 11 and 12.

The distribution unit 1, 2 and the coupling unit 7, 8, except for the power amplifiers 3 to 6, are designed in one piece and are collectively referred to as a power amplifier combiner.

1 and 2 show a structure in which two power amplifiers are combined (the number of power amplifiers is determined according to the final output), and the distribution unit (1) (2) and the power amplifier (3 to 6) between the sectors. The couplings 7 and 8 are designed to operate individually so that there is no influence or interference between adjacent sectors.

However, such a conventional technology has a problem in that when a failure occurs in a power amplifier, the service area (cell radius) of the corresponding sector is reduced to a maximum of 1/2, so that the connection rate and call quality deteriorate rapidly. At this time, even if the remaining capacity of the neighboring sector has a margin, the idle RF power can not be switched to the sector with insufficient capacity, and thus there is a problem in that the degraded service quality cannot be improved.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to share power amplifiers between cell sectors in a mobile communication base station, so that a defect occurs in a power amplifier of a specific sector. It is to provide a power amplification sharing apparatus of a base station that can improve the call quality of a mobile phone by utilizing idle resources.

In order to achieve the above object, a power amplifier sharing apparatus of a base station according to an embodiment of the present invention comprises a first sharing unit for distributing RF signals received for each sector of a base station cell to amplify power in adjacent sectors. A power amplifier comprising a plurality of power amplifiers configured to amplify the power of the RF signal distributed by the distribution unit to a predetermined level; a plurality of power amplifiers coupled to the power amplified signal; A combiner having a second sharer configured to combine the signals amplified by the RF signal of an adjacent sector, the combiner comprising: two combiners; a power amplification state that detects the combined signal from the combiner and monitors the power amplified state A monitoring unit; a switch for first and second sharing units in the distribution unit and the coupling unit receiving the monitoring result from the power amplification state monitoring unit; To provide a power amplifying device to share the base station comprising a switch controller for controlling.

1 is a block diagram of a power amplifier of a conventional base station,

2 is a detailed configuration diagram of FIG.

3 is a flowchart illustrating a power amplification method of a conventional base station;

4 is a block diagram of an apparatus for sharing power amplification of a base station according to an embodiment of the present invention;

5 is a detailed configuration diagram of FIG.

6 is a flowchart illustrating a method for sharing power amplification of a base station according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

20, 22, 23, 26, 27: distribution unit 21, 41: sharing unit

24, 28, 44, 48: switch 25, 29, 45, 49: stub

30, 31, 32, 33, 34: power amplifier 40, 42, 43, 46, 47: coupling

50, 51, 52: transmission filter 60, 61, 62: antenna

70: power amplifier state monitoring unit 71: RF detector

72: RF power comparator 73: processor

74: communication unit 80: switch control unit

Hereinafter, an embodiment according to the present invention configured as described above, an apparatus for sharing power amplification of a base station and a method thereof will be described in detail with reference to the accompanying drawings.

4 is a block diagram of an apparatus for sharing power amplification of a base station according to an embodiment of the present invention.

As shown therein, a distribution unit having a first sharing unit 21 for distributing the received RF signal for each sector of the base station cell and distributing the received RF signal to enable power amplification in adjacent sectors ( 20); A power amplifier 30 amplifying the power of the RF signal distributed by the distributor 20 to a predetermined level; The power amplifier 30 is coupled to the power amplified signal, the RF signal of the adjacent sector is configured to include a coupling unit 40 having a second sharing unit 41 for combining the power amplified signal.

Here, reference numeral 50 denotes a transmission filter for filtering the signal coupled by the combiner 40, and reference numeral 60 denotes an antenna 60 for radiating the signal filtered by the transmission filter 50 for each sector.

5 is a detailed configuration diagram of FIG. 4.

As shown therein, the apparatus for sharing power amplification of the base station includes: a power amplification state monitoring unit (70) for monitoring a signal amplified by monitoring the signal coupled by the combining unit (40); A switch for receiving a monitoring result from the power amplification state monitoring unit 70 and controlling switching of the first and second sharing units 21 and 41 in the distribution unit 20 and the coupling unit 40. The control unit 80 further includes.

