Graduated frequency response non-contacting slip ring probe

What is claimed is: 1. A non-contacting rotary joint for transmission of electrical signals across a non-contacting interface defined between two relatively-movable members, comprising: a transmitter configured to transmit a signal across a non-contacting interface; a near-field probe arranged in spaced relation to said transmitter and operatively arranged to receive said signal transmitted across said interface; said near-field probe having a signal capture area for receiving said signal transmitted across said interface; said signal capture area comprising a segmented signal receiving strip having a length sized for a desired low frequency signal content of said signal and configured to receive a range of frequency signal content of said signal that includes said desired low frequency signal content of said signal, said segmented signal receiving strip comprising: a first signal receiving segment having a first frequency response; a second signal receiving segment having a second frequency response and electrically coupled to said first signal receiving segment; a third signal receiving segment having a third frequency response and electrically coupled to said first signal receiving segment; said second frequency response of said second signal receiving segment being less than said first frequency response of said first signal receiving segment; and said third frequency response of said third signal receiving segment being less than said first frequency response of said first signal receiving segment; and receiving electronics operatively arranged to receive said range of frequency signal content received by said segmented signal receiving strip via said first signal receiving segment. 2. The non-contacting rotary joint of claim 1 , wherein: said first signal receiving segment has a first length; said second signal receiving segment has a second length greater than said first length; and said third signal receiving segment has a third length greater than said first length. 3. The non-contacting rotary joint of claim 2 , wherein said segmented signal receiving strip comprises: a first dissipation element positioned between the first signal receiving segment and the second signal receiving segment and configured to isolate said first signal receiving segment from said second signal receiving segment; and a second dissipation element positioned between said first signal receiving segment and said third signal receiving segment and configured to isolate said first signal receiving segment from said third signal receiving segment. 4. The non-contacting rotary joint of claim 3 , wherein said first dissipation element and said second dissipation element each comprise a resistor. 5. The non-contacting rotary joint of claim 1 , wherein said second signal receiving segment comprises an electrically coupled resistor and capacitor arranged to provide a signal filter and said third signal receiving segment comprises an electrically coupled resistor and capacitor arranged to provide a signal filter. 6. The non-contacting rotary joint of claim 5 , wherein: said first signal receiving segment has a first length; said second signal receiving segment has a second length equal to said first length; and said third signal receiving segment has a third length equal to said first length. 7. The non-contacting rotary joint of claim 5 , wherein said segmented signal receiving strip comprises: a first dissipation element positioned between the first signal receiving segment and the second signal receiving segment and configured to isolate said first signal receiving segment from said second signal receiving segment; and a second dissipation element positioned between said first signal receiving segment and said third signal receiving segment and configured to isolate said first signal receiving segment from said third signal receiving segment. 8. The non-contacting rotary joint of claim 1 , wherein said first signal receiving segment, said second signal receiving element and said third signal receiving element each comprise copper. 9. The non-contacting rotary joint of claim 1 , wherein: said first frequency response of said first signal receiving segment corresponds to a first frequency subrange of said range of frequency signal content of said signal; and said second frequency response of said second signal receiving segment corresponds to a second frequency subrange of said range of frequency signal content of said signal; and said first frequency subrange of said range of frequency signal content of said signal is greater than said second frequency subrange of said range of frequency signal content of said signal. 10. The non-contacting rotary joint of claim 1 , wherein said signal transmitted across said non-contacting interface by said transmitter is a high-speed digital data output signal. 11. The non-contacting rotary joint of claim 1 , wherein: said transmitter comprises a signal source operatively arranged to provide a high speed digital data output signal, a controlled-impedance differential transmission line having a source gap and a termination gap, a power divider operatively arranged to receive said high-speed digital data output signal from said signal source, and to supply said high-speed digital data output signal from said signal source to said source gap of said controlled-impedance differential transmission line; and said near-field probe is arranged in spaced relation to said controlled-impedance differential transmission line and is operatively arranged to receive said signal transmitted across said non-contacting interface by said transmitter. 12. The non-contacting rotary joint of claim 1 , wherein said segmented signal receiving strip comprises: at least two additional signal receiving segments; each of said additional signal receiving segments having a frequency response and being electrically coupled to said first signal receiving segment; and wherein said frequency response of each additional signal receiving segment decreases the further said additional signal receiving segment is from said first signal receiving segment. 13. The non-contacting rotary joint of claim 12 , comprising at least one dissipation element positioned between each of said second signal receiving segment, said third signal receiving segment, and said additional signal receiving segments, and said dissipation elements configured to isolate said respective signal receiving segments from each other. 14. The non-contacting rotary joint of claim 12 , wherein the length of each additional signal receiving segment increases the further said additional signal receiving segment is from said first signal receiving segment. 15. The non-contacting rotary joint of claim 12 , wherein each of said second signal receiving segment, said third signal receiving segment, and said additional signal receiving segments comprise an electrically coupled resistor and capacitor arranged to provide a signal filter. 16. The non-contacting rotary joint of claim 1 , wherein said first signal receiving segment comprises a center tap communicating with said receiving electronics. 17. The non-contacting rotary joint of claim 1 , comprising: a second segmented signal receiving strip orientated parallel to said segmented signal receiving strip; said second segmented signal receiving strip comprising: a first signal receiving segment having a first frequency response; a second signal receiving segment having a second frequency response and electrically coupled to said first signal receiving se