Partial discharge detection system

What is claimed is: 1. A partial discharge detection system for detecting a partial discharge in an electrical component, comprising: a transducer configured to receive a signal from the electrical component generated due to an occurrence of a partial discharge in the electrical component and responsively provide a transducer output signal; a signal processing chain including a detector which detects a baseband signal in the transducer output providing a filtered baseband output representative of the transducer output signal; a digital signal processor configured to perform a Discrete Fourier Transform (DFT) on the filtered baseband output and responsively generate a plurality of DFT coefficients which correspond to a plurality of different frequencies; and a controller configured to identify an occurrence of a partial discharge in the electrical component based upon the plurality of DFT coefficients. 2. The partial discharge detection system of claim 1 , wherein the signal processing chain comprises: a filter coupled to the transducer which filters the transducer output signal and responsively generates a filtered output; an amplifier coupled to the filter which amplifies the filtered output and responsively provides an amplified output; the detector which converts the amplified output to a detected baseband signal; and a filter which removes elements of the baseband signal that are not characteristic of partial discharge and outputs a filtered baseband output. 3. The partial discharge detection system of claim 1 wherein the transducer comprises a radio frequency coupling structure. 4. The partial discharge detection system of claim 1 wherein the transducer comprises an optical detector. 5. The partial discharge detection system of claim 1 wherein the transducer comprises a microphone. 6. The partial discharge detection system of claim 3 wherein the radio frequency coupling structure comprises a UHF antenna. 7. The partial discharge detection system of claim 3 wherein the radio frequency coupling structure comprises a capacitor. 8. The partial discharge detection system of claim 3 wherein the radio frequency coupling structure comprises an induction coil. 9. The partial discharge detection system of claim 1 including a plurality of transducers. 10. The partial discharge detection system of claim 1 wherein the transducer is located within a housing of the electrical component. 11. The partial discharge detection system of claim 1 wherein the transducer is located external to a housing of the electrical component. 12. The partial discharge detection system of claim 9 including a transducer selection switch to switch between the plurality of transducers. 13. The partial discharge detection system of claim 1 wherein the signal processing chain includes a common mode filter configured to filter common mode signals from the transducer output signal. 14. The partial discharge detection system of claim 1 wherein the signal processing chain includes a band pass filter. 15. The partial discharge detection system of claim 1 wherein the signal processing chain includes a plurality of band pass filters configured to filter the transducer output signal. 16. The partial discharge detection system of claim 15 including a filter selection switch configured to switch between outputs of the plurality of the band pass filters. 17. The partial discharge detection system of claim 1 wherein the signal processing chain includes a log detector which provides a logrithmic output related to the amplified output. 18. The partial discharge detection system of claim 17 wherein the signal processing chain includes a baseband filter which filters a baseband signal by removing unwanted noise from the logrithmic output. 19. The partial discharge detection system of claim 1 wherein the signal processing chain includes a peak detector to hold nanosecond scale events sufficiently long to be detected by microsecond scale A/D converters. 20. The partial discharge detection system of claim 1 wherein the digital signal processor and controller are implemented in one or more microprocessors. 21. The partial discharge detection system of claim 1 wherein the digital signal processor and controller are implemented in a field programmable gate array. 22. The partial discharge detection system of claim 16 wherein the filter selection switch is controlled by the controller. 23. The partial discharge detection system of claim 12 wherein the transducer selection switch is controlled by the controller. 24. The partial discharge detection system of claim 1 wherein the controller identifies an occurrence of a partial discharge based upon a detection of even harmonics of a line power frequency in the plurality of DFT coefficients relative to other harmonics in a second plurality of DFT coefficients. 25. The partial discharge detection system of claim 1 wherein the controller is further configured to identify a corona discharge. 26. The partial discharge detection system of claim 24 wherein a corona discharge is identified based upon odd harmonics in the plurality of DFT coefficients relative to other harmonics in a second plurality of DFT coefficients. 27. The partial discharge detection system of claim 1 wherein an occurrence of a partial discharge is identified based upon a magnitude of a calculation in the plurality of DFT coefficients. 28. The partial discharge detection system of claim 1 wherein a partial discharge is identified based upon counting a number of events detected while calculating the plurality of DFT coefficients. 29. The partial discharge detection system of claim 1 wherein the controller identifies an occurrence of a partial discharge based upon a comparison to a threshold.