Sensor assembly for bearing with wireless temperature sensor

The invention claimed is: 1. A sensor assembly used in a rolling element bearing including at least one bearing cage configured to accommodate at least one rolling element of the bearing, the sensor assembly comprising: a driven oscillator circuit configured to be attached to a stationary element of the bearing, the driven oscillator circuit including; a primary coil configured to interact with a passive oscillator circuit, a function generator configured to generate signals to be transmitted to a passive oscillator circuit by the primary coil, a tuned receiver configured to receive a feedback signal corresponding to the signals generated by the function generator and reflected from the passive oscillator circuit: the passive oscillator circuit including an inductor coil and a temperature dependent capacitance, the passive oscillator circuit being configured to be attached to the bearing cage such that the inductor coil interacts with the primary coil of the driven oscillator circuit, and a directional coupler is provided in a signal line between the function generator and the primary coil of the driven oscillator circuit system, wherein the directional coupler is arranged to output the feedback signal reflected from the passive oscillator circuit in the cage toward the tuned receiver. 2. The sensor assembly according to claim 1 , further comprising a transformer in a signal line having a coaxial cable between the directional coupler and the primary coil. 3. The sensor assembly according to claim 2 , wherein the transformer is configured as a current mode balun. 4. The sensor assembly according to claim 1 , further comprising a signal processing unit configured to analyze the feedback signals received by the tuned receiver. 5. The sensor assembly according to claim 4 , wherein the signal processing unit is configured to calculate an average of the signal over a period sufficient for the cage to go through at least one revolution in relation to a non-rotating ring of the bearing. 6. The sensor assembly according to claim 1 , further comprising an analogue-to-digital converter receiving an output of the tuned receiver. 7. The sensor assembly according to claim 1 , wherein both the primary coil and the inductor coil are configured to extend over an entire circumference of the bearing cage. 8. A bearing comprising: a sensor assembly, the sensor assembly including at least one bearing cage configured to accommodate at least one rolling element of the bearing, a driven oscillator circuit configured to be attached to a stationary element of the bearing including a primary coil configured to interact with a passive oscillator circuit, a function generator configured to generate signals to be transmitted to a passive oscillator circuit by the primary coil, and a tuned receiver configured to receive a feedback signal corresponding to the signals generated by the function generator and reflected from the passive oscillator circuit: the passive oscillator circuit including an inductor coil and a temperature dependent capacitance, the passive oscillator circuit being configured to be attached to the bearing cage such that the inductor coil interacts with the primary coil of the driven oscillator circuit, and a directional coupler is provided in a signal line between the function generator and the primary coil of the driven oscillator circuit, and wherein the directional coupler is arranged to output a feedback signal reflected from the passive resonant oscillator circuit in the cage toward the tuned receiver. 9. The sensor assembly according to claim 7 , wherein the primary coil and inductor coil are coaxial. 10. The sensor assembly according to claim 1 , further comprising: a notch in an axial surface of the bearing cage, wherein the inductor coil is configured for mounting in the notch. 11. The sensor assembly according to claim 10 , further comprising: a recess in the axial surface of the bearing cage, the recess being relatively larger than the notch, wherein the primary coil is configured for mounting in the recess. 12. The sensor assembly according to claim 1 , wherein the rolling element bearing further comprises at least one non-rotating element, and the driven oscillating circuit is configured to be attached to the non-rotating element. 13. The sensor assembly according to claim 1 , wherein the function generator generates signals corresponding to a range of frequencies and the passive oscillating circuit reflects the signal towards the active oscillating circuit, the feedback signal reflected from the passive oscillating circuit to the receiver includes oscillation frequency data corresponding to the range of frequencies, and the receiver determines the oscillation frequency associated with the highest amplitude allowing the temperature of the cage to be measured.