KR100701288B1 - PN Fixed Type RF Repeater And Method For RF Repeating Of The Repeater - Google Patents

Abstract

A PN(Pseudo-random Noise) fixed RF(Radio Frequency) repeater and an RF relay method of the repeater are provided to relay a pilot signal only of particular base station PN, thereby preventing all of peripheral base station signals from being relayed to a mobile communication terminal while preventing PN pollution from occurring. An RF repeater sets at least one piece of base station PN information and the minimum signal level value which is a reference value for determining whether particular base station PN is converted, to pass a pilot signal only of the particular base station PN at a random point of time(S31). The repeater converts RF signals of each base station received through a donor antenna from peripheral base stations into digital IF(Intermediate Frequency) signals, and converts the IF signals into baseband signals to search each base station PN(S32,S33). The repeater passes a pilot signal only of the particular base station PN, and removes the rest of pilot signals of the base station PN(S34). The repeater converts the baseband signal which is the passed pilot signal into a digital IF signal, and converts the IF signal into an RF signal to deliver the RF signal to a mobile communication terminal through a service antenna(S35-S37).

Description

PN Fixed Type RF Repeater And Method For RF Repeating Of The Repeater

1 is a diagram illustrating a signal reception state of a conventional RF repeater.

Figure 2 is a block diagram showing a PN fixed RF repeater according to the present invention.

Figure 3 is a flow chart for explaining the RF relay operation of the PN fixed RF repeater according to the present invention.

Explanation of symbols on the main parts of the drawings

21, 25: RF switch 22: RF / IF processing unit

22-1: RF / IF Converter 22-2: AD Converter

23: PN removal unit 23-1: digital down converter

23-2: Explorer 23-3: PN Eliminator

23-4: Controller 23-5: Digital Up Converter

24: IF / RF processor 24-1: DA converter

24-2: IF / RF Converter

The present invention relates to an RF repeater, and more particularly, to a PN fixed RF repeater and an RF relay method of the repeater, which relays only a pilot signal of a specific base station PN among signals received from neighboring base stations to the mobile communication terminal.

In general, a CDMA mobile communication network installs a plurality of base stations in each region other than a home location register (HLR) or a mobile switching center (MSC), and also transmits and receives signals between a base station and a mobile communication terminal to ensure call quality for each terminal user. There are a plurality of repeaters for relaying, where each repeater uses a PN (Pseudorandom Noise) code (Short PN Code, Long PN Code) to distinguish between the base station / terminal.

Here, the 'Short PN Code' is a PN code having a length of 215 bits used by the base station. If a different PN code is used for each base station, it is difficult for the mobile station to reproduce or memorize the PN code of the base station one by one. In order for the terminal to easily access the base station, adjacent groups of base stations use the same PN code.

As an example, in the present IS-95 mobile communication network, each neighboring base station generates and transmits the same PN code, but each base station uses the same PN code but delays time at different intervals for each base station so as to distinguish each other. PN code is generated by time shift. At this time, the mobile communication terminal receives the PN code transmitted from each base station with time delay, distinguishes each base station, and synchronizes the system with the most influential base station through one search for all phases. The graf can also be synchronized with the second and third influential base stations at any time.

Meanwhile, in the case of the urban area, a small cell or micro cell structure is adopted, and a plurality of base stations and repeaters are used. In a specific area such as an overlapping base station or an area where sectors overlap within the same base station, a plurality of base stations and repeaters are used simultaneously. PN Pollution (Pollution) phenomenon that the base station signal is received with a similar signal strength occurs, in particular, when the signals of the base station A, B, C is simultaneously received as illustrated in the accompanying drawings Figure 1 RF repeater Since these signals cannot be distinguished, each base station signal is relayed. In this case, the mobile communication terminal is placed in a call state simultaneously with the base stations A, B, and C, thereby reducing the resources of the base stations or between the base stations. As a result of frequent handoff, there was a problem in that call disconnection or call quality was lowered.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to allow the RF repeater to process only the pilot signal of a specific base station PN to the mobile communication terminal.

Another object of the present invention is to allow the RF repeater to process only the pilot signal of a specific base station PN, thereby relaying all base station signals to a mobile communication terminal located in a base station overlap area or an area where a sector overlaps in the same base station. To prevent the occurrence of a PN pollutant phenomenon at the same time.

Still another object of the present invention is to move a mobile station located in an overlapping base station or an area where a sector overlaps in the same base station by relaying only a pilot signal of a specific base station PN to a mobile communication terminal and removing signals from other base stations in the RF repeater. By improving the reception performance of the communication terminal to prevent a call disconnection or degradation of the call quality, and at the same time to minimize the occurrence of handoff.

