Implantable medical devices with electrically isolated batteries in a separate enclosure

What is claimed is: 1. A method of electrically isolating a battery of an implantable medical device, comprising: providing an implantable outer enclosure; providing an insulation enclosure; placing the battery inside of the insulation enclosure, the battery having battery terminals with conductive ferrules surrounding the battery terminals with an insulator between the conductive ferrules and the battery terminals; placing the insulation enclosure inside of the outer enclosure; and coupling the outer enclosure to a metal housing of the implantable medical device while the battery is inside of the insulation enclosure and while the insulation enclosure is inside of the outer enclosure with the battery terminals extending beyond the insulation enclosure and outer enclosure and into the metal housing of the implantable medical device, wherein the outer enclosure includes a top plate having an aperture to a pocket provided within the outer enclosure with the battery, insulation enclosure, and conductive ferrules being positioned within the pocket, the top plate having an outer surface defining a plane, the plane having a first dimension and a second dimension perpendicular to the first dimension, the top plate providing a first area creating a first amount of separation of an edge of the aperture at the first area to an outer edge of the top plate at the first area measured along the first dimension and the top plate providing a second area creating a second amount of separate of an edge of the aperture at the second area to the outer edge of the top plate at the second area measured along the second dimension, the first amount of separation being greater than the second amount of separation. 2. The method of claim 1 , wherein the outer enclosure is constructed of a biocompatible metal. 3. The method of claim 1 , wherein the insulation enclosure is constructed of a polymer. 4. An implantable medical device, comprising: an implantable metal housing; circuitry within the metal housing; an implantable outer enclosure coupled to the implantable metal housing, the outer enclosure including a top plate having an aperture to a pocket provided within the outer enclosure, the top plate having an outer surface defining a plane, the plane having a first dimension and a second dimension perpendicular to the first dimension, the top plate providing a first area creating a first amount of separation of an edge of the aperture at the first area to an outer edge of the top plate at the first area measured along the first dimension and the top plate providing a second area creating a second amount of separation of an edge of the aperture at the second area to the outer edge of the top plate at the second area measured along the second dimension, the first amount of separation being greater than the second amount of separation; an insulation enclosure inside of the outer enclosure and within the pocket; a battery inside of the insulation enclosure and within the pocket, the battery having battery terminals that extend beyond the insulation enclosure and the outer enclosure and into the metal housing and are electrically coupled to the circuitry with conductive ferrules positioned within the pocket and surrounding the battery terminals with an insulator between the conductive ferrules and the battery terminals. 5. The medical device of claim 4 , wherein the outer enclosure is constructed of a biocompatible metal. 6. The medical device of claim 4 , wherein the insulation enclosure is constructed of a polymer.