Frontend module and frontend for a radio frequency test device, and method for operating a frontend module

What we claim is: 1. A frontend for a radio frequency test device, the frontend comprising at least two frontend modules, each frontend module comprising: a first radio frequency interface adapted to connect each respective frontend module with at least one of a signal generator and a receiving device; a second radio frequency interface adapted to connect each respective frontend module with a device under test; a third radio frequency interface adapted to connect each respective frontend module of the at least two frontend modules with a first further frontend module; a fourth radio frequency interface adapted to connect each respective frontend module of the at least two frontend modules with a second further frontend module; and a signal distribution device adapted to selectively couple the first radio frequency interface, the second radio frequency interface, the third radio frequency interface and the fourth radio frequency interface, wherein the third radio frequency interface of a first frontend module is coupled with the fourth radio frequency interface of a second frontend module. 2. The frontend of claim 1 , wherein each respective signal distribution device of the at least two frontend modules is adapted to: provide a signal received by the first radio frequency interface to at least one of the second radio frequency interface and the third radio frequency interface, provide a signal received by the fourth radio frequency interface to at least one of the second radio frequency interface and the third radio frequency interface, provide a signal received by the second radio frequency interface to at least one of the first radio frequency interface and the fourth radio frequency interface, and provide a signal received by the third radio frequency interface to at least one of the first radio frequency interface and the fourth radio frequency interface. 3. The frontend of claim 1 , wherein at least one second radio frequency interface comprises a bidirectional external terminal adapted to receive radio frequency signals from the device under test and to provide radio frequency signals to the device under test. 4. The frontend of claim 3 , wherein at least one second radio frequency interface comprises a circulator. 5. The frontend of claim 4 , wherein the circulator comprises an external port, a first internal port and second internal port, the circulator is adapted to provide radio frequency signals received from the signal distribution module on a first internal port to the bidirectional external terminal, and to provide radio frequency signals received on the bidirectional external terminal to a second internal port. 6. The frontend of claim 1 , wherein at least one second radio frequency interface comprises an external input terminal adapted to receive signals from the device under test. 7. The frontend of claim 1 , wherein at least one second radio frequency interface comprises an external output terminal adapted to provide signals to the device under test. 8. The frontend of claim 1 , wherein each respective first radio frequency interface of each of the at least two frontend modules comprises at least two input terminals, wherein each input terminal being adapted to receive signals from a signal generator. 9. The frontend of claim 8 , wherein each respective signal distribution device of each of the at least two frontend modules is adapted to separately provide each signal received by an input terminal of the first radio frequency interface to at least one second radio frequency interface and the third radio frequency interface. 10. The frontend of claim 1 , wherein at least one signal distribution device comprises a combiner for combining signals received by the first radio frequency interface and the fourth radio frequency interface. 11. The frontend module of claim 1 , wherein at least one signal distribution device comprises a splitter for splitting a signal received by the second radio frequency interface and for providing the split signal to the first radio frequency interface and the fourth radio frequency interface. 12. A radio-frequency test device, the device comprising: a signal generator; a receiving device; a frontend for a radio frequency test device, the frontend comprising at least two frontend modules, each frontend comprising: a first radio frequency interface adapted to connect each respective frontend with at least one of the signal generator and the receiving device; a second radio frequency interface adapted to connect each respective frontend with a device under test; a third radio frequency interface adapted to connect each respective frontend with a first further frontend; a fourth radio frequency interface adapted to connect each respective frontend with a second further frontend; and a signal distribution device adapted to selectively couple the first radio frequency interface, the second radio frequency interface, the third radio frequency interface and the fourth radio frequency interface; wherein the third radio frequency interface of a first frontend of the at least two frontend modules is coupled with the fourth radio frequency interface of a second frontend of the at least two frontend modules; wherein the signal generator is adapted to provide radio frequency signals to the first radio frequency interface of the frontend modules; and wherein the receiving device is adapted to receive radio frequency signals provided by the first radio frequency interface of the frontend modules. 13. The radio frequency test device of claim 12 , further comprising a radio frequency splitter adapted to split a radio frequency signal provided by the device under test and to provide the split radio frequency signal to second radio frequency interfaces of at least two frontend modules. 14. The radio frequency test device of claim 12 , further comprising a radio frequency combiner adapted to combine radio frequency signals provided by second radio frequency interfaces of at least two second frontend modules and to provide the combined radio frequency signals to a device under test.