Sintered capacitor electrode including multiple thicknesses

What is claimed is: 1. An apparatus, comprising: a capacitor case sealed to retain electrolyte; a first electrode disposed in the capacitor case; a conductor coupled to the first electrode in electrical communication with the conductor, the conductor sealingly extending through the capacitor case to a terminal disposed on an exterior of the capacitor case, with the terminal in electrical communication with the first electrode; a second electrode disposed in the capacitor case in a stack with the first electrode and adjacent the first electrode, the second electrode having a second electrode thickness; a first separator disposed between the first electrode and the second electrode and having a first separator thickness; a third electrode disposed in the capacitor in the stack with the first electrode and the second electrode and adjacent the second electrode, the third electrode in electrical communication with the first electrode and including a first sintered portion of a first thickness, and a second portion of a second thickness larger than the first thickness; a second separator disposed between the third electrode and the second electrode and having a second separator thickness; and a second terminal disposed on the exterior of the capacitor case and in electrical communication with the second electrode, with the terminal and the second terminal electrically isolated from one another, wherein the second thickness of the third electrode is substantially equivalent to a total thickness of the first thickness of the third electrode plus the second electrode thickness plus the first separator thickness plus the second separator thickness. 2. The apparatus of claim 1 , wherein a plurality of anodes, each including a sintered portion disposed on a respective substrate of a plurality of substrates, are stacked against one another and electrically interconnected to one another. 3. The apparatus of claim 1 , wherein the second portion includes a sintered portion. 4. The apparatus of claim 3 , wherein the sintered portion is disposed on a substrate that extends between the first sintered portion and the second portion, with the first sintered portion and the second portion separated by a space. 5. The apparatus of claim 1 , wherein the second portion includes a conductive epoxy. 6. The apparatus of claim 5 , wherein the second portion includes a sintered portion doped with the conductive epoxy. 7. A system, comprising: a hermetically sealed device housing; a battery disposed in the hermetically sealed device housing; a capacitor disposed in the hermetically sealed device housing, the capacitor comprising: a capacitor case sealed to retain electrolyte; a first electrode disposed in the capacitor case; a conductor coupled to the first electrode in electrical communication with the conductor, the conductor sealingly extending through the capacitor case to a terminal disposed on an exterior of the capacitor case, with the terminal in electrical communication with the first electrode; a second electrode disposed in the capacitor case in a stack with the first electrode and adjacent the first electrode, the second electrode having a second electrode thickness; a first separator disposed between the first electrode and the second electrode and having a first separator thickness; a third electrode disposed in the capacitor in the stack with the first electrode and the second electrode and adjacent the second electrode, the third electrode in electrical communication with the first electrode and including a first sintered portion of a first thickness, and a second portion of a second thickness larger than the first thickness; a second separator disposed between the third electrode and the second electrode and having a second separator thickness; and a second terminal disposed on the exterior of the capacitor case and in electrical communication with the second electrode, with the terminal and the second terminal electrically isolated from one another, wherein the second thickness of the third electrode is substantially equivalent to a total thickness of the first thickness of the third electrode plus the second electrode thickness plus the first separator thickness plus the second separator thickness, and an electronic cardiac rhythm management circuit coupled to the battery and the capacitor and adapted to discharge the capacitor to provide a therapeutic defibrillation pulse. 8. The system of claim 7 , wherein the electronic cardiac rhythm management circuit comprises a defibrillator circuit. 9. The system of claim 8 , wherein first electrode is part of an anode and the second electrode is part of a cathode, and the defibrillator circuit is to discharge the anode and the cathode to provide a single therapeutically effective defibrillator pulse. 10. The system of claim 9 , wherein the anode and the cathode are sized and packaged to deliver a defibrillation pulse of approximately 50 joules.