KR100357899B1 - Method for supplying synchronizing signal with base station controller in wireless BX(Branch Exchange) - Google Patents

Abstract

The present invention relates to a method for supplying a base station synchronization signal in a wireless communication exchange employing a digital enhanced cordless telecommunication (DECT) scheme, and more particularly, each base station required to ensure a handover function during a wireless call. The present invention relates to a method for supplying a base station synchronization signal to a base station controller provided in a wireless communication exchange for synchronization.

Implementing the present invention has the following advantages.

When adding / removing base station controllers, one-to-one corresponding clock supply unit is installed in the main base station controller, so if there is addition / deletion of base station controller, additional installation / complex disassembly process of additional equipment for clock supply to additional targets Even if this is not necessary, adding / removing only the clock transmission line between the clock supply unit and the clock relay unit can facilitate the addition / deletion of the controller and simplify the installation configuration due to the one-to-one correspondence method.

In addition, due to the one-to-one configuration, there is no concern about the overload problem that may occur in the source controller due to the addition of the conventional base station controller, and thus it is very easy to increase the call capacity. In other words, the overload problem caused by the transmission from one clock signal transmission node of the conventional source controller to the other base station controllers is one-to-one correspondence of the signal transmission node to each base station controller in the main controller of the exchange. Can be prevented.

Description

Method for supplying synchronizing signal with base station controller in wireless BX (Branch Exchange)

The present invention relates to a method for supplying a base station synchronization signal in a wireless communication exchange employing a digital enhanced cordless telecommunication (DECT) scheme, and more particularly, each base station required to ensure a handover function during a wireless call. The present invention relates to a method for supplying a base station synchronization signal to a base station controller provided in a wireless communication exchange for synchronization.

1 is a block diagram of a cellular wireless mobile communication system.

The cellular wireless mobile communication system is composed of a mobile telephone 10, a base station 20, a mobile switching center (MSC) 30, and a cell 40.

In cellular wireless mobile communication, the service area is divided into 'cells', which are small regional units. A cell means an area covered by a base station, and the size of the cell can be changed according to the density of the subscriber. The higher the density, the smaller the cell size. However, it is impossible to reduce the size of a cell indefinitely to increase subscriber capacity due to interference between adjacent cells.

There is also a Cell Splitting method that splits a cell to increase the capacity of the cell. The reason why the shape of the cell is shown as a hexagon is to make the diagram without space overlapping with the plane, and in fact, it does not have a hexagon shape and changes continuously according to the surrounding environmental conditions. Ideally, the shape of the cell is circular, and the hexagon is convenient for plotting close to the circle.

The subscriber can make a call only in an area receiving the signal of the base station 20, and the signal of the base station should have a strength enough to enable a call of a certain quality. Even if the subscriber moves between cells, the call is handed over, so the call is not dropped. During the call, the base station 20 continuously monitors the signal level from the terminal 10. If the subscriber moves to the cell boundary area and the signal level reaches the threshold, the base station 20 sends this fact to the MSC 30. Inform.

The MSC 30 instructs the surrounding base station to measure the signal level of the terminal and the base station with the strongest signal controls it. When the handoff process is completed, the new location information of the subscriber is sent to the MSC 30 and stored in the HLR (Home Location Register) 40. The handoff usually occurs within 0.4 seconds so the subscriber does not feel disconnected.

It is the MSC (Mobile Switching Center) that is responsible for the transmission and connection of all signals for the call. The MSC 30 is connected to a public switched telephone network (PSTN) 50 and serves to control a call as well as to connect a call. That is, the main functions of the MSC 30 are call processing, traffic management, and call transferring. The HLR 40 is connected to the MSC 30 to determine where the subscriber is currently located, and each base station 20 is connected to the exchange and is controlled by the MSC 30. The radio signal of the base station 20 is transmitted through the antenna and the base station 20 is responsible for the interface with the terminal 10. The terminal 10 is a conventional cellular phone, which is composed of a transceiver and a controller, and the transceiver functions to convert an electrical impulse signal into a wireless signal.

The deck method is one of various access methods applied to a base station, and is a wireless access method standardized by the European Telecommunication Standards Institute (ETSI), and transmits and receives a radio signal using a time division multiple access (TDMA) method. Correspondingly, there is a GSM (Group Special Mobile) method. The access method uses TDMA like the dec method, but the former is mainly applied to a small area, and the latter is mainly applied to a wide area.

Details of the decking scheme are presented in the European Telecommunications Standards Institute (ETSI) 300 175-1 to 175-9.

In the handover process, synchronization between base stations is required. In the case of handover, when a handover is performed, when a signal is transmitted from a base station (receiving side base station) of a current cell to a cell base station (receiving side base station), a signal is started at a transmitting side and a receiving side. This is done by matching the start synchronization of data frames occurring in two or more base station controllers.If the synchronization is not consistent, the voice signal is broken or discontinuously, and the call is eventually disconnected. This can happen.