Features of the present invention for solving the above object, the RF / IF processing unit for converting the RF signal received from each base station through the donor antenna into a digital IF signal, and converts the digital IF signal into an RF signal to the service antenna In the RF repeater having an IF / RF processing unit for transmitting to the mobile communication terminal through a, after converting the digital IF signal of each base station converted by the RF / IF processing unit into a baseband signal to search the PN of each base station A PN removal unit which passes only a pilot signal of a specific base station PN and removes pilot signals of the remaining base stations while monitoring in real time the detected signal level for each PN; The at least one base station PN information, which is set so as to pass only the pilot signal of the specific base station PN at any time in the RF repeater, and a memory unit for storing a minimum signal level value that is a reference for determining whether to switch the specific base station PN Is to implement a fixed RF repeater.

The PN removal unit may include a digital down converter for converting the digital IF signal of each base station converted by the RF / IF processing unit into a baseband signal (I / Q); A searcher for receiving the baseband signal converted by the digital down converter, searching each base station PN while changing the window of the PN code, finding the pilot signals of all the received base stations, and reporting the signal level; By monitoring the pilot signal of each base station PN found in the searcher in real time, monitoring the magnitude, delay, and phase information of the pilot signal, passing only the pilot signal of a specific base station PN, and transmitting the pilot signals of the remaining base station PNs to the same phase in phase pilot. A PN remover for generating and removing signals; Stores and manages at least one base station PN information for passing only a pilot signal of a specific base station PN and a minimum signal level value as a reference for determining whether to switch a specific base station PN in a memory unit, and the base station PN stored in the memory unit. Determining a specific base station PN to pass the pilot signal at any point of time to control the PN eliminator to pass only the pilot signal of the determined specific base station PN, and monitors the signal level for each base station PN reported from the searcher in real time A controller which determines whether to switch the specific base station PN by comparing the signal level value of the specific base station PN through which the pilot signal is currently passed and the minimum signal level value; And a digital up converter for converting a pilot signal of a specific base station PN, which is a baseband signal passing through the PN remover, into a digital IF signal.

In addition, the PEN fixed RF repeater described above, when an error occurs in the PN removal unit, the RF / IF processing unit or the IF / RF processing unit, each base station signals received through the donor antenna does not pass through the PN removal unit to the service antenna It is characterized in that it further comprises an RF switch for performing RF switching to be sent directly to the mobile communication terminal through.

Another feature of the present invention is to set at least one base station PN information and a minimum signal level value as a reference for determining whether to switch a specific base station PN so as to pass only a pilot signal of a specific base station PN at any time in the RF repeater. Process of doing; Searching each base station PN by converting an RF signal of each base station received from neighboring base stations through a donor antenna into a digital IF signal and converting the base station signal into a baseband signal; Passing only pilot signals of a specific base station PN and removing pilot signals of the remaining base station PNs among the base station PNs searched for above; The RF relay method of the PN fixed RF repeater comprising converting the baseband signal, which is the pilot signal of the specific base station PN passed above, into a digital IF signal and converting the RF signal back to an RF signal to a mobile communication terminal through a service antenna. To implement.

The RF relay method of the PN fixed RF repeater is a process of comparing a signal level value of a specific base station PN through which a current pilot signal is passed and a predetermined minimum signal level value while monitoring in real time the signal level of each discovered base station PN. and; If the signal level value of the specific base station PN is kept below the minimum signal level value for a predetermined time, converting the next higher priority among the preset base station PNs into a specific base station PN for passing the pilot signal. It is characterized by including.

In addition, the above-described RF relaying method of the PN fixed RF repeater, when switching the specific base station PN, when the signal characteristics of all the predetermined base station PN is not good compared to the signal level of all the base station PN discovered the highest signal level And converting the base station PN with the specific base station PN to pass the pilot signal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention monitors the signal level of the base station PN in real time while performing a relay service using a specific PN code, in which at least one PN code is set to perform a relay service only with a fixed PN code in an RF repeater of a mobile communication network. If the signal level of the specific base station PN currently being service is less than or equal to the reference level, by switching the specific PN code to another preset base station PN, the repeater relays only the pilot signal of the fixed specific base station PN to the mobile communication terminal. PN pollutation is prevented from occurring in a mobile communication terminal located in a specific area such as an overlapping area or an area where sectors overlap in the same base station, and the configuration of the repeater is shown in FIG. 2.

That is, the configuration of the PN fixed RF repeater according to the present invention, as shown in Figure 2, the RF switch (21, 25) and RF / IF processing unit connected to the donor antenna (ANT1) and the service antenna (ANT2), respectively And a PN removal unit 23 and an IF / RF processing unit 24.

