System and method for detecting vibrations in rotating machinery

The invention claimed is: 1. A system comprising: a driveline including a rotatable first component rotatable about a rotational axis relative to another second component; an electrical machine including a rotor and a stator rotatable with respect to one another, the rotor being arranged to at least one chosen from drive the driveline and be driven by the driveline, the electrical machine being adapted to provide signals indicative of at least one chosen from 1) a motion and a force between the rotor and the stator and 2) a torque applied on the rotor; and an analysis unit adapted to receive the signals and to detect a vibration signature of the first component with respect to the second component based on the signals; wherein the electrical machine comprises a plurality of coils configured to supply at least a portion of the torque applied on the rotor, wherein the signals are produced by the plurality of coils, the signals being based on differences of at least one chosen from voltages or electrical currents of the plurality of coils. 2. The system according to claim 1 , wherein a fluid is arranged in a clearance between the first component and the second component and wherein the rotor of the electrical machine and the rotatable component are fixedly connected to one another. 3. The system according to claim 1 , wherein the signals are based on asymmetric magnetic forces in the electrical machine. 4. The system according to claim 1 , wherein the analysis unit is adapted to detect the vibration signature within a predetermined frequency range, to determine a property of the vibration signature based on the signals at different points in time, and to generate a command based on a comparison of the property of the vibration signature with a predetermined threshold, and wherein the analysis unit is further adapted to generate a command based on a comparison of the property of the vibration signature with a predetermined threshold, wherein the property of the vibration signature comprises at least one chosen from a frequency, phase, amplitude and time-history trend. 5. The system according to claim 1 , wherein the driveline further comprises at least one chosen from a turbine and a compressor. 6. The system according to claim 1 , wherein the analysis unit is adapted to determine whether the received signals indicate that the vibration signature has a frequency within a predetermined frequency range, and an amplitude above a predefined threshold. 7. The system according to claim 1 , comprising: two or more of the driveline, each including a rotatable first component rotatable about a rotational axis relative to another second component; and two or more of the electrical machine, each having a rotor and a stator rotatable with respect to one another, the rotor being arranged to at least one chosen from drive the driveline and be driven by at least one of the drivelines, the two or more electrical machines being adapted to provide signals indicative for at least one chosen from 1) a motion and a force between the respective rotor and the stator and 2) a torque applied on the respective rotor; wherein the analysis unit is adapted to receive the signals and to detect a vibration signature of each of the rotatable first components of the two or more drivelines with respect to the respective other second component based on the signals. 8. The system according to claim 7 , wherein the analysis unit is adapted to control at least one of the two or more electrical machines and another controllable device of the system based on the vibrations detected with the two or more electrical machines. 9. The system according to claim 7 , wherein the rotors of the two or more electrical machines are rotatable with a variable ratio of speeds with respect to one another, the analysis unit being further adapted for controlling rotation of the rotor of one of the two or more electrical machines depending on a speed ratio R of speeds of the rotors. 10. The system according to claim 9 , wherein the analysis unit is further adapted for controlling rotation of the rotor of one of the two or more electrical machines depending on the speed ratio so as to avoid an integer ratio of speeds of the rotors of the two or more electrical machines. 11. The system according to claim 1 , wherein the analysis unit is further adapted to determine a frequency of an orbiting motion of the rotor of the electrical machine. 12. The system according to claim 1 , wherein the analysis unit is further adapted to determine at least one chosen from a time and a phase delay of signals measured by at least two of the coils of the electrical machine. 13. The system according to claim 1 , wherein the rotor of the electrical machine is rotatable about an axis that forms an angle with the rotational axis of the first component with respect to the second component. 14. The system according to claim 1 , wherein the rotor of the electrical machine is rotatably supported by a magnetic bearing. 15. The system according to claim 1 , and further comprising a turbomachine rotatably coupled with the driveline, wherein an engine controller of the turbomachine is adapted to provide at least one signal to the analysis unit, and wherein one or more vibration sensors are arranged to measure and provide signals indicative for at least one of amplitude, frequency and phase of a vibration to the analysis unit. 16. The system according to claim 1 , in an engine of an aircraft. 17. The system according to claim 16 , comprising two or more of the driveline mounted on the aircraft spaced apart from one another, each driveline being coupled with one of two or more electrical machines, wherein at least one driveline is arranged at one wing of the airplane and at least another driveline is arranged at a different wing of the airplane. 18. A control system, comprising: an analysis unit adapted to receive signals from an electrical machine having a rotor and a stator rotatable with respect to one another, the rotor being arranged to at least one chosen from drive a driveline and be driven by the driveline, the signals being indicative of at least one chosen from 1) a motion and a force between the rotor and the stator and 2) a torque applied on the rotor, wherein the analysis unit is adapted to detect a vibration signature of a rotatable first component with respect to another second component based on the signals; wherein the electrical machine comprises a plurality of coils configured to supply at least a portion of the torque applied on the rotor, wherein the signals are produced by the plurality of coils, the signals being based on differences of at least one chosen from voltages or electrical currents of the plurality of coils. 19. A method for detection of vibration at a driveline including a rotatable first component rotatable about a rotational axis relative to another second component, wherein a rotor of an electrical machine is arranged to at least one chosen from drive the driveline and be driven by the driveline, the method comprising the steps of: providing, by the electrical machine, signals indicative of at least one chosen from 1) a motion and a force between the rotor and the stator and 2) a torque applied on the rotor; and detecting, by an analysis unit receiving the provided signals, a vibration signature of the first component with respect to the second component based on the signals; providing that the electrical machine comprises a plurality of coils configured to supply at least a portion of the torque ap