Powered surgical instruments with communication interfaces through sterile barrier

What is claimed is: 1. A surgical instrument system, comprising: a shaft comprising a nozzle portion including a rotatable conductive ring; a handle assembly releasably couplable to the shaft, wherein the handle assembly comprises: a disposable outer housing defining a sterile barrier, the disposable outer housing comprising: a first housing-portion; and a second housing-portion movable relative to the first housing-portion between an open configuration and a closed configuration; and a control inner core receivable inside the disposable outer housing in the open configuration, wherein the disposable outer housing is configured to isolate the control inner core within the sterile barrier in the closed configuration; an end effector releasably couplable to the shaft; an electrical interface assembly configured to transmit at least one of data and power between the control inner core and the end effector, the electrical interface assembly comprising: a first interface portion on a first side of the sterile barrier; and a second interface portion on a second side of the sterile barrier opposite the first side, wherein the first interface portion and the second interface portion are configured to cooperatively facilitate a wireless transmission of an electrical signal through the electrical interface assembly; and a control circuit configured to: detect a compatible connection between the end effector and the control inner core through the electrical interface assembly; and adjust a signal parameter of the electrical signal to improve a throughput of the at least one of data and power between the end effector and the control inner core. 2. The surgical instrument system of claim 1 , wherein detecting the compatible connection comprises an interrogation cycle. 3. The surgical instrument system of claim 1 , wherein the end effector comprises an identification chip, and wherein detecting the compatible connection is based on an identifier stored in the identification chip. 4. The surgical instrument system of claim 1 , wherein adjusting the signal parameter comprises changing at least one of a frequency, an amplitude, and a bandwidth of the electrical signal. 5. The surgical instrument system of claim 1 , wherein adjusting the signal parameter comprises deactivating a connection of the electrical interface assembly. 6. The surgical instrument system of claim 1 , wherein the first interface portion comprises a first magnetic bearing, and wherein the second interface portion comprises a second magnetic bearing synchronously rotatable with the first magnetic bearing to transmit a mechanical energy across the sterile barrier. 7. The surgical instrument system of claim 6 , wherein the second interface portion comprises a linear alternator configured to convert the mechanical energy into an electrical energy. 8. The surgical instrument system of claim 1 , wherein the second interface portion is frictionally attached to the rotatable conductive ring. 9. A surgical instrument system, comprising: a shaft comprising a nozzle portion including a rotatable conductive ring; a handle assembly releasably couplable to the shaft, wherein the handle assembly comprises: a disposable outer housing defining a sterile barrier, the disposable outer housing having an open configuration and a closed configuration; and a control inner core receivable inside the disposable outer housing in the open configuration, wherein the disposable outer housing is configured to isolate the control inner core within the sterile barrier in the closed configuration; an end effector releasably couplable to the shaft; an electrical interface assembly configured to transmit at least one of data and power between the control inner core and the end effector, the electrical interface assembly comprising: a first interface portion on a first side of the sterile barrier; and a second interface portion on a second side of the sterile barrier opposite the first side, wherein the first interface portion and the second interface portion are configured to cooperatively facilitate a wireless transmission of an electrical signal through the electrical interface assembly; and a control circuit configured to: detect a compatible connection between the end effector and the control inner core through the electrical interface assembly. 10. The surgical instrument system of claim 9 , wherein the control circuit is further configured to adjust a signal parameter of the electrical signal to improve a throughput of the at least one of data and power between the end effector and the control inner core. 11. The surgical instrument system of claim 10 , wherein adjusting the signal parameter comprises changing at least one of a frequency, an amplitude, and a bandwidth of the electrical signal. 12. The surgical instrument system of claim 10 , wherein detecting the compatible connection, adjusting the signal parameter, or combinations thereof is implemented by a connection circuit in communication with the control circuit. 13. The surgical instrument system of claim 12 , wherein the connection circuit is incorporated into the disposable outer housing of the handle assembly. 14. The surgical instrument system of claim 9 , wherein the end effector comprises a memory unit configured to store an identification code, and wherein detecting the compatible connection is based on the identification code stored in the memory unit. 15. The surgical instrument system of claim 9 , wherein the control circuit is further configured to determine whether one or more components or connections of the electrical interface assembly are shorted, whether the electrical signal is lost, or combinations thereof. 16. A surgical instrument system, comprising: a shaft; a handle assembly releasably couplable to the shaft, wherein the handle assembly comprises: a disposable outer housing defining a sterile barrier, the disposable outer housing having an open configuration and a closed configuration; and a control inner core receivable inside the disposable outer housing in the open configuration, wherein the disposable outer housing is configured to isolate the control inner core within the sterile barrier in the closed configuration, wherein the control inner core comprises a plurality of operating parameters configured to drive actuation of a specific set of functions unique to respective types of end effectors; an end effector releasably couplable to the shaft; an electrical interface assembly configured to transmit at least one of data and power between the control inner core and the end effector; and a control circuit configured to: set one or more operational parameters of the plurality of operating parameters of the control inner core based on an identifier received through the electrical interface assembly. 17. The surgical instrument system of claim 16 , wherein the plurality of operating parameters comprises speed of operation of one or more motors of the inner core, an amount of power to be delivered by the one or more motors of the inner core to the shaft, selection of the one or more motors of the inner core to be actuated, functions of the end effector to be performed by the inner core, or combinations thereof. 18. The surgical instrument system of claim 16 , wherein the control inner core comprises a motor for motivating a drive member configured to affect a closure motion and/or a firing motion in the end effector, and wherein the control circuit is configured to select a control scheme based on the identi