Determining a centre frequency in an unlicensed frequency band to use

The invention claimed is: 1. A method for determining a centre frequency in an unlicensed frequency band to use for downlink communication in a cellular network, the method being performed in a network node and comprising: performing a coarse pre-scan with a first dynamic range for high signal levels, when the network node is in a transmit time slot, yielding respective coarse measurement of signal levels for a plurality of frequencies in the unlicensed frequency band; performing an accurate measurement with a second dynamic range for low signal levels, when the network node is in a receive time slot, yielding respective accurate measurement of signal levels for a plurality of frequencies in the unlicensed frequency band; and determining at least one frequency to use as a centre frequency for a downlink communication channel in the unlicensed frequency band, wherein the centre frequency is selected such that frequencies for which the coarse measurement and/or the accurate measurements indicate a high signal level is avoided. 2. The method according to claim 1 , wherein the performing the coarse pre-scan is performed using a transmitter observation receiver (TOR). 3. The method according to claim 2 , wherein the performing the accurate measurement is performed using the TOR with a first configurable gain; and wherein the performing the coarse pre-scan is performed using the TOR with a second configurable gain, wherein the first configurable gain is higher than the second configurable gain. 4. The method according to claim 2 , wherein the performing the accurate measurement is performed using the TOR and a low noise amplifier; and wherein the performing the coarse pre-scan is performed using the TOR without the low noise amplifier. 5. The method according to claim 1 , wherein the performing the accurate measurement is performed using a receive chain of the network node arranged to be used also for receiving uplink communication. 6. The method according to claim 1 , further comprising: determining a set of candidate frequencies as the frequencies for which course measurements of signal levels are lower than a threshold level; and wherein of performing the accurate measurement is only performed for the set of candidate frequencies. 7. The method according to claim 2 , wherein the determining the at least one frequency is performed in the same receive time slot as performing the accurate measurement. 8. A network node for determining a centre frequency in an unlicensed frequency band to use for downlink communication in a cellular network, the network node comprising: a processor; and a memory storing instructions that, when executed by the processor, causes the network node to: perform a coarse pre-scan with a first dynamic range for high signal levels, when the network node is in a transmit time slot, yielding a coarse measurement of signal levels for a plurality of frequencies in the unlicensed frequency band; perform an accurate measurement with a second dynamic range for low signal levels, when the network node is in a receive time slot, yielding an accurate measurement of signal levels for a plurality of frequencies in the unlicensed frequency band; and determine at least one frequency to use as a centre frequency for a downlink communication channel in the unlicensed frequency band, wherein the centre frequency is selected such that frequencies for which the coarse measurement and/or the accurate measurements indicate a high signal level is avoided. 9. The network nodes according to claim 8 , wherein the instructions to perform a coarse pre-scan are performed using a transmitter observation receiver (TOR). 10. The network node according to claim 9 , wherein the instructions to perform the accurate measurement are performed using the TOR with a first configurable gain; and wherein the instructions to perform the coarse pre-scan are executed using the TOR with a second configurable gain, wherein the first configurable gain is higher than the second configurable gain. 11. The network node according to claim 9 , wherein the instructions to perform the accurate measurement are performed using the TOR and a low noise amplifier; and wherein the instructions to perform the coarse pre-scan are executed using the TOR without the low noise amplifier. 12. The network node according to claim 8 , wherein the instructions to perform the accurate measurement are executed using a receive chain of the network node also used for receiving uplink communication. 13. The network node according to claim 8 , wherein the instructions further comprise instructions that, when executed by the processor, cause the network node to: determine a set of candidate frequencies as the frequencies for which course measurements of signal levels are lower than a threshold level; and wherein the instructions to performer the accurate measurement are only performed for the set of candidate frequencies. 14. The network node according to claim 8 , wherein the instructions to determine the at least one frequency comprise instructions that, when executed by the processor, cause the network node to determine at least one frequency in the same receive time slot as performing the accurate measurement. 15. A network node comprising: means for performing a coarse pre-scan with a first dynamic range for high signal levels, when the network node is in a transmit time slot, yielding respective coarse measurement of signal levels for a plurality of frequencies in an unlicensed frequency band; means for performing an accurate measurement with a second dynamic range for low signal levels, when the network node is in a receive time slot, yielding respective accurate measurement of signal levels for a plurality of frequencies in the unlicensed frequency band; and means for determining at least one frequency to use as a centre frequency for a downlink communication channel in the unlicensed frequency band in a cellular network, wherein the centre frequency is selected such that frequencies for which the coarse measurement and/or the accurate measurements indicate a high signal level is avoided. 16. A non-transitory computer readable storage medium having program code stored therein for determining a centre frequency in an unlicensed frequency band to use for downlink communication in a cellular network, the program code which, when run on a network node, causes the network nodes to perform operations comprising: performing a coarse pre-scan with a first dynamic range for high signal levels, when the network node is in a transmit time slot, yielding a coarse measurement of signal levels for a plurality of frequencies in the unlicensed frequency band; performing an accurate measurement with a second dynamic range for low signal levels, when the network node is in a receive time slot, yielding an accurate measurement of signal levels for a plurality of frequencies in the unlicensed frequency band; and determining at least one frequency to use as a centre frequency for a downlink communication channel in the unlicensed frequency band, wherein the centre frequency is selected such that frequencies for which the coarse measurement and/or the accurate measurements indicate a high signal level is avoided. 17. The non-transitory computer readable storage medium according to claim 16 , wherein the program code, when run on the network node, further performing the coarse pre-scan using a transmitter observation receiver (TOR). 18. The non-transitory computer readable storage medium according to claim 17 , wherein