DE10032934A1 - Base station synchronisation system for micro cells uses mobile phone chip set does not need line - Google Patents

Abstract

The invention relates to a method for synchronizing base stations in a mobile radio system, after a method for synchronizing a mobile station with a base station is used to synchronize a first base station and at least a second, in particular the first, locally adjacent base station. This method can be used in particular in a micro-cell configuration of the mobile radio system.

Description

The transmission frequency of base stations in a mobile radio system may only deviate from a set frequency by a defined maxima len amount because a handover of a Mobilsta tion from one base station to another is too large deviation of the transmission frequencies of the two base stations from each other to terminate the connection between Mobilsta tion and base station. A mobile station can only do one certain frequency difference of the transmission frequencies of the base tolerate stations. In the Global System for Mobilcommunication (GSM), for example, is the maximum deviation of the transmission frequencies of different base stations according to 0.05 ppm the ETSI standard GSM 05.10 V7.

To meet these high requirements for the accuracy of the broadcasting to meet the base station sequence are different tech African solutions known:

The use of a highly precise quartzoszil is widespread lators, a so-called oval quartz (OCXO), within each Base station. An oval quartz is made by means of a temperature re Gelkreises kept at a constant temperature, whereby Frequency changes due to temperature fluctuations almost be excluded. The oval crystals of the base stations who from a base station controller (BSC: Base Station Controller) via a PCM signal from the Abis interface syn chronized. The disadvantage here, however, is that oval quartz crystals are very expensive and can be synchronized to any base station tion, a PCM connection must be available in order to synchronize to make available.  

Furthermore, it is known to be a highly accurate rubidiumoszilla gate in the base stations. Even without Synchronisa tion on a synchronization cycle of the PCM network Rubidium oscillators have sufficient accuracy to match the high requirements regarding the accuracy of the broadcasting quenz to fulfill. However, rubidium oscillators are also very expensive.

Another solution has been proposed in each base station a GPS receiver (GPS: Global Positioning System) to in install that is synchronized via GPS signals. As the Rubidium oscillators also do not require a GPS receiver Chronization on the part of the PCM network, but also point Sufficient frequency accuracy without synchronization on. However, GPS receivers have two major aftermath parts: On the one hand, they are similar to rubidium oscillators very expensive and on the other hand, each base station must be equipped with a GPS receiver has a good connection to a GPS satellite have, whereby the application areas of such base stations are very limited. For example, such Ba stations are not used in buildings in which usually GPS signals are not receivable.

In order to overcome the aforementioned disadvantages, was also proposed beaten to connect a separate line to each base station over which a highly precise clock to synchronize the Transmission frequency is made available. Similar to but also has a base station with a GPS receiver this base station has the disadvantage of limited use possibility. It is also very complex and expensive for everyone Base station a cable or a line with the highly accurate To lay tact.

The object of the present invention is therefore a method ren for the synchronization of base stations in a mobile radio system  to propose that, on the one hand, inexpensively is to be realized and on the other hand flexible use made possible.

This task is accomplished by a method with the characteristics of Claim 1 solved. Advantageous embodiments of the Procedures are the subject of the dependent claims.

The essence of the invention is a method known per se to synchronize a mobile station with a base station also for the synchronization of base stations with each other the use. In other words, it will be the same Method used to synchronize the mobile station and Ba sisstation is used, also for synchronization of Ba sisstations used with each other. Of this invention the underlying idea is essentially based on the deed thing that, in contrast to the synchronization of a base station tion and a moving mobile station the Synchronisa base stations with each other a higher accuracy enabled because base stations are static, i. H. not yourself move. Essentially, this means that the frequency accuracy in the receiver, d. H. a receiving base station, is the same as in the transmitter, i. H. a sending base station tion. The invention enables a cost reduction compared to the initially known and from the prior art or circuits. Furthermore, the technical effort is ge significantly reduced compared to the solutions described at the beginning graces, as for the mobile stations, especially for mobile phones fone, used chip sets also installed in base stations can be. Due to the high number of mobile phones The chipsets used for this are cheap and wide common. This is particularly advantageous if in egg nem mobile radio system so-called pico base stations for ver supply of micro cells can be used because in a sol Chen system very many base stations are needed. at  the method according to the invention is also an optional one required PCM line or connection with a highly exact synchronization clock is no longer required. The Ba stations that use the method according to the invention, can therefore also on PCM networks with a lower clock tied to accuracy or via connection techniques like that Ethernet known from the computer field can be networked.

The synchronization takes place in the GSM mobile radio system a base station and a mobile station by means of a Refe renz- or pilot signal, namely that as FCCH (Frequency Cor rection channel) designated control channel.

A first base station preferably supplies a macro Cell and others, in particular to the first locally adjacent Base stations barte a micro cell in the cellular system. Usually in a mobile radio system with a sol hierarchical configuration, i. H. a division into Macro cells, which in turn are divided into micro cells, achieved a very high user density, which in turn only can be accomplished by many base stations. A Micro cell typically has a cell radius of a few Meters to some 100 meters. About problems with handover from fast-moving mobile terminals a channel of the first base station is assigned to them, because this has a larger area than the second base station provided. Slow mobile terminals, on the other hand, communicate with the second base station (s).