The RF switches 21 and 25 are PN signals received through the donor antenna ANT1 when an error occurs in the RF / IF processor 22 or the PN remover 23 or the IF / RF processor 24. The RF switching is performed to be directly transmitted to the mobile communication terminal through the service antenna ANT2 without passing through the remover 23. In this case, whether an error occurs in the RF / IF processing unit 22, the PN removing unit 23, or the IF / RF processing unit 24 is confirmed by an upper control block (not shown) that monitors the overall operation of the repeater. It is possible.

The RF / IF processing unit 22 converts an RF signal (base station signal) received from each base station through the donor antenna ANT1 into an IF signal, and an RF / IF converter 22-. And an AD converter 22-2 for converting each IF signal converted by 1) into a digital signal.

The PN cancellation block 23 searches for PNs of respective base stations after converting each digital IF signal converted by the RF / IF processing unit 22 into a baseband signal, and searches for signal levels for each PN. While monitoring in real time, only the pilot signal of a specific base station PN currently set is passed, and pilot signals of the remaining base stations are removed. The PN removal unit 23 may transmit at least one predetermined base station PN information to pass only a pilot signal of a specific base station PN at an arbitrary time point, and another preset base station PN when the signal characteristics of the currently applied specific base station PN are not good. The minimum signal level value, which is a reference for deciding whether to switch the specific base station PN, is stored in the memory unit (not shown) and managed.

Referring to the detailed configuration of the PN removal unit 23, this is a digital down converter (Digital) that performs the function of converting each digital IF signal converted by the RF / IF processing unit 22 to a baseband signal (I / Q) Down-converter 23-1 and the baseband signal converted by the digital down-converter 23-1, and changing the window of the PN code, searching the PN of each base station to find pilot signals of all received base stations. Later, the searcher 23-2 reporting the signal level to the controller 23-4 and the pilot signal of each base station PN searched by the searcher 23-2 in real time, and the magnitude of the pilot signal, A PN remover 23-3 which monitors delay and phase information and passes only the pilot signal of a specific base station PN and generates and removes an antiphase pilot signal of the same size from the other base station PN; Wave of specific base station PN Stores and manages at least one base station PN information set for passing only the lot signal and a minimum signal level value of the base station PN necessary for determining whether to switch the specific base station PN to be passed currently, at any point in time among the preset base station PNs. Determining a specific base station PN to pass the pilot signal to the control to control the PN eliminator 23-3 to pass only the pilot signal of the determined specific base station PN, the signal level for each base station PN reported from the searcher (23-2) Controller 23-4 and PN remover 23-3 which determine whether to switch the specific base station PN by comparing the signal level value and the minimum signal level value of the specific base station PN to which the pilot signal is currently being passed, in real time. Digital up to convert the pilot signal of a specific base station PN, which is the baseband signal passed through Including ventilation (Digital Up Converter) (23-5).

The IF / RF processing unit 24 converts the digital IF signal passing through the PN removal unit 23 into an analog IF signal, and the DA converter 24-1 converts the IF signal converted by the DA converter 24-1. And an IF / RF converter 24-2 which converts the RF signal into a mobile communication terminal through the service antenna ANT2.

Referring to Figure 3 attached to the RF relay operation of the PN fixed RF repeater according to the present invention based on such a configuration as follows.

First, the PN removing unit 23 of the RF repeater stores and manages at least one base station PN information set by an operator or an administrator to pass only a pilot signal of a specific base station PN among neighboring base stations. The signal level value, that is, the minimum signal level value of the base station PN, which is a reference for determining whether to switch the specific base station PN is set, is stored and managed (step S31). In this case, the specific base station PN information has a priority. For example, when three specific base station PN information is configured, first PN, second PN, and third PN information are stored and managed. .

In this way, while the specific base station PN information and the minimum signal level value of the base station PN are stored and managed, the RF repeater can receive the RF signal (base station pilot signal) transmitted from neighboring base stations through the donor antenna ANT1. The received RF signal of each base station is transmitted to the RF / IF processing unit 22 through the RF switch 21, and the RF / IF processing unit 22 converts the RF signal received from each base station into a digital IF signal. It transfers to PN rejection 23 (step S32).

The PN removing unit 23 converts the digital IF signal of each base station converted by the RF / IF processing unit 22 into a baseband signal, searches for each base station PN, passes only the pilot signal of the specific base station PN, and then passes the rest. It will remove the pilot signals of the base station.

