Power supply for body implant and method for operation
First Claim
1. A power supply system for an electric-powered device which is implanted within a living body, which system comprisesa secondary coil in the form of at least one turn of electrically conductive wire disposed within a biocompatible outer covering, which coil is of a size and configuration for subcutaneously encircling a major member of the living body, said coil further being of a size and configuration for location close to the exterior skin along at least a major portion of the length of said coil,a storage battery adapted for implantation within the living body,means for electrically interconnecting said secondary coil and said storage battery, and means for connecting said storage battery to the electric-powered device for supplying energy thereto,a primary coil in the form of an encircling belt having a width greater than the width of said secondary coil and being proportioned to fit around the exterior of the major member in radial alignment with said secondary coil, andan external power source in electrical connection with said primary coil which is operable to transcutaneously supply sufficient power, via said primary and secondary coils, to charge said implanted storage battery for operation of said implanted device.
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Accused Products
Abstract
A power supply system to operate an implanted electric-powered device such as a blood pump. A secondary coil having a biocompatible covering is implanted to subcutaneously encircle either the abdomen or the thigh at a location close to the exterior skin. The secondary coil is electrically interconnected with an implanted storage battery and the blood pump. A primary coil of overlapping width is worn by the patient at a location radially outward of the secondary coil. An external battery plus an inverter circuit in a pack is attached to a belt having a detachable buckle connector which is conventionally worn about the waist. Efficient magnetic coupling is achieved through the use of two air-core windings of relatively large diameter.
218 Citations
12 Claims
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1. A power supply system for an electric-powered device which is implanted within a living body, which system comprises
a secondary coil in the form of at least one turn of electrically conductive wire disposed within a biocompatible outer covering, which coil is of a size and configuration for subcutaneously encircling a major member of the living body, said coil further being of a size and configuration for location close to the exterior skin along at least a major portion of the length of said coil, a storage battery adapted for implantation within the living body, means for electrically interconnecting said secondary coil and said storage battery, and means for connecting said storage battery to the electric-powered device for supplying energy thereto, a primary coil in the form of an encircling belt having a width greater than the width of said secondary coil and being proportioned to fit around the exterior of the major member in radial alignment with said secondary coil, and an external power source in electrical connection with said primary coil which is operable to transcutaneously supply sufficient power, via said primary and secondary coils, to charge said implanted storage battery for operation of said implanted device.
- 9. A method of powering an electric-operated blood circulation device which is implanted within a living body, which method comprises implanting a storage battery within the living body and connecting said storage battery to the blood circulation device, implanting a secondary coil so that it subcutaneously encircles a major member of the living body at a location close to the exterior skin, electrically connecting said implanted coil to said implanted storage battery, surrounding said air-core secondary coil with a primary coil of a greater width which circumscribes said major member of the living body so that said primary and secondary coils are aligned, and applying sufficient A.C. power to said primary coil to provide a flux that transcutaneously reaches said secondary coil and induces sufficient A.C. voltage in said secondary coil to charge said implanted storage battery.
Specification