Non-contact surgical adapter electrical interface

What is claimed: 1. A surgical instrument comprising: a receiving portion including a protrusion and an energy source; an attachment including: an energy storage device; a proximal end releasably coupled to a distal end of the receiving portion, the attachment defining a recess configured to receive the protrusion; and a signal processor disposed within the attachment and energizable by the energy storage device; and a non-contact electrical interface configured to wirelessly transfer energy from the receiving portion to the attachment and configured to wirelessly transmit data between the attachment and the receiving portion, the non-contact electrical interface including a proximal electrical coil coupled to the signal processor and the energy source and disposed within the protrusion, and a distal electrical coil electrically coupled to the energy storage device and disposed within the attachment adjacent the recess. 2. The surgical instrument of claim 1 , wherein when the attachment is coupled to the receiving portion the proximal and distal electrical coils form a transformer. 3. The surgical instrument of claim 1 , wherein the proximal electrical coil inductively transfers energy to the distal electrical coil, and the distal electrical coil inductively transmits data to the proximal electrical coil. 4. The surgical instrument of claim 1 , wherein the electrical interface includes a signal processor disposed within the attachment, the signal processor configured to create high frequency signals from data signals and transmit the high frequency signals to the distal electrical coil. 5. The surgical instrument of claim 4 , wherein the electrical interface further includes a plurality of sensors disposed within the attachment, the plurality of sensors configured to generate and transmit data signals to the signal processor. 6. The surgical instrument of claim 5 , wherein the energy storage device is configured to energize the plurality of sensors. 7. The surgical instrument of claim 4 , wherein the electrical interface includes a filter disposed within the receiving portion, wherein the filter is electrically coupled to the proximal electrical coil, and wherein the filter is configured to reconstruct the data signals from the high frequency signals. 8. The surgical instrument of claim 7 , wherein the receiving portion includes a display configured to display information from the reconstructed data signals to a user. 9. A surgical instrument comprising: a receiving portion including a protrusion; an attachment including: a proximal end releasably coupled to a distal end of the receiving portion, the attachment defining a recess configured to receive the protrusion; and a signal processor disposed within the attachment; and a non-contact electrical interface configured to wirelessly transfer energy from the receiving portion to the attachment and to wirelessly transmit data between the attachment and the receiving portion, the non-contact electrical interface including: a proximal electrical coil coupled to the signal processor and disposed within the protrusion; a distal electrical coil disposed within the attachment adjacent the recess; and a control circuit configured to wirelessly transmit control signals from the receiving portion to the attachment, wherein the control circuit includes a proximal control coil disposed within the protrusion and a distal control coil disposed within the attachment at a location adjacent to the recess, the proximal and distal control coils forming a control transformer when the attachment is coupled to the receiving portion to inductively transmit control signals from the receiving portion to the attachment. 10. The surgical instrument of claim 9 , wherein the receiving portion includes a control interface and the electrical interface includes a processor disposed within the receiving portion, the processor configured to receive control inputs from the control interface and to receive data from the attachment, the processor configured to generate control signals from the control inputs and from the data, the processor configured to transmit the control signals to the proximal control coil. 11. A surgical instrument further comprising: a receiving portion including a protrusion; an attachment including: a proximal end releasably coupled to a distal end of the receiving portion, the attachment defining a recess configured to receive the protrusion; and a signal processor disposed within the attachment; and a non-contact electrical interface configured to wirelessly transfer energy from the receiving portion to the attachment and configured to wirelessly transmit data between the attachment and the receiving portion, the non-contact electrical interface including a proximal electrical coil coupled to the signal processor and disposed within the protrusion, and a distal electrical coil disposed within the attachment adjacent the recess; and a loading unit releasably coupled to a distal end of the attachment and to form a second electrical interface, the second electrical interface configured to inductively transfer energy from the attachment to the loading unit and configured to inductively transmit data signals from the loading unit to the attachment.