DE19801495C2 - Radio station for data transmission in a radio communication system - Google Patents

Description

The invention relates to a radio station for data transmission in a radio communication system according to the Oberbe handle of claim 1.

Radio stations are used for the transmission of information Using electromagnetic waves. The frequency spectrum of the in Question coming electromagnetic waves ranges from a few KHz up to several 100 GHz, in particular the frequency spectrum in the lower GHz range due to the development of Cellular technology has gained in importance. This is how radio becomes stations for mobile radio technology at approx. 0.9, 1.8 and 1.9 GHz used. Such is a radio communication system for example the GSM cellular network (Global System for Mobile Communications).

The transmitted information is with a GSM cellular network network digital data, usually from the radio stations are both to be sent and to be received. From DE 44 32 928 A1 a generic radio station is known, the two Sen contains deeinrichtung, each with a transmitting device a radio transmission channel for a data to be transmitted provides electricity and a transmission device by means of a Synthesizers can be set to a transmission frequency. The data to be sent are stored in the sending devices testifies. The data of the Emp catch signals evaluated.

It is also known from this patent that baseband Hopping and synthesizer hopping can be combined. By this combination is intended to be a frequency hopping Hopping) are made possible, so that interference effects mini be lubricated. Since the radio station described only one antenna  used, the radiation diagrams differ of data broadcast at the same transmission frequency Not. The radio station described uses a Multi plexer between circuit parts for the radio frequency and for baseband processing.

Furthermore, from DE 195 46 599 A1 a transmission device be knows the multiple antennas by means of a switch to Can choose to transmit the transmission signals. From WO 93/20625 A1 it is known that different antennas are used to reduce transmission power losses and a to achieve spatial diversity of the transmission signals.

The invention has for its object a radio station specify which further minimizes interfe Effective effects with little circuitry effort possible light. The radio station starts this task from the features of the preamble of claim 1 by solved the characteristics of the characteristic part. advantageous Further training can be found in the subclaims.

According to the invention there is a control device in the radio station to control an algorithm for baseband hopping and intended for synthesizer hopping, so that by Baseband hopping the data streams assigned to the antennas the. The data streams as output data of a baseband ver work according to the algorithm for the baseband Hopping controlled in such a way that it is direct, i.e. H. without order switch, are distributed to the antenna that the ent speaking radio transmission channel with the desired transmission provides frequency. By eliminating the multiplexer or changeover switch reduces the circuitry Effort, which makes the entire radio station more economical can be produced.

Since one or advantageously several transmitting devices can be tuned to selectable transmission frequencies  a flexible combination of synthesizer hopping Frequency hopping and antenna hopping adjustable. The Com Binations are possible with several tunable transmitters  diverse and guarantee a large decor lation between different sections (data blocks) of a data stream, which in turn statistically leads to a leads transmission quality. This decorrelation be limits the influence of interference, so that despite strong short-term interference, a data detection at the receiving end tion can be carried out.

According to an advantageous development of the invention the transmitters each consist of a digital part and an analog part, with the baseband hopping Ver streams of data from the digital parts to the analog parts be shared. Leave in the analog parts with the synthesizers arbitrarily set any transmission frequencies and by means of of the baseband hopping algorithm arbitrarily on the analog parts to distribute. A switch in the high frequency range is therefore through the combination of baseband hopping and synthesizer Hopping replaced.

For radio communication systems whose radio transmission is based on a time log is carried out - for example a TDMA (time division multiple access) drive - the assignment of the data streams is advantageous synchronized with the time protocol of data transmission. It can be used for each data block or for a large number of Data blocks the transmission frequency or antenna according to one Frequency hopping can be changed. For example the data streams are assigned time slot or frame by frame, with the data blocks possibly being nested is observed in order to make successive data blocks as possible to decorrelate.

According to a further advantageous embodiment of the invention are at least two transmitters over at least one Combination device (combiner) connected to an antenna. This allows a large number of transmitters to be used on one limited number of antennas can be switched. However, it is  also possible that transmitters directly with each are connected to an antenna. According to the individual Conditions for a radio station, d. H. available space for antennas and number of transmitters, can selected an advantageous configuration for the radio station become.

By assigning a transmission device, a individual radiation pattern selected if the Antennas spatially at least with a minimum distance separate locations are appropriate. One more way the decorrelation is that an antenna or a Plurality of antennas with different radiation Polarization or different radiation direction (smart antenna) effect. It is very advantageous that for receiving and a different number for sending is used by antennas. For example, the Emp only catch two antennas according to diversity reception used, while transmitting at least three antennas are used, at least one of these antennas cross is polarized. This antenna combination can also be independent depending on the combination of baseband hopping and synthesis sizer hopping can be used to advantage.