To this end, the digital down converter 23-1 of the PN removal unit 23 converts the digital IF signal of each base station converted by the RF / IF processing unit 22 into a baseband signal I / Q. The searcher 23-2 connected to the corresponding digital down converter 23-1 receives the baseband signal converted by the digital down converter 23-1 and searches for and receives each base station PN while changing the window of the PN code. The pilot signals of all base stations are found, and the signal level for each base station PN is reported to the controller 23-4 (step S33).

Thereafter, the PN remover 23-3 of the PN remover 23 monitors the magnitude, delay, and phase information of the pilot signal while tracking in real time of each base station PN found by the searcher 23-2. Only the pilot signal of the specific base station PN determined by 4) passes, and at the same time, the pilot signals of the remaining base station PN generate and remove the antiphase pilot signal of the same size (step S34). At this time, the controller 23-4 determines the specific base station PN to which the RF repeater passes the pilot signal at the present time according to its priority. When the RF repeater is in the initial driving state, the controller 23-4 determines the current time from among the preset base station PN. The first base station PN (first PN) is determined as a specific base station PN to pass the pilot signal, and the PN eliminator 23-3 is controlled to pass only the pilot signal of the first PN.

In addition, the controller 23-4 compares the signal level value of the specific base station PN determined above with the predetermined minimum signal level value while monitoring the signal level for each base station PN reported from the searcher 23-2 in real time. It is checked whether the signal level value of the PN is kept below the minimum signal level value for a predetermined time (step S35).

In this case, when the signal level value of the specific base station PN does not last below the minimum signal level value for a predetermined time, this means that the signal characteristics of the specific base station PN are good, and thus the PN remover 23-3 of the PN removal unit 23 is used. In the UE, only the pilot signal of a specific base station PN is continuously passed. Then, the digital up-converter 23-5 converts the baseband signal, which is the pilot signal of the specific base station PN that has passed through the PN remover 23-3, into a digital IF signal, and delivers the digital IF signal to the IF / RF processing unit 24 ( Step S36), the IF / RF processing unit 24 converts the digital IF signal passing through the PN removal unit 23 into an RF signal and transmits the RF signal to the mobile communication terminal through the RF antenna 25 and the service antenna ANT2. (Step S37). By doing so, the RF repeater can transmit only the pilot signal of the specific base station PN to the mobile communication terminal. As a result, the PN pollutation phenomenon occurs in a specific area such as a base station overlap area or an area where sectors overlap in the same base station. Can be prevented.

On the other hand, if the signal level value of the specific base station PN continues below the minimum signal level value for a predetermined time in step S35, this means that the signal characteristics of the specific base station PN through which the pilot signal is currently passing are not good, and thus the controller 23 -4) determines the base station PN having the next highest priority among the preset base station PNs for switching the specific base station PN as the specific base station PN to pass the pilot signal, and then controls the PN remover 23-3 to control the specific base station PN. By switching, control is made to pass only the pilot signal of the switched specific base station PN (step S38). For example, if the specific base station PN to which the pilot signal is currently passing is the first PN and the signal characteristic of the first PN is determined to be poor, the second higher priority PN is converted to the specific base station PN to pass the pilot signal. If the PN eliminator 23-3 is controlled to determine that the specific base station PN to which the pilot signal is currently passing is the second PN and the signal characteristic of the second PN is not good, the next higher priority 3PN is piloted. The PN remover 23-3 is controlled to switch to the specific base station PN to pass the signal through. In addition, the controller 23-4 determines the specific base station PN through which the pilot signal is to be passed. If the signal characteristics of all preset base station PNs are determined to be poor by an operator or an administrator, the searcher 23-2 may perform the search. By comparing the signal levels of all the base station PN reported from the to determine the base station PN having the highest signal level as the specific base station PN to pass the pilot signal.

When the PN remover 23-3 of the PN remover 23 continues to pass only the pilot signal of the specific base station PN under the control of the controller 23-4, the digital up-converter 23-5 performs the PN remover. The baseband signal, which is the pilot signal of the specific base station PN, which has passed through 23-3, is converted into a digital IF signal and transferred to the IF / RF processor 24, and the IF / RF processor 24 is the PN remover 23. ) Converts the digital IF signal passing through the RF signal into an RF signal and transmits the digital IF signal to the mobile communication terminal through the RF antenna 25 and the service antenna ANT2.

In addition, in the present invention, the upper control block of the RF repeater checks whether an error occurs in the RF / IF processing unit 22, the PN removing unit 23, and the IF / RF processing unit 24, so that any one component or multiple If it is determined that an error has occurred in the component unit, the base station signals received through the donor antenna ANT1 are moved through the service antenna ANT2 without passing through the PN removal unit 23 by controlling the RF switches 21 and 25. RF switching is processed to be sent directly to the communication terminal.

