External energy transfer system for an implantable medical device and method therefor

1 .- 51 . (canceled) 52 . An implantable medical device system, comprising: an implantable medical device having a secondary coil, said implantable medical device being configured to be transcutaneously controlled using telemetry; and an external unit comprising a primary coil configured to inductively transfer energy to said secondary coil of said implantable medical device when said primary coil is externally placed in proximity of said secondary coil and said external unit drives said primary coil; said external unit being configured to communicate with said implantable medical device by way of telemetry during the process of transferring, via said primary coil, energy to said implantable medical device; wherein said external unit is configured to time division multiplex between said telemetry and said process of transferring energy. 53 . The implantable medical device system as in claim 52 wherein said external unit comprises circuitry and wherein said circuitry of said external unit drives said primary coil to inductively transfer energy to said implantable medical device. 54 . The implantable medical device system as in claim 52 wherein said external unit is configured to be attachable to said primary coil. 55 . The implantable medical device as in claim 54 wherein said external unit is configured to be attachable to said primary coil by a cord. 56 . The implantable medical device as in claim 52 wherein said external unit further comprises a telemetry coil and wherein said external unit is configured to communicate with said implantable medical device through said telemetry coil. 57 . The system as in claim 52 wherein said implantable medical device has a rechargeable energy storage device and wherein said external unit charges said rechargeable energy storage device. 58 . The system as in claim 52 wherein said external unit comprises a display configured to display information regarding said system. 59 . The system as in claim 52 wherein said external unit comprises a rechargeable power source operatively coupled to said circuitry of said external unit. 60 . The system as in claim 52 wherein said external unit is configured to be operated with said external unit lacking a screen and input buttons. 61 . The system as in claim 52 wherein said external unit is configured to be operated without an internal power source. 62 . An external energy transfer system configured to transcutaneously transfer energy to an implantable medical device, said implantable medical device capable of receiving inductively coupled energy with a secondary coil and being capable of being transcutaneously controlled using telemetry, comprising: an external unit having a primary coil, said external unit configured to inductively transfer energy to said secondary coil of said implantable medical device when said primary coil is externally placed in proximity of said secondary coil and said external unit is driving said primary coil; and said external unit being configured to communicate with said implantable medical device by way of telemetry during the process of transferring, via said primary coil, energy to said implantable medical device; wherein said external unit is configured to time division multiplex between said telemetry and said process of transferring energy. 63 . The external energy transfer system as in claim 62 wherein said external unit comprises circuitry and wherein said circuitry of said external unit drives said primary coil to inductively transfer energy to said implantable medical device. 64 . The external energy transfer system as in claim 62 wherein said external unit is configured to be attachable to said primary coil. 65 . The energy transfer system as in claim 64 wherein said external unit is configured to be attachable to said primary coil by a cord. 66 . The energy transfer system as in claim 65 wherein said external unit further comprises a telemetry coil and wherein said external unit is configured to communicate with said implantable medical device through said telemetry coil. 67 . The external energy transfer system as in claim 65 wherein said implantable medical device has a rechargeable energy storage device and wherein said external unit charges said rechargeable energy storage device. 68 . The external energy transfer system as in claim 65 wherein said external unit comprises a display configured to display information regarding said system. 69 . The external energy transfer system as in claim 62 wherein said external unit comprises a rechargeable power source operatively coupled to said circuitry of said external unit. 70 . The external energy transfer system as in claim 62 wherein said external unit is configured to be operated with said external unit lacking a screen and input buttons. 71 . The external energy transfer system as in claim 62 wherein said external unit is configured to be operated without an internal power source. 72 . A method of controlling an implantable medical device, said implantable medical device capable of receiving inductively coupled energy with a secondary coil and being capable of being transcutaneously controlled using telemetry, comprising the steps of: inductively transferring energy to said secondary coil with an external unit having a primary coil when said primary coil is externally placed in proximity of said secondary coil; driving said primary coil with an external unit to inductively transfer energy to said implantable medical device; and communicating between said external unit and said implantable medical device through telemetry; wherein time division multiplexing occurs between said telemetry and said inductively transferring energy. 73 . The method as in claim 72 wherein said driving step further comprises driving said primary coil with circuitry of said external unit to inductively transfer energy to said implantable medical device. 74 . The method as in claim 72 wherein said external unit is configured to be attachable to said primary coil. 75 . The method as in claim 74 wherein said external unit is configured to be attachable to said primary coil by a cord. 76 . The method as in claim 72 wherein said external unit further comprises a telemetry coil and wherein communicating between said external unit and said implantable medical device comprises communicating during said inductively transferring step, between said telemetry coil of said external unit and said implantable medical device. 77 . The method as in claim 72 wherein said communicating step is accomplished, at least in part, utilizing time division multiplexing. 78 . The method as in claim 72 wherein said implantable medical device has a rechargeable energy storage device and wherein said external unit charges said rechargeable energy storage device. 79 . The method as in claim 72 further comprising the step of displaying information regarding said system using a display. 80 . The method as in claim 72 wherein said external unit is configured to be operated with said external unit lacking a screen and input buttons. 81 . The method as in claim 72 wherein said external unit is configured to be operated without an internal power source.