According to an advantageous embodiment of the invention the control device a variable assignment of transmission fre sequences and antennas to a data stream adjustable. In order to can take advantage of frequency hopping (frequency hopping) and antenna jumping (antenna hopping) with each other be connected as best as possible. Advantageously, by the control device transfer parameters of the data wear evaluated or pre-defined parameters used and then coordinated the variable assignment. So that can for each connection between, for example, a base station and a mobile station one or a plurality of opti painterly combinations of transmission frequencies and transmission antennas be chosen.  

It is within the scope of the invention that the control device contains a memory, so the algorithm for a base band hopping and / or synthesizer hopping by programmtech African setting of parameters can be modified. This ensures a variable assignment. Furthermore can, for example, by setting parameters an operations and maintenance center for data transmission can be set individually for each connection.

Radio stations according to the invention are described below under Zu using graphic representations based on Aus management examples are explained in more detail.

Show

Fig. 1, a radio station with combiners,

Fig. 2 is a radio station without combining means,

Fig. 3 shows a realization of the baseband hopping,

Fig. 4 shows a combination of transmitting devices and receiving devices.

The radio stations described below by way of example are designed as base stations BS of a GSM mobile radio system. Further explanations on the structure and function of a base station BS can, for example, the patent DE 197 55 379 C2 be removed.

The base station BS of FIG. 1 consists of a central unit C, the functions not shown for connecting the base station BS with other components of a radio communication system, and the modules for connection to an operations and maintenance center, for generating alarm messages, assigned to power supply, etc.

This central unit C is with digital parts TXD1 to TXD4 connected by transmitters TX of the base station BS. about  an algorithm for baseband hopping, for example controls addressing on a bus system Digital parts TXD1 to TXD4 with analog parts TXA1 to TXA4 connected. Two of these analog parts TXA1, TXA2 and TXA3 and TXA4 are each via a combiner K, at for example a power combiner, with one each Antenna A1, A2 connected.

The base station BS also contains a control device SE using both the baseband hopping algorithm as well controls an algorithm for synthesizer hopping. The Ana Log parts TXA1 to TXA4 each contain a synthesizer Syn, which individually transmits the transmission frequencies f1 to f4 of the Ana log parts TXA1 to TXA4. It is also in the frame the invention that only some analog parts from synthesizers are tunable.

Data streams d1 to d4 are thus for the one baseband processing in the digital parts TXD1 to TXD4 is arbitrarily distributed to analog parts TXA1 to TXA4 and there over freely selectable transmission frequencies f1 to f4 shine. This creates the possibility of flexible Design of frequency and antenna jumping without a Switchers for high-frequency signals must be provided.

The base station BS according to FIG. 2 is modified in that the combining devices K are dispensed with and each analog part TXA1 to TXA4 is connected directly to an antenna A1 to A4. This extends the selection of an antenna A1 to A4 made simultaneously by the selection of the analog part TXA1 to TXA4 compared to the base station of FIG. 1, since a choice is now made between four different antennas A1 to A4. The choice of an antenna A1 to A4 also results in individual radiation characteristics with a minimum distance between the mounting locations of the antennas A1 to A4. Similar to frequency hopping, the decorrelation between different sections of the data streams d1 to d4 is thus increased.

FIG. 2 also shows that the control device SE contains a memory SP, parameters p for the algorithms for baseband hopping and for synthesizer hopping being stored in the memory. These parameters p are permanently set or are transmitted to the base station BS by an operation and maintenance center or are set by the base station BS itself on the basis of the evaluation of the transmission conditions for the data transmission to a mobile station. Both transmission frequencies f1 to f4 and antennas A1 to A4 that guarantee the best transmission conditions for this connection can thus be selected individually.

Should reference to FIG. 3, the baseband hopping clear who the. The central unit C contains a switch V, which distributes the data streams d1 to d3 from a network-side connection to three different transmitters TX for the transmission case shown.

In these transmitters TX is connection-specific digital signal processing, d. H. the baseband processing processing (nesting, digital modulation, digital / analog Conversion) for data streams d1 to d3. The processed digital data d1 to d3, however, are returned transmitted to the central unit C and by this according to the Algorithm for baseband hopping on analog parts TXA1 bis TXA3 distributed, whereby during a time interval (time slot) Analog and digital part for a data stream d1 to d3 not necessarily in the same transmitter TX must be arranged. After analog signal processing (Mixing, amplifying, filtering) in an analog part TXA1 to TXA3 the data streams d1 to d3 the antennas A1 to A3 fed. With many transmitters TX, the data d1 of a connection advantageously continuously from one  Digital part TXD1 are processed, during which the Ana log processing and radiation can change constantly.

For example, digital signal processing for the Data stream d1 in the digital part TXD1 of the first transmission device TX performed while analog signal processing in the analog section TXA3 of the third transmitter TX is carried out and also the radiation of the data stream d1 the third antenna A3 is running. It is also clear raise that the antennas A1 to A3 are not the same design must have. So it is advantageous that one of the antennas NEN, for example the centrally located antenna A2, as cross-polarized antenna is executed.

In Fig. 4 also on the Emp case not previously shown is discussed. Duplexers DX connect the antennas A1 and A3 to a respective transmitting device, ie the analog part TXA1 and TXA4, and an analog receiving device RXA1 and RXA2. The receiving devices RXA1 and RXA2 realize diversity reception and splitting of the received signals for four digital receiving devices RXD1 to RXD4. It should be emphasized that it uses a different number of transmit and receive antennas. Two transmission devices, ie their analog part TXA2 and TXA3, are connected to the second antenna A2 via a combining device K. The antenna A2 contains mutually cross-polarized antenna elements that are either used jointly by the two data streams or individually.

The embodiments shown in the exemplary embodiments, d. H. the use of combination devices K, duplexers DX and different antennas A1 to A4 can also be used in others Can be combined with each other.

The radio stations shown are particularly suitable for one Use in GSM mobile radio systems, but also in other radio Communication systems, e.g. B. with TDMA radio interface.

Claims (12)

1. radio station (BS) for data transmission in a radio communication system,
with multiple transmitters (TX),
wherein each transmission device (TX) provides a radio transmission channel for a data stream (d1, d2) to be transmitted and a transmission device (TX) is set to a transmission frequency (f1, f2, f3, f4) by means of a synthesizer (Syn),
whereby a baseband hopping is combined with a synthetic hopping for a transmitting device (TX),
with an antenna (A1) which is connected to the transmission devices (TX),
characterized by
at least one second antenna (A2), the antennas (A1, A2) allowing radiation with different polarization, and
a control device (SE) for controlling an algorithm for the baseband hopping and the synthesizer hopping, so that the data streams (d1, d2) are assigned to the antennas (A1, A2) with different polarization by the baseband hopping. 2. radio station (BS) according to claim 1, characterized, that transmitters (TX) each from a digital part (TXD1, TXD2) and an analog part (TXA1, TXA2) exist and by baseband hopping the data streams (d1, d2) from the Digital parts (TXD1, TXD2) on the analog parts (TXA1, TXA2) be distributed. 3. radio station (BS) according to claim 1 or 2, characterized, that the assignment of the data streams (d1, d2) with a time pro tokoll the data transmission is synchronized. 4. radio station (BS) according to claim 3, characterized,  that the radio communication system is a TDMA transmission ver drive used and the assignment of the data streams (d1, d2) time slot or frame by frame. 5. radio station (BS) according to any one of the preceding claims, characterized, that several transmitters (TXA1, TXA2) at least a combiner (K) connected to an antenna (A1) they are. 6. radio station (BS) according to one of claims 1 to 4, characterized, that the transmitters (TXA1, TXA2, TXA3, TXA4) with one antenna (A1, A2, A3, A4) are connected. 7. radio station (BS) according to one of claims 5 or 6, characterized, that by assigning a transmitter (TXA1, TXA2) in addition, an individual radiation characteristic is chosen. 8. radio station (BS) according to claim 7, characterized, that the antennas (A1, A2, A3, A4) are spatially separated and / or enable different radiation directions. 9. radio station (BS) according to one of claims 5 to 8, characterized, that for receiving a different number to send of antennas (A1, A2, A3, A4) is used. 10. radio station (BS) according to one of claims 5 to 9, characterized, that by the control device (SE) a variable assignment of transmission frequencies (f1, f2, f3, f4) and antennas (A1, A2, A3, A4) to a data stream (d1, d2) is adjustable.   11. radio station (BS) according to claim 10, characterized, that by the control device (SE) transmission parameters be evaluated and then the variable assignment abge is true. 12. radio station (BS) according to one of the preceding claims, characterized, that the control device (SE) has a memory (SP) for para meter (p), so the algorithm for a baseband Hopping and a synthesizer hopping through programming Setting parameters is modified.