The distribution unit 20 includes: a first distribution unit 22 for distributing an RF signal received in one sector (α sector) of the base station cell; A second distribution unit 23 for distributing RF signals received in one sector (α sector) of the base station cell to enable power amplification in its own sector (α sector) and adjacent sectors (β sector); A third distribution unit 26 for distributing the RF signal received in another sector (β sector) of the base station cell; A fourth distribution unit 27 for distributing the RF signal received in another sector (β sector) of the base station cell to enable power amplification in its own sector (β sector) and an adjacent sector (α sector); A second signal amplifying one signal distributed by the first distribution unit 22 and power distributed by one sector in the power amplifier unit 30 according to the switching control signal of the switch controller 80. The first switch 24 which connects the power amplifier 32 or the one signal distributed by the fourth distribution unit 27 and the second power amplifier 32 in the power amplifier 30. )Wow; A third power that amplifies one signal distributed by the third distribution unit 26 and power distributed by one sector (β sector) in the power amplifier 30 according to the switching control signal of the switch controller 80; A second switch 28 which connects the amplifier 33 or connects the one signal distributed by the second distributor 23 and the second power amplifier 32 in the power amplifier 30; Wow; The first and second stubs 25 and 29 are respectively connected to the first and second switches 24 and 28 to match the short-term impedance of the transmission line.

The power amplifier 30 is located at the transmission end of the mobile communication base station or repeater to amplify the RF signal to a desired power level, and the final output to amplify several frequency carriers at the same time. The number is determined according to the plurality is composed.

Here, reference numeral 31 denotes a first power amplifier for amplifying a signal of the first distribution unit 22 for distributing the RF signal of α sector, and 32 denotes a second amplifier for amplifying the signal output from the first switch 24. 33 is a third power amplifier for amplifying the signal output from the second switch 28, and 34 is an amplifier for the third signal 22 for distributing the RF signal of the? Sector. Fourth power amplifier.

In addition, the coupling unit 40, the first and second switches 24, 28 in the distribution unit 20, respectively, the third and fourth switches for receiving the power-amplified signal and the switching (respectively) 44) 48; Third and fourth stubs (45) (49) connected to the third and fourth switches (44) (48), respectively, to match the impedance between the ends of the transmission line; A first combiner 42 for receiving a signal obtained by amplifying a signal output from the first distributor 22 in the distribution unit 20, and receiving and combining the signal switched by the first switch 44. Wow; The first switch 44 receives the switched signal, is connected to the second stub 49 of the second switch 48 receives the switched signal to combine the power amplification is shared between the sectors 2 coupling parts 43; A third coupling part 46 which receives a signal switched by the second switch 44 and receives and combines a signal obtained by amplifying a signal output from the fourth distribution part 26 in the distribution part 20; Wow; A first signal connected to the first stub 45 of the first switch 44 to receive a switched signal, a second signal to be switched by the second switch 48 so that the power amplification is shared between the sectors, and coupled; It is comprised including four coupling parts 47.

The power amplification state monitoring unit 70 includes: a plurality of RF detectors 71 for detecting a signal amplified by the power inputted by each sector input to the coupling unit 40; An RF power comparator 72 for receiving the outputs of the plurality of detectors 71 and comparing the power amplification states processed per sector; A processor (73) for receiving a comparison result of the RF power comparing unit (72) to determine a power amplification state processed per sector, and checking whether the power amplifier (30) is abnormal and outputting a switching control signal; And a communication unit 74 which transmits a switching control signal from the processor 73 to the switch control unit 80 so that idle resources of an adjacent sector can be utilized when a failure occurs in a power amplifier of a specific sector. do.

6 is a flowchart illustrating a method for sharing power amplification of a base station according to an embodiment of the present invention.

As shown in the figure, the first step (ST11) (ST12) for identifying the power amplification state for each sector to determine whether the abnormality in the power amplifier 30; A second step (ST13) (ST14) of determining whether there is a sector that can afford power amplification by checking an RF power usage status of adjacent sectors when an abnormality occurs in the power amplifier 30; If there is a sector that can afford to amplify the power, the third step (ST15) to switch the input / output line of the power amplifier 30 of the sector that has the power amplification to a sector lacking power to perform power amplification (ST15). (ST16); A fourth step (ST17) for determining whether the output of the power amplifier 30 in which an abnormality has occurred after the third step has been restored to its original state; When the output of the power amplifier 30 in which the abnormality has occurred is restored to its original state, a fifth step of determining the current state of the power amplifier 30 and then switching the power amplifier 30 to its original state before switching (ST18) (ST19).

The operation of the apparatus for sharing power amplification and the method according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, the present invention changes the structure of the divider and combiner of the combiner stage of the conventional power amplifier so that the specific power amplifier 30 between the sectors can be shared with each other as necessary. The RF switch 24, 28, 44, 48 and the switch controller 80 were added to the splitter and the combiner, and the power amplification state monitoring unit 70 to determine whether the power amplifier 30 is defective or not. Was constructed.

Therefore, the power amplifier state monitoring unit 70 monitors the output power of the sector amplifiers 30 and compares them.

If a power amplifier 30 is temporarily interrupted or permanently damaged in any sector and the output is lower than a certain level (e.g. 10 dB) than another amplifier 30 in the same sector, The amplification state monitoring unit 70 determines the RF power usage status of the adjacent sectors. Then, the switch control unit 80 controls the switch control unit 80 to find a sector having an output for one amplifier 30 and to switch the input / output line of the predetermined power amplifier 30 to a sector lacking power.