In addition, the embodiment according to the present invention is not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, the present invention implements a PN fixed RF repeater for relaying only the pilot signal of a specific base station PN and an RF relay method of the repeater, so that the mobile communication terminal is located in an overlapping base station or an area where sectors overlap in the same base station. At the same time, it is possible to prevent all base station signals around the relay from being relayed, and at the same time, it is possible to prevent the occurrence of PN pollution.

In addition, the present invention is to receive the reception of the mobile communication terminal located in the overlapping base station or the region where the sector overlaps in the same base station by relaying only the pilot signal of a specific base station PN to the mobile terminal in the RF repeater The performance can be improved to prevent disconnection or degradation of call quality, while minimizing handoff.

Claims (6)

An RF / IF processor for converting an RF signal received from each base station through a donor antenna into a digital IF signal, and an IF / RF processor for converting the digital IF signal into an RF signal and transmitting the RF signal to a mobile communication terminal through a service antenna; In the RF repeater, After converting the digital IF signal of each base station converted by the RF / IF processing unit into a baseband signal, the PN of each base station is searched, and only the pilot signal of a specific base station PN is monitored while real-time monitoring the signal level for each PN. A PN removal unit which passes and removes pilot signals of the remaining base stations; The memory unit stores at least one preset base station PN information for passing only the pilot signal of the specific base station PN at any time in the RF repeater and a minimum signal level value as a reference for determining whether to switch the specific base station PN. Pien fixed type RF repeater characterized in that. The method of claim 1, The PN removal unit includes: a digital down converter for converting the digital IF signal of each base station converted by the RF / IF processing unit into a baseband signal (I / Q); A searcher for receiving the baseband signal converted by the digital down converter, searching each base station PN while changing the window of the PN code, finding the pilot signals of all the received base stations, and reporting the signal level; By monitoring the pilot signal of each base station PN found in the searcher in real time, monitoring the magnitude, delay, and phase information of the pilot signal, passing only the pilot signal of a specific base station PN, and transmitting the pilot signals of the remaining base station PNs to the same phase in phase pilot. A PN remover for generating and removing signals; Stores and manages at least one base station PN information for passing only a pilot signal of a specific base station PN and a minimum signal level value as a reference for determining whether to switch a specific base station PN in a memory unit, and the base station PN stored in the memory unit. Determining a specific base station PN to pass the pilot signal at any point of time to control the PN eliminator to pass only the pilot signal of the determined specific base station PN, and monitors the signal level for each base station PN reported from the searcher in real time A controller which determines whether to switch the specific base station PN by comparing the signal level value of the specific base station PN through which the pilot signal is currently passed and the minimum signal level value; And a digital up-converter for converting a pilot signal of a specific base station PN, which is a baseband signal passing through the PN eliminator, to a digital IF signal. The method of claim 1, In case that an error occurs in the PN removal unit, the RF / IF processing unit, or the IF / RF processing unit, RF switching is performed so that each base station signal received through the donor antenna is directly transmitted to the mobile communication terminal through the service antenna without passing through the PN removal unit. Pien fixed RF repeater further comprises a RF switch to perform. Setting at least one base station PN information and a minimum signal level value as a reference for determining whether to switch the specific base station PN so as to pass only the pilot signal of the specific base station PN at any time in the RF repeater; Searching each base station PN by converting an RF signal of each base station received from neighboring base stations through a donor antenna into a digital IF signal and converting the base station signal into a baseband signal; Passing only pilot signals of a specific base station PN and removing pilot signals of the remaining base station PNs among the base station PNs searched for above; And converting the baseband signal, which is the pilot signal of the specific base station PN, passed into the digital IF signal into an RF signal and transmitting the RF signal to the mobile communication terminal through a service antenna. RF relay method. The method of claim 4, wherein Comparing the signal level value of a specific base station PN through which a current pilot signal is passed with a predetermined minimum signal level value while monitoring in real time the signal level of each found base station PN; If the signal level value of the specific base station PN is kept below the minimum signal level value for a predetermined time, converting the next higher priority among the preset base station PNs into a specific base station PN for passing the pilot signal. The RF relay method of the P & P fixed RF repeater, characterized in that. The method of claim 5, In switching the specific base station PN, if the signal characteristics of all preset base station PNs are not good, compare the signal levels of all the found base station PNs to convert the base station PN having the highest signal level into the specific base station PN to pass the pilot signal. The RF relay method of the PN fixed RF repeater, further comprising the step of converting.

Images