In order to synchronize the base stations, the synchronization of the data frame clocks generated by the plurality of base station controllers in the wireless communication exchange is required.

Conventionally, when two or more base station controllers are settled in a wireless communication exchange, a base station controller is connected to a plurality of base station controllers in such a manner that one base station controller is a source of a data frame clock and the other base station controller receives a data frame clock from the source controller. I tried to synchronize.

2 illustrates a configuration of a conventional clock supply method.

However, in the conventional synchronization method, there must be a separate clock supply additional device 71 between the source controller 60 and the controller 70 supplied, and when there is an addition of the base station controller 70, the supply for the additional target is provided. Additional installation of additional equipment (71) is needed, and there is a concern that the overload problem of the source controller (60) may occur due to the addition. As a result, it is difficult to increase the call capacity, and the installation configuration is very complicated and added. The farther the controller is from the source controller, the higher the probability of noise generation in the supplied frame clock.

Accordingly, an object of the present invention is to solve the above problems, and an object of the present invention is to provide a base station controller equipped with a wireless communication exchange that can improve the efficiency of the frame clock by modifying the configuration shown in FIG. An alternative to the conventional method of supplying a base station synchronization signal (data frame clock) is provided.

1 is a block diagram of a cellular wireless mobile communication system.

2 is a configuration diagram of a conventional data frame clock supply method.

3 shows a block diagram of the present invention.

In order to achieve the above object, the configuration of the present invention

A main control unit which is responsible for overall control of the wireless communication switch and has a clock generator for generating a data frame clock (base station synchronization signal);

A plurality of base station controllers controlling a predetermined number of base stations connected to the wireless communication exchange;

A clock supply unit provided in the main controller and receiving the data frame clock from the clock generator and supplying the clock to the predetermined number of base station controllers;

The base station controller includes a clock relay unit which receives a clock from the clock supply unit and supplies a clock to the base station controller.

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

3 shows a block diagram of the present invention.

The main controller 100 controls the operation of the wireless communication switch (not shown) and controls all processes of wireless communication such as transmission and connection of all signals for a call, and the clock generator 101 controls the data frame clock (base station). Synchronization signal). The data frame may take various aspects according to an operation method applied to the exchange, and the DECT method may be an example.

The base station controller 110 controls the operations performed by the normal base station 120, and the number of base stations that can be controlled by one base station controller 110 is generally determined when designing a wireless communication network.

The clock supply unit 102 receives the clock from the clock generator 101 and supplies it to the base station controller 110 and has a one-to-one correspondence with each base station controller 110.

The clock relay unit 111 is a part of relaying the clock coming from the clock supply unit 102 to the base station controller 110, and the clock supply unit 102 transmits the clock to the clock relay unit 111 in various ways. The appropriate method of signal transmission method (for example, RS-232, RS-422, parallel method, etc.) is selected.

Implementing the present invention has the following advantages.

When adding / removing base station controllers, one-to-one corresponding clock supply unit is installed in the main base station controller, so if there is addition / deletion of base station controller, additional installation / complex disassembly process of additional equipment for clock supply to additional targets Even if this is not necessary, adding / removing only the clock transmission line between the clock supply unit and the clock relay unit can facilitate the addition / deletion of the controller and simplify the installation configuration due to the one-to-one correspondence method.

In addition, due to the one-to-one configuration, there is no concern about the overload problem that may occur in the source controller due to the addition of the conventional base station controller, and thus it is very easy to increase the call capacity. In other words, the overload problem caused by the transmission from one clock signal transmission node of the conventional source controller to the other base station controllers is one-to-one correspondence of the signal transmission node to each base station controller in the main controller of the exchange. Can be prevented.

Claims (6)

A method of supplying a base station synchronization signal (data frame clock) to a base station controller provided at the exchange in a wireless communication exchange for synchronization of each base station required to ensure a handover function in a wireless call: A main control unit for controlling overall operation of the wireless communication switch and having a clock generator for generating the data frame clock (base station synchronization signal); A base station controller installed at each of the base stations to control base stations connected to the wireless communication exchange; A plurality of clock supply units provided in the main controller and receiving the data frame clock from the clock generator and supplying the clock to the base station controller; Each of the base station controllers includes a clock relay unit configured to receive the data frame clock from the clock supply unit in one-to-one correspondence with the clock supply units and supply the data frame clock to the base station controller. A method of providing a base station synchronization signal to a base station controller in a wireless communication switch, characterized in that to enable. The method of claim 1, wherein the data frame has a format according to a digital enhanced cordless telecommunication (DECT) scheme. delete The method of claim 1, wherein the method of supplying the data frame clock from the clock supply unit to the clock relay unit is performed according to an RS-422 standard. The method of claim 1, wherein the base station controller and the clock supply unit have a maximum of four. 2. The method of claim 1, wherein the base station has a maximum of 32 base stations, up to 8 in total, for a base station controller.