Optical signal transmission device with magnetic interface coupling

We claim: 1. A camera controller for receiving optical data signals, the camera controller configured to receive optical signals and process them, the camera controller comprising: a first interface comprising an optical data receiver for receiving the optical data and a first engagement surface, the first engagement surface couplable with a second engagement surface, where the second engagement surface contains a first magnetic member and is an element of a camera system that comprises an optical data transmitter; and wherein, the receiver and the transmitter are positioned to a corresponding first port and second port, and wherein the ports are fixed respectively to a corresponding first cam surface on the first interface and second cam surface on the second engagement surface, configured that when the first cam surface is mated to the second cam surface the first port and the second port are aligned to facilitate the transmission of the optical signal from the optical data transmitter to the optical data receiver. 2. The camera controller of claim 1 , wherein the camera controller is further configured to wirelessly transmit command signals to the camera system. 3. The camera controller of claim 2 , wherein the camera controller is configured to optically transmit the command signals to the camera system. 4. The camera controller of claim 3 , wherein the receiver is a transceiver, and the received optical data and the transmitted command signals are transmitted and received optically by the transceiver. 5. The camera controller of claim 3 , wherein the transceiver comprises an expanded beam transceiver. 6. The camera controller of claim 4 , wherein the transceiver comprises an expanded beam transceiver. 7. The camera controller of claim 4 , further comprising a plurality of additional optical data receivers comprised within additional first ports configured to align with additional optical data transmitters comprised within additional second ports of the attached camera system. 8. The camera controller of claim 1 , further comprising an inductive power generating device comprising a first coil configured to transmit power over a magnetic field to a corresponding second coil of the camera system. 9. The camera controller of claim 4 , further comprising an inductive power generating device comprising a first coil configured to transmit power over a magnetic field to a corresponding second coil of the camera system. 10. The camera controller of claim 3 , wherein there are no physical electronic connections between the first interface and the second interface. 11. The camera controller of claim 9 , wherein the inductive power generating device is centered relative to an outer surface of the first interface. 12. The camera controller of claim 9 , further configured such that when the first cam surface is registered to the second cam surface, the first coil of the camera controller is aligned to the second coil of the camera system. 13. The camera controller of claim 1 , further comprising a housing, the housing comprising a housing panel that comprises the first interface, wherein the first interface is comprised as an outer surface comprising the first engagement surface and an inner surface, the inner surface facing an interior of the housing; and a target element disposed within the housing, the target element including a second magnetic member, wherein the first cam surface and the second cam surface are further configured, when mated, to induce an axial displacement, from a first position along an axis to a second position along the axis, of the target element, drawing it towards the second engagement surface, thereby increasing a magnetic attraction between the second engagement surface and the first engagement surface, the first engagement surface being located between the second engagement surface and the target element. 14. The camera controller of claim 13 , further configured such that when the first cam surface and second cam surface are not mated, the target element retracts from the second position to the first position. 15. The camera controller of claim 14 , wherein the displacement of the target element from the first position to the second position is induced by magnetic attraction to the second engagement surface. 16. A method to communicate optical data between a camera system and a camera control device, comprising the steps of: providing a camera control unit, the camera control unit comprising a first interface comprising a first engagement surface, and an optical data receiver; providing a camera system comprising an image sensor and a connector, the connector comprising a magnetic member, a second engagement surface, and an optical data transmitter; coupling the first engagement surface to the second engagement surface; and transmitting the optical data from the camera system to the camera control unit, wherein there are no electronic connections between the camera control unit and camera system, wherein the step of coupling the first engagement surface to the second engagement surface comprises the step of increasing a magnetic attraction between the camera control unit and the second engagement surface of the connector. 17. The method of claim 16 , comprising the further step of communicating camera control instructions from the camera control unit to the camera system by transmitting optical data from the camera control unit to the camera system, wherein the optical data receiver of the camera control unit is an optical data transceiver, and wherein the optical data transmitter of the camera system is an optical data transceiver. 18. The method of claim 16 , wherein the step of increasing the magnetic attraction between the camera control unit and the second engagement surface of the connector comprises the further step of inducing an axial displacement of a target element positioned within the camera control unit, the target element comprising a second magnetic member configured to be attractive to the first magnetic member of the second engagement surface of the camera system. 19. The method of claim 17 , wherein the step of coupling the first engagement surface to the second engagement surface comprises the step of mating a first cam surface within the first engagement surface with a second cam surface within the second engagement surface.