The base station used in such a mobile radio system ions with small cell radii are usually or Pico base stations and typically supply wise mobile stations that move slowly. Yourself quickly moving mobile stations, however, are from the base station supplied, which serves the macro cell. Such a configuration  is typically used in shopping centers, Department stores or multi-storey high-rise buildings used: One The first base station to supply a macro cell is here at the top floor or on the roof of a building assembled; there are also two on each floor of the building Base stations are provided for the supply of micro cells. The floors or small areas form the Micro-cells. The first base station is now preferred clocked and synchronized via a PCM connection ten base stations by means of the method which is also used for syn chronization of a mobile station with a base station ver is applied. So that the first base station a ge as possible receives accurate clock, a hochge is preferably in this nauer Ovenquarz used, which via the PCM line on egg a given clock is synchronized. The advantage of this Embodiment is obvious: only one base stake tion, namely the first, the cellular system must be expensive be synchronized. The second base stations of the mobil radio systems, on the other hand, are inexpensive by means of the invent method according to the exact clock of the first Ba sisstation synchronized.

The synchronization of the second base stations takes place in egg ner preferred embodiment via a frequency correction Channel (FCCH: Frequency Correction Channel). The frequency cor rectification channel is like in the known cellular systems For example, GSM is the default logical channel hen. In the frequency correction channel in the GSM a frequency cor correction using "frequency correction bursts" carried out. A "frequency correlation burst" has one Length corresponding to the duration of 156.25 bits, of which 142 bits are logically zero. With the GMSK used in GSM (Gaussian Minimum Shift Keying) modulation gives this a pure sine wave, which is used for a frequency correction in egg ner base station is well suited.  

The second base station preferably sets its transmission frequency to the frequency of a signal received by the first base station with an accuracy corresponding to a mobile station. Essentially, the second base station thus works like a mobile station and synchronizes itself with the accuracy that is sufficient, but lower, for mobile stations. According to the GSM Recommendations (GSM 05.10 Version 7.0 ), this is only possible because the accuracy of the transmission frequency for mobile stations, i.e. for moving terminals, is equal to the required accuracy of the transmission frequency for the aforementioned Pico base stations and at 0.1 ppm is. Macro base stations, on the other hand, must have an accuracy of 0.05 ppm.

Further advantages and possible uses of the invention result from the following description of an embodiment Example in connection with the single drawing. This shows a configuration of base stations in one multi-storey building, such as a department store where the base stations by means of the invention Process synchronize.

On the roof of a multi-storey building 10 , a first base station MAKRO BTS 11 is placed. The first base station 11 defines a radio cell 12 in a known manner. Fer ner, the first base station 11 is connected via a PCM line 13 to a telecommunications network 14 .

The telecommunications network 14 is used to forward signals via the base station controller BSC (not shown) to the fixed network, for example to fixed network subscribers or remote base stations. The first base station 11 is also supplied with a synchronization clock sync via the PCM line 13 . The first base station 11 has a high-precision oval quartz OCXO, which is synchronized to the clock in the PCM network or fixed network by means of the synchronization clock sync.

Via a distributor 15 , second base stations 16 are also connected to the PCM line 13 and receive signals, for example in the Internet protocol (IP), which can be used for example for control purposes. For this purpose, the signals in the Internet protocol are made available by the distributor 15 .

Each floor of the multi-storey building 10 is supplied by a second base station 16 , which can be mounted at a central location on the ceiling of the floor, for example. Thus, one floor of the building 10 forms a micro cell in the mobile radio system.

The second base stations 16 on each floor 17 are now synchronized by radio from the first base station 11 on the roof of the building 10 via a frequency correction channel. The frequency correction channel is shown as a dashed arrow. Synchronization signals that correspond to the synchronization signals that are generated according to the method for synchronizing a mobile station and a base station run over the frequency correction channel. In other words, every second base station 16 is synchronized from the first base station 11 by radio like a mobile station to the synchronization clock of the first base station 11 and, in reverse, synchronizes itself like a mobile station to the clock specified by the base station. Through this synchronization, the transmission frequency of the second base stations 16 is synchronized, with an accuracy of at least 0.1 ppm to the synchronization clock of the first base station 11 .

This accuracy is, as already mentioned at the outset, completely sufficient, since in the micro-cells of the building 10 , that is to say the floors 17 , mobile stations that are supplied by a two-th base station 16 only move at a low speed. Due to the low speed, the change from micro-cell to another, that is, the change from one base station to another base station is also carried out at a very low speed, so that the requirements regarding the differences in the sensor frequencies of the two base stations can be lower than at a higher speed of the mobile station. In addition, the second base stations 16 are stationary or static and the synchronization via the frequency correction channel can be carried out very precisely, since the properties of the frequency correction channel hardly change in contrast to a moving mobile station.

Claims (7)

1. A method for synchronization of base stations ( 11 , 16 ) in a mobile radio system, characterized in that the synchronization between a first base station ( 11 ) and at least a second, in particular for the first neighboring base station ( 16 ) with a method for synchronization a mobile station is carried out with a base station. 2. The method according to claim 1, characterized in that the first base station ( 11 ) supplies a macro cell ( 10 ) and the second base station ( 16 ) a micro cell ( 17 ) in the Mo bilfunk system. 3. The method according to claim 2, characterized in that the first base station ( 11 ) via a PCM line ( 13 ) is clocked. 4. The method according to claim 3, characterized in that the first base station ( 11 ) has a highly accurate Ovenquarz OCXO, which is synchronized via the PCM line ( 13 ) to a predetermined clock. 5. The method according to any one of the preceding claims, characterized in that the second base station ( 16 ) via a frequency correction channel FCCH with the first base station ( 11 ) is synchronized. 6. The method according to any one of the preceding claims, characterized in that the second base station ( 16 ) adjusts its transmission frequency to the frequency of a signal received by the first base station ( 11 ) with at least the accuracy according to a mobile station. 7. The method according to claim 6, characterized in that the second base station ( 16 ) synchronizes its transmission frequency with at least the accuracy of about 0.1 ppm to the frequency of a signal received by the first base station ( 11 ).