Radio system antenna connector arrangement

The invention claimed is: 1. A radio system comprising: a radio transceiver, an antenna device and an antenna connector arrangement, where the radio transceiver comprises a transmitter branch and a receiver branch for transmitting and receiving, respectively, radio signals via the antenna device, and where the antenna connector arrangement connects the antenna device to the transmitter branch and to the receiver branch, wherein the antenna connector arrangement comprises: a first tuneable band-stop filter, a second tuneable band-stop filter and a three-way-junction, where the first tuneable band-stop filter is connected to the transmitter branch and a transmitter input port of the three-way-junction to filter radio signals, and where the second tuneable band-stop filter is connected to the receiver branch and a receiver output port of the three-way-junction to filter radio signals, where the three-way-junction comprises a first antenna port that is connected to the antenna device. 2. The radio system according to claim 1 , wherein each of the first tuneable band-stop filter and the second tuneable band-stop filter comprises only one filter pole. 3. The radio system according to claim 1 , wherein: the first tuneable band-stop filter is adapted to suppress radio signals within a first frequency band corresponding to a frequency band of radio signals received via the receiver branch, and the second tuneable band-stop filter is adapted to suppress radio signals within a fourth frequency band corresponding to a frequency band of radio signals transmitted via the transmitter branch. 4. The radio system according to claim 3 , wherein: the first tuneable band-stop filter is adapted to suppress radio signals within the first frequency band by a suppression in a first suppression range between 15 dB and 25 dB, and the second tuneable band-stop filter is adapted to suppress radio signals within the fourth frequency band by a suppression in a second suppression range between 15 dB and 25 dB. 5. The radio system according to claim 1 , wherein the receiver branch comprises: a first amplifier arrangement, a second oscillator, a second mixer, a receiver filter and an analogue to digital converter, ADC, where the first amplifier arrangement is arranged to amplify a received first analogue signal at the first frequency band that is input from the second tuneable band-stop filter, where the second mixer is arranged to shift the amplified first analogue signal down in frequency to a second analogue signal within a second frequency band, and where the first ADC is arranged to convert the second analogue signal to a received first digital signal, where the receiver branch further comprises a signal subtractor connected to the first ADC. 6. The radio system according to claim 5 , wherein the transmitter branch comprises: a digital to analogue converter, DAC, a first oscillator connected to a first mixer and a second amplifier arrangement that in turn is connected to a coupler, where the DAC is arranged to convert an input second digital signal to a third analogue signal within a third frequency band, and where the first mixer is arranged to shift the third analogue signal up in frequency to a fourth analogue signal within a fourth frequency band. 7. The radio system according to claim 6 , wherein the coupler is arranged to feed a first coupled signal within the fourth frequency band that is constituted by a fraction of the fourth analogue signal to an interference cancellation arrangement comprised in the radio transceiver. 8. The radio system according to claim 7 , wherein the interference cancellation arrangement comprises: a third mixer that is arranged to shift the first coupled signal down in frequency to a second coupled signal within the third frequency band, an anti-aliasing filter, a second analogue to digital converter, ADC, and a digital signal processor, DSP, where the ADC is arranged to convert the filtered second coupled signal to a digital coupled signal, and where the DSP and the signal subtractor are arranged to subtract the digital coupled signal from the received first digital signal. 9. The radio system according to claim 1 , wherein the radio transceiver is in the form of a homodyne radio transceiver. 10. The radio system according to claim 1 , wherein the first tuneable band-stop filter and the second tuneable band-stop filter are constituted by electrically tuneable band-stop filters. 11. The radio system according to claim 1 , wherein the antenna device comprises a directive antenna. 12. The radio system according to claim 1 , wherein the antenna device comprises a microwave radio-link antenna. 13. The radio system according to claim 1 , wherein the three-way-junction is constituted by a circulator. 14. An antenna connector arrangement configured to: connect an antenna device to a transmitter branch and to a receiver branch of a radio transceiver, where the transmitter branch and the receiver branch are adapted for transmitting and receiving, respectively, radio signals via the antenna device, wherein the antenna connector arrangement comprises: a first tuneable band-stop filter, a second tuneable band-stop filter and a three-way-junction, where the first tuneable band-stop filter is connected to the transmitter branch and to a transmitter input port of the three-way-junction to filter radio signals, and where the second tuneable band-stop filter is connected to the receiver branch and a receiver output port of the three-way-junction to filter radio signals, where the three-way-junction comprises a first antenna port that is connected to the antenna device. 15. The antenna connector arrangement according to claim 14 , wherein each of the first tuneable band-stop filter and second tuneable band-stop filter comprises only one filter pole. 16. The antenna connector arrangement according to claim 14 , wherein: the first tuneable band-stop filter is adapted to suppress radio signals within a first frequency band corresponding to a frequency band of radio signals received via the receiver branch, and the second tuneable band-stop filter is adapted to suppress radio signals within a fourth frequency band corresponding to a frequency band of radio signals transmitted via the transmitter branch. 17. The antenna connector arrangement according to claim 16 , wherein: the first tuneable band-stop filter is adapted to suppress radio signals within the first frequency band by a suppression in a first suppression range between 15 dB and 25 dB, and the second tuneable band-stop filter is adapted to suppress radio signals within the fourth frequency band by a suppression in a second suppression range between 15 dB and 25 dB. 18. The antenna connector arrangement according to claim 14 , wherein: signals within the first frequency band are arranged to be input to the second tuneable band-stop filter from the three-way-junction, and signals within the fourth frequency band are arranged to be input to the three-way-junction from the first tuneable band-stop filter. 19. The antenna connector arrangement according to claim 14 , wherein the first tuneable band-stop filter and the second tuneable band-stop filter are constituted by electrically tuneable band-stop filters. 20. The antenna connector arrangement according to claim 14 , wherein the three-way-junction is constituted by a circulator. 21. An antenna arrangement comprising: an a