At this time, the sector that was insufficient RF power can be used by combining the three power amplifier 30 can cover the wireless power shortage, the sector that supplied the power amplifier 30 to one power amplifier 30 To operate.

When the troubled power amplifier 30 recovers to the normal output again (or recovers by replacing the power amplifier) and can be operated by the two power amplifiers 30, the power amplifier state monitoring unit 70 switches the switch control unit ( 80 is controlled to switch the input / output switches 24, 28, 44 and 48 of the power amplifier 30 so that the power amplifier 30 borrowed from the adjacent sectors can be restored.

As described above, the present invention improves the call quality of the mobile phone by utilizing the idle resources of the adjacent sectors when the power amplifier of the cell sector is shared among the cell sectors in the mobile communication base station.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the apparatus and method for sharing power amplifier of a base station according to the present invention share power amplifiers between cell sectors in a mobile communication base station and utilize idle resources of adjacent sectors when a failure occurs in a power amplifier of a specific sector. It will be effective to improve the call quality of the mobile phone.

In addition, the present invention maintains the service area of the corresponding sector by utilizing the free radio resources of the remaining neighboring sectors even when one of the two sectors causes a temporary or permanent power amplifier output failure, thereby improving the mobile phone access rate. In addition, by reducing the overload burden of the power amplifier, the average life of the power amplifier can be extended.

Claims (6)

A plurality of distribution units including a first sharing unit for distributing RF signals received for each sector of the base station cell so that power amplification is performed in adjacent sectors; A power amplifier comprising a plurality of power amplifiers for amplifying the power of the RF signal distributed by the distributor to a predetermined level; A combiner comprising a plurality of combiners configured to combine the power amplified signals in the power amplifier, and a second sharer configured to combine the RF amplified signals of adjacent sectors with the power amplified signals; A power amplification state monitoring unit configured to detect a signal coupled by the combining unit and monitor a power amplified state; And a switch controller which receives the monitoring result from the power amplifier state monitoring unit and controls switching to the first and second sharing units in the distribution unit and the coupling unit. (delete) 2. The apparatus of claim 1, wherein the distribution unit comprises: a first distribution unit that distributes an RF signal received in one sector of a base station cell; A second distribution unit for distributing an RF signal received in one sector of the base station cell to perform power amplification in its own sector and in an adjacent sector; A third distribution unit for distributing an RF signal received in another sector of the base station cell; A fourth distribution unit for distributing RF signals received from other sectors of the base station cell to perform power amplification in its own sector and in the adjacent sectors; In accordance with the switching control signal of the switch control unit connected to the one signal distributed by the first distribution unit and the second power amplifier for amplifying the power distributed in one sector in the power amplifier, or in the fourth distribution unit A first switch connecting the distributed one signal to the second power amplifier in the power amplifier; According to a switching control signal of the switch controller, the third power amplifier connects one signal distributed by the third distribution unit and a third power amplifier that amplifies the power distributed in one sector in the power amplifier, or distributes the second power amplifier. A second switch connecting the one signal to the second power amplifier in the power amplifier; And first and second stubs connected to the first and second switches, respectively, to couple the impedances between the ends of the transmission line, respectively. 2. The apparatus of claim 1, wherein the coupling unit comprises: third and fourth switches configured to receive power switching signals respectively output via the first and second switches in the distribution unit, and to switch them; Third and fourth stubs connected to the third and fourth switches, respectively, to match the impedance between the ends of the transmission line; A first combiner for combining a signal amplified by the first signal output from the first distributor in the distributor and a signal switched by the first switch; A second coupling part connected to the signal switched by the first switch and the second stub of the second switch to combine the switched signal so that the power amplification is shared between the sectors; A third combiner for combining the signal switched by the second switch with a signal amplified by a signal output from the fourth divider in the divider; And a fourth coupling unit connected to the first stub of the first switch to combine the switched signal with the signal switched by the second switch so that the power amplification is shared between the sectors. Shared device. 2. The power amplifier of claim 1, wherein the power amplification state monitoring unit comprises: a plurality of RF detectors each detecting a signal amplified in each sector and input to the coupling unit; An RF power comparator for receiving outputs of the plurality of detectors and processing the respective sectors to compare power amplification states; A processor configured to determine a power amplification state to be processed per individual sector according to a comparison result input from the RF power comparator, and to check whether the power amplification part is abnormal according to the determined result, and output a switching control signal; And transmitting a switching control signal of the processor to a switch controller, wherein the power amplifier sharing apparatus of the base station comprises a communication unit for utilizing idle resources of an adjacent sector when a power amplifier of a specific sector is defective. delete