Methods, intermediate radio units and radio heads of base station systems for transmission of antenna carriers

The invention claimed is: 1. A base station system, comprising: a baseband unit (BBU); and an intermediate radio unit (IRU) operable to communicate with a first radio head (RH), the first RH being arranged for wireless transmission in radio frequency (RF) of a plurality of antenna carriers to user equipments (UEs), wherein: the BBU is configured to produce a plurality of digital data flows, each digital data flow being associated with a different one of the plurality of antenna carriers, and the IRU is further configured to: receive in a baseband frequency range the plurality of digital data flows; multiplex the plurality of digital data flows into a frequency multiplexed digital intermediate bandwidth (IBW) signal comprising the plurality of digital data flows; process the digital IBW signal comprising the plurality of digital data flows to produce a processed digital IBW signal comprising the plurality of digital data flows; and transmit to the first RH the processed digital IBW signal comprising the plurality of digital data flows. 2. The base station system of claim 1 , wherein the IRU is configured to process the digital IBW signal by performing crest factor reduction (CFR) and digital pre-distortion (DPD) on the digital IBW signal. 3. The base station system of claim 2 , wherein the IRU is further configured to: receive, from the first RH, a digital Transmitter Observation Receiver (TOR) signal, the TOR signal being the digital IBW signal frequency-converted into RF and amplified by the first RH, wherein the IRU is configured to perform the DPD on the digital IBW signal by applying the digital TOR signal when performing the DPD. 4. The base station system of claim 3 , wherein the digital TOR signal is compressed. 5. The base station system of claim 1 , wherein the IRU is further configured to compress the digital IBW signal. 6. The base station system of claim 5 , wherein the compressing comprises resampling as well as vector quantization and/or transform coding of the IBW signal. 7. The base station system of claim 5 , wherein the compressing comprises a power spectrum density (PSD) dependent compression of the IBW signal. 8. The base station system of claim 1 , wherein the first RH has a first antenna and a second antenna, a first set of the digital data flows are representations of antenna carriers of the first antenna, a second set of the digital data flows are representations of antenna carriers of the second antenna, the frequency multiplexing into the IBW signal comprises: a) frequency multiplexing the first set of the digital data flows into a primary digital representation; and b) frequency multiplexing the second set of the digital data flows into a secondary digital representation, and the transmitting comprises transmitting the primary digital representation to the first RH and transmitting the secondary digital representation to the first RH. 9. The base station system of claim 1 , wherein the IRU and the BBU are integral components of a BBU node. 10. A method for modifying a base station system comprising a Common Public Radio Interface (CPRI) cross multiplexing unit (Mux), the method comprising: replacing the CPRI Mux with an intermediate radio unit (IRU); and connecting the IRU to a baseband unit (BBU) of the base station system, wherein the IRU comprises: a processor; and a memory, said memory containing instructions executable by said processor, wherein the IRU is operative for: receiving, from the BBU, a plurality of digital data flows, each digital data flow being associated with a different one of a plurality of antenna carriers, the plurality of digital data flows being received in a baseband frequency range; frequency multiplexing the plurality of digital data flows into a frequency multiplexed digital intermediate bandwidth (IBW) signal comprising the plurality of digital data flows; processing the IBW signal comprising the plurality of digital data flows to produce a processed IBW signal comprising the plurality of digital data flows; and transmitting the processed IBW signal comprising the plurality of digital data flows to a first radio head (RH) being arranged for wireless transmission in radio frequency (RF) of the plurality of antenna carriers to user equipments (UEs). 11. The method of claim 10 , wherein the IRU and the BBU are integral components of a BBU node. 12. A server comprising non-transitory computer readable medium storing a computer program comprising computer readable code means to be run in an intermediate radio unit (IRU) of a base station system, which computer readable code means when run in the IRU causes the IRU to perform a method comprising: receiving a plurality of digital data flows, each digital data flow being associated with a different one of a plurality of antenna carriers, the plurality of digital data flows being received in a baseband frequency range; frequency multiplexing the plurality of digital data flows into a frequency multiplexed digital intermediate bandwidth (IBW) signal comprising the plurality of digital data flows; processing the IBW signal comprising the plurality of digital data flows to produce a processed IBW signal comprising the plurality of digital data flows; and transmitting the processed IBW signal comprising the plurality of digital data flows to a first radio head (RH). 13. The server of claim 12 , wherein the step of processing the digital IBW signal comprises the IRU performing crest factor reduction (CFR) and digital pre-distortion (DPD) on the digital IBW signal. 14. The server of claim 13 , wherein the method further comprises the IR receiving, from the first RH, a digital Transmitter Observation Receiver (TOR) signal, the TOR signal being the digital IBW signal frequency-converted into RF and amplified by the first RH, and the step of performing the DPD on the digital IBW signal comprises applying the digital TOR signal when performing the DPD. 15. The server of claim 14 , wherein the received digital TOR signal is compressed. 16. The server of claim 12 , wherein the step of processing the digital IBW signal further comprises the IRU compressing the digital IBW signal. 17. The server of claim 16 , wherein the step of compressing comprises resampling as well as vector quantization and/or transform coding of the IBW signal. 18. The server of claim 16 , wherein the step of compressing comprises a power spectrum density (PSD) dependent compression of the IBW signal. 19. The server of claim 12 , wherein the first RH has a first antenna and a second antenna, a first set of the digital data flows are representations of antenna carriers of the first antenna, a second set of the digital data flows are representations of antenna carriers of the second antenna, the frequency multiplexing into the IBW signal comprises: a) frequency multiplexing the first set of the digital data flows into a primary digital representation; and b) frequency multiplexing the second set of the digital data flows into a secondary digital representation, and the transmitting comprises transmitting the primary digital representation to the first RH and transmitting the secondary digital representation to